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-rw-r--r--kaldi_io/src/tools/openfst/include/fst/accumulator.h745
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/add-on.h306
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/arc-map.h1146
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/arc.h307
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/arcfilter.h99
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/arcsort.h217
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/bi-table.h532
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/cache.h861
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/closure.h155
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/compact-fst.h1438
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/compat.h131
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/complement.h338
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/compose-filter.h542
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/compose.h728
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/concat.h246
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/config.h12
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/connect.h319
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/const-fst.h497
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/determinize.h1015
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/dfs-visit.h205
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/difference.h189
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/edit-fst.h779
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/encode.h599
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/epsnormalize.h73
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/equal.h124
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/equivalent.h275
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/expanded-fst.h189
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/expectation-weight.h142
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/compile-strings.h304
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/create.h87
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/equal.h99
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/extract.h140
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/far.h532
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/farlib.h31
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/farscript.h273
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/info.h128
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/main.h43
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/print-strings.h138
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/stlist.h305
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/far/sttable.h371
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/ngram/bitmap-index.h183
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/ngram/ngram-fst.h934
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/extensions/ngram/nthbit.h46
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/factor-weight.h475
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/flags.h242
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/float-weight.h601
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/fst-decl.h124
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/fst.h949
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/fstlib.h153
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/generic-register.h159
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/heap.h206
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/icu.h116
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/intersect.h172
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/interval-set.h381
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/invert.h125
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/label-reachable.h565
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/lexicographic-weight.h151
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/lock.h100
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/log.h66
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/lookahead-filter.h698
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/lookahead-matcher.h812
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/map.h121
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/mapped-file.h83
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/matcher-fst.h359
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/matcher.h1205
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/minimize.h591
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/mutable-fst.h378
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/pair-weight.h280
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/partition.h305
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/power-weight.h159
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/product-weight.h115
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/project.h148
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/properties.h460
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/prune.h339
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/push.h175
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/queue.h938
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/randequivalent.h135
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/randgen.h712
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/random-weight.h348
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/rational.h330
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/register.h133
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/relabel.h528
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/replace-util.h550
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/replace.h1453
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/reverse.h91
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/reweight.h146
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/rmepsilon.h600
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/rmfinalepsilon.h107
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/arcsort.h49
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/arg-packs.h240
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/closure.h41
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/compile-impl.h216
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/compile.h92
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/compose.h63
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/concat.h54
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/connect.h45
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/convert.h49
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/decode.h46
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/determinize.h68
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/difference.h67
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/disambiguate.h68
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/draw-impl.h234
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/draw.h114
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/encode.h58
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/epsnormalize.h44
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/equal.h45
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/equivalent.h47
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/fst-class.h382
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/fstscript-decl.h35
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/fstscript.h154
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/info-impl.h325
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/info.h48
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/intersect.h65
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/invert.h43
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/map.h123
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/minimize.h45
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/print-impl.h149
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/print.h86
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/project.h43
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/prune.h153
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/push.h70
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/randequivalent.h105
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/randgen.h76
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/register.h120
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/relabel.h102
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/replace.h62
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/reverse.h42
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/reweight.h53
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/rmepsilon.h211
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/script-impl.h206
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/shortest-distance.h250
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/shortest-path.h190
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/symbols.h20
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/synchronize.h42
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/text-io.h51
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/topsort.h40
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/union.h42
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/verify.h40
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/script/weight-class.h223
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/shortest-distance.h348
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/shortest-path.h501
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/signed-log-weight.h367
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/slist.h61
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/sparse-power-weight.h225
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/sparse-tuple-weight.h640
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/state-map.h605
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/state-reachable.h198
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/state-table.h481
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/statesort.h97
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/string-weight.h560
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/string.h271
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/symbol-table-ops.h91
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/symbol-table.h537
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/synchronize.h457
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/test-properties.h250
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/topsort.h112
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/tuple-weight.h332
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/types.h38
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/union-find.h110
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/union.h185
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/util.h437
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/vector-fst.h731
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/verify.h126
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/visit.h284
-rw-r--r--kaldi_io/src/tools/openfst/include/fst/weight.h179
165 files changed, 0 insertions, 46166 deletions
diff --git a/kaldi_io/src/tools/openfst/include/fst/accumulator.h b/kaldi_io/src/tools/openfst/include/fst/accumulator.h
deleted file mode 100644
index 81d1847..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/accumulator.h
+++ /dev/null
@@ -1,745 +0,0 @@
-// accumulator.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Classes to accumulate arc weights. Useful for weight lookahead.
-
-#ifndef FST_LIB_ACCUMULATOR_H__
-#define FST_LIB_ACCUMULATOR_H__
-
-#include <algorithm>
-#include <functional>
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <vector>
-using std::vector;
-
-#include <fst/arcfilter.h>
-#include <fst/arcsort.h>
-#include <fst/dfs-visit.h>
-#include <fst/expanded-fst.h>
-#include <fst/replace.h>
-
-namespace fst {
-
-// This class accumulates arc weights using the semiring Plus().
-template <class A>
-class DefaultAccumulator {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- DefaultAccumulator() {}
-
- DefaultAccumulator(const DefaultAccumulator<A> &acc) {}
-
- void Init(const Fst<A>& fst, bool copy = false) {}
-
- void SetState(StateId) {}
-
- Weight Sum(Weight w, Weight v) {
- return Plus(w, v);
- }
-
- template <class ArcIterator>
- Weight Sum(Weight w, ArcIterator *aiter, ssize_t begin,
- ssize_t end) {
- Weight sum = w;
- aiter->Seek(begin);
- for (ssize_t pos = begin; pos < end; aiter->Next(), ++pos)
- sum = Plus(sum, aiter->Value().weight);
- return sum;
- }
-
- bool Error() const { return false; }
-
- private:
- void operator=(const DefaultAccumulator<A> &); // Disallow
-};
-
-
-// This class accumulates arc weights using the log semiring Plus()
-// assuming an arc weight has a WeightConvert specialization to
-// and from log64 weights.
-template <class A>
-class LogAccumulator {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- LogAccumulator() {}
-
- LogAccumulator(const LogAccumulator<A> &acc) {}
-
- void Init(const Fst<A>& fst, bool copy = false) {}
-
- void SetState(StateId) {}
-
- Weight Sum(Weight w, Weight v) {
- return LogPlus(w, v);
- }
-
- template <class ArcIterator>
- Weight Sum(Weight w, ArcIterator *aiter, ssize_t begin,
- ssize_t end) {
- Weight sum = w;
- aiter->Seek(begin);
- for (ssize_t pos = begin; pos < end; aiter->Next(), ++pos)
- sum = LogPlus(sum, aiter->Value().weight);
- return sum;
- }
-
- bool Error() const { return false; }
-
- private:
- double LogPosExp(double x) { return log(1.0F + exp(-x)); }
-
- Weight LogPlus(Weight w, Weight v) {
- double f1 = to_log_weight_(w).Value();
- double f2 = to_log_weight_(v).Value();
- if (f1 > f2)
- return to_weight_(f2 - LogPosExp(f1 - f2));
- else
- return to_weight_(f1 - LogPosExp(f2 - f1));
- }
-
- WeightConvert<Weight, Log64Weight> to_log_weight_;
- WeightConvert<Log64Weight, Weight> to_weight_;
-
- void operator=(const LogAccumulator<A> &); // Disallow
-};
-
-
-// Stores shareable data for fast log accumulator copies.
-class FastLogAccumulatorData {
- public:
- FastLogAccumulatorData() {}
-
- vector<double> *Weights() { return &weights_; }
- vector<ssize_t> *WeightPositions() { return &weight_positions_; }
- double *WeightEnd() { return &(weights_[weights_.size() - 1]); };
- int RefCount() const { return ref_count_.count(); }
- int IncrRefCount() { return ref_count_.Incr(); }
- int DecrRefCount() { return ref_count_.Decr(); }
-
- private:
- // Cummulative weight per state for all states s.t. # of arcs >
- // arc_limit_ with arcs in order. Special first element per state
- // being Log64Weight::Zero();
- vector<double> weights_;
- // Maps from state to corresponding beginning weight position in
- // weights_. Position -1 means no pre-computed weights for that
- // state.
- vector<ssize_t> weight_positions_;
- RefCounter ref_count_; // Reference count.
-
- DISALLOW_COPY_AND_ASSIGN(FastLogAccumulatorData);
-};
-
-
-// This class accumulates arc weights using the log semiring Plus()
-// assuming an arc weight has a WeightConvert specialization to and
-// from log64 weights. The member function Init(fst) has to be called
-// to setup pre-computed weight information.
-template <class A>
-class FastLogAccumulator {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- explicit FastLogAccumulator(ssize_t arc_limit = 20, ssize_t arc_period = 10)
- : arc_limit_(arc_limit),
- arc_period_(arc_period),
- data_(new FastLogAccumulatorData()),
- error_(false) {}
-
- FastLogAccumulator(const FastLogAccumulator<A> &acc)
- : arc_limit_(acc.arc_limit_),
- arc_period_(acc.arc_period_),
- data_(acc.data_),
- error_(acc.error_) {
- data_->IncrRefCount();
- }
-
- ~FastLogAccumulator() {
- if (!data_->DecrRefCount())
- delete data_;
- }
-
- void SetState(StateId s) {
- vector<double> &weights = *data_->Weights();
- vector<ssize_t> &weight_positions = *data_->WeightPositions();
-
- if (weight_positions.size() <= s) {
- FSTERROR() << "FastLogAccumulator::SetState: invalid state id.";
- error_ = true;
- return;
- }
-
- ssize_t pos = weight_positions[s];
- if (pos >= 0)
- state_weights_ = &(weights[pos]);
- else
- state_weights_ = 0;
- }
-
- Weight Sum(Weight w, Weight v) {
- return LogPlus(w, v);
- }
-
- template <class ArcIterator>
- Weight Sum(Weight w, ArcIterator *aiter, ssize_t begin,
- ssize_t end) {
- if (error_) return Weight::NoWeight();
- Weight sum = w;
- // Finds begin and end of pre-stored weights
- ssize_t index_begin = -1, index_end = -1;
- ssize_t stored_begin = end, stored_end = end;
- if (state_weights_ != 0) {
- index_begin = begin > 0 ? (begin - 1)/ arc_period_ + 1 : 0;
- index_end = end / arc_period_;
- stored_begin = index_begin * arc_period_;
- stored_end = index_end * arc_period_;
- }
- // Computes sum before pre-stored weights
- if (begin < stored_begin) {
- ssize_t pos_end = min(stored_begin, end);
- aiter->Seek(begin);
- for (ssize_t pos = begin; pos < pos_end; aiter->Next(), ++pos)
- sum = LogPlus(sum, aiter->Value().weight);
- }
- // Computes sum between pre-stored weights
- if (stored_begin < stored_end) {
- sum = LogPlus(sum, LogMinus(state_weights_[index_end],
- state_weights_[index_begin]));
- }
- // Computes sum after pre-stored weights
- if (stored_end < end) {
- ssize_t pos_start = max(stored_begin, stored_end);
- aiter->Seek(pos_start);
- for (ssize_t pos = pos_start; pos < end; aiter->Next(), ++pos)
- sum = LogPlus(sum, aiter->Value().weight);
- }
- return sum;
- }
-
- template <class F>
- void Init(const F &fst, bool copy = false) {
- if (copy)
- return;
- vector<double> &weights = *data_->Weights();
- vector<ssize_t> &weight_positions = *data_->WeightPositions();
- if (!weights.empty() || arc_limit_ < arc_period_) {
- FSTERROR() << "FastLogAccumulator: initialization error.";
- error_ = true;
- return;
- }
- weight_positions.reserve(CountStates(fst));
-
- ssize_t weight_position = 0;
- for(StateIterator<F> siter(fst); !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- if (fst.NumArcs(s) >= arc_limit_) {
- double sum = FloatLimits<double>::PosInfinity();
- weight_positions.push_back(weight_position);
- weights.push_back(sum);
- ++weight_position;
- ssize_t narcs = 0;
- for(ArcIterator<F> aiter(fst, s); !aiter.Done(); aiter.Next()) {
- const A &arc = aiter.Value();
- sum = LogPlus(sum, arc.weight);
- // Stores cumulative weight distribution per arc_period_.
- if (++narcs % arc_period_ == 0) {
- weights.push_back(sum);
- ++weight_position;
- }
- }
- } else {
- weight_positions.push_back(-1);
- }
- }
- }
-
- bool Error() const { return error_; }
-
- private:
- double LogPosExp(double x) {
- return x == FloatLimits<double>::PosInfinity() ?
- 0.0 : log(1.0F + exp(-x));
- }
-
- double LogMinusExp(double x) {
- return x == FloatLimits<double>::PosInfinity() ?
- 0.0 : log(1.0F - exp(-x));
- }
-
- Weight LogPlus(Weight w, Weight v) {
- double f1 = to_log_weight_(w).Value();
- double f2 = to_log_weight_(v).Value();
- if (f1 > f2)
- return to_weight_(f2 - LogPosExp(f1 - f2));
- else
- return to_weight_(f1 - LogPosExp(f2 - f1));
- }
-
- double LogPlus(double f1, Weight v) {
- double f2 = to_log_weight_(v).Value();
- if (f1 == FloatLimits<double>::PosInfinity())
- return f2;
- else if (f1 > f2)
- return f2 - LogPosExp(f1 - f2);
- else
- return f1 - LogPosExp(f2 - f1);
- }
-
- Weight LogMinus(double f1, double f2) {
- if (f1 >= f2) {
- FSTERROR() << "FastLogAcumulator::LogMinus: f1 >= f2 with f1 = " << f1
- << " and f2 = " << f2;
- error_ = true;
- return Weight::NoWeight();
- }
- if (f2 == FloatLimits<double>::PosInfinity())
- return to_weight_(f1);
- else
- return to_weight_(f1 - LogMinusExp(f2 - f1));
- }
-
- WeightConvert<Weight, Log64Weight> to_log_weight_;
- WeightConvert<Log64Weight, Weight> to_weight_;
-
- ssize_t arc_limit_; // Minimum # of arcs to pre-compute state
- ssize_t arc_period_; // Save cumulative weights per 'arc_period_'.
- bool init_; // Cumulative weights initialized?
- FastLogAccumulatorData *data_;
- double *state_weights_;
- bool error_;
-
- void operator=(const FastLogAccumulator<A> &); // Disallow
-};
-
-
-// Stores shareable data for cache log accumulator copies.
-// All copies share the same cache.
-template <class A>
-class CacheLogAccumulatorData {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- CacheLogAccumulatorData(bool gc, size_t gc_limit)
- : cache_gc_(gc), cache_limit_(gc_limit), cache_size_(0) {}
-
- ~CacheLogAccumulatorData() {
- for(typename unordered_map<StateId, CacheState>::iterator it = cache_.begin();
- it != cache_.end();
- ++it)
- delete it->second.weights;
- }
-
- bool CacheDisabled() const { return cache_gc_ && cache_limit_ == 0; }
-
- vector<double> *GetWeights(StateId s) {
- typename unordered_map<StateId, CacheState>::iterator it = cache_.find(s);
- if (it != cache_.end()) {
- it->second.recent = true;
- return it->second.weights;
- } else {
- return 0;
- }
- }
-
- void AddWeights(StateId s, vector<double> *weights) {
- if (cache_gc_ && cache_size_ >= cache_limit_)
- GC(false);
- cache_.insert(make_pair(s, CacheState(weights, true)));
- if (cache_gc_)
- cache_size_ += weights->capacity() * sizeof(double);
- }
-
- int RefCount() const { return ref_count_.count(); }
- int IncrRefCount() { return ref_count_.Incr(); }
- int DecrRefCount() { return ref_count_.Decr(); }
-
- private:
- // Cached information for a given state.
- struct CacheState {
- vector<double>* weights; // Accumulated weights for this state.
- bool recent; // Has this state been accessed since last GC?
-
- CacheState(vector<double> *w, bool r) : weights(w), recent(r) {}
- };
-
- // Garbage collect: Delete from cache states that have not been
- // accessed since the last GC ('free_recent = false') until
- // 'cache_size_' is 2/3 of 'cache_limit_'. If it does not free enough
- // memory, start deleting recently accessed states.
- void GC(bool free_recent) {
- size_t cache_target = (2 * cache_limit_)/3 + 1;
- typename unordered_map<StateId, CacheState>::iterator it = cache_.begin();
- while (it != cache_.end() && cache_size_ > cache_target) {
- CacheState &cs = it->second;
- if (free_recent || !cs.recent) {
- cache_size_ -= cs.weights->capacity() * sizeof(double);
- delete cs.weights;
- cache_.erase(it++);
- } else {
- cs.recent = false;
- ++it;
- }
- }
- if (!free_recent && cache_size_ > cache_target)
- GC(true);
- }
-
- unordered_map<StateId, CacheState> cache_; // Cache
- bool cache_gc_; // Enable garbage collection
- size_t cache_limit_; // # of bytes cached
- size_t cache_size_; // # of bytes allowed before GC
- RefCounter ref_count_;
-
- DISALLOW_COPY_AND_ASSIGN(CacheLogAccumulatorData);
-};
-
-// This class accumulates arc weights using the log semiring Plus()
-// has a WeightConvert specialization to and from log64 weights. It
-// is similar to the FastLogAccumator. However here, the accumulated
-// weights are pre-computed and stored only for the states that are
-// visited. The member function Init(fst) has to be called to setup
-// this accumulator.
-template <class A>
-class CacheLogAccumulator {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- explicit CacheLogAccumulator(ssize_t arc_limit = 10, bool gc = false,
- size_t gc_limit = 10 * 1024 * 1024)
- : arc_limit_(arc_limit), fst_(0), data_(
- new CacheLogAccumulatorData<A>(gc, gc_limit)), s_(kNoStateId),
- error_(false) {}
-
- CacheLogAccumulator(const CacheLogAccumulator<A> &acc)
- : arc_limit_(acc.arc_limit_), fst_(acc.fst_ ? acc.fst_->Copy() : 0),
- data_(acc.data_), s_(kNoStateId), error_(acc.error_) {
- data_->IncrRefCount();
- }
-
- ~CacheLogAccumulator() {
- if (fst_)
- delete fst_;
- if (!data_->DecrRefCount())
- delete data_;
- }
-
- // Arg 'arc_limit' specifies minimum # of arcs to pre-compute state.
- void Init(const Fst<A> &fst, bool copy = false) {
- if (copy) {
- delete fst_;
- } else if (fst_) {
- FSTERROR() << "CacheLogAccumulator: initialization error.";
- error_ = true;
- return;
- }
- fst_ = fst.Copy();
- }
-
- void SetState(StateId s, int depth = 0) {
- if (s == s_)
- return;
- s_ = s;
-
- if (data_->CacheDisabled() || error_) {
- weights_ = 0;
- return;
- }
-
- if (!fst_) {
- FSTERROR() << "CacheLogAccumulator::SetState: incorrectly initialized.";
- error_ = true;
- weights_ = 0;
- return;
- }
-
- weights_ = data_->GetWeights(s);
- if ((weights_ == 0) && (fst_->NumArcs(s) >= arc_limit_)) {
- weights_ = new vector<double>;
- weights_->reserve(fst_->NumArcs(s) + 1);
- weights_->push_back(FloatLimits<double>::PosInfinity());
- data_->AddWeights(s, weights_);
- }
- }
-
- Weight Sum(Weight w, Weight v) {
- return LogPlus(w, v);
- }
-
- template <class Iterator>
- Weight Sum(Weight w, Iterator *aiter, ssize_t begin,
- ssize_t end) {
- if (weights_ == 0) {
- Weight sum = w;
- aiter->Seek(begin);
- for (ssize_t pos = begin; pos < end; aiter->Next(), ++pos)
- sum = LogPlus(sum, aiter->Value().weight);
- return sum;
- } else {
- if (weights_->size() <= end)
- for (aiter->Seek(weights_->size() - 1);
- weights_->size() <= end;
- aiter->Next())
- weights_->push_back(LogPlus(weights_->back(),
- aiter->Value().weight));
- return LogPlus(w, LogMinus((*weights_)[end], (*weights_)[begin]));
- }
- }
-
- template <class Iterator>
- size_t LowerBound(double w, Iterator *aiter) {
- if (weights_ != 0) {
- return lower_bound(weights_->begin() + 1,
- weights_->end(),
- w,
- std::greater<double>())
- - weights_->begin() - 1;
- } else {
- size_t n = 0;
- double x = FloatLimits<double>::PosInfinity();
- for(aiter->Reset(); !aiter->Done(); aiter->Next(), ++n) {
- x = LogPlus(x, aiter->Value().weight);
- if (x < w) break;
- }
- return n;
- }
- }
-
- bool Error() const { return error_; }
-
- private:
- double LogPosExp(double x) {
- return x == FloatLimits<double>::PosInfinity() ?
- 0.0 : log(1.0F + exp(-x));
- }
-
- double LogMinusExp(double x) {
- return x == FloatLimits<double>::PosInfinity() ?
- 0.0 : log(1.0F - exp(-x));
- }
-
- Weight LogPlus(Weight w, Weight v) {
- double f1 = to_log_weight_(w).Value();
- double f2 = to_log_weight_(v).Value();
- if (f1 > f2)
- return to_weight_(f2 - LogPosExp(f1 - f2));
- else
- return to_weight_(f1 - LogPosExp(f2 - f1));
- }
-
- double LogPlus(double f1, Weight v) {
- double f2 = to_log_weight_(v).Value();
- if (f1 == FloatLimits<double>::PosInfinity())
- return f2;
- else if (f1 > f2)
- return f2 - LogPosExp(f1 - f2);
- else
- return f1 - LogPosExp(f2 - f1);
- }
-
- Weight LogMinus(double f1, double f2) {
- if (f1 >= f2) {
- FSTERROR() << "CacheLogAcumulator::LogMinus: f1 >= f2 with f1 = " << f1
- << " and f2 = " << f2;
- error_ = true;
- return Weight::NoWeight();
- }
- if (f2 == FloatLimits<double>::PosInfinity())
- return to_weight_(f1);
- else
- return to_weight_(f1 - LogMinusExp(f2 - f1));
- }
-
- WeightConvert<Weight, Log64Weight> to_log_weight_;
- WeightConvert<Log64Weight, Weight> to_weight_;
-
- ssize_t arc_limit_; // Minimum # of arcs to cache a state
- vector<double> *weights_; // Accumulated weights for cur. state
- const Fst<A>* fst_; // Input fst
- CacheLogAccumulatorData<A> *data_; // Cache data
- StateId s_; // Current state
- bool error_;
-
- void operator=(const CacheLogAccumulator<A> &); // Disallow
-};
-
-
-// Stores shareable data for replace accumulator copies.
-template <class Accumulator, class T>
-class ReplaceAccumulatorData {
- public:
- typedef typename Accumulator::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef T StateTable;
- typedef typename T::StateTuple StateTuple;
-
- ReplaceAccumulatorData() : state_table_(0) {}
-
- ReplaceAccumulatorData(const vector<Accumulator*> &accumulators)
- : state_table_(0), accumulators_(accumulators) {}
-
- ~ReplaceAccumulatorData() {
- for (size_t i = 0; i < fst_array_.size(); ++i)
- delete fst_array_[i];
- for (size_t i = 0; i < accumulators_.size(); ++i)
- delete accumulators_[i];
- }
-
- void Init(const vector<pair<Label, const Fst<Arc>*> > &fst_tuples,
- const StateTable *state_table) {
- state_table_ = state_table;
- accumulators_.resize(fst_tuples.size());
- for (size_t i = 0; i < accumulators_.size(); ++i) {
- if (!accumulators_[i])
- accumulators_[i] = new Accumulator;
- accumulators_[i]->Init(*(fst_tuples[i].second));
- fst_array_.push_back(fst_tuples[i].second->Copy());
- }
- }
-
- const StateTuple &GetTuple(StateId s) const {
- return state_table_->Tuple(s);
- }
-
- Accumulator *GetAccumulator(size_t i) { return accumulators_[i]; }
-
- const Fst<Arc> *GetFst(size_t i) const { return fst_array_[i]; }
-
- int RefCount() const { return ref_count_.count(); }
- int IncrRefCount() { return ref_count_.Incr(); }
- int DecrRefCount() { return ref_count_.Decr(); }
-
- private:
- const T * state_table_;
- vector<Accumulator*> accumulators_;
- vector<const Fst<Arc>*> fst_array_;
- RefCounter ref_count_;
-
- DISALLOW_COPY_AND_ASSIGN(ReplaceAccumulatorData);
-};
-
-// This class accumulates weights in a ReplaceFst. The 'Init' method
-// takes as input the argument used to build the ReplaceFst and the
-// ReplaceFst state table. It uses accumulators of type 'Accumulator'
-// in the underlying FSTs.
-template <class Accumulator,
- class T = DefaultReplaceStateTable<typename Accumulator::Arc> >
-class ReplaceAccumulator {
- public:
- typedef typename Accumulator::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef T StateTable;
- typedef typename T::StateTuple StateTuple;
-
- ReplaceAccumulator()
- : init_(false), data_(new ReplaceAccumulatorData<Accumulator, T>()),
- error_(false) {}
-
- ReplaceAccumulator(const vector<Accumulator*> &accumulators)
- : init_(false),
- data_(new ReplaceAccumulatorData<Accumulator, T>(accumulators)),
- error_(false) {}
-
- ReplaceAccumulator(const ReplaceAccumulator<Accumulator, T> &acc)
- : init_(acc.init_), data_(acc.data_), error_(acc.error_) {
- if (!init_)
- FSTERROR() << "ReplaceAccumulator: can't copy unintialized accumulator";
- data_->IncrRefCount();
- }
-
- ~ReplaceAccumulator() {
- if (!data_->DecrRefCount())
- delete data_;
- }
-
- // Does not take ownership of the state table, the state table
- // is own by the ReplaceFst
- void Init(const vector<pair<Label, const Fst<Arc>*> > &fst_tuples,
- const StateTable *state_table) {
- init_ = true;
- data_->Init(fst_tuples, state_table);
- }
-
- void SetState(StateId s) {
- if (!init_) {
- FSTERROR() << "ReplaceAccumulator::SetState: incorrectly initialized.";
- error_ = true;
- return;
- }
- StateTuple tuple = data_->GetTuple(s);
- fst_id_ = tuple.fst_id - 1; // Replace FST ID is 1-based
- data_->GetAccumulator(fst_id_)->SetState(tuple.fst_state);
- if ((tuple.prefix_id != 0) &&
- (data_->GetFst(fst_id_)->Final(tuple.fst_state) != Weight::Zero())) {
- offset_ = 1;
- offset_weight_ = data_->GetFst(fst_id_)->Final(tuple.fst_state);
- } else {
- offset_ = 0;
- offset_weight_ = Weight::Zero();
- }
- }
-
- Weight Sum(Weight w, Weight v) {
- if (error_) return Weight::NoWeight();
- return data_->GetAccumulator(fst_id_)->Sum(w, v);
- }
-
- template <class ArcIterator>
- Weight Sum(Weight w, ArcIterator *aiter, ssize_t begin,
- ssize_t end) {
- if (error_) return Weight::NoWeight();
- Weight sum = begin == end ? Weight::Zero()
- : data_->GetAccumulator(fst_id_)->Sum(
- w, aiter, begin ? begin - offset_ : 0, end - offset_);
- if (begin == 0 && end != 0 && offset_ > 0)
- sum = Sum(offset_weight_, sum);
- return sum;
- }
-
- bool Error() const { return error_; }
-
- private:
- bool init_;
- ReplaceAccumulatorData<Accumulator, T> *data_;
- Label fst_id_;
- size_t offset_;
- Weight offset_weight_;
- bool error_;
-
- void operator=(const ReplaceAccumulator<Accumulator, T> &); // Disallow
-};
-
-} // namespace fst
-
-#endif // FST_LIB_ACCUMULATOR_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/add-on.h b/kaldi_io/src/tools/openfst/include/fst/add-on.h
deleted file mode 100644
index ee21a93..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/add-on.h
+++ /dev/null
@@ -1,306 +0,0 @@
-// add-on.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Fst implementation class to attach an arbitrary object with a
-// read/write method to an FST and its file rep. The FST is given a
-// new type name.
-
-#ifndef FST_LIB_ADD_ON_FST_H__
-#define FST_LIB_ADD_ON_FST_H__
-
-#include <stddef.h>
-#include <string>
-
-#include <fst/fst.h>
-
-
-namespace fst {
-
-// Identifies stream data as an add-on fst.
-static const int32 kAddOnMagicNumber = 446681434;
-
-
-//
-// Some useful add-on objects.
-//
-
-// Nothing to save.
-class NullAddOn {
- public:
- NullAddOn() {}
-
- static NullAddOn *Read(istream &istrm) {
- return new NullAddOn();
- };
-
- bool Write(ostream &ostrm) const { return true; }
-
- int RefCount() const { return ref_count_.count(); }
- int IncrRefCount() { return ref_count_.Incr(); }
- int DecrRefCount() { return ref_count_.Decr(); }
-
- private:
- RefCounter ref_count_;
-
- DISALLOW_COPY_AND_ASSIGN(NullAddOn);
-};
-
-
-// Create a new add-on from a pair of add-ons.
-template <class A1, class A2>
-class AddOnPair {
- public:
- // Argument reference count incremented.
- AddOnPair(A1 *a1, A2 *a2)
- : a1_(a1), a2_(a2) {
- if (a1_)
- a1_->IncrRefCount();
- if (a2_)
- a2_->IncrRefCount();
- }
-
- ~AddOnPair() {
- if (a1_ && !a1_->DecrRefCount())
- delete a1_;
- if (a2_ && !a2_->DecrRefCount())
- delete a2_;
- }
-
- A1 *First() const { return a1_; }
- A2 *Second() const { return a2_; }
-
- static AddOnPair<A1, A2> *Read(istream &istrm) {
- A1 *a1 = 0;
- bool have_addon1 = false;
- ReadType(istrm, &have_addon1);
- if (have_addon1)
- a1 = A1::Read(istrm);
-
- A2 *a2 = 0;
- bool have_addon2 = false;
- ReadType(istrm, &have_addon2);
- if (have_addon2)
- a2 = A2::Read(istrm);
-
- AddOnPair<A1, A2> *a = new AddOnPair<A1, A2>(a1, a2);
- if (a1)
- a1->DecrRefCount();
- if (a2)
- a2->DecrRefCount();
- return a;
- };
-
- bool Write(ostream &ostrm) const {
- bool have_addon1 = a1_;
- WriteType(ostrm, have_addon1);
- if (have_addon1)
- a1_->Write(ostrm);
- bool have_addon2 = a2_;
- WriteType(ostrm, have_addon2);
- if (have_addon2)
- a2_->Write(ostrm);
- return true;
- }
-
- int RefCount() const { return ref_count_.count(); }
-
- int IncrRefCount() {
- return ref_count_.Incr();
- }
-
- int DecrRefCount() {
- return ref_count_.Decr();
- }
-
- private:
- A1 *a1_;
- A2 *a2_;
- RefCounter ref_count_;
-
- DISALLOW_COPY_AND_ASSIGN(AddOnPair);
-};
-
-
-// Add to an Fst F a type T object. T must have a 'T* Read(istream &)',
-// a 'bool Write(ostream &)' method, and 'int RecCount(), 'int IncrRefCount()'
-// and 'int DecrRefCount()' methods (e.g. 'MatcherData' in matcher-fst.h).
-// The result is a new Fst implemenation with type name 'type'.
-template<class F, class T>
-class AddOnImpl : public FstImpl<typename F::Arc> {
- public:
- typedef typename F::Arc Arc;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- using FstImpl<Arc>::SetType;
- using FstImpl<Arc>::SetProperties;
- using FstImpl<Arc>::WriteHeader;
-
- // If 't' is non-zero, its reference count is incremented.
- AddOnImpl(const F &fst, const string &type, T *t = 0)
- : fst_(fst), t_(t) {
- SetType(type);
- SetProperties(fst_.Properties(kFstProperties, false));
- if (t_)
- t_->IncrRefCount();
- }
-
- // If 't' is non-zero, its reference count is incremented.
- AddOnImpl(const Fst<Arc> &fst, const string &type, T *t = 0)
- : fst_(fst), t_(t) {
- SetType(type);
- SetProperties(fst_.Properties(kFstProperties, false));
- if (t_)
- t_->IncrRefCount();
- }
-
- AddOnImpl(const AddOnImpl<F, T> &impl)
- : fst_(impl.fst_), t_(impl.t_) {
- SetType(impl.Type());
- SetProperties(fst_.Properties(kCopyProperties, false));
- if (t_)
- t_->IncrRefCount();
- }
-
- ~AddOnImpl() {
- if (t_ && !t_->DecrRefCount())
- delete t_;
- }
-
- StateId Start() const { return fst_.Start(); }
- Weight Final(StateId s) const { return fst_.Final(s); }
- size_t NumArcs(StateId s) const { return fst_.NumArcs(s); }
-
- size_t NumInputEpsilons(StateId s) const {
- return fst_.NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) const {
- return fst_.NumOutputEpsilons(s);
- }
-
- size_t NumStates() const { return fst_.NumStates(); }
-
- static AddOnImpl<F, T> *Read(istream &strm, const FstReadOptions &opts) {
- FstReadOptions nopts(opts);
- FstHeader hdr;
- if (!nopts.header) {
- hdr.Read(strm, nopts.source);
- nopts.header = &hdr;
- }
- AddOnImpl<F, T> *impl = new AddOnImpl<F, T>(nopts.header->FstType());
- if (!impl->ReadHeader(strm, nopts, kMinFileVersion, &hdr))
- return 0;
- delete impl; // Used here only for checking types.
-
- int32 magic_number = 0;
- ReadType(strm, &magic_number); // Ensures this is an add-on Fst.
- if (magic_number != kAddOnMagicNumber) {
- LOG(ERROR) << "AddOnImpl::Read: Bad add-on header: " << nopts.source;
- return 0;
- }
-
- FstReadOptions fopts(opts);
- fopts.header = 0; // Contained header was written out.
- F *fst = F::Read(strm, fopts);
- if (!fst)
- return 0;
-
- T *t = 0;
- bool have_addon = false;
- ReadType(strm, &have_addon);
- if (have_addon) { // Read add-on object if present.
- t = T::Read(strm);
- if (!t)
- return 0;
- }
- impl = new AddOnImpl<F, T>(*fst, nopts.header->FstType(), t);
- delete fst;
- if (t)
- t->DecrRefCount();
- return impl;
- }
-
- bool Write(ostream &strm, const FstWriteOptions &opts) const {
- FstHeader hdr;
- FstWriteOptions nopts(opts);
- nopts.write_isymbols = false; // Let contained FST hold any symbols.
- nopts.write_osymbols = false;
- WriteHeader(strm, nopts, kFileVersion, &hdr);
- WriteType(strm, kAddOnMagicNumber); // Ensures this is an add-on Fst.
- FstWriteOptions fopts(opts);
- fopts.write_header = true; // Force writing contained header.
- if (!fst_.Write(strm, fopts))
- return false;
- bool have_addon = t_;
- WriteType(strm, have_addon);
- if (have_addon) // Write add-on object if present.
- t_->Write(strm);
- return true;
- }
-
- void InitStateIterator(StateIteratorData<Arc> *data) const {
- fst_.InitStateIterator(data);
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<Arc> *data) const {
- fst_.InitArcIterator(s, data);
- }
-
- F &GetFst() { return fst_; }
-
- const F &GetFst() const { return fst_; }
-
- T *GetAddOn() const { return t_; }
-
- // If 't' is non-zero, its reference count is incremented.
- void SetAddOn(T *t) {
- if (t == t_)
- return;
- if (t_ && !t_->DecrRefCount())
- delete t_;
- t_ = t;
- if (t_)
- t_->IncrRefCount();
- }
-
- private:
- explicit AddOnImpl(const string &type) : t_(0) {
- SetType(type);
- SetProperties(kExpanded);
- }
-
- // Current file format version
- static const int kFileVersion = 1;
- // Minimum file format version supported
- static const int kMinFileVersion = 1;
-
- F fst_;
- T *t_;
-
- void operator=(const AddOnImpl<F, T> &fst); // Disallow
-};
-
-template <class F, class T> const int AddOnImpl<F, T>::kFileVersion;
-template <class F, class T> const int AddOnImpl<F, T>::kMinFileVersion;
-
-
-} // namespace fst
-
-#endif // FST_LIB_ADD_ON_FST_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/arc-map.h b/kaldi_io/src/tools/openfst/include/fst/arc-map.h
deleted file mode 100644
index 914f81c..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/arc-map.h
+++ /dev/null
@@ -1,1146 +0,0 @@
-// arc-map.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to map over/transform arcs e.g., change semirings or
-// implement project/invert. Consider using when operation does
-// not change the number of arcs (except possibly superfinal arcs).
-
-#ifndef FST_LIB_ARC_MAP_H__
-#define FST_LIB_ARC_MAP_H__
-
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <string>
-#include <utility>
-using std::pair; using std::make_pair;
-
-#include <fst/cache.h>
-#include <fst/mutable-fst.h>
-
-
-namespace fst {
-
-// This determines how final weights are mapped.
-enum MapFinalAction {
- // A final weight is mapped into a final weight. An error
- // is raised if this is not possible.
- MAP_NO_SUPERFINAL,
-
- // A final weight is mapped to an arc to the superfinal state
- // when the result cannot be represented as a final weight.
- // The superfinal state will be added only if it is needed.
- MAP_ALLOW_SUPERFINAL,
-
- // A final weight is mapped to an arc to the superfinal state
- // unless the result can be represented as a final weight of weight
- // Zero(). The superfinal state is always added (if the input is
- // not the empty Fst).
- MAP_REQUIRE_SUPERFINAL
-};
-
-// This determines how symbol tables are mapped.
-enum MapSymbolsAction {
- // Symbols should be cleared in the result by the map.
- MAP_CLEAR_SYMBOLS,
-
- // Symbols should be copied from the input FST by the map.
- MAP_COPY_SYMBOLS,
-
- // Symbols should not be modified in the result by the map itself.
- // (They may set by the mapper).
- MAP_NOOP_SYMBOLS
-};
-
-// ArcMapper Interface - class determinies how arcs and final weights
-// are mapped. Useful for implementing operations that do not change
-// the number of arcs (expect possibly superfinal arcs).
-//
-// class ArcMapper {
-// public:
-// typedef A FromArc;
-// typedef B ToArc;
-//
-// // Maps an arc type A to arc type B.
-// B operator()(const A &arc);
-// // Specifies final action the mapper requires (see above).
-// // The mapper will be passed final weights as arcs of the
-// // form A(0, 0, weight, kNoStateId).
-// MapFinalAction FinalAction() const;
-// // Specifies input symbol table action the mapper requires (see above).
-// MapSymbolsAction InputSymbolsAction() const;
-// // Specifies output symbol table action the mapper requires (see above).
-// MapSymbolsAction OutputSymbolsAction() const;
-// // This specifies the known properties of an Fst mapped by this
-// // mapper. It takes as argument the input Fst's known properties.
-// uint64 Properties(uint64 props) const;
-// };
-//
-// The ArcMap functions and classes below will use the FinalAction()
-// method of the mapper to determine how to treat final weights,
-// e.g. whether to add a superfinal state. They will use the Properties()
-// method to set the result Fst properties.
-//
-// We include a various map versions below. One dimension of
-// variation is whether the mapping mutates its input, writes to a
-// new result Fst, or is an on-the-fly Fst. Another dimension is how
-// we pass the mapper. We allow passing the mapper by pointer
-// for cases that we need to change the state of the user's mapper.
-// This is the case with the encode mapper, which is reused during
-// decoding. We also include map versions that pass the mapper
-// by value or const reference when this suffices.
-
-
-// Maps an arc type A using a mapper function object C, passed
-// by pointer. This version modifies its Fst input.
-template<class A, class C>
-void ArcMap(MutableFst<A> *fst, C* mapper) {
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- if (mapper->InputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- fst->SetInputSymbols(0);
-
- if (mapper->OutputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- fst->SetOutputSymbols(0);
-
- if (fst->Start() == kNoStateId)
- return;
-
- uint64 props = fst->Properties(kFstProperties, false);
-
- MapFinalAction final_action = mapper->FinalAction();
- StateId superfinal = kNoStateId;
- if (final_action == MAP_REQUIRE_SUPERFINAL) {
- superfinal = fst->AddState();
- fst->SetFinal(superfinal, Weight::One());
- }
-
- for (StateId s = 0; s < fst->NumStates(); ++s) {
- for (MutableArcIterator< MutableFst<A> > aiter(fst, s);
- !aiter.Done(); aiter.Next()) {
- const A &arc = aiter.Value();
- aiter.SetValue((*mapper)(arc));
- }
-
- switch (final_action) {
- case MAP_NO_SUPERFINAL:
- default: {
- A final_arc = (*mapper)(A(0, 0, fst->Final(s), kNoStateId));
- if (final_arc.ilabel != 0 || final_arc.olabel != 0) {
- FSTERROR() << "ArcMap: non-zero arc labels for superfinal arc";
- fst->SetProperties(kError, kError);
- }
-
- fst->SetFinal(s, final_arc.weight);
- break;
- }
- case MAP_ALLOW_SUPERFINAL: {
- if (s != superfinal) {
- A final_arc = (*mapper)(A(0, 0, fst->Final(s), kNoStateId));
- if (final_arc.ilabel != 0 || final_arc.olabel != 0) {
- // Add a superfinal state if not already done.
- if (superfinal == kNoStateId) {
- superfinal = fst->AddState();
- fst->SetFinal(superfinal, Weight::One());
- }
- final_arc.nextstate = superfinal;
- fst->AddArc(s, final_arc);
- fst->SetFinal(s, Weight::Zero());
- } else {
- fst->SetFinal(s, final_arc.weight);
- }
- break;
- }
- }
- case MAP_REQUIRE_SUPERFINAL: {
- if (s != superfinal) {
- A final_arc = (*mapper)(A(0, 0, fst->Final(s), kNoStateId));
- if (final_arc.ilabel != 0 || final_arc.olabel != 0 ||
- final_arc.weight != Weight::Zero())
- fst->AddArc(s, A(final_arc.ilabel, final_arc.olabel,
- final_arc.weight, superfinal));
- fst->SetFinal(s, Weight::Zero());
- }
- break;
- }
- }
- }
- fst->SetProperties(mapper->Properties(props), kFstProperties);
-}
-
-
-// Maps an arc type A using a mapper function object C, passed
-// by value. This version modifies its Fst input.
-template<class A, class C>
-void ArcMap(MutableFst<A> *fst, C mapper) {
- ArcMap(fst, &mapper);
-}
-
-
-// Maps an arc type A to an arc type B using mapper function
-// object C, passed by pointer. This version writes the mapped
-// input Fst to an output MutableFst.
-template<class A, class B, class C>
-void ArcMap(const Fst<A> &ifst, MutableFst<B> *ofst, C* mapper) {
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- ofst->DeleteStates();
-
- if (mapper->InputSymbolsAction() == MAP_COPY_SYMBOLS)
- ofst->SetInputSymbols(ifst.InputSymbols());
- else if (mapper->InputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- ofst->SetInputSymbols(0);
-
- if (mapper->OutputSymbolsAction() == MAP_COPY_SYMBOLS)
- ofst->SetOutputSymbols(ifst.OutputSymbols());
- else if (mapper->OutputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- ofst->SetOutputSymbols(0);
-
- uint64 iprops = ifst.Properties(kCopyProperties, false);
-
- if (ifst.Start() == kNoStateId) {
- if (iprops & kError) ofst->SetProperties(kError, kError);
- return;
- }
-
- MapFinalAction final_action = mapper->FinalAction();
- if (ifst.Properties(kExpanded, false)) {
- ofst->ReserveStates(CountStates(ifst) +
- final_action == MAP_NO_SUPERFINAL ? 0 : 1);
- }
-
- // Add all states.
- for (StateIterator< Fst<A> > siter(ifst); !siter.Done(); siter.Next())
- ofst->AddState();
-
- StateId superfinal = kNoStateId;
- if (final_action == MAP_REQUIRE_SUPERFINAL) {
- superfinal = ofst->AddState();
- ofst->SetFinal(superfinal, B::Weight::One());
- }
- for (StateIterator< Fst<A> > siter(ifst); !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- if (s == ifst.Start())
- ofst->SetStart(s);
-
- ofst->ReserveArcs(s, ifst.NumArcs(s));
- for (ArcIterator< Fst<A> > aiter(ifst, s); !aiter.Done(); aiter.Next())
- ofst->AddArc(s, (*mapper)(aiter.Value()));
-
- switch (final_action) {
- case MAP_NO_SUPERFINAL:
- default: {
- B final_arc = (*mapper)(A(0, 0, ifst.Final(s), kNoStateId));
- if (final_arc.ilabel != 0 || final_arc.olabel != 0) {
- FSTERROR() << "ArcMap: non-zero arc labels for superfinal arc";
- ofst->SetProperties(kError, kError);
- }
- ofst->SetFinal(s, final_arc.weight);
- break;
- }
- case MAP_ALLOW_SUPERFINAL: {
- B final_arc = (*mapper)(A(0, 0, ifst.Final(s), kNoStateId));
- if (final_arc.ilabel != 0 || final_arc.olabel != 0) {
- // Add a superfinal state if not already done.
- if (superfinal == kNoStateId) {
- superfinal = ofst->AddState();
- ofst->SetFinal(superfinal, B::Weight::One());
- }
- final_arc.nextstate = superfinal;
- ofst->AddArc(s, final_arc);
- ofst->SetFinal(s, B::Weight::Zero());
- } else {
- ofst->SetFinal(s, final_arc.weight);
- }
- break;
- }
- case MAP_REQUIRE_SUPERFINAL: {
- B final_arc = (*mapper)(A(0, 0, ifst.Final(s), kNoStateId));
- if (final_arc.ilabel != 0 || final_arc.olabel != 0 ||
- final_arc.weight != B::Weight::Zero())
- ofst->AddArc(s, B(final_arc.ilabel, final_arc.olabel,
- final_arc.weight, superfinal));
- ofst->SetFinal(s, B::Weight::Zero());
- break;
- }
- }
- }
- uint64 oprops = ofst->Properties(kFstProperties, false);
- ofst->SetProperties(mapper->Properties(iprops) | oprops, kFstProperties);
-}
-
-// Maps an arc type A to an arc type B using mapper function
-// object C, passed by value. This version writes the mapped input
-// Fst to an output MutableFst.
-template<class A, class B, class C>
-void ArcMap(const Fst<A> &ifst, MutableFst<B> *ofst, C mapper) {
- ArcMap(ifst, ofst, &mapper);
-}
-
-
-struct ArcMapFstOptions : public CacheOptions {
- // ArcMapFst default caching behaviour is to do no caching. Most
- // mappers are cheap and therefore we save memory by not doing
- // caching.
- ArcMapFstOptions() : CacheOptions(true, 0) {}
- ArcMapFstOptions(const CacheOptions& opts) : CacheOptions(opts) {}
-};
-
-
-template <class A, class B, class C> class ArcMapFst;
-
-// Implementation of delayed ArcMapFst.
-template <class A, class B, class C>
-class ArcMapFstImpl : public CacheImpl<B> {
- public:
- using FstImpl<B>::SetType;
- using FstImpl<B>::SetProperties;
- using FstImpl<B>::SetInputSymbols;
- using FstImpl<B>::SetOutputSymbols;
-
- using VectorFstBaseImpl<typename CacheImpl<B>::State>::NumStates;
-
- using CacheImpl<B>::PushArc;
- using CacheImpl<B>::HasArcs;
- using CacheImpl<B>::HasFinal;
- using CacheImpl<B>::HasStart;
- using CacheImpl<B>::SetArcs;
- using CacheImpl<B>::SetFinal;
- using CacheImpl<B>::SetStart;
-
- friend class StateIterator< ArcMapFst<A, B, C> >;
-
- typedef B Arc;
- typedef typename B::Weight Weight;
- typedef typename B::StateId StateId;
-
- ArcMapFstImpl(const Fst<A> &fst, const C &mapper,
- const ArcMapFstOptions& opts)
- : CacheImpl<B>(opts),
- fst_(fst.Copy()),
- mapper_(new C(mapper)),
- own_mapper_(true),
- superfinal_(kNoStateId),
- nstates_(0) {
- Init();
- }
-
- ArcMapFstImpl(const Fst<A> &fst, C *mapper,
- const ArcMapFstOptions& opts)
- : CacheImpl<B>(opts),
- fst_(fst.Copy()),
- mapper_(mapper),
- own_mapper_(false),
- superfinal_(kNoStateId),
- nstates_(0) {
- Init();
- }
-
- ArcMapFstImpl(const ArcMapFstImpl<A, B, C> &impl)
- : CacheImpl<B>(impl),
- fst_(impl.fst_->Copy(true)),
- mapper_(new C(*impl.mapper_)),
- own_mapper_(true),
- superfinal_(kNoStateId),
- nstates_(0) {
- Init();
- }
-
- ~ArcMapFstImpl() {
- delete fst_;
- if (own_mapper_) delete mapper_;
- }
-
- StateId Start() {
- if (!HasStart())
- SetStart(FindOState(fst_->Start()));
- return CacheImpl<B>::Start();
- }
-
- Weight Final(StateId s) {
- if (!HasFinal(s)) {
- switch (final_action_) {
- case MAP_NO_SUPERFINAL:
- default: {
- B final_arc = (*mapper_)(A(0, 0, fst_->Final(FindIState(s)),
- kNoStateId));
- if (final_arc.ilabel != 0 || final_arc.olabel != 0) {
- FSTERROR() << "ArcMapFst: non-zero arc labels for superfinal arc";
- SetProperties(kError, kError);
- }
- SetFinal(s, final_arc.weight);
- break;
- }
- case MAP_ALLOW_SUPERFINAL: {
- if (s == superfinal_) {
- SetFinal(s, Weight::One());
- } else {
- B final_arc = (*mapper_)(A(0, 0, fst_->Final(FindIState(s)),
- kNoStateId));
- if (final_arc.ilabel == 0 && final_arc.olabel == 0)
- SetFinal(s, final_arc.weight);
- else
- SetFinal(s, Weight::Zero());
- }
- break;
- }
- case MAP_REQUIRE_SUPERFINAL: {
- SetFinal(s, s == superfinal_ ? Weight::One() : Weight::Zero());
- break;
- }
- }
- }
- return CacheImpl<B>::Final(s);
- }
-
- size_t NumArcs(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<B>::NumArcs(s);
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<B>::NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<B>::NumOutputEpsilons(s);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) && (fst_->Properties(kError, false) ||
- (mapper_->Properties(0) & kError)))
- SetProperties(kError, kError);
- return FstImpl<Arc>::Properties(mask);
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<B> *data) {
- if (!HasArcs(s))
- Expand(s);
- CacheImpl<B>::InitArcIterator(s, data);
- }
-
- void Expand(StateId s) {
- // Add exiting arcs.
- if (s == superfinal_) { SetArcs(s); return; }
-
- for (ArcIterator< Fst<A> > aiter(*fst_, FindIState(s));
- !aiter.Done(); aiter.Next()) {
- A aarc(aiter.Value());
- aarc.nextstate = FindOState(aarc.nextstate);
- const B& barc = (*mapper_)(aarc);
- PushArc(s, barc);
- }
-
- // Check for superfinal arcs.
- if (!HasFinal(s) || Final(s) == Weight::Zero())
- switch (final_action_) {
- case MAP_NO_SUPERFINAL:
- default:
- break;
- case MAP_ALLOW_SUPERFINAL: {
- B final_arc = (*mapper_)(A(0, 0, fst_->Final(FindIState(s)),
- kNoStateId));
- if (final_arc.ilabel != 0 || final_arc.olabel != 0) {
- if (superfinal_ == kNoStateId)
- superfinal_ = nstates_++;
- final_arc.nextstate = superfinal_;
- PushArc(s, final_arc);
- }
- break;
- }
- case MAP_REQUIRE_SUPERFINAL: {
- B final_arc = (*mapper_)(A(0, 0, fst_->Final(FindIState(s)),
- kNoStateId));
- if (final_arc.ilabel != 0 || final_arc.olabel != 0 ||
- final_arc.weight != B::Weight::Zero())
- PushArc(s, B(final_arc.ilabel, final_arc.olabel,
- final_arc.weight, superfinal_));
- break;
- }
- }
- SetArcs(s);
- }
-
- private:
- void Init() {
- SetType("map");
-
- if (mapper_->InputSymbolsAction() == MAP_COPY_SYMBOLS)
- SetInputSymbols(fst_->InputSymbols());
- else if (mapper_->InputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- SetInputSymbols(0);
-
- if (mapper_->OutputSymbolsAction() == MAP_COPY_SYMBOLS)
- SetOutputSymbols(fst_->OutputSymbols());
- else if (mapper_->OutputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- SetOutputSymbols(0);
-
- if (fst_->Start() == kNoStateId) {
- final_action_ = MAP_NO_SUPERFINAL;
- SetProperties(kNullProperties);
- } else {
- final_action_ = mapper_->FinalAction();
- uint64 props = fst_->Properties(kCopyProperties, false);
- SetProperties(mapper_->Properties(props));
- if (final_action_ == MAP_REQUIRE_SUPERFINAL)
- superfinal_ = 0;
- }
- }
-
- // Maps from output state to input state.
- StateId FindIState(StateId s) {
- if (superfinal_ == kNoStateId || s < superfinal_)
- return s;
- else
- return s - 1;
- }
-
- // Maps from input state to output state.
- StateId FindOState(StateId is) {
- StateId os;
- if (superfinal_ == kNoStateId || is < superfinal_)
- os = is;
- else
- os = is + 1;
-
- if (os >= nstates_)
- nstates_ = os + 1;
-
- return os;
- }
-
-
- const Fst<A> *fst_;
- C* mapper_;
- bool own_mapper_;
- MapFinalAction final_action_;
-
- StateId superfinal_;
- StateId nstates_;
-
- void operator=(const ArcMapFstImpl<A, B, C> &); // disallow
-};
-
-
-// Maps an arc type A to an arc type B using Mapper function object
-// C. This version is a delayed Fst.
-template <class A, class B, class C>
-class ArcMapFst : public ImplToFst< ArcMapFstImpl<A, B, C> > {
- public:
- friend class ArcIterator< ArcMapFst<A, B, C> >;
- friend class StateIterator< ArcMapFst<A, B, C> >;
-
- typedef B Arc;
- typedef typename B::Weight Weight;
- typedef typename B::StateId StateId;
- typedef CacheState<B> State;
- typedef ArcMapFstImpl<A, B, C> Impl;
-
- ArcMapFst(const Fst<A> &fst, const C &mapper, const ArcMapFstOptions& opts)
- : ImplToFst<Impl>(new Impl(fst, mapper, opts)) {}
-
- ArcMapFst(const Fst<A> &fst, C* mapper, const ArcMapFstOptions& opts)
- : ImplToFst<Impl>(new Impl(fst, mapper, opts)) {}
-
- ArcMapFst(const Fst<A> &fst, const C &mapper)
- : ImplToFst<Impl>(new Impl(fst, mapper, ArcMapFstOptions())) {}
-
- ArcMapFst(const Fst<A> &fst, C* mapper)
- : ImplToFst<Impl>(new Impl(fst, mapper, ArcMapFstOptions())) {}
-
- // See Fst<>::Copy() for doc.
- ArcMapFst(const ArcMapFst<A, B, C> &fst, bool safe = false)
- : ImplToFst<Impl>(fst, safe) {}
-
- // Get a copy of this ArcMapFst. See Fst<>::Copy() for further doc.
- virtual ArcMapFst<A, B, C> *Copy(bool safe = false) const {
- return new ArcMapFst<A, B, C>(*this, safe);
- }
-
- virtual inline void InitStateIterator(StateIteratorData<B> *data) const;
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<B> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const ArcMapFst<A, B, C> &fst); // disallow
-};
-
-
-// Specialization for ArcMapFst.
-template<class A, class B, class C>
-class StateIterator< ArcMapFst<A, B, C> > : public StateIteratorBase<B> {
- public:
- typedef typename B::StateId StateId;
-
- explicit StateIterator(const ArcMapFst<A, B, C> &fst)
- : impl_(fst.GetImpl()), siter_(*impl_->fst_), s_(0),
- superfinal_(impl_->final_action_ == MAP_REQUIRE_SUPERFINAL)
- { CheckSuperfinal(); }
-
- bool Done() const { return siter_.Done() && !superfinal_; }
-
- StateId Value() const { return s_; }
-
- void Next() {
- ++s_;
- if (!siter_.Done()) {
- siter_.Next();
- CheckSuperfinal();
- }
- else if (superfinal_)
- superfinal_ = false;
- }
-
- void Reset() {
- s_ = 0;
- siter_.Reset();
- superfinal_ = impl_->final_action_ == MAP_REQUIRE_SUPERFINAL;
- CheckSuperfinal();
- }
-
- private:
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- bool Done_() const { return Done(); }
- StateId Value_() const { return Value(); }
- void Next_() { Next(); }
- void Reset_() { Reset(); }
-
- void CheckSuperfinal() {
- if (impl_->final_action_ != MAP_ALLOW_SUPERFINAL || superfinal_)
- return;
- if (!siter_.Done()) {
- B final_arc = (*impl_->mapper_)(A(0, 0, impl_->fst_->Final(s_),
- kNoStateId));
- if (final_arc.ilabel != 0 || final_arc.olabel != 0)
- superfinal_ = true;
- }
- }
-
- const ArcMapFstImpl<A, B, C> *impl_;
- StateIterator< Fst<A> > siter_;
- StateId s_;
- bool superfinal_; // true if there is a superfinal state and not done
-
- DISALLOW_COPY_AND_ASSIGN(StateIterator);
-};
-
-
-// Specialization for ArcMapFst.
-template <class A, class B, class C>
-class ArcIterator< ArcMapFst<A, B, C> >
- : public CacheArcIterator< ArcMapFst<A, B, C> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const ArcMapFst<A, B, C> &fst, StateId s)
- : CacheArcIterator< ArcMapFst<A, B, C> >(fst.GetImpl(), s) {
- if (!fst.GetImpl()->HasArcs(s))
- fst.GetImpl()->Expand(s);
- }
-
- private:
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-template <class A, class B, class C> inline
-void ArcMapFst<A, B, C>::InitStateIterator(StateIteratorData<B> *data)
- const {
- data->base = new StateIterator< ArcMapFst<A, B, C> >(*this);
-}
-
-
-//
-// Utility Mappers
-//
-
-// Mapper that returns its input.
-template <class A>
-struct IdentityArcMapper {
- typedef A FromArc;
- typedef A ToArc;
-
- A operator()(const A &arc) const { return arc; }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const { return props; }
-};
-
-
-// Mapper that returns its input with final states redirected to
-// a single super-final state.
-template <class A>
-struct SuperFinalMapper {
- typedef A FromArc;
- typedef A ToArc;
-
- A operator()(const A &arc) const { return arc; }
-
- MapFinalAction FinalAction() const { return MAP_REQUIRE_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const {
- return props & kAddSuperFinalProperties;
- }
-};
-
-
-// Mapper that leaves labels and nextstate unchanged and constructs a new weight
-// from the underlying value of the arc weight. Requires that there is a
-// WeightConvert class specialization that converts the weights.
-template <class A, class B>
-class WeightConvertMapper {
- public:
- typedef A FromArc;
- typedef B ToArc;
- typedef typename FromArc::Weight FromWeight;
- typedef typename ToArc::Weight ToWeight;
-
- ToArc operator()(const FromArc &arc) const {
- return ToArc(arc.ilabel, arc.olabel,
- convert_weight_(arc.weight), arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const { return props; }
-
- private:
- WeightConvert<FromWeight, ToWeight> convert_weight_;
-};
-
-// Non-precision-changing weight conversions.
-// Consider using more efficient Cast (fst.h) instead.
-typedef WeightConvertMapper<StdArc, LogArc> StdToLogMapper;
-typedef WeightConvertMapper<LogArc, StdArc> LogToStdMapper;
-
-// Precision-changing weight conversions.
-typedef WeightConvertMapper<StdArc, Log64Arc> StdToLog64Mapper;
-typedef WeightConvertMapper<LogArc, Log64Arc> LogToLog64Mapper;
-typedef WeightConvertMapper<Log64Arc, StdArc> Log64ToStdMapper;
-typedef WeightConvertMapper<Log64Arc, LogArc> Log64ToLogMapper;
-
-// Mapper from A to GallicArc<A>.
-template <class A, StringType S = STRING_LEFT>
-struct ToGallicMapper {
- typedef A FromArc;
- typedef GallicArc<A, S> ToArc;
-
- typedef StringWeight<typename A::Label, S> SW;
- typedef typename A::Weight AW;
- typedef typename GallicArc<A, S>::Weight GW;
-
- ToArc operator()(const A &arc) const {
- // 'Super-final' arc.
- if (arc.nextstate == kNoStateId && arc.weight != AW::Zero())
- return ToArc(0, 0, GW(SW::One(), arc.weight), kNoStateId);
- // 'Super-non-final' arc.
- else if (arc.nextstate == kNoStateId)
- return ToArc(0, 0, GW(SW::Zero(), arc.weight), kNoStateId);
- // Epsilon label.
- else if (arc.olabel == 0)
- return ToArc(arc.ilabel, arc.ilabel,
- GW(SW::One(), arc.weight), arc.nextstate);
- // Regular label.
- else
- return ToArc(arc.ilabel, arc.ilabel,
- GW(SW(arc.olabel), arc.weight), arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_CLEAR_SYMBOLS;}
-
- uint64 Properties(uint64 props) const {
- return ProjectProperties(props, true) & kWeightInvariantProperties;
- }
-};
-
-
-// Mapper from GallicArc<A> to A.
-template <class A, StringType S = STRING_LEFT>
-struct FromGallicMapper {
- typedef GallicArc<A, S> FromArc;
- typedef A ToArc;
-
- typedef typename A::Label Label;
- typedef StringWeight<Label, S> SW;
- typedef typename A::Weight AW;
- typedef typename GallicArc<A, S>::Weight GW;
-
- FromGallicMapper(Label superfinal_label = 0)
- : superfinal_label_(superfinal_label), error_(false) {}
-
- A operator()(const FromArc &arc) const {
- // 'Super-non-final' arc.
- if (arc.nextstate == kNoStateId && arc.weight == GW::Zero())
- return A(arc.ilabel, 0, AW::Zero(), kNoStateId);
-
- SW w1 = arc.weight.Value1();
- AW w2 = arc.weight.Value2();
- StringWeightIterator<Label, S> iter1(w1);
-
- Label l = w1.Size() == 1 ? iter1.Value() : 0;
-
- if (l == kStringInfinity || l == kStringBad ||
- arc.ilabel != arc.olabel || w1.Size() > 1) {
- FSTERROR() << "FromGallicMapper: unrepesentable weight";
- error_ = true;
- }
-
- if (arc.ilabel == 0 && l != 0 && arc.nextstate == kNoStateId)
- return A(superfinal_label_, l, w2, arc.nextstate);
- else
- return A(arc.ilabel, l, w2, arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_ALLOW_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_CLEAR_SYMBOLS;}
-
- uint64 Properties(uint64 inprops) const {
- uint64 outprops = inprops & kOLabelInvariantProperties &
- kWeightInvariantProperties & kAddSuperFinalProperties;
- if (error_)
- outprops |= kError;
- return outprops;
- }
-
- private:
- Label superfinal_label_;
- mutable bool error_;
-};
-
-
-// Mapper from GallicArc<A> to A.
-template <class A, StringType S = STRING_LEFT>
-struct GallicToNewSymbolsMapper {
- typedef GallicArc<A, S> FromArc;
- typedef A ToArc;
-
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef StringWeight<Label, S> SW;
- typedef typename A::Weight AW;
- typedef typename GallicArc<A, S>::Weight GW;
-
- GallicToNewSymbolsMapper(MutableFst<ToArc> *fst)
- : fst_(fst), lmax_(0), osymbols_(fst->OutputSymbols()),
- isymbols_(0), error_(false) {
- fst_->DeleteStates();
- state_ = fst_->AddState();
- fst_->SetStart(state_);
- fst_->SetFinal(state_, AW::One());
- if (osymbols_) {
- string name = osymbols_->Name() + "_from_gallic";
- fst_->SetInputSymbols(new SymbolTable(name));
- isymbols_ = fst_->MutableInputSymbols();
- isymbols_->AddSymbol(osymbols_->Find((int64) 0), 0);
- } else {
- fst_->SetInputSymbols(0);
- }
- }
-
- A operator()(const FromArc &arc) {
- // 'Super-non-final' arc.
- if (arc.nextstate == kNoStateId && arc.weight == GW::Zero())
- return A(arc.ilabel, 0, AW::Zero(), kNoStateId);
-
- SW w1 = arc.weight.Value1();
- AW w2 = arc.weight.Value2();
- Label l;
-
- if (w1.Size() == 0) {
- l = 0;
- } else {
- typename Map::iterator miter = map_.find(w1);
- if (miter != map_.end()) {
- l = (*miter).second;
- } else {
- l = ++lmax_;
- map_.insert(pair<const SW, Label>(w1, l));
- StringWeightIterator<Label, S> iter1(w1);
- StateId n;
- string s;
- for(size_t i = 0, p = state_;
- i < w1.Size();
- ++i, iter1.Next(), p = n) {
- n = i == w1.Size() - 1 ? state_ : fst_->AddState();
- fst_->AddArc(p, ToArc(i ? 0 : l, iter1.Value(), AW::One(), n));
- if (isymbols_) {
- if (i) s = s + "_";
- s = s + osymbols_->Find(iter1.Value());
- }
- }
- if (isymbols_)
- isymbols_->AddSymbol(s, l);
- }
- }
-
- if (l == kStringInfinity || l == kStringBad || arc.ilabel != arc.olabel) {
- FSTERROR() << "GallicToNewSymbolMapper: unrepesentable weight";
- error_ = true;
- }
-
- return A(arc.ilabel, l, w2, arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_ALLOW_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_CLEAR_SYMBOLS; }
-
- uint64 Properties(uint64 inprops) const {
- uint64 outprops = inprops & kOLabelInvariantProperties &
- kWeightInvariantProperties & kAddSuperFinalProperties;
- if (error_)
- outprops |= kError;
- return outprops;
- }
-
- private:
- class StringKey {
- public:
- size_t operator()(const SW &x) const {
- return x.Hash();
- }
- };
-
- typedef unordered_map<SW, Label, StringKey> Map;
-
- MutableFst<ToArc> *fst_;
- Map map_;
- Label lmax_;
- StateId state_;
- const SymbolTable *osymbols_;
- SymbolTable *isymbols_;
- mutable bool error_;
-
- DISALLOW_COPY_AND_ASSIGN(GallicToNewSymbolsMapper);
-};
-
-
-// Mapper to add a constant to all weights.
-template <class A>
-struct PlusMapper {
- typedef A FromArc;
- typedef A ToArc;
- typedef typename A::Weight Weight;
-
- explicit PlusMapper(Weight w) : weight_(w) {}
-
- A operator()(const A &arc) const {
- if (arc.weight == Weight::Zero())
- return arc;
- Weight w = Plus(arc.weight, weight_);
- return A(arc.ilabel, arc.olabel, w, arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const {
- return props & kWeightInvariantProperties;
- }
-
- private:
-
-
-
- Weight weight_;
-};
-
-
-// Mapper to (right) multiply a constant to all weights.
-template <class A>
-struct TimesMapper {
- typedef A FromArc;
- typedef A ToArc;
- typedef typename A::Weight Weight;
-
- explicit TimesMapper(Weight w) : weight_(w) {}
-
- A operator()(const A &arc) const {
- if (arc.weight == Weight::Zero())
- return arc;
- Weight w = Times(arc.weight, weight_);
- return A(arc.ilabel, arc.olabel, w, arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const {
- return props & kWeightInvariantProperties;
- }
-
- private:
- Weight weight_;
-};
-
-
-// Mapper to reciprocate all non-Zero() weights.
-template <class A>
-struct InvertWeightMapper {
- typedef A FromArc;
- typedef A ToArc;
- typedef typename A::Weight Weight;
-
- A operator()(const A &arc) const {
- if (arc.weight == Weight::Zero())
- return arc;
- Weight w = Divide(Weight::One(), arc.weight);
- return A(arc.ilabel, arc.olabel, w, arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const {
- return props & kWeightInvariantProperties;
- }
-};
-
-
-// Mapper to map all non-Zero() weights to One().
-template <class A, class B = A>
-struct RmWeightMapper {
- typedef A FromArc;
- typedef B ToArc;
- typedef typename FromArc::Weight FromWeight;
- typedef typename ToArc::Weight ToWeight;
-
- B operator()(const A &arc) const {
- ToWeight w = arc.weight != FromWeight::Zero() ?
- ToWeight::One() : ToWeight::Zero();
- return B(arc.ilabel, arc.olabel, w, arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const {
- return (props & kWeightInvariantProperties) | kUnweighted;
- }
-};
-
-
-// Mapper to quantize all weights.
-template <class A, class B = A>
-struct QuantizeMapper {
- typedef A FromArc;
- typedef B ToArc;
- typedef typename FromArc::Weight FromWeight;
- typedef typename ToArc::Weight ToWeight;
-
- QuantizeMapper() : delta_(kDelta) {}
-
- explicit QuantizeMapper(float d) : delta_(d) {}
-
- B operator()(const A &arc) const {
- ToWeight w = arc.weight.Quantize(delta_);
- return B(arc.ilabel, arc.olabel, w, arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const {
- return props & kWeightInvariantProperties;
- }
-
- private:
- float delta_;
-};
-
-
-// Mapper from A to B under the assumption:
-// B::Weight = A::Weight::ReverseWeight
-// B::Label == A::Label
-// B::StateId == A::StateId
-// The weight is reversed, while the label and nextstate preserved
-// in the mapping.
-template <class A, class B>
-struct ReverseWeightMapper {
- typedef A FromArc;
- typedef B ToArc;
-
- B operator()(const A &arc) const {
- return B(arc.ilabel, arc.olabel, arc.weight.Reverse(), arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const { return props; }
-};
-
-} // namespace fst
-
-#endif // FST_LIB_ARC_MAP_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/arc.h b/kaldi_io/src/tools/openfst/include/fst/arc.h
deleted file mode 100644
index 5f4014b..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/arc.h
+++ /dev/null
@@ -1,307 +0,0 @@
-// arc.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-//
-// Commonly used Fst arc types.
-
-#ifndef FST_LIB_ARC_H__
-#define FST_LIB_ARC_H__
-
-#include <string>
-
-
-#include <fst/expectation-weight.h>
-#include <fst/float-weight.h>
-#include <fst/lexicographic-weight.h>
-#include <fst/power-weight.h>
-#include <fst/product-weight.h>
-#include <fst/signed-log-weight.h>
-#include <fst/sparse-power-weight.h>
-#include <iostream>
-#include <fstream>
-#include <sstream>
-#include <fst/string-weight.h>
-
-
-namespace fst {
-
-template <class W>
-class ArcTpl {
- public:
- typedef W Weight;
- typedef int Label;
- typedef int StateId;
-
- ArcTpl(Label i, Label o, const Weight& w, StateId s)
- : ilabel(i), olabel(o), weight(w), nextstate(s) {}
-
- ArcTpl() {}
-
- static const string &Type(void) {
- static const string type =
- (Weight::Type() == "tropical") ? "standard" : Weight::Type();
- return type;
- }
-
- Label ilabel;
- Label olabel;
- Weight weight;
- StateId nextstate;
-};
-
-typedef ArcTpl<TropicalWeight> StdArc;
-typedef ArcTpl<LogWeight> LogArc;
-typedef ArcTpl<Log64Weight> Log64Arc;
-typedef ArcTpl<SignedLogWeight> SignedLogArc;
-typedef ArcTpl<SignedLog64Weight> SignedLog64Arc;
-typedef ArcTpl<MinMaxWeight> MinMaxArc;
-
-
-// Arc with integer labels and state Ids and string weights.
-template <StringType S = STRING_LEFT>
-class StringArc {
- public:
- typedef int Label;
- typedef StringWeight<int, S> Weight;
- typedef int StateId;
-
- StringArc(Label i, Label o, Weight w, StateId s)
- : ilabel(i), olabel(o), weight(w), nextstate(s) {}
-
- StringArc() {}
-
- static const string &Type() { // Arc type name
- static const string type =
- S == STRING_LEFT ? "standard_string" :
- (S == STRING_RIGHT ? "right_standard_string" :
- (S == STRING_LEFT_RESTRICT ? "restricted_string" :
- "right_restricted_string"));
- return type;
- }
-
- Label ilabel; // Transition input label
- Label olabel; // Transition output label
- Weight weight; // Transition weight
- StateId nextstate; // Transition destination state
-};
-
-
-// Arc with label and state Id type the same as template arg and with
-// weights over the Gallic semiring w.r.t the output labels and weights of A.
-template <class A, StringType S = STRING_LEFT>
-struct GallicArc {
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef GallicWeight<Label, typename A::Weight, S> Weight;
-
- GallicArc() {}
-
- GallicArc(Label i, Label o, Weight w, StateId s)
- : ilabel(i), olabel(o), weight(w), nextstate(s) {}
-
- GallicArc(const A &arc)
- : ilabel(arc.ilabel), olabel(arc.ilabel),
- weight(arc.olabel, arc.weight), nextstate(arc.nextstate) {}
-
- static const string &Type() { // Arc type name
- static const string type =
- (S == STRING_LEFT ? "gallic_" :
- (S == STRING_RIGHT ? "right_gallic_" :
- (S == STRING_LEFT_RESTRICT ? "restricted_gallic_" :
- "right_restricted_gallic_"))) + A::Type();
- return type;
- }
-
- Label ilabel; // Transition input label
- Label olabel; // Transition output label
- Weight weight; // Transition weight
- StateId nextstate; // Transition destination state
-};
-
-
-// Arc with the reverse of the weight found in its template arg.
-template <class A> struct ReverseArc {
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::Weight AWeight;
- typedef typename AWeight::ReverseWeight Weight;
- typedef typename A::StateId StateId;
-
- ReverseArc(Label i, Label o, Weight w, StateId s)
- : ilabel(i), olabel(o), weight(w), nextstate(s) {}
-
- ReverseArc() {}
-
- static const string &Type() { // Arc type name
- static const string type = "reverse_" + Arc::Type();
- return type;
- }
-
- Label ilabel; // Transition input label
- Label olabel; // Transition output label
- Weight weight; // Transition weight
- StateId nextstate; // Transition destination state
-};
-
-
-// Arc with integer labels and state Ids and lexicographic weights.
-template<class W1, class W2>
-struct LexicographicArc {
- typedef int Label;
- typedef LexicographicWeight<W1, W2> Weight;
- typedef int StateId;
-
- LexicographicArc(Label i, Label o, Weight w, StateId s)
- : ilabel(i), olabel(o), weight(w), nextstate(s) {}
-
- LexicographicArc() {}
-
- static const string &Type() { // Arc type name
- static const string type = Weight::Type();
- return type;
- }
-
- Label ilabel; // Transition input label
- Label olabel; // Transition output label
- Weight weight; // Transition weight
- StateId nextstate; // Transition destination state
-};
-
-
-// Arc with integer labels and state Ids and product weights.
-template<class W1, class W2>
-struct ProductArc {
- typedef int Label;
- typedef ProductWeight<W1, W2> Weight;
- typedef int StateId;
-
- ProductArc(Label i, Label o, Weight w, StateId s)
- : ilabel(i), olabel(o), weight(w), nextstate(s) {}
-
- ProductArc() {}
-
- static const string &Type() { // Arc type name
- static const string type = Weight::Type();
- return type;
- }
-
- Label ilabel; // Transition input label
- Label olabel; // Transition output label
- Weight weight; // Transition weight
- StateId nextstate; // Transition destination state
-};
-
-
-// Arc with label and state Id type the same as first template arg and with
-// weights over the n-th cartesian power of the weight type of the
-// template arg.
-template <class A, unsigned int n>
-struct PowerArc {
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef PowerWeight<typename A::Weight, n> Weight;
-
- PowerArc() {}
-
- PowerArc(Label i, Label o, Weight w, StateId s)
- : ilabel(i), olabel(o), weight(w), nextstate(s) {}
-
- static const string &Type() { // Arc type name
- static string type;
- if (type.empty()) {
- string power;
- Int64ToStr(n, &power);
- type = A::Type() + "_^" + power;
- }
- return type;
- }
-
- Label ilabel; // Transition input label
- Label olabel; // Transition output label
- Weight weight; // Transition weight
- StateId nextstate; // Transition destination state
-};
-
-
-// Arc with label and state Id type the same as first template arg and with
-// weights over the arbitrary cartesian power of the weight type.
-template <class A, class K = int>
-struct SparsePowerArc {
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef SparsePowerWeight<typename A::Weight, K> Weight;
-
- SparsePowerArc() {}
-
- SparsePowerArc(Label i, Label o, Weight w, StateId s)
- : ilabel(i), olabel(o), weight(w), nextstate(s) {}
-
- static const string &Type() { // Arc type name
- static string type;
- if (type.empty()) { type = A::Type() + "_^n"; }
- if(sizeof(K) != sizeof(uint32)) {
- string size;
- Int64ToStr(8 * sizeof(K), &size);
- type += "_" + size;
- }
- return type;
- }
-
- Label ilabel; // Transition input label
- Label olabel; // Transition output label
- Weight weight; // Transition weight
- StateId nextstate; // Transition destination state
-};
-
-
-// Arc with label and state Id type the same as first template arg and with
-// expectation weight over the first template arg weight type and the
-// second template arg.
-template <class A, class X2>
-struct ExpectationArc {
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight X1;
- typedef ExpectationWeight<X1, X2> Weight;
-
- ExpectationArc() {}
-
- ExpectationArc(Label i, Label o, Weight w, StateId s)
- : ilabel(i), olabel(o), weight(w), nextstate(s) {}
-
- static const string &Type() { // Arc type name
- static string type;
- if (type.empty()) {
- type = "expectation_" + A::Type() + "_" + X2::Type();
- }
- return type;
- }
-
- Label ilabel; // Transition input label
- Label olabel; // Transition output label
- Weight weight; // Transition weight
- StateId nextstate; // Transition destination state
-};
-
-} // namespace fst
-
-#endif // FST_LIB_ARC_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/arcfilter.h b/kaldi_io/src/tools/openfst/include/fst/arcfilter.h
deleted file mode 100644
index 179dc2c..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/arcfilter.h
+++ /dev/null
@@ -1,99 +0,0 @@
-// arcfilter.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Function objects to restrict which arcs are traversed in an FST.
-
-#ifndef FST_LIB_ARCFILTER_H__
-#define FST_LIB_ARCFILTER_H__
-
-
-#include <fst/fst.h>
-#include <fst/util.h>
-
-
-namespace fst {
-
-// True for all arcs.
-template <class A>
-class AnyArcFilter {
-public:
- bool operator()(const A &arc) const { return true; }
-};
-
-
-// True for (input/output) epsilon arcs.
-template <class A>
-class EpsilonArcFilter {
-public:
- bool operator()(const A &arc) const {
- return arc.ilabel == 0 && arc.olabel == 0;
- }
-};
-
-
-// True for input epsilon arcs.
-template <class A>
-class InputEpsilonArcFilter {
-public:
- bool operator()(const A &arc) const {
- return arc.ilabel == 0;
- }
-};
-
-
-// True for output epsilon arcs.
-template <class A>
-class OutputEpsilonArcFilter {
-public:
- bool operator()(const A &arc) const {
- return arc.olabel == 0;
- }
-};
-
-
-// True if specified labels match (don't match) when keep_match is
-// true (false).
-template <class A>
-class MultiLabelArcFilter {
-public:
- typedef typename A::Label Label;
-
- MultiLabelArcFilter(bool match_input = true, bool keep_match = true)
- : match_input_(match_input),
- keep_match_(keep_match) {}
-
-
- bool operator()(const A &arc) const {
- Label label = match_input_ ? arc.ilabel : arc.olabel;
- bool match = labels_.Find(label) != labels_.End();
- return keep_match_ ? match : !match;
- }
-
- void AddLabel(Label label) {
- labels_.Insert(label);
- }
-
-private:
- CompactSet<Label, kNoLabel> labels_;
- bool match_input_;
- bool keep_match_;
-};
-
-} // namespace fst
-
-#endif // FST_LIB_ARCFILTER_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/arcsort.h b/kaldi_io/src/tools/openfst/include/fst/arcsort.h
deleted file mode 100644
index 37a51dc..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/arcsort.h
+++ /dev/null
@@ -1,217 +0,0 @@
-// arcsort.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Functions and classes to sort arcs in an FST.
-
-#ifndef FST_LIB_ARCSORT_H__
-#define FST_LIB_ARCSORT_H__
-
-#include <algorithm>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-#include <fst/state-map.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-template <class Arc, class Compare>
-class ArcSortMapper {
- public:
- typedef Arc FromArc;
- typedef Arc ToArc;
-
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- ArcSortMapper(const Fst<Arc> &fst, const Compare &comp)
- : fst_(fst), comp_(comp), i_(0) {}
-
- // Allows updating Fst argument; pass only if changed.
- ArcSortMapper(const ArcSortMapper<Arc, Compare> &mapper,
- const Fst<Arc> *fst = 0)
- : fst_(fst ? *fst : mapper.fst_), comp_(mapper.comp_), i_(0) {}
-
- StateId Start() { return fst_.Start(); }
- Weight Final(StateId s) const { return fst_.Final(s); }
-
- void SetState(StateId s) {
- i_ = 0;
- arcs_.clear();
- arcs_.reserve(fst_.NumArcs(s));
- for (ArcIterator< Fst<Arc> > aiter(fst_, s); !aiter.Done(); aiter.Next())
- arcs_.push_back(aiter.Value());
- sort(arcs_.begin(), arcs_.end(), comp_);
- }
-
- bool Done() const { return i_ >= arcs_.size(); }
- const Arc &Value() const { return arcs_[i_]; }
- void Next() { ++i_; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
- uint64 Properties(uint64 props) const { return comp_.Properties(props); }
-
- private:
- const Fst<Arc> &fst_;
- const Compare &comp_;
- vector<Arc> arcs_;
- ssize_t i_; // current arc position
-
- void operator=(const ArcSortMapper<Arc, Compare> &); // disallow
-};
-
-
-// Sorts the arcs in an FST according to function object 'comp' of
-// type Compare. This version modifies its input. Comparison function
-// objects ILabelCompare and OLabelCompare are provived by the
-// library. In general, Compare must meet the requirements for an STL
-// sort comparision function object. It must also have a member
-// Properties(uint64) that specifies the known properties of the
-// sorted FST; it takes as argument the input FST's known properties
-// before the sort.
-//
-// Complexity:
-// - Time: O(V D log D)
-// - Space: O(D)
-// where V = # of states and D = maximum out-degree.
-template<class Arc, class Compare>
-void ArcSort(MutableFst<Arc> *fst, Compare comp) {
- ArcSortMapper<Arc, Compare> mapper(*fst, comp);
- StateMap(fst, mapper);
-}
-
-typedef CacheOptions ArcSortFstOptions;
-
-// Sorts the arcs in an FST according to function object 'comp' of
-// type Compare. This version is a delayed Fst. Comparsion function
-// objects ILabelCompare and OLabelCompare are provided by the
-// library. In general, Compare must meet the requirements for an STL
-// comparision function object (e.g. as used for STL sort). It must
-// also have a member Properties(uint64) that specifies the known
-// properties of the sorted FST; it takes as argument the input FST's
-// known properties.
-//
-// Complexity:
-// - Time: O(v d log d)
-// - Space: O(d)
-// where v = # of states visited, d = maximum out-degree of states
-// visited. Constant time and space to visit an input state is assumed
-// and exclusive of caching.
-template <class A, class C>
-class ArcSortFst : public StateMapFst<A, A, ArcSortMapper<A, C> > {
- using StateMapFst<A, A, ArcSortMapper<A, C> >::GetImpl;
- public:
- typedef A Arc;
- typedef typename Arc::StateId StateId;
- typedef ArcSortMapper<A, C> M;
-
- ArcSortFst(const Fst<A> &fst, const C &comp)
- : StateMapFst<A, A, M>(fst, ArcSortMapper<A, C>(fst, comp)) {}
-
- ArcSortFst(const Fst<A> &fst, const C &comp, const ArcSortFstOptions &opts)
- : StateMapFst<A, A, M>(fst, ArcSortMapper<A, C>(fst, comp), opts) {}
-
- // See Fst<>::Copy() for doc.
- ArcSortFst(const ArcSortFst<A, C> &fst, bool safe = false)
- : StateMapFst<A, A, M>(fst, safe) {}
-
- // Get a copy of this ArcSortFst. See Fst<>::Copy() for further doc.
- virtual ArcSortFst<A, C> *Copy(bool safe = false) const {
- return new ArcSortFst(*this, safe);
- }
-
- virtual size_t NumArcs(StateId s) const {
- return GetImpl()->GetFst().NumArcs(s);
- }
-
- virtual size_t NumInputEpsilons(StateId s) const {
- return GetImpl()->GetFst().NumInputEpsilons(s);
- }
-
- virtual size_t NumOutputEpsilons(StateId s) const {
- return GetImpl()->GetFst().NumOutputEpsilons(s);
- }
-};
-
-
-// Specialization for ArcSortFst.
-template <class A, class C>
-class StateIterator< ArcSortFst<A, C> >
- : public StateIterator< StateMapFst<A, A, ArcSortMapper<A, C> > > {
- public:
- explicit StateIterator(const ArcSortFst<A, C> &fst)
- : StateIterator< StateMapFst<A, A, ArcSortMapper<A, C> > >(fst) {}
-};
-
-
-// Specialization for ArcSortFst.
-template <class A, class C>
-class ArcIterator< ArcSortFst<A, C> >
- : public ArcIterator< StateMapFst<A, A, ArcSortMapper<A, C> > > {
- public:
- ArcIterator(const ArcSortFst<A, C> &fst, typename A::StateId s)
- : ArcIterator< StateMapFst<A, A, ArcSortMapper<A, C> > >(fst, s) {}
-};
-
-
-// Compare class for comparing input labels of arcs.
-template<class A> class ILabelCompare {
- public:
- bool operator() (A arc1, A arc2) const {
- return arc1.ilabel < arc2.ilabel;
- }
-
- uint64 Properties(uint64 props) const {
- return (props & kArcSortProperties) | kILabelSorted |
- (props & kAcceptor ? kOLabelSorted : 0);
- }
-};
-
-
-// Compare class for comparing output labels of arcs.
-template<class A> class OLabelCompare {
- public:
- bool operator() (const A &arc1, const A &arc2) const {
- return arc1.olabel < arc2.olabel;
- }
-
- uint64 Properties(uint64 props) const {
- return (props & kArcSortProperties) | kOLabelSorted |
- (props & kAcceptor ? kILabelSorted : 0);
- }
-};
-
-
-// Useful aliases when using StdArc.
-template<class C> class StdArcSortFst : public ArcSortFst<StdArc, C> {
- public:
- typedef StdArc Arc;
- typedef C Compare;
-};
-
-typedef ILabelCompare<StdArc> StdILabelCompare;
-
-typedef OLabelCompare<StdArc> StdOLabelCompare;
-
-} // namespace fst
-
-#endif // FST_LIB_ARCSORT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/bi-table.h b/kaldi_io/src/tools/openfst/include/fst/bi-table.h
deleted file mode 100644
index d220ce4..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/bi-table.h
+++ /dev/null
@@ -1,532 +0,0 @@
-// bi-table.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Classes for representing a bijective mapping between an arbitrary entry
-// of type T and a signed integral ID.
-
-#ifndef FST_LIB_BI_TABLE_H__
-#define FST_LIB_BI_TABLE_H__
-
-#include <deque>
-using std::deque;
-#include <functional>
-#include <vector>
-using std::vector;
-
-#include <tr1/unordered_set>
-using std::tr1::unordered_set;
-using std::tr1::unordered_multiset;
-
-namespace fst {
-
-// BI TABLES - these determine a bijective mapping between an
-// arbitrary entry of type T and an signed integral ID of type I. The IDs are
-// allocated starting from 0 in order.
-//
-// template <class I, class T>
-// class BiTable {
-// public:
-//
-// // Required constructors.
-// BiTable();
-//
-// // Lookup integer ID from entry. If it doesn't exist and 'insert'
-// / is true, then add it. Otherwise return -1.
-// I FindId(const T &entry, bool insert = true);
-// // Lookup entry from integer ID.
-// const T &FindEntry(I) const;
-// // # of stored entries.
-// I Size() const;
-// };
-
-// An implementation using a hash map for the entry to ID mapping.
-// H is the hash function and E is the equality function.
-// If passed to the constructor, ownership is given to this class.
-
-template <class I, class T, class H, class E = std::equal_to<T> >
-class HashBiTable {
- public:
- // Reserves space for 'table_size' elements.
- explicit HashBiTable(size_t table_size = 0, H *h = 0, E *e = 0)
- : hash_func_(h),
- hash_equal_(e),
- entry2id_(table_size, (h ? *h : H()), (e ? *e : E())) {
- if (table_size)
- id2entry_.reserve(table_size);
- }
-
- HashBiTable(const HashBiTable<I, T, H, E> &table)
- : hash_func_(table.hash_func_ ? new H(*table.hash_func_) : 0),
- hash_equal_(table.hash_equal_ ? new E(*table.hash_equal_) : 0),
- entry2id_(table.entry2id_.begin(), table.entry2id_.end(),
- table.entry2id_.size(),
- (hash_func_ ? *hash_func_ : H()),
- (hash_equal_ ? *hash_equal_ : E())),
- id2entry_(table.id2entry_) { }
-
- ~HashBiTable() {
- delete hash_func_;
- delete hash_equal_;
- }
-
- I FindId(const T &entry, bool insert = true) {
- I &id_ref = entry2id_[entry];
- if (id_ref == 0) { // T not found
- if (insert) { // store and assign it a new ID
- id2entry_.push_back(entry);
- id_ref = id2entry_.size();
- } else {
- return -1;
- }
- }
- return id_ref - 1; // NB: id_ref = ID + 1
- }
-
- const T &FindEntry(I s) const {
- return id2entry_[s];
- }
-
- I Size() const { return id2entry_.size(); }
-
- private:
- H *hash_func_;
- E *hash_equal_;
- unordered_map<T, I, H, E> entry2id_;
- vector<T> id2entry_;
-
- void operator=(const HashBiTable<I, T, H, E> &table); // disallow
-};
-
-
-// Enables alternative hash set representations below.
-// typedef enum { HS_STL = 0, HS_DENSE = 1, HS_SPARSE = 2 } HSType;
-typedef enum { HS_STL = 0, HS_DENSE = 1, HS_SPARSE = 2 } HSType;
-
-// Default hash set is STL hash_set
-template<class K, class H, class E, HSType>
-struct HashSet : public unordered_set<K, H, E> {
- HashSet(size_t n = 0, const H &h = H(), const E &e = E())
- : unordered_set<K, H, E>(n, h, e) { }
-
- void rehash(size_t n) { }
-};
-
-
-// An implementation using a hash set for the entry to ID mapping.
-// The hash set holds 'keys' which are either the ID or kCurrentKey.
-// These keys can be mapped to entrys either by looking up in the
-// entry vector or, if kCurrentKey, in current_entry_ member. The hash
-// and key equality functions map to entries first. H
-// is the hash function and E is the equality function. If passed to
-// the constructor, ownership is given to this class.
-template <class I, class T, class H,
- class E = std::equal_to<T>, HSType HS = HS_DENSE>
-class CompactHashBiTable {
- public:
- friend class HashFunc;
- friend class HashEqual;
-
- // Reserves space for 'table_size' elements.
- explicit CompactHashBiTable(size_t table_size = 0, H *h = 0, E *e = 0)
- : hash_func_(h),
- hash_equal_(e),
- compact_hash_func_(*this),
- compact_hash_equal_(*this),
- keys_(table_size, compact_hash_func_, compact_hash_equal_) {
- if (table_size)
- id2entry_.reserve(table_size);
- }
-
- CompactHashBiTable(const CompactHashBiTable<I, T, H, E, HS> &table)
- : hash_func_(table.hash_func_ ? new H(*table.hash_func_) : 0),
- hash_equal_(table.hash_equal_ ? new E(*table.hash_equal_) : 0),
- compact_hash_func_(*this),
- compact_hash_equal_(*this),
- keys_(table.keys_.size(), compact_hash_func_, compact_hash_equal_),
- id2entry_(table.id2entry_) {
- keys_.insert(table.keys_.begin(), table.keys_.end());
- }
-
- ~CompactHashBiTable() {
- delete hash_func_;
- delete hash_equal_;
- }
-
- I FindId(const T &entry, bool insert = true) {
- current_entry_ = &entry;
- typename KeyHashSet::const_iterator it = keys_.find(kCurrentKey);
- if (it == keys_.end()) { // T not found
- if (insert) { // store and assign it a new ID
- I key = id2entry_.size();
- id2entry_.push_back(entry);
- keys_.insert(key);
- return key;
- } else {
- return -1;
- }
- } else {
- return *it;
- }
- }
-
- const T &FindEntry(I s) const { return id2entry_[s]; }
-
- I Size() const { return id2entry_.size(); }
-
- // Clear content. With argument, erases last n IDs.
- void Clear(ssize_t n = -1) {
- if (n < 0 || n > id2entry_.size())
- n = id2entry_.size();
- while (n-- > 0) {
- I key = id2entry_.size() - 1;
- keys_.erase(key);
- id2entry_.pop_back();
- }
- keys_.rehash(0);
- }
-
- private:
- static const I kCurrentKey; // -1
- static const I kEmptyKey; // -2
- static const I kDeletedKey; // -3
-
- class HashFunc {
- public:
- HashFunc(const CompactHashBiTable &ht) : ht_(&ht) {}
-
- size_t operator()(I k) const {
- if (k >= kCurrentKey) {
- return (*ht_->hash_func_)(ht_->Key2Entry(k));
- } else {
- return 0;
- }
- }
-
- private:
- const CompactHashBiTable *ht_;
- };
-
- class HashEqual {
- public:
- HashEqual(const CompactHashBiTable &ht) : ht_(&ht) {}
-
- bool operator()(I k1, I k2) const {
- if (k1 >= kCurrentKey && k2 >= kCurrentKey) {
- return (*ht_->hash_equal_)(ht_->Key2Entry(k1), ht_->Key2Entry(k2));
- } else {
- return k1 == k2;
- }
- }
- private:
- const CompactHashBiTable *ht_;
- };
-
- typedef HashSet<I, HashFunc, HashEqual, HS> KeyHashSet;
-
- const T &Key2Entry(I k) const {
- if (k == kCurrentKey)
- return *current_entry_;
- else
- return id2entry_[k];
- }
-
- H *hash_func_;
- E *hash_equal_;
- HashFunc compact_hash_func_;
- HashEqual compact_hash_equal_;
- KeyHashSet keys_;
- vector<T> id2entry_;
- const T *current_entry_;
-
- void operator=(const CompactHashBiTable<I, T, H, E, HS> &table); // disallow
-};
-
-
-template <class I, class T, class H, class E, HSType HS>
-const I CompactHashBiTable<I, T, H, E, HS>::kCurrentKey = -1;
-
-template <class I, class T, class H, class E, HSType HS>
-const I CompactHashBiTable<I, T, H, E, HS>::kEmptyKey = -2;
-
-template <class I, class T, class H, class E, HSType HS>
-const I CompactHashBiTable<I, T, H, E, HS>::kDeletedKey = -3;
-
-
-// An implementation using a vector for the entry to ID mapping.
-// It is passed a function object FP that should fingerprint entries
-// uniquely to an integer that can used as a vector index. Normally,
-// VectorBiTable constructs the FP object. The user can instead
-// pass in this object; in that case, VectorBiTable takes its
-// ownership.
-template <class I, class T, class FP>
-class VectorBiTable {
- public:
- // Reserves space for 'table_size' elements.
- explicit VectorBiTable(FP *fp = 0, size_t table_size = 0)
- : fp_(fp ? fp : new FP()) {
- if (table_size)
- id2entry_.reserve(table_size);
- }
-
- VectorBiTable(const VectorBiTable<I, T, FP> &table)
- : fp_(table.fp_ ? new FP(*table.fp_) : 0),
- fp2id_(table.fp2id_),
- id2entry_(table.id2entry_) { }
-
- ~VectorBiTable() { delete fp_; }
-
- I FindId(const T &entry, bool insert = true) {
- ssize_t fp = (*fp_)(entry);
- if (fp >= fp2id_.size())
- fp2id_.resize(fp + 1);
- I &id_ref = fp2id_[fp];
- if (id_ref == 0) { // T not found
- if (insert) { // store and assign it a new ID
- id2entry_.push_back(entry);
- id_ref = id2entry_.size();
- } else {
- return -1;
- }
- }
- return id_ref - 1; // NB: id_ref = ID + 1
- }
-
- const T &FindEntry(I s) const { return id2entry_[s]; }
-
- I Size() const { return id2entry_.size(); }
-
- const FP &Fingerprint() const { return *fp_; }
-
- private:
- FP *fp_;
- vector<I> fp2id_;
- vector<T> id2entry_;
-
- void operator=(const VectorBiTable<I, T, FP> &table); // disallow
-};
-
-
-// An implementation using a vector and a compact hash table. The
-// selecting functor S returns true for entries to be hashed in the
-// vector. The fingerprinting functor FP returns a unique fingerprint
-// for each entry to be hashed in the vector (these need to be
-// suitable for indexing in a vector). The hash functor H is used
-// when hashing entry into the compact hash table. If passed to the
-// constructor, ownership is given to this class.
-template <class I, class T, class S, class FP, class H, HSType HS = HS_DENSE>
-class VectorHashBiTable {
- public:
- friend class HashFunc;
- friend class HashEqual;
-
- explicit VectorHashBiTable(S *s, FP *fp = 0, H *h = 0,
- size_t vector_size = 0,
- size_t entry_size = 0)
- : selector_(s),
- fp_(fp ? fp : new FP()),
- h_(h ? h : new H()),
- hash_func_(*this),
- hash_equal_(*this),
- keys_(0, hash_func_, hash_equal_) {
- if (vector_size)
- fp2id_.reserve(vector_size);
- if (entry_size)
- id2entry_.reserve(entry_size);
- }
-
- VectorHashBiTable(const VectorHashBiTable<I, T, S, FP, H, HS> &table)
- : selector_(new S(table.s_)),
- fp_(table.fp_ ? new FP(*table.fp_) : 0),
- h_(table.h_ ? new H(*table.h_) : 0),
- id2entry_(table.id2entry_),
- fp2id_(table.fp2id_),
- hash_func_(*this),
- hash_equal_(*this),
- keys_(table.keys_.size(), hash_func_, hash_equal_) {
- keys_.insert(table.keys_.begin(), table.keys_.end());
- }
-
- ~VectorHashBiTable() {
- delete selector_;
- delete fp_;
- delete h_;
- }
-
- I FindId(const T &entry, bool insert = true) {
- if ((*selector_)(entry)) { // Use the vector if 'selector_(entry) == true'
- uint64 fp = (*fp_)(entry);
- if (fp2id_.size() <= fp)
- fp2id_.resize(fp + 1, 0);
- if (fp2id_[fp] == 0) { // T not found
- if (insert) { // store and assign it a new ID
- id2entry_.push_back(entry);
- fp2id_[fp] = id2entry_.size();
- } else {
- return -1;
- }
- }
- return fp2id_[fp] - 1; // NB: assoc_value = ID + 1
- } else { // Use the hash table otherwise.
- current_entry_ = &entry;
- typename KeyHashSet::const_iterator it = keys_.find(kCurrentKey);
- if (it == keys_.end()) {
- if (insert) {
- I key = id2entry_.size();
- id2entry_.push_back(entry);
- keys_.insert(key);
- return key;
- } else {
- return -1;
- }
- } else {
- return *it;
- }
- }
- }
-
- const T &FindEntry(I s) const {
- return id2entry_[s];
- }
-
- I Size() const { return id2entry_.size(); }
-
- const S &Selector() const { return *selector_; }
-
- const FP &Fingerprint() const { return *fp_; }
-
- const H &Hash() const { return *h_; }
-
- private:
- static const I kCurrentKey; // -1
- static const I kEmptyKey; // -2
-
- class HashFunc {
- public:
- HashFunc(const VectorHashBiTable &ht) : ht_(&ht) {}
-
- size_t operator()(I k) const {
- if (k >= kCurrentKey) {
- return (*(ht_->h_))(ht_->Key2Entry(k));
- } else {
- return 0;
- }
- }
- private:
- const VectorHashBiTable *ht_;
- };
-
- class HashEqual {
- public:
- HashEqual(const VectorHashBiTable &ht) : ht_(&ht) {}
-
- bool operator()(I k1, I k2) const {
- if (k1 >= kCurrentKey && k2 >= kCurrentKey) {
- return ht_->Key2Entry(k1) == ht_->Key2Entry(k2);
- } else {
- return k1 == k2;
- }
- }
- private:
- const VectorHashBiTable *ht_;
- };
-
- typedef HashSet<I, HashFunc, HashEqual, HS> KeyHashSet;
-
- const T &Key2Entry(I k) const {
- if (k == kCurrentKey)
- return *current_entry_;
- else
- return id2entry_[k];
- }
-
- S *selector_; // Returns true if entry hashed into vector
- FP *fp_; // Fingerprint used when hashing entry into vector
- H *h_; // Hash function used when hashing entry into hash_set
-
- vector<T> id2entry_; // Maps state IDs to entry
- vector<I> fp2id_; // Maps entry fingerprints to IDs
-
- // Compact implementation of the hash table mapping entrys to
- // state IDs using the hash function 'h_'
- HashFunc hash_func_;
- HashEqual hash_equal_;
- KeyHashSet keys_;
- const T *current_entry_;
-
- // disallow
- void operator=(const VectorHashBiTable<I, T, S, FP, H, HS> &table);
-};
-
-template <class I, class T, class S, class FP, class H, HSType HS>
-const I VectorHashBiTable<I, T, S, FP, H, HS>::kCurrentKey = -1;
-
-template <class I, class T, class S, class FP, class H, HSType HS>
-const I VectorHashBiTable<I, T, S, FP, H, HS>::kEmptyKey = -3;
-
-
-// An implementation using a hash map for the entry to ID
-// mapping. This version permits erasing of arbitrary states. The
-// entry T must have == defined and its default constructor must
-// produce a entry that will never be seen. F is the hash function.
-template <class I, class T, class F>
-class ErasableBiTable {
- public:
- ErasableBiTable() : first_(0) {}
-
- I FindId(const T &entry, bool insert = true) {
- I &id_ref = entry2id_[entry];
- if (id_ref == 0) { // T not found
- if (insert) { // store and assign it a new ID
- id2entry_.push_back(entry);
- id_ref = id2entry_.size() + first_;
- } else {
- return -1;
- }
- }
- return id_ref - 1; // NB: id_ref = ID + 1
- }
-
- const T &FindEntry(I s) const { return id2entry_[s - first_]; }
-
- I Size() const { return id2entry_.size(); }
-
- void Erase(I s) {
- T &entry = id2entry_[s - first_];
- typename unordered_map<T, I, F>::iterator it =
- entry2id_.find(entry);
- entry2id_.erase(it);
- id2entry_[s - first_] = empty_entry_;
- while (!id2entry_.empty() && id2entry_.front() == empty_entry_) {
- id2entry_.pop_front();
- ++first_;
- }
- }
-
- private:
- unordered_map<T, I, F> entry2id_;
- deque<T> id2entry_;
- const T empty_entry_;
- I first_; // I of first element in the deque;
-
- // disallow
- void operator=(const ErasableBiTable<I, T, F> &table); //disallow
-};
-
-} // namespace fst
-
-#endif // FST_LIB_BI_TABLE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/cache.h b/kaldi_io/src/tools/openfst/include/fst/cache.h
deleted file mode 100644
index 7c96fe1..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/cache.h
+++ /dev/null
@@ -1,861 +0,0 @@
-// cache.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// An Fst implementation that caches FST elements of a delayed
-// computation.
-
-#ifndef FST_LIB_CACHE_H__
-#define FST_LIB_CACHE_H__
-
-#include <vector>
-using std::vector;
-#include <list>
-
-#include <fst/vector-fst.h>
-
-
-DECLARE_bool(fst_default_cache_gc);
-DECLARE_int64(fst_default_cache_gc_limit);
-
-namespace fst {
-
-struct CacheOptions {
- bool gc; // enable GC
- size_t gc_limit; // # of bytes allowed before GC
-
- CacheOptions(bool g, size_t l) : gc(g), gc_limit(l) {}
- CacheOptions()
- : gc(FLAGS_fst_default_cache_gc),
- gc_limit(FLAGS_fst_default_cache_gc_limit) {}
-};
-
-// A CacheStateAllocator allocates and frees CacheStates
-// template <class S>
-// struct CacheStateAllocator {
-// S *Allocate(StateId s);
-// void Free(S *state, StateId s);
-// };
-//
-
-// A simple allocator class, can be overridden as needed,
-// maintains a single entry cache.
-template <class S>
-struct DefaultCacheStateAllocator {
- typedef typename S::Arc::StateId StateId;
-
- DefaultCacheStateAllocator() : mru_(NULL) { }
-
- ~DefaultCacheStateAllocator() {
- delete mru_;
- }
-
- S *Allocate(StateId s) {
- if (mru_) {
- S *state = mru_;
- mru_ = NULL;
- state->Reset();
- return state;
- }
- return new S();
- }
-
- void Free(S *state, StateId s) {
- if (mru_) {
- delete mru_;
- }
- mru_ = state;
- }
-
- private:
- S *mru_;
-};
-
-// VectorState but additionally has a flags data member (see
-// CacheState below). This class is used to cache FST elements with
-// the flags used to indicate what has been cached. Use HasStart()
-// HasFinal(), and HasArcs() to determine if cached and SetStart(),
-// SetFinal(), AddArc(), (or PushArc() and SetArcs()) to cache. Note
-// you must set the final weight even if the state is non-final to
-// mark it as cached. If the 'gc' option is 'false', cached items have
-// the extent of the FST - minimizing computation. If the 'gc' option
-// is 'true', garbage collection of states (not in use in an arc
-// iterator and not 'protected') is performed, in a rough
-// approximation of LRU order, when 'gc_limit' bytes is reached -
-// controlling memory use. When 'gc_limit' is 0, special optimizations
-// apply - minimizing memory use.
-
-template <class S, class C = DefaultCacheStateAllocator<S> >
-class CacheBaseImpl : public VectorFstBaseImpl<S> {
- public:
- typedef S State;
- typedef C Allocator;
- typedef typename State::Arc Arc;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- using FstImpl<Arc>::Type;
- using FstImpl<Arc>::Properties;
- using FstImpl<Arc>::SetProperties;
- using VectorFstBaseImpl<State>::NumStates;
- using VectorFstBaseImpl<State>::Start;
- using VectorFstBaseImpl<State>::AddState;
- using VectorFstBaseImpl<State>::SetState;
- using VectorFstBaseImpl<State>::ReserveStates;
-
- explicit CacheBaseImpl(C *allocator = 0)
- : cache_start_(false), nknown_states_(0), min_unexpanded_state_id_(0),
- cache_first_state_id_(kNoStateId), cache_first_state_(0),
- cache_gc_(FLAGS_fst_default_cache_gc), cache_size_(0),
- cache_limit_(FLAGS_fst_default_cache_gc_limit > kMinCacheLimit ||
- FLAGS_fst_default_cache_gc_limit == 0 ?
- FLAGS_fst_default_cache_gc_limit : kMinCacheLimit),
- protect_(false) {
- allocator_ = allocator ? allocator : new C();
- }
-
- explicit CacheBaseImpl(const CacheOptions &opts, C *allocator = 0)
- : cache_start_(false), nknown_states_(0),
- min_unexpanded_state_id_(0), cache_first_state_id_(kNoStateId),
- cache_first_state_(0), cache_gc_(opts.gc), cache_size_(0),
- cache_limit_(opts.gc_limit > kMinCacheLimit || opts.gc_limit == 0 ?
- opts.gc_limit : kMinCacheLimit),
- protect_(false) {
- allocator_ = allocator ? allocator : new C();
- }
-
- // Preserve gc parameters. If preserve_cache true, also preserves
- // cache data.
- CacheBaseImpl(const CacheBaseImpl<S, C> &impl, bool preserve_cache = false)
- : VectorFstBaseImpl<S>(), cache_start_(false), nknown_states_(0),
- min_unexpanded_state_id_(0), cache_first_state_id_(kNoStateId),
- cache_first_state_(0), cache_gc_(impl.cache_gc_), cache_size_(0),
- cache_limit_(impl.cache_limit_),
- protect_(impl.protect_) {
- allocator_ = new C();
- if (preserve_cache) {
- cache_start_ = impl.cache_start_;
- nknown_states_ = impl.nknown_states_;
- expanded_states_ = impl.expanded_states_;
- min_unexpanded_state_id_ = impl.min_unexpanded_state_id_;
- if (impl.cache_first_state_id_ != kNoStateId) {
- cache_first_state_id_ = impl.cache_first_state_id_;
- cache_first_state_ = allocator_->Allocate(cache_first_state_id_);
- *cache_first_state_ = *impl.cache_first_state_;
- }
- cache_states_ = impl.cache_states_;
- cache_size_ = impl.cache_size_;
- ReserveStates(impl.NumStates());
- for (StateId s = 0; s < impl.NumStates(); ++s) {
- const S *state =
- static_cast<const VectorFstBaseImpl<S> &>(impl).GetState(s);
- if (state) {
- S *copied_state = allocator_->Allocate(s);
- *copied_state = *state;
- AddState(copied_state);
- } else {
- AddState(0);
- }
- }
- VectorFstBaseImpl<S>::SetStart(impl.Start());
- }
- }
-
- ~CacheBaseImpl() {
- allocator_->Free(cache_first_state_, cache_first_state_id_);
- delete allocator_;
- }
-
- // Gets a state from its ID; state must exist.
- const S *GetState(StateId s) const {
- if (s == cache_first_state_id_)
- return cache_first_state_;
- else
- return VectorFstBaseImpl<S>::GetState(s);
- }
-
- // Gets a state from its ID; state must exist.
- S *GetState(StateId s) {
- if (s == cache_first_state_id_)
- return cache_first_state_;
- else
- return VectorFstBaseImpl<S>::GetState(s);
- }
-
- // Gets a state from its ID; return 0 if it doesn't exist.
- const S *CheckState(StateId s) const {
- if (s == cache_first_state_id_)
- return cache_first_state_;
- else if (s < NumStates())
- return VectorFstBaseImpl<S>::GetState(s);
- else
- return 0;
- }
-
- // Gets a state from its ID; add it if necessary.
- S *ExtendState(StateId s);
-
- void SetStart(StateId s) {
- VectorFstBaseImpl<S>::SetStart(s);
- cache_start_ = true;
- if (s >= nknown_states_)
- nknown_states_ = s + 1;
- }
-
- void SetFinal(StateId s, Weight w) {
- S *state = ExtendState(s);
- state->final = w;
- state->flags |= kCacheFinal | kCacheRecent | kCacheModified;
- }
-
- // AddArc adds a single arc to state s and does incremental cache
- // book-keeping. For efficiency, prefer PushArc and SetArcs below
- // when possible.
- void AddArc(StateId s, const Arc &arc) {
- S *state = ExtendState(s);
- state->arcs.push_back(arc);
- if (arc.ilabel == 0) {
- ++state->niepsilons;
- }
- if (arc.olabel == 0) {
- ++state->noepsilons;
- }
- const Arc *parc = state->arcs.empty() ? 0 : &(state->arcs.back());
- SetProperties(AddArcProperties(Properties(), s, arc, parc));
- state->flags |= kCacheModified;
- if (cache_gc_ && s != cache_first_state_id_ &&
- !(state->flags & kCacheProtect)) {
- cache_size_ += sizeof(Arc);
- if (cache_size_ > cache_limit_)
- GC(s, false);
- }
- }
-
- // Adds a single arc to state s but delays cache book-keeping.
- // SetArcs must be called when all PushArc calls at a state are
- // complete. Do not mix with calls to AddArc.
- void PushArc(StateId s, const Arc &arc) {
- S *state = ExtendState(s);
- state->arcs.push_back(arc);
- }
-
- // Marks arcs of state s as cached and does cache book-keeping after all
- // calls to PushArc have been completed. Do not mix with calls to AddArc.
- void SetArcs(StateId s) {
- S *state = ExtendState(s);
- vector<Arc> &arcs = state->arcs;
- state->niepsilons = state->noepsilons = 0;
- for (size_t a = 0; a < arcs.size(); ++a) {
- const Arc &arc = arcs[a];
- if (arc.nextstate >= nknown_states_)
- nknown_states_ = arc.nextstate + 1;
- if (arc.ilabel == 0)
- ++state->niepsilons;
- if (arc.olabel == 0)
- ++state->noepsilons;
- }
- ExpandedState(s);
- state->flags |= kCacheArcs | kCacheRecent | kCacheModified;
- if (cache_gc_ && s != cache_first_state_id_ &&
- !(state->flags & kCacheProtect)) {
- cache_size_ += arcs.capacity() * sizeof(Arc);
- if (cache_size_ > cache_limit_)
- GC(s, false);
- }
- };
-
- void ReserveArcs(StateId s, size_t n) {
- S *state = ExtendState(s);
- state->arcs.reserve(n);
- }
-
- void DeleteArcs(StateId s, size_t n) {
- S *state = ExtendState(s);
- const vector<Arc> &arcs = state->arcs;
- for (size_t i = 0; i < n; ++i) {
- size_t j = arcs.size() - i - 1;
- if (arcs[j].ilabel == 0)
- --state->niepsilons;
- if (arcs[j].olabel == 0)
- --state->noepsilons;
- }
-
- state->arcs.resize(arcs.size() - n);
- SetProperties(DeleteArcsProperties(Properties()));
- state->flags |= kCacheModified;
- if (cache_gc_ && s != cache_first_state_id_ &&
- !(state->flags & kCacheProtect)) {
- cache_size_ -= n * sizeof(Arc);
- }
- }
-
- void DeleteArcs(StateId s) {
- S *state = ExtendState(s);
- size_t n = state->arcs.size();
- state->niepsilons = 0;
- state->noepsilons = 0;
- state->arcs.clear();
- SetProperties(DeleteArcsProperties(Properties()));
- state->flags |= kCacheModified;
- if (cache_gc_ && s != cache_first_state_id_ &&
- !(state->flags & kCacheProtect)) {
- cache_size_ -= n * sizeof(Arc);
- }
- }
-
- void DeleteStates(const vector<StateId> &dstates) {
- size_t old_num_states = NumStates();
- vector<StateId> newid(old_num_states, 0);
- for (size_t i = 0; i < dstates.size(); ++i)
- newid[dstates[i]] = kNoStateId;
- StateId nstates = 0;
- for (StateId s = 0; s < old_num_states; ++s) {
- if (newid[s] != kNoStateId) {
- newid[s] = nstates;
- ++nstates;
- }
- }
- // just for states_.resize(), does unnecessary walk.
- VectorFstBaseImpl<S>::DeleteStates(dstates);
- SetProperties(DeleteStatesProperties(Properties()));
- // Update list of cached states.
- typename list<StateId>::iterator siter = cache_states_.begin();
- while (siter != cache_states_.end()) {
- if (newid[*siter] != kNoStateId) {
- *siter = newid[*siter];
- ++siter;
- } else {
- cache_states_.erase(siter++);
- }
- }
- }
-
- void DeleteStates() {
- cache_states_.clear();
- allocator_->Free(cache_first_state_, cache_first_state_id_);
- for (int s = 0; s < NumStates(); ++s) {
- allocator_->Free(VectorFstBaseImpl<S>::GetState(s), s);
- SetState(s, 0);
- }
- nknown_states_ = 0;
- min_unexpanded_state_id_ = 0;
- cache_first_state_id_ = kNoStateId;
- cache_first_state_ = 0;
- cache_size_ = 0;
- cache_start_ = false;
- VectorFstBaseImpl<State>::DeleteStates();
- SetProperties(DeleteAllStatesProperties(Properties(),
- kExpanded | kMutable));
- }
-
- // Is the start state cached?
- bool HasStart() const {
- if (!cache_start_ && Properties(kError))
- cache_start_ = true;
- return cache_start_;
- }
-
- // Is the final weight of state s cached?
- bool HasFinal(StateId s) const {
- const S *state = CheckState(s);
- if (state && state->flags & kCacheFinal) {
- state->flags |= kCacheRecent;
- return true;
- } else {
- return false;
- }
- }
-
- // Are arcs of state s cached?
- bool HasArcs(StateId s) const {
- const S *state = CheckState(s);
- if (state && state->flags & kCacheArcs) {
- state->flags |= kCacheRecent;
- return true;
- } else {
- return false;
- }
- }
-
- Weight Final(StateId s) const {
- const S *state = GetState(s);
- return state->final;
- }
-
- size_t NumArcs(StateId s) const {
- const S *state = GetState(s);
- return state->arcs.size();
- }
-
- size_t NumInputEpsilons(StateId s) const {
- const S *state = GetState(s);
- return state->niepsilons;
- }
-
- size_t NumOutputEpsilons(StateId s) const {
- const S *state = GetState(s);
- return state->noepsilons;
- }
-
- // Provides information needed for generic arc iterator.
- void InitArcIterator(StateId s, ArcIteratorData<Arc> *data) const {
- const S *state = GetState(s);
- data->base = 0;
- data->narcs = state->arcs.size();
- data->arcs = data->narcs > 0 ? &(state->arcs[0]) : 0;
- data->ref_count = &(state->ref_count);
- ++(*data->ref_count);
- }
-
- // Number of known states.
- StateId NumKnownStates() const { return nknown_states_; }
-
- // Update number of known states taking in account the existence of state s.
- void UpdateNumKnownStates(StateId s) {
- if (s >= nknown_states_)
- nknown_states_ = s + 1;
- }
-
- // Find the mininum never-expanded state Id
- StateId MinUnexpandedState() const {
- while (min_unexpanded_state_id_ < expanded_states_.size() &&
- expanded_states_[min_unexpanded_state_id_])
- ++min_unexpanded_state_id_;
- return min_unexpanded_state_id_;
- }
-
- // Removes from cache_states_ and uncaches (not referenced-counted
- // or protected) states that have not been accessed since the last
- // GC until at most cache_fraction * cache_limit_ bytes are cached.
- // If that fails to free enough, recurs uncaching recently visited
- // states as well. If still unable to free enough memory, then
- // widens cache_limit_ to fulfill condition.
- void GC(StateId current, bool free_recent, float cache_fraction = 0.666);
-
- // Setc/clears GC protection: if true, new states are protected
- // from garbage collection.
- void GCProtect(bool on) { protect_ = on; }
-
- void ExpandedState(StateId s) {
- if (s < min_unexpanded_state_id_)
- return;
- while (expanded_states_.size() <= s)
- expanded_states_.push_back(false);
- expanded_states_[s] = true;
- }
-
- C *GetAllocator() const {
- return allocator_;
- }
-
- // Caching on/off switch, limit and size accessors.
- bool GetCacheGc() const { return cache_gc_; }
- size_t GetCacheLimit() const { return cache_limit_; }
- size_t GetCacheSize() const { return cache_size_; }
-
- private:
- static const size_t kMinCacheLimit = 8096; // Minimum (non-zero) cache limit
-
- static const uint32 kCacheFinal = 0x0001; // Final weight has been cached
- static const uint32 kCacheArcs = 0x0002; // Arcs have been cached
- static const uint32 kCacheRecent = 0x0004; // Mark as visited since GC
- static const uint32 kCacheProtect = 0x0008; // Mark state as GC protected
-
- public:
- static const uint32 kCacheModified = 0x0010; // Mark state as modified
- static const uint32 kCacheFlags = kCacheFinal | kCacheArcs | kCacheRecent
- | kCacheProtect | kCacheModified;
-
- private:
- C *allocator_; // used to allocate new states
- mutable bool cache_start_; // Is the start state cached?
- StateId nknown_states_; // # of known states
- vector<bool> expanded_states_; // states that have been expanded
- mutable StateId min_unexpanded_state_id_; // minimum never-expanded state Id
- StateId cache_first_state_id_; // First cached state id
- S *cache_first_state_; // First cached state
- list<StateId> cache_states_; // list of currently cached states
- bool cache_gc_; // enable GC
- size_t cache_size_; // # of bytes cached
- size_t cache_limit_; // # of bytes allowed before GC
- bool protect_; // Protect new states from GC
-
- void operator=(const CacheBaseImpl<S, C> &impl); // disallow
-};
-
-// Gets a state from its ID; add it if necessary.
-template <class S, class C>
-S *CacheBaseImpl<S, C>::ExtendState(typename S::Arc::StateId s) {
- // If 'protect_' true and a new state, protects from garbage collection.
- if (s == cache_first_state_id_) {
- return cache_first_state_; // Return 1st cached state
- } else if (cache_limit_ == 0 && cache_first_state_id_ == kNoStateId) {
- cache_first_state_id_ = s; // Remember 1st cached state
- cache_first_state_ = allocator_->Allocate(s);
- if (protect_) cache_first_state_->flags |= kCacheProtect;
- return cache_first_state_;
- } else if (cache_first_state_id_ != kNoStateId &&
- cache_first_state_->ref_count == 0 &&
- !(cache_first_state_->flags & kCacheProtect)) {
- // With Default allocator, the Free and Allocate will reuse the same S*.
- allocator_->Free(cache_first_state_, cache_first_state_id_);
- cache_first_state_id_ = s;
- cache_first_state_ = allocator_->Allocate(s);
- if (protect_) cache_first_state_->flags |= kCacheProtect;
- return cache_first_state_; // Return 1st cached state
- } else {
- while (NumStates() <= s) // Add state to main cache
- AddState(0);
- S *state = VectorFstBaseImpl<S>::GetState(s);
- if (!state) {
- state = allocator_->Allocate(s);
- if (protect_) state->flags |= kCacheProtect;
- SetState(s, state);
- if (cache_first_state_id_ != kNoStateId) { // Forget 1st cached state
- while (NumStates() <= cache_first_state_id_)
- AddState(0);
- SetState(cache_first_state_id_, cache_first_state_);
- if (cache_gc_ && !(cache_first_state_->flags & kCacheProtect)) {
- cache_states_.push_back(cache_first_state_id_);
- cache_size_ += sizeof(S) +
- cache_first_state_->arcs.capacity() * sizeof(Arc);
- }
- cache_limit_ = kMinCacheLimit;
- cache_first_state_id_ = kNoStateId;
- cache_first_state_ = 0;
- }
- if (cache_gc_ && !protect_) {
- cache_states_.push_back(s);
- cache_size_ += sizeof(S);
- if (cache_size_ > cache_limit_)
- GC(s, false);
- }
- }
- return state;
- }
-}
-
-// Removes from cache_states_ and uncaches (not referenced-counted or
-// protected) states that have not been accessed since the last GC
-// until at most cache_fraction * cache_limit_ bytes are cached. If
-// that fails to free enough, recurs uncaching recently visited states
-// as well. If still unable to free enough memory, then widens cache_limit_
-// to fulfill condition.
-template <class S, class C>
-void CacheBaseImpl<S, C>::GC(typename S::Arc::StateId current,
- bool free_recent, float cache_fraction) {
- if (!cache_gc_)
- return;
- VLOG(2) << "CacheImpl: Enter GC: object = " << Type() << "(" << this
- << "), free recently cached = " << free_recent
- << ", cache size = " << cache_size_
- << ", cache frac = " << cache_fraction
- << ", cache limit = " << cache_limit_ << "\n";
- typename list<StateId>::iterator siter = cache_states_.begin();
-
- size_t cache_target = cache_fraction * cache_limit_;
- while (siter != cache_states_.end()) {
- StateId s = *siter;
- S* state = VectorFstBaseImpl<S>::GetState(s);
- if (cache_size_ > cache_target && state->ref_count == 0 &&
- (free_recent || !(state->flags & kCacheRecent)) && s != current) {
- cache_size_ -= sizeof(S) + state->arcs.capacity() * sizeof(Arc);
- allocator_->Free(state, s);
- SetState(s, 0);
- cache_states_.erase(siter++);
- } else {
- state->flags &= ~kCacheRecent;
- ++siter;
- }
- }
- if (!free_recent && cache_size_ > cache_target) { // recurses on recent
- GC(current, true);
- } else if (cache_target > 0) { // widens cache limit
- while (cache_size_ > cache_target) {
- cache_limit_ *= 2;
- cache_target *= 2;
- }
- } else if (cache_size_ > 0) {
- FSTERROR() << "CacheImpl:GC: Unable to free all cached states";
- }
- VLOG(2) << "CacheImpl: Exit GC: object = " << Type() << "(" << this
- << "), free recently cached = " << free_recent
- << ", cache size = " << cache_size_
- << ", cache frac = " << cache_fraction
- << ", cache limit = " << cache_limit_ << "\n";
-}
-
-template <class S, class C> const uint32 CacheBaseImpl<S, C>::kCacheFinal;
-template <class S, class C> const uint32 CacheBaseImpl<S, C>::kCacheArcs;
-template <class S, class C> const uint32 CacheBaseImpl<S, C>::kCacheRecent;
-template <class S, class C> const uint32 CacheBaseImpl<S, C>::kCacheModified;
-template <class S, class C> const size_t CacheBaseImpl<S, C>::kMinCacheLimit;
-
-// Arcs implemented by an STL vector per state. Similar to VectorState
-// but adds flags and ref count to keep track of what has been cached.
-template <class A>
-struct CacheState {
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- CacheState() : final(Weight::Zero()), flags(0), ref_count(0) {}
-
- void Reset() {
- flags = 0;
- ref_count = 0;
- arcs.resize(0);
- }
-
- Weight final; // Final weight
- vector<A> arcs; // Arcs represenation
- size_t niepsilons; // # of input epsilons
- size_t noepsilons; // # of output epsilons
- mutable uint32 flags;
- mutable int ref_count;
-};
-
-// A CacheBaseImpl with a commonly used CacheState.
-template <class A>
-class CacheImpl : public CacheBaseImpl< CacheState<A> > {
- public:
- typedef CacheState<A> State;
-
- CacheImpl() {}
-
- explicit CacheImpl(const CacheOptions &opts)
- : CacheBaseImpl< CacheState<A> >(opts) {}
-
- CacheImpl(const CacheImpl<A> &impl, bool preserve_cache = false)
- : CacheBaseImpl<State>(impl, preserve_cache) {}
-
- private:
- void operator=(const CacheImpl<State> &impl); // disallow
-};
-
-
-// Use this to make a state iterator for a CacheBaseImpl-derived Fst,
-// which must have type 'State' defined. Note this iterator only
-// returns those states reachable from the initial state, so consider
-// implementing a class-specific one.
-template <class F>
-class CacheStateIterator : public StateIteratorBase<typename F::Arc> {
- public:
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename F::State State;
- typedef CacheBaseImpl<State> Impl;
-
- CacheStateIterator(const F &fst, Impl *impl)
- : fst_(fst), impl_(impl), s_(0) {
- fst_.Start(); // force start state
- }
-
- bool Done() const {
- if (s_ < impl_->NumKnownStates())
- return false;
- if (s_ < impl_->NumKnownStates())
- return false;
- for (StateId u = impl_->MinUnexpandedState();
- u < impl_->NumKnownStates();
- u = impl_->MinUnexpandedState()) {
- // force state expansion
- ArcIterator<F> aiter(fst_, u);
- aiter.SetFlags(kArcValueFlags, kArcValueFlags | kArcNoCache);
- for (; !aiter.Done(); aiter.Next())
- impl_->UpdateNumKnownStates(aiter.Value().nextstate);
- impl_->ExpandedState(u);
- if (s_ < impl_->NumKnownStates())
- return false;
- }
- return true;
- }
-
- StateId Value() const { return s_; }
-
- void Next() { ++s_; }
-
- void Reset() { s_ = 0; }
-
- private:
- // This allows base class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual bool Done_() const { return Done(); }
- virtual StateId Value_() const { return Value(); }
- virtual void Next_() { Next(); }
- virtual void Reset_() { Reset(); }
-
- const F &fst_;
- Impl *impl_;
- StateId s_;
-};
-
-
-// Use this to make an arc iterator for a CacheBaseImpl-derived Fst,
-// which must have types 'Arc' and 'State' defined.
-template <class F,
- class C = DefaultCacheStateAllocator<CacheState<typename F::Arc> > >
-class CacheArcIterator {
- public:
- typedef typename F::Arc Arc;
- typedef typename F::State State;
- typedef typename Arc::StateId StateId;
- typedef CacheBaseImpl<State, C> Impl;
-
- CacheArcIterator(Impl *impl, StateId s) : i_(0) {
- state_ = impl->ExtendState(s);
- ++state_->ref_count;
- }
-
- ~CacheArcIterator() { --state_->ref_count; }
-
- bool Done() const { return i_ >= state_->arcs.size(); }
-
- const Arc& Value() const { return state_->arcs[i_]; }
-
- void Next() { ++i_; }
-
- size_t Position() const { return i_; }
-
- void Reset() { i_ = 0; }
-
- void Seek(size_t a) { i_ = a; }
-
- uint32 Flags() const {
- return kArcValueFlags;
- }
-
- void SetFlags(uint32 flags, uint32 mask) {}
-
- private:
- const State *state_;
- size_t i_;
-
- DISALLOW_COPY_AND_ASSIGN(CacheArcIterator);
-};
-
-// Use this to make a mutable arc iterator for a CacheBaseImpl-derived Fst,
-// which must have types 'Arc' and 'State' defined.
-template <class F,
- class C = DefaultCacheStateAllocator<CacheState<typename F::Arc> > >
-class CacheMutableArcIterator
- : public MutableArcIteratorBase<typename F::Arc> {
- public:
- typedef typename F::State State;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
- typedef CacheBaseImpl<State, C> Impl;
-
- // You will need to call MutateCheck() in the constructor.
- CacheMutableArcIterator(Impl *impl, StateId s) : i_(0), s_(s), impl_(impl) {
- state_ = impl_->ExtendState(s_);
- ++state_->ref_count;
- };
-
- ~CacheMutableArcIterator() {
- --state_->ref_count;
- }
-
- bool Done() const { return i_ >= state_->arcs.size(); }
-
- const Arc& Value() const { return state_->arcs[i_]; }
-
- void Next() { ++i_; }
-
- size_t Position() const { return i_; }
-
- void Reset() { i_ = 0; }
-
- void Seek(size_t a) { i_ = a; }
-
- void SetValue(const Arc& arc) {
- state_->flags |= CacheBaseImpl<State, C>::kCacheModified;
- uint64 properties = impl_->Properties();
- Arc& oarc = state_->arcs[i_];
- if (oarc.ilabel != oarc.olabel)
- properties &= ~kNotAcceptor;
- if (oarc.ilabel == 0) {
- --state_->niepsilons;
- properties &= ~kIEpsilons;
- if (oarc.olabel == 0)
- properties &= ~kEpsilons;
- }
- if (oarc.olabel == 0) {
- --state_->noepsilons;
- properties &= ~kOEpsilons;
- }
- if (oarc.weight != Weight::Zero() && oarc.weight != Weight::One())
- properties &= ~kWeighted;
- oarc = arc;
- if (arc.ilabel != arc.olabel) {
- properties |= kNotAcceptor;
- properties &= ~kAcceptor;
- }
- if (arc.ilabel == 0) {
- ++state_->niepsilons;
- properties |= kIEpsilons;
- properties &= ~kNoIEpsilons;
- if (arc.olabel == 0) {
- properties |= kEpsilons;
- properties &= ~kNoEpsilons;
- }
- }
- if (arc.olabel == 0) {
- ++state_->noepsilons;
- properties |= kOEpsilons;
- properties &= ~kNoOEpsilons;
- }
- if (arc.weight != Weight::Zero() && arc.weight != Weight::One()) {
- properties |= kWeighted;
- properties &= ~kUnweighted;
- }
- properties &= kSetArcProperties | kAcceptor | kNotAcceptor |
- kEpsilons | kNoEpsilons | kIEpsilons | kNoIEpsilons |
- kOEpsilons | kNoOEpsilons | kWeighted | kUnweighted;
- impl_->SetProperties(properties);
- }
-
- uint32 Flags() const {
- return kArcValueFlags;
- }
-
- void SetFlags(uint32 f, uint32 m) {}
-
- private:
- virtual bool Done_() const { return Done(); }
- virtual const Arc& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
- virtual size_t Position_() const { return Position(); }
- virtual void Reset_() { Reset(); }
- virtual void Seek_(size_t a) { Seek(a); }
- virtual void SetValue_(const Arc &a) { SetValue(a); }
- uint32 Flags_() const { return Flags(); }
- void SetFlags_(uint32 f, uint32 m) { SetFlags(f, m); }
-
- size_t i_;
- StateId s_;
- Impl *impl_;
- State *state_;
-
- DISALLOW_COPY_AND_ASSIGN(CacheMutableArcIterator);
-};
-
-} // namespace fst
-
-#endif // FST_LIB_CACHE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/closure.h b/kaldi_io/src/tools/openfst/include/fst/closure.h
deleted file mode 100644
index 541562b..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/closure.h
+++ /dev/null
@@ -1,155 +0,0 @@
-// closure.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Functions and classes to compute the concatenative closure of an Fst.
-
-#ifndef FST_LIB_CLOSURE_H__
-#define FST_LIB_CLOSURE_H__
-
-#include <vector>
-using std::vector;
-#include <algorithm>
-
-#include <fst/mutable-fst.h>
-#include <fst/rational.h>
-
-
-namespace fst {
-
-// Computes the concatenative closure. This version modifies its
-// MutableFst input. If FST transduces string x to y with weight a,
-// then the closure transduces x to y with weight a, xx to yy with
-// weight Times(a, a), xxx to yyy with with Times(Times(a, a), a),
-// etc. If closure_type == CLOSURE_STAR, then the empty string is
-// transduced to itself with weight Weight::One() as well.
-//
-// Complexity:
-// - Time: O(V)
-// - Space: O(V)
-// where V = # of states.
-template<class Arc>
-void Closure(MutableFst<Arc> *fst, ClosureType closure_type) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- uint64 props = fst->Properties(kFstProperties, false);
- StateId start = fst->Start();
- for (StateIterator< MutableFst<Arc> > siter(*fst);
- !siter.Done();
- siter.Next()) {
- StateId s = siter.Value();
- Weight final = fst->Final(s);
- if (final != Weight::Zero())
- fst->AddArc(s, Arc(0, 0, final, start));
- }
- if (closure_type == CLOSURE_STAR) {
- fst->ReserveStates(fst->NumStates() + 1);
- StateId nstart = fst->AddState();
- fst->SetStart(nstart);
- fst->SetFinal(nstart, Weight::One());
- if (start != kNoLabel)
- fst->AddArc(nstart, Arc(0, 0, Weight::One(), start));
- }
- fst->SetProperties(ClosureProperties(props, closure_type == CLOSURE_STAR),
- kFstProperties);
-}
-
-// Computes the concatenative closure. This version modifies its
-// RationalFst input.
-template<class Arc>
-void Closure(RationalFst<Arc> *fst, ClosureType closure_type) {
- fst->GetImpl()->AddClosure(closure_type);
-}
-
-
-struct ClosureFstOptions : RationalFstOptions {
- ClosureType type;
-
- ClosureFstOptions(const RationalFstOptions &opts, ClosureType t)
- : RationalFstOptions(opts), type(t) {}
- explicit ClosureFstOptions(ClosureType t) : type(t) {}
- ClosureFstOptions() : type(CLOSURE_STAR) {}
-};
-
-
-// Computes the concatenative closure. This version is a delayed
-// Fst. If FST transduces string x to y with weight a, then the
-// closure transduces x to y with weight a, xx to yy with weight
-// Times(a, a), xxx to yyy with weight Times(Times(a, a), a), etc. If
-// closure_type == CLOSURE_STAR, then The empty string is transduced
-// to itself with weight Weight::One() as well.
-//
-// Complexity:
-// - Time: O(v)
-// - Space: O(v)
-// where v = # of states visited. Constant time and space to visit an
-// input state or arc is assumed and exclusive of caching.
-template <class A>
-class ClosureFst : public RationalFst<A> {
- public:
- using ImplToFst< RationalFstImpl<A> >::GetImpl;
-
- typedef A Arc;
-
- ClosureFst(const Fst<A> &fst, ClosureType closure_type) {
- GetImpl()->InitClosure(fst, closure_type);
- }
-
- ClosureFst(const Fst<A> &fst, const ClosureFstOptions &opts)
- : RationalFst<A>(opts) {
- GetImpl()->InitClosure(fst, opts.type);
- }
-
- // See Fst<>::Copy() for doc.
- ClosureFst(const ClosureFst<A> &fst, bool safe = false)
- : RationalFst<A>(fst, safe) {}
-
- // Get a copy of this ClosureFst. See Fst<>::Copy() for further doc.
- virtual ClosureFst<A> *Copy(bool safe = false) const {
- return new ClosureFst<A>(*this, safe);
- }
-};
-
-
-// Specialization for ClosureFst.
-template <class A>
-class StateIterator< ClosureFst<A> > : public StateIterator< RationalFst<A> > {
- public:
- explicit StateIterator(const ClosureFst<A> &fst)
- : StateIterator< RationalFst<A> >(fst) {}
-};
-
-
-// Specialization for ClosureFst.
-template <class A>
-class ArcIterator< ClosureFst<A> > : public ArcIterator< RationalFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const ClosureFst<A> &fst, StateId s)
- : ArcIterator< RationalFst<A> >(fst, s) {}
-};
-
-
-// Useful alias when using StdArc.
-typedef ClosureFst<StdArc> StdClosureFst;
-
-} // namespace fst
-
-#endif // FST_LIB_CLOSURE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/compact-fst.h b/kaldi_io/src/tools/openfst/include/fst/compact-fst.h
deleted file mode 100644
index 6db3317..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/compact-fst.h
+++ /dev/null
@@ -1,1438 +0,0 @@
-// compact-fst.h
-
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// FST Class for memory-efficient representation of common types of
-// FSTs: linear automata, acceptors, unweighted FSTs, ...
-
-#ifndef FST_LIB_COMPACT_FST_H__
-#define FST_LIB_COMPACT_FST_H__
-
-#include <iterator>
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-#include <fst/expanded-fst.h>
-#include <fst/fst-decl.h> // For optional argument declarations
-#include <fst/mapped-file.h>
-#include <fst/matcher.h>
-#include <fst/test-properties.h>
-#include <fst/util.h>
-
-
-namespace fst {
-
-struct CompactFstOptions : public CacheOptions {
- // CompactFst default caching behaviour is to do no caching. Most
- // compactors are cheap and therefore we save memory by not doing
- // caching.
- CompactFstOptions() : CacheOptions(true, 0) {}
- CompactFstOptions(const CacheOptions &opts) : CacheOptions(opts) {}
-};
-
-// Compactor Interface - class determinies how arcs and final weights
-// are compacted and expanded.
-//
-// Final weights are treated as transitions to the superfinal state,
-// i.e. ilabel = olabel = kNoLabel and nextstate = kNoStateId.
-//
-// There are two types of compactors:
-//
-// * Fixed out-degree compactors: 'compactor.Size()' returns a
-// positive integer 's'. An FST can be compacted by this compactor
-// only if each state has exactly 's' outgoing transitions (counting a
-// non-Zero() final weight as a transition). A typical example is a
-// compactor for string FSTs, i.e. 's == 1'.
-//
-// * Variable out-degree compactors: 'compactor.Size() == -1'. There
-// are no out-degree restrictions for these compactors.
-//
-//
-// class Compactor {
-// public:
-// // Element is the type of the compacted transitions.
-// typedef ... Element;
-// // Return the compacted representation of a transition 'arc'
-// // at a state 's'.
-// Element Compact(StateId s, const Arc &arc);
-// // Return the transition at state 's' represented by the compacted
-// // transition 'e'.
-// Arc Expand(StateId s, const Element &e);
-// // Return -1 for variable out-degree compactors, and the mandatory
-// // out-degree otherwise.
-// ssize_t Size();
-// // Test whether 'fst' can be compacted by this compactor.
-// bool Compatible(const Fst<A> &fst);
-// // Return the properties that are always true for an fst
-// // compacted using this compactor
-// uint64 Properties();
-// // Return a string identifying the type of compactor.
-// static const string &Type();
-// // Write a compactor to a file.
-// bool Write(ostream &strm);
-// // Read a compactor from a file.
-// static Compactor *Read(istream &strm);
-// // Default constructor (optional, see comment below).
-// Compactor();
-// };
-//
-// The default constructor is only required for FST_REGISTER to work
-// (i.e. enabling Convert() and the command-line utilities to work
-// with this new compactor). However, a default constructor always
-// needs to be specify for this code to compile, but one can have it
-// simply raised an error when called:
-//
-// Compactor::Compactor() {
-// FSTERROR() << "Compactor: no default constructor";
-// }
-
-
-// Implementation data for Compact Fst, which can shared between otherwise
-// independent copies.
-//
-// The implementation contains two arrays: 'states_' and 'compacts_'.
-//
-// For fixed out-degree compactors, the 'states_' array is unallocated.
-// The 'compacts_' contains the compacted transitions. Its size is
-// 'ncompacts_'. The outgoing transitions at a given state are stored
-// consecutively. For a given state 's', its 'compactor.Size()' outgoing
-// transitions (including superfinal transition when 's' is final), are
-// stored in position ['s*compactor.Size()', '(s+1)*compactor_.Size()').
-//
-// For variable out-degree compactors, the states_ array has size
-// 'nstates_ + 1' and contains pointers to positions into 'compacts_'.
-// For a given state 's', the compacted transitions of 's' are
-// stored in positions [ 'states_[s]', 'states_[s + 1]' ) in 'compacts_'.
-// By convention, 'states_[nstates_] == ncompacts_'.
-//
-// In both cases, the superfinal transitons (when 's' is final, i.e.
-// 'Final(s) != Weight::Zero()') is stored first.
-//
-// The unsigned type U is used to represent indices into the compacts_
-// array.
-template <class E, class U>
-class CompactFstData {
- public:
- typedef E CompactElement;
- typedef U Unsigned;
-
- CompactFstData()
- : states_region_(0),
- compacts_region_(0),
- states_(0),
- compacts_(0),
- nstates_(0),
- ncompacts_(0),
- narcs_(0),
- start_(kNoStateId),
- error_(false) {}
-
- template <class A, class Compactor>
- CompactFstData(const Fst<A> &fst, const Compactor &compactor);
-
- template <class Iterator, class Compactor>
- CompactFstData(const Iterator &begin, const Iterator &end,
- const Compactor &compactor);
-
- ~CompactFstData() {
- if (states_region_ == NULL) {
- delete [] states_;
- }
- delete states_region_;
- if (compacts_region_ == NULL) {
- delete [] compacts_;
- }
- delete compacts_region_;
- }
-
- template <class Compactor>
- static CompactFstData<E, U> *Read(istream &strm,
- const FstReadOptions &opts,
- const FstHeader &hdr,
- const Compactor &compactor);
-
- bool Write(ostream &strm, const FstWriteOptions &opts) const;
-
- Unsigned States(ssize_t i) const { return states_[i]; }
- const CompactElement &Compacts(size_t i) const { return compacts_[i]; }
- size_t NumStates() const { return nstates_; }
- size_t NumCompacts() const { return ncompacts_; }
- size_t NumArcs() const { return narcs_; }
- ssize_t Start() const { return start_; }
-
- int RefCount() const { return ref_count_.count(); }
- int IncrRefCount() { return ref_count_.Incr(); }
- int DecrRefCount() { return ref_count_.Decr(); }
-
- bool Error() const { return error_; }
-
- private:
- MappedFile *states_region_;
- MappedFile *compacts_region_;
- Unsigned *states_;
- CompactElement *compacts_;
- size_t nstates_;
- size_t ncompacts_;
- size_t narcs_;
- ssize_t start_;
- RefCounter ref_count_;
- bool error_;
-};
-
-template <class E, class U>
-template <class A, class C>
-CompactFstData<E, U>::CompactFstData(const Fst<A> &fst, const C &compactor)
- : states_region_(0),
- compacts_region_(0),
- states_(0),
- compacts_(0),
- nstates_(0),
- ncompacts_(0),
- narcs_(0),
- start_(kNoStateId),
- error_(false) {
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
- start_ = fst.Start();
- // Count # of states and arcs.
- StateId nfinals = 0;
- for (StateIterator< Fst<A> > siter(fst);
- !siter.Done();
- siter.Next()) {
- ++nstates_;
- StateId s = siter.Value();
- for (ArcIterator< Fst<A> > aiter(fst, s);
- !aiter.Done();
- aiter.Next())
- ++narcs_;
- if (fst.Final(s) != Weight::Zero()) ++nfinals;
- }
- if (compactor.Size() == -1) {
- states_ = new Unsigned[nstates_ + 1];
- ncompacts_ = narcs_ + nfinals;
- compacts_ = new CompactElement[ncompacts_];
- states_[nstates_] = ncompacts_;
- } else {
- states_ = 0;
- ncompacts_ = nstates_ * compactor.Size();
- if ((narcs_ + nfinals) != ncompacts_) {
- FSTERROR() << "CompactFstData: compactor incompatible with fst";
- error_ = true;
- return;
- }
- compacts_ = new CompactElement[ncompacts_];
- }
- size_t pos = 0, fpos = 0;
- for (StateId s = 0; s < nstates_; ++s) {
- fpos = pos;
- if (compactor.Size() == -1)
- states_[s] = pos;
- if (fst.Final(s) != Weight::Zero())
- compacts_[pos++] = compactor.Compact(s, A(kNoLabel, kNoLabel,
- fst.Final(s), kNoStateId));
- for (ArcIterator< Fst<A> > aiter(fst, s);
- !aiter.Done();
- aiter.Next()) {
- compacts_[pos++] = compactor.Compact(s, aiter.Value());
- }
- if ((compactor.Size() != -1) && ((pos - fpos) != compactor.Size())) {
- FSTERROR() << "CompactFstData: compactor incompatible with fst";
- error_ = true;
- return;
- }
- }
- if (pos != ncompacts_) {
- FSTERROR() << "CompactFstData: compactor incompatible with fst";
- error_ = true;
- return;
- }
-}
-
-template <class E, class U>
-template <class Iterator, class C>
-CompactFstData<E, U>::CompactFstData(const Iterator &begin,
- const Iterator &end,
- const C &compactor)
- : states_region_(0),
- compacts_region_(0),
- states_(0),
- compacts_(0),
- nstates_(0),
- ncompacts_(0),
- narcs_(0),
- start_(kNoStateId),
- error_(false) {
- typedef typename C::Arc Arc;
- typedef typename Arc::Weight Weight;
- if (compactor.Size() != -1) {
- ncompacts_ = distance(begin, end);
- if (compactor.Size() == 1) {
- // For strings, allow implicit final weight.
- // Empty input is the empty string.
- if (ncompacts_ == 0) {
- ++ncompacts_;
- } else {
- Arc arc = compactor.Expand(ncompacts_ - 1,
- *(begin + (ncompacts_ - 1)));
- if (arc.ilabel != kNoLabel)
- ++ncompacts_;
- }
- }
- if (ncompacts_ % compactor.Size()) {
- FSTERROR() << "CompactFstData: size of input container incompatible"
- << " with compactor";
- error_ = true;
- return;
- }
- if (ncompacts_ == 0)
- return;
- start_ = 0;
- nstates_ = ncompacts_ / compactor.Size();
- compacts_ = new CompactElement[ncompacts_];
- size_t i = 0;
- Iterator it = begin;
- for(; it != end; ++it, ++i){
- compacts_[i] = *it;
- if (compactor.Expand(i, *it).ilabel != kNoLabel)
- ++narcs_;
- }
- if (i < ncompacts_)
- compacts_[i] = compactor.Compact(i, Arc(kNoLabel, kNoLabel,
- Weight::One(), kNoStateId));
- } else {
- if (distance(begin, end) == 0)
- return;
- // Count # of states, arcs and compacts.
- Iterator it = begin;
- for(size_t i = 0; it != end; ++it, ++i) {
- Arc arc = compactor.Expand(i, *it);
- if (arc.ilabel != kNoLabel) {
- ++narcs_;
- ++ncompacts_;
- } else {
- ++nstates_;
- if (arc.weight != Weight::Zero())
- ++ncompacts_;
- }
- }
- start_ = 0;
- compacts_ = new CompactElement[ncompacts_];
- states_ = new Unsigned[nstates_ + 1];
- states_[nstates_] = ncompacts_;
- size_t i = 0, s = 0;
- for(it = begin; it != end; ++it) {
- Arc arc = compactor.Expand(i, *it);
- if (arc.ilabel != kNoLabel) {
- compacts_[i++] = *it;
- } else {
- states_[s++] = i;
- if (arc.weight != Weight::Zero())
- compacts_[i++] = *it;
- }
- }
- if ((s != nstates_) || (i != ncompacts_)) {
- FSTERROR() << "CompactFstData: ill-formed input container";
- error_ = true;
- return;
- }
- }
-}
-
-template <class E, class U>
-template <class C>
-CompactFstData<E, U> *CompactFstData<E, U>::Read(
- istream &strm,
- const FstReadOptions &opts,
- const FstHeader &hdr,
- const C &compactor) {
- CompactFstData<E, U> *data = new CompactFstData<E, U>();
- data->start_ = hdr.Start();
- data->nstates_ = hdr.NumStates();
- data->narcs_ = hdr.NumArcs();
-
- if (compactor.Size() == -1) {
- if ((hdr.GetFlags() & FstHeader::IS_ALIGNED) && !AlignInput(strm)) {
- LOG(ERROR) << "CompactFst::Read: Alignment failed: " << opts.source;
- delete data;
- return 0;
- }
- size_t b = (data->nstates_ + 1) * sizeof(Unsigned);
- data->states_region_ = MappedFile::Map(&strm, opts, b);
- if (!strm || data->states_region_ == NULL) {
- LOG(ERROR) << "CompactFst::Read: Read failed: " << opts.source;
- delete data;
- return 0;
- }
- data->states_ = static_cast<Unsigned *>(
- data->states_region_->mutable_data());
- } else {
- data->states_ = 0;
- }
- data->ncompacts_ = compactor.Size() == -1
- ? data->states_[data->nstates_]
- : data->nstates_ * compactor.Size();
- if ((hdr.GetFlags() & FstHeader::IS_ALIGNED) && !AlignInput(strm)) {
- LOG(ERROR) << "CompactFst::Read: Alignment failed: " << opts.source;
- delete data;
- return 0;
- }
- size_t b = data->ncompacts_ * sizeof(CompactElement);
- data->compacts_region_ = MappedFile::Map(&strm, opts, b);
- if (!strm || data->compacts_region_ == NULL) {
- LOG(ERROR) << "CompactFst::Read: Read failed: " << opts.source;
- delete data;
- return 0;
- }
- data->compacts_ = static_cast<CompactElement *>(
- data->compacts_region_->mutable_data());
- return data;
-}
-
-template<class E, class U>
-bool CompactFstData<E, U>::Write(ostream &strm,
- const FstWriteOptions &opts) const {
- if (states_) {
- if (opts.align && !AlignOutput(strm)) {
- LOG(ERROR) << "CompactFst::Write: Alignment failed: " << opts.source;
- return false;
- }
- strm.write(reinterpret_cast<char *>(states_),
- (nstates_ + 1) * sizeof(Unsigned));
- }
- if (opts.align && !AlignOutput(strm)) {
- LOG(ERROR) << "CompactFst::Write: Alignment failed: " << opts.source;
- return false;
- }
- strm.write(reinterpret_cast<char *>(compacts_),
- ncompacts_ * sizeof(CompactElement));
-
- strm.flush();
- if (!strm) {
- LOG(ERROR) << "CompactFst::Write: Write failed: " << opts.source;
- return false;
- }
- return true;
-}
-
-template <class A, class C, class U> class CompactFst;
-template <class F, class G> void Cast(const F &, G *);
-
-// Implementation class for CompactFst, which contains CompactFstData
-// and Fst cache.
-template <class A, class C, class U>
-class CompactFstImpl : public CacheImpl<A> {
- public:
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::Properties;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
- using FstImpl<A>::WriteHeader;
-
- using CacheImpl<A>::PushArc;
- using CacheImpl<A>::HasArcs;
- using CacheImpl<A>::HasFinal;
- using CacheImpl<A>::HasStart;
- using CacheImpl<A>::SetArcs;
- using CacheImpl<A>::SetFinal;
- using CacheImpl<A>::SetStart;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef C Compactor;
- typedef typename C::Element CompactElement;
- typedef U Unsigned;
-
- CompactFstImpl()
- : CacheImpl<A>(CompactFstOptions()),
- compactor_(0),
- own_compactor_(false),
- data_(0) {
- string type = "compact";
- if (sizeof(U) != sizeof(uint32)) {
- string size;
- Int64ToStr(8 * sizeof(U), &size);
- type += size;
- }
- type += "_";
- type += C::Type();
- SetType(type);
- SetProperties(kNullProperties | kStaticProperties);
- }
-
- CompactFstImpl(const Fst<Arc> &fst, const C &compactor,
- const CompactFstOptions &opts)
- : CacheImpl<A>(opts),
- compactor_(new C(compactor)),
- own_compactor_(true),
- data_(0) {
- Init(fst);
- }
-
- CompactFstImpl(const Fst<Arc> &fst, C *compactor,
- const CompactFstOptions &opts)
- : CacheImpl<A>(opts),
- compactor_(compactor),
- own_compactor_(false),
- data_(0) {
- Init(fst);
- }
-
- template <class Iterator>
- CompactFstImpl(const Iterator &b, const Iterator &e, const C &compactor,
- const CompactFstOptions &opts)
- : CacheImpl<A>(opts),
- compactor_(new C(compactor)),
- own_compactor_(true),
- data_(0) {
- Init(b, e);
- }
-
- template <class Iterator>
- CompactFstImpl(const Iterator &b, const Iterator &e, C *compactor,
- const CompactFstOptions &opts)
- : CacheImpl<A>(opts),
- compactor_(compactor),
- own_compactor_(false),
- data_(0) {
- Init(b, e);
- }
-
- CompactFstImpl(const CompactFstImpl<A, C, U> &impl)
- : CacheImpl<A>(impl),
- compactor_(new C(*impl.compactor_)),
- own_compactor_(true),
- data_(impl.data_) {
- if (data_)
- data_->IncrRefCount();
- SetType(impl.Type());
- SetProperties(impl.Properties());
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- }
-
- ~CompactFstImpl(){
- if (own_compactor_)
- delete compactor_;
- if (data_ && !data_->DecrRefCount())
- delete data_;
- }
-
- StateId Start() {
- if (!HasStart()) {
- SetStart(data_->Start());
- }
- return CacheImpl<A>::Start();
- }
-
- Weight Final(StateId s) {
- if (HasFinal(s))
- return CacheImpl<A>::Final(s);
- Arc arc(kNoLabel, kNoLabel, Weight::Zero(), kNoStateId);
- if ((compactor_->Size() != -1) ||
- (data_->States(s) != data_->States(s + 1)))
- arc = ComputeArc(s,
- compactor_->Size() == -1
- ? data_->States(s)
- : s * compactor_->Size());
- return arc.ilabel == kNoLabel ? arc.weight : Weight::Zero();
- }
-
- StateId NumStates() const {
- if (Properties(kError)) return 0;
- return data_->NumStates();
- }
-
- size_t NumArcs(StateId s) {
- if (HasArcs(s))
- return CacheImpl<A>::NumArcs(s);
- Unsigned i, num_arcs;
- if (compactor_->Size() == -1) {
- i = data_->States(s);
- num_arcs = data_->States(s + 1) - i;
- } else {
- i = s * compactor_->Size();
- num_arcs = compactor_->Size();
- }
- if (num_arcs > 0) {
- const A &arc = ComputeArc(s, i, kArcILabelValue);
- if (arc.ilabel == kNoStateId) {
- --num_arcs;
- }
- }
- return num_arcs;
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (!HasArcs(s) && !Properties(kILabelSorted))
- Expand(s);
- if (HasArcs(s))
- return CacheImpl<A>::NumInputEpsilons(s);
- return CountEpsilons(s, false);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (!HasArcs(s) && !Properties(kOLabelSorted))
- Expand(s);
- if (HasArcs(s))
- return CacheImpl<A>::NumOutputEpsilons(s);
- return CountEpsilons(s, true);
- }
-
- size_t CountEpsilons(StateId s, bool output_epsilons) {
- size_t begin = compactor_->Size() == -1 ?
- data_->States(s) : s * compactor_->Size();
- size_t end = compactor_->Size() == -1 ?
- data_->States(s + 1) : (s + 1) * compactor_->Size();
- size_t num_eps = 0;
- for (size_t i = begin; i < end; ++i) {
- const A &arc = ComputeArc(
- s, i, output_epsilons ? kArcOLabelValue : kArcILabelValue);
- const typename A::Label &label =
- (output_epsilons ? arc.olabel : arc.ilabel);
- if (label == kNoLabel)
- continue;
- else if (label > 0)
- break;
- ++num_eps;
- }
- return num_eps;
- }
-
- static CompactFstImpl<A, C, U> *Read(istream &strm,
- const FstReadOptions &opts) {
- CompactFstImpl<A, C, U> *impl = new CompactFstImpl<A, C, U>();
- FstHeader hdr;
- if (!impl->ReadHeader(strm, opts, kMinFileVersion, &hdr)) {
- delete impl;
- return 0;
- }
-
- // Ensures compatibility
- if (hdr.Version() == kAlignedFileVersion)
- hdr.SetFlags(hdr.GetFlags() | FstHeader::IS_ALIGNED);
-
- impl->compactor_ = C::Read(strm);
- if (!impl->compactor_) {
- delete impl;
- return 0;
- }
- impl->own_compactor_ = true;
- impl->data_ = CompactFstData<CompactElement, U>::Read(strm, opts, hdr,
- *impl->compactor_);
- if (!impl->data_) {
- delete impl;
- return 0;
- }
- return impl;
- }
-
- bool Write(ostream &strm, const FstWriteOptions &opts) const {
- FstHeader hdr;
- hdr.SetStart(data_->Start());
- hdr.SetNumStates(data_->NumStates());
- hdr.SetNumArcs(data_->NumArcs());
-
- // Ensures compatibility
- int file_version = opts.align ? kAlignedFileVersion : kFileVersion;
- WriteHeader(strm, opts, file_version, &hdr);
- compactor_->Write(strm);
- return data_->Write(strm, opts);
- }
-
- // Provide information needed for generic state iterator
- void InitStateIterator(StateIteratorData<A> *data) const {
- data->base = 0;
- data->nstates = data_->NumStates();
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<A> *data) {
- if (!HasArcs(s))
- Expand(s);
- CacheImpl<A>::InitArcIterator(s, data);
- }
-
- Arc ComputeArc(StateId s, Unsigned i, uint32 f = kArcValueFlags) const {
- return compactor_->Expand(s, data_->Compacts(i), f);
- }
-
- void Expand(StateId s) {
- size_t begin = compactor_->Size() == -1 ?
- data_->States(s) : s * compactor_->Size();
- size_t end = compactor_->Size() == -1 ?
- data_->States(s + 1) : (s + 1) * compactor_->Size();
- for (size_t i = begin; i < end; ++i) {
- const Arc &arc = ComputeArc(s, i);
- if (arc.ilabel == kNoLabel)
- SetFinal(s, arc.weight);
- else
- PushArc(s, arc);
- }
- if (!HasFinal(s))
- SetFinal(s, Weight::Zero());
- SetArcs(s);
- }
-
- template <class Iterator>
- void SetCompactElements(const Iterator &b, const Iterator &e) {
- if (data_ && !data_->DecrRefCount())
- delete data_;
- data_ = new CompactFstData<CompactElement, U>(b, e, *compactor_);
- }
-
- C *GetCompactor() const { return compactor_; }
- CompactFstData<CompactElement, U> *Data() const { return data_; }
-
- // Properties always true of this Fst class
- static const uint64 kStaticProperties = kExpanded;
-
- protected:
- template <class B, class D>
- explicit CompactFstImpl(const CompactFstImpl<B, D, U> &impl)
- : CacheImpl<A>(CacheOptions(impl.GetCacheGc(), impl.GetCacheLimit())),
- compactor_(new C(*impl.GetCompactor())),
- own_compactor_(true),
- data_(impl.Data()) {
- if (data_)
- data_->IncrRefCount();
- SetType(impl.Type());
- SetProperties(impl.Properties());
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- }
-
- private:
- friend class CompactFst<A, C, U>; // allow access during write.
-
- void Init(const Fst<Arc> &fst) {
- string type = "compact";
- if (sizeof(U) != sizeof(uint32)) {
- string size;
- Int64ToStr(8 * sizeof(U), &size);
- type += size;
- }
- type += "_";
- type += compactor_->Type();
- SetType(type);
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
- data_ = new CompactFstData<CompactElement, U>(fst, *compactor_);
- if (data_->Error())
- SetProperties(kError, kError);
- uint64 copy_properties = fst.Properties(kCopyProperties, true);
- if ((copy_properties & kError) || !compactor_->Compatible(fst)) {
- FSTERROR() << "CompactFstImpl: input fst incompatible with compactor";
- SetProperties(kError, kError);
- return;
- }
- SetProperties(copy_properties | kStaticProperties);
- }
-
- template <class Iterator>
- void Init(const Iterator &b, const Iterator &e) {
- string type = "compact";
- if (sizeof(U) != sizeof(uint32)) {
- string size;
- Int64ToStr(8 * sizeof(U), &size);
- type += size;
- }
- type += "_";
- type += compactor_->Type();
- SetType(type);
- SetProperties(kStaticProperties | compactor_->Properties());
- data_ = new CompactFstData<CompactElement, U>(b, e, *compactor_);
- if (data_->Error())
- SetProperties(kError, kError);
- }
-
- // Current unaligned file format version
- static const int kFileVersion = 2;
- // Current aligned file format version
- static const int kAlignedFileVersion = 1;
- // Minimum file format version supported
- static const int kMinFileVersion = 1;
-
- C *compactor_;
- bool own_compactor_;
- CompactFstData<CompactElement, U> *data_;
-};
-
-template <class A, class C, class U>
-const uint64 CompactFstImpl<A, C, U>::kStaticProperties;
-template <class A, class C, class U>
-const int CompactFstImpl<A, C, U>::kFileVersion;
-template <class A, class C, class U>
-const int CompactFstImpl<A, C, U>::kAlignedFileVersion;
-template <class A, class C, class U>
-const int CompactFstImpl<A, C, U>::kMinFileVersion;
-
-
-// CompactFst. This class attaches interface to implementation and
-// handles reference counting, delegating most methods to
-// ImplToExpandedFst. The unsigned type U is used to represent indices
-// into the compact arc array (uint32 by default, declared in
-// fst-decl.h).
-template <class A, class C, class U>
-class CompactFst : public ImplToExpandedFst< CompactFstImpl<A, C, U> > {
- public:
- friend class StateIterator< CompactFst<A, C, U> >;
- friend class ArcIterator< CompactFst<A, C, U> >;
- template <class F, class G> void friend Cast(const F &, G *);
-
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef CompactFstImpl<A, C, U> Impl;
- typedef CacheState<A> State;
- typedef U Unsigned;
-
- CompactFst() : ImplToExpandedFst<Impl>(new Impl()) {}
-
- explicit CompactFst(const Fst<A> &fst, const C &compactor = C(),
- const CompactFstOptions &opts = CompactFstOptions())
- : ImplToExpandedFst<Impl>(new Impl(fst, compactor, opts)) {}
-
- CompactFst(const Fst<A> &fst, C *compactor,
- const CompactFstOptions &opts = CompactFstOptions())
- : ImplToExpandedFst<Impl>(new Impl(fst, compactor, opts)) {}
-
- // The following 2 constructors take as input two iterators delimiting
- // a set of (already) compacted transitions, starting with the
- // transitions out of the initial state. The format of the input
- // differs for fixed out-degree and variable out-degree compactors.
- //
- // - For fixed out-degree compactors, the final weight (encoded as a
- // compacted transition) needs to be given only for final
- // states. All strings (compactor of size 1) will be assume to be
- // terminated by a final state even when the final state is not
- // implicitely given.
- //
- // - For variable out-degree compactors, the final weight (encoded
- // as a compacted transition) needs to be given for all states and
- // must appeared first in the list (for state s, final weight of s,
- // followed by outgoing transitons in s).
- //
- // These 2 constructors allows the direct construction of a CompactFst
- // without first creating a more memory hungry 'regular' FST. This
- // is useful when memory usage is severely constrained.
- template <class Iterator>
- explicit CompactFst(const Iterator &begin, const Iterator &end,
- const C &compactor = C(),
- const CompactFstOptions &opts = CompactFstOptions())
- : ImplToExpandedFst<Impl>(new Impl(begin, end, compactor, opts)) {}
-
- template <class Iterator>
- CompactFst(const Iterator &begin, const Iterator &end,
- C *compactor, const CompactFstOptions &opts = CompactFstOptions())
- : ImplToExpandedFst<Impl>(new Impl(begin, end, compactor, opts)) {}
-
- // See Fst<>::Copy() for doc.
- CompactFst(const CompactFst<A, C, U> &fst, bool safe = false)
- : ImplToExpandedFst<Impl>(fst, safe) {}
-
- // Get a copy of this CompactFst. See Fst<>::Copy() for further doc.
- virtual CompactFst<A, C, U> *Copy(bool safe = false) const {
- return new CompactFst<A, C, U>(*this, safe);
- }
-
- // Read a CompactFst from an input stream; return NULL on error
- static CompactFst<A, C, U> *Read(istream &strm, const FstReadOptions &opts) {
- Impl* impl = Impl::Read(strm, opts);
- return impl ? new CompactFst<A, C, U>(impl) : 0;
- }
-
- // Read a CompactFst from a file; return NULL on error
- // Empty filename reads from standard input
- static CompactFst<A, C, U> *Read(const string &filename) {
- Impl* impl = ImplToExpandedFst<Impl>::Read(filename);
- return impl ? new CompactFst<A, C, U>(impl) : 0;
- }
-
- virtual bool Write(ostream &strm, const FstWriteOptions &opts) const {
- return GetImpl()->Write(strm, opts);
- }
-
- virtual bool Write(const string &filename) const {
- return Fst<A>::WriteFile(filename);
- }
-
- template <class F>
- static bool WriteFst(const F &fst, const C &compactor, ostream &strm,
- const FstWriteOptions &opts);
-
- virtual void InitStateIterator(StateIteratorData<A> *data) const {
- GetImpl()->InitStateIterator(data);
- }
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<A> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- virtual MatcherBase<A> *InitMatcher(MatchType match_type) const {
- return new SortedMatcher<CompactFst<A, C, U> >(*this, match_type);
- }
-
- template <class Iterator>
- void SetCompactElements(const Iterator &b, const Iterator &e) {
- GetImpl()->SetCompactElements(b, e);
- }
-
- private:
- CompactFst(Impl *impl) : ImplToExpandedFst<Impl>(impl) {}
-
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl, ExpandedFst<A> >::GetImpl(); }
-
- void SetImpl(Impl *impl, bool own_impl = false) {
- ImplToFst< Impl, ExpandedFst<A> >::SetImpl(impl, own_impl);
- }
-
- // Use overloading to extract the type of the argument.
- static Impl* GetImplIfCompactFst(const CompactFst<A, C, U> &compact_fst) {
- return compact_fst.GetImpl();
- }
-
- // This does not give privileged treatment to subclasses of CompactFst.
- template<typename NonCompactFst>
- static Impl* GetImplIfCompactFst(const NonCompactFst& fst) {
- return NULL;
- }
-
- void operator=(const CompactFst<A, C, U> &fst); // disallow
-};
-
-// Writes Fst in Compact format, potentially with a pass over the machine
-// before writing to compute the number of states and arcs.
-//
-template <class A, class C, class U>
-template <class F>
-bool CompactFst<A, C, U>::WriteFst(const F &fst,
- const C &compactor,
- ostream &strm,
- const FstWriteOptions &opts) {
- typedef U Unsigned;
- typedef typename C::Element CompactElement;
- typedef typename A::Weight Weight;
- int file_version = opts.align ?
- CompactFstImpl<A, C, U>::kAlignedFileVersion :
- CompactFstImpl<A, C, U>::kFileVersion;
- size_t num_arcs = -1, num_states = -1, num_compacts = -1;
- C first_pass_compactor = compactor;
- if (Impl* impl = GetImplIfCompactFst(fst)) {
- num_arcs = impl->Data()->NumArcs();
- num_states = impl->Data()->NumStates();
- num_compacts = impl->Data()->NumCompacts();
- first_pass_compactor = *impl->GetCompactor();
- } else {
- // A first pass is needed to compute the state of the compactor, which
- // is saved ahead of the rest of the data structures. This unfortunately
- // means forcing a complete double compaction when writing in this format.
- // TODO(allauzen): eliminate mutable state from compactors.
- num_arcs = 0;
- num_states = 0;
- for (StateIterator<F> siter(fst); !siter.Done(); siter.Next()) {
- const StateId s = siter.Value();
- ++num_states;
- if (fst.Final(s) != Weight::Zero()) {
- first_pass_compactor.Compact(
- s, A(kNoLabel, kNoLabel, fst.Final(s), kNoStateId));
- }
- for (ArcIterator<F> aiter(fst, s); !aiter.Done(); aiter.Next()) {
- ++num_arcs;
- first_pass_compactor.Compact(s, aiter.Value());
- }
- }
- }
- FstHeader hdr;
- hdr.SetStart(fst.Start());
- hdr.SetNumStates(num_states);
- hdr.SetNumArcs(num_arcs);
- string type = "compact";
- if (sizeof(U) != sizeof(uint32)) {
- string size;
- Int64ToStr(8 * sizeof(U), &size);
- type += size;
- }
- type += "_";
- type += C::Type();
- uint64 copy_properties = fst.Properties(kCopyProperties, true);
- if ((copy_properties & kError) || !compactor.Compatible(fst)) {
- LOG(ERROR) << "fst incompatible with compactor";
- return false;
- }
- uint64 properties = copy_properties |
- CompactFstImpl<A, C, U>::kStaticProperties;
- FstImpl<A>::WriteFstHeader(fst, strm, opts, file_version, type, properties,
- &hdr);
- first_pass_compactor.Write(strm);
- if (first_pass_compactor.Size() == -1) {
- if (opts.align && !AlignOutput(strm)) {
- LOG(ERROR) << "CompactFst::Write: Alignment failed: " << opts.source;
- return false;
- }
- Unsigned compacts = 0;
- for (StateIterator<F> siter(fst); !siter.Done(); siter.Next()) {
- const StateId s = siter.Value();
- strm.write(reinterpret_cast<const char *>(&compacts), sizeof(compacts));
- if (fst.Final(s) != Weight::Zero()) {
- ++compacts;
- }
- compacts += fst.NumArcs(s);
- }
- strm.write(reinterpret_cast<const char *>(&compacts), sizeof(compacts));
- }
- if (opts.align && !AlignOutput(strm)) {
- LOG(ERROR) << "Could not align file during write after writing states";
- }
- C second_pass_compactor = compactor;
- CompactElement element;
- for (StateIterator<F> siter(fst); !siter.Done(); siter.Next()) {
- const StateId s = siter.Value();
- if (fst.Final(s) != Weight::Zero()) {
- element = second_pass_compactor.Compact(
- s, A(kNoLabel, kNoLabel, fst.Final(s), kNoStateId));
- strm.write(reinterpret_cast<const char *>(&element), sizeof(element));
- }
- for (ArcIterator<F> aiter(fst, s); !aiter.Done(); aiter.Next()) {
- element = second_pass_compactor.Compact(s, aiter.Value());
- strm.write(reinterpret_cast<const char *>(&element), sizeof(element));
- }
- }
- strm.flush();
- if (!strm) {
- LOG(ERROR) << "CompactFst write failed: " << opts.source;
- return false;
- }
- return true;
-}
-
-
-// Specialization for CompactFst; see generic version in fst.h
-// for sample usage (but use the CompactFst type!). This version
-// should inline.
-template <class A, class C, class U>
-class StateIterator< CompactFst<A, C, U> > {
- public:
- typedef typename A::StateId StateId;
-
- explicit StateIterator(const CompactFst<A, C, U> &fst)
- : nstates_(fst.GetImpl()->NumStates()), s_(0) {}
-
- bool Done() const { return s_ >= nstates_; }
-
- StateId Value() const { return s_; }
-
- void Next() { ++s_; }
-
- void Reset() { s_ = 0; }
-
- private:
- StateId nstates_;
- StateId s_;
-
- DISALLOW_COPY_AND_ASSIGN(StateIterator);
-};
-
-// Specialization for CompactFst.
-// Never caches, always iterates over the underlying compact elements.
-template <class A, class C, class U>
-class ArcIterator< CompactFst<A, C, U> > {
- public:
- typedef typename A::StateId StateId;
- typedef typename C::Element CompactElement;
-
- ArcIterator(const CompactFst<A, C, U> &fst, StateId s)
- : compactor_(fst.GetImpl()->GetCompactor()), state_(s), compacts_(0),
- pos_(0), flags_(kArcValueFlags) {
-
- const CompactFstData<CompactElement, U> *data = fst.GetImpl()->Data();
- size_t offset;
- if (compactor_->Size() == -1) { // Variable out-degree compactor
- offset = data->States(s);
- num_arcs_ = data->States(s + 1) - offset;
- } else { // Fixed out-degree compactor
- offset = s * compactor_->Size();
- num_arcs_ = compactor_->Size();
- }
- if (num_arcs_ > 0) {
- compacts_ = &(data->Compacts(offset));
- arc_ = compactor_->Expand(s, *compacts_, kArcILabelValue);
- if (arc_.ilabel == kNoStateId) {
- ++compacts_;
- --num_arcs_;
- }
- }
- }
-
- ~ArcIterator() {}
-
- bool Done() const { return pos_ >= num_arcs_; }
-
- const A& Value() const {
- arc_ = compactor_->Expand(state_, compacts_[pos_], flags_);
- return arc_;
- }
-
- void Next() { ++pos_; }
-
- size_t Position() const { return pos_; }
-
- void Reset() { pos_ = 0; }
-
- void Seek(size_t pos) { pos_ = pos; }
-
- uint32 Flags() const { return flags_; }
-
- void SetFlags(uint32 f, uint32 m) {
- flags_ &= ~m;
- flags_ |= (f & kArcValueFlags);
- }
-
- private:
- C *compactor_;
- StateId state_;
- const CompactElement *compacts_;
- size_t pos_;
- size_t num_arcs_;
- mutable A arc_;
- uint32 flags_;
-
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-// // Specialization for CompactFst.
-// // This is an optionally caching arc iterator.
-// // TODO(allauzen): implements the kArcValueFlags, the current
-// // implementation only implements the kArcNoCache flag.
-// template <class A, class C, class U>
-// class ArcIterator< CompactFst<A, C, U> > {
-// public:
-// typedef typename A::StateId StateId;
-
-// ArcIterator(const CompactFst<A, C, U> &fst, StateId s)
-// : fst_(fst), state_(s), pos_(0), num_arcs_(0), offset_(0),
-// flags_(kArcValueFlags) {
-// cache_data_.ref_count = 0;
-
-// if (fst_.GetImpl()->HasArcs(state_)) {
-// fst_.GetImpl()->InitArcIterator(s, &cache_data_);
-// num_arcs_ = cache_data_.narcs;
-// return;
-// }
-
-// const C *compactor = fst_.GetImpl()->GetCompactor();
-// const CompactFstData<A, C, U> *data = fst_.GetImpl()->Data();
-// if (compactor->Size() == -1) { // Variable out-degree compactor
-// offset_ = data->States(s);
-// num_arcs_ = data->States(s + 1) - offset_;
-// } else { // Fixed out-degree compactor
-// offset_ = s * compactor->Size();
-// num_arcs_ = compactor->Size();
-// }
-// if (num_arcs_ > 0) {
-// const A &arc = fst_.GetImpl()->ComputeArc(s, offset_);
-// if (arc.ilabel == kNoStateId) {
-// ++offset_;
-// --num_arcs_;
-// }
-// }
-// }
-
-
-// ~ArcIterator() {
-// if (cache_data_.ref_count)
-// --(*cache_data_.ref_count);
-// }
-
-// bool Done() const { return pos_ >= num_arcs_; }
-
-// const A& Value() const {
-// if (cache_data_.ref_count == 0) {
-// if (flags_ & kArcNoCache) {
-// arc_ = fst_.GetImpl()->ComputeArc(state_, pos_ + offset_);
-// return arc_;
-// } else {
-// fst_.GetImpl()->InitArcIterator(state_, &cache_data_);
-// }
-// }
-// return cache_data_.arcs[pos_];
-// }
-
-// void Next() { ++pos_; }
-
-// size_t Position() const { return pos_; }
-
-// void Reset() { pos_ = 0; }
-
-// void Seek(size_t pos) { pos_ = pos; }
-
-// uint32 Flags() const { return flags_; }
-
-// void SetFlags(uint32 f, uint32 m) {
-// flags_ &= ~m;
-// flags_ |= f;
-
-// if (!(flags_ & kArcNoCache) && cache_data_.ref_count == 0)
-// fst_.GetImpl()->InitArcIterator(state_, &cache_data_);
-// }
-
-// private:
-// mutable const CompactFst<A, C, U> &fst_;
-// StateId state_;
-// size_t pos_;
-// size_t num_arcs_;
-// size_t offset_;
-// uint32 flags_;
-// mutable A arc_;
-// mutable ArcIteratorData<A> cache_data_;
-
-// DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-// };
-
-
-//
-// Utility Compactors
-//
-
-// Compactor for unweighted string FSTs
-template <class A>
-class StringCompactor {
- public:
- typedef A Arc;
- typedef typename A::Label Element;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- Element Compact(StateId s, const A &arc) const { return arc.ilabel; }
-
- Arc Expand(StateId s, const Element &p, uint32 f = kArcValueFlags) const {
- return Arc(p, p, Weight::One(), p != kNoLabel ? s + 1 : kNoStateId);
- }
-
- ssize_t Size() const { return 1; }
-
- uint64 Properties() const {
- return kString | kAcceptor | kUnweighted;
- }
-
- bool Compatible(const Fst<A> &fst) const {
- uint64 props = Properties();
- return fst.Properties(props, true) == props;
- }
-
- static const string &Type() {
- static const string type = "string";
- return type;
- }
-
- bool Write(ostream &strm) const { return true; }
-
- static StringCompactor *Read(istream &strm) {
- return new StringCompactor;
- }
-};
-
-
-// Compactor for weighted string FSTs
-template <class A>
-class WeightedStringCompactor {
- public:
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
- typedef pair<Label, Weight> Element;
-
- Element Compact(StateId s, const A &arc) const {
- return make_pair(arc.ilabel, arc.weight);
- }
-
- Arc Expand(StateId s, const Element &p, uint32 f = kArcValueFlags) const {
- return Arc(p.first, p.first, p.second,
- p.first != kNoLabel ? s + 1 : kNoStateId);
- }
-
- ssize_t Size() const { return 1;}
-
- uint64 Properties() const {
- return kString | kAcceptor;
- }
-
- bool Compatible(const Fst<A> &fst) const {
- uint64 props = Properties();
- return fst.Properties(props, true) == props;
- }
-
- static const string &Type() {
- static const string type = "weighted_string";
- return type;
- }
-
- bool Write(ostream &strm) const { return true; }
-
- static WeightedStringCompactor *Read(istream &strm) {
- return new WeightedStringCompactor;
- }
-};
-
-
-// Compactor for unweighted acceptor FSTs
-template <class A>
-class UnweightedAcceptorCompactor {
- public:
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
- typedef pair<Label, StateId> Element;
-
- Element Compact(StateId s, const A &arc) const {
- return make_pair(arc.ilabel, arc.nextstate);
- }
-
- Arc Expand(StateId s, const Element &p, uint32 f = kArcValueFlags) const {
- return Arc(p.first, p.first, Weight::One(), p.second);
- }
-
- ssize_t Size() const { return -1;}
-
- uint64 Properties() const {
- return kAcceptor | kUnweighted;
- }
-
- bool Compatible(const Fst<A> &fst) const {
- uint64 props = Properties();
- return fst.Properties(props, true) == props;
- }
-
- static const string &Type() {
- static const string type = "unweighted_acceptor";
- return type;
- }
-
- bool Write(ostream &strm) const { return true; }
-
- static UnweightedAcceptorCompactor *Read(istream &istrm) {
- return new UnweightedAcceptorCompactor;
- }
-};
-
-
-// Compactor for weighted acceptor FSTs
-template <class A>
-class AcceptorCompactor {
- public:
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
- typedef pair< pair<Label, Weight>, StateId > Element;
-
- Element Compact(StateId s, const A &arc) const {
- return make_pair(make_pair(arc.ilabel, arc.weight), arc.nextstate);
- }
-
- Arc Expand(StateId s, const Element &p, uint32 f = kArcValueFlags) const {
- return Arc(p.first.first, p.first.first, p.first.second, p.second);
- }
-
- ssize_t Size() const { return -1;}
-
- uint64 Properties() const {
- return kAcceptor;
- }
-
- bool Compatible(const Fst<A> &fst) const {
- uint64 props = Properties();
- return fst.Properties(props, true) == props;
- }
-
- static const string &Type() {
- static const string type = "acceptor";
- return type;
- }
-
- bool Write(ostream &strm) const { return true; }
-
- static AcceptorCompactor *Read(istream &strm) {
- return new AcceptorCompactor;
- }
-};
-
-
-// Compactor for unweighted FSTs
-template <class A>
-class UnweightedCompactor {
- public:
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
- typedef pair< pair<Label, Label>, StateId > Element;
-
- Element Compact(StateId s, const A &arc) const {
- return make_pair(make_pair(arc.ilabel, arc.olabel), arc.nextstate);
- }
-
- Arc Expand(StateId s, const Element &p, uint32 f = kArcValueFlags) const {
- return Arc(p.first.first, p.first.second, Weight::One(), p.second);
- }
-
- ssize_t Size() const { return -1; }
-
- uint64 Properties() const {
- return kUnweighted;
- }
-
- bool Compatible(const Fst<A> &fst) const {
- uint64 props = Properties();
- return fst.Properties(props, true) == props;
- }
-
- static const string &Type() {
- static const string type = "unweighted";
- return type;
- }
-
- bool Write(ostream &strm) const { return true; }
-
- static UnweightedCompactor *Read(istream &strm) {
- return new UnweightedCompactor;
- }
-};
-
-
-// Uselful aliases when using StdArc
-typedef CompactFst< StdArc, StringCompactor<StdArc> >
-StdCompactStringFst;
-typedef CompactFst< StdArc, WeightedStringCompactor<StdArc> >
-StdCompactWeightedStringFst;
-typedef CompactFst<StdArc, AcceptorCompactor<StdArc> >
-StdCompactAcceptorFst;
-typedef CompactFst<StdArc, UnweightedCompactor<StdArc> >
-StdCompactUnweightedFst;
-typedef CompactFst<StdArc, UnweightedAcceptorCompactor<StdArc> >
-StdCompactUnweightedAcceptorFst;
-
-} // namespace fst
-
-#endif // FST_LIB_COMPACT_FST_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/compat.h b/kaldi_io/src/tools/openfst/include/fst/compat.h
deleted file mode 100644
index 3b5275d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/compat.h
+++ /dev/null
@@ -1,131 +0,0 @@
-// compat.h
-//
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Google compatibility declarations and inline definitions.
-
-#ifndef FST_LIB_COMPAT_H__
-#define FST_LIB_COMPAT_H__
-
-#include <dlfcn.h>
-
-#include <climits>
-#include <cstdlib>
-#include <cstring>
-#include <iostream>
-#include <string>
-#include <vector>
-
-// Makes copy constructor and operator= private
-#define DISALLOW_COPY_AND_ASSIGN(type) \
- type(const type&); \
- void operator=(const type&)
-
-#include <fst/config.h>
-#include <fst/types.h>
-#include <fst/lock.h>
-#include <fst/flags.h>
-#include <fst/log.h>
-#include <fst/icu.h>
-
-using std::cin;
-using std::cout;
-using std::cerr;
-using std::endl;
-using std::string;
-
-void FailedNewHandler();
-
-namespace fst {
-
-using namespace std;
-
-void SplitToVector(char *line, const char *delim,
- std::vector<char *> *vec, bool omit_empty_strings);
-
-// Downcasting
-template<typename To, typename From>
-inline To down_cast(From* f) {
- return static_cast<To>(f);
-}
-
-// Bitcasting
-template <class Dest, class Source>
-inline Dest bit_cast(const Source& source) {
- // Compile time assertion: sizeof(Dest) == sizeof(Source)
- // A compile error here means your Dest and Source have different sizes.
- typedef char VerifySizesAreEqual [sizeof(Dest) == sizeof(Source) ? 1 :
- -1];
- Dest dest;
- memcpy(&dest, &source, sizeof(dest));
- return dest;
-}
-
-// Check sums
-class CheckSummer {
- public:
- CheckSummer() : count_(0) {
- check_sum_.resize(kCheckSumLength, '\0');
- }
-
- void Reset() {
- count_ = 0;
- for (int i = 0; i < kCheckSumLength; ++i)
- check_sum_[i] = '\0';
- }
-
- void Update(void const *data, int size) {
- const char *p = reinterpret_cast<const char *>(data);
- for (int i = 0; i < size; ++i)
- check_sum_[(count_++) % kCheckSumLength] ^= p[i];
- }
-
- void Update(string const &data) {
- for (int i = 0; i < data.size(); ++i)
- check_sum_[(count_++) % kCheckSumLength] ^= data[i];
- }
-
- string Digest() {
- return check_sum_;
- }
-
- private:
- static const int kCheckSumLength = 32;
- int count_;
- string check_sum_;
-
- DISALLOW_COPY_AND_ASSIGN(CheckSummer);
-};
-
-} // namespace fst
-
-
-// Define missing hash functions if needed
-#ifndef HAVE_STD__TR1__HASH_LONG_LONG_UNSIGNED_
-namespace std {
-namespace tr1 {
-
-template <class T> class hash;
-
-template<> struct hash<uint64> {
- size_t operator()(uint64 x) const { return x; }
-};
-
-}
-}
-#endif // HAVE_STD__TR1__HASH_LONG_LONG_UNSIGNED_
-
-#endif // FST_LIB_COMPAT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/complement.h b/kaldi_io/src/tools/openfst/include/fst/complement.h
deleted file mode 100644
index dacf396..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/complement.h
+++ /dev/null
@@ -1,338 +0,0 @@
-// complement.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to complement an Fst.
-
-#ifndef FST_LIB_COMPLEMENT_H__
-#define FST_LIB_COMPLEMENT_H__
-
-#include <algorithm>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/fst.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-template <class A> class ComplementFst;
-
-// Implementation of delayed ComplementFst. The algorithm used
-// completes the (deterministic) FSA and then exchanges final and
-// non-final states. Completion, i.e. ensuring that all labels can be
-// read from every state, is accomplished by using RHO labels, which
-// match all labels that are otherwise not found leaving a state. The
-// first state in the output is reserved to be a new state that is the
-// destination of all RHO labels. Each remaining output state s
-// corresponds to input state s - 1. The first arc in the output at
-// these states is the rho label, the remaining arcs correspond to the
-// input arcs.
-template <class A>
-class ComplementFstImpl : public FstImpl<A> {
- public:
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
-
- friend class StateIterator< ComplementFst<A> >;
- friend class ArcIterator< ComplementFst<A> >;
-
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- explicit ComplementFstImpl(const Fst<A> &fst) : fst_(fst.Copy()) {
- SetType("complement");
- uint64 props = fst.Properties(kILabelSorted, false);
- SetProperties(ComplementProperties(props), kCopyProperties);
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
- }
-
- ComplementFstImpl(const ComplementFstImpl<A> &impl)
- : fst_(impl.fst_->Copy()) {
- SetType("complement");
- SetProperties(impl.Properties(), kCopyProperties);
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- }
-
- ~ComplementFstImpl() { delete fst_; }
-
- StateId Start() const {
- if (Properties(kError))
- return kNoStateId;
-
- StateId start = fst_->Start();
- if (start != kNoStateId)
- return start + 1;
- else
- return 0;
- }
-
- // Exchange final and non-final states; make rho destination state final.
- Weight Final(StateId s) const {
- if (s == 0 || fst_->Final(s - 1) == Weight::Zero())
- return Weight::One();
- else
- return Weight::Zero();
- }
-
- size_t NumArcs(StateId s) const {
- if (s == 0)
- return 1;
- else
- return fst_->NumArcs(s - 1) + 1;
- }
-
- size_t NumInputEpsilons(StateId s) const {
- return s == 0 ? 0 : fst_->NumInputEpsilons(s - 1);
- }
-
- size_t NumOutputEpsilons(StateId s) const {
- return s == 0 ? 0 : fst_->NumOutputEpsilons(s - 1);
- }
-
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) && fst_->Properties(kError, false))
- SetProperties(kError, kError);
- return FstImpl<Arc>::Properties(mask);
- }
-
-
- private:
- const Fst<A> *fst_;
-
- void operator=(const ComplementFstImpl<A> &fst); // Disallow
-};
-
-
-// Complements an automaton. This is a library-internal operation that
-// introduces a (negative) 'rho' label; use Difference/DifferenceFst in
-// user code, which will not see this label. This version is a delayed Fst.
-//
-// This class attaches interface to implementation and handles
-// reference counting, delegating most methods to ImplToFst.
-template <class A>
-class ComplementFst : public ImplToFst< ComplementFstImpl<A> > {
- public:
- friend class StateIterator< ComplementFst<A> >;
- friend class ArcIterator< ComplementFst<A> >;
-
- using ImplToFst< ComplementFstImpl<A> >::GetImpl;
-
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef ComplementFstImpl<A> Impl;
-
- explicit ComplementFst(const Fst<A> &fst)
- : ImplToFst<Impl>(new Impl(fst)) {
- uint64 props = kUnweighted | kNoEpsilons | kIDeterministic | kAcceptor;
- if (fst.Properties(props, true) != props) {
- FSTERROR() << "ComplementFst: argument not an unweighted "
- << "epsilon-free deterministic acceptor";
- GetImpl()->SetProperties(kError, kError);
- }
- }
-
- // See Fst<>::Copy() for doc.
- ComplementFst(const ComplementFst<A> &fst, bool safe = false)
- : ImplToFst<Impl>(fst, safe) {}
-
- // Get a copy of this ComplementFst. See Fst<>::Copy() for further doc.
- virtual ComplementFst<A> *Copy(bool safe = false) const {
- return new ComplementFst<A>(*this, safe);
- }
-
- virtual inline void InitStateIterator(StateIteratorData<A> *data) const;
-
- virtual inline void InitArcIterator(StateId s,
- ArcIteratorData<A> *data) const;
-
- // Label that represents the rho transition.
- // We use a negative value, which is thus private to the library and
- // which will preserve FST label sort order.
- static const Label kRhoLabel = -2;
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const ComplementFst<A> &fst); // disallow
-};
-
-template <class A> const typename A::Label ComplementFst<A>::kRhoLabel;
-
-
-// Specialization for ComplementFst.
-template <class A>
-class StateIterator< ComplementFst<A> > : public StateIteratorBase<A> {
- public:
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
-
- explicit StateIterator(const ComplementFst<A> &fst)
- : siter_(*fst.GetImpl()->fst_), s_(0) {
- }
-
- bool Done() const { return s_ > 0 && siter_.Done(); }
-
- StateId Value() const { return s_; }
-
- void Next() {
- if (s_ != 0)
- siter_.Next();
- ++s_;
- }
-
- void Reset() {
- siter_.Reset();
- s_ = 0;
- }
-
- private:
- // This allows base class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual bool Done_() const { return Done(); }
- virtual StateId Value_() const { return Value(); }
- virtual void Next_() { Next(); }
- virtual void Reset_() { Reset(); }
-
- StateIterator< Fst<A> > siter_;
- StateId s_;
-
- DISALLOW_COPY_AND_ASSIGN(StateIterator);
-};
-
-
-// Specialization for ComplementFst.
-template <class A>
-class ArcIterator< ComplementFst<A> > : public ArcIteratorBase<A> {
- public:
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
-
- ArcIterator(const ComplementFst<A> &fst, StateId s)
- : aiter_(0), s_(s), pos_(0) {
- if (s_ != 0)
- aiter_ = new ArcIterator< Fst<A> >(*fst.GetImpl()->fst_, s - 1);
- }
-
- virtual ~ArcIterator() { delete aiter_; }
-
- bool Done() const {
- if (s_ != 0)
- return pos_ > 0 && aiter_->Done();
- else
- return pos_ > 0;
- }
-
- // Adds the rho label to the rho destination state.
- const A& Value() const {
- if (pos_ == 0) {
- arc_.ilabel = arc_.olabel = ComplementFst<A>::kRhoLabel;
- arc_.weight = Weight::One();
- arc_.nextstate = 0;
- } else {
- arc_ = aiter_->Value();
- ++arc_.nextstate;
- }
- return arc_;
- }
-
- void Next() {
- if (s_ != 0 && pos_ > 0)
- aiter_->Next();
- ++pos_;
- }
-
- size_t Position() const {
- return pos_;
- }
-
- void Reset() {
- if (s_ != 0)
- aiter_->Reset();
- pos_ = 0;
- }
-
- void Seek(size_t a) {
- if (s_ != 0) {
- if (a == 0) {
- aiter_->Reset();
- } else {
- aiter_->Seek(a - 1);
- }
- }
- pos_ = a;
- }
-
- uint32 Flags() const {
- return kArcValueFlags;
- }
-
- void SetFlags(uint32 f, uint32 m) {}
-
- private:
- // This allows base class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual bool Done_() const { return Done(); }
- virtual const A& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
- virtual size_t Position_() const { return Position(); }
- virtual void Reset_() { Reset(); }
- virtual void Seek_(size_t a) { Seek(a); }
- uint32 Flags_() const { return Flags(); }
- void SetFlags_(uint32 f, uint32 m) { SetFlags(f, m); }
-
- ArcIterator< Fst<A> > *aiter_;
- StateId s_;
- size_t pos_;
- mutable A arc_;
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-
-template <class A> inline void
-ComplementFst<A>::InitStateIterator(StateIteratorData<A> *data) const {
- data->base = new StateIterator< ComplementFst<A> >(*this);
-}
-
-template <class A> inline void
-ComplementFst<A>::InitArcIterator(StateId s, ArcIteratorData<A> *data) const {
- data->base = new ArcIterator< ComplementFst<A> >(*this, s);
-}
-
-
-// Useful alias when using StdArc.
-typedef ComplementFst<StdArc> StdComplementFst;
-
-} // namespace fst
-
-#endif // FST_LIB_COMPLEMENT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/compose-filter.h b/kaldi_io/src/tools/openfst/include/fst/compose-filter.h
deleted file mode 100644
index 6bf7736..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/compose-filter.h
+++ /dev/null
@@ -1,542 +0,0 @@
-// compose-filter.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Classes for filtering the composition matches, e.g. for correct epsilon
-// handling.
-
-#ifndef FST_LIB_COMPOSE_FILTER_H__
-#define FST_LIB_COMPOSE_FILTER_H__
-
-#include <fst/fst.h>
-#include <fst/fst-decl.h> // For optional argument declarations
-#include <fst/matcher.h>
-
-
-namespace fst {
-
-
-// COMPOSITION FILTER STATE - this represents the state of
-// the composition filter. It has the form:
-//
-// class FilterState {
-// public:
-// // Required constructors
-// FilterState();
-// FilterState(const FilterState &f);
-// // An invalid filter state.
-// static const FilterState NoState();
-// // Maps state to integer for hashing.
-// size_t Hash() const;
-// // Equality of filter states.
-// bool operator==(const FilterState &f) const;
-// // Inequality of filter states.
-// bool operator!=(const FilterState &f) const;
-// // Assignment to filter states.
-// FilterState& operator=(const FilterState& f);
-// };
-
-
-// Filter state that is a signed integral type.
-template <typename T>
-class IntegerFilterState {
- public:
- IntegerFilterState() : state_(kNoStateId) {}
- explicit IntegerFilterState(T s) : state_(s) {}
-
- static const IntegerFilterState NoState() { return IntegerFilterState(); }
-
- size_t Hash() const { return static_cast<size_t>(state_); }
-
- bool operator==(const IntegerFilterState &f) const {
- return state_ == f.state_;
- }
-
- bool operator!=(const IntegerFilterState &f) const {
- return state_ != f.state_;
- }
-
- T GetState() const { return state_; }
-
- void SetState(T state) { state_ = state; }
-
-private:
- T state_;
-};
-
-typedef IntegerFilterState<signed char> CharFilterState;
-typedef IntegerFilterState<short> ShortFilterState;
-typedef IntegerFilterState<int> IntFilterState;
-
-
-// Filter state that is a weight (class).
-template <class W>
-class WeightFilterState {
- public:
- WeightFilterState() : weight_(W::Zero()) {}
- explicit WeightFilterState(W w) : weight_(w) {}
-
- static const WeightFilterState NoState() { return WeightFilterState(); }
-
- size_t Hash() const { return weight_.Hash(); }
-
- bool operator==(const WeightFilterState &f) const {
- return weight_ == f.weight_;
- }
-
- bool operator!=(const WeightFilterState &f) const {
- return weight_ != f.weight_;
- }
-
- W GetWeight() const { return weight_; }
-
- void SetWeight(W w) { weight_ = w; }
-
-private:
- W weight_;
-};
-
-
-// Filter state that is the combination of two filter states.
-template <class F1, class F2>
-class PairFilterState {
- public:
- PairFilterState() : f1_(F1::NoState()), f2_(F2::NoState()) {}
-
- PairFilterState(const F1 &f1, const F2 &f2) : f1_(f1), f2_(f2) {}
-
- static const PairFilterState NoState() { return PairFilterState(); }
-
- size_t Hash() const {
- size_t h1 = f1_.Hash();
- size_t h2 = f2_.Hash();
- const int lshift = 5;
- const int rshift = CHAR_BIT * sizeof(size_t) - 5;
- return h1 << lshift ^ h1 >> rshift ^ h2;
- }
-
- bool operator==(const PairFilterState &f) const {
- return f1_ == f.f1_ && f2_ == f.f2_;
- }
-
- bool operator!=(const PairFilterState &f) const {
- return f1_ != f.f1_ || f2_ != f.f2_;
- }
-
- const F1 &GetState1() const { return f1_; }
- const F2 &GetState2() const { return f2_; }
-
- void SetState(const F1 &f1, const F2 &f2) {
- f1_ = f1;
- f2_ = f2;
- }
-
-private:
- F1 f1_;
- F2 f2_;
-};
-
-
-// COMPOSITION FILTERS - these determine which matches are allowed to
-// proceed. The filter's state is represented by the type
-// ComposeFilter::FilterState. The basic filters handle correct
-// epsilon matching. Their interface is:
-//
-// template <class M1, class M2>
-// class ComposeFilter {
-// public:
-// typedef typename M1::FST1 FST1;
-// typedef typename M1::FST2 FST2;
-// typedef typename FST1::Arc Arc;
-// typedef ... FilterState;
-// typedef ... Matcher1;
-// typedef ... Matcher2;
-//
-// // Required constructors.
-// ComposeFilter(const FST1 &fst1, const FST2 &fst2,
-// // M1 *matcher1 = 0, M2 *matcher2 = 0);
-// // If safe=true, the copy is thread-safe. See Fst<>::Copy()
-// // for further doc.
-// ComposeFilter(const ComposeFilter<M1, M2> &filter,
-// // bool safe = false);
-// // Return start state of filter.
-// FilterState Start() const;
-// // Specifies current composition state.
-// void SetState(StateId s1, StateId s2, const FilterState &f);
-//
-// // Apply filter at current composition state to these transitions.
-// // If an arc label to be matched is kNolabel, then that side
-// // does not consume a symbol. Returns the new filter state or,
-// // if disallowed, FilterState::NoState(). The filter is permitted to
-// // modify its inputs, e.g. for optimizations.
-// FilterState FilterArc(Arc *arc1, Arc *arc2) const;
-
-// // Apply filter at current composition state to these final weights
-// // (cf. superfinal transitions). The filter may modify its inputs,
-// // e.g. for optimizations.
-// void FilterFinal(Weight *final1, Weight *final2) const;
-//
-// // Return resp matchers. Ownership stays with filter. These
-// // methods allow the filter to access and possibly modify
-// // the composition matchers (useful e.g. with lookahead).
-// Matcher1 *GetMatcher1();
-// Matcher2 *GetMatcher2();
-//
-// // This specifies how the filter affects the composition result
-// // properties. It takes as argument the properties that would
-// // apply with a trivial composition fitler.
-// uint64 Properties(uint64 props) const;
-// };
-
-// This filter requires epsilons on FST1 to be read before epsilons on FST2.
-template <class M1, class M2>
-class SequenceComposeFilter {
- public:
- typedef typename M1::FST FST1;
- typedef typename M2::FST FST2;
- typedef typename FST1::Arc Arc;
- typedef CharFilterState FilterState;
- typedef M1 Matcher1;
- typedef M2 Matcher2;
-
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- SequenceComposeFilter(const FST1 &fst1, const FST2 &fst2,
- M1 *matcher1 = 0, M2 *matcher2 = 0)
- : matcher1_(matcher1 ? matcher1 : new M1(fst1, MATCH_OUTPUT)),
- matcher2_(matcher2 ? matcher2 : new M2(fst2, MATCH_INPUT)),
- fst1_(matcher1_->GetFst()),
- s1_(kNoStateId),
- s2_(kNoStateId),
- f_(kNoStateId) {}
-
- SequenceComposeFilter(const SequenceComposeFilter<M1, M2> &filter,
- bool safe = false)
- : matcher1_(filter.matcher1_->Copy(safe)),
- matcher2_(filter.matcher2_->Copy(safe)),
- fst1_(matcher1_->GetFst()),
- s1_(kNoStateId),
- s2_(kNoStateId),
- f_(kNoStateId) {}
-
- ~SequenceComposeFilter() {
- delete matcher1_;
- delete matcher2_;
- }
-
- FilterState Start() const { return FilterState(0); }
-
- void SetState(StateId s1, StateId s2, const FilterState &f) {
- if (s1_ == s1 && s2_ == s2 && f == f_)
- return;
- s1_ = s1;
- s2_ = s2;
- f_ = f;
- size_t na1 = internal::NumArcs(fst1_, s1);
- size_t ne1 = internal::NumOutputEpsilons(fst1_, s1);
- bool fin1 = internal::Final(fst1_, s1) != Weight::Zero();
- alleps1_ = na1 == ne1 && !fin1;
- noeps1_ = ne1 == 0;
- }
-
- FilterState FilterArc(Arc *arc1, Arc *arc2) const {
- if (arc1->olabel == kNoLabel)
- return alleps1_ ? FilterState::NoState() :
- noeps1_ ? FilterState(0) : FilterState(1);
- else if (arc2->ilabel == kNoLabel)
- return f_ != FilterState(0) ? FilterState::NoState() : FilterState(0);
- else
- return arc1->olabel == 0 ? FilterState::NoState() : FilterState(0);
- }
-
- void FilterFinal(Weight *, Weight *) const {}
-
- // Return resp matchers. Ownership stays with filter.
- Matcher1 *GetMatcher1() { return matcher1_; }
- Matcher2 *GetMatcher2() { return matcher2_; }
-
- uint64 Properties(uint64 props) const { return props; }
-
- private:
- Matcher1 *matcher1_;
- Matcher2 *matcher2_;
- const FST1 &fst1_;
- StateId s1_; // Current fst1_ state;
- StateId s2_; // Current fst2_ state;
- FilterState f_; // Current filter state
- bool alleps1_; // Only epsilons (and non-final) leaving s1_?
- bool noeps1_; // No epsilons leaving s1_?
-
- void operator=(const SequenceComposeFilter<M1, M2> &); // disallow
-};
-
-
-// This filter requires epsilons on FST2 to be read before epsilons on FST1.
-template <class M1, class M2>
-class AltSequenceComposeFilter {
- public:
- typedef typename M1::FST FST1;
- typedef typename M2::FST FST2;
- typedef typename FST1::Arc Arc;
- typedef CharFilterState FilterState;
- typedef M1 Matcher1;
- typedef M2 Matcher2;
-
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- AltSequenceComposeFilter(const FST1 &fst1, const FST2 &fst2,
- M1 *matcher1 = 0, M2 *matcher2 = 0)
- : matcher1_(matcher1 ? matcher1 : new M1(fst1, MATCH_OUTPUT)),
- matcher2_(matcher2 ? matcher2 : new M2(fst2, MATCH_INPUT)),
- fst2_(matcher2_->GetFst()),
- s1_(kNoStateId),
- s2_(kNoStateId),
- f_(kNoStateId) {}
-
- AltSequenceComposeFilter(const AltSequenceComposeFilter<M1, M2> &filter,
- bool safe = false)
- : matcher1_(filter.matcher1_->Copy(safe)),
- matcher2_(filter.matcher2_->Copy(safe)),
- fst2_(matcher2_->GetFst()),
- s1_(kNoStateId),
- s2_(kNoStateId),
- f_(kNoStateId) {}
-
- ~AltSequenceComposeFilter() {
- delete matcher1_;
- delete matcher2_;
- }
-
- FilterState Start() const { return FilterState(0); }
-
- void SetState(StateId s1, StateId s2, const FilterState &f) {
- if (s1_ == s1 && s2_ == s2 && f == f_)
- return;
- s1_ = s1;
- s2_ = s2;
- f_ = f;
- size_t na2 = internal::NumArcs(fst2_, s2);
- size_t ne2 = internal::NumInputEpsilons(fst2_, s2);
- bool fin2 = internal::Final(fst2_, s2) != Weight::Zero();
- alleps2_ = na2 == ne2 && !fin2;
- noeps2_ = ne2 == 0;
- }
-
- FilterState FilterArc(Arc *arc1, Arc *arc2) const {
- if (arc2->ilabel == kNoLabel)
- return alleps2_ ? FilterState::NoState() :
- noeps2_ ? FilterState(0) : FilterState(1);
- else if (arc1->olabel == kNoLabel)
- return f_ == FilterState(1) ? FilterState::NoState() : FilterState(0);
- else
- return arc1->olabel == 0 ? FilterState::NoState() : FilterState(0);
- }
-
- void FilterFinal(Weight *, Weight *) const {}
-
- // Return resp matchers. Ownership stays with filter.
- Matcher1 *GetMatcher1() { return matcher1_; }
- Matcher2 *GetMatcher2() { return matcher2_; }
-
- uint64 Properties(uint64 props) const { return props; }
-
- private:
- Matcher1 *matcher1_;
- Matcher2 *matcher2_;
- const FST2 &fst2_;
- StateId s1_; // Current fst1_ state;
- StateId s2_; // Current fst2_ state;
- FilterState f_; // Current filter state
- bool alleps2_; // Only epsilons (and non-final) leaving s2_?
- bool noeps2_; // No epsilons leaving s2_?
-
-void operator=(const AltSequenceComposeFilter<M1, M2> &); // disallow
-};
-
-
-// This filter requires epsilons on FST1 to be matched with epsilons on FST2
-// whenever possible.
-template <class M1, class M2>
-class MatchComposeFilter {
- public:
- typedef typename M1::FST FST1;
- typedef typename M2::FST FST2;
- typedef typename FST1::Arc Arc;
- typedef CharFilterState FilterState;
- typedef M1 Matcher1;
- typedef M2 Matcher2;
-
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- MatchComposeFilter(const FST1 &fst1, const FST2 &fst2,
- M1 *matcher1 = 0, M2 *matcher2 = 0)
- : matcher1_(matcher1 ? matcher1 : new M1(fst1, MATCH_OUTPUT)),
- matcher2_(matcher2 ? matcher2 : new M2(fst2, MATCH_INPUT)),
- fst1_(matcher1_->GetFst()),
- fst2_(matcher2_->GetFst()),
- s1_(kNoStateId),
- s2_(kNoStateId),
- f_(kNoStateId) {}
-
- MatchComposeFilter(const MatchComposeFilter<M1, M2> &filter,
- bool safe = false)
- : matcher1_(filter.matcher1_->Copy(safe)),
- matcher2_(filter.matcher2_->Copy(safe)),
- fst1_(matcher1_->GetFst()),
- fst2_(matcher2_->GetFst()),
- s1_(kNoStateId),
- s2_(kNoStateId),
- f_(kNoStateId) {}
-
- ~MatchComposeFilter() {
- delete matcher1_;
- delete matcher2_;
- }
-
- FilterState Start() const { return FilterState(0); }
-
- void SetState(StateId s1, StateId s2, const FilterState &f) {
- if (s1_ == s1 && s2_ == s2 && f == f_)
- return;
- s1_ = s1;
- s2_ = s2;
- f_ = f;
- size_t na1 = internal::NumArcs(fst1_, s1);
- size_t ne1 = internal::NumOutputEpsilons(fst1_, s1);
- bool f1 = internal::Final(fst1_, s1) != Weight::Zero();
- alleps1_ = na1 == ne1 && !f1;
- noeps1_ = ne1 == 0;
- size_t na2 = internal::NumArcs(fst2_, s2);
- size_t ne2 = internal::NumInputEpsilons(fst2_, s2);
- bool f2 = internal::Final(fst2_, s2) != Weight::Zero();
- alleps2_ = na2 == ne2 && !f2;
- noeps2_ = ne2 == 0;
- }
-
- FilterState FilterArc(Arc *arc1, Arc *arc2) const {
- if (arc2->ilabel == kNoLabel) // Epsilon on Fst1
- return f_ == FilterState(0) ?
- (noeps2_ ? FilterState(0) :
- (alleps2_ ? FilterState::NoState(): FilterState(1))) :
- (f_ == FilterState(1) ? FilterState(1) : FilterState::NoState());
- else if (arc1->olabel == kNoLabel) // Epsilon on Fst2
- return f_ == FilterState(0) ?
- (noeps1_ ? FilterState(0) :
- (alleps1_ ? FilterState::NoState() : FilterState(2))) :
- (f_ == FilterState(2) ? FilterState(2) : FilterState::NoState());
- else if (arc1->olabel == 0) // Epsilon on both
- return f_ == FilterState(0) ? FilterState(0) : FilterState::NoState();
- else // Both are non-epsilons
- return FilterState(0);
- }
-
- void FilterFinal(Weight *, Weight *) const {}
-
- // Return resp matchers. Ownership stays with filter.
- Matcher1 *GetMatcher1() { return matcher1_; }
- Matcher2 *GetMatcher2() { return matcher2_; }
-
- uint64 Properties(uint64 props) const { return props; }
-
- private:
- Matcher1 *matcher1_;
- Matcher2 *matcher2_;
- const FST1 &fst1_;
- const FST2 &fst2_;
- StateId s1_; // Current fst1_ state;
- StateId s2_; // Current fst2_ state;
- FilterState f_; // Current filter state ID
- bool alleps1_, alleps2_; // Only epsilons (and non-final) leaving s1, s2?
- bool noeps1_, noeps2_; // No epsilons leaving s1, s2?
-
- void operator=(const MatchComposeFilter<M1, M2> &); // disallow
-};
-
-
-// This filter works with the MultiEpsMatcher to determine if
-// 'multi-epsilons' are preserved in the composition output
-// (rather than rewritten as 0) and ensures correct properties.
-template <class F>
-class MultiEpsFilter {
- public:
- typedef typename F::FST1 FST1;
- typedef typename F::FST2 FST2;
- typedef typename F::Arc Arc;
- typedef typename F::Matcher1 Matcher1;
- typedef typename F::Matcher2 Matcher2;
- typedef typename F::FilterState FilterState;
- typedef MultiEpsFilter<F> Filter;
-
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- MultiEpsFilter(const FST1 &fst1, const FST2 &fst2,
- Matcher1 *matcher1 = 0, Matcher2 *matcher2 = 0,
- bool keep_multi_eps = false)
- : filter_(fst1, fst2, matcher1, matcher2),
- keep_multi_eps_(keep_multi_eps) {}
-
- MultiEpsFilter(const Filter &filter, bool safe = false)
- : filter_(filter.filter_, safe),
- keep_multi_eps_(filter.keep_multi_eps_) {}
-
- FilterState Start() const { return filter_.Start(); }
-
- void SetState(StateId s1, StateId s2, const FilterState &f) {
- return filter_.SetState(s1, s2, f);
- }
-
- FilterState FilterArc(Arc *arc1, Arc *arc2) const {
- FilterState f = filter_.FilterArc(arc1, arc2);
- if (keep_multi_eps_) {
- if (arc1->olabel == kNoLabel)
- arc1->ilabel = arc2->ilabel;
- if (arc2->ilabel == kNoLabel)
- arc2->olabel = arc1->olabel;
- }
- return f;
- }
-
- void FilterFinal(Weight *w1, Weight *w2) const {
- return filter_.FilterFinal(w1, w2);
- }
-
- // Return resp matchers. Ownership stays with filter.
- Matcher1 *GetMatcher1() { return filter_.GetMatcher1(); }
- Matcher2 *GetMatcher2() { return filter_.GetMatcher2(); }
-
- uint64 Properties(uint64 iprops) const {
- uint64 oprops = filter_.Properties(iprops);
- return oprops & kILabelInvariantProperties & kOLabelInvariantProperties;
- }
-
- private:
- F filter_;
- bool keep_multi_eps_;
-};
-
-} // namespace fst
-
-
-#endif // FST_LIB_COMPOSE_FILTER_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/compose.h b/kaldi_io/src/tools/openfst/include/fst/compose.h
deleted file mode 100644
index db5ea3a..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/compose.h
+++ /dev/null
@@ -1,728 +0,0 @@
-// compose.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to compute the composition of two FSTs
-
-#ifndef FST_LIB_COMPOSE_H__
-#define FST_LIB_COMPOSE_H__
-
-#include <algorithm>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-#include <fst/compose-filter.h>
-#include <fst/lookahead-filter.h>
-#include <fst/matcher.h>
-#include <fst/state-table.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-// Delayed composition options templated on the arc type, the matcher,
-// the composition filter, and the composition state table. By
-// default, the matchers, filter, and state table are constructed by
-// composition. If set below, the user can instead pass in these
-// objects; in that case, ComposeFst takes their ownership. This
-// version controls composition implemented between generic Fst<Arc>
-// types and a shared matcher type M for Fst<Arc>. This should be
-// adequate for most applications, giving a reasonable tradeoff
-// between efficiency and code sharing (but see ComposeFstImplOptions).
-template <class A,
- class M = Matcher<Fst<A> >,
- class F = SequenceComposeFilter<M>,
- class T = GenericComposeStateTable<A, typename F::FilterState> >
-struct ComposeFstOptions : public CacheOptions {
- M *matcher1; // FST1 matcher (see matcher.h)
- M *matcher2; // FST2 matcher
- F *filter; // Composition filter (see compose-filter.h)
- T *state_table; // Composition state table (see compose-state-table.h)
-
- explicit ComposeFstOptions(const CacheOptions &opts,
- M *mat1 = 0, M *mat2 = 0,
- F *filt = 0, T *sttable= 0)
- : CacheOptions(opts), matcher1(mat1), matcher2(mat2),
- filter(filt), state_table(sttable) {}
-
- ComposeFstOptions() : matcher1(0), matcher2(0), filter(0), state_table(0) {}
-};
-
-
-// Delayed composition options templated on the two matcher types, the
-// composition filter, and the composition state table. By default,
-// the matchers, filter, and state table are constructed by
-// composition. If set below, the user can instead pass in these
-// objects; in that case, ComposeFst takes their ownership. This
-// version controls composition implemented using arbitrary matchers
-// (of the same Arc type but otherwise arbitrary Fst type). The user
-// must ensure the matchers are compatible. These options permit the
-// most efficient use, but shares the least code. This is for advanced
-// use only in the most demanding or specialized applications that can
-// benefit from it (o.w. prefer ComposeFstOptions).
-template <class M1, class M2,
- class F = SequenceComposeFilter<M1, M2>,
- class T = GenericComposeStateTable<typename M1::Arc,
- typename F::FilterState> >
-struct ComposeFstImplOptions : public CacheOptions {
- M1 *matcher1; // FST1 matcher (see matcher.h)
- M2 *matcher2; // FST2 matcher
- F *filter; // Composition filter (see compose-filter.h)
- T *state_table; // Composition state table (see compose-state-table.h)
-
- explicit ComposeFstImplOptions(const CacheOptions &opts,
- M1 *mat1 = 0, M2 *mat2 = 0,
- F *filt = 0, T *sttable= 0)
- : CacheOptions(opts), matcher1(mat1), matcher2(mat2),
- filter(filt), state_table(sttable) {}
-
- ComposeFstImplOptions()
- : matcher1(0), matcher2(0), filter(0), state_table(0) {}
-};
-
-
-// Implementation of delayed composition. This base class is
-// common to the variants with different matchers, composition filters
-// and state tables.
-template <class A>
-class ComposeFstImplBase : public CacheImpl<A> {
- public:
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::Properties;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
-
- using CacheBaseImpl< CacheState<A> >::HasStart;
- using CacheBaseImpl< CacheState<A> >::HasFinal;
- using CacheBaseImpl< CacheState<A> >::HasArcs;
- using CacheBaseImpl< CacheState<A> >::SetFinal;
- using CacheBaseImpl< CacheState<A> >::SetStart;
-
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
-
- ComposeFstImplBase(const Fst<A> &fst1, const Fst<A> &fst2,
- const CacheOptions &opts)
- : CacheImpl<A>(opts) {
- VLOG(2) << "ComposeFst(" << this << "): Begin";
- SetType("compose");
-
- if (!CompatSymbols(fst2.InputSymbols(), fst1.OutputSymbols())) {
- FSTERROR() << "ComposeFst: output symbol table of 1st argument "
- << "does not match input symbol table of 2nd argument";
- SetProperties(kError, kError);
- }
-
- SetInputSymbols(fst1.InputSymbols());
- SetOutputSymbols(fst2.OutputSymbols());
- }
-
- ComposeFstImplBase(const ComposeFstImplBase<A> &impl)
- : CacheImpl<A>(impl, true) {
- SetProperties(impl.Properties(), kCopyProperties);
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- }
-
- virtual ComposeFstImplBase<A> *Copy() = 0;
-
- virtual ~ComposeFstImplBase() {}
-
- StateId Start() {
- if (!HasStart()) {
- StateId start = ComputeStart();
- if (start != kNoStateId) {
- SetStart(start);
- }
- }
- return CacheImpl<A>::Start();
- }
-
- Weight Final(StateId s) {
- if (!HasFinal(s)) {
- Weight final = ComputeFinal(s);
- SetFinal(s, final);
- }
- return CacheImpl<A>::Final(s);
- }
-
- virtual void Expand(StateId s) = 0;
-
- size_t NumArcs(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumArcs(s);
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumOutputEpsilons(s);
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<A> *data) {
- if (!HasArcs(s))
- Expand(s);
- CacheImpl<A>::InitArcIterator(s, data);
- }
-
- protected:
- virtual StateId ComputeStart() = 0;
- virtual Weight ComputeFinal(StateId s) = 0;
-};
-
-
-// Implementaion of delayed composition templated on the matchers (see
-// matcher.h), composition filter (see compose-filter-inl.h) and
-// the composition state table (see compose-state-table.h).
-template <class M1, class M2, class F, class T>
-class ComposeFstImpl : public ComposeFstImplBase<typename M1::Arc> {
- typedef typename M1::FST FST1;
- typedef typename M2::FST FST2;
- typedef typename M1::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef typename F::FilterState FilterState;
- typedef typename F::Matcher1 Matcher1;
- typedef typename F::Matcher2 Matcher2;
-
- using CacheBaseImpl<CacheState<Arc> >::SetArcs;
- using FstImpl<Arc>::SetType;
- using FstImpl<Arc>::SetProperties;
-
- typedef ComposeStateTuple<StateId, FilterState> StateTuple;
-
- public:
- ComposeFstImpl(const FST1 &fst1, const FST2 &fst2,
- const ComposeFstImplOptions<M1, M2, F, T> &opts);
-
- ComposeFstImpl(const ComposeFstImpl<M1, M2, F, T> &impl)
- : ComposeFstImplBase<Arc>(impl),
- filter_(new F(*impl.filter_, true)),
- matcher1_(filter_->GetMatcher1()),
- matcher2_(filter_->GetMatcher2()),
- fst1_(matcher1_->GetFst()),
- fst2_(matcher2_->GetFst()),
- state_table_(new T(*impl.state_table_)),
- match_type_(impl.match_type_) {}
-
- ~ComposeFstImpl() {
- VLOG(2) << "ComposeFst(" << this
- << "): End: # of visited states: " << state_table_->Size();
-
- delete filter_;
- delete state_table_;
- }
-
- virtual ComposeFstImpl<M1, M2, F, T> *Copy() {
- return new ComposeFstImpl<M1, M2, F, T>(*this);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) &&
- (fst1_.Properties(kError, false) ||
- fst2_.Properties(kError, false) ||
- (matcher1_->Properties(0) & kError) ||
- (matcher2_->Properties(0) & kError) |
- (filter_->Properties(0) & kError) ||
- state_table_->Error())) {
- SetProperties(kError, kError);
- }
- return FstImpl<Arc>::Properties(mask);
- }
-
- // Arranges it so that the first arg to OrderedExpand is the Fst
- // that will be matched on.
- void Expand(StateId s) {
- const StateTuple &tuple = state_table_->Tuple(s);
- StateId s1 = tuple.state_id1;
- StateId s2 = tuple.state_id2;
- filter_->SetState(s1, s2, tuple.filter_state);
- if (match_type_ == MATCH_OUTPUT ||
- (match_type_ == MATCH_BOTH &&
- internal::NumArcs(fst1_, s1) > internal::NumArcs(fst2_, s2)))
- OrderedExpand(s, fst1_, s1, fst2_, s2, matcher1_, false);
- else
- OrderedExpand(s, fst2_, s2, fst1_, s1, matcher2_, true);
- }
-
- const FST1 &GetFst1() { return fst1_; }
- const FST2 &GetFst2() { return fst2_; }
- M1 *GetMatcher1() { return matcher1_; }
- M2 *GetMatcher2() { return matcher2_; }
- F *GetFilter() { return filter_; }
- T *GetStateTable() { return state_table_; }
-
- private:
- // This does that actual matching of labels in the composition. The
- // arguments are ordered so matching is called on state 'sa' of
- // 'fsta' for each arc leaving state 'sb' of 'fstb'. The 'match_input' arg
- // determines whether the input or output label of arcs at 'sb' is
- // the one to match on.
- template <class FST, class Matcher>
- void OrderedExpand(StateId s, const Fst<Arc> &, StateId sa,
- const FST &fstb, StateId sb,
- Matcher *matchera, bool match_input) {
- matchera->SetState(sa);
-
- // First process non-consuming symbols (e.g., epsilons) on FSTA.
- Arc loop(match_input ? 0 : kNoLabel, match_input ? kNoLabel : 0,
- Weight::One(), sb);
- MatchArc(s, matchera, loop, match_input);
-
- // Then process matches on FSTB.
- for (ArcIterator<FST> iterb(fstb, sb); !iterb.Done(); iterb.Next())
- MatchArc(s, matchera, iterb.Value(), match_input);
-
- SetArcs(s);
- }
-
- // Matches a single transition from 'fstb' against 'fata' at 's'.
- template <class Matcher>
- void MatchArc(StateId s, Matcher *matchera,
- const Arc &arc, bool match_input) {
- if (matchera->Find(match_input ? arc.olabel : arc.ilabel)) {
- for (; !matchera->Done(); matchera->Next()) {
- Arc arca = matchera->Value();
- Arc arcb = arc;
- if (match_input) {
- const FilterState &f = filter_->FilterArc(&arcb, &arca);
- if (f != FilterState::NoState())
- AddArc(s, arcb, arca, f);
- } else {
- const FilterState &f = filter_->FilterArc(&arca, &arcb);
- if (f != FilterState::NoState())
- AddArc(s, arca, arcb, f);
- }
- }
- }
- }
-
- // Add a matching transition at 's'.
- void AddArc(StateId s, const Arc &arc1, const Arc &arc2,
- const FilterState &f) {
- StateTuple tuple(arc1.nextstate, arc2.nextstate, f);
- Arc oarc(arc1.ilabel, arc2.olabel, Times(arc1.weight, arc2.weight),
- state_table_->FindState(tuple));
- CacheImpl<Arc>::PushArc(s, oarc);
- }
-
- StateId ComputeStart() {
- StateId s1 = fst1_.Start();
- if (s1 == kNoStateId)
- return kNoStateId;
-
- StateId s2 = fst2_.Start();
- if (s2 == kNoStateId)
- return kNoStateId;
-
- const FilterState &f = filter_->Start();
- StateTuple tuple(s1, s2, f);
- return state_table_->FindState(tuple);
- }
-
- Weight ComputeFinal(StateId s) {
- const StateTuple &tuple = state_table_->Tuple(s);
- StateId s1 = tuple.state_id1;
- Weight final1 = internal::Final(fst1_, s1);
- if (final1 == Weight::Zero())
- return final1;
-
- StateId s2 = tuple.state_id2;
- Weight final2 = internal::Final(fst2_, s2);
- if (final2 == Weight::Zero())
- return final2;
-
- filter_->SetState(s1, s2, tuple.filter_state);
- filter_->FilterFinal(&final1, &final2);
- return Times(final1, final2);
- }
-
- // Identifies and verifies the capabilities of the matcher to be used for
- // composition.
- void SetMatchType();
-
- F *filter_;
- Matcher1 *matcher1_;
- Matcher2 *matcher2_;
- const FST1 &fst1_;
- const FST2 &fst2_;
- T *state_table_;
-
- MatchType match_type_;
-
- void operator=(const ComposeFstImpl<M1, M2, F, T> &); // disallow
-};
-
-template <class M1, class M2, class F, class T> inline
-ComposeFstImpl<M1, M2, F, T>::ComposeFstImpl(
- const FST1 &fst1, const FST2 &fst2,
- const ComposeFstImplOptions<M1, M2, F, T> &opts)
- : ComposeFstImplBase<Arc>(fst1, fst2, opts),
- filter_(opts.filter ? opts.filter :
- new F(fst1, fst2, opts.matcher1, opts.matcher2)),
- matcher1_(filter_->GetMatcher1()),
- matcher2_(filter_->GetMatcher2()),
- fst1_(matcher1_->GetFst()),
- fst2_(matcher2_->GetFst()),
- state_table_(opts.state_table ? opts.state_table :
- new T(fst1_, fst2_)) {
- SetMatchType();
- if (match_type_ == MATCH_NONE)
- SetProperties(kError, kError);
- VLOG(2) << "ComposeFst(" << this << "): Match type: "
- << (match_type_ == MATCH_OUTPUT ? "output" :
- (match_type_ == MATCH_INPUT ? "input" :
- (match_type_ == MATCH_BOTH ? "both" :
- (match_type_ == MATCH_NONE ? "none" : "unknown"))));
-
- uint64 fprops1 = fst1.Properties(kFstProperties, false);
- uint64 fprops2 = fst2.Properties(kFstProperties, false);
- uint64 mprops1 = matcher1_->Properties(fprops1);
- uint64 mprops2 = matcher2_->Properties(fprops2);
- uint64 cprops = ComposeProperties(mprops1, mprops2);
- SetProperties(filter_->Properties(cprops), kCopyProperties);
- if (state_table_->Error()) SetProperties(kError, kError);
- VLOG(2) << "ComposeFst(" << this << "): Initialized";
-}
-
-template <class M1, class M2, class F, class T>
-void ComposeFstImpl<M1, M2, F, T>::SetMatchType() {
- MatchType type1 = matcher1_->Type(false);
- MatchType type2 = matcher2_->Type(false);
- uint32 flags1 = matcher1_->Flags();
- uint32 flags2 = matcher2_->Flags();
- if (flags1 & flags2 & kRequireMatch) {
- FSTERROR() << "ComposeFst: only one argument can require matching.";
- match_type_ = MATCH_NONE;
- } else if (flags1 & kRequireMatch) {
- if (matcher1_->Type(true) != MATCH_OUTPUT) {
- FSTERROR() << "ComposeFst: 1st argument requires matching but cannot.";
- match_type_ = MATCH_NONE;
- }
- match_type_ = MATCH_OUTPUT;
- } else if (flags2 & kRequireMatch) {
- if (matcher2_->Type(true) != MATCH_INPUT) {
- FSTERROR() << "ComposeFst: 2nd argument requires matching but cannot.";
- match_type_ = MATCH_NONE;
- }
- match_type_ = MATCH_INPUT;
- } else if (flags1 & flags2 & kPreferMatch &&
- type1 == MATCH_OUTPUT && type2 == MATCH_INPUT) {
- match_type_ = MATCH_BOTH;
- } else if (flags1 & kPreferMatch && type1 == MATCH_OUTPUT) {
- match_type_ = MATCH_OUTPUT;
- } else if (flags2 & kPreferMatch && type2 == MATCH_INPUT) {
- match_type_ = MATCH_INPUT;
- } else if (type1 == MATCH_OUTPUT && type2 == MATCH_INPUT) {
- match_type_ = MATCH_BOTH;
- } else if (type1 == MATCH_OUTPUT) {
- match_type_ = MATCH_OUTPUT;
- } else if (type2 == MATCH_INPUT) {
- match_type_ = MATCH_INPUT;
- } else if (flags1 & kPreferMatch && matcher1_->Type(true) == MATCH_OUTPUT) {
- match_type_ = MATCH_OUTPUT;
- } else if (flags2 & kPreferMatch && matcher2_->Type(true) == MATCH_INPUT) {
- match_type_ = MATCH_INPUT;
- } else if (matcher1_->Type(true) == MATCH_OUTPUT) {
- match_type_ = MATCH_OUTPUT;
- } else if (matcher2_->Type(true) == MATCH_INPUT) {
- match_type_ = MATCH_INPUT;
- } else {
- FSTERROR() << "ComposeFst: 1st argument cannot match on output labels "
- << "and 2nd argument cannot match on input labels (sort?).";
- match_type_ = MATCH_NONE;
- }
-}
-
-
-// Computes the composition of two transducers. This version is a
-// delayed Fst. If FST1 transduces string x to y with weight a and FST2
-// transduces y to z with weight b, then their composition transduces
-// string x to z with weight Times(x, z).
-//
-// The output labels of the first transducer or the input labels of
-// the second transducer must be sorted (with the default matcher).
-// The weights need to form a commutative semiring (valid for
-// TropicalWeight and LogWeight).
-//
-// Complexity:
-// Assuming the first FST is unsorted and the second is sorted:
-// - Time: O(v1 v2 d1 (log d2 + m2)),
-// - Space: O(v1 v2)
-// where vi = # of states visited, di = maximum out-degree, and mi the
-// maximum multiplicity of the states visited for the ith
-// FST. Constant time and space to visit an input state or arc is
-// assumed and exclusive of caching.
-//
-// Caveats:
-// - ComposeFst does not trim its output (since it is a delayed operation).
-// - The efficiency of composition can be strongly affected by several factors:
-// - the choice of which tnansducer is sorted - prefer sorting the FST
-// that has the greater average out-degree.
-// - the amount of non-determinism
-// - the presence and location of epsilon transitions - avoid epsilon
-// transitions on the output side of the first transducer or
-// the input side of the second transducer or prefer placing
-// them later in a path since they delay matching and can
-// introduce non-coaccessible states and transitions.
-//
-// This class attaches interface to implementation and handles
-// reference counting, delegating most methods to ImplToFst.
-template <class A>
-class ComposeFst : public ImplToFst< ComposeFstImplBase<A> > {
- public:
- friend class ArcIterator< ComposeFst<A> >;
- friend class StateIterator< ComposeFst<A> >;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
- typedef ComposeFstImplBase<A> Impl;
-
- using ImplToFst<Impl>::SetImpl;
-
- // Compose specifying only caching options.
- ComposeFst(const Fst<A> &fst1, const Fst<A> &fst2,
- const CacheOptions &opts = CacheOptions())
- : ImplToFst<Impl>(CreateBase(fst1, fst2, opts)) {}
-
- // Compose specifying one shared matcher type M. Requires input
- // Fsts and matcher FST type (M::FST) be Fst<A>. Recommended for
- // best code-sharing and matcher compatiblity.
- template <class M, class F, class T>
- ComposeFst(const Fst<A> &fst1, const Fst<A> &fst2,
- const ComposeFstOptions<A, M, F, T> &opts)
- : ImplToFst<Impl>(CreateBase1(fst1, fst2, opts)) {}
-
- // Compose specifying two matcher types M1 and M2. Requires input
- // Fsts (of the same Arc type but o.w. arbitrary) match the
- // corresponding matcher FST types (M1::FST, M2::FST). Recommended
- // only for advanced use in demanding or specialized applications
- // due to potential code bloat and matcher incompatibilities.
- template <class M1, class M2, class F, class T>
- ComposeFst(const typename M1::FST &fst1, const typename M2::FST &fst2,
- const ComposeFstImplOptions<M1, M2, F, T> &opts)
- : ImplToFst<Impl>(CreateBase2(fst1, fst2, opts)) {}
-
- // See Fst<>::Copy() for doc.
- ComposeFst(const ComposeFst<A> &fst, bool safe = false) {
- if (safe)
- SetImpl(fst.GetImpl()->Copy());
- else
- SetImpl(fst.GetImpl(), false);
- }
-
- // Get a copy of this ComposeFst. See Fst<>::Copy() for further doc.
- virtual ComposeFst<A> *Copy(bool safe = false) const {
- return new ComposeFst<A>(*this, safe);
- }
-
- virtual inline void InitStateIterator(StateIteratorData<A> *data) const;
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<A> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- protected:
- ComposeFst() {}
-
- // Create compose implementation specifying two matcher types.
- template <class M1, class M2, class F, class T>
- static Impl *CreateBase2(
- const typename M1::FST &fst1, const typename M2::FST &fst2,
- const ComposeFstImplOptions<M1, M2, F, T> &opts) {
- Impl *impl = new ComposeFstImpl<M1, M2, F, T>(fst1, fst2, opts);
- if (!(Weight::Properties() & kCommutative)) {
- int64 props1 = fst1.Properties(kUnweighted, true);
- int64 props2 = fst2.Properties(kUnweighted, true);
- if (!(props1 & kUnweighted) && !(props2 & kUnweighted)) {
- FSTERROR() << "ComposeFst: Weights must be a commutative semiring: "
- << Weight::Type();
- impl->SetProperties(kError, kError);
- }
- }
- return impl;
- }
-
- // Create compose implementation specifying one matcher type.
- // Requires input Fsts and matcher FST type (M::FST) be Fst<A>
- template <class M, class F, class T>
- static Impl *CreateBase1(const Fst<A> &fst1, const Fst<A> &fst2,
- const ComposeFstOptions<A, M, F, T> &opts) {
- ComposeFstImplOptions<M, M, F, T> nopts(opts, opts.matcher1, opts.matcher2,
- opts.filter, opts.state_table);
- return CreateBase2(fst1, fst2, nopts);
- }
-
- // Create compose implementation specifying no matcher type.
- static Impl *CreateBase(const Fst<A> &fst1, const Fst<A> &fst2,
- const CacheOptions &opts) {
- switch (LookAheadMatchType(fst1, fst2)) { // Check for lookahead matchers
- default:
- case MATCH_NONE: { // Default composition (no look-ahead)
- VLOG(2) << "ComposeFst: Default composition (no look-ahead)";
- ComposeFstOptions<Arc> nopts(opts);
- return CreateBase1(fst1, fst2, nopts);
- }
- case MATCH_OUTPUT: { // Lookahead on fst1
- VLOG(2) << "ComposeFst: Lookahead on fst1";
- typedef typename DefaultLookAhead<Arc, MATCH_OUTPUT>::FstMatcher M;
- typedef typename DefaultLookAhead<Arc, MATCH_OUTPUT>::ComposeFilter F;
- ComposeFstOptions<Arc, M, F> nopts(opts);
- return CreateBase1(fst1, fst2, nopts);
- }
- case MATCH_INPUT: { // Lookahead on fst2
- VLOG(2) << "ComposeFst: Lookahead on fst2";
- typedef typename DefaultLookAhead<Arc, MATCH_INPUT>::FstMatcher M;
- typedef typename DefaultLookAhead<Arc, MATCH_INPUT>::ComposeFilter F;
- ComposeFstOptions<Arc, M, F> nopts(opts);
- return CreateBase1(fst1, fst2, nopts);
- }
- }
- }
-
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const ComposeFst<A> &fst); // disallow
-};
-
-
-// Specialization for ComposeFst.
-template<class A>
-class StateIterator< ComposeFst<A> >
- : public CacheStateIterator< ComposeFst<A> > {
- public:
- explicit StateIterator(const ComposeFst<A> &fst)
- : CacheStateIterator< ComposeFst<A> >(fst, fst.GetImpl()) {}
-};
-
-
-// Specialization for ComposeFst.
-template <class A>
-class ArcIterator< ComposeFst<A> >
- : public CacheArcIterator< ComposeFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const ComposeFst<A> &fst, StateId s)
- : CacheArcIterator< ComposeFst<A> >(fst.GetImpl(), s) {
- if (!fst.GetImpl()->HasArcs(s))
- fst.GetImpl()->Expand(s);
- }
-
- private:
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-template <class A> inline
-void ComposeFst<A>::InitStateIterator(StateIteratorData<A> *data) const {
- data->base = new StateIterator< ComposeFst<A> >(*this);
-}
-
-// Useful alias when using StdArc.
-typedef ComposeFst<StdArc> StdComposeFst;
-
-enum ComposeFilter { AUTO_FILTER, SEQUENCE_FILTER, ALT_SEQUENCE_FILTER,
- MATCH_FILTER };
-
-struct ComposeOptions {
- bool connect; // Connect output
- ComposeFilter filter_type; // Which pre-defined filter to use
-
- ComposeOptions(bool c, ComposeFilter ft = AUTO_FILTER)
- : connect(c), filter_type(ft) {}
- ComposeOptions() : connect(true), filter_type(AUTO_FILTER) {}
-};
-
-// Computes the composition of two transducers. This version writes
-// the composed FST into a MurableFst. If FST1 transduces string x to
-// y with weight a and FST2 transduces y to z with weight b, then
-// their composition transduces string x to z with weight
-// Times(x, z).
-//
-// The output labels of the first transducer or the input labels of
-// the second transducer must be sorted. The weights need to form a
-// commutative semiring (valid for TropicalWeight and LogWeight).
-//
-// Complexity:
-// Assuming the first FST is unsorted and the second is sorted:
-// - Time: O(V1 V2 D1 (log D2 + M2)),
-// - Space: O(V1 V2 D1 M2)
-// where Vi = # of states, Di = maximum out-degree, and Mi is
-// the maximum multiplicity for the ith FST.
-//
-// Caveats:
-// - Compose trims its output.
-// - The efficiency of composition can be strongly affected by several factors:
-// - the choice of which tnansducer is sorted - prefer sorting the FST
-// that has the greater average out-degree.
-// - the amount of non-determinism
-// - the presence and location of epsilon transitions - avoid epsilon
-// transitions on the output side of the first transducer or
-// the input side of the second transducer or prefer placing
-// them later in a path since they delay matching and can
-// introduce non-coaccessible states and transitions.
-template<class Arc>
-void Compose(const Fst<Arc> &ifst1, const Fst<Arc> &ifst2,
- MutableFst<Arc> *ofst,
- const ComposeOptions &opts = ComposeOptions()) {
- typedef Matcher< Fst<Arc> > M;
-
- if (opts.filter_type == AUTO_FILTER) {
- CacheOptions nopts;
- nopts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = ComposeFst<Arc>(ifst1, ifst2, nopts);
- } else if (opts.filter_type == SEQUENCE_FILTER) {
- ComposeFstOptions<Arc> copts;
- copts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = ComposeFst<Arc>(ifst1, ifst2, copts);
- } else if (opts.filter_type == ALT_SEQUENCE_FILTER) {
- ComposeFstOptions<Arc, M, AltSequenceComposeFilter<M> > copts;
- copts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = ComposeFst<Arc>(ifst1, ifst2, copts);
- } else if (opts.filter_type == MATCH_FILTER) {
- ComposeFstOptions<Arc, M, MatchComposeFilter<M> > copts;
- copts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = ComposeFst<Arc>(ifst1, ifst2, copts);
- }
-
- if (opts.connect)
- Connect(ofst);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_COMPOSE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/concat.h b/kaldi_io/src/tools/openfst/include/fst/concat.h
deleted file mode 100644
index 8500d50..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/concat.h
+++ /dev/null
@@ -1,246 +0,0 @@
-// concat.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Functions and classes to compute the concat of two FSTs.
-
-#ifndef FST_LIB_CONCAT_H__
-#define FST_LIB_CONCAT_H__
-
-#include <vector>
-using std::vector;
-#include <algorithm>
-
-#include <fst/mutable-fst.h>
-#include <fst/rational.h>
-
-
-namespace fst {
-
-// Computes the concatenation (product) of two FSTs. If FST1
-// transduces string x to y with weight a and FST2 transduces string w
-// to v with weight b, then their concatenation transduces string xw
-// to yv with Times(a, b).
-//
-// This version modifies its MutableFst argument (in first position).
-//
-// Complexity:
-// - Time: O(V1 + V2 + E2)
-// - Space: O(V1 + V2 + E2)
-// where Vi = # of states and Ei = # of arcs of the ith FST.
-//
-template<class Arc>
-void Concat(MutableFst<Arc> *fst1, const Fst<Arc> &fst2) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- // TODO(riley): restore when voice actions issues fixed
- // Check that the symbol table are compatible
- if (!CompatSymbols(fst1->InputSymbols(), fst2.InputSymbols()) ||
- !CompatSymbols(fst1->OutputSymbols(), fst2.OutputSymbols())) {
- LOG(ERROR) << "Concat: input/output symbol tables of 1st argument "
- << "do not match input/output symbol tables of 2nd argument";
- // fst1->SetProperties(kError, kError);
- // return;
- }
-
- uint64 props1 = fst1->Properties(kFstProperties, false);
- uint64 props2 = fst2.Properties(kFstProperties, false);
-
- StateId start1 = fst1->Start();
- if (start1 == kNoStateId) {
- if (props2 & kError) fst1->SetProperties(kError, kError);
- return;
- }
-
- StateId numstates1 = fst1->NumStates();
- if (fst2.Properties(kExpanded, false))
- fst1->ReserveStates(numstates1 + CountStates(fst2));
-
- for (StateIterator< Fst<Arc> > siter2(fst2);
- !siter2.Done();
- siter2.Next()) {
- StateId s1 = fst1->AddState();
- StateId s2 = siter2.Value();
- fst1->SetFinal(s1, fst2.Final(s2));
- fst1->ReserveArcs(s1, fst2.NumArcs(s2));
- for (ArcIterator< Fst<Arc> > aiter(fst2, s2);
- !aiter.Done();
- aiter.Next()) {
- Arc arc = aiter.Value();
- arc.nextstate += numstates1;
- fst1->AddArc(s1, arc);
- }
- }
-
- StateId start2 = fst2.Start();
- for (StateId s1 = 0; s1 < numstates1; ++s1) {
- Weight final = fst1->Final(s1);
- if (final != Weight::Zero()) {
- fst1->SetFinal(s1, Weight::Zero());
- if (start2 != kNoStateId)
- fst1->AddArc(s1, Arc(0, 0, final, start2 + numstates1));
- }
- }
- if (start2 != kNoStateId)
- fst1->SetProperties(ConcatProperties(props1, props2), kFstProperties);
-}
-
-// Computes the concatentation of two FSTs. This version modifies its
-// MutableFst argument (in second position).
-//
-// Complexity:
-// - Time: O(V1 + E1)
-// - Space: O(V1 + E1)
-// where Vi = # of states and Ei = # of arcs of the ith FST.
-//
-template<class Arc>
-void Concat(const Fst<Arc> &fst1, MutableFst<Arc> *fst2) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- // Check that the symbol table are compatible
- if (!CompatSymbols(fst1.InputSymbols(), fst2->InputSymbols()) ||
- !CompatSymbols(fst1.OutputSymbols(), fst2->OutputSymbols())) {
- LOG(ERROR) << "Concat: input/output symbol tables of 1st argument "
- << "do not match input/output symbol tables of 2nd argument";
- // fst2->SetProperties(kError, kError);
- // return;
- }
-
- uint64 props1 = fst1.Properties(kFstProperties, false);
- uint64 props2 = fst2->Properties(kFstProperties, false);
-
- StateId start2 = fst2->Start();
- if (start2 == kNoStateId) {
- if (props1 & kError) fst2->SetProperties(kError, kError);
- return;
- }
-
- StateId numstates2 = fst2->NumStates();
- if (fst1.Properties(kExpanded, false))
- fst2->ReserveStates(numstates2 + CountStates(fst1));
-
- for (StateIterator< Fst<Arc> > siter(fst1);
- !siter.Done();
- siter.Next()) {
- StateId s1 = siter.Value();
- StateId s2 = fst2->AddState();
- Weight final = fst1.Final(s1);
- fst2->ReserveArcs(s2, fst1.NumArcs(s1) + (final != Weight::Zero() ? 1 : 0));
- if (final != Weight::Zero())
- fst2->AddArc(s2, Arc(0, 0, final, start2));
- for (ArcIterator< Fst<Arc> > aiter(fst1, s1);
- !aiter.Done();
- aiter.Next()) {
- Arc arc = aiter.Value();
- arc.nextstate += numstates2;
- fst2->AddArc(s2, arc);
- }
- }
- StateId start1 = fst1.Start();
- fst2->SetStart(start1 == kNoStateId ? fst2->AddState() : start1 + numstates2);
- if (start1 != kNoStateId)
- fst2->SetProperties(ConcatProperties(props1, props2), kFstProperties);
-}
-
-
-// Computes the concatentation of two FSTs. This version modifies its
-// RationalFst input (in first position).
-template<class Arc>
-void Concat(RationalFst<Arc> *fst1, const Fst<Arc> &fst2) {
- fst1->GetImpl()->AddConcat(fst2, true);
-}
-
-// Computes the concatentation of two FSTs. This version modifies its
-// RationalFst input (in second position).
-template<class Arc>
-void Concat(const Fst<Arc> &fst1, RationalFst<Arc> *fst2) {
- fst2->GetImpl()->AddConcat(fst1, false);
-}
-
-typedef RationalFstOptions ConcatFstOptions;
-
-
-// Computes the concatenation (product) of two FSTs; this version is a
-// delayed Fst. If FST1 transduces string x to y with weight a and FST2
-// transduces string w to v with weight b, then their concatenation
-// transduces string xw to yv with Times(a, b).
-//
-// Complexity:
-// - Time: O(v1 + e1 + v2 + e2),
-// - Space: O(v1 + v2)
-// where vi = # of states visited and ei = # of arcs visited of the
-// ith FST. Constant time and space to visit an input state or arc is
-// assumed and exclusive of caching.
-template <class A>
-class ConcatFst : public RationalFst<A> {
- public:
- using ImplToFst< RationalFstImpl<A> >::GetImpl;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- ConcatFst(const Fst<A> &fst1, const Fst<A> &fst2) {
- GetImpl()->InitConcat(fst1, fst2);
- }
-
- ConcatFst(const Fst<A> &fst1, const Fst<A> &fst2,
- const ConcatFstOptions &opts) : RationalFst<A>(opts) {
- GetImpl()->InitConcat(fst1, fst2);
- }
-
- // See Fst<>::Copy() for doc.
- ConcatFst(const ConcatFst<A> &fst, bool safe = false)
- : RationalFst<A>(fst, safe) {}
-
- // Get a copy of this ConcatFst. See Fst<>::Copy() for further doc.
- virtual ConcatFst<A> *Copy(bool safe = false) const {
- return new ConcatFst<A>(*this, safe);
- }
-};
-
-
-// Specialization for ConcatFst.
-template <class A>
-class StateIterator< ConcatFst<A> > : public StateIterator< RationalFst<A> > {
- public:
- explicit StateIterator(const ConcatFst<A> &fst)
- : StateIterator< RationalFst<A> >(fst) {}
-};
-
-
-// Specialization for ConcatFst.
-template <class A>
-class ArcIterator< ConcatFst<A> > : public ArcIterator< RationalFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const ConcatFst<A> &fst, StateId s)
- : ArcIterator< RationalFst<A> >(fst, s) {}
-};
-
-
-// Useful alias when using StdArc.
-typedef ConcatFst<StdArc> StdConcatFst;
-
-} // namespace fst
-
-#endif // FST_LIB_CONCAT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/config.h b/kaldi_io/src/tools/openfst/include/fst/config.h
deleted file mode 100644
index 046b49c..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/config.h
+++ /dev/null
@@ -1,12 +0,0 @@
-/* src/include/fst/config.h. Generated from config.h.in by configure. */
-// OpenFst config file
-
-/* Define to 1 if you have the ICU library. */
-/* #undef HAVE_ICU */
-
-/* Define to 1 if the system has the type `std::tr1::hash<long long
- unsigned>'. */
-#define HAVE_STD__TR1__HASH_LONG_LONG_UNSIGNED_ 1
-
-/* Define to 1 if the system has the type `__gnu_cxx::slist<int>'. */
-#define HAVE___GNU_CXX__SLIST_INT_ 1
diff --git a/kaldi_io/src/tools/openfst/include/fst/connect.h b/kaldi_io/src/tools/openfst/include/fst/connect.h
deleted file mode 100644
index 427808c..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/connect.h
+++ /dev/null
@@ -1,319 +0,0 @@
-// connect.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Classes and functions to remove unsuccessful paths from an Fst.
-
-#ifndef FST_LIB_CONNECT_H__
-#define FST_LIB_CONNECT_H__
-
-#include <vector>
-using std::vector;
-
-#include <fst/dfs-visit.h>
-#include <fst/union-find.h>
-#include <fst/mutable-fst.h>
-
-
-namespace fst {
-
-// Finds and returns connected components. Use with Visit().
-template <class A>
-class CcVisitor {
- public:
- typedef A Arc;
- typedef typename Arc::Weight Weight;
- typedef typename A::StateId StateId;
-
- // cc[i]: connected component number for state i.
- CcVisitor(vector<StateId> *cc)
- : comps_(new UnionFind<StateId>(0, kNoStateId)),
- cc_(cc),
- nstates_(0) { }
-
- // comps: connected components equiv classes.
- CcVisitor(UnionFind<StateId> *comps)
- : comps_(comps),
- cc_(0),
- nstates_(0) { }
-
- ~CcVisitor() {
- if (cc_) // own comps_?
- delete comps_;
- }
-
- void InitVisit(const Fst<A> &fst) { }
-
- bool InitState(StateId s, StateId root) {
- ++nstates_;
- if (comps_->FindSet(s) == kNoStateId)
- comps_->MakeSet(s);
- return true;
- }
-
- bool WhiteArc(StateId s, const A &arc) {
- comps_->MakeSet(arc.nextstate);
- comps_->Union(s, arc.nextstate);
- return true;
- }
-
- bool GreyArc(StateId s, const A &arc) {
- comps_->Union(s, arc.nextstate);
- return true;
- }
-
- bool BlackArc(StateId s, const A &arc) {
- comps_->Union(s, arc.nextstate);
- return true;
- }
-
- void FinishState(StateId s) { }
-
- void FinishVisit() {
- if (cc_)
- GetCcVector(cc_);
- }
-
- // cc[i]: connected component number for state i.
- // Returns number of components.
- int GetCcVector(vector<StateId> *cc) {
- cc->clear();
- cc->resize(nstates_, kNoStateId);
- StateId ncomp = 0;
- for (StateId i = 0; i < nstates_; ++i) {
- StateId rep = comps_->FindSet(i);
- StateId &comp = (*cc)[rep];
- if (comp == kNoStateId) {
- comp = ncomp;
- ++ncomp;
- }
- (*cc)[i] = comp;
- }
- return ncomp;
- }
-
- private:
- UnionFind<StateId> *comps_; // Components
- vector<StateId> *cc_; // State's cc number
- StateId nstates_; // State count
-};
-
-
-// Finds and returns strongly-connected components, accessible and
-// coaccessible states and related properties. Uses Tarjan's single
-// DFS SCC algorithm (see Aho, et al, "Design and Analysis of Computer
-// Algorithms", 189pp). Use with DfsVisit();
-template <class A>
-class SccVisitor {
- public:
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- // scc[i]: strongly-connected component number for state i.
- // SCC numbers will be in topological order for acyclic input.
- // access[i]: accessibility of state i.
- // coaccess[i]: coaccessibility of state i.
- // Any of above can be NULL.
- // props: related property bits (cyclicity, initial cyclicity,
- // accessibility, coaccessibility) set/cleared (o.w. unchanged).
- SccVisitor(vector<StateId> *scc, vector<bool> *access,
- vector<bool> *coaccess, uint64 *props)
- : scc_(scc), access_(access), coaccess_(coaccess), props_(props) {}
- SccVisitor(uint64 *props)
- : scc_(0), access_(0), coaccess_(0), props_(props) {}
-
- void InitVisit(const Fst<A> &fst);
-
- bool InitState(StateId s, StateId root);
-
- bool TreeArc(StateId s, const A &arc) { return true; }
-
- bool BackArc(StateId s, const A &arc) {
- StateId t = arc.nextstate;
- if ((*dfnumber_)[t] < (*lowlink_)[s])
- (*lowlink_)[s] = (*dfnumber_)[t];
- if ((*coaccess_)[t])
- (*coaccess_)[s] = true;
- *props_ |= kCyclic;
- *props_ &= ~kAcyclic;
- if (arc.nextstate == start_) {
- *props_ |= kInitialCyclic;
- *props_ &= ~kInitialAcyclic;
- }
- return true;
- }
-
- bool ForwardOrCrossArc(StateId s, const A &arc) {
- StateId t = arc.nextstate;
- if ((*dfnumber_)[t] < (*dfnumber_)[s] /* cross edge */ &&
- (*onstack_)[t] && (*dfnumber_)[t] < (*lowlink_)[s])
- (*lowlink_)[s] = (*dfnumber_)[t];
- if ((*coaccess_)[t])
- (*coaccess_)[s] = true;
- return true;
- }
-
- void FinishState(StateId s, StateId p, const A *);
-
- void FinishVisit() {
- // Numbers SCC's in topological order when acyclic.
- if (scc_)
- for (StateId i = 0; i < scc_->size(); ++i)
- (*scc_)[i] = nscc_ - 1 - (*scc_)[i];
- if (coaccess_internal_)
- delete coaccess_;
- delete dfnumber_;
- delete lowlink_;
- delete onstack_;
- delete scc_stack_;
- }
-
- private:
- vector<StateId> *scc_; // State's scc number
- vector<bool> *access_; // State's accessibility
- vector<bool> *coaccess_; // State's coaccessibility
- uint64 *props_;
- const Fst<A> *fst_;
- StateId start_;
- StateId nstates_; // State count
- StateId nscc_; // SCC count
- bool coaccess_internal_;
- vector<StateId> *dfnumber_; // state discovery times
- vector<StateId> *lowlink_; // lowlink[s] == dfnumber[s] => SCC root
- vector<bool> *onstack_; // is a state on the SCC stack
- vector<StateId> *scc_stack_; // SCC stack (w/ random access)
-};
-
-template <class A> inline
-void SccVisitor<A>::InitVisit(const Fst<A> &fst) {
- if (scc_)
- scc_->clear();
- if (access_)
- access_->clear();
- if (coaccess_) {
- coaccess_->clear();
- coaccess_internal_ = false;
- } else {
- coaccess_ = new vector<bool>;
- coaccess_internal_ = true;
- }
- *props_ |= kAcyclic | kInitialAcyclic | kAccessible | kCoAccessible;
- *props_ &= ~(kCyclic | kInitialCyclic | kNotAccessible | kNotCoAccessible);
- fst_ = &fst;
- start_ = fst.Start();
- nstates_ = 0;
- nscc_ = 0;
- dfnumber_ = new vector<StateId>;
- lowlink_ = new vector<StateId>;
- onstack_ = new vector<bool>;
- scc_stack_ = new vector<StateId>;
-}
-
-template <class A> inline
-bool SccVisitor<A>::InitState(StateId s, StateId root) {
- scc_stack_->push_back(s);
- while (dfnumber_->size() <= s) {
- if (scc_)
- scc_->push_back(-1);
- if (access_)
- access_->push_back(false);
- coaccess_->push_back(false);
- dfnumber_->push_back(-1);
- lowlink_->push_back(-1);
- onstack_->push_back(false);
- }
- (*dfnumber_)[s] = nstates_;
- (*lowlink_)[s] = nstates_;
- (*onstack_)[s] = true;
- if (root == start_) {
- if (access_)
- (*access_)[s] = true;
- } else {
- if (access_)
- (*access_)[s] = false;
- *props_ |= kNotAccessible;
- *props_ &= ~kAccessible;
- }
- ++nstates_;
- return true;
-}
-
-template <class A> inline
-void SccVisitor<A>::FinishState(StateId s, StateId p, const A *) {
- if (fst_->Final(s) != Weight::Zero())
- (*coaccess_)[s] = true;
- if ((*dfnumber_)[s] == (*lowlink_)[s]) { // root of new SCC
- bool scc_coaccess = false;
- size_t i = scc_stack_->size();
- StateId t;
- do {
- t = (*scc_stack_)[--i];
- if ((*coaccess_)[t])
- scc_coaccess = true;
- } while (s != t);
- do {
- t = scc_stack_->back();
- if (scc_)
- (*scc_)[t] = nscc_;
- if (scc_coaccess)
- (*coaccess_)[t] = true;
- (*onstack_)[t] = false;
- scc_stack_->pop_back();
- } while (s != t);
- if (!scc_coaccess) {
- *props_ |= kNotCoAccessible;
- *props_ &= ~kCoAccessible;
- }
- ++nscc_;
- }
- if (p != kNoStateId) {
- if ((*coaccess_)[s])
- (*coaccess_)[p] = true;
- if ((*lowlink_)[s] < (*lowlink_)[p])
- (*lowlink_)[p] = (*lowlink_)[s];
- }
-}
-
-
-// Trims an FST, removing states and arcs that are not on successful
-// paths. This version modifies its input.
-//
-// Complexity:
-// - Time: O(V + E)
-// - Space: O(V + E)
-// where V = # of states and E = # of arcs.
-template<class Arc>
-void Connect(MutableFst<Arc> *fst) {
- typedef typename Arc::StateId StateId;
-
- vector<bool> access;
- vector<bool> coaccess;
- uint64 props = 0;
- SccVisitor<Arc> scc_visitor(0, &access, &coaccess, &props);
- DfsVisit(*fst, &scc_visitor);
- vector<StateId> dstates;
- for (StateId s = 0; s < access.size(); ++s)
- if (!access[s] || !coaccess[s])
- dstates.push_back(s);
- fst->DeleteStates(dstates);
- fst->SetProperties(kAccessible | kCoAccessible, kAccessible | kCoAccessible);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_CONNECT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/const-fst.h b/kaldi_io/src/tools/openfst/include/fst/const-fst.h
deleted file mode 100644
index e6e85af..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/const-fst.h
+++ /dev/null
@@ -1,497 +0,0 @@
-// const-fst.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Simple concrete immutable FST whose states and arcs are each stored
-// in single arrays.
-
-#ifndef FST_LIB_CONST_FST_H__
-#define FST_LIB_CONST_FST_H__
-
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/expanded-fst.h>
-#include <fst/fst-decl.h> // For optional argument declarations
-#include <fst/mapped-file.h>
-#include <fst/test-properties.h>
-#include <fst/util.h>
-
-
-namespace fst {
-
-template <class A, class U> class ConstFst;
-template <class F, class G> void Cast(const F &, G *);
-
-// States and arcs each implemented by single arrays, templated on the
-// Arc definition. The unsigned type U is used to represent indices into
-// the arc array.
-template <class A, class U>
-class ConstFstImpl : public FstImpl<A> {
- public:
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::Properties;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef U Unsigned;
-
- ConstFstImpl()
- : states_region_(0), arcs_region_(0), states_(0), arcs_(0), nstates_(0),
- narcs_(0), start_(kNoStateId) {
- string type = "const";
- if (sizeof(U) != sizeof(uint32)) {
- string size;
- Int64ToStr(8 * sizeof(U), &size);
- type += size;
- }
- SetType(type);
- SetProperties(kNullProperties | kStaticProperties);
- }
-
- explicit ConstFstImpl(const Fst<A> &fst);
-
- ~ConstFstImpl() {
- delete arcs_region_;
- delete states_region_;
- }
-
- StateId Start() const { return start_; }
-
- Weight Final(StateId s) const { return states_[s].final; }
-
- StateId NumStates() const { return nstates_; }
-
- size_t NumArcs(StateId s) const { return states_[s].narcs; }
-
- size_t NumInputEpsilons(StateId s) const { return states_[s].niepsilons; }
-
- size_t NumOutputEpsilons(StateId s) const { return states_[s].noepsilons; }
-
- static ConstFstImpl<A, U> *Read(istream &strm, const FstReadOptions &opts);
-
- A *Arcs(StateId s) { return arcs_ + states_[s].pos; }
-
- // Provide information needed for generic state iterator
- void InitStateIterator(StateIteratorData<A> *data) const {
- data->base = 0;
- data->nstates = nstates_;
- }
-
- // Provide information needed for the generic arc iterator
- void InitArcIterator(StateId s, ArcIteratorData<A> *data) const {
- data->base = 0;
- data->arcs = arcs_ + states_[s].pos;
- data->narcs = states_[s].narcs;
- data->ref_count = 0;
- }
-
- private:
- friend class ConstFst<A, U>; // Allow finding narcs_, nstates_ during Write
-
- // States implemented by array *states_ below, arcs by (single) *arcs_.
- struct State {
- Weight final; // Final weight
- Unsigned pos; // Start of state's arcs in *arcs_
- Unsigned narcs; // Number of arcs (per state)
- Unsigned niepsilons; // # of input epsilons
- Unsigned noepsilons; // # of output epsilons
- State() : final(Weight::Zero()), niepsilons(0), noepsilons(0) {}
- };
-
- // Properties always true of this Fst class
- static const uint64 kStaticProperties = kExpanded;
- // Current unaligned file format version. The unaligned version was added and
- // made the default since the aligned version does not work on pipes.
- static const int kFileVersion = 2;
- // Current aligned file format version
- static const int kAlignedFileVersion = 1;
- // Minimum file format version supported
- static const int kMinFileVersion = 1;
-
- MappedFile *states_region_; // Mapped file for states
- MappedFile *arcs_region_; // Mapped file for arcs
- State *states_; // States represenation
- A *arcs_; // Arcs representation
- StateId nstates_; // Number of states
- size_t narcs_; // Number of arcs (per FST)
- StateId start_; // Initial state
-
- DISALLOW_COPY_AND_ASSIGN(ConstFstImpl);
-};
-
-template <class A, class U>
-const uint64 ConstFstImpl<A, U>::kStaticProperties;
-template <class A, class U>
-const int ConstFstImpl<A, U>::kFileVersion;
-template <class A, class U>
-const int ConstFstImpl<A, U>::kAlignedFileVersion;
-template <class A, class U>
-const int ConstFstImpl<A, U>::kMinFileVersion;
-
-
-template<class A, class U>
-ConstFstImpl<A, U>::ConstFstImpl(const Fst<A> &fst) : nstates_(0), narcs_(0) {
- string type = "const";
- if (sizeof(U) != sizeof(uint32)) {
- string size;
- Int64ToStr(sizeof(U) * 8, &size);
- type += size;
- }
- SetType(type);
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
- start_ = fst.Start();
-
- // Count # of states and arcs.
- for (StateIterator< Fst<A> > siter(fst);
- !siter.Done();
- siter.Next()) {
- ++nstates_;
- StateId s = siter.Value();
- for (ArcIterator< Fst<A> > aiter(fst, s);
- !aiter.Done();
- aiter.Next())
- ++narcs_;
- }
- states_region_ = MappedFile::Allocate(nstates_ * sizeof(*states_));
- arcs_region_ = MappedFile::Allocate(narcs_ * sizeof(*arcs_));
- states_ = reinterpret_cast<State*>(states_region_->mutable_data());
- arcs_ = reinterpret_cast<A*>(arcs_region_->mutable_data());
- size_t pos = 0;
- for (StateId s = 0; s < nstates_; ++s) {
- states_[s].final = fst.Final(s);
- states_[s].pos = pos;
- states_[s].narcs = 0;
- states_[s].niepsilons = 0;
- states_[s].noepsilons = 0;
- for (ArcIterator< Fst<A> > aiter(fst, s);
- !aiter.Done();
- aiter.Next()) {
- const A &arc = aiter.Value();
- ++states_[s].narcs;
- if (arc.ilabel == 0)
- ++states_[s].niepsilons;
- if (arc.olabel == 0)
- ++states_[s].noepsilons;
- arcs_[pos++] = arc;
- }
- }
- SetProperties(fst.Properties(kCopyProperties, true) | kStaticProperties);
-}
-
-
-template<class A, class U>
-ConstFstImpl<A, U> *ConstFstImpl<A, U>::Read(istream &strm,
- const FstReadOptions &opts) {
- ConstFstImpl<A, U> *impl = new ConstFstImpl<A, U>;
- FstHeader hdr;
- if (!impl->ReadHeader(strm, opts, kMinFileVersion, &hdr)) {
- delete impl;
- return 0;
- }
- impl->start_ = hdr.Start();
- impl->nstates_ = hdr.NumStates();
- impl->narcs_ = hdr.NumArcs();
-
- // Ensures compatibility
- if (hdr.Version() == kAlignedFileVersion)
- hdr.SetFlags(hdr.GetFlags() | FstHeader::IS_ALIGNED);
-
- if ((hdr.GetFlags() & FstHeader::IS_ALIGNED) && !AlignInput(strm)) {
- LOG(ERROR) << "ConstFst::Read: Alignment failed: " << opts.source;
- delete impl;
- return 0;
- }
-
- size_t b = impl->nstates_ * sizeof(typename ConstFstImpl<A, U>::State);
- impl->states_region_ = MappedFile::Map(&strm, opts, b);
- if (!strm || impl->states_region_ == NULL) {
- LOG(ERROR) << "ConstFst::Read: Read failed: " << opts.source;
- delete impl;
- return 0;
- }
- impl->states_ = reinterpret_cast<State*>(
- impl->states_region_->mutable_data());
- if ((hdr.GetFlags() & FstHeader::IS_ALIGNED) && !AlignInput(strm)) {
- LOG(ERROR) << "ConstFst::Read: Alignment failed: " << opts.source;
- delete impl;
- return 0;
- }
-
- b = impl->narcs_ * sizeof(A);
- impl->arcs_region_ = MappedFile::Map(&strm, opts, b);
- if (!strm || impl->arcs_region_ == NULL) {
- LOG(ERROR) << "ConstFst::Read: Read failed: " << opts.source;
- delete impl;
- return 0;
- }
- impl->arcs_ = reinterpret_cast<A*>(impl->arcs_region_->mutable_data());
- return impl;
-}
-
-// Simple concrete immutable FST. This class attaches interface to
-// implementation and handles reference counting, delegating most
-// methods to ImplToExpandedFst. The unsigned type U is used to
-// represent indices into the arc array (uint32 by default, declared
-// in fst-decl.h).
-template <class A, class U>
-class ConstFst : public ImplToExpandedFst< ConstFstImpl<A, U> > {
- public:
- friend class StateIterator< ConstFst<A, U> >;
- friend class ArcIterator< ConstFst<A, U> >;
- template <class F, class G> void friend Cast(const F &, G *);
-
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef ConstFstImpl<A, U> Impl;
- typedef U Unsigned;
-
- ConstFst() : ImplToExpandedFst<Impl>(new Impl()) {}
-
- explicit ConstFst(const Fst<A> &fst)
- : ImplToExpandedFst<Impl>(new Impl(fst)) {}
-
- ConstFst(const ConstFst<A, U> &fst) : ImplToExpandedFst<Impl>(fst) {}
-
- // Get a copy of this ConstFst. See Fst<>::Copy() for further doc.
- virtual ConstFst<A, U> *Copy(bool safe = false) const {
- return new ConstFst<A, U>(*this);
- }
-
- // Read a ConstFst from an input stream; return NULL on error
- static ConstFst<A, U> *Read(istream &strm, const FstReadOptions &opts) {
- Impl* impl = Impl::Read(strm, opts);
- return impl ? new ConstFst<A, U>(impl) : 0;
- }
-
- // Read a ConstFst from a file; return NULL on error
- // Empty filename reads from standard input
- static ConstFst<A, U> *Read(const string &filename) {
- Impl* impl = ImplToExpandedFst<Impl>::Read(filename);
- return impl ? new ConstFst<A, U>(impl) : 0;
- }
-
- virtual bool Write(ostream &strm, const FstWriteOptions &opts) const {
- return WriteFst(*this, strm, opts);
- }
-
- virtual bool Write(const string &filename) const {
- return Fst<A>::WriteFile(filename);
- }
-
- template <class F>
- static bool WriteFst(const F &fst, ostream &strm,
- const FstWriteOptions &opts);
-
- virtual void InitStateIterator(StateIteratorData<Arc> *data) const {
- GetImpl()->InitStateIterator(data);
- }
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<Arc> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- private:
- explicit ConstFst(Impl *impl) : ImplToExpandedFst<Impl>(impl) {}
-
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl, ExpandedFst<A> >::GetImpl(); }
-
- void SetImpl(Impl *impl, bool own_impl = true) {
- ImplToFst< Impl, ExpandedFst<A> >::SetImpl(impl, own_impl);
- }
-
- // Use overloading to extract the type of the argument.
- static Impl* GetImplIfConstFst(const ConstFst &const_fst) {
- return const_fst.GetImpl();
- }
-
- // Note that this does not give privileged treatment to subtypes of ConstFst.
- template<typename NonConstFst>
- static Impl* GetImplIfConstFst(const NonConstFst& fst) {
- return NULL;
- }
-
- void operator=(const ConstFst<A, U> &fst); // disallow
-};
-
-// Writes Fst in Const format, potentially with a pass over the machine
-// before writing to compute number of states and arcs.
-//
-template <class A, class U>
-template <class F>
-bool ConstFst<A, U>::WriteFst(const F &fst, ostream &strm,
- const FstWriteOptions &opts) {
- int file_version = opts.align ? ConstFstImpl<A, U>::kAlignedFileVersion :
- ConstFstImpl<A, U>::kFileVersion;
- size_t num_arcs = -1, num_states = -1;
- size_t start_offset = 0;
- bool update_header = true;
- if (Impl* impl = GetImplIfConstFst(fst)) {
- num_arcs = impl->narcs_;
- num_states = impl->nstates_;
- update_header = false;
- } else if ((start_offset = strm.tellp()) == -1) {
- // precompute values needed for header when we cannot seek to rewrite it.
- num_arcs = 0;
- num_states = 0;
- for (StateIterator<F> siter(fst); !siter.Done(); siter.Next()) {
- num_arcs += fst.NumArcs(siter.Value());
- ++num_states;
- }
- update_header = false;
- }
- FstHeader hdr;
- hdr.SetStart(fst.Start());
- hdr.SetNumStates(num_states);
- hdr.SetNumArcs(num_arcs);
- string type = "const";
- if (sizeof(U) != sizeof(uint32)) {
- string size;
- Int64ToStr(8 * sizeof(U), &size);
- type += size;
- }
- uint64 properties = fst.Properties(kCopyProperties, true) |
- ConstFstImpl<A, U>::kStaticProperties;
- FstImpl<A>::WriteFstHeader(fst, strm, opts, file_version, type, properties,
- &hdr);
- if (opts.align && !AlignOutput(strm)) {
- LOG(ERROR) << "Could not align file during write after header";
- return false;
- }
- size_t pos = 0, states = 0;
- typename ConstFstImpl<A, U>::State state;
- for (StateIterator<F> siter(fst); !siter.Done(); siter.Next()) {
- state.final = fst.Final(siter.Value());
- state.pos = pos;
- state.narcs = fst.NumArcs(siter.Value());
- state.niepsilons = fst.NumInputEpsilons(siter.Value());
- state.noepsilons = fst.NumOutputEpsilons(siter.Value());
- strm.write(reinterpret_cast<const char *>(&state), sizeof(state));
- pos += state.narcs;
- ++states;
- }
- hdr.SetNumStates(states);
- hdr.SetNumArcs(pos);
- if (opts.align && !AlignOutput(strm)) {
- LOG(ERROR) << "Could not align file during write after writing states";
- }
- for (StateIterator<F> siter(fst); !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- for (ArcIterator<F> aiter(fst, s); !aiter.Done(); aiter.Next()) {
- const A &arc = aiter.Value();
- strm.write(reinterpret_cast<const char *>(&arc), sizeof(arc));
- }
- }
- strm.flush();
- if (!strm) {
- LOG(ERROR) << "ConstFst Write write failed: " << opts.source;
- return false;
- }
- if (update_header) {
- return FstImpl<A>::UpdateFstHeader(fst, strm, opts, file_version, type,
- properties, &hdr, start_offset);
- } else {
- if (hdr.NumStates() != num_states) {
- LOG(ERROR) << "Inconsistent number of states observed during write";
- return false;
- }
- if (hdr.NumArcs() != num_arcs) {
- LOG(ERROR) << "Inconsistent number of arcs observed during write";
- return false;
- }
- }
- return true;
-}
-
-// Specialization for ConstFst; see generic version in fst.h
-// for sample usage (but use the ConstFst type!). This version
-// should inline.
-template <class A, class U>
-class StateIterator< ConstFst<A, U> > {
- public:
- typedef typename A::StateId StateId;
-
- explicit StateIterator(const ConstFst<A, U> &fst)
- : nstates_(fst.GetImpl()->NumStates()), s_(0) {}
-
- bool Done() const { return s_ >= nstates_; }
-
- StateId Value() const { return s_; }
-
- void Next() { ++s_; }
-
- void Reset() { s_ = 0; }
-
- private:
- StateId nstates_;
- StateId s_;
-
- DISALLOW_COPY_AND_ASSIGN(StateIterator);
-};
-
-
-// Specialization for ConstFst; see generic version in fst.h
-// for sample usage (but use the ConstFst type!). This version
-// should inline.
-template <class A, class U>
-class ArcIterator< ConstFst<A, U> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const ConstFst<A, U> &fst, StateId s)
- : arcs_(fst.GetImpl()->Arcs(s)),
- narcs_(fst.GetImpl()->NumArcs(s)), i_(0) {}
-
- bool Done() const { return i_ >= narcs_; }
-
- const A& Value() const { return arcs_[i_]; }
-
- void Next() { ++i_; }
-
- size_t Position() const { return i_; }
-
- void Reset() { i_ = 0; }
-
- void Seek(size_t a) { i_ = a; }
-
- uint32 Flags() const {
- return kArcValueFlags;
- }
-
- void SetFlags(uint32 f, uint32 m) {}
-
- private:
- const A *arcs_;
- size_t narcs_;
- size_t i_;
-
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-// A useful alias when using StdArc.
-typedef ConstFst<StdArc> StdConstFst;
-
-} // namespace fst
-
-#endif // FST_LIB_CONST_FST_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/determinize.h b/kaldi_io/src/tools/openfst/include/fst/determinize.h
deleted file mode 100644
index 9ff8723..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/determinize.h
+++ /dev/null
@@ -1,1015 +0,0 @@
-// determinize.h
-
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Functions and classes to determinize an FST.
-
-#ifndef FST_LIB_DETERMINIZE_H__
-#define FST_LIB_DETERMINIZE_H__
-
-#include <algorithm>
-#include <climits>
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <map>
-#include <fst/slist.h>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/arc-map.h>
-#include <fst/cache.h>
-#include <fst/bi-table.h>
-#include <fst/factor-weight.h>
-#include <fst/prune.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-//
-// COMMON DIVISORS - these are used in determinization to compute
-// the transition weights. In the simplest case, it is just the same
-// as the semiring Plus(). However, other choices permit more efficient
-// determinization when the output contains strings.
-//
-
-// The default common divisor uses the semiring Plus.
-template <class W>
-class DefaultCommonDivisor {
- public:
- typedef W Weight;
-
- W operator()(const W &w1, const W &w2) const { return Plus(w1, w2); }
-};
-
-
-// The label common divisor for a (left) string semiring selects a
-// single letter common prefix or the empty string. This is used in
-// the determinization of output strings so that at most a single
-// letter will appear in the output of a transtion.
-template <typename L, StringType S>
-class LabelCommonDivisor {
- public:
- typedef StringWeight<L, S> Weight;
-
- Weight operator()(const Weight &w1, const Weight &w2) const {
- StringWeightIterator<L, S> iter1(w1);
- StringWeightIterator<L, S> iter2(w2);
-
- if (!(StringWeight<L, S>::Properties() & kLeftSemiring)) {
- FSTERROR() << "LabelCommonDivisor: Weight needs to be left semiring";
- return Weight::NoWeight();
- } else if (w1.Size() == 0 || w2.Size() == 0) {
- return Weight::One();
- } else if (w1 == Weight::Zero()) {
- return Weight(iter2.Value());
- } else if (w2 == Weight::Zero()) {
- return Weight(iter1.Value());
- } else if (iter1.Value() == iter2.Value()) {
- return Weight(iter1.Value());
- } else {
- return Weight::One();
- }
- }
-};
-
-
-// The gallic common divisor uses the label common divisor on the
-// string component and the template argument D common divisor on the
-// weight component, which defaults to the default common divisor.
-template <class L, class W, StringType S, class D = DefaultCommonDivisor<W> >
-class GallicCommonDivisor {
- public:
- typedef GallicWeight<L, W, S> Weight;
-
- Weight operator()(const Weight &w1, const Weight &w2) const {
- return Weight(label_common_divisor_(w1.Value1(), w2.Value1()),
- weight_common_divisor_(w1.Value2(), w2.Value2()));
- }
-
- private:
- LabelCommonDivisor<L, S> label_common_divisor_;
- D weight_common_divisor_;
-};
-
-
-// Represents an element in a subset
-template <class A>
-struct DeterminizeElement {
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- DeterminizeElement() {}
-
- DeterminizeElement(StateId s, Weight w) : state_id(s), weight(w) {}
-
- bool operator==(const DeterminizeElement<A> & element) const {
- return state_id == element.state_id && weight == element.weight;
- }
-
- bool operator<(const DeterminizeElement<A> & element) const {
- return state_id < element.state_id ||
- (state_id == element.state_id && weight == element.weight);
- }
-
- StateId state_id; // Input state Id
- Weight weight; // Residual weight
-};
-
-
-//
-// DETERMINIZE FILTERS - these can be used in determinization to compute
-// transformations on the subsets prior to their being added as destination
-// states. The filter operates on a map between a label and the
-// corresponding destination subsets. The possibly modified map is
-// then used to construct the destination states for arcs exiting state 's'.
-// It must define the ordered map type LabelMap and have a default
-// and copy constructor.
-
-// A determinize filter that does not modify its input.
-template <class Arc>
-struct IdentityDeterminizeFilter {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef slist< DeterminizeElement<Arc> > Subset;
- typedef map<Label, Subset*> LabelMap;
-
- static uint64 Properties(uint64 props) { return props; }
-
- void operator()(StateId s, LabelMap *label_map) {}
-};
-
-
-//
-// DETERMINIZATION STATE TABLES
-//
-// The determiziation state table has the form:
-//
-// template <class Arc>
-// class DeterminizeStateTable {
-// public:
-// typedef typename Arc::StateId StateId;
-// typedef DeterminizeElement<Arc> Element;
-// typedef slist<Element> Subset;
-//
-// // Required constuctor
-// DeterminizeStateTable();
-//
-// // Required copy constructor that does not copy state
-// DeterminizeStateTable(const DeterminizeStateTable<A,P> &table);
-//
-// // Lookup state ID by subset (not depending of the element order).
-// // If it doesn't exist, then add it. FindState takes
-// // ownership of the subset argument (so that it doesn't have to
-// // copy it if it creates a new state).
-// StateId FindState(Subset *subset);
-//
-// // Lookup subset by ID.
-// const Subset *FindSubset(StateId id) const;
-// };
-//
-
-// The default determinization state table based on the
-// compact hash bi-table.
-template <class Arc>
-class DefaultDeterminizeStateTable {
- public:
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef DeterminizeElement<Arc> Element;
- typedef slist<Element> Subset;
-
- explicit DefaultDeterminizeStateTable(size_t table_size = 0)
- : table_size_(table_size),
- subsets_(table_size_, new SubsetKey(), new SubsetEqual(&elements_)) { }
-
- DefaultDeterminizeStateTable(const DefaultDeterminizeStateTable<Arc> &table)
- : table_size_(table.table_size_),
- subsets_(table_size_, new SubsetKey(), new SubsetEqual(&elements_)) { }
-
- ~DefaultDeterminizeStateTable() {
- for (StateId s = 0; s < subsets_.Size(); ++s)
- delete subsets_.FindEntry(s);
- }
-
- // Finds the state corresponding to a subset. Only creates a new
- // state if the subset is not found. FindState takes ownership of
- // the subset argument (so that it doesn't have to copy it if it
- // creates a new state).
- StateId FindState(Subset *subset) {
- StateId ns = subsets_.Size();
- StateId s = subsets_.FindId(subset);
- if (s != ns) delete subset; // subset found
- return s;
- }
-
- const Subset* FindSubset(StateId s) { return subsets_.FindEntry(s); }
-
- private:
- // Comparison object for hashing Subset(s). Subsets are not sorted in this
- // implementation, so ordering must not be assumed in the equivalence
- // test.
- class SubsetEqual {
- public:
- SubsetEqual() { // needed for compilation but should never be called
- FSTERROR() << "SubsetEqual: default constructor not implemented";
- }
-
- // Constructor takes vector needed to check equality. See immediately
- // below for constraints on it.
- explicit SubsetEqual(vector<Element *> *elements)
- : elements_(elements) {}
-
- // At each call to operator(), the elements_ vector should contain
- // only NULLs. When this operator returns, elements_ will still
- // have this property.
- bool operator()(Subset* subset1, Subset* subset2) const {
- if (!subset1 && !subset2)
- return true;
- if ((subset1 && !subset2) || (!subset1 && subset2))
- return false;
-
- if (subset1->size() != subset2->size())
- return false;
-
- // Loads first subset elements in element vector.
- for (typename Subset::iterator iter1 = subset1->begin();
- iter1 != subset1->end();
- ++iter1) {
- Element &element1 = *iter1;
- while (elements_->size() <= element1.state_id)
- elements_->push_back(0);
- (*elements_)[element1.state_id] = &element1;
- }
-
- // Checks second subset matches first via element vector.
- for (typename Subset::iterator iter2 = subset2->begin();
- iter2 != subset2->end();
- ++iter2) {
- Element &element2 = *iter2;
- while (elements_->size() <= element2.state_id)
- elements_->push_back(0);
- Element *element1 = (*elements_)[element2.state_id];
- if (!element1 || element1->weight != element2.weight) {
- // Mismatch found. Resets element vector before returning false.
- for (typename Subset::iterator iter1 = subset1->begin();
- iter1 != subset1->end();
- ++iter1)
- (*elements_)[iter1->state_id] = 0;
- return false;
- } else {
- (*elements_)[element2.state_id] = 0; // Clears entry
- }
- }
- return true;
- }
- private:
- vector<Element *> *elements_;
- };
-
- // Hash function for Subset to Fst states. Subset elements are not
- // sorted in this implementation, so the hash must be invariant
- // under subset reordering.
- class SubsetKey {
- public:
- size_t operator()(const Subset* subset) const {
- size_t hash = 0;
- if (subset) {
- for (typename Subset::const_iterator iter = subset->begin();
- iter != subset->end();
- ++iter) {
- const Element &element = *iter;
- int lshift = element.state_id % (CHAR_BIT * sizeof(size_t) - 1) + 1;
- int rshift = CHAR_BIT * sizeof(size_t) - lshift;
- size_t n = element.state_id;
- hash ^= n << lshift ^ n >> rshift ^ element.weight.Hash();
- }
- }
- return hash;
- }
- };
-
- size_t table_size_;
-
- typedef CompactHashBiTable<StateId, Subset *,
- SubsetKey, SubsetEqual, HS_STL> SubsetTable;
-
- SubsetTable subsets_;
- vector<Element *> elements_;
-
- void operator=(const DefaultDeterminizeStateTable<Arc> &); // disallow
-};
-
-// Options for finite-state transducer determinization templated on
-// the arc type, common divisor, the determinization filter and the
-// state table. DeterminizeFst takes ownership of the determinization
-// filter and state table if provided.
-template <class Arc,
- class D = DefaultCommonDivisor<typename Arc::Weight>,
- class F = IdentityDeterminizeFilter<Arc>,
- class T = DefaultDeterminizeStateTable<Arc> >
-struct DeterminizeFstOptions : CacheOptions {
- typedef typename Arc::Label Label;
- float delta; // Quantization delta for subset weights
- Label subsequential_label; // Label used for residual final output
- // when producing subsequential transducers.
- F *filter; // Determinization filter
- T *state_table; // Determinization state table
-
- explicit DeterminizeFstOptions(const CacheOptions &opts,
- float del = kDelta, Label lab = 0,
- F *filt = 0,
- T *table = 0)
- : CacheOptions(opts), delta(del), subsequential_label(lab),
- filter(filt), state_table(table) {}
-
- explicit DeterminizeFstOptions(float del = kDelta, Label lab = 0,
- F *filt = 0, T *table = 0)
- : delta(del), subsequential_label(lab), filter(filt),
- state_table(table) {}
-};
-
-// Implementation of delayed DeterminizeFst. This base class is
-// common to the variants that implement acceptor and transducer
-// determinization.
-template <class A>
-class DeterminizeFstImplBase : public CacheImpl<A> {
- public:
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::Properties;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
-
- using CacheBaseImpl< CacheState<A> >::HasStart;
- using CacheBaseImpl< CacheState<A> >::HasFinal;
- using CacheBaseImpl< CacheState<A> >::HasArcs;
- using CacheBaseImpl< CacheState<A> >::SetFinal;
- using CacheBaseImpl< CacheState<A> >::SetStart;
-
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
-
- template <class D, class F, class T>
- DeterminizeFstImplBase(const Fst<A> &fst,
- const DeterminizeFstOptions<A, D, F, T> &opts)
- : CacheImpl<A>(opts), fst_(fst.Copy()) {
- SetType("determinize");
- uint64 iprops = fst.Properties(kFstProperties, false);
- uint64 dprops = DeterminizeProperties(iprops,
- opts.subsequential_label != 0);
- SetProperties(F::Properties(dprops), kCopyProperties);
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
- }
-
- DeterminizeFstImplBase(const DeterminizeFstImplBase<A> &impl)
- : CacheImpl<A>(impl),
- fst_(impl.fst_->Copy(true)) {
- SetType("determinize");
- SetProperties(impl.Properties(), kCopyProperties);
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- }
-
- virtual ~DeterminizeFstImplBase() { delete fst_; }
-
- virtual DeterminizeFstImplBase<A> *Copy() = 0;
-
- StateId Start() {
- if (!HasStart()) {
- StateId start = ComputeStart();
- if (start != kNoStateId) {
- SetStart(start);
- }
- }
- return CacheImpl<A>::Start();
- }
-
- Weight Final(StateId s) {
- if (!HasFinal(s)) {
- Weight final = ComputeFinal(s);
- SetFinal(s, final);
- }
- return CacheImpl<A>::Final(s);
- }
-
- virtual void Expand(StateId s) = 0;
-
- size_t NumArcs(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumArcs(s);
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumOutputEpsilons(s);
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<A> *data) {
- if (!HasArcs(s))
- Expand(s);
- CacheImpl<A>::InitArcIterator(s, data);
- }
-
- virtual StateId ComputeStart() = 0;
-
- virtual Weight ComputeFinal(StateId s) = 0;
-
- const Fst<A> &GetFst() const { return *fst_; }
-
- private:
- const Fst<A> *fst_; // Input Fst
-
- void operator=(const DeterminizeFstImplBase<A> &); // disallow
-};
-
-
-// Implementation of delayed determinization for weighted acceptors.
-// It is templated on the arc type A and the common divisor D.
-template <class A, class D, class F, class T>
-class DeterminizeFsaImpl : public DeterminizeFstImplBase<A> {
- public:
- using FstImpl<A>::SetProperties;
- using DeterminizeFstImplBase<A>::GetFst;
- using DeterminizeFstImplBase<A>::SetArcs;
-
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef DeterminizeElement<A> Element;
- typedef slist<Element> Subset;
- typedef typename F::LabelMap LabelMap;
-
- DeterminizeFsaImpl(const Fst<A> &fst,
- const vector<Weight> *in_dist, vector<Weight> *out_dist,
- const DeterminizeFstOptions<A, D, F, T> &opts)
- : DeterminizeFstImplBase<A>(fst, opts),
- delta_(opts.delta),
- in_dist_(in_dist),
- out_dist_(out_dist),
- filter_(opts.filter ? opts.filter : new F()),
- state_table_(opts.state_table ? opts.state_table : new T()) {
- if (!fst.Properties(kAcceptor, true)) {
- FSTERROR() << "DeterminizeFst: argument not an acceptor";
- SetProperties(kError, kError);
- }
- if (!(Weight::Properties() & kLeftSemiring)) {
- FSTERROR() << "DeterminizeFst: Weight needs to be left distributive: "
- << Weight::Type();
- SetProperties(kError, kError);
- }
- if (out_dist_)
- out_dist_->clear();
- }
-
- DeterminizeFsaImpl(const DeterminizeFsaImpl<A, D, F, T> &impl)
- : DeterminizeFstImplBase<A>(impl),
- delta_(impl.delta_),
- in_dist_(0),
- out_dist_(0),
- filter_(new F(*impl.filter_)),
- state_table_(new T(*impl.state_table_)) {
- if (impl.out_dist_) {
- FSTERROR() << "DeterminizeFsaImpl: cannot copy with out_dist vector";
- SetProperties(kError, kError);
- }
- }
-
- virtual ~DeterminizeFsaImpl() {
- delete filter_;
- delete state_table_;
- }
-
- virtual DeterminizeFsaImpl<A, D, F, T> *Copy() {
- return new DeterminizeFsaImpl<A, D, F, T>(*this);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) && (GetFst().Properties(kError, false)))
- SetProperties(kError, kError);
- return FstImpl<A>::Properties(mask);
- }
-
- virtual StateId ComputeStart() {
- StateId s = GetFst().Start();
- if (s == kNoStateId)
- return kNoStateId;
- Element element(s, Weight::One());
- Subset *subset = new Subset;
- subset->push_front(element);
- return FindState(subset);
- }
-
- virtual Weight ComputeFinal(StateId s) {
- const Subset *subset = state_table_->FindSubset(s);
- Weight final = Weight::Zero();
- for (typename Subset::const_iterator siter = subset->begin();
- siter != subset->end();
- ++siter) {
- const Element &element = *siter;
- final = Plus(final, Times(element.weight,
- GetFst().Final(element.state_id)));
- if (!final.Member())
- SetProperties(kError, kError);
- }
- return final;
- }
-
- StateId FindState(Subset *subset) {
- StateId s = state_table_->FindState(subset);
- if (in_dist_ && out_dist_->size() <= s)
- out_dist_->push_back(ComputeDistance(subset));
- return s;
- }
-
- // Compute distance from a state to the final states in the DFA
- // given the distances in the NFA.
- Weight ComputeDistance(const Subset *subset) {
- Weight outd = Weight::Zero();
- for (typename Subset::const_iterator siter = subset->begin();
- siter != subset->end(); ++siter) {
- const Element &element = *siter;
- Weight ind = element.state_id < in_dist_->size() ?
- (*in_dist_)[element.state_id] : Weight::Zero();
- outd = Plus(outd, Times(element.weight, ind));
- }
- return outd;
- }
-
- // Computes the outgoing transitions from a state, creating new destination
- // states as needed.
- virtual void Expand(StateId s) {
-
- LabelMap label_map;
- LabelSubsets(s, &label_map);
-
- for (typename LabelMap::iterator liter = label_map.begin();
- liter != label_map.end();
- ++liter)
- AddArc(s, liter->first, liter->second);
- SetArcs(s);
- }
-
- private:
- // Constructs destination subsets per label. At return, subset
- // element weights include the input automaton label weights and the
- // subsets may contain duplicate states.
- void LabelSubsets(StateId s, LabelMap *label_map) {
- const Subset *src_subset = state_table_->FindSubset(s);
-
- for (typename Subset::const_iterator siter = src_subset->begin();
- siter != src_subset->end();
- ++siter) {
- const Element &src_element = *siter;
- for (ArcIterator< Fst<A> > aiter(GetFst(), src_element.state_id);
- !aiter.Done();
- aiter.Next()) {
- const A &arc = aiter.Value();
- Element dest_element(arc.nextstate,
- Times(src_element.weight, arc.weight));
-
- // The LabelMap may be a e.g. multimap with more complex
- // determinization filters, so we insert efficiently w/o using [].
- typename LabelMap::iterator liter = label_map->lower_bound(arc.ilabel);
- Subset* dest_subset;
- if (liter == label_map->end() || liter->first != arc.ilabel) {
- dest_subset = new Subset;
- label_map->insert(liter, make_pair(arc.ilabel, dest_subset));
- } else {
- dest_subset = liter->second;
- }
-
- dest_subset->push_front(dest_element);
- }
- }
- // Applies the determinization filter
- (*filter_)(s, label_map);
- }
-
- // Adds an arc from state S to the destination state associated
- // with subset DEST_SUBSET (as created by LabelSubsets).
- void AddArc(StateId s, Label label, Subset *dest_subset) {
- A arc;
- arc.ilabel = label;
- arc.olabel = label;
- arc.weight = Weight::Zero();
-
- typename Subset::iterator oiter;
- for (typename Subset::iterator diter = dest_subset->begin();
- diter != dest_subset->end();) {
- Element &dest_element = *diter;
- // Computes label weight.
- arc.weight = common_divisor_(arc.weight, dest_element.weight);
-
- while (elements_.size() <= dest_element.state_id)
- elements_.push_back(0);
- Element *matching_element = elements_[dest_element.state_id];
- if (matching_element) {
- // Found duplicate state: sums state weight and deletes dup.
- matching_element->weight = Plus(matching_element->weight,
- dest_element.weight);
- if (!matching_element->weight.Member())
- SetProperties(kError, kError);
- ++diter;
- dest_subset->erase_after(oiter);
- } else {
- // Saves element so we can check for duplicate for this state.
- elements_[dest_element.state_id] = &dest_element;
- oiter = diter;
- ++diter;
- }
- }
-
- // Divides out label weight from destination subset elements.
- // Quantizes to ensure comparisons are effective.
- // Clears element vector.
- for (typename Subset::iterator diter = dest_subset->begin();
- diter != dest_subset->end();
- ++diter) {
- Element &dest_element = *diter;
- dest_element.weight = Divide(dest_element.weight, arc.weight,
- DIVIDE_LEFT);
- dest_element.weight = dest_element.weight.Quantize(delta_);
- elements_[dest_element.state_id] = 0;
- }
-
- arc.nextstate = FindState(dest_subset);
- CacheImpl<A>::PushArc(s, arc);
- }
-
- float delta_; // Quantization delta for subset weights
- const vector<Weight> *in_dist_; // Distance to final NFA states
- vector<Weight> *out_dist_; // Distance to final DFA states
-
- D common_divisor_;
- F *filter_;
- T *state_table_;
-
- vector<Element *> elements_;
-
- void operator=(const DeterminizeFsaImpl<A, D, F, T> &); // disallow
-};
-
-
-// Implementation of delayed determinization for transducers.
-// Transducer determinization is implemented by mapping the input to
-// the Gallic semiring as an acceptor whose weights contain the output
-// strings and using acceptor determinization above to determinize
-// that acceptor.
-template <class A, StringType S, class D, class F, class T>
-class DeterminizeFstImpl : public DeterminizeFstImplBase<A> {
- public:
- using FstImpl<A>::SetProperties;
- using DeterminizeFstImplBase<A>::GetFst;
- using CacheBaseImpl< CacheState<A> >::GetCacheGc;
- using CacheBaseImpl< CacheState<A> >::GetCacheLimit;
-
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- typedef ToGallicMapper<A, S> ToMapper;
- typedef FromGallicMapper<A, S> FromMapper;
-
- typedef typename ToMapper::ToArc ToArc;
- typedef ArcMapFst<A, ToArc, ToMapper> ToFst;
- typedef ArcMapFst<ToArc, A, FromMapper> FromFst;
-
- typedef GallicCommonDivisor<Label, Weight, S, D> CommonDivisor;
- typedef GallicFactor<Label, Weight, S> FactorIterator;
-
- DeterminizeFstImpl(const Fst<A> &fst,
- const DeterminizeFstOptions<A, D, F, T> &opts)
- : DeterminizeFstImplBase<A>(fst, opts),
- delta_(opts.delta),
- subsequential_label_(opts.subsequential_label) {
- Init(GetFst());
- }
-
- DeterminizeFstImpl(const DeterminizeFstImpl<A, S, D, F, T> &impl)
- : DeterminizeFstImplBase<A>(impl),
- delta_(impl.delta_),
- subsequential_label_(impl.subsequential_label_) {
- Init(GetFst());
- }
-
- ~DeterminizeFstImpl() { delete from_fst_; }
-
- virtual DeterminizeFstImpl<A, S, D, F, T> *Copy() {
- return new DeterminizeFstImpl<A, S, D, F, T>(*this);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) && (GetFst().Properties(kError, false) ||
- from_fst_->Properties(kError, false)))
- SetProperties(kError, kError);
- return FstImpl<A>::Properties(mask);
- }
-
- virtual StateId ComputeStart() { return from_fst_->Start(); }
-
- virtual Weight ComputeFinal(StateId s) { return from_fst_->Final(s); }
-
- virtual void Expand(StateId s) {
- for (ArcIterator<FromFst> aiter(*from_fst_, s);
- !aiter.Done();
- aiter.Next())
- CacheImpl<A>::PushArc(s, aiter.Value());
- CacheImpl<A>::SetArcs(s);
- }
-
- private:
- // Initialization of transducer determinization implementation, which
- // is defined after DeterminizeFst since it calls it.
- void Init(const Fst<A> &fst);
-
- float delta_;
- Label subsequential_label_;
- FromFst *from_fst_;
-
- void operator=(const DeterminizeFstImpl<A, S, D, F, T> &); // disallow
-};
-
-
-// Determinizes a weighted transducer. This version is a delayed
-// Fst. The result will be an equivalent FST that has the property
-// that no state has two transitions with the same input label.
-// For this algorithm, epsilon transitions are treated as regular
-// symbols (cf. RmEpsilon).
-//
-// The transducer must be functional. The weights must be (weakly)
-// left divisible (valid for TropicalWeight and LogWeight for instance)
-// and be zero-sum-free if for all a,b: (Plus(a, b) = 0 => a = b = 0.
-//
-// Complexity:
-// - Determinizable: exponential (polynomial in the size of the output)
-// - Non-determinizable) does not terminate
-//
-// The determinizable automata include all unweighted and all acyclic input.
-//
-// References:
-// - Mehryar Mohri, "Finite-State Transducers in Language and Speech
-// Processing". Computational Linguistics, 23:2, 1997.
-//
-// This class attaches interface to implementation and handles
-// reference counting, delegating most methods to ImplToFst.
-template <class A>
-class DeterminizeFst : public ImplToFst< DeterminizeFstImplBase<A> > {
- public:
- friend class ArcIterator< DeterminizeFst<A> >;
- friend class StateIterator< DeterminizeFst<A> >;
- template <class B, StringType S, class D, class F, class T>
- friend class DeterminizeFstImpl;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef CacheState<A> State;
- typedef DeterminizeFstImplBase<A> Impl;
-
- using ImplToFst<Impl>::SetImpl;
-
- explicit DeterminizeFst(const Fst<A> &fst) {
- typedef DefaultCommonDivisor<Weight> D;
- typedef IdentityDeterminizeFilter<A> F;
- typedef DefaultDeterminizeStateTable<A> T;
- DeterminizeFstOptions<A, D, F, T> opts;
- if (fst.Properties(kAcceptor, true)) {
- // Calls implementation for acceptors.
- SetImpl(new DeterminizeFsaImpl<A, D, F, T>(fst, 0, 0, opts));
- } else {
- // Calls implementation for transducers.
- SetImpl(new
- DeterminizeFstImpl<A, STRING_LEFT_RESTRICT, D, F, T>(fst, opts));
- }
- }
-
- template <class D, class F, class T>
- DeterminizeFst(const Fst<A> &fst,
- const DeterminizeFstOptions<A, D, F, T> &opts) {
- if (fst.Properties(kAcceptor, true)) {
- // Calls implementation for acceptors.
- SetImpl(new DeterminizeFsaImpl<A, D, F, T>(fst, 0, 0, opts));
- } else {
- // Calls implementation for transducers.
- SetImpl(new
- DeterminizeFstImpl<A, STRING_LEFT_RESTRICT, D, F, T>(fst, opts));
- }
- }
-
- // This acceptor-only version additionally computes the distance to
- // final states in the output if provided with those distances for the
- // input. Useful for e.g. unique N-shortest paths.
- template <class D, class F, class T>
- DeterminizeFst(const Fst<A> &fst,
- const vector<Weight> *in_dist, vector<Weight> *out_dist,
- const DeterminizeFstOptions<A, D, F, T> &opts) {
- if (!fst.Properties(kAcceptor, true)) {
- FSTERROR() << "DeterminizeFst:"
- << " distance to final states computed for acceptors only";
- GetImpl()->SetProperties(kError, kError);
- }
- SetImpl(new DeterminizeFsaImpl<A, D, F, T>(fst, in_dist, out_dist, opts));
- }
-
- // See Fst<>::Copy() for doc.
- DeterminizeFst(const DeterminizeFst<A> &fst, bool safe = false) {
- if (safe)
- SetImpl(fst.GetImpl()->Copy());
- else
- SetImpl(fst.GetImpl(), false);
- }
-
- // Get a copy of this DeterminizeFst. See Fst<>::Copy() for further doc.
- virtual DeterminizeFst<A> *Copy(bool safe = false) const {
- return new DeterminizeFst<A>(*this, safe);
- }
-
- virtual inline void InitStateIterator(StateIteratorData<A> *data) const;
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<A> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const DeterminizeFst<A> &fst); // Disallow
-};
-
-
-// Initialization of transducer determinization implementation. which
-// is defined after DeterminizeFst since it calls it.
-template <class A, StringType S, class D, class F, class T>
-void DeterminizeFstImpl<A, S, D, F, T>::Init(const Fst<A> &fst) {
- // Mapper to an acceptor.
- ToFst to_fst(fst, ToMapper());
-
- // Determinizes acceptor.
- // This recursive call terminates since it passes the common divisor
- // to a private constructor.
- CacheOptions copts(GetCacheGc(), GetCacheLimit());
- DeterminizeFstOptions<ToArc, CommonDivisor> dopts(copts, delta_);
- // Uses acceptor-only constructor to avoid template recursion
- DeterminizeFst<ToArc> det_fsa(to_fst, 0, 0, dopts);
-
- // Mapper back to transducer.
- FactorWeightOptions<ToArc> fopts(CacheOptions(true, 0), delta_,
- kFactorFinalWeights,
- subsequential_label_,
- subsequential_label_);
- FactorWeightFst<ToArc, FactorIterator> factored_fst(det_fsa, fopts);
- from_fst_ = new FromFst(factored_fst, FromMapper(subsequential_label_));
-}
-
-
-// Specialization for DeterminizeFst.
-template <class A>
-class StateIterator< DeterminizeFst<A> >
- : public CacheStateIterator< DeterminizeFst<A> > {
- public:
- explicit StateIterator(const DeterminizeFst<A> &fst)
- : CacheStateIterator< DeterminizeFst<A> >(fst, fst.GetImpl()) {}
-};
-
-
-// Specialization for DeterminizeFst.
-template <class A>
-class ArcIterator< DeterminizeFst<A> >
- : public CacheArcIterator< DeterminizeFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const DeterminizeFst<A> &fst, StateId s)
- : CacheArcIterator< DeterminizeFst<A> >(fst.GetImpl(), s) {
- if (!fst.GetImpl()->HasArcs(s))
- fst.GetImpl()->Expand(s);
- }
-
- private:
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-
-template <class A> inline
-void DeterminizeFst<A>::InitStateIterator(StateIteratorData<A> *data) const
-{
- data->base = new StateIterator< DeterminizeFst<A> >(*this);
-}
-
-
-// Useful aliases when using StdArc.
-typedef DeterminizeFst<StdArc> StdDeterminizeFst;
-
-
-template <class Arc>
-struct DeterminizeOptions {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::Label Label;
-
- float delta; // Quantization delta for subset weights.
- Weight weight_threshold; // Pruning weight threshold.
- StateId state_threshold; // Pruning state threshold.
- Label subsequential_label; // Label used for residual final output
- // when producing subsequential transducers.
-
- explicit DeterminizeOptions(float d = kDelta, Weight w = Weight::Zero(),
- StateId n = kNoStateId, Label l = 0)
- : delta(d), weight_threshold(w), state_threshold(n),
- subsequential_label(l) {}
-};
-
-
-// Determinizes a weighted transducer. This version writes the
-// determinized Fst to an output MutableFst. The result will be an
-// equivalent FST that has the property that no state has two
-// transitions with the same input label. For this algorithm, epsilon
-// transitions are treated as regular symbols (cf. RmEpsilon).
-//
-// The transducer must be functional. The weights must be (weakly)
-// left divisible (valid for TropicalWeight and LogWeight).
-//
-// Complexity:
-// - Determinizable: exponential (polynomial in the size of the output)
-// - Non-determinizable: does not terminate
-//
-// The determinizable automata include all unweighted and all acyclic input.
-//
-// References:
-// - Mehryar Mohri, "Finite-State Transducers in Language and Speech
-// Processing". Computational Linguistics, 23:2, 1997.
-template <class Arc>
-void Determinize(const Fst<Arc> &ifst, MutableFst<Arc> *ofst,
- const DeterminizeOptions<Arc> &opts
- = DeterminizeOptions<Arc>()) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- DeterminizeFstOptions<Arc> nopts;
- nopts.delta = opts.delta;
- nopts.subsequential_label = opts.subsequential_label;
-
- nopts.gc_limit = 0; // Cache only the last state for fastest copy.
-
- if (opts.weight_threshold != Weight::Zero() ||
- opts.state_threshold != kNoStateId) {
- if (ifst.Properties(kAcceptor, false)) {
- vector<Weight> idistance, odistance;
- ShortestDistance(ifst, &idistance, true);
- DeterminizeFst<Arc> dfst(ifst, &idistance, &odistance, nopts);
- PruneOptions< Arc, AnyArcFilter<Arc> > popts(opts.weight_threshold,
- opts.state_threshold,
- AnyArcFilter<Arc>(),
- &odistance);
- Prune(dfst, ofst, popts);
- } else {
- *ofst = DeterminizeFst<Arc>(ifst, nopts);
- Prune(ofst, opts.weight_threshold, opts.state_threshold);
- }
- } else {
- *ofst = DeterminizeFst<Arc>(ifst, nopts);
- }
-}
-
-
-} // namespace fst
-
-#endif // FST_LIB_DETERMINIZE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/dfs-visit.h b/kaldi_io/src/tools/openfst/include/fst/dfs-visit.h
deleted file mode 100644
index 4d93a39..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/dfs-visit.h
+++ /dev/null
@@ -1,205 +0,0 @@
-// dfs-visit.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Depth-first search visitation. See visit.h for more general
-// search queue disciplines.
-
-#ifndef FST_LIB_DFS_VISIT_H__
-#define FST_LIB_DFS_VISIT_H__
-
-#include <stack>
-#include <vector>
-using std::vector;
-
-#include <fst/arcfilter.h>
-#include <fst/fst.h>
-
-
-namespace fst {
-
-// Visitor Interface - class determines actions taken during a Dfs.
-// If any of the boolean member functions return false, the DFS is
-// aborted by first calling FinishState() on all currently grey states
-// and then calling FinishVisit().
-//
-// Note this is similar to the more general visitor interface in visit.h
-// except that FinishState returns additional information appropriate only for
-// a DFS and some methods names here are better suited to a DFS.
-//
-// template <class Arc>
-// class Visitor {
-// public:
-// typedef typename Arc::StateId StateId;
-//
-// Visitor(T *return_data);
-// // Invoked before DFS visit
-// void InitVisit(const Fst<Arc> &fst);
-// // Invoked when state discovered (2nd arg is DFS tree root)
-// bool InitState(StateId s, StateId root);
-// // Invoked when tree arc examined (to white/undiscovered state)
-// bool TreeArc(StateId s, const Arc &a);
-// // Invoked when back arc examined (to grey/unfinished state)
-// bool BackArc(StateId s, const Arc &a);
-// // Invoked when forward or cross arc examined (to black/finished state)
-// bool ForwardOrCrossArc(StateId s, const Arc &a);
-// // Invoked when state finished (PARENT is kNoStateID and ARC == NULL
-// // when S is tree root)
-// void FinishState(StateId s, StateId parent, const Arc *parent_arc);
-// // Invoked after DFS visit
-// void FinishVisit();
-// };
-
-// An Fst state's DFS status
-const int kDfsWhite = 0; // Undiscovered
-const int kDfsGrey = 1; // Discovered & unfinished
-const int kDfsBlack = 2; // Finished
-
-// An Fst state's DFS stack state
-template <class Arc>
-struct DfsState {
- typedef typename Arc::StateId StateId;
-
- DfsState(const Fst<Arc> &fst, StateId s): state_id(s), arc_iter(fst, s) {}
-
- StateId state_id; // Fst state ...
- ArcIterator< Fst<Arc> > arc_iter; // and its corresponding arcs
-};
-
-
-// Performs depth-first visitation. Visitor class argument determines
-// actions and contains any return data. ArcFilter determines arcs
-// that are considered.
-//
-// Note this is similar to Visit() in visit.h called with a LIFO
-// queue except this version has a Visitor class specialized and
-// augmented for a DFS.
-template <class Arc, class V, class ArcFilter>
-void DfsVisit(const Fst<Arc> &fst, V *visitor, ArcFilter filter) {
- typedef typename Arc::StateId StateId;
-
- visitor->InitVisit(fst);
-
- StateId start = fst.Start();
- if (start == kNoStateId) {
- visitor->FinishVisit();
- return;
- }
-
- vector<char> state_color; // Fst state DFS status
- stack<DfsState<Arc> *> state_stack; // DFS execution stack
-
- StateId nstates = start + 1; // # of known states in general case
- bool expanded = false;
- if (fst.Properties(kExpanded, false)) { // tests if expanded case, then
- nstates = CountStates(fst); // uses ExpandedFst::NumStates().
- expanded = true;
- }
-
- state_color.resize(nstates, kDfsWhite);
- StateIterator< Fst<Arc> > siter(fst);
-
- // Continue DFS while true
- bool dfs = true;
-
- // Iterate over trees in DFS forest.
- for (StateId root = start; dfs && root < nstates;) {
- state_color[root] = kDfsGrey;
- state_stack.push(new DfsState<Arc>(fst, root));
- dfs = visitor->InitState(root, root);
- while (!state_stack.empty()) {
- DfsState<Arc> *dfs_state = state_stack.top();
- StateId s = dfs_state->state_id;
- if (s >= state_color.size()) {
- nstates = s + 1;
- state_color.resize(nstates, kDfsWhite);
- }
- ArcIterator< Fst<Arc> > &aiter = dfs_state->arc_iter;
- if (!dfs || aiter.Done()) {
- state_color[s] = kDfsBlack;
- delete dfs_state;
- state_stack.pop();
- if (!state_stack.empty()) {
- DfsState<Arc> *parent_state = state_stack.top();
- StateId p = parent_state->state_id;
- ArcIterator< Fst<Arc> > &piter = parent_state->arc_iter;
- visitor->FinishState(s, p, &piter.Value());
- piter.Next();
- } else {
- visitor->FinishState(s, kNoStateId, 0);
- }
- continue;
- }
- const Arc &arc = aiter.Value();
- if (arc.nextstate >= state_color.size()) {
- nstates = arc.nextstate + 1;
- state_color.resize(nstates, kDfsWhite);
- }
- if (!filter(arc)) {
- aiter.Next();
- continue;
- }
- int next_color = state_color[arc.nextstate];
- switch (next_color) {
- default:
- case kDfsWhite:
- dfs = visitor->TreeArc(s, arc);
- if (!dfs) break;
- state_color[arc.nextstate] = kDfsGrey;
- state_stack.push(new DfsState<Arc>(fst, arc.nextstate));
- dfs = visitor->InitState(arc.nextstate, root);
- break;
- case kDfsGrey:
- dfs = visitor->BackArc(s, arc);
- aiter.Next();
- break;
- case kDfsBlack:
- dfs = visitor->ForwardOrCrossArc(s, arc);
- aiter.Next();
- break;
- }
- }
-
- // Find next tree root
- for (root = root == start ? 0 : root + 1;
- root < nstates && state_color[root] != kDfsWhite;
- ++root) {
- }
-
- // Check for a state beyond the largest known state
- if (!expanded && root == nstates) {
- for (; !siter.Done(); siter.Next()) {
- if (siter.Value() == nstates) {
- ++nstates;
- state_color.push_back(kDfsWhite);
- break;
- }
- }
- }
- }
- visitor->FinishVisit();
-}
-
-
-template <class Arc, class V>
-void DfsVisit(const Fst<Arc> &fst, V *visitor) {
- DfsVisit(fst, visitor, AnyArcFilter<Arc>());
-}
-
-} // namespace fst
-
-#endif // FST_LIB_DFS_VISIT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/difference.h b/kaldi_io/src/tools/openfst/include/fst/difference.h
deleted file mode 100644
index 8a3306f..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/difference.h
+++ /dev/null
@@ -1,189 +0,0 @@
-// difference.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to compute the difference between two FSAs
-
-#ifndef FST_LIB_DIFFERENCE_H__
-#define FST_LIB_DIFFERENCE_H__
-
-#include <vector>
-using std::vector;
-#include <algorithm>
-
-#include <fst/cache.h>
-#include <fst/compose.h>
-#include <fst/complement.h>
-
-
-namespace fst {
-
-template <class A,
- class M = Matcher<Fst<A> >,
- class F = SequenceComposeFilter<M>,
- class T = GenericComposeStateTable<A, typename F::FilterState> >
-struct DifferenceFstOptions : public ComposeFstOptions<A, M, F, T> {
- explicit DifferenceFstOptions(const CacheOptions &opts,
- M *mat1 = 0, M *mat2 = 0,
- F *filt = 0, T *sttable= 0)
- : ComposeFstOptions<A, M, F, T>(mat1, mat2, filt, sttable) { }
-
- DifferenceFstOptions() {}
-};
-
-// Computes the difference between two FSAs. This version is a delayed
-// Fst. Only strings that are in the first automaton but not in second
-// are retained in the result.
-//
-// The first argument must be an acceptor; the second argument must be
-// an unweighted, epsilon-free, deterministic acceptor. One of the
-// arguments must be label-sorted.
-//
-// Complexity: same as ComposeFst.
-//
-// Caveats: same as ComposeFst.
-template <class A>
-class DifferenceFst : public ComposeFst<A> {
- public:
- using ImplToFst< ComposeFstImplBase<A> >::SetImpl;
- using ImplToFst< ComposeFstImplBase<A> >::GetImpl;
-
- using ComposeFst<A>::CreateBase1;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- // A - B = A ^ B'.
- DifferenceFst(const Fst<A> &fst1, const Fst<A> &fst2,
- const CacheOptions &opts = CacheOptions()) {
- typedef RhoMatcher< Matcher<Fst<A> > > R;
-
- ComplementFst<A> cfst(fst2);
- ComposeFstOptions<A, R> copts(CacheOptions(),
- new R(fst1, MATCH_NONE),
- new R(cfst, MATCH_INPUT,
- ComplementFst<A>::kRhoLabel));
- SetImpl(CreateBase1(fst1, cfst, copts));
-
- if (!fst1.Properties(kAcceptor, true)) {
- FSTERROR() << "DifferenceFst: 1st argument not an acceptor";
- GetImpl()->SetProperties(kError, kError);
- }
- }
-
- template <class M, class F, class T>
- DifferenceFst(const Fst<A> &fst1, const Fst<A> &fst2,
- const DifferenceFstOptions<A, M, F, T> &opts) {
- typedef RhoMatcher<M> R;
-
- ComplementFst<A> cfst(fst2);
- ComposeFstOptions<A, R> copts(opts);
- copts.matcher1 = new R(fst1, MATCH_NONE, kNoLabel, MATCHER_REWRITE_ALWAYS,
- opts.matcher1);
- copts.matcher2 = new R(cfst, MATCH_INPUT, ComplementFst<A>::kRhoLabel,
- MATCHER_REWRITE_ALWAYS, opts.matcher2);
-
- SetImpl(CreateBase1(fst1, cfst, copts));
-
- if (!fst1.Properties(kAcceptor, true)) {
- FSTERROR() << "DifferenceFst: 1st argument not an acceptor";
- GetImpl()->SetProperties(kError, kError);
- }
- }
-
- // See Fst<>::Copy() for doc.
- DifferenceFst(const DifferenceFst<A> &fst, bool safe = false)
- : ComposeFst<A>(fst, safe) {}
-
- // Get a copy of this DifferenceFst. See Fst<>::Copy() for further doc.
- virtual DifferenceFst<A> *Copy(bool safe = false) const {
- return new DifferenceFst<A>(*this, safe);
- }
-};
-
-
-// Specialization for DifferenceFst.
-template <class A>
-class StateIterator< DifferenceFst<A> >
- : public StateIterator< ComposeFst<A> > {
- public:
- explicit StateIterator(const DifferenceFst<A> &fst)
- : StateIterator< ComposeFst<A> >(fst) {}
-};
-
-
-// Specialization for DifferenceFst.
-template <class A>
-class ArcIterator< DifferenceFst<A> >
- : public ArcIterator< ComposeFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const DifferenceFst<A> &fst, StateId s)
- : ArcIterator< ComposeFst<A> >(fst, s) {}
-};
-
-// Useful alias when using StdArc.
-typedef DifferenceFst<StdArc> StdDifferenceFst;
-
-
-typedef ComposeOptions DifferenceOptions;
-
-
-// Computes the difference between two FSAs. This version is writes
-// the difference to an output MutableFst. Only strings that are in
-// the first automaton but not in second are retained in the result.
-//
-// The first argument must be an acceptor; the second argument must be
-// an unweighted, epsilon-free, deterministic acceptor. One of the
-// arguments must be label-sorted.
-//
-// Complexity: same as Compose.
-//
-// Caveats: same as Compose.
-template<class Arc>
-void Difference(const Fst<Arc> &ifst1, const Fst<Arc> &ifst2,
- MutableFst<Arc> *ofst,
- const DifferenceOptions &opts = DifferenceOptions()) {
- typedef Matcher< Fst<Arc> > M;
-
- if (opts.filter_type == AUTO_FILTER) {
- CacheOptions nopts;
- nopts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = DifferenceFst<Arc>(ifst1, ifst2, nopts);
- } else if (opts.filter_type == SEQUENCE_FILTER) {
- DifferenceFstOptions<Arc> dopts;
- dopts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = DifferenceFst<Arc>(ifst1, ifst2, dopts);
- } else if (opts.filter_type == ALT_SEQUENCE_FILTER) {
- DifferenceFstOptions<Arc, M, AltSequenceComposeFilter<M> > dopts;
- dopts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = DifferenceFst<Arc>(ifst1, ifst2, dopts);
- } else if (opts.filter_type == MATCH_FILTER) {
- DifferenceFstOptions<Arc, M, MatchComposeFilter<M> > dopts;
- dopts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = DifferenceFst<Arc>(ifst1, ifst2, dopts);
- }
-
- if (opts.connect)
- Connect(ofst);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_DIFFERENCE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/edit-fst.h b/kaldi_io/src/tools/openfst/include/fst/edit-fst.h
deleted file mode 100644
index bd33b9d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/edit-fst.h
+++ /dev/null
@@ -1,779 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Dan Bikel)
-//
-// An \ref Fst implementation that allows non-destructive edit operations on an
-// existing fst.
-
-#ifndef FST_LIB_EDIT_FST_H_
-#define FST_LIB_EDIT_FST_H_
-
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-
-namespace fst {
-
-// The EditFst class enables non-destructive edit operations on a wrapped
-// ExpandedFst. The implementation uses copy-on-write semantics at the node
-// level: if a user has an underlying fst on which he or she wants to perform a
-// relatively small number of edits (read: mutations), then this implementation
-// will copy the edited node to an internal MutableFst and perform any edits in
-// situ on that copied node. This class supports all the methods of MutableFst
-// except for DeleteStates(const vector<StateId> &); thus, new nodes may also be
-// added, and one may add transitions from existing nodes of the wrapped fst to
-// new nodes.
-//
-// N.B.: The documentation for Fst::Copy(true) says that its behavior is
-// undefined if invoked on an fst that has already been accessed. This class
-// requires that the Fst implementation it wraps provides consistent, reliable
-// behavior when its Copy(true) method is invoked, where consistent means
-// the graph structure, graph properties and state numbering and do not change.
-// VectorFst and CompactFst, for example, are both well-behaved in this regard.
-
-// The EditFstData class is a container for all mutable data for EditFstImpl;
-// also, this class provides most of the actual implementation of what EditFst
-// does (that is, most of EditFstImpl's methods delegate to methods in this, the
-// EditFstData class). Instances of this class are reference-counted and can be
-// shared between otherwise independent EditFstImpl instances. This scheme
-// allows EditFstImpl to implement the thread-safe, copy-on-write semantics
-// required by Fst::Copy(true).
-//
-// template parameters:
-// A the type of arc to use
-// WrappedFstT the type of fst wrapped by the EditFst instance that
-// this EditFstData instance is backing
-// MutableFstT the type of mutable fst to use internally for edited states;
-// crucially, MutableFstT::Copy(false) *must* yield an fst that is
-// thread-safe for reading (VectorFst, for example, has this property)
-template <typename A,
- typename WrappedFstT = ExpandedFst<A>,
- typename MutableFstT = VectorFst<A> >
-class EditFstData {
- public:
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef typename unordered_map<StateId, StateId>::const_iterator
- IdMapIterator;
- typedef typename unordered_map<StateId, Weight>::const_iterator
- FinalWeightIterator;
-
-
- EditFstData() : num_new_states_(0) {
- SetEmptyAndDeleteKeysForInternalMaps();
- }
-
- EditFstData(const EditFstData &other) :
- edits_(other.edits_),
- external_to_internal_ids_(other.external_to_internal_ids_),
- edited_final_weights_(other.edited_final_weights_),
- num_new_states_(other.num_new_states_) {
- }
-
- ~EditFstData() {
- }
-
- static EditFstData<A, WrappedFstT, MutableFstT> *Read(istream &strm,
- const FstReadOptions &opts);
-
- bool Write(ostream &strm, const FstWriteOptions &opts) const {
- // Serialize all private data members of this class.
- FstWriteOptions edits_opts(opts);
- edits_opts.write_header = true; // Force writing contained header.
- edits_.Write(strm, edits_opts);
- WriteType(strm, external_to_internal_ids_);
- WriteType(strm, edited_final_weights_);
- WriteType(strm, num_new_states_);
- if (!strm) {
- LOG(ERROR) << "EditFstData::Write: write failed: " << opts.source;
- return false;
- }
- return true;
- }
-
- int RefCount() const { return ref_count_.count(); }
- int IncrRefCount() { return ref_count_.Incr(); }
- int DecrRefCount() { return ref_count_.Decr(); }
-
- StateId NumNewStates() const {
- return num_new_states_;
- }
-
- // accessor methods for the fst holding edited states
- StateId EditedStart() const {
- return edits_.Start();
- }
-
- Weight Final(StateId s, const WrappedFstT *wrapped) const {
- FinalWeightIterator final_weight_it = GetFinalWeightIterator(s);
- if (final_weight_it == NotInFinalWeightMap()) {
- IdMapIterator it = GetEditedIdMapIterator(s);
- return it == NotInEditedMap() ?
- wrapped->Final(s) : edits_.Final(it->second);
- }
- else {
- return final_weight_it->second;
- }
- }
-
- size_t NumArcs(StateId s, const WrappedFstT *wrapped) const {
- IdMapIterator it = GetEditedIdMapIterator(s);
- return it == NotInEditedMap() ?
- wrapped->NumArcs(s) : edits_.NumArcs(it->second);
- }
-
- size_t NumInputEpsilons(StateId s, const WrappedFstT *wrapped) const {
- IdMapIterator it = GetEditedIdMapIterator(s);
- return it == NotInEditedMap() ?
- wrapped->NumInputEpsilons(s) :
- edits_.NumInputEpsilons(it->second);
- }
-
- size_t NumOutputEpsilons(StateId s, const WrappedFstT *wrapped) const {
- IdMapIterator it = GetEditedIdMapIterator(s);
- return it == NotInEditedMap() ?
- wrapped->NumOutputEpsilons(s) :
- edits_.NumOutputEpsilons(it->second);
- }
-
- void SetEditedProperties(uint64 props, uint64 mask) {
- edits_.SetProperties(props, mask);
- }
-
- // non-const MutableFst operations
-
- // Sets the start state for this fst.
- void SetStart(StateId s) {
- edits_.SetStart(s);
- }
-
- // Sets the final state for this fst.
- Weight SetFinal(StateId s, Weight w, const WrappedFstT *wrapped) {
- Weight old_weight = Final(s, wrapped);
- IdMapIterator it = GetEditedIdMapIterator(s);
- // if we haven't already edited state s, don't add it to edited_ (which can
- // be expensive if s has many transitions); just use the
- // edited_final_weights_ map
- if (it == NotInEditedMap()) {
- edited_final_weights_[s] = w;
- }
- else {
- edits_.SetFinal(GetEditableInternalId(s, wrapped), w);
- }
- return old_weight;
- }
-
- // Adds a new state to this fst, initially with no arcs.
- StateId AddState(StateId curr_num_states) {
- StateId internal_state_id = edits_.AddState();
- StateId external_state_id = curr_num_states;
- external_to_internal_ids_[external_state_id] = internal_state_id;
- num_new_states_++;
- return external_state_id;
- }
-
- // Adds the specified arc to the specified state of this fst.
- const A *AddArc(StateId s, const Arc &arc, const WrappedFstT *wrapped) {
- StateId internal_id = GetEditableInternalId(s, wrapped);
-
- size_t num_arcs = edits_.NumArcs(internal_id);
- ArcIterator<MutableFstT> arc_it(edits_, internal_id);
- const A *prev_arc = NULL;
- if (num_arcs > 0) {
- // grab the final arc associated with this state in edits_
- arc_it.Seek(num_arcs - 1);
- prev_arc = &(arc_it.Value());
- }
- edits_.AddArc(internal_id, arc);
- return prev_arc;
- }
-
- void DeleteStates() {
- edits_.DeleteStates();
- num_new_states_ = 0;
- external_to_internal_ids_.clear();
- edited_final_weights_.clear();
- }
-
- // Removes all but the first n outgoing arcs of the specified state.
- void DeleteArcs(StateId s, size_t n, const WrappedFstT *wrapped) {
- edits_.DeleteArcs(GetEditableInternalId(s, wrapped), n);
- }
-
- // Removes all outgoing arcs from the specified state.
- void DeleteArcs(StateId s, const WrappedFstT *wrapped) {
- edits_.DeleteArcs(GetEditableInternalId(s, wrapped));
- }
-
- // end methods for non-const MutableFst operations
-
- // Provides information for the generic arc iterator.
- void InitArcIterator(StateId s, ArcIteratorData<Arc> *data,
- const WrappedFstT *wrapped) const {
- IdMapIterator id_map_it = GetEditedIdMapIterator(s);
- if (id_map_it == NotInEditedMap()) {
- VLOG(3) << "EditFstData::InitArcIterator: iterating on state "
- << s << " of original fst";
- wrapped->InitArcIterator(s, data);
- } else {
- VLOG(2) << "EditFstData::InitArcIterator: iterating on edited state "
- << s << " (internal state id: " << id_map_it->second << ")";
- edits_.InitArcIterator(id_map_it->second, data);
- }
- }
-
- // Provides information for the generic mutable arc iterator.
- void InitMutableArcIterator(StateId s, MutableArcIteratorData<A> *data,
- const WrappedFstT *wrapped) {
- data->base =
- new MutableArcIterator<MutableFstT>(&edits_,
- GetEditableInternalId(s, wrapped));
- }
-
- // Prints out the map from external to internal state id's (for debugging
- // purposes).
- void PrintMap() {
- for (IdMapIterator map_it = external_to_internal_ids_.begin();
- map_it != NotInEditedMap(); ++map_it) {
- LOG(INFO) << "(external,internal)=("
- << map_it->first << "," << map_it->second << ")";
- }
- }
-
-
- private:
- void SetEmptyAndDeleteKeysForInternalMaps() {
- }
-
- // Returns the iterator of the map from external to internal state id's
- // of edits_ for the specified external state id.
- IdMapIterator GetEditedIdMapIterator(StateId s) const {
- return external_to_internal_ids_.find(s);
- }
- IdMapIterator NotInEditedMap() const {
- return external_to_internal_ids_.end();
- }
-
- FinalWeightIterator GetFinalWeightIterator(StateId s) const {
- return edited_final_weights_.find(s);
- }
- FinalWeightIterator NotInFinalWeightMap() const {
- return edited_final_weights_.end();
- }
-
- // Returns the internal state id of the specified external id if the state has
- // already been made editable, or else copies the state from wrapped_
- // to edits_ and returns the state id of the newly editable state in edits_.
- //
- // \return makes the specified state editable if it isn't already and returns
- // its state id in edits_
- StateId GetEditableInternalId(StateId s, const WrappedFstT *wrapped) {
- IdMapIterator id_map_it = GetEditedIdMapIterator(s);
- if (id_map_it == NotInEditedMap()) {
- StateId new_internal_id = edits_.AddState();
- VLOG(2) << "EditFstData::GetEditableInternalId: editing state " << s
- << " of original fst; new internal state id:" << new_internal_id;
- external_to_internal_ids_[s] = new_internal_id;
- for (ArcIterator< Fst<A> > arc_iterator(*wrapped, s);
- !arc_iterator.Done();
- arc_iterator.Next()) {
- edits_.AddArc(new_internal_id, arc_iterator.Value());
- }
- // copy the final weight
- FinalWeightIterator final_weight_it = GetFinalWeightIterator(s);
- if (final_weight_it == NotInFinalWeightMap()) {
- edits_.SetFinal(new_internal_id, wrapped->Final(s));
- } else {
- edits_.SetFinal(new_internal_id, final_weight_it->second);
- edited_final_weights_.erase(s);
- }
- return new_internal_id;
- } else {
- return id_map_it->second;
- }
- }
-
- // A mutable fst (by default, a VectorFst) to contain new states, and/or
- // copies of states from a wrapped ExpandedFst that have been modified in
- // some way.
- MutableFstT edits_;
- // A mapping from external state id's to the internal id's of states that
- // appear in edits_.
- unordered_map<StateId, StateId> external_to_internal_ids_;
- // A mapping from external state id's to final state weights assigned to
- // those states. The states in this map are *only* those whose final weight
- // has been modified; if any other part of the state has been modified,
- // the entire state is copied to edits_, and all modifications reside there.
- unordered_map<StateId, Weight> edited_final_weights_;
- // The number of new states added to this mutable fst impl, which is <= the
- // number of states in edits_ (since edits_ contains both edited *and* new
- // states).
- StateId num_new_states_;
- RefCounter ref_count_;
-};
-
-// EditFstData method implementations: just the Read method.
-template <typename A, typename WrappedFstT, typename MutableFstT>
-EditFstData<A, WrappedFstT, MutableFstT> *
-EditFstData<A, WrappedFstT, MutableFstT>::Read(istream &strm,
- const FstReadOptions &opts) {
- EditFstData<A, WrappedFstT, MutableFstT> *data =
- new EditFstData<A, WrappedFstT, MutableFstT>();
- // next read in MutabelFstT machine that stores edits
- FstReadOptions edits_opts(opts);
- edits_opts.header = 0; // Contained header was written out, so read it in.
-
- // Because our internal representation of edited states is a solid object
- // of type MutableFstT (defaults to VectorFst<A>) and not a pointer,
- // and because the static Read method allocates a new object on the heap,
- // we need to call Read, check if there was a failure, use
- // MutableFstT::operator= to assign the object (not the pointer) to the
- // edits_ data member (which will increase the ref count by 1 on the impl)
- // and, finally, delete the heap-allocated object.
- MutableFstT *edits = MutableFstT::Read(strm, edits_opts);
- if (!edits) {
- return 0;
- }
- data->edits_ = *edits;
- delete edits;
- // finally, read in rest of private data members
- ReadType(strm, &data->external_to_internal_ids_);
- ReadType(strm, &data->edited_final_weights_);
- ReadType(strm, &data->num_new_states_);
- if (!strm) {
- LOG(ERROR) << "EditFst::Read: read failed: " << opts.source;
- return 0;
- }
- return data;
-}
-
-// This class enables non-destructive edit operations on a wrapped ExpandedFst.
-// The implementation uses copy-on-write semantics at the node level: if a user
-// has an underlying fst on which he or she wants to perform a relatively small
-// number of edits (read: mutations), then this implementation will copy the
-// edited node to an internal MutableFst and perform any edits in situ on that
-// copied node. This class supports all the methods of MutableFst except for
-// DeleteStates(const vector<StateId> &); thus, new nodes may also be added, and
-// one may add transitions from existing nodes of the wrapped fst to new nodes.
-//
-// template parameters:
-// A the type of arc to use
-// WrappedFstT the type of fst wrapped by the EditFst instance that
-// this EditFstImpl instance is backing
-// MutableFstT the type of mutable fst to use internally for edited states;
-// crucially, MutableFstT::Copy(false) *must* yield an fst that is
-// thread-safe for reading (VectorFst, for example, has this property)
-template <typename A,
- typename WrappedFstT = ExpandedFst<A>,
- typename MutableFstT = VectorFst<A> >
-class EditFstImpl : public FstImpl<A> {
- public:
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
- using FstImpl<A>::WriteHeader;
-
- typedef A Arc;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- // Constructs an editable fst implementation with no states. Effectively,
- // this initially-empty fst will in every way mimic the behavior of
- // a VectorFst--more precisely, a VectorFstImpl instance--but with slightly
- // slower performance (by a constant factor), due to the fact that
- // this class maintains a mapping between external state id's and
- // their internal equivalents.
- EditFstImpl() {
- FstImpl<A>::SetType("edit");
- wrapped_ = new MutableFstT();
- InheritPropertiesFromWrapped();
- data_ = new EditFstData<A, WrappedFstT, MutableFstT>();
- }
-
- // Wraps the specified ExpandedFst. This constructor requires that the
- // specified Fst is an ExpandedFst instance. This requirement is only enforced
- // at runtime. (See below for the reason.)
- //
- // This library uses the pointer-to-implementation or "PIMPL" design pattern.
- // In particular, to make it convenient to bind an implementation class to its
- // interface, there are a pair of template "binder" classes, one for immutable
- // and one for mutable fst's (ImplToFst and ImplToMutableFst, respectively).
- // As it happens, the API for the ImplToMutableFst<I,F> class requires that
- // the implementation class--the template parameter "I"--have a constructor
- // taking a const Fst<A> reference. Accordingly, the constructor here must
- // perform a static_cast to the WrappedFstT type required by EditFst and
- // therefore EditFstImpl.
- explicit EditFstImpl(const Fst<A> &wrapped)
- : wrapped_(static_cast<WrappedFstT *>(wrapped.Copy())) {
- FstImpl<A>::SetType("edit");
-
- data_ = new EditFstData<A, WrappedFstT, MutableFstT>();
- // have edits_ inherit all properties from wrapped_
- data_->SetEditedProperties(wrapped_->Properties(kFstProperties, false),
- kFstProperties);
- InheritPropertiesFromWrapped();
- }
-
- // A copy constructor for this implementation class, used to implement
- // the Copy() method of the Fst interface.
- EditFstImpl(const EditFstImpl &impl)
- : FstImpl<A>(),
- wrapped_(static_cast<WrappedFstT *>(impl.wrapped_->Copy(true))),
- data_(impl.data_) {
- data_->IncrRefCount();
- SetProperties(impl.Properties());
- }
-
- ~EditFstImpl() {
- delete wrapped_;
- if (!data_->DecrRefCount()) {
- delete data_;
- }
- }
-
- // const Fst/ExpandedFst operations, declared in the Fst and ExpandedFst
- // interfaces
- StateId Start() const {
- StateId edited_start = data_->EditedStart();
- return edited_start == kNoStateId ? wrapped_->Start() : edited_start;
- }
-
- Weight Final(StateId s) const {
- return data_->Final(s, wrapped_);
- }
-
- size_t NumArcs(StateId s) const {
- return data_->NumArcs(s, wrapped_);
- }
-
- size_t NumInputEpsilons(StateId s) const {
- return data_->NumInputEpsilons(s, wrapped_);
- }
-
- size_t NumOutputEpsilons(StateId s) const {
- return data_->NumOutputEpsilons(s, wrapped_);
- }
-
- StateId NumStates() const {
- return wrapped_->NumStates() + data_->NumNewStates();
- }
-
- static EditFstImpl<A, WrappedFstT, MutableFstT> *
- Read(istream &strm,
- const FstReadOptions &opts);
-
- bool Write(ostream &strm, const FstWriteOptions &opts) const {
- FstHeader hdr;
- hdr.SetStart(Start());
- hdr.SetNumStates(NumStates());
- FstWriteOptions header_opts(opts);
- header_opts.write_isymbols = false; // Let contained FST hold any symbols.
- header_opts.write_osymbols = false;
- WriteHeader(strm, header_opts, kFileVersion, &hdr);
-
- // First, serialize wrapped fst to stream.
- FstWriteOptions wrapped_opts(opts);
- wrapped_opts.write_header = true; // Force writing contained header.
- wrapped_->Write(strm, wrapped_opts);
-
- data_->Write(strm, opts);
-
- strm.flush();
- if (!strm) {
- LOG(ERROR) << "EditFst::Write: write failed: " << opts.source;
- return false;
- }
- return true;
- }
- // end const Fst operations
-
- // non-const MutableFst operations
-
- // Sets the start state for this fst.
- void SetStart(StateId s) {
- MutateCheck();
- data_->SetStart(s);
- SetProperties(SetStartProperties(FstImpl<A>::Properties()));
- }
-
- // Sets the final state for this fst.
- void SetFinal(StateId s, Weight w) {
- MutateCheck();
- Weight old_weight = data_->SetFinal(s, w, wrapped_);
- SetProperties(SetFinalProperties(FstImpl<A>::Properties(), old_weight, w));
- }
-
- // Adds a new state to this fst, initially with no arcs.
- StateId AddState() {
- MutateCheck();
- SetProperties(AddStateProperties(FstImpl<A>::Properties()));
- return data_->AddState(NumStates());
- }
-
- // Adds the specified arc to the specified state of this fst.
- void AddArc(StateId s, const Arc &arc) {
- MutateCheck();
- const A *prev_arc = data_->AddArc(s, arc, wrapped_);
- SetProperties(AddArcProperties(FstImpl<A>::Properties(), s, arc, prev_arc));
- }
-
- void DeleteStates(const vector<StateId>& dstates) {
- FSTERROR() << ": EditFstImpl::DeleteStates(const std::vector<StateId>&): "
- << " not implemented";
- SetProperties(kError, kError);
- }
-
- // Deletes all states in this fst.
- void DeleteStates();
-
- // Removes all but the first n outgoing arcs of the specified state.
- void DeleteArcs(StateId s, size_t n) {
- MutateCheck();
- data_->DeleteArcs(s, n, wrapped_);
- SetProperties(DeleteArcsProperties(FstImpl<A>::Properties()));
- }
-
- // Removes all outgoing arcs from the specified state.
- void DeleteArcs(StateId s) {
- MutateCheck();
- data_->DeleteArcs(s, wrapped_);
- SetProperties(DeleteArcsProperties(FstImpl<A>::Properties()));
- }
-
- void ReserveStates(StateId s) {
- }
-
- void ReserveArcs(StateId s, size_t n) {
- }
-
- // end non-const MutableFst operations
-
- // Provides information for the generic state iterator.
- void InitStateIterator(StateIteratorData<Arc> *data) const {
- data->base = 0;
- data->nstates = NumStates();
- }
-
- // Provides information for the generic arc iterator.
- void InitArcIterator(StateId s, ArcIteratorData<Arc> *data) const {
- data_->InitArcIterator(s, data, wrapped_);
- }
-
- // Provides information for the generic mutable arc iterator.
- void InitMutableArcIterator(StateId s, MutableArcIteratorData<A> *data) {
- MutateCheck();
- data_->InitMutableArcIterator(s, data, wrapped_);
- }
-
- private:
- typedef typename unordered_map<StateId, StateId>::const_iterator
- IdMapIterator;
- typedef typename unordered_map<StateId, Weight>::const_iterator
- FinalWeightIterator;
- // Properties always true of this Fst class
- static const uint64 kStaticProperties = kExpanded | kMutable;
- // Current file format version
- static const int kFileVersion = 2;
- // Minimum file format version supported
- static const int kMinFileVersion = 2;
-
- // Causes this fst to inherit all the properties from its wrapped fst, except
- // for the two properties that always apply to EditFst instances: kExpanded
- // and kMutable.
- void InheritPropertiesFromWrapped() {
- SetProperties(wrapped_->Properties(kCopyProperties, false) |
- kStaticProperties);
- SetInputSymbols(wrapped_->InputSymbols());
- SetOutputSymbols(wrapped_->OutputSymbols());
- }
-
- // This method ensures that any operations that alter the mutable data
- // portion of this EditFstImpl cause the data_ member to be copied when its
- // reference count is greater than 1. Note that this method is distinct from
- // MutableFst::Mutate, which gets invoked whenever one of the basic mutation
- // methods defined in MutableFst is invoked, such as SetInputSymbols.
- // The MutateCheck here in EditFstImpl is invoked whenever one of the
- // mutating methods specifically related to the types of edits provided
- // by EditFst is performed, such as changing an arc of an existing state
- // of the wrapped fst via a MutableArcIterator, or adding a new state via
- // AddState().
- void MutateCheck() {
- if (data_->RefCount() > 1) {
- EditFstData<A, WrappedFstT, MutableFstT> *data_copy =
- new EditFstData<A, WrappedFstT, MutableFstT>(*data_);
- if (data_ && !data_->DecrRefCount()) {
- delete data_;
- }
- data_ = data_copy;
- }
- }
-
- // The fst that this fst wraps. The purpose of this class is to enable
- // non-destructive edits on this wrapped fst.
- const WrappedFstT *wrapped_;
- // The mutable data for this EditFst instance, with delegates for all the
- // methods that can mutate data.
- EditFstData<A, WrappedFstT, MutableFstT> *data_;
-};
-
-template <typename A, typename WrappedFstT, typename MutableFstT>
-const uint64 EditFstImpl<A, WrappedFstT, MutableFstT>::kStaticProperties;
-
-// EditFstImpl IMPLEMENTATION STARTS HERE
-
-template<typename A, typename WrappedFstT, typename MutableFstT>
-inline void EditFstImpl<A, WrappedFstT, MutableFstT>::DeleteStates() {
- data_->DeleteStates();
- delete wrapped_;
- // we are deleting all states, so just forget about pointer to wrapped_
- // and do what default constructor does: set wrapped_ to a new VectorFst
- wrapped_ = new MutableFstT();
- uint64 newProps = DeleteAllStatesProperties(FstImpl<A>::Properties(),
- kStaticProperties);
- FstImpl<A>::SetProperties(newProps);
-}
-
-template <typename A, typename WrappedFstT, typename MutableFstT>
-EditFstImpl<A, WrappedFstT, MutableFstT> *
-EditFstImpl<A, WrappedFstT, MutableFstT>::Read(istream &strm,
- const FstReadOptions &opts) {
- EditFstImpl<A, WrappedFstT, MutableFstT> *impl = new EditFstImpl();
- FstHeader hdr;
- if (!impl->ReadHeader(strm, opts, kMinFileVersion, &hdr)) {
- return 0;
- }
- impl->SetStart(hdr.Start());
-
- // first, read in wrapped fst
- FstReadOptions wrapped_opts(opts);
- wrapped_opts.header = 0; // Contained header was written out, so read it in.
- Fst<A> *wrapped_fst = Fst<A>::Read(strm, wrapped_opts);
- if (!wrapped_fst) {
- return 0;
- }
- impl->wrapped_ = static_cast<WrappedFstT *>(wrapped_fst);
-
- impl->data_ = EditFstData<A, WrappedFstT, MutableFstT>::Read(strm, opts);
-
- if (!impl->data_) {
- delete wrapped_fst;
- return 0;
- }
-
- return impl;
-}
-
-// END EditFstImpl IMPLEMENTATION
-
-// Concrete, editable FST. This class attaches interface to implementation.
-template <typename A,
- typename WrappedFstT = ExpandedFst<A>,
- typename MutableFstT = VectorFst<A> >
-class EditFst :
- public ImplToMutableFst< EditFstImpl<A, WrappedFstT, MutableFstT> > {
- public:
- friend class MutableArcIterator< EditFst<A, WrappedFstT, MutableFstT> >;
-
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef EditFstImpl<A, WrappedFstT, MutableFstT> Impl;
-
- EditFst() : ImplToMutableFst<Impl>(new Impl()) {}
-
- explicit EditFst(const Fst<A> &fst) :
- ImplToMutableFst<Impl>(new Impl(fst)) {}
-
- explicit EditFst(const WrappedFstT &fst) :
- ImplToMutableFst<Impl>(new Impl(fst)) {}
-
- // See Fst<>::Copy() for doc.
- EditFst(const EditFst<A, WrappedFstT, MutableFstT> &fst, bool safe = false) :
- ImplToMutableFst<Impl>(fst, safe) {}
-
- virtual ~EditFst() {}
-
- // Get a copy of this EditFst. See Fst<>::Copy() for further doc.
- virtual EditFst<A, WrappedFstT, MutableFstT> *Copy(bool safe = false) const {
- return new EditFst<A, WrappedFstT, MutableFstT>(*this, safe);
- }
-
- EditFst<A, WrappedFstT, MutableFstT> &
- operator=(const EditFst<A, WrappedFstT, MutableFstT> &fst) {
- SetImpl(fst.GetImpl(), false);
- return *this;
- }
-
- virtual EditFst<A, WrappedFstT, MutableFstT> &operator=(const Fst<A> &fst) {
- if (this != &fst) {
- SetImpl(new Impl(fst));
- }
- return *this;
- }
-
- // Read an EditFst from an input stream; return NULL on error.
- static EditFst<A, WrappedFstT, MutableFstT> *
- Read(istream &strm,
- const FstReadOptions &opts) {
- Impl* impl = Impl::Read(strm, opts);
- return impl ? new EditFst<A>(impl) : 0;
- }
-
- // Read an EditFst from a file; return NULL on error.
- // Empty filename reads from standard input.
- static EditFst<A, WrappedFstT, MutableFstT> *Read(const string &filename) {
- Impl* impl = ImplToExpandedFst<Impl, MutableFst<A> >::Read(filename);
- return impl ? new EditFst<A, WrappedFstT, MutableFstT>(impl) : 0;
- }
-
- virtual bool Write(ostream &strm, const FstWriteOptions &opts) const {
- return GetImpl()->Write(strm, opts);
- }
-
- virtual bool Write(const string &filename) const {
- return Fst<A>::WriteFile(filename);
- }
-
- virtual void InitStateIterator(StateIteratorData<Arc> *data) const {
- GetImpl()->InitStateIterator(data);
- }
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<Arc> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- virtual
- void InitMutableArcIterator(StateId s, MutableArcIteratorData<A> *data) {
- GetImpl()->InitMutableArcIterator(s, data);
- }
- private:
- explicit EditFst(Impl *impl) : ImplToMutableFst<Impl>(impl) {}
-
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst< Impl, MutableFst<A> >::GetImpl(); }
-
- void SetImpl(Impl *impl, bool own_impl = true) {
- ImplToFst< Impl, MutableFst<A> >::SetImpl(impl, own_impl);
- }
-};
-
-} // namespace fst
-
-#endif // FST_LIB_EDIT_FST_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/encode.h b/kaldi_io/src/tools/openfst/include/fst/encode.h
deleted file mode 100644
index 08b84cb..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/encode.h
+++ /dev/null
@@ -1,599 +0,0 @@
-// encode.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Johan Schalkwyk)
-//
-// \file
-// Class to encode and decoder an fst.
-
-#ifndef FST_LIB_ENCODE_H__
-#define FST_LIB_ENCODE_H__
-
-#include <climits>
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/arc-map.h>
-#include <fst/rmfinalepsilon.h>
-
-
-namespace fst {
-
-static const uint32 kEncodeLabels = 0x0001;
-static const uint32 kEncodeWeights = 0x0002;
-static const uint32 kEncodeFlags = 0x0003; // All non-internal flags
-
-static const uint32 kEncodeHasISymbols = 0x0004; // For internal use
-static const uint32 kEncodeHasOSymbols = 0x0008; // For internal use
-
-enum EncodeType { ENCODE = 1, DECODE = 2 };
-
-// Identifies stream data as an encode table (and its endianity)
-static const int32 kEncodeMagicNumber = 2129983209;
-
-
-// The following class encapsulates implementation details for the
-// encoding and decoding of label/weight tuples used for encoding
-// and decoding of Fsts. The EncodeTable is bidirectional. I.E it
-// stores both the Tuple of encode labels and weights to a unique
-// label, and the reverse.
-template <class A> class EncodeTable {
- public:
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
-
- // Encoded data consists of arc input/output labels and arc weight
- struct Tuple {
- Tuple() {}
- Tuple(Label ilabel_, Label olabel_, Weight weight_)
- : ilabel(ilabel_), olabel(olabel_), weight(weight_) {}
- Tuple(const Tuple& tuple)
- : ilabel(tuple.ilabel), olabel(tuple.olabel), weight(tuple.weight) {}
-
- Label ilabel;
- Label olabel;
- Weight weight;
- };
-
- // Comparison object for hashing EncodeTable Tuple(s).
- class TupleEqual {
- public:
- bool operator()(const Tuple* x, const Tuple* y) const {
- return (x->ilabel == y->ilabel &&
- x->olabel == y->olabel &&
- x->weight == y->weight);
- }
- };
-
- // Hash function for EncodeTabe Tuples. Based on the encode flags
- // we either hash the labels, weights or combination of them.
- class TupleKey {
- public:
- TupleKey()
- : encode_flags_(kEncodeLabels | kEncodeWeights) {}
-
- TupleKey(const TupleKey& key)
- : encode_flags_(key.encode_flags_) {}
-
- explicit TupleKey(uint32 encode_flags)
- : encode_flags_(encode_flags) {}
-
- size_t operator()(const Tuple* x) const {
- size_t hash = x->ilabel;
- const int lshift = 5;
- const int rshift = CHAR_BIT * sizeof(size_t) - 5;
- if (encode_flags_ & kEncodeLabels)
- hash = hash << lshift ^ hash >> rshift ^ x->olabel;
- if (encode_flags_ & kEncodeWeights)
- hash = hash << lshift ^ hash >> rshift ^ x->weight.Hash();
- return hash;
- }
-
- private:
- int32 encode_flags_;
- };
-
- typedef unordered_map<const Tuple*,
- Label,
- TupleKey,
- TupleEqual> EncodeHash;
-
- explicit EncodeTable(uint32 encode_flags)
- : flags_(encode_flags),
- encode_hash_(1024, TupleKey(encode_flags)),
- isymbols_(0), osymbols_(0) {}
-
- ~EncodeTable() {
- for (size_t i = 0; i < encode_tuples_.size(); ++i) {
- delete encode_tuples_[i];
- }
- delete isymbols_;
- delete osymbols_;
- }
-
- // Given an arc encode either input/ouptut labels or input/costs or both
- Label Encode(const A &arc) {
- const Tuple tuple(arc.ilabel,
- flags_ & kEncodeLabels ? arc.olabel : 0,
- flags_ & kEncodeWeights ? arc.weight : Weight::One());
- typename EncodeHash::const_iterator it = encode_hash_.find(&tuple);
- if (it == encode_hash_.end()) {
- encode_tuples_.push_back(new Tuple(tuple));
- encode_hash_[encode_tuples_.back()] = encode_tuples_.size();
- return encode_tuples_.size();
- } else {
- return it->second;
- }
- }
-
- // Given an arc, look up its encoded label. Returns kNoLabel if not found.
- Label GetLabel(const A &arc) const {
- const Tuple tuple(arc.ilabel,
- flags_ & kEncodeLabels ? arc.olabel : 0,
- flags_ & kEncodeWeights ? arc.weight : Weight::One());
- typename EncodeHash::const_iterator it = encode_hash_.find(&tuple);
- if (it == encode_hash_.end()) {
- return kNoLabel;
- } else {
- return it->second;
- }
- }
-
- // Given an encode arc Label decode back to input/output labels and costs
- const Tuple* Decode(Label key) const {
- if (key < 1 || key > encode_tuples_.size()) {
- LOG(ERROR) << "EncodeTable::Decode: unknown decode key: " << key;
- return 0;
- }
- return encode_tuples_[key - 1];
- }
-
- size_t Size() const { return encode_tuples_.size(); }
-
- bool Write(ostream &strm, const string &source) const;
-
- static EncodeTable<A> *Read(istream &strm, const string &source);
-
- const uint32 flags() const { return flags_ & kEncodeFlags; }
-
- int RefCount() const { return ref_count_.count(); }
- int IncrRefCount() { return ref_count_.Incr(); }
- int DecrRefCount() { return ref_count_.Decr(); }
-
-
- SymbolTable *InputSymbols() const { return isymbols_; }
-
- SymbolTable *OutputSymbols() const { return osymbols_; }
-
- void SetInputSymbols(const SymbolTable* syms) {
- if (isymbols_) delete isymbols_;
- if (syms) {
- isymbols_ = syms->Copy();
- flags_ |= kEncodeHasISymbols;
- } else {
- isymbols_ = 0;
- flags_ &= ~kEncodeHasISymbols;
- }
- }
-
- void SetOutputSymbols(const SymbolTable* syms) {
- if (osymbols_) delete osymbols_;
- if (syms) {
- osymbols_ = syms->Copy();
- flags_ |= kEncodeHasOSymbols;
- } else {
- osymbols_ = 0;
- flags_ &= ~kEncodeHasOSymbols;
- }
- }
-
- private:
- uint32 flags_;
- vector<Tuple*> encode_tuples_;
- EncodeHash encode_hash_;
- RefCounter ref_count_;
- SymbolTable *isymbols_; // Pre-encoded ilabel symbol table
- SymbolTable *osymbols_; // Pre-encoded olabel symbol table
-
- DISALLOW_COPY_AND_ASSIGN(EncodeTable);
-};
-
-template <class A> inline
-bool EncodeTable<A>::Write(ostream &strm, const string &source) const {
- WriteType(strm, kEncodeMagicNumber);
- WriteType(strm, flags_);
- int64 size = encode_tuples_.size();
- WriteType(strm, size);
- for (size_t i = 0; i < size; ++i) {
- const Tuple* tuple = encode_tuples_[i];
- WriteType(strm, tuple->ilabel);
- WriteType(strm, tuple->olabel);
- tuple->weight.Write(strm);
- }
-
- if (flags_ & kEncodeHasISymbols)
- isymbols_->Write(strm);
-
- if (flags_ & kEncodeHasOSymbols)
- osymbols_->Write(strm);
-
- strm.flush();
- if (!strm) {
- LOG(ERROR) << "EncodeTable::Write: write failed: " << source;
- return false;
- }
- return true;
-}
-
-template <class A> inline
-EncodeTable<A> *EncodeTable<A>::Read(istream &strm, const string &source) {
- int32 magic_number = 0;
- ReadType(strm, &magic_number);
- if (magic_number != kEncodeMagicNumber) {
- LOG(ERROR) << "EncodeTable::Read: Bad encode table header: " << source;
- return 0;
- }
- uint32 flags;
- ReadType(strm, &flags);
- EncodeTable<A> *table = new EncodeTable<A>(flags);
-
- int64 size;
- ReadType(strm, &size);
- if (!strm) {
- LOG(ERROR) << "EncodeTable::Read: read failed: " << source;
- return 0;
- }
-
- for (size_t i = 0; i < size; ++i) {
- Tuple* tuple = new Tuple();
- ReadType(strm, &tuple->ilabel);
- ReadType(strm, &tuple->olabel);
- tuple->weight.Read(strm);
- if (!strm) {
- LOG(ERROR) << "EncodeTable::Read: read failed: " << source;
- return 0;
- }
- table->encode_tuples_.push_back(tuple);
- table->encode_hash_[table->encode_tuples_.back()] =
- table->encode_tuples_.size();
- }
-
- if (flags & kEncodeHasISymbols)
- table->isymbols_ = SymbolTable::Read(strm, source);
-
- if (flags & kEncodeHasOSymbols)
- table->osymbols_ = SymbolTable::Read(strm, source);
-
- return table;
-}
-
-
-// A mapper to encode/decode weighted transducers. Encoding of an
-// Fst is useful for performing classical determinization or minimization
-// on a weighted transducer by treating it as an unweighted acceptor over
-// encoded labels.
-//
-// The Encode mapper stores the encoding in a local hash table (EncodeTable)
-// This table is shared (and reference counted) between the encoder and
-// decoder. A decoder has read only access to the EncodeTable.
-//
-// The EncodeMapper allows on the fly encoding of the machine. As the
-// EncodeTable is generated the same table may by used to decode the machine
-// on the fly. For example in the following sequence of operations
-//
-// Encode -> Determinize -> Decode
-//
-// we will use the encoding table generated during the encode step in the
-// decode, even though the encoding is not complete.
-//
-template <class A> class EncodeMapper {
- typedef typename A::Weight Weight;
- typedef typename A::Label Label;
- public:
- EncodeMapper(uint32 flags, EncodeType type)
- : flags_(flags),
- type_(type),
- table_(new EncodeTable<A>(flags)),
- error_(false) {}
-
- EncodeMapper(const EncodeMapper& mapper)
- : flags_(mapper.flags_),
- type_(mapper.type_),
- table_(mapper.table_),
- error_(false) {
- table_->IncrRefCount();
- }
-
- // Copy constructor but setting the type, typically to DECODE
- EncodeMapper(const EncodeMapper& mapper, EncodeType type)
- : flags_(mapper.flags_),
- type_(type),
- table_(mapper.table_),
- error_(mapper.error_) {
- table_->IncrRefCount();
- }
-
- ~EncodeMapper() {
- if (!table_->DecrRefCount()) delete table_;
- }
-
- A operator()(const A &arc);
-
- MapFinalAction FinalAction() const {
- return (type_ == ENCODE && (flags_ & kEncodeWeights)) ?
- MAP_REQUIRE_SUPERFINAL : MAP_NO_SUPERFINAL;
- }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_CLEAR_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_CLEAR_SYMBOLS;}
-
- uint64 Properties(uint64 inprops) {
- uint64 outprops = inprops;
- if (error_) outprops |= kError;
-
- uint64 mask = kFstProperties;
- if (flags_ & kEncodeLabels)
- mask &= kILabelInvariantProperties & kOLabelInvariantProperties;
- if (flags_ & kEncodeWeights)
- mask &= kILabelInvariantProperties & kWeightInvariantProperties &
- (type_ == ENCODE ? kAddSuperFinalProperties :
- kRmSuperFinalProperties);
-
- return outprops & mask;
- }
-
- const uint32 flags() const { return flags_; }
- const EncodeType type() const { return type_; }
- const EncodeTable<A> &table() const { return *table_; }
-
- bool Write(ostream &strm, const string& source) {
- return table_->Write(strm, source);
- }
-
- bool Write(const string& filename) {
- ofstream strm(filename.c_str(), ofstream::out | ofstream::binary);
- if (!strm) {
- LOG(ERROR) << "EncodeMap: Can't open file: " << filename;
- return false;
- }
- return Write(strm, filename);
- }
-
- static EncodeMapper<A> *Read(istream &strm,
- const string& source,
- EncodeType type = ENCODE) {
- EncodeTable<A> *table = EncodeTable<A>::Read(strm, source);
- return table ? new EncodeMapper(table->flags(), type, table) : 0;
- }
-
- static EncodeMapper<A> *Read(const string& filename,
- EncodeType type = ENCODE) {
- ifstream strm(filename.c_str(), ifstream::in | ifstream::binary);
- if (!strm) {
- LOG(ERROR) << "EncodeMap: Can't open file: " << filename;
- return NULL;
- }
- return Read(strm, filename, type);
- }
-
- SymbolTable *InputSymbols() const { return table_->InputSymbols(); }
-
- SymbolTable *OutputSymbols() const { return table_->OutputSymbols(); }
-
- void SetInputSymbols(const SymbolTable* syms) {
- table_->SetInputSymbols(syms);
- }
-
- void SetOutputSymbols(const SymbolTable* syms) {
- table_->SetOutputSymbols(syms);
- }
-
- private:
- uint32 flags_;
- EncodeType type_;
- EncodeTable<A>* table_;
- bool error_;
-
- explicit EncodeMapper(uint32 flags, EncodeType type, EncodeTable<A> *table)
- : flags_(flags), type_(type), table_(table) {}
- void operator=(const EncodeMapper &); // Disallow.
-};
-
-template <class A> inline
-A EncodeMapper<A>::operator()(const A &arc) {
- if (type_ == ENCODE) { // labels and/or weights to single label
- if ((arc.nextstate == kNoStateId && !(flags_ & kEncodeWeights)) ||
- (arc.nextstate == kNoStateId && (flags_ & kEncodeWeights) &&
- arc.weight == Weight::Zero())) {
- return arc;
- } else {
- Label label = table_->Encode(arc);
- return A(label,
- flags_ & kEncodeLabels ? label : arc.olabel,
- flags_ & kEncodeWeights ? Weight::One() : arc.weight,
- arc.nextstate);
- }
- } else { // type_ == DECODE
- if (arc.nextstate == kNoStateId) {
- return arc;
- } else {
- if (arc.ilabel == 0) return arc;
- if (flags_ & kEncodeLabels && arc.ilabel != arc.olabel) {
- FSTERROR() << "EncodeMapper: Label-encoded arc has different "
- "input and output labels";
- error_ = true;
- }
- if (flags_ & kEncodeWeights && arc.weight != Weight::One()) {
- FSTERROR() <<
- "EncodeMapper: Weight-encoded arc has non-trivial weight";
- error_ = true;
- }
- const typename EncodeTable<A>::Tuple* tuple = table_->Decode(arc.ilabel);
- if (!tuple) {
- FSTERROR() << "EncodeMapper: decode failed";
- error_ = true;
- return A(kNoLabel, kNoLabel, Weight::NoWeight(), arc.nextstate);
- } else {
- return A(tuple->ilabel,
- flags_ & kEncodeLabels ? tuple->olabel : arc.olabel,
- flags_ & kEncodeWeights ? tuple->weight : arc.weight,
- arc.nextstate);
- }
- }
- }
-}
-
-
-// Complexity: O(nstates + narcs)
-template<class A> inline
-void Encode(MutableFst<A> *fst, EncodeMapper<A>* mapper) {
- mapper->SetInputSymbols(fst->InputSymbols());
- mapper->SetOutputSymbols(fst->OutputSymbols());
- ArcMap(fst, mapper);
-}
-
-template<class A> inline
-void Decode(MutableFst<A>* fst, const EncodeMapper<A>& mapper) {
- ArcMap(fst, EncodeMapper<A>(mapper, DECODE));
- RmFinalEpsilon(fst);
- fst->SetInputSymbols(mapper.InputSymbols());
- fst->SetOutputSymbols(mapper.OutputSymbols());
-}
-
-
-// On the fly label and/or weight encoding of input Fst
-//
-// Complexity:
-// - Constructor: O(1)
-// - Traversal: O(nstates_visited + narcs_visited), assuming constant
-// time to visit an input state or arc.
-template <class A>
-class EncodeFst : public ArcMapFst<A, A, EncodeMapper<A> > {
- public:
- typedef A Arc;
- typedef EncodeMapper<A> C;
- typedef ArcMapFstImpl< A, A, EncodeMapper<A> > Impl;
- using ImplToFst<Impl>::GetImpl;
-
- EncodeFst(const Fst<A> &fst, EncodeMapper<A>* encoder)
- : ArcMapFst<A, A, C>(fst, encoder, ArcMapFstOptions()) {
- encoder->SetInputSymbols(fst.InputSymbols());
- encoder->SetOutputSymbols(fst.OutputSymbols());
- }
-
- EncodeFst(const Fst<A> &fst, const EncodeMapper<A>& encoder)
- : ArcMapFst<A, A, C>(fst, encoder, ArcMapFstOptions()) {}
-
- // See Fst<>::Copy() for doc.
- EncodeFst(const EncodeFst<A> &fst, bool copy = false)
- : ArcMapFst<A, A, C>(fst, copy) {}
-
- // Get a copy of this EncodeFst. See Fst<>::Copy() for further doc.
- virtual EncodeFst<A> *Copy(bool safe = false) const {
- if (safe) {
- FSTERROR() << "EncodeFst::Copy(true): not allowed.";
- GetImpl()->SetProperties(kError, kError);
- }
- return new EncodeFst(*this);
- }
-};
-
-
-// On the fly label and/or weight encoding of input Fst
-//
-// Complexity:
-// - Constructor: O(1)
-// - Traversal: O(nstates_visited + narcs_visited), assuming constant
-// time to visit an input state or arc.
-template <class A>
-class DecodeFst : public ArcMapFst<A, A, EncodeMapper<A> > {
- public:
- typedef A Arc;
- typedef EncodeMapper<A> C;
- typedef ArcMapFstImpl< A, A, EncodeMapper<A> > Impl;
- using ImplToFst<Impl>::GetImpl;
-
- DecodeFst(const Fst<A> &fst, const EncodeMapper<A>& encoder)
- : ArcMapFst<A, A, C>(fst,
- EncodeMapper<A>(encoder, DECODE),
- ArcMapFstOptions()) {
- GetImpl()->SetInputSymbols(encoder.InputSymbols());
- GetImpl()->SetOutputSymbols(encoder.OutputSymbols());
- }
-
- // See Fst<>::Copy() for doc.
- DecodeFst(const DecodeFst<A> &fst, bool safe = false)
- : ArcMapFst<A, A, C>(fst, safe) {}
-
- // Get a copy of this DecodeFst. See Fst<>::Copy() for further doc.
- virtual DecodeFst<A> *Copy(bool safe = false) const {
- return new DecodeFst(*this, safe);
- }
-};
-
-
-// Specialization for EncodeFst.
-template <class A>
-class StateIterator< EncodeFst<A> >
- : public StateIterator< ArcMapFst<A, A, EncodeMapper<A> > > {
- public:
- explicit StateIterator(const EncodeFst<A> &fst)
- : StateIterator< ArcMapFst<A, A, EncodeMapper<A> > >(fst) {}
-};
-
-
-// Specialization for EncodeFst.
-template <class A>
-class ArcIterator< EncodeFst<A> >
- : public ArcIterator< ArcMapFst<A, A, EncodeMapper<A> > > {
- public:
- ArcIterator(const EncodeFst<A> &fst, typename A::StateId s)
- : ArcIterator< ArcMapFst<A, A, EncodeMapper<A> > >(fst, s) {}
-};
-
-
-// Specialization for DecodeFst.
-template <class A>
-class StateIterator< DecodeFst<A> >
- : public StateIterator< ArcMapFst<A, A, EncodeMapper<A> > > {
- public:
- explicit StateIterator(const DecodeFst<A> &fst)
- : StateIterator< ArcMapFst<A, A, EncodeMapper<A> > >(fst) {}
-};
-
-
-// Specialization for DecodeFst.
-template <class A>
-class ArcIterator< DecodeFst<A> >
- : public ArcIterator< ArcMapFst<A, A, EncodeMapper<A> > > {
- public:
- ArcIterator(const DecodeFst<A> &fst, typename A::StateId s)
- : ArcIterator< ArcMapFst<A, A, EncodeMapper<A> > >(fst, s) {}
-};
-
-
-// Useful aliases when using StdArc.
-typedef EncodeFst<StdArc> StdEncodeFst;
-
-typedef DecodeFst<StdArc> StdDecodeFst;
-
-} // namespace fst
-
-#endif // FST_LIB_ENCODE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/epsnormalize.h b/kaldi_io/src/tools/openfst/include/fst/epsnormalize.h
deleted file mode 100644
index 9d178b1..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/epsnormalize.h
+++ /dev/null
@@ -1,73 +0,0 @@
-// epsnormalize.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Function that implements epsilon normalization.
-
-#ifndef FST_LIB_EPSNORMALIZE_H__
-#define FST_LIB_EPSNORMALIZE_H__
-
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-
-
-#include <fst/factor-weight.h>
-#include <fst/invert.h>
-#include <fst/arc-map.h>
-#include <fst/rmepsilon.h>
-
-
-namespace fst {
-
-enum EpsNormalizeType {EPS_NORM_INPUT, EPS_NORM_OUTPUT};
-
-// Returns an equivalent FST that is epsilon-normalized. An acceptor is
-// epsilon-normalized if it is epsilon-removed. A transducer is input
-// epsilon-normalized if additionally if on each path any epsilon input
-// label follows all non-epsilon input labels. Output epsilon-normalized
-// is defined similarly.
-//
-// The input FST needs to be functional.
-//
-// References:
-// - Mehryar Mohri. "Generic epsilon-removal and input epsilon-normalization
-// algorithms for weighted transducers", International Journal of Computer
-// Science, 13(1): 129-143, 2002.
-template <class Arc>
-void EpsNormalize(const Fst<Arc> &ifst, MutableFst<Arc> *ofst,
- EpsNormalizeType type = EPS_NORM_INPUT) {
- VectorFst< GallicArc<Arc, STRING_RIGHT_RESTRICT> > gfst;
- if (type == EPS_NORM_INPUT)
- ArcMap(ifst, &gfst, ToGallicMapper<Arc, STRING_RIGHT_RESTRICT>());
- else // type == EPS_NORM_OUTPUT
- ArcMap(InvertFst<Arc>(ifst), &gfst,
- ToGallicMapper<Arc, STRING_RIGHT_RESTRICT>());
- RmEpsilon(&gfst);
- FactorWeightFst< GallicArc<Arc, STRING_RIGHT_RESTRICT>,
- GallicFactor<typename Arc::Label,
- typename Arc::Weight, STRING_RIGHT_RESTRICT> >
- fwfst(gfst);
- ArcMap(fwfst, ofst, FromGallicMapper<Arc, STRING_RIGHT_RESTRICT>());
- ofst->SetOutputSymbols(ifst.OutputSymbols());
- if(type == EPS_NORM_OUTPUT)
- Invert(ofst);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_EPSNORMALIZE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/equal.h b/kaldi_io/src/tools/openfst/include/fst/equal.h
deleted file mode 100644
index 33be198..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/equal.h
+++ /dev/null
@@ -1,124 +0,0 @@
-// test.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Function to test equality of two Fsts.
-
-#ifndef FST_LIB_EQUAL_H__
-#define FST_LIB_EQUAL_H__
-
-#include <fst/fst.h>
-
-
-namespace fst {
-
-// Tests if two Fsts have the same states and arcs in the same order.
-template<class Arc>
-bool Equal(const Fst<Arc> &fst1, const Fst<Arc> &fst2, float delta = kDelta) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- if (fst1.Start() != fst2.Start()) {
- VLOG(1) << "Equal: mismatched start states";
- return false;
- }
-
- StateIterator< Fst<Arc> > siter1(fst1);
- StateIterator< Fst<Arc> > siter2(fst2);
-
- while (!siter1.Done() || !siter2.Done()) {
- if (siter1.Done() || siter2.Done()) {
- VLOG(1) << "Equal: mismatched # of states";
- return false;
- }
- StateId s1 = siter1.Value();
- StateId s2 = siter2.Value();
- if (s1 != s2) {
- VLOG(1) << "Equal: mismatched states:"
- << ", state1 = " << s1
- << ", state2 = " << s2;
- return false;
- }
- Weight final1 = fst1.Final(s1);
- Weight final2 = fst2.Final(s2);
- if (!ApproxEqual(final1, final2, delta)) {
- VLOG(1) << "Equal: mismatched final weights:"
- << " state = " << s1
- << ", final1 = " << final1
- << ", final2 = " << final2;
- return false;
- }
- ArcIterator< Fst<Arc> > aiter1(fst1, s1);
- ArcIterator< Fst<Arc> > aiter2(fst2, s2);
- for (size_t a = 0; !aiter1.Done() || !aiter2.Done(); ++a) {
- if (aiter1.Done() || aiter2.Done()) {
- VLOG(1) << "Equal: mismatched # of arcs"
- << " state = " << s1;
- return false;
- }
- Arc arc1 = aiter1.Value();
- Arc arc2 = aiter2.Value();
- if (arc1.ilabel != arc2.ilabel) {
- VLOG(1) << "Equal: mismatched arc input labels:"
- << " state = " << s1
- << ", arc = " << a
- << ", ilabel1 = " << arc1.ilabel
- << ", ilabel2 = " << arc2.ilabel;
- return false;
- } else if (arc1.olabel != arc2.olabel) {
- VLOG(1) << "Equal: mismatched arc output labels:"
- << " state = " << s1
- << ", arc = " << a
- << ", olabel1 = " << arc1.olabel
- << ", olabel2 = " << arc2.olabel;
- return false;
- } else if (!ApproxEqual(arc1.weight, arc2.weight, delta)) {
- VLOG(1) << "Equal: mismatched arc weights:"
- << " state = " << s1
- << ", arc = " << a
- << ", weight1 = " << arc1.weight
- << ", weight2 = " << arc2.weight;
- return false;
- } else if (arc1.nextstate != arc2.nextstate) {
- VLOG(1) << "Equal: mismatched input label:"
- << " state = " << s1
- << ", arc = " << a
- << ", nextstate1 = " << arc1.nextstate
- << ", nextstate2 = " << arc2.nextstate;
- return false;
- }
- aiter1.Next();
- aiter2.Next();
-
- }
- // Sanity checks: should never fail
- if (fst1.NumArcs(s1) != fst2.NumArcs(s2) ||
- fst1.NumInputEpsilons(s1) != fst2.NumInputEpsilons(s2) ||
- fst1.NumOutputEpsilons(s1) != fst2.NumOutputEpsilons(s2)) {
- FSTERROR() << "Equal: inconsistent arc/epsilon counts";
- }
-
- siter1.Next();
- siter2.Next();
- }
- return true;
-}
-
-} // namespace fst
-
-
-#endif // FST_LIB_EQUAL_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/equivalent.h b/kaldi_io/src/tools/openfst/include/fst/equivalent.h
deleted file mode 100644
index e28fea1..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/equivalent.h
+++ /dev/null
@@ -1,275 +0,0 @@
-// equivalent.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Wojciech Skut)
-//
-// \file Functions and classes to determine the equivalence of two
-// FSTs.
-
-#ifndef FST_LIB_EQUIVALENT_H__
-#define FST_LIB_EQUIVALENT_H__
-
-#include <algorithm>
-#include <deque>
-using std::deque;
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-#include <fst/encode.h>
-#include <fst/push.h>
-#include <fst/union-find.h>
-#include <fst/vector-fst.h>
-
-
-namespace fst {
-
-// Traits-like struct holding utility functions/typedefs/constants for
-// the equivalence algorithm.
-//
-// Encoding device: in order to make the statesets of the two acceptors
-// disjoint, we map Arc::StateId on the type MappedId. The states of
-// the first acceptor are mapped on odd numbers (s -> 2s + 1), and
-// those of the second one on even numbers (s -> 2s + 2). The number 0
-// is reserved for an implicit (non-final) 'dead state' (required for
-// the correct treatment of non-coaccessible states; kNoStateId is
-// mapped to kDeadState for both acceptors). The union-find algorithm
-// operates on the mapped IDs.
-template <class Arc>
-struct EquivalenceUtil {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
- typedef StateId MappedId; // ID for an equivalence class.
-
- // MappedId for an implicit dead state.
- static const MappedId kDeadState = 0;
-
- // MappedId for lookup failure.
- static const MappedId kInvalidId = -1;
-
- // Maps state ID to the representative of the corresponding
- // equivalence class. The parameter 'which_fst' takes the values 1
- // and 2, identifying the input FST.
- static MappedId MapState(StateId s, int32 which_fst) {
- return
- (kNoStateId == s)
- ?
- kDeadState
- :
- (static_cast<MappedId>(s) << 1) + which_fst;
- }
- // Maps set ID to State ID.
- static StateId UnMapState(MappedId id) {
- return static_cast<StateId>((--id) >> 1);
- }
- // Convenience function: checks if state with MappedId 's' is final
- // in acceptor 'fa'.
- static bool IsFinal(const Fst<Arc> &fa, MappedId s) {
- return
- (kDeadState == s) ?
- false : (fa.Final(UnMapState(s)) != Weight::Zero());
- }
- // Convenience function: returns the representative of 'id' in 'sets',
- // creating a new set if needed.
- static MappedId FindSet(UnionFind<MappedId> *sets, MappedId id) {
- MappedId repr = sets->FindSet(id);
- if (repr != kInvalidId) {
- return repr;
- } else {
- sets->MakeSet(id);
- return id;
- }
- }
-};
-
-template <class Arc> const
-typename EquivalenceUtil<Arc>::MappedId EquivalenceUtil<Arc>::kDeadState;
-
-template <class Arc> const
-typename EquivalenceUtil<Arc>::MappedId EquivalenceUtil<Arc>::kInvalidId;
-
-
-// Equivalence checking algorithm: determines if the two FSTs
-// <code>fst1</code> and <code>fst2</code> are equivalent. The input
-// FSTs must be deterministic input-side epsilon-free acceptors,
-// unweighted or with weights over a left semiring. Two acceptors are
-// considered equivalent if they accept exactly the same set of
-// strings (with the same weights).
-//
-// The algorithm (cf. Aho, Hopcroft and Ullman, "The Design and
-// Analysis of Computer Programs") successively constructs sets of
-// states that can be reached by the same prefixes, starting with a
-// set containing the start states of both acceptors. A disjoint tree
-// forest (the union-find algorithm) is used to represent the sets of
-// states. The algorithm returns 'false' if one of the constructed
-// sets contains both final and non-final states. Returns optional error
-// value (when FLAGS_error_fatal = false).
-//
-// Complexity: quasi-linear, i.e. O(n G(n)), where
-// n = |S1| + |S2| is the number of states in both acceptors
-// G(n) is a very slowly growing function that can be approximated
-// by 4 by all practical purposes.
-//
-template <class Arc>
-bool Equivalent(const Fst<Arc> &fst1,
- const Fst<Arc> &fst2,
- double delta = kDelta, bool *error = 0) {
- typedef typename Arc::Weight Weight;
- if (error) *error = false;
-
- // Check that the symbol table are compatible
- if (!CompatSymbols(fst1.InputSymbols(), fst2.InputSymbols()) ||
- !CompatSymbols(fst1.OutputSymbols(), fst2.OutputSymbols())) {
- FSTERROR() << "Equivalent: input/output symbol tables of 1st argument "
- << "do not match input/output symbol tables of 2nd argument";
- if (error) *error = true;
- return false;
- }
- // Check properties first:
- uint64 props = kNoEpsilons | kIDeterministic | kAcceptor;
- if (fst1.Properties(props, true) != props) {
- FSTERROR() << "Equivalent: first argument not an"
- << " epsilon-free deterministic acceptor";
- if (error) *error = true;
- return false;
- }
- if (fst2.Properties(props, true) != props) {
- FSTERROR() << "Equivalent: second argument not an"
- << " epsilon-free deterministic acceptor";
- if (error) *error = true;
- return false;
- }
-
- if ((fst1.Properties(kUnweighted , true) != kUnweighted)
- || (fst2.Properties(kUnweighted , true) != kUnweighted)) {
- VectorFst<Arc> efst1(fst1);
- VectorFst<Arc> efst2(fst2);
- Push(&efst1, REWEIGHT_TO_INITIAL, delta);
- Push(&efst2, REWEIGHT_TO_INITIAL, delta);
- ArcMap(&efst1, QuantizeMapper<Arc>(delta));
- ArcMap(&efst2, QuantizeMapper<Arc>(delta));
- EncodeMapper<Arc> mapper(kEncodeWeights|kEncodeLabels, ENCODE);
- ArcMap(&efst1, &mapper);
- ArcMap(&efst2, &mapper);
- return Equivalent(efst1, efst2);
- }
-
- // Convenience typedefs:
- typedef typename Arc::StateId StateId;
- typedef EquivalenceUtil<Arc> Util;
- typedef typename Util::MappedId MappedId;
- enum { FST1 = 1, FST2 = 2 }; // Required by Util::MapState(...)
-
- MappedId s1 = Util::MapState(fst1.Start(), FST1);
- MappedId s2 = Util::MapState(fst2.Start(), FST2);
-
- // The union-find structure.
- UnionFind<MappedId> eq_classes(1000, Util::kInvalidId);
-
- // Initialize the union-find structure.
- eq_classes.MakeSet(s1);
- eq_classes.MakeSet(s2);
-
- // Data structure for the (partial) acceptor transition function of
- // fst1 and fst2: input labels mapped to pairs of MappedId's
- // representing destination states of the corresponding arcs in fst1
- // and fst2, respectively.
- typedef
- unordered_map<typename Arc::Label, pair<MappedId, MappedId> >
- Label2StatePairMap;
-
- Label2StatePairMap arc_pairs;
-
- // Pairs of MappedId's to be processed, organized in a queue.
- deque<pair<MappedId, MappedId> > q;
-
- bool ret = true;
- // Early return if the start states differ w.r.t. being final.
- if (Util::IsFinal(fst1, s1) != Util::IsFinal(fst2, s2)) {
- ret = false;
- }
-
- // Main loop: explores the two acceptors in a breadth-first manner,
- // updating the equivalence relation on the statesets. Loop
- // invariant: each block of states contains either final states only
- // or non-final states only.
- for (q.push_back(make_pair(s1, s2)); ret && !q.empty(); q.pop_front()) {
- s1 = q.front().first;
- s2 = q.front().second;
-
- // Representatives of the equivalence classes of s1/s2.
- MappedId rep1 = Util::FindSet(&eq_classes, s1);
- MappedId rep2 = Util::FindSet(&eq_classes, s2);
-
- if (rep1 != rep2) {
- eq_classes.Union(rep1, rep2);
- arc_pairs.clear();
-
- // Copy outgoing arcs starting at s1 into the hashtable.
- if (Util::kDeadState != s1) {
- ArcIterator<Fst<Arc> > arc_iter(fst1, Util::UnMapState(s1));
- for (; !arc_iter.Done(); arc_iter.Next()) {
- const Arc &arc = arc_iter.Value();
- if (arc.weight != Weight::Zero()) { // Zero-weight arcs
- // are treated as
- // non-exisitent.
- arc_pairs[arc.ilabel].first = Util::MapState(arc.nextstate, FST1);
- }
- }
- }
- // Copy outgoing arcs starting at s2 into the hashtable.
- if (Util::kDeadState != s2) {
- ArcIterator<Fst<Arc> > arc_iter(fst2, Util::UnMapState(s2));
- for (; !arc_iter.Done(); arc_iter.Next()) {
- const Arc &arc = arc_iter.Value();
- if (arc.weight != Weight::Zero()) { // Zero-weight arcs
- // are treated as
- // non-existent.
- arc_pairs[arc.ilabel].second = Util::MapState(arc.nextstate, FST2);
- }
- }
- }
- // Iterate through the hashtable and process pairs of target
- // states.
- for (typename Label2StatePairMap::const_iterator
- arc_iter = arc_pairs.begin();
- arc_iter != arc_pairs.end();
- ++arc_iter) {
- const pair<MappedId, MappedId> &p = arc_iter->second;
- if (Util::IsFinal(fst1, p.first) != Util::IsFinal(fst2, p.second)) {
- // Detected inconsistency: return false.
- ret = false;
- break;
- }
- q.push_back(p);
- }
- }
- }
-
- if (fst1.Properties(kError, false) || fst2.Properties(kError, false)) {
- if (error) *error = true;
- return false;
- }
-
- return ret;
-}
-
-} // namespace fst
-
-#endif // FST_LIB_EQUIVALENT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/expanded-fst.h b/kaldi_io/src/tools/openfst/include/fst/expanded-fst.h
deleted file mode 100644
index 676ceb3..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/expanded-fst.h
+++ /dev/null
@@ -1,189 +0,0 @@
-// expanded-fst.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Generic FST augmented with state count - interface class definition.
-//
-
-#ifndef FST_LIB_EXPANDED_FST_H__
-#define FST_LIB_EXPANDED_FST_H__
-
-#include <sys/types.h>
-#include <string>
-
-#include <fst/fst.h>
-
-
-namespace fst {
-
-// A generic FST plus state count.
-template <class A>
-class ExpandedFst : public Fst<A> {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
-
- virtual StateId NumStates() const = 0; // State count
-
- // Get a copy of this ExpandedFst. See Fst<>::Copy() for further doc.
- virtual ExpandedFst<A> *Copy(bool safe = false) const = 0;
-
- // Read an ExpandedFst from an input stream; return NULL on error.
- static ExpandedFst<A> *Read(istream &strm, const FstReadOptions &opts) {
- FstReadOptions ropts(opts);
- FstHeader hdr;
- if (ropts.header)
- hdr = *opts.header;
- else {
- if (!hdr.Read(strm, opts.source))
- return 0;
- ropts.header = &hdr;
- }
- if (!(hdr.Properties() & kExpanded)) {
- LOG(ERROR) << "ExpandedFst::Read: Not an ExpandedFst: " << ropts.source;
- return 0;
- }
- FstRegister<A> *registr = FstRegister<A>::GetRegister();
- const typename FstRegister<A>::Reader reader =
- registr->GetReader(hdr.FstType());
- if (!reader) {
- LOG(ERROR) << "ExpandedFst::Read: Unknown FST type \"" << hdr.FstType()
- << "\" (arc type = \"" << A::Type()
- << "\"): " << ropts.source;
- return 0;
- }
- Fst<A> *fst = reader(strm, ropts);
- if (!fst) return 0;
- return static_cast<ExpandedFst<A> *>(fst);
- }
-
- // Read an ExpandedFst from a file; return NULL on error.
- // Empty filename reads from standard input.
- static ExpandedFst<A> *Read(const string &filename) {
- if (!filename.empty()) {
- ifstream strm(filename.c_str(), ifstream::in | ifstream::binary);
- if (!strm) {
- LOG(ERROR) << "ExpandedFst::Read: Can't open file: " << filename;
- return 0;
- }
- return Read(strm, FstReadOptions(filename));
- } else {
- return Read(cin, FstReadOptions("standard input"));
- }
- }
-};
-
-
-namespace internal {
-
-// ExpandedFst<A> case - abstract methods.
-template <class A> inline
-typename A::Weight Final(const ExpandedFst<A> &fst, typename A::StateId s) {
- return fst.Final(s);
-}
-
-template <class A> inline
-ssize_t NumArcs(const ExpandedFst<A> &fst, typename A::StateId s) {
- return fst.NumArcs(s);
-}
-
-template <class A> inline
-ssize_t NumInputEpsilons(const ExpandedFst<A> &fst, typename A::StateId s) {
- return fst.NumInputEpsilons(s);
-}
-
-template <class A> inline
-ssize_t NumOutputEpsilons(const ExpandedFst<A> &fst, typename A::StateId s) {
- return fst.NumOutputEpsilons(s);
-}
-
-} // namespace internal
-
-
-// A useful alias when using StdArc.
-typedef ExpandedFst<StdArc> StdExpandedFst;
-
-
-// This is a helper class template useful for attaching an ExpandedFst
-// interface to its implementation, handling reference counting. It
-// delegates to ImplToFst the handling of the Fst interface methods.
-template < class I, class F = ExpandedFst<typename I::Arc> >
-class ImplToExpandedFst : public ImplToFst<I, F> {
- public:
- typedef typename I::Arc Arc;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- using ImplToFst<I, F>::GetImpl;
-
- virtual StateId NumStates() const { return GetImpl()->NumStates(); }
-
- protected:
- ImplToExpandedFst() : ImplToFst<I, F>() {}
-
- ImplToExpandedFst(I *impl) : ImplToFst<I, F>(impl) {}
-
- ImplToExpandedFst(const ImplToExpandedFst<I, F> &fst)
- : ImplToFst<I, F>(fst) {}
-
- ImplToExpandedFst(const ImplToExpandedFst<I, F> &fst, bool safe)
- : ImplToFst<I, F>(fst, safe) {}
-
- // Read FST implementation from a file; return NULL on error.
- // Empty filename reads from standard input.
- static I *Read(const string &filename) {
- if (!filename.empty()) {
- ifstream strm(filename.c_str(), ifstream::in | ifstream::binary);
- if (!strm) {
- LOG(ERROR) << "ExpandedFst::Read: Can't open file: " << filename;
- return 0;
- }
- return I::Read(strm, FstReadOptions(filename));
- } else {
- return I::Read(cin, FstReadOptions("standard input"));
- }
- }
-
- private:
- // Disallow
- ImplToExpandedFst<I, F> &operator=(const ImplToExpandedFst<I, F> &fst);
-
- ImplToExpandedFst<I, F> &operator=(const Fst<Arc> &fst) {
- FSTERROR() << "ImplToExpandedFst: Assignment operator disallowed";
- GetImpl()->SetProperties(kError, kError);
- return *this;
- }
-};
-
-// Function to return the number of states in an FST, counting them
-// if necessary.
-template <class Arc>
-typename Arc::StateId CountStates(const Fst<Arc> &fst) {
- if (fst.Properties(kExpanded, false)) {
- const ExpandedFst<Arc> *efst = static_cast<const ExpandedFst<Arc> *>(&fst);
- return efst->NumStates();
- } else {
- typename Arc::StateId nstates = 0;
- for (StateIterator< Fst<Arc> > siter(fst); !siter.Done(); siter.Next())
- ++nstates;
- return nstates;
- }
-}
-
-} // namespace fst
-
-#endif // FST_LIB_EXPANDED_FST_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/expectation-weight.h b/kaldi_io/src/tools/openfst/include/fst/expectation-weight.h
deleted file mode 100644
index 5226cad..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/expectation-weight.h
+++ /dev/null
@@ -1,142 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Kasturi Rangan Raghavan)
-// Inspiration: [email protected] (Masha Maria Shugrina)
-// \file
-// Expectation semiring as described by Jason Eisner:
-// See: doi=10.1.1.22.9398
-// Multiplex semiring operations and identities:
-// One: <One, Zero>
-// Zero: <Zero, Zero>
-// Plus: <a1, b1> + <a2, b2> = < (a1 + a2) , (b1 + b2) >
-// Times: <a1, b1> * <a2, b2> = < (a1 * a2) , [(a1 * b2) + (a2 * b1)] >
-// Division: Undefined (currently)
-//
-// Usually used to store the pair <probability, random_variable> so that
-// ShortestDistance[Fst<ArcTpl<ExpectationWeight<P, V> > >]
-// == < PosteriorProbability, Expected_Value[V] >
-
-#ifndef FST_LIB_EXPECTATION_WEIGHT_H_
-#define FST_LIB_EXPECTATION_WEIGHT_H_
-
-#include<string>
-
-#include <fst/pair-weight.h>
-
-
-namespace fst {
-
-// X1 is usually a probability weight like LogWeight
-// X2 is usually a random variable or vector
-// see SignedLogWeight or SparsePowerWeight
-//
-// If X1 is distinct from X2, it is required that there is an external
-// product between X1 and X2 and if both semriring are commutative, or
-// left or right semirings, then result must have those properties.
-template <class X1, class X2>
-class ExpectationWeight : public PairWeight<X1, X2> {
- public:
- using PairWeight<X1, X2>::Value1;
- using PairWeight<X1, X2>::Value2;
-
- using PairWeight<X1, X2>::Reverse;
- using PairWeight<X1, X2>::Quantize;
- using PairWeight<X1, X2>::Member;
-
- typedef X1 W1;
- typedef X2 W2;
-
- typedef ExpectationWeight<typename X1::ReverseWeight,
- typename X2::ReverseWeight> ReverseWeight;
-
- ExpectationWeight() : PairWeight<X1, X2>(Zero()) { }
-
- ExpectationWeight(const ExpectationWeight<X1, X2>& w)
- : PairWeight<X1, X2> (w) { }
-
- ExpectationWeight(const PairWeight<X1, X2>& w)
- : PairWeight<X1, X2> (w) { }
-
- ExpectationWeight(const X1& x1, const X2& x2)
- : PairWeight<X1, X2>(x1, x2) { }
-
- static const ExpectationWeight<X1, X2> &Zero() {
- static const ExpectationWeight<X1, X2> zero(X1::Zero(), X2::Zero());
- return zero;
- }
-
- static const ExpectationWeight<X1, X2> &One() {
- static const ExpectationWeight<X1, X2> one(X1::One(), X2::Zero());
- return one;
- }
-
- static const ExpectationWeight<X1, X2> &NoWeight() {
- static const ExpectationWeight<X1, X2> no_weight(X1::NoWeight(),
- X2::NoWeight());
- return no_weight;
- }
-
- static const string &Type() {
- static const string type = "expectation_" + X1::Type() + "_" + X2::Type();
- return type;
- }
-
- PairWeight<X1, X2> Quantize(float delta = kDelta) const {
- return PairWeight<X1, X2>::Quantize();
- }
-
- ReverseWeight Reverse() const {
- return PairWeight<X1, X2>::Reverse();
- }
-
- bool Member() const {
- return PairWeight<X1, X2>::Member();
- }
-
- static uint64 Properties() {
- uint64 props1 = W1::Properties();
- uint64 props2 = W2::Properties();
- return props1 & props2 & (kLeftSemiring | kRightSemiring |
- kCommutative | kIdempotent);
- }
-};
-
-template <class X1, class X2>
-inline ExpectationWeight<X1, X2> Plus(const ExpectationWeight<X1, X2> &w,
- const ExpectationWeight<X1, X2> &v) {
- return ExpectationWeight<X1, X2>(Plus(w.Value1(), v.Value1()),
- Plus(w.Value2(), v.Value2()));
-}
-
-
-template <class X1, class X2>
-inline ExpectationWeight<X1, X2> Times(const ExpectationWeight<X1, X2> &w,
- const ExpectationWeight<X1, X2> &v) {
- return ExpectationWeight<X1, X2>(Times(w.Value1(), v.Value1()),
- Plus(Times(w.Value1(), v.Value2()),
- Times(w.Value2(), v.Value1())));
-}
-
-template <class X1, class X2>
-inline ExpectationWeight<X1, X2> Divide(const ExpectationWeight<X1, X2> &w,
- const ExpectationWeight<X1, X2> &v,
- DivideType typ = DIVIDE_ANY) {
- FSTERROR() << "ExpectationWeight::Divide: not implemented";
- return ExpectationWeight<X1, X2>::NoWeight();
-}
-
-} // namespace fst
-
-#endif // FST_LIB_EXPECTATION_WEIGHT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/compile-strings.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/compile-strings.h
deleted file mode 100644
index ca247db..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/compile-strings.h
+++ /dev/null
@@ -1,304 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Authors: [email protected] (Cyril Allauzen)
-// [email protected] (Terry Tai)
-// [email protected] (Jake Ratkiewicz)
-
-
-#ifndef FST_EXTENSIONS_FAR_COMPILE_STRINGS_H_
-#define FST_EXTENSIONS_FAR_COMPILE_STRINGS_H_
-
-#include <libgen.h>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/extensions/far/far.h>
-#include <fst/string.h>
-
-namespace fst {
-
-// Construct a reader that provides FSTs from a file (stream) either on a
-// line-by-line basis or on a per-stream basis. Note that the freshly
-// constructed reader is already set to the first input.
-//
-// Sample Usage:
-// for (StringReader<Arc> reader(...); !reader.Done(); reader.Next()) {
-// Fst *fst = reader.GetVectorFst();
-// }
-template <class A>
-class StringReader {
- public:
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename StringCompiler<A>::TokenType TokenType;
-
- enum EntryType { LINE = 1, FILE = 2 };
-
- StringReader(istream &istrm,
- const string &source,
- EntryType entry_type,
- TokenType token_type,
- bool allow_negative_labels,
- const SymbolTable *syms = 0,
- Label unknown_label = kNoStateId)
- : nline_(0), strm_(istrm), source_(source), entry_type_(entry_type),
- token_type_(token_type), symbols_(syms), done_(false),
- compiler_(token_type, syms, unknown_label, allow_negative_labels) {
- Next(); // Initialize the reader to the first input.
- }
-
- bool Done() {
- return done_;
- }
-
- void Next() {
- VLOG(1) << "Processing source " << source_ << " at line " << nline_;
- if (!strm_) { // We're done if we have no more input.
- done_ = true;
- return;
- }
- if (entry_type_ == LINE) {
- getline(strm_, content_);
- ++nline_;
- } else {
- content_.clear();
- string line;
- while (getline(strm_, line)) {
- ++nline_;
- content_.append(line);
- content_.append("\n");
- }
- }
- if (!strm_ && content_.empty()) // We're also done if we read off all the
- done_ = true; // whitespace at the end of a file.
- }
-
- VectorFst<A> *GetVectorFst(bool keep_symbols = false) {
- VectorFst<A> *fst = new VectorFst<A>;
- if (keep_symbols) {
- fst->SetInputSymbols(symbols_);
- fst->SetOutputSymbols(symbols_);
- }
- if (compiler_(content_, fst)) {
- return fst;
- } else {
- delete fst;
- return NULL;
- }
- }
-
- CompactFst<A, StringCompactor<A> > *GetCompactFst(bool keep_symbols = false) {
- CompactFst<A, StringCompactor<A> > *fst;
- if (keep_symbols) {
- VectorFst<A> tmp;
- tmp.SetInputSymbols(symbols_);
- tmp.SetOutputSymbols(symbols_);
- fst = new CompactFst<A, StringCompactor<A> >(tmp);
- } else {
- fst = new CompactFst<A, StringCompactor<A> >;
- }
- if (compiler_(content_, fst)) {
- return fst;
- } else {
- delete fst;
- return NULL;
- }
- }
-
- private:
- size_t nline_;
- istream &strm_;
- string source_;
- EntryType entry_type_;
- TokenType token_type_;
- const SymbolTable *symbols_;
- bool done_;
- StringCompiler<A> compiler_;
- string content_; // The actual content of the input stream's next FST.
-
- DISALLOW_COPY_AND_ASSIGN(StringReader);
-};
-
-// Compute the minimal length required to encode each line number as a decimal
-// number.
-int KeySize(const char *filename);
-
-template <class Arc>
-void FarCompileStrings(const vector<string> &in_fnames,
- const string &out_fname,
- const string &fst_type,
- const FarType &far_type,
- int32 generate_keys,
- FarEntryType fet,
- FarTokenType tt,
- const string &symbols_fname,
- const string &unknown_symbol,
- bool keep_symbols,
- bool initial_symbols,
- bool allow_negative_labels,
- bool file_list_input,
- const string &key_prefix,
- const string &key_suffix) {
- typename StringReader<Arc>::EntryType entry_type;
- if (fet == FET_LINE) {
- entry_type = StringReader<Arc>::LINE;
- } else if (fet == FET_FILE) {
- entry_type = StringReader<Arc>::FILE;
- } else {
- FSTERROR() << "FarCompileStrings: unknown entry type";
- return;
- }
-
- typename StringCompiler<Arc>::TokenType token_type;
- if (tt == FTT_SYMBOL) {
- token_type = StringCompiler<Arc>::SYMBOL;
- } else if (tt == FTT_BYTE) {
- token_type = StringCompiler<Arc>::BYTE;
- } else if (tt == FTT_UTF8) {
- token_type = StringCompiler<Arc>::UTF8;
- } else {
- FSTERROR() << "FarCompileStrings: unknown token type";
- return;
- }
-
- bool compact;
- if (fst_type.empty() || (fst_type == "vector")) {
- compact = false;
- } else if (fst_type == "compact") {
- compact = true;
- } else {
- FSTERROR() << "FarCompileStrings: unknown fst type: "
- << fst_type;
- return;
- }
-
- const SymbolTable *syms = 0;
- typename Arc::Label unknown_label = kNoLabel;
- if (!symbols_fname.empty()) {
- SymbolTableTextOptions opts;
- opts.allow_negative = allow_negative_labels;
- syms = SymbolTable::ReadText(symbols_fname, opts);
- if (!syms) {
- FSTERROR() << "FarCompileStrings: error reading symbol table: "
- << symbols_fname;
- return;
- }
- if (!unknown_symbol.empty()) {
- unknown_label = syms->Find(unknown_symbol);
- if (unknown_label == kNoLabel) {
- FSTERROR() << "FarCompileStrings: unknown label \"" << unknown_label
- << "\" missing from symbol table: " << symbols_fname;
- return;
- }
- }
- }
-
- FarWriter<Arc> *far_writer =
- FarWriter<Arc>::Create(out_fname, far_type);
- if (!far_writer) return;
-
- vector<string> inputs;
- if (file_list_input) {
- for (int i = 1; i < in_fnames.size(); ++i) {
- istream *istrm = in_fnames.empty() ? &cin :
- new ifstream(in_fnames[i].c_str());
- string str;
- while (getline(*istrm, str))
- inputs.push_back(str);
- if (!in_fnames.empty())
- delete istrm;
- }
- } else {
- inputs = in_fnames;
- }
-
- for (int i = 0, n = 0; i < inputs.size(); ++i) {
- if (generate_keys == 0 && inputs[i].empty()) {
- FSTERROR() << "FarCompileStrings: read from a file instead of stdin or"
- << " set the --generate_keys flags.";
- delete far_writer;
- delete syms;
- return;
- }
- int key_size = generate_keys ? generate_keys :
- (entry_type == StringReader<Arc>::FILE ? 1 :
- KeySize(inputs[i].c_str()));
- istream *istrm = inputs[i].empty() ? &cin :
- new ifstream(inputs[i].c_str());
-
- bool keep_syms = keep_symbols;
- for (StringReader<Arc> reader(
- *istrm, inputs[i].empty() ? "stdin" : inputs[i],
- entry_type, token_type, allow_negative_labels,
- syms, unknown_label);
- !reader.Done();
- reader.Next()) {
- ++n;
- const Fst<Arc> *fst;
- if (compact)
- fst = reader.GetCompactFst(keep_syms);
- else
- fst = reader.GetVectorFst(keep_syms);
- if (initial_symbols)
- keep_syms = false;
- if (!fst) {
- FSTERROR() << "FarCompileStrings: compiling string number " << n
- << " in file " << inputs[i] << " failed with token_type = "
- << (tt == FTT_BYTE ? "byte" :
- (tt == FTT_UTF8 ? "utf8" :
- (tt == FTT_SYMBOL ? "symbol" : "unknown")))
- << " and entry_type = "
- << (fet == FET_LINE ? "line" :
- (fet == FET_FILE ? "file" : "unknown"));
- delete far_writer;
- delete syms;
- if (!inputs[i].empty()) delete istrm;
- return;
- }
- ostringstream keybuf;
- keybuf.width(key_size);
- keybuf.fill('0');
- keybuf << n;
- string key;
- if (generate_keys > 0) {
- key = keybuf.str();
- } else {
- char* filename = new char[inputs[i].size() + 1];
- strcpy(filename, inputs[i].c_str());
- key = basename(filename);
- if (entry_type != StringReader<Arc>::FILE) {
- key += "-";
- key += keybuf.str();
- }
- delete[] filename;
- }
- far_writer->Add(key_prefix + key + key_suffix, *fst);
- delete fst;
- }
- if (generate_keys == 0)
- n = 0;
- if (!inputs[i].empty())
- delete istrm;
- }
-
- delete far_writer;
-}
-
-} // namespace fst
-
-
-#endif // FST_EXTENSIONS_FAR_COMPILE_STRINGS_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/create.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/create.h
deleted file mode 100644
index edb31e7..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/create.h
+++ /dev/null
@@ -1,87 +0,0 @@
-// create-main.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-// Modified: [email protected] (Jake Ratkiewicz) to use new dispatch
-//
-// \file
-// Creates a finite-state archive from component FSTs. Includes
-// helper function for farcreate.cc that templates the main on the arc
-// type to support multiple and extensible arc types.
-//
-
-#ifndef FST_EXTENSIONS_FAR_CREATE_H__
-#define FST_EXTENSIONS_FAR_CREATE_H__
-
-#include <libgen.h>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/extensions/far/far.h>
-
-namespace fst {
-
-template <class Arc>
-void FarCreate(const vector<string> &in_fnames,
- const string &out_fname,
- const int32 generate_keys,
- const bool file_list_input,
- const FarType &far_type,
- const string &key_prefix,
- const string &key_suffix) {
- FarWriter<Arc> *far_writer =
- FarWriter<Arc>::Create(out_fname, far_type);
- if (!far_writer) return;
-
- vector<string> inputs;
- if (file_list_input) {
- for (int i = 1; i < in_fnames.size(); ++i) {
- ifstream istrm(in_fnames[i].c_str());
- string str;
- while (getline(istrm, str))
- inputs.push_back(str);
- }
- } else {
- inputs = in_fnames;
- }
-
- for (int i = 0; i < inputs.size(); ++i) {
- Fst<Arc> *ifst = Fst<Arc>::Read(inputs[i]);
- if (!ifst) return;
- string key;
- if (generate_keys > 0) {
- ostringstream keybuf;
- keybuf.width(generate_keys);
- keybuf.fill('0');
- keybuf << i + 1;
- key = keybuf.str();
- } else {
- char* filename = new char[inputs[i].size() + 1];
- strcpy(filename, inputs[i].c_str());
- key = basename(filename);
- delete[] filename;
- }
-
- far_writer->Add(key_prefix + key + key_suffix, *ifst);
- delete ifst;
- }
-
- delete far_writer;
-}
-
-} // namespace fst
-
-#endif // FST_EXTENSIONS_FAR_CREATE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/equal.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/equal.h
deleted file mode 100644
index be82e2d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/equal.h
+++ /dev/null
@@ -1,99 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-
-#ifndef FST_EXTENSIONS_FAR_EQUAL_H_
-#define FST_EXTENSIONS_FAR_EQUAL_H_
-
-#include <string>
-
-#include <fst/extensions/far/far.h>
-#include <fst/equal.h>
-
-namespace fst {
-
-template <class Arc>
-bool FarEqual(const string &filename1,
- const string &filename2,
- float delta = kDelta,
- const string &begin_key = string(),
- const string &end_key = string()) {
-
- FarReader<Arc> *reader1 = FarReader<Arc>::Open(filename1);
- FarReader<Arc> *reader2 = FarReader<Arc>::Open(filename2);
- if (!reader1 || !reader2) {
- delete reader1;
- delete reader2;
- VLOG(1) << "FarEqual: cannot open input Far file(s)";
- return false;
- }
-
- if (!begin_key.empty()) {
- bool find_begin1 = reader1->Find(begin_key);
- bool find_begin2 = reader2->Find(begin_key);
- if (!find_begin1 || !find_begin2) {
- bool ret = !find_begin1 && !find_begin2;
- if (!ret) {
- VLOG(1) << "FarEqual: key \"" << begin_key << "\" missing from "
- << (find_begin1 ? "second" : "first") << " archive.";
- }
- delete reader1;
- delete reader2;
- return ret;
- }
- }
-
- for(; !reader1->Done() && !reader2->Done();
- reader1->Next(), reader2->Next()) {
- const string key1 = reader1->GetKey();
- const string key2 = reader2->GetKey();
- if (!end_key.empty() && end_key < key1 && end_key < key2) {
- delete reader1;
- delete reader2;
- return true;
- }
- if (key1 != key2) {
- VLOG(1) << "FarEqual: mismatched keys \""
- << key1 << "\" <> \"" << key2 << "\".";
- delete reader1;
- delete reader2;
- return false;
- }
- if (!Equal(reader1->GetFst(), reader2->GetFst(), delta)) {
- VLOG(1) << "FarEqual: Fsts for key \"" << key1 << "\" are not equal.";
- delete reader1;
- delete reader2;
- return false;
- }
- }
-
- if (!reader1->Done() || !reader2->Done()) {
- VLOG(1) << "FarEqual: key \""
- << (reader1->Done() ? reader2->GetKey() : reader1->GetKey())
- << "\" missing form " << (reader2->Done() ? "first" : "second")
- << " archive.";
- delete reader1;
- delete reader2;
- return false;
- }
-
- delete reader1;
- delete reader2;
- return true;
-}
-
-} // namespace fst
-
-#endif // FST_EXTENSIONS_FAR_EQUAL_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/extract.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/extract.h
deleted file mode 100644
index 95866de..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/extract.h
+++ /dev/null
@@ -1,140 +0,0 @@
-// extract-main.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-// Modified: [email protected] (Jake Ratkiewicz) to use the new arc-dispatch
-
-// \file
-// Extracts component FSTs from an finite-state archive.
-//
-
-#ifndef FST_EXTENSIONS_FAR_EXTRACT_H__
-#define FST_EXTENSIONS_FAR_EXTRACT_H__
-
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/extensions/far/far.h>
-
-namespace fst {
-
-template<class Arc>
-inline void FarWriteFst(const Fst<Arc>* fst, string key,
- string* okey, int* nrep,
- const int32 &generate_filenames, int i,
- const string &filename_prefix,
- const string &filename_suffix) {
- if (key == *okey)
- ++*nrep;
- else
- *nrep = 0;
-
- *okey = key;
-
- string ofilename;
- if (generate_filenames) {
- ostringstream tmp;
- tmp.width(generate_filenames);
- tmp.fill('0');
- tmp << i;
- ofilename = tmp.str();
- } else {
- if (*nrep > 0) {
- ostringstream tmp;
- tmp << '.' << nrep;
- key.append(tmp.str().data(), tmp.str().size());
- }
- ofilename = key;
- }
- fst->Write(filename_prefix + ofilename + filename_suffix);
-}
-
-template<class Arc>
-void FarExtract(const vector<string> &ifilenames,
- const int32 &generate_filenames,
- const string &keys,
- const string &key_separator,
- const string &range_delimiter,
- const string &filename_prefix,
- const string &filename_suffix) {
- FarReader<Arc> *far_reader = FarReader<Arc>::Open(ifilenames);
- if (!far_reader) return;
-
- string okey;
- int nrep = 0;
-
- vector<char *> key_vector;
- // User has specified a set of fsts to extract, where some of the "fsts" could
- // be ranges.
- if (!keys.empty()) {
- char *keys_cstr = new char[keys.size()+1];
- strcpy(keys_cstr, keys.c_str());
- SplitToVector(keys_cstr, key_separator.c_str(), &key_vector, true);
- int i = 0;
- for (int k = 0; k < key_vector.size(); ++k, ++i) {
- string key = string(key_vector[k]);
- char *key_cstr = new char[key.size()+1];
- strcpy(key_cstr, key.c_str());
- vector<char *> range_vector;
- SplitToVector(key_cstr, range_delimiter.c_str(), &range_vector, false);
- if (range_vector.size() == 1) { // Not a range
- if (!far_reader->Find(key)) {
- LOG(ERROR) << "FarExtract: Cannot find key: " << key;
- return;
- }
- const Fst<Arc> &fst = far_reader->GetFst();
- FarWriteFst(&fst, key, &okey, &nrep, generate_filenames, i,
- filename_prefix, filename_suffix);
- } else if (range_vector.size() == 2) { // A legal range
- string begin_key = string(range_vector[0]);
- string end_key = string(range_vector[1]);
- if (begin_key.empty() || end_key.empty()) {
- LOG(ERROR) << "FarExtract: Illegal range specification: " << key;
- return;
- }
- if (!far_reader->Find(begin_key)) {
- LOG(ERROR) << "FarExtract: Cannot find key: " << begin_key;
- return;
- }
- for ( ; !far_reader->Done(); far_reader->Next(), ++i) {
- string ikey = far_reader->GetKey();
- if (end_key < ikey) break;
- const Fst<Arc> &fst = far_reader->GetFst();
- FarWriteFst(&fst, ikey, &okey, &nrep, generate_filenames, i,
- filename_prefix, filename_suffix);
- }
- } else {
- LOG(ERROR) << "FarExtract: Illegal range specification: " << key;
- return;
- }
- delete key_cstr;
- }
- delete keys_cstr;
- return;
- }
- // Nothing specified: extract everything.
- for (int i = 1; !far_reader->Done(); far_reader->Next(), ++i) {
- string key = far_reader->GetKey();
- const Fst<Arc> &fst = far_reader->GetFst();
- FarWriteFst(&fst, key, &okey, &nrep, generate_filenames, i,
- filename_prefix, filename_suffix);
- }
- return;
-}
-
-} // namespace fst
-
-#endif // FST_EXTENSIONS_FAR_EXTRACT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/far.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/far.h
deleted file mode 100644
index acce76e..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/far.h
+++ /dev/null
@@ -1,532 +0,0 @@
-// far.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Finite-State Transducer (FST) archive classes.
-//
-
-#ifndef FST_EXTENSIONS_FAR_FAR_H__
-#define FST_EXTENSIONS_FAR_FAR_H__
-
-#include <fst/extensions/far/stlist.h>
-#include <fst/extensions/far/sttable.h>
-#include <fst/fst.h>
-#include <fst/vector-fst.h>
-
-namespace fst {
-
-enum FarEntryType { FET_LINE, FET_FILE };
-enum FarTokenType { FTT_SYMBOL, FTT_BYTE, FTT_UTF8 };
-
-inline bool IsFst(const string &filename) {
- ifstream strm(filename.c_str());
- if (!strm)
- return false;
- return IsFstHeader(strm, filename);
-}
-
-// FST archive header class
-class FarHeader {
- public:
- const string &FarType() const { return fartype_; }
- const string &ArcType() const { return arctype_; }
-
- bool Read(const string &filename) {
- FstHeader fsthdr;
- if (filename.empty()) {
- // Header reading unsupported on stdin. Assumes STList and StdArc.
- fartype_ = "stlist";
- arctype_ = "standard";
- return true;
- } else if (IsSTTable(filename)) { // Check if STTable
- ReadSTTableHeader(filename, &fsthdr);
- fartype_ = "sttable";
- arctype_ = fsthdr.ArcType().empty() ? "unknown" : fsthdr.ArcType();
- return true;
- } else if (IsSTList(filename)) { // Check if STList
- ReadSTListHeader(filename, &fsthdr);
- fartype_ = "sttable";
- arctype_ = fsthdr.ArcType().empty() ? "unknown" : fsthdr.ArcType();
- return true;
- } else if (IsFst(filename)) { // Check if Fst
- ifstream istrm(filename.c_str());
- fsthdr.Read(istrm, filename);
- fartype_ = "fst";
- arctype_ = fsthdr.ArcType().empty() ? "unknown" : fsthdr.ArcType();
- return true;
- }
- return false;
- }
-
- private:
- string fartype_;
- string arctype_;
-};
-
-enum FarType {
- FAR_DEFAULT = 0,
- FAR_STTABLE = 1,
- FAR_STLIST = 2,
- FAR_FST = 3,
-};
-
-// This class creates an archive of FSTs.
-template <class A>
-class FarWriter {
- public:
- typedef A Arc;
-
- // Creates a new (empty) FST archive; returns NULL on error.
- static FarWriter *Create(const string &filename, FarType type = FAR_DEFAULT);
-
- // Adds an FST to the end of an archive. Keys must be non-empty and
- // in lexicographic order. FSTs must have a suitable write method.
- virtual void Add(const string &key, const Fst<A> &fst) = 0;
-
- virtual FarType Type() const = 0;
-
- virtual bool Error() const = 0;
-
- virtual ~FarWriter() {}
-
- protected:
- FarWriter() {}
-
- private:
- DISALLOW_COPY_AND_ASSIGN(FarWriter);
-};
-
-
-// This class iterates through an existing archive of FSTs.
-template <class A>
-class FarReader {
- public:
- typedef A Arc;
-
- // Opens an existing FST archive in a single file; returns NULL on error.
- // Sets current position to the beginning of the achive.
- static FarReader *Open(const string &filename);
-
- // Opens an existing FST archive in multiple files; returns NULL on error.
- // Sets current position to the beginning of the achive.
- static FarReader *Open(const vector<string> &filenames);
-
- // Resets current posision to beginning of archive.
- virtual void Reset() = 0;
-
- // Sets current position to first entry >= key. Returns true if a match.
- virtual bool Find(const string &key) = 0;
-
- // Current position at end of archive?
- virtual bool Done() const = 0;
-
- // Move current position to next FST.
- virtual void Next() = 0;
-
- // Returns key at the current position. This reference is invalidated if
- // the current position in the archive is changed.
- virtual const string &GetKey() const = 0;
-
- // Returns FST at the current position. This reference is invalidated if
- // the current position in the archive is changed.
- virtual const Fst<A> &GetFst() const = 0;
-
- virtual FarType Type() const = 0;
-
- virtual bool Error() const = 0;
-
- virtual ~FarReader() {}
-
- protected:
- FarReader() {}
-
- private:
- DISALLOW_COPY_AND_ASSIGN(FarReader);
-};
-
-
-template <class A>
-class FstWriter {
- public:
- void operator()(ostream &strm, const Fst<A> &fst) const {
- fst.Write(strm, FstWriteOptions());
- }
-};
-
-
-template <class A>
-class STTableFarWriter : public FarWriter<A> {
- public:
- typedef A Arc;
-
- static STTableFarWriter *Create(const string &filename) {
- STTableWriter<Fst<A>, FstWriter<A> > *writer =
- STTableWriter<Fst<A>, FstWriter<A> >::Create(filename);
- return new STTableFarWriter(writer);
- }
-
- void Add(const string &key, const Fst<A> &fst) { writer_->Add(key, fst); }
-
- FarType Type() const { return FAR_STTABLE; }
-
- bool Error() const { return writer_->Error(); }
-
- ~STTableFarWriter() { delete writer_; }
-
- private:
- explicit STTableFarWriter(STTableWriter<Fst<A>, FstWriter<A> > *writer)
- : writer_(writer) {}
-
- private:
- STTableWriter<Fst<A>, FstWriter<A> > *writer_;
-
- DISALLOW_COPY_AND_ASSIGN(STTableFarWriter);
-};
-
-
-template <class A>
-class STListFarWriter : public FarWriter<A> {
- public:
- typedef A Arc;
-
- static STListFarWriter *Create(const string &filename) {
- STListWriter<Fst<A>, FstWriter<A> > *writer =
- STListWriter<Fst<A>, FstWriter<A> >::Create(filename);
- return new STListFarWriter(writer);
- }
-
- void Add(const string &key, const Fst<A> &fst) { writer_->Add(key, fst); }
-
- FarType Type() const { return FAR_STLIST; }
-
- bool Error() const { return writer_->Error(); }
-
- ~STListFarWriter() { delete writer_; }
-
- private:
- explicit STListFarWriter(STListWriter<Fst<A>, FstWriter<A> > *writer)
- : writer_(writer) {}
-
- private:
- STListWriter<Fst<A>, FstWriter<A> > *writer_;
-
- DISALLOW_COPY_AND_ASSIGN(STListFarWriter);
-};
-
-
-template <class A>
-class FstFarWriter : public FarWriter<A> {
- public:
- typedef A Arc;
-
- explicit FstFarWriter(const string &filename)
- : filename_(filename), error_(false), written_(false) {}
-
- static FstFarWriter *Create(const string &filename) {
- return new FstFarWriter(filename);
- }
-
- void Add(const string &key, const Fst<A> &fst) {
- if (written_) {
- LOG(WARNING) << "FstFarWriter::Add: only one Fst supported,"
- << " subsequent entries discarded.";
- } else {
- error_ = !fst.Write(filename_);
- written_ = true;
- }
- }
-
- FarType Type() const { return FAR_FST; }
-
- bool Error() const { return error_; }
-
- ~FstFarWriter() {}
-
- private:
- string filename_;
- bool error_;
- bool written_;
-
- DISALLOW_COPY_AND_ASSIGN(FstFarWriter);
-};
-
-
-template <class A>
-FarWriter<A> *FarWriter<A>::Create(const string &filename, FarType type) {
- switch(type) {
- case FAR_DEFAULT:
- if (filename.empty())
- return STListFarWriter<A>::Create(filename);
- case FAR_STTABLE:
- return STTableFarWriter<A>::Create(filename);
- break;
- case FAR_STLIST:
- return STListFarWriter<A>::Create(filename);
- break;
- case FAR_FST:
- return FstFarWriter<A>::Create(filename);
- break;
- default:
- LOG(ERROR) << "FarWriter::Create: unknown far type";
- return 0;
- }
-}
-
-
-template <class A>
-class FstReader {
- public:
- Fst<A> *operator()(istream &strm) const {
- return Fst<A>::Read(strm, FstReadOptions());
- }
-};
-
-
-template <class A>
-class STTableFarReader : public FarReader<A> {
- public:
- typedef A Arc;
-
- static STTableFarReader *Open(const string &filename) {
- STTableReader<Fst<A>, FstReader<A> > *reader =
- STTableReader<Fst<A>, FstReader<A> >::Open(filename);
- // TODO: error check
- return new STTableFarReader(reader);
- }
-
- static STTableFarReader *Open(const vector<string> &filenames) {
- STTableReader<Fst<A>, FstReader<A> > *reader =
- STTableReader<Fst<A>, FstReader<A> >::Open(filenames);
- // TODO: error check
- return new STTableFarReader(reader);
- }
-
- void Reset() { reader_->Reset(); }
-
- bool Find(const string &key) { return reader_->Find(key); }
-
- bool Done() const { return reader_->Done(); }
-
- void Next() { return reader_->Next(); }
-
- const string &GetKey() const { return reader_->GetKey(); }
-
- const Fst<A> &GetFst() const { return reader_->GetEntry(); }
-
- FarType Type() const { return FAR_STTABLE; }
-
- bool Error() const { return reader_->Error(); }
-
- ~STTableFarReader() { delete reader_; }
-
- private:
- explicit STTableFarReader(STTableReader<Fst<A>, FstReader<A> > *reader)
- : reader_(reader) {}
-
- private:
- STTableReader<Fst<A>, FstReader<A> > *reader_;
-
- DISALLOW_COPY_AND_ASSIGN(STTableFarReader);
-};
-
-
-template <class A>
-class STListFarReader : public FarReader<A> {
- public:
- typedef A Arc;
-
- static STListFarReader *Open(const string &filename) {
- STListReader<Fst<A>, FstReader<A> > *reader =
- STListReader<Fst<A>, FstReader<A> >::Open(filename);
- // TODO: error check
- return new STListFarReader(reader);
- }
-
- static STListFarReader *Open(const vector<string> &filenames) {
- STListReader<Fst<A>, FstReader<A> > *reader =
- STListReader<Fst<A>, FstReader<A> >::Open(filenames);
- // TODO: error check
- return new STListFarReader(reader);
- }
-
- void Reset() { reader_->Reset(); }
-
- bool Find(const string &key) { return reader_->Find(key); }
-
- bool Done() const { return reader_->Done(); }
-
- void Next() { return reader_->Next(); }
-
- const string &GetKey() const { return reader_->GetKey(); }
-
- const Fst<A> &GetFst() const { return reader_->GetEntry(); }
-
- FarType Type() const { return FAR_STLIST; }
-
- bool Error() const { return reader_->Error(); }
-
- ~STListFarReader() { delete reader_; }
-
- private:
- explicit STListFarReader(STListReader<Fst<A>, FstReader<A> > *reader)
- : reader_(reader) {}
-
- private:
- STListReader<Fst<A>, FstReader<A> > *reader_;
-
- DISALLOW_COPY_AND_ASSIGN(STListFarReader);
-};
-
-template <class A>
-class FstFarReader : public FarReader<A> {
- public:
- typedef A Arc;
-
- static FstFarReader *Open(const string &filename) {
- vector<string> filenames;
- filenames.push_back(filename);
- return new FstFarReader<A>(filenames);
- }
-
- static FstFarReader *Open(const vector<string> &filenames) {
- return new FstFarReader<A>(filenames);
- }
-
- FstFarReader(const vector<string> &filenames)
- : keys_(filenames), has_stdin_(false), pos_(0), fst_(0), error_(false) {
- sort(keys_.begin(), keys_.end());
- streams_.resize(keys_.size(), 0);
- for (size_t i = 0; i < keys_.size(); ++i) {
- if (keys_[i].empty()) {
- if (!has_stdin_) {
- streams_[i] = &cin;
- //sources_[i] = "stdin";
- has_stdin_ = true;
- } else {
- FSTERROR() << "FstFarReader::FstFarReader: stdin should only "
- << "appear once in the input file list.";
- error_ = true;
- return;
- }
- } else {
- streams_[i] = new ifstream(
- keys_[i].c_str(), ifstream::in | ifstream::binary);
- }
- }
- if (pos_ >= keys_.size()) return;
- ReadFst();
- }
-
- void Reset() {
- if (has_stdin_) {
- FSTERROR() << "FstFarReader::Reset: operation not supported on stdin";
- error_ = true;
- return;
- }
- pos_ = 0;
- ReadFst();
- }
-
- bool Find(const string &key) {
- if (has_stdin_) {
- FSTERROR() << "FstFarReader::Find: operation not supported on stdin";
- error_ = true;
- return false;
- }
- pos_ = 0;//TODO
- ReadFst();
- return true;
- }
-
- bool Done() const { return error_ || pos_ >= keys_.size(); }
-
- void Next() {
- ++pos_;
- ReadFst();
- }
-
- const string &GetKey() const {
- return keys_[pos_];
- }
-
- const Fst<A> &GetFst() const {
- return *fst_;
- }
-
- FarType Type() const { return FAR_FST; }
-
- bool Error() const { return error_; }
-
- ~FstFarReader() {
- if (fst_) delete fst_;
- for (size_t i = 0; i < keys_.size(); ++i)
- delete streams_[i];
- }
-
- private:
- void ReadFst() {
- if (fst_) delete fst_;
- if (pos_ >= keys_.size()) return;
- streams_[pos_]->seekg(0);
- fst_ = Fst<A>::Read(*streams_[pos_], FstReadOptions());
- if (!fst_) {
- FSTERROR() << "FstFarReader: error reading Fst from: " << keys_[pos_];
- error_ = true;
- }
- }
-
- private:
- vector<string> keys_;
- vector<istream*> streams_;
- bool has_stdin_;
- size_t pos_;
- mutable Fst<A> *fst_;
- mutable bool error_;
-
- DISALLOW_COPY_AND_ASSIGN(FstFarReader);
-};
-
-template <class A>
-FarReader<A> *FarReader<A>::Open(const string &filename) {
- if (filename.empty())
- return STListFarReader<A>::Open(filename);
- else if (IsSTTable(filename))
- return STTableFarReader<A>::Open(filename);
- else if (IsSTList(filename))
- return STListFarReader<A>::Open(filename);
- else if (IsFst(filename))
- return FstFarReader<A>::Open(filename);
- return 0;
-}
-
-
-template <class A>
-FarReader<A> *FarReader<A>::Open(const vector<string> &filenames) {
- if (!filenames.empty() && filenames[0].empty())
- return STListFarReader<A>::Open(filenames);
- else if (!filenames.empty() && IsSTTable(filenames[0]))
- return STTableFarReader<A>::Open(filenames);
- else if (!filenames.empty() && IsSTList(filenames[0]))
- return STListFarReader<A>::Open(filenames);
- else if (!filenames.empty() && IsFst(filenames[0]))
- return FstFarReader<A>::Open(filenames);
- return 0;
-}
-
-} // namespace fst
-
-#endif // FST_EXTENSIONS_FAR_FAR_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/farlib.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/farlib.h
deleted file mode 100644
index 91ba224..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/farlib.h
+++ /dev/null
@@ -1,31 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-// A finite-state archive (FAR) is used to store an indexable collection of
-// FSTs in a single file. Utilities are provided to create FARs from FSTs,
-// to iterate over FARs, and to extract specific FSTs from FARs.
-
-#ifndef FST_EXTENSIONS_FAR_FARLIB_H_
-#define FST_EXTENSIONS_FAR_FARLIB_H_
-
-#include <fst/extensions/far/far.h>
-#include <fst/extensions/far/compile-strings.h>
-#include <fst/extensions/far/create.h>
-#include <fst/extensions/far/extract.h>
-#include <fst/extensions/far/info.h>
-#include <fst/extensions/far/print-strings.h>
-
-#endif // FST_EXTENSIONS_FAR_FARLIB_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/farscript.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/farscript.h
deleted file mode 100644
index cfd9167..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/farscript.h
+++ /dev/null
@@ -1,273 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-// Convenience file for including all of the FAR operations,
-// or registering them for new arc types.
-
-#ifndef FST_EXTENSIONS_FAR_FARSCRIPT_H_
-#define FST_EXTENSIONS_FAR_FARSCRIPT_H_
-
-#include <vector>
-using std::vector;
-#include <string>
-
-#include <fst/script/arg-packs.h>
-#include <fst/extensions/far/compile-strings.h>
-#include <fst/extensions/far/create.h>
-#include <fst/extensions/far/equal.h>
-#include <fst/extensions/far/extract.h>
-#include <fst/extensions/far/info.h>
-#include <fst/extensions/far/print-strings.h>
-#include <fst/extensions/far/far.h>
-
-#include <fst/types.h>
-
-namespace fst {
-namespace script {
-
-// Note: it is safe to pass these strings as references because
-// this struct is only used to pass them deeper in the call graph.
-// Be sure you understand why this is so before using this struct
-// for anything else!
-struct FarCompileStringsArgs {
- const vector<string> &in_fnames;
- const string &out_fname;
- const string &fst_type;
- const FarType &far_type;
- const int32 generate_keys;
- const FarEntryType fet;
- const FarTokenType tt;
- const string &symbols_fname;
- const string &unknown_symbol;
- const bool keep_symbols;
- const bool initial_symbols;
- const bool allow_negative_labels;
- const bool file_list_input;
- const string &key_prefix;
- const string &key_suffix;
-
- FarCompileStringsArgs(const vector<string> &in_fnames,
- const string &out_fname,
- const string &fst_type,
- const FarType &far_type,
- int32 generate_keys,
- FarEntryType fet,
- FarTokenType tt,
- const string &symbols_fname,
- const string &unknown_symbol,
- bool keep_symbols,
- bool initial_symbols,
- bool allow_negative_labels,
- bool file_list_input,
- const string &key_prefix,
- const string &key_suffix) :
- in_fnames(in_fnames), out_fname(out_fname), fst_type(fst_type),
- far_type(far_type), generate_keys(generate_keys), fet(fet),
- tt(tt), symbols_fname(symbols_fname), unknown_symbol(unknown_symbol),
- keep_symbols(keep_symbols), initial_symbols(initial_symbols),
- allow_negative_labels(allow_negative_labels),
- file_list_input(file_list_input), key_prefix(key_prefix),
- key_suffix(key_suffix) { }
-};
-
-template <class Arc>
-void FarCompileStrings(FarCompileStringsArgs *args) {
- fst::FarCompileStrings<Arc>(
- args->in_fnames, args->out_fname, args->fst_type, args->far_type,
- args->generate_keys, args->fet, args->tt, args->symbols_fname,
- args->unknown_symbol, args->keep_symbols, args->initial_symbols,
- args->allow_negative_labels, args->file_list_input,
- args->key_prefix, args->key_suffix);
-}
-
-void FarCompileStrings(
- const vector<string> &in_fnames,
- const string &out_fname,
- const string &arc_type,
- const string &fst_type,
- const FarType &far_type,
- int32 generate_keys,
- FarEntryType fet,
- FarTokenType tt,
- const string &symbols_fname,
- const string &unknown_symbol,
- bool keep_symbols,
- bool initial_symbols,
- bool allow_negative_labels,
- bool file_list_input,
- const string &key_prefix,
- const string &key_suffix);
-
-
-// Note: it is safe to pass these strings as references because
-// this struct is only used to pass them deeper in the call graph.
-// Be sure you understand why this is so before using this struct
-// for anything else!
-struct FarCreateArgs {
- const vector<string> &in_fnames;
- const string &out_fname;
- const int32 generate_keys;
- const bool file_list_input;
- const FarType &far_type;
- const string &key_prefix;
- const string &key_suffix;
-
- FarCreateArgs(
- const vector<string> &in_fnames, const string &out_fname,
- const int32 generate_keys, const bool file_list_input,
- const FarType &far_type, const string &key_prefix,
- const string &key_suffix)
- : in_fnames(in_fnames), out_fname(out_fname),
- generate_keys(generate_keys), file_list_input(file_list_input),
- far_type(far_type), key_prefix(key_prefix), key_suffix(key_suffix) { }
-};
-
-template<class Arc>
-void FarCreate(FarCreateArgs *args) {
- fst::FarCreate<Arc>(args->in_fnames, args->out_fname, args->generate_keys,
- args->file_list_input, args->far_type,
- args->key_prefix, args->key_suffix);
-}
-
-void FarCreate(const vector<string> &in_fnames,
- const string &out_fname,
- const string &arc_type,
- const int32 generate_keys,
- const bool file_list_input,
- const FarType &far_type,
- const string &key_prefix,
- const string &key_suffix);
-
-
-typedef args::Package<const string &, const string &, float,
- const string &, const string &> FarEqualInnerArgs;
-typedef args::WithReturnValue<bool, FarEqualInnerArgs> FarEqualArgs;
-
-template <class Arc>
-void FarEqual(FarEqualArgs *args) {
- args->retval = fst::FarEqual<Arc>(
- args->args.arg1, args->args.arg2, args->args.arg3,
- args->args.arg4, args->args.arg5);
-}
-
-bool FarEqual(const string &filename1,
- const string &filename2,
- const string &arc_type,
- float delta = kDelta,
- const string &begin_key = string(),
- const string &end_key = string());
-
-
-typedef args::Package<const vector<string> &, int32,
- const string&, const string&, const string&,
- const string&, const string&> FarExtractArgs;
-
-template<class Arc>
-void FarExtract(FarExtractArgs *args) {
- fst::FarExtract<Arc>(
- args->arg1, args->arg2, args->arg3, args->arg4, args->arg5, args->arg6,
- args->arg7);
-}
-
-void FarExtract(const vector<string> &ifilenames,
- const string &arc_type,
- int32 generate_filenames,
- const string &keys,
- const string &key_separator,
- const string &range_delimiter,
- const string &filename_prefix,
- const string &filename_suffix);
-
-typedef args::Package<const vector<string> &, const string &,
- const string &, const bool> FarInfoArgs;
-
-template <class Arc>
-void FarInfo(FarInfoArgs *args) {
- fst::FarInfo<Arc>(args->arg1, args->arg2, args->arg3, args->arg4);
-}
-
-void FarInfo(const vector<string> &filenames,
- const string &arc_type,
- const string &begin_key,
- const string &end_key,
- const bool list_fsts);
-
-struct FarPrintStringsArgs {
- const vector<string> &ifilenames;
- const FarEntryType entry_type;
- const FarTokenType token_type;
- const string &begin_key;
- const string &end_key;
- const bool print_key;
- const bool print_weight;
- const string &symbols_fname;
- const bool initial_symbols;
- const int32 generate_filenames;
- const string &filename_prefix;
- const string &filename_suffix;
-
- FarPrintStringsArgs(
- const vector<string> &ifilenames, const FarEntryType entry_type,
- const FarTokenType token_type, const string &begin_key,
- const string &end_key, const bool print_key, const bool print_weight,
- const string &symbols_fname, const bool initial_symbols,
- const int32 generate_filenames,
- const string &filename_prefix, const string &filename_suffix) :
- ifilenames(ifilenames), entry_type(entry_type), token_type(token_type),
- begin_key(begin_key), end_key(end_key),
- print_key(print_key), print_weight(print_weight),
- symbols_fname(symbols_fname), initial_symbols(initial_symbols),
- generate_filenames(generate_filenames), filename_prefix(filename_prefix),
- filename_suffix(filename_suffix) { }
-};
-
-template <class Arc>
-void FarPrintStrings(FarPrintStringsArgs *args) {
- fst::FarPrintStrings<Arc>(
- args->ifilenames, args->entry_type, args->token_type,
- args->begin_key, args->end_key, args->print_key, args->print_weight,
- args->symbols_fname, args->initial_symbols, args->generate_filenames,
- args->filename_prefix, args->filename_suffix);
-}
-
-
-void FarPrintStrings(const vector<string> &ifilenames,
- const string &arc_type,
- const FarEntryType entry_type,
- const FarTokenType token_type,
- const string &begin_key,
- const string &end_key,
- const bool print_key,
- const bool print_weight,
- const string &symbols_fname,
- const bool initial_symbols,
- const int32 generate_filenames,
- const string &filename_prefix,
- const string &filename_suffix);
-
-} // namespace script
-} // namespace fst
-
-
-#define REGISTER_FST_FAR_OPERATIONS(ArcType) \
- REGISTER_FST_OPERATION(FarCompileStrings, ArcType, FarCompileStringsArgs); \
- REGISTER_FST_OPERATION(FarCreate, ArcType, FarCreateArgs); \
- REGISTER_FST_OPERATION(FarEqual, ArcType, FarEqualArgs); \
- REGISTER_FST_OPERATION(FarExtract, ArcType, FarExtractArgs); \
- REGISTER_FST_OPERATION(FarInfo, ArcType, FarInfoArgs); \
- REGISTER_FST_OPERATION(FarPrintStrings, ArcType, FarPrintStringsArgs)
-
-#endif // FST_EXTENSIONS_FAR_FARSCRIPT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/info.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/info.h
deleted file mode 100644
index 100fe68..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/info.h
+++ /dev/null
@@ -1,128 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-// Modified: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_EXTENSIONS_FAR_INFO_H_
-#define FST_EXTENSIONS_FAR_INFO_H_
-
-#include <iomanip>
-#include <set>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/extensions/far/far.h>
-#include <fst/extensions/far/main.h> // For FarTypeToString
-
-namespace fst {
-
-template <class Arc>
-void CountStatesAndArcs(const Fst<Arc> &fst, size_t *nstate, size_t *narc) {
- StateIterator<Fst<Arc> > siter(fst);
- for (; !siter.Done(); siter.Next(), ++(*nstate)) {
- ArcIterator<Fst<Arc> > aiter(fst, siter.Value());
- for (; !aiter.Done(); aiter.Next(), ++(*narc)) {}
- }
-}
-
-struct KeyInfo {
- string key;
- string type;
- size_t nstate;
- size_t narc;
-
- KeyInfo(string k, string t, int64 ns = 0, int64 na = 0)
- : key(k), type(t), nstate(ns), narc(na) {}
-};
-
-template <class Arc>
-void FarInfo(const vector<string> &filenames, const string &begin_key,
- const string &end_key, const bool list_fsts) {
- FarReader<Arc> *far_reader = FarReader<Arc>::Open(filenames);
- if (!far_reader) return;
-
- if (!begin_key.empty())
- far_reader->Find(begin_key);
-
- vector<KeyInfo> *infos = list_fsts ? new vector<KeyInfo>() : 0;
- size_t nfst = 0, nstate = 0, narc = 0;
- set<string> fst_types;
- for (; !far_reader->Done(); far_reader->Next()) {
- string key = far_reader->GetKey();
- if (!end_key.empty() && end_key < key)
- break;
- ++nfst;
- const Fst<Arc> &fst = far_reader->GetFst();
- fst_types.insert(fst.Type());
- if (infos) {
- KeyInfo info(key, fst.Type());
- CountStatesAndArcs(fst, &info.nstate, &info.narc);
- nstate += info.nstate;
- nstate += info.narc;
- infos->push_back(info);
- } else {
- CountStatesAndArcs(fst, &nstate, &narc);
- }
- }
-
- if (!infos) {
- cout << std::left << setw(50) << "far type"
- << FarTypeToString(far_reader->Type()) << endl;
- cout << std::left << setw(50) << "arc type" << Arc::Type() << endl;
- cout << std::left << setw(50) << "fst type";
- for (set<string>::const_iterator iter = fst_types.begin();
- iter != fst_types.end();
- ++iter) {
- if (iter != fst_types.begin())
- cout << ",";
- cout << *iter;
- }
- cout << endl;
- cout << std::left << setw(50) << "# of FSTs" << nfst << endl;
- cout << std::left << setw(50) << "total # of states" << nstate << endl;
- cout << std::left << setw(50) << "total # of arcs" << narc << endl;
-
- } else {
- int wkey = 10, wtype = 10, wnstate = 16, wnarc = 16;
- for (size_t i = 0; i < infos->size(); ++i) {
- const KeyInfo &info = (*infos)[i];
- if (info.key.size() + 2 > wkey)
- wkey = info.key.size() + 2;
- if (info.type.size() + 2 > wtype)
- wtype = info.type.size() + 2;
- if (ceil(log10(info.nstate)) + 2 > wnstate)
- wnstate = ceil(log10(info.nstate)) + 2;
- if (ceil(log10(info.narc)) + 2 > wnarc)
- wnarc = ceil(log10(info.narc)) + 2;
- }
-
- cout << std::left << setw(wkey) << "key" << setw(wtype) << "type"
- << std::right << setw(wnstate) << "# of states"
- << setw(wnarc) << "# of arcs" << endl;
-
- for (size_t i = 0; i < infos->size(); ++i) {
- const KeyInfo &info = (*infos)[i];
- cout << std::left << setw(wkey) << info.key << setw(wtype) << info.type
- << std::right << setw(wnstate) << info.nstate
- << setw(wnarc) << info.narc << endl;
- }
- }
-}
-
-} // namespace fst
-
-
-#endif // FST_EXTENSIONS_FAR_INFO_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/main.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/main.h
deleted file mode 100644
index 00ccfef..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/main.h
+++ /dev/null
@@ -1,43 +0,0 @@
-// main.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Classes and functions for registering and invoking Far main
-// functions that support multiple and extensible arc types.
-
-#ifndef FST_EXTENSIONS_FAR_MAIN_H__
-#define FST_EXTENSIONS_FAR_MAIN_H__
-
-#include <fst/extensions/far/far.h>
-
-namespace fst {
-
-FarEntryType StringToFarEntryType(const string &s);
-FarTokenType StringToFarTokenType(const string &s);
-
-// Return the 'FarType' value corresponding to a far type name.
-FarType FarTypeFromString(const string &str);
-
-// Return the textual name corresponding to a 'FarType;.
-string FarTypeToString(FarType type);
-
-string LoadArcTypeFromFar(const string& far_fname);
-string LoadArcTypeFromFst(const string& far_fname);
-
-} // namespace fst
-
-#endif // FST_EXTENSIONS_FAR_MAIN_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/print-strings.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/print-strings.h
deleted file mode 100644
index dcc7351..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/print-strings.h
+++ /dev/null
@@ -1,138 +0,0 @@
-// printstrings-main.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-// Modified by: [email protected] (Jake Ratkiewicz)
-//
-// \file
-// Output as strings the string FSTs in a finite-state archive.
-
-#ifndef FST_EXTENSIONS_FAR_PRINT_STRINGS_H__
-#define FST_EXTENSIONS_FAR_PRINT_STRINGS_H__
-
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/extensions/far/far.h>
-#include <fst/shortest-distance.h>
-#include <fst/string.h>
-
-DECLARE_string(far_field_separator);
-
-namespace fst {
-
-template <class Arc>
-void FarPrintStrings(
- const vector<string> &ifilenames, const FarEntryType entry_type,
- const FarTokenType far_token_type, const string &begin_key,
- const string &end_key, const bool print_key, const bool print_weight,
- const string &symbols_fname, const bool initial_symbols,
- const int32 generate_filenames,
- const string &filename_prefix, const string &filename_suffix) {
-
- typename StringPrinter<Arc>::TokenType token_type;
- if (far_token_type == FTT_SYMBOL) {
- token_type = StringPrinter<Arc>::SYMBOL;
- } else if (far_token_type == FTT_BYTE) {
- token_type = StringPrinter<Arc>::BYTE;
- } else if (far_token_type == FTT_UTF8) {
- token_type = StringPrinter<Arc>::UTF8;
- } else {
- FSTERROR() << "FarPrintStrings: unknown token type";
- return;
- }
-
- const SymbolTable *syms = 0;
- if (!symbols_fname.empty()) {
- // allow negative flag?
- SymbolTableTextOptions opts;
- opts.allow_negative = true;
- syms = SymbolTable::ReadText(symbols_fname, opts);
- if (!syms) {
- FSTERROR() << "FarPrintStrings: error reading symbol table: "
- << symbols_fname;
- return;
- }
- }
-
- FarReader<Arc> *far_reader = FarReader<Arc>::Open(ifilenames);
- if (!far_reader) return;
-
- if (!begin_key.empty())
- far_reader->Find(begin_key);
-
- string okey;
- int nrep = 0;
- for (int i = 1; !far_reader->Done(); far_reader->Next(), ++i) {
- string key = far_reader->GetKey();
- if (!end_key.empty() && end_key < key)
- break;
- if (okey == key)
- ++nrep;
- else
- nrep = 0;
- okey = key;
-
- const Fst<Arc> &fst = far_reader->GetFst();
- if (i == 1 && initial_symbols && syms == 0 && fst.InputSymbols() != 0)
- syms = fst.InputSymbols()->Copy();
- string str;
- VLOG(2) << "Handling key: " << key;
- StringPrinter<Arc> string_printer(
- token_type, syms ? syms : fst.InputSymbols());
- string_printer(fst, &str);
-
- if (entry_type == FET_LINE) {
- if (print_key)
- cout << key << FLAGS_far_field_separator[0];
- cout << str;
- if (print_weight)
- cout << FLAGS_far_field_separator[0] << ShortestDistance(fst);
- cout << endl;
- } else if (entry_type == FET_FILE) {
- stringstream sstrm;
- if (generate_filenames) {
- sstrm.fill('0');
- sstrm << std::right << setw(generate_filenames) << i;
- } else {
- sstrm << key;
- if (nrep > 0)
- sstrm << "." << nrep;
- }
-
- string filename;
- filename = filename_prefix + sstrm.str() + filename_suffix;
-
- ofstream ostrm(filename.c_str());
- if (!ostrm) {
- FSTERROR() << "FarPrintStrings: Can't open file:" << filename;
- delete syms;
- delete far_reader;
- return;
- }
- ostrm << str;
- if (token_type == StringPrinter<Arc>::SYMBOL)
- ostrm << "\n";
- }
- }
- delete syms;
-}
-
-
-
-} // namespace fst
-
-#endif // FST_EXTENSIONS_FAR_PRINT_STRINGS_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/stlist.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/stlist.h
deleted file mode 100644
index ff3d98b..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/stlist.h
+++ /dev/null
@@ -1,305 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// A generic (string,type) list file format.
-//
-// This is a stripped-down version of STTable that does
-// not support the Find() operation but that does support
-// reading/writting from standard in/out.
-
-#ifndef FST_EXTENSIONS_FAR_STLIST_H_
-#define FST_EXTENSIONS_FAR_STLIST_H_
-
-#include <iostream>
-#include <fstream>
-#include <sstream>
-#include <fst/util.h>
-
-#include <algorithm>
-#include <functional>
-#include <queue>
-#include <string>
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-namespace fst {
-
-static const int32 kSTListMagicNumber = 5656924;
-static const int32 kSTListFileVersion = 1;
-
-// String-type list writing class for object of type 'T' using functor 'W'
-// to write an object of type 'T' from a stream. 'W' must conform to the
-// following interface:
-//
-// struct Writer {
-// void operator()(ostream &, const T &) const;
-// };
-//
-template <class T, class W>
-class STListWriter {
- public:
- typedef T EntryType;
- typedef W EntryWriter;
-
- explicit STListWriter(const string filename)
- : stream_(
- filename.empty() ? &cout :
- new ofstream(filename.c_str(), ofstream::out | ofstream::binary)),
- error_(false) {
- WriteType(*stream_, kSTListMagicNumber);
- WriteType(*stream_, kSTListFileVersion);
- if (!stream_) {
- FSTERROR() << "STListWriter::STListWriter: error writing to file: "
- << filename;
- error_ = true;
- }
- }
-
- static STListWriter<T, W> *Create(const string &filename) {
- return new STListWriter<T, W>(filename);
- }
-
- void Add(const string &key, const T &t) {
- if (key == "") {
- FSTERROR() << "STListWriter::Add: key empty: " << key;
- error_ = true;
- } else if (key < last_key_) {
- FSTERROR() << "STListWriter::Add: key disorder: " << key;
- error_ = true;
- }
- if (error_) return;
- last_key_ = key;
- WriteType(*stream_, key);
- entry_writer_(*stream_, t);
- }
-
- bool Error() const { return error_; }
-
- ~STListWriter() {
- WriteType(*stream_, string());
- if (stream_ != &cout)
- delete stream_;
- }
-
- private:
- EntryWriter entry_writer_; // Write functor for 'EntryType'
- ostream *stream_; // Output stream
- string last_key_; // Last key
- bool error_;
-
- DISALLOW_COPY_AND_ASSIGN(STListWriter);
-};
-
-
-// String-type list reading class for object of type 'T' using functor 'R'
-// to read an object of type 'T' form a stream. 'R' must conform to the
-// following interface:
-//
-// struct Reader {
-// T *operator()(istream &) const;
-// };
-//
-template <class T, class R>
-class STListReader {
- public:
- typedef T EntryType;
- typedef R EntryReader;
-
- explicit STListReader(const vector<string> &filenames)
- : sources_(filenames), entry_(0), error_(false) {
- streams_.resize(filenames.size(), 0);
- bool has_stdin = false;
- for (size_t i = 0; i < filenames.size(); ++i) {
- if (filenames[i].empty()) {
- if (!has_stdin) {
- streams_[i] = &cin;
- sources_[i] = "stdin";
- has_stdin = true;
- } else {
- FSTERROR() << "STListReader::STListReader: stdin should only "
- << "appear once in the input file list.";
- error_ = true;
- return;
- }
- } else {
- streams_[i] = new ifstream(
- filenames[i].c_str(), ifstream::in | ifstream::binary);
- }
- int32 magic_number = 0, file_version = 0;
- ReadType(*streams_[i], &magic_number);
- ReadType(*streams_[i], &file_version);
- if (magic_number != kSTListMagicNumber) {
- FSTERROR() << "STListReader::STListReader: wrong file type: "
- << filenames[i];
- error_ = true;
- return;
- }
- if (file_version != kSTListFileVersion) {
- FSTERROR() << "STListReader::STListReader: wrong file version: "
- << filenames[i];
- error_ = true;
- return;
- }
- string key;
- ReadType(*streams_[i], &key);
- if (!key.empty())
- heap_.push(make_pair(key, i));
- if (!*streams_[i]) {
- FSTERROR() << "STListReader: error reading file: " << sources_[i];
- error_ = true;
- return;
- }
- }
- if (heap_.empty()) return;
- size_t current = heap_.top().second;
- entry_ = entry_reader_(*streams_[current]);
- if (!entry_ || !*streams_[current]) {
- FSTERROR() << "STListReader: error reading entry for key: "
- << heap_.top().first << ", file: " << sources_[current];
- error_ = true;
- }
- }
-
- ~STListReader() {
- for (size_t i = 0; i < streams_.size(); ++i) {
- if (streams_[i] != &cin)
- delete streams_[i];
- }
- if (entry_)
- delete entry_;
- }
-
- static STListReader<T, R> *Open(const string &filename) {
- vector<string> filenames;
- filenames.push_back(filename);
- return new STListReader<T, R>(filenames);
- }
-
- static STListReader<T, R> *Open(const vector<string> &filenames) {
- return new STListReader<T, R>(filenames);
- }
-
- void Reset() {
- FSTERROR()
- << "STListReader::Reset: stlist does not support reset operation";
- error_ = true;
- }
-
- bool Find(const string &key) {
- FSTERROR()
- << "STListReader::Find: stlist does not support find operation";
- error_ = true;
- return false;
- }
-
- bool Done() const {
- return error_ || heap_.empty();
- }
-
- void Next() {
- if (error_) return;
- size_t current = heap_.top().second;
- string key;
- heap_.pop();
- ReadType(*(streams_[current]), &key);
- if (!*streams_[current]) {
- FSTERROR() << "STListReader: error reading file: "
- << sources_[current];
- error_ = true;
- return;
- }
- if (!key.empty())
- heap_.push(make_pair(key, current));
-
- if(!heap_.empty()) {
- current = heap_.top().second;
- if (entry_)
- delete entry_;
- entry_ = entry_reader_(*streams_[current]);
- if (!entry_ || !*streams_[current]) {
- FSTERROR() << "STListReader: error reading entry for key: "
- << heap_.top().first << ", file: " << sources_[current];
- error_ = true;
- }
- }
- }
-
- const string &GetKey() const {
- return heap_.top().first;
- }
-
- const EntryType &GetEntry() const {
- return *entry_;
- }
-
- bool Error() const { return error_; }
-
- private:
- EntryReader entry_reader_; // Read functor for 'EntryType'
- vector<istream*> streams_; // Input streams
- vector<string> sources_; // and corresponding file names
- priority_queue<
- pair<string, size_t>, vector<pair<string, size_t> >,
- greater<pair<string, size_t> > > heap_; // (Key, stream id) heap
- mutable EntryType *entry_; // Pointer to the currently read entry
- bool error_;
-
- DISALLOW_COPY_AND_ASSIGN(STListReader);
-};
-
-
-// String-type list header reading function template on the entry header
-// type 'H' having a member function:
-// Read(istream &strm, const string &filename);
-// Checks that 'filename' is an STList and call the H::Read() on the last
-// entry in the STList.
-// Does not support reading from stdin.
-template <class H>
-bool ReadSTListHeader(const string &filename, H *header) {
- if (filename.empty()) {
- LOG(ERROR) << "ReadSTListHeader: reading header not supported on stdin";
- return false;
- }
- ifstream strm(filename.c_str(), ifstream::in | ifstream::binary);
- int32 magic_number = 0, file_version = 0;
- ReadType(strm, &magic_number);
- ReadType(strm, &file_version);
- if (magic_number != kSTListMagicNumber) {
- LOG(ERROR) << "ReadSTListHeader: wrong file type: " << filename;
- return false;
- }
- if (file_version != kSTListFileVersion) {
- LOG(ERROR) << "ReadSTListHeader: wrong file version: " << filename;
- return false;
- }
- string key;
- ReadType(strm, &key);
- header->Read(strm, filename + ":" + key);
- if (!strm) {
- LOG(ERROR) << "ReadSTListHeader: error reading file: " << filename;
- return false;
- }
- return true;
-}
-
-bool IsSTList(const string &filename);
-
-} // namespace fst
-
-#endif // FST_EXTENSIONS_FAR_STLIST_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/far/sttable.h b/kaldi_io/src/tools/openfst/include/fst/extensions/far/sttable.h
deleted file mode 100644
index 3ce0a4b..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/far/sttable.h
+++ /dev/null
@@ -1,371 +0,0 @@
-// sttable.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// A generic string-to-type table file format
-//
-// This is not meant as a generalization of SSTable. This is more of
-// a simple replacement for SSTable in order to provide an open-source
-// implementation of the FAR format for the external version of the
-// FST Library.
-
-#ifndef FST_EXTENSIONS_FAR_STTABLE_H_
-#define FST_EXTENSIONS_FAR_STTABLE_H_
-
-#include <algorithm>
-#include <iostream>
-#include <fstream>
-#include <sstream>
-#include <fst/util.h>
-
-namespace fst {
-
-static const int32 kSTTableMagicNumber = 2125656924;
-static const int32 kSTTableFileVersion = 1;
-
-// String-to-type table writing class for object of type 'T' using functor 'W'
-// to write an object of type 'T' from a stream. 'W' must conform to the
-// following interface:
-//
-// struct Writer {
-// void operator()(ostream &, const T &) const;
-// };
-//
-template <class T, class W>
-class STTableWriter {
- public:
- typedef T EntryType;
- typedef W EntryWriter;
-
- explicit STTableWriter(const string &filename)
- : stream_(filename.c_str(), ofstream::out | ofstream::binary),
- error_(false) {
- WriteType(stream_, kSTTableMagicNumber);
- WriteType(stream_, kSTTableFileVersion);
- if (!stream_) {
- FSTERROR() << "STTableWriter::STTableWriter: error writing to file: "
- << filename;
- error_=true;
- }
- }
-
- static STTableWriter<T, W> *Create(const string &filename) {
- if (filename.empty()) {
- LOG(ERROR) << "STTableWriter: writing to standard out unsupported.";
- return 0;
- }
- return new STTableWriter<T, W>(filename);
- }
-
- void Add(const string &key, const T &t) {
- if (key == "") {
- FSTERROR() << "STTableWriter::Add: key empty: " << key;
- error_ = true;
- } else if (key < last_key_) {
- FSTERROR() << "STTableWriter::Add: key disorder: " << key;
- error_ = true;
- }
- if (error_) return;
- last_key_ = key;
- positions_.push_back(stream_.tellp());
- WriteType(stream_, key);
- entry_writer_(stream_, t);
- }
-
- bool Error() const { return error_; }
-
- ~STTableWriter() {
- WriteType(stream_, positions_);
- WriteType(stream_, static_cast<int64>(positions_.size()));
- }
-
- private:
- EntryWriter entry_writer_; // Write functor for 'EntryType'
- ofstream stream_; // Output stream
- vector<int64> positions_; // Position in file of each key-entry pair
- string last_key_; // Last key
- bool error_;
-
- DISALLOW_COPY_AND_ASSIGN(STTableWriter);
-};
-
-
-// String-to-type table reading class for object of type 'T' using functor 'R'
-// to read an object of type 'T' form a stream. 'R' must conform to the
-// following interface:
-//
-// struct Reader {
-// T *operator()(istream &) const;
-// };
-//
-template <class T, class R>
-class STTableReader {
- public:
- typedef T EntryType;
- typedef R EntryReader;
-
- explicit STTableReader(const vector<string> &filenames)
- : sources_(filenames), entry_(0), error_(false) {
- compare_ = new Compare(&keys_);
- keys_.resize(filenames.size());
- streams_.resize(filenames.size(), 0);
- positions_.resize(filenames.size());
- for (size_t i = 0; i < filenames.size(); ++i) {
- streams_[i] = new ifstream(
- filenames[i].c_str(), ifstream::in | ifstream::binary);
- int32 magic_number = 0, file_version = 0;
- ReadType(*streams_[i], &magic_number);
- ReadType(*streams_[i], &file_version);
- if (magic_number != kSTTableMagicNumber) {
- FSTERROR() << "STTableReader::STTableReader: wrong file type: "
- << filenames[i];
- error_ = true;
- return;
- }
- if (file_version != kSTTableFileVersion) {
- FSTERROR() << "STTableReader::STTableReader: wrong file version: "
- << filenames[i];
- error_ = true;
- return;
- }
- int64 num_entries;
- streams_[i]->seekg(-static_cast<int>(sizeof(int64)), ios_base::end);
- ReadType(*streams_[i], &num_entries);
- streams_[i]->seekg(-static_cast<int>(sizeof(int64)) *
- (num_entries + 1), ios_base::end);
- positions_[i].resize(num_entries);
- for (size_t j = 0; (j < num_entries) && (*streams_[i]); ++j)
- ReadType(*streams_[i], &(positions_[i][j]));
- streams_[i]->seekg(positions_[i][0]);
- if (!*streams_[i]) {
- FSTERROR() << "STTableReader::STTableReader: error reading file: "
- << filenames[i];
- error_ = true;
- return;
- }
-
- }
- MakeHeap();
- }
-
- ~STTableReader() {
- for (size_t i = 0; i < streams_.size(); ++i)
- delete streams_[i];
- delete compare_;
- if (entry_)
- delete entry_;
- }
-
- static STTableReader<T, R> *Open(const string &filename) {
- if (filename.empty()) {
- LOG(ERROR) << "STTableReader: reading from standard in not supported";
- return 0;
- }
- vector<string> filenames;
- filenames.push_back(filename);
- return new STTableReader<T, R>(filenames);
- }
-
- static STTableReader<T, R> *Open(const vector<string> &filenames) {
- return new STTableReader<T, R>(filenames);
- }
-
- void Reset() {
- if (error_) return;
- for (size_t i = 0; i < streams_.size(); ++i)
- streams_[i]->seekg(positions_[i].front());
- MakeHeap();
- }
-
- bool Find(const string &key) {
- if (error_) return false;
- for (size_t i = 0; i < streams_.size(); ++i)
- LowerBound(i, key);
- MakeHeap();
- return keys_[current_] == key;
- }
-
- bool Done() const { return error_ || heap_.empty(); }
-
- void Next() {
- if (error_) return;
- if (streams_[current_]->tellg() <= positions_[current_].back()) {
- ReadType(*(streams_[current_]), &(keys_[current_]));
- if (!*streams_[current_]) {
- FSTERROR() << "STTableReader: error reading file: "
- << sources_[current_];
- error_ = true;
- return;
- }
- push_heap(heap_.begin(), heap_.end(), *compare_);
- } else {
- heap_.pop_back();
- }
- if (!heap_.empty())
- PopHeap();
- }
-
- const string &GetKey() const {
- return keys_[current_];
- }
-
- const EntryType &GetEntry() const {
- return *entry_;
- }
-
- bool Error() const { return error_; }
-
- private:
- // Comparison functor used to compare stream IDs in the heap
- struct Compare {
- Compare(const vector<string> *keys) : keys_(keys) {}
-
- bool operator()(size_t i, size_t j) const {
- return (*keys_)[i] > (*keys_)[j];
- };
-
- private:
- const vector<string> *keys_;
- };
-
- // Position the stream with ID 'id' at the position corresponding
- // to the lower bound for key 'find_key'
- void LowerBound(size_t id, const string &find_key) {
- ifstream *strm = streams_[id];
- const vector<int64> &positions = positions_[id];
- size_t low = 0, high = positions.size() - 1;
-
- while (low < high) {
- size_t mid = (low + high)/2;
- strm->seekg(positions[mid]);
- string key;
- ReadType(*strm, &key);
- if (key > find_key) {
- high = mid;
- } else if (key < find_key) {
- low = mid + 1;
- } else {
- for (size_t i = mid; i > low; --i) {
- strm->seekg(positions[i - 1]);
- ReadType(*strm, &key);
- if (key != find_key) {
- strm->seekg(positions[i]);
- return;
- }
- }
- strm->seekg(positions[low]);
- return;
- }
- }
- strm->seekg(positions[low]);
- }
-
- // Add all streams to the heap
- void MakeHeap() {
- heap_.clear();
- for (size_t i = 0; i < streams_.size(); ++i) {
- ReadType(*streams_[i], &(keys_[i]));
- if (!*streams_[i]) {
- FSTERROR() << "STTableReader: error reading file: " << sources_[i];
- error_ = true;
- return;
- }
- heap_.push_back(i);
- }
- make_heap(heap_.begin(), heap_.end(), *compare_);
- PopHeap();
- }
-
- // Position the stream with the lowest key at the top
- // of the heap, set 'current_' to the ID of that stream
- // and read the current entry from that stream
- void PopHeap() {
- pop_heap(heap_.begin(), heap_.end(), *compare_);
- current_ = heap_.back();
- if (entry_)
- delete entry_;
- entry_ = entry_reader_(*streams_[current_]);
- if (!entry_)
- error_ = true;
- if (!*streams_[current_]) {
- FSTERROR() << "STTableReader: error reading entry for key: "
- << keys_[current_] << ", file: " << sources_[current_];
- error_ = true;
- }
- }
-
-
- EntryReader entry_reader_; // Read functor for 'EntryType'
- vector<ifstream*> streams_; // Input streams
- vector<string> sources_; // and corresponding file names
- vector<vector<int64> > positions_; // Index of positions for each stream
- vector<string> keys_; // Lowest unread key for each stream
- vector<int64> heap_; // Heap containing ID of streams with unread keys
- int64 current_; // Id of current stream to be read
- Compare *compare_; // Functor comparing stream IDs for the heap
- mutable EntryType *entry_; // Pointer to the currently read entry
- bool error_;
-
- DISALLOW_COPY_AND_ASSIGN(STTableReader);
-};
-
-
-// String-to-type table header reading function template on the entry header
-// type 'H' having a member function:
-// Read(istream &strm, const string &filename);
-// Checks that 'filename' is an STTable and call the H::Read() on the last
-// entry in the STTable.
-template <class H>
-bool ReadSTTableHeader(const string &filename, H *header) {
- ifstream strm(filename.c_str(), ifstream::in | ifstream::binary);
- int32 magic_number = 0, file_version = 0;
- ReadType(strm, &magic_number);
- ReadType(strm, &file_version);
- if (magic_number != kSTTableMagicNumber) {
- LOG(ERROR) << "ReadSTTableHeader: wrong file type: " << filename;
- return false;
- }
- if (file_version != kSTTableFileVersion) {
- LOG(ERROR) << "ReadSTTableHeader: wrong file version: " << filename;
- return false;
- }
- int64 i = -1;
- strm.seekg(-static_cast<int>(sizeof(int64)), ios_base::end);
- ReadType(strm, &i); // Read number of entries
- if (!strm) {
- LOG(ERROR) << "ReadSTTableHeader: error reading file: " << filename;
- return false;
- }
- if (i == 0) return true; // No entry header to read
- strm.seekg(-2 * static_cast<int>(sizeof(int64)), ios_base::end);
- ReadType(strm, &i); // Read position for last entry in file
- strm.seekg(i);
- string key;
- ReadType(strm, &key);
- header->Read(strm, filename + ":" + key);
- if (!strm) {
- LOG(ERROR) << "ReadSTTableHeader: error reading file: " << filename;
- return false;
- }
- return true;
-}
-
-bool IsSTTable(const string &filename);
-
-} // namespace fst
-
-#endif // FST_EXTENSIONS_FAR_STTABLE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/ngram/bitmap-index.h b/kaldi_io/src/tools/openfst/include/fst/extensions/ngram/bitmap-index.h
deleted file mode 100644
index f5a5ba7..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/ngram/bitmap-index.h
+++ /dev/null
@@ -1,183 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jeffrey Sorensen)
-
-#ifndef FST_EXTENSIONS_NGRAM_BITMAP_INDEX_H_
-#define FST_EXTENSIONS_NGRAM_BITMAP_INDEX_H_
-
-#include <vector>
-using std::vector;
-
-#include <fst/compat.h>
-
-// This class is a bitstring storage class with an index that allows
-// seeking to the Nth set or clear bit in time O(Log(N)) where N is
-// the length of the bit vector. In addition, it allows counting set or
-// clear bits over ranges in constant time.
-//
-// This is accomplished by maintaining an "secondary" index of limited
-// size in bits that maintains a running count of the number of bits set
-// in each block of bitmap data. A block is defined as the number of
-// uint64 values that can fit in the secondary index before an overflow
-// occurs.
-//
-// To handle overflows, a "primary" index containing a running count of
-// bits set in each block is created using the type uint64.
-
-namespace fst {
-
-class BitmapIndex {
- public:
- static size_t StorageSize(size_t size) {
- return ((size + kStorageBlockMask) >> kStorageLogBitSize);
- }
-
- BitmapIndex() : bits_(NULL), size_(0) { }
-
- bool Get(size_t index) const {
- return (bits_[index >> kStorageLogBitSize] &
- (kOne << (index & kStorageBlockMask))) != 0;
- }
-
- static void Set(uint64* bits, size_t index) {
- bits[index >> kStorageLogBitSize] |= (kOne << (index & kStorageBlockMask));
- }
-
- static void Clear(uint64* bits, size_t index) {
- bits[index >> kStorageLogBitSize] &= ~(kOne << (index & kStorageBlockMask));
- }
-
- size_t Bits() const {
- return size_;
- }
-
- size_t ArraySize() const {
- return StorageSize(size_);
- }
-
- // Returns the number of one bits in the bitmap
- size_t GetOnesCount() const {
- return primary_index_[primary_index_size() - 1];
- }
-
- // Returns the number of one bits in positions 0 to limit - 1.
- // REQUIRES: limit <= Bits()
- size_t Rank1(size_t end) const;
-
- // Returns the number of one bits in the range start to end - 1.
- // REQUIRES: limit <= Bits()
- size_t GetOnesCountInRange(size_t start, size_t end) const {
- return Rank1(end) - Rank1(start);
- }
-
- // Returns the number of zero bits in positions 0 to limit - 1.
- // REQUIRES: limit <= Bits()
- size_t Rank0(size_t end) const {
- return end - Rank1(end);
- }
-
- // Returns the number of zero bits in the range start to end - 1.
- // REQUIRES: limit <= Bits()
- size_t GetZeroesCountInRange(size_t start, size_t end) const {
- return end - start - GetOnesCountInRange(start, end);
- }
-
- // Return true if any bit between begin inclusive and end exclusive
- // is set. 0 <= begin <= end <= Bits() is required.
- //
- bool TestRange(size_t start, size_t end) const {
- return Rank1(end) > Rank1(start);
- }
-
- // Returns the offset to the nth set bit (zero based)
- // or Bits() if index >= number of ones
- size_t Select1(size_t bit_index) const;
-
- // Returns the offset to the nth clear bit (zero based)
- // or Bits() if index > number of
- size_t Select0(size_t bit_index) const;
-
- // Rebuilds from index for the associated Bitmap, should be called
- // whenever changes have been made to the Bitmap or else behavior
- // of the indexed bitmap methods will be undefined.
- void BuildIndex(const uint64 *bits, size_t size);
-
- // the secondary index accumulates counts until it can possibly overflow
- // this constant computes the number of uint64 units that can fit into
- // units the size of uint16.
- static const uint64 kOne = 1;
- static const uint32 kStorageBitSize = 64;
- static const uint32 kStorageLogBitSize = 6;
- static const uint32 kSecondaryBlockSize = ((1 << 16) - 1)
- >> kStorageLogBitSize;
-
- private:
- static const uint32 kStorageBlockMask = kStorageBitSize - 1;
-
- // returns, from the index, the count of ones up to array_index
- size_t get_index_ones_count(size_t array_index) const;
-
- // because the indexes, both primary and secondary, contain a running
- // count of the population of one bits contained in [0,i), there is
- // no reason to have an element in the zeroth position as this value would
- // necessarily be zero. (The bits are indexed in a zero based way.) Thus
- // we don't store the 0th element in either index. Both of the following
- // functions, if greater than 0, must be decremented by one before retreiving
- // the value from the corresponding array.
- // returns the 1 + the block that contains the bitindex in question
- // the inverted version works the same but looks for zeros using an inverted
- // view of the index
- size_t find_primary_block(size_t bit_index) const;
-
- size_t find_inverted_primary_block(size_t bit_index) const;
-
- // similarly, the secondary index (which resets its count to zero at
- // the end of every kSecondaryBlockSize entries) does not store the element
- // at 0. Note that the rem_bit_index parameter is the number of bits
- // within the secondary block, after the bits accounted for by the primary
- // block have been removed (i.e. the remaining bits) And, because we
- // reset to zero with each new block, there is no need to store those
- // actual zeros.
- // returns 1 + the secondary block that contains the bitindex in question
- size_t find_secondary_block(size_t block, size_t rem_bit_index) const;
-
- size_t find_inverted_secondary_block(size_t block, size_t rem_bit_index)
- const;
-
- // We create a primary index based upon the number of secondary index
- // blocks. The primary index uses fields wide enough to accomodate any
- // index of the bitarray so cannot overflow
- // The primary index is the actual running
- // count of one bits set for all blocks (and, thus, all uint64s).
- size_t primary_index_size() const {
- return (ArraySize() + kSecondaryBlockSize - 1) / kSecondaryBlockSize;
- }
-
- const uint64* bits_;
- size_t size_;
-
- // The primary index contains the running popcount of all blocks
- // which means the nth value contains the popcounts of
- // [0,n*kSecondaryBlockSize], however, the 0th element is omitted.
- vector<uint32> primary_index_;
- // The secondary index contains the running popcount of the associated
- // bitmap. It is the same length (in units of uint16) as the
- // bitmap's map is in units of uint64s.
- vector<uint16> secondary_index_;
-};
-
-} // end namespace fst
-
-#endif // FST_EXTENSIONS_NGRAM_BITMAP_INDEX_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/ngram/ngram-fst.h b/kaldi_io/src/tools/openfst/include/fst/extensions/ngram/ngram-fst.h
deleted file mode 100644
index d113fb3..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/ngram/ngram-fst.h
+++ /dev/null
@@ -1,934 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jeffrey Sorensen)
-//
-#ifndef FST_EXTENSIONS_NGRAM_NGRAM_FST_H_
-#define FST_EXTENSIONS_NGRAM_NGRAM_FST_H_
-
-#include <stddef.h>
-#include <string.h>
-#include <algorithm>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/compat.h>
-#include <fst/fstlib.h>
-#include <fst/mapped-file.h>
-#include <fst/extensions/ngram/bitmap-index.h>
-
-// NgramFst implements a n-gram language model based upon the LOUDS data
-// structure. Please refer to "Unary Data Strucutres for Language Models"
-// http://research.google.com/pubs/archive/37218.pdf
-
-namespace fst {
-template <class A> class NGramFst;
-template <class A> class NGramFstMatcher;
-
-// Instance data containing mutable state for bookkeeping repeated access to
-// the same state.
-template <class A>
-struct NGramFstInst {
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
- StateId state_;
- size_t num_futures_;
- size_t offset_;
- size_t node_;
- StateId node_state_;
- vector<Label> context_;
- StateId context_state_;
- NGramFstInst()
- : state_(kNoStateId), node_state_(kNoStateId),
- context_state_(kNoStateId) { }
-};
-
-// Implementation class for LOUDS based NgramFst interface
-template <class A>
-class NGramFstImpl : public FstImpl<A> {
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
- using FstImpl<A>::SetType;
- using FstImpl<A>::WriteHeader;
-
- friend class ArcIterator<NGramFst<A> >;
- friend class NGramFstMatcher<A>;
-
- public:
- using FstImpl<A>::InputSymbols;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::Properties;
-
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- NGramFstImpl() : data_region_(0), data_(0), owned_(false) {
- SetType("ngram");
- SetInputSymbols(NULL);
- SetOutputSymbols(NULL);
- SetProperties(kStaticProperties);
- }
-
- NGramFstImpl(const Fst<A> &fst, vector<StateId>* order_out);
-
- ~NGramFstImpl() {
- if (owned_) {
- delete [] data_;
- }
- delete data_region_;
- }
-
- static NGramFstImpl<A>* Read(istream &strm, // NOLINT
- const FstReadOptions &opts) {
- NGramFstImpl<A>* impl = new NGramFstImpl();
- FstHeader hdr;
- if (!impl->ReadHeader(strm, opts, kMinFileVersion, &hdr)) return 0;
- uint64 num_states, num_futures, num_final;
- const size_t offset = sizeof(num_states) + sizeof(num_futures) +
- sizeof(num_final);
- // Peek at num_states and num_futures to see how much more needs to be read.
- strm.read(reinterpret_cast<char *>(&num_states), sizeof(num_states));
- strm.read(reinterpret_cast<char *>(&num_futures), sizeof(num_futures));
- strm.read(reinterpret_cast<char *>(&num_final), sizeof(num_final));
- size_t size = Storage(num_states, num_futures, num_final);
- MappedFile *data_region = MappedFile::Allocate(size);
- char *data = reinterpret_cast<char *>(data_region->mutable_data());
- // Copy num_states, num_futures and num_final back into data.
- memcpy(data, reinterpret_cast<char *>(&num_states), sizeof(num_states));
- memcpy(data + sizeof(num_states), reinterpret_cast<char *>(&num_futures),
- sizeof(num_futures));
- memcpy(data + sizeof(num_states) + sizeof(num_futures),
- reinterpret_cast<char *>(&num_final), sizeof(num_final));
- strm.read(data + offset, size - offset);
- if (!strm) {
- delete impl;
- return NULL;
- }
- impl->Init(data, false, data_region);
- return impl;
- }
-
- bool Write(ostream &strm, // NOLINT
- const FstWriteOptions &opts) const {
- FstHeader hdr;
- hdr.SetStart(Start());
- hdr.SetNumStates(num_states_);
- WriteHeader(strm, opts, kFileVersion, &hdr);
- strm.write(data_, Storage(num_states_, num_futures_, num_final_));
- return strm;
- }
-
- StateId Start() const {
- return 1;
- }
-
- Weight Final(StateId state) const {
- if (final_index_.Get(state)) {
- return final_probs_[final_index_.Rank1(state)];
- } else {
- return Weight::Zero();
- }
- }
-
- size_t NumArcs(StateId state, NGramFstInst<A> *inst = NULL) const {
- if (inst == NULL) {
- const size_t next_zero = future_index_.Select0(state + 1);
- const size_t this_zero = future_index_.Select0(state);
- return next_zero - this_zero - 1;
- }
- SetInstFuture(state, inst);
- return inst->num_futures_ + ((state == 0) ? 0 : 1);
- }
-
- size_t NumInputEpsilons(StateId state) const {
- // State 0 has no parent, thus no backoff.
- if (state == 0) return 0;
- return 1;
- }
-
- size_t NumOutputEpsilons(StateId state) const {
- return NumInputEpsilons(state);
- }
-
- StateId NumStates() const {
- return num_states_;
- }
-
- void InitStateIterator(StateIteratorData<A>* data) const {
- data->base = 0;
- data->nstates = num_states_;
- }
-
- static size_t Storage(uint64 num_states, uint64 num_futures,
- uint64 num_final) {
- uint64 b64;
- Weight weight;
- Label label;
- size_t offset = sizeof(num_states) + sizeof(num_futures) +
- sizeof(num_final);
- offset += sizeof(b64) * (
- BitmapIndex::StorageSize(num_states * 2 + 1) +
- BitmapIndex::StorageSize(num_futures + num_states + 1) +
- BitmapIndex::StorageSize(num_states));
- offset += (num_states + 1) * sizeof(label) + num_futures * sizeof(label);
- // Pad for alignemnt, see
- // http://en.wikipedia.org/wiki/Data_structure_alignment#Computing_padding
- offset = (offset + sizeof(weight) - 1) & ~(sizeof(weight) - 1);
- offset += (num_states + 1) * sizeof(weight) + num_final * sizeof(weight) +
- (num_futures + 1) * sizeof(weight);
- return offset;
- }
-
- void SetInstFuture(StateId state, NGramFstInst<A> *inst) const {
- if (inst->state_ != state) {
- inst->state_ = state;
- const size_t next_zero = future_index_.Select0(state + 1);
- const size_t this_zero = future_index_.Select0(state);
- inst->num_futures_ = next_zero - this_zero - 1;
- inst->offset_ = future_index_.Rank1(future_index_.Select0(state) + 1);
- }
- }
-
- void SetInstNode(NGramFstInst<A> *inst) const {
- if (inst->node_state_ != inst->state_) {
- inst->node_state_ = inst->state_;
- inst->node_ = context_index_.Select1(inst->state_);
- }
- }
-
- void SetInstContext(NGramFstInst<A> *inst) const {
- SetInstNode(inst);
- if (inst->context_state_ != inst->state_) {
- inst->context_state_ = inst->state_;
- inst->context_.clear();
- size_t node = inst->node_;
- while (node != 0) {
- inst->context_.push_back(context_words_[context_index_.Rank1(node)]);
- node = context_index_.Select1(context_index_.Rank0(node) - 1);
- }
- }
- }
-
- // Access to the underlying representation
- const char* GetData(size_t* data_size) const {
- *data_size = Storage(num_states_, num_futures_, num_final_);
- return data_;
- }
-
- void Init(const char* data, bool owned, MappedFile *file = 0);
-
- const vector<Label> &GetContext(StateId s, NGramFstInst<A> *inst) const {
- SetInstFuture(s, inst);
- SetInstContext(inst);
- return inst->context_;
- }
-
- private:
- StateId Transition(const vector<Label> &context, Label future) const;
-
- // Properties always true for this Fst class.
- static const uint64 kStaticProperties = kAcceptor | kIDeterministic |
- kODeterministic | kEpsilons | kIEpsilons | kOEpsilons | kILabelSorted |
- kOLabelSorted | kWeighted | kCyclic | kInitialAcyclic | kNotTopSorted |
- kAccessible | kCoAccessible | kNotString | kExpanded;
- // Current file format version.
- static const int kFileVersion = 4;
- // Minimum file format version supported.
- static const int kMinFileVersion = 4;
-
- MappedFile *data_region_;
- const char* data_;
- bool owned_; // True if we own data_
- uint64 num_states_, num_futures_, num_final_;
- size_t root_num_children_;
- const Label *root_children_;
- size_t root_first_child_;
- // borrowed references
- const uint64 *context_, *future_, *final_;
- const Label *context_words_, *future_words_;
- const Weight *backoff_, *final_probs_, *future_probs_;
- BitmapIndex context_index_;
- BitmapIndex future_index_;
- BitmapIndex final_index_;
-
- void operator=(const NGramFstImpl<A> &); // Disallow
-};
-
-template<typename A>
-NGramFstImpl<A>::NGramFstImpl(const Fst<A> &fst, vector<StateId>* order_out)
- : data_region_(0), data_(0), owned_(false) {
- typedef A Arc;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
- SetType("ngram");
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
- SetProperties(kStaticProperties);
-
- // Check basic requirements for an OpenGRM language model Fst.
- int64 props = kAcceptor | kIDeterministic | kIEpsilons | kILabelSorted;
- if (fst.Properties(props, true) != props) {
- FSTERROR() << "NGramFst only accepts OpenGRM langauge models as input";
- SetProperties(kError, kError);
- return;
- }
-
- int64 num_states = CountStates(fst);
- Label* context = new Label[num_states];
-
- // Find the unigram state by starting from the start state, following
- // epsilons.
- StateId unigram = fst.Start();
- while (1) {
- if (unigram == kNoStateId) {
- FSTERROR() << "Could not identify unigram state.";
- SetProperties(kError, kError);
- return;
- }
- ArcIterator<Fst<A> > aiter(fst, unigram);
- if (aiter.Done()) {
- LOG(WARNING) << "Unigram state " << unigram << " has no arcs.";
- break;
- }
- if (aiter.Value().ilabel != 0) break;
- unigram = aiter.Value().nextstate;
- }
-
- // Each state's context is determined by the subtree it is under from the
- // unigram state.
- queue<pair<StateId, Label> > label_queue;
- vector<bool> visited(num_states);
- // Force an epsilon link to the start state.
- label_queue.push(make_pair(fst.Start(), 0));
- for (ArcIterator<Fst<A> > aiter(fst, unigram);
- !aiter.Done(); aiter.Next()) {
- label_queue.push(make_pair(aiter.Value().nextstate, aiter.Value().ilabel));
- }
- // investigate states in breadth first fashion to assign context words.
- while (!label_queue.empty()) {
- pair<StateId, Label> &now = label_queue.front();
- if (!visited[now.first]) {
- context[now.first] = now.second;
- visited[now.first] = true;
- for (ArcIterator<Fst<A> > aiter(fst, now.first);
- !aiter.Done(); aiter.Next()) {
- const Arc &arc = aiter.Value();
- if (arc.ilabel != 0) {
- label_queue.push(make_pair(arc.nextstate, now.second));
- }
- }
- }
- label_queue.pop();
- }
- visited.clear();
-
- // The arc from the start state should be assigned an epsilon to put it
- // in front of the all other labels (which makes Start state 1 after
- // unigram which is state 0).
- context[fst.Start()] = 0;
-
- // Build the tree of contexts fst by reversing the epsilon arcs from fst.
- VectorFst<Arc> context_fst;
- uint64 num_final = 0;
- for (int i = 0; i < num_states; ++i) {
- if (fst.Final(i) != Weight::Zero()) {
- ++num_final;
- }
- context_fst.SetFinal(context_fst.AddState(), fst.Final(i));
- }
- context_fst.SetStart(unigram);
- context_fst.SetInputSymbols(fst.InputSymbols());
- context_fst.SetOutputSymbols(fst.OutputSymbols());
- int64 num_context_arcs = 0;
- int64 num_futures = 0;
- for (StateIterator<Fst<A> > siter(fst); !siter.Done(); siter.Next()) {
- const StateId &state = siter.Value();
- num_futures += fst.NumArcs(state) - fst.NumInputEpsilons(state);
- ArcIterator<Fst<A> > aiter(fst, state);
- if (!aiter.Done()) {
- const Arc &arc = aiter.Value();
- // this arc goes from state to arc.nextstate, so create an arc from
- // arc.nextstate to state to reverse it.
- if (arc.ilabel == 0) {
- context_fst.AddArc(arc.nextstate, Arc(context[state], context[state],
- arc.weight, state));
- num_context_arcs++;
- }
- }
- }
- if (num_context_arcs != context_fst.NumStates() - 1) {
- FSTERROR() << "Number of contexts arcs != number of states - 1";
- SetProperties(kError, kError);
- return;
- }
- if (context_fst.NumStates() != num_states) {
- FSTERROR() << "Number of contexts != number of states";
- SetProperties(kError, kError);
- return;
- }
- int64 context_props = context_fst.Properties(kIDeterministic |
- kILabelSorted, true);
- if (!(context_props & kIDeterministic)) {
- FSTERROR() << "Input fst is not structured properly";
- SetProperties(kError, kError);
- return;
- }
- if (!(context_props & kILabelSorted)) {
- ArcSort(&context_fst, ILabelCompare<Arc>());
- }
-
- delete [] context;
-
- uint64 b64;
- Weight weight;
- Label label = kNoLabel;
- const size_t storage = Storage(num_states, num_futures, num_final);
- MappedFile *data_region = MappedFile::Allocate(storage);
- char *data = reinterpret_cast<char *>(data_region->mutable_data());
- memset(data, 0, storage);
- size_t offset = 0;
- memcpy(data + offset, reinterpret_cast<char *>(&num_states),
- sizeof(num_states));
- offset += sizeof(num_states);
- memcpy(data + offset, reinterpret_cast<char *>(&num_futures),
- sizeof(num_futures));
- offset += sizeof(num_futures);
- memcpy(data + offset, reinterpret_cast<char *>(&num_final),
- sizeof(num_final));
- offset += sizeof(num_final);
- uint64* context_bits = reinterpret_cast<uint64*>(data + offset);
- offset += BitmapIndex::StorageSize(num_states * 2 + 1) * sizeof(b64);
- uint64* future_bits = reinterpret_cast<uint64*>(data + offset);
- offset +=
- BitmapIndex::StorageSize(num_futures + num_states + 1) * sizeof(b64);
- uint64* final_bits = reinterpret_cast<uint64*>(data + offset);
- offset += BitmapIndex::StorageSize(num_states) * sizeof(b64);
- Label* context_words = reinterpret_cast<Label*>(data + offset);
- offset += (num_states + 1) * sizeof(label);
- Label* future_words = reinterpret_cast<Label*>(data + offset);
- offset += num_futures * sizeof(label);
- offset = (offset + sizeof(weight) - 1) & ~(sizeof(weight) - 1);
- Weight* backoff = reinterpret_cast<Weight*>(data + offset);
- offset += (num_states + 1) * sizeof(weight);
- Weight* final_probs = reinterpret_cast<Weight*>(data + offset);
- offset += num_final * sizeof(weight);
- Weight* future_probs = reinterpret_cast<Weight*>(data + offset);
- int64 context_arc = 0, future_arc = 0, context_bit = 0, future_bit = 0,
- final_bit = 0;
-
- // pseudo-root bits
- BitmapIndex::Set(context_bits, context_bit++);
- ++context_bit;
- context_words[context_arc] = label;
- backoff[context_arc] = Weight::Zero();
- context_arc++;
-
- ++future_bit;
- if (order_out) {
- order_out->clear();
- order_out->resize(num_states);
- }
-
- queue<StateId> context_q;
- context_q.push(context_fst.Start());
- StateId state_number = 0;
- while (!context_q.empty()) {
- const StateId &state = context_q.front();
- if (order_out) {
- (*order_out)[state] = state_number;
- }
-
- const Weight &final = context_fst.Final(state);
- if (final != Weight::Zero()) {
- BitmapIndex::Set(final_bits, state_number);
- final_probs[final_bit] = final;
- ++final_bit;
- }
-
- for (ArcIterator<VectorFst<A> > aiter(context_fst, state);
- !aiter.Done(); aiter.Next()) {
- const Arc &arc = aiter.Value();
- context_words[context_arc] = arc.ilabel;
- backoff[context_arc] = arc.weight;
- ++context_arc;
- BitmapIndex::Set(context_bits, context_bit++);
- context_q.push(arc.nextstate);
- }
- ++context_bit;
-
- for (ArcIterator<Fst<A> > aiter(fst, state); !aiter.Done(); aiter.Next()) {
- const Arc &arc = aiter.Value();
- if (arc.ilabel != 0) {
- future_words[future_arc] = arc.ilabel;
- future_probs[future_arc] = arc.weight;
- ++future_arc;
- BitmapIndex::Set(future_bits, future_bit++);
- }
- }
- ++future_bit;
- ++state_number;
- context_q.pop();
- }
-
- if ((state_number != num_states) ||
- (context_bit != num_states * 2 + 1) ||
- (context_arc != num_states) ||
- (future_arc != num_futures) ||
- (future_bit != num_futures + num_states + 1) ||
- (final_bit != num_final)) {
- FSTERROR() << "Structure problems detected during construction";
- SetProperties(kError, kError);
- return;
- }
-
- Init(data, false, data_region);
-}
-
-template<typename A>
-inline void NGramFstImpl<A>::Init(const char* data, bool owned,
- MappedFile *data_region) {
- if (owned_) {
- delete [] data_;
- }
- delete data_region_;
- data_region_ = data_region;
- owned_ = owned;
- data_ = data;
- size_t offset = 0;
- num_states_ = *(reinterpret_cast<const uint64*>(data_ + offset));
- offset += sizeof(num_states_);
- num_futures_ = *(reinterpret_cast<const uint64*>(data_ + offset));
- offset += sizeof(num_futures_);
- num_final_ = *(reinterpret_cast<const uint64*>(data_ + offset));
- offset += sizeof(num_final_);
- uint64 bits;
- size_t context_bits = num_states_ * 2 + 1;
- size_t future_bits = num_futures_ + num_states_ + 1;
- context_ = reinterpret_cast<const uint64*>(data_ + offset);
- offset += BitmapIndex::StorageSize(context_bits) * sizeof(bits);
- future_ = reinterpret_cast<const uint64*>(data_ + offset);
- offset += BitmapIndex::StorageSize(future_bits) * sizeof(bits);
- final_ = reinterpret_cast<const uint64*>(data_ + offset);
- offset += BitmapIndex::StorageSize(num_states_) * sizeof(bits);
- context_words_ = reinterpret_cast<const Label*>(data_ + offset);
- offset += (num_states_ + 1) * sizeof(*context_words_);
- future_words_ = reinterpret_cast<const Label*>(data_ + offset);
- offset += num_futures_ * sizeof(*future_words_);
- offset = (offset + sizeof(*backoff_) - 1) & ~(sizeof(*backoff_) - 1);
- backoff_ = reinterpret_cast<const Weight*>(data_ + offset);
- offset += (num_states_ + 1) * sizeof(*backoff_);
- final_probs_ = reinterpret_cast<const Weight*>(data_ + offset);
- offset += num_final_ * sizeof(*final_probs_);
- future_probs_ = reinterpret_cast<const Weight*>(data_ + offset);
-
- context_index_.BuildIndex(context_, context_bits);
- future_index_.BuildIndex(future_, future_bits);
- final_index_.BuildIndex(final_, num_states_);
-
- const size_t node_rank = context_index_.Rank1(0);
- root_first_child_ = context_index_.Select0(node_rank) + 1;
- if (context_index_.Get(root_first_child_) == false) {
- FSTERROR() << "Missing unigrams";
- SetProperties(kError, kError);
- return;
- }
- const size_t last_child = context_index_.Select0(node_rank + 1) - 1;
- root_num_children_ = last_child - root_first_child_ + 1;
- root_children_ = context_words_ + context_index_.Rank1(root_first_child_);
-}
-
-template<typename A>
-inline typename A::StateId NGramFstImpl<A>::Transition(
- const vector<Label> &context, Label future) const {
- size_t num_children = root_num_children_;
- const Label *children = root_children_;
- const Label *loc = lower_bound(children, children + num_children, future);
- if (loc == children + num_children || *loc != future) {
- return context_index_.Rank1(0);
- }
- size_t node = root_first_child_ + loc - children;
- size_t node_rank = context_index_.Rank1(node);
- size_t first_child = context_index_.Select0(node_rank) + 1;
- if (context_index_.Get(first_child) == false) {
- return context_index_.Rank1(node);
- }
- size_t last_child = context_index_.Select0(node_rank + 1) - 1;
- num_children = last_child - first_child + 1;
- for (int word = context.size() - 1; word >= 0; --word) {
- children = context_words_ + context_index_.Rank1(first_child);
- loc = lower_bound(children, children + last_child - first_child + 1,
- context[word]);
- if (loc == children + last_child - first_child + 1 ||
- *loc != context[word]) {
- break;
- }
- node = first_child + loc - children;
- node_rank = context_index_.Rank1(node);
- first_child = context_index_.Select0(node_rank) + 1;
- if (context_index_.Get(first_child) == false) break;
- last_child = context_index_.Select0(node_rank + 1) - 1;
- }
- return context_index_.Rank1(node);
-}
-
-/*****************************************************************************/
-template<class A>
-class NGramFst : public ImplToExpandedFst<NGramFstImpl<A> > {
- friend class ArcIterator<NGramFst<A> >;
- friend class NGramFstMatcher<A>;
-
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef NGramFstImpl<A> Impl;
-
- explicit NGramFst(const Fst<A> &dst)
- : ImplToExpandedFst<Impl>(new Impl(dst, NULL)) {}
-
- NGramFst(const Fst<A> &fst, vector<StateId>* order_out)
- : ImplToExpandedFst<Impl>(new Impl(fst, order_out)) {}
-
- // Because the NGramFstImpl is a const stateless data structure, there
- // is never a need to do anything beside copy the reference.
- NGramFst(const NGramFst<A> &fst, bool safe = false)
- : ImplToExpandedFst<Impl>(fst, false) {}
-
- NGramFst() : ImplToExpandedFst<Impl>(new Impl()) {}
-
- // Non-standard constructor to initialize NGramFst directly from data.
- NGramFst(const char* data, bool owned) : ImplToExpandedFst<Impl>(new Impl()) {
- GetImpl()->Init(data, owned, NULL);
- }
-
- // Get method that gets the data associated with Init().
- const char* GetData(size_t* data_size) const {
- return GetImpl()->GetData(data_size);
- }
-
- const vector<Label> GetContext(StateId s) const {
- return GetImpl()->GetContext(s, &inst_);
- }
-
- virtual size_t NumArcs(StateId s) const {
- return GetImpl()->NumArcs(s, &inst_);
- }
-
- virtual NGramFst<A>* Copy(bool safe = false) const {
- return new NGramFst(*this, safe);
- }
-
- static NGramFst<A>* Read(istream &strm, const FstReadOptions &opts) {
- Impl* impl = Impl::Read(strm, opts);
- return impl ? new NGramFst<A>(impl) : 0;
- }
-
- static NGramFst<A>* Read(const string &filename) {
- if (!filename.empty()) {
- ifstream strm(filename.c_str(), ifstream::in | ifstream::binary);
- if (!strm) {
- LOG(ERROR) << "NGramFst::Read: Can't open file: " << filename;
- return 0;
- }
- return Read(strm, FstReadOptions(filename));
- } else {
- return Read(cin, FstReadOptions("standard input"));
- }
- }
-
- virtual bool Write(ostream &strm, const FstWriteOptions &opts) const {
- return GetImpl()->Write(strm, opts);
- }
-
- virtual bool Write(const string &filename) const {
- return Fst<A>::WriteFile(filename);
- }
-
- virtual inline void InitStateIterator(StateIteratorData<A>* data) const {
- GetImpl()->InitStateIterator(data);
- }
-
- virtual inline void InitArcIterator(
- StateId s, ArcIteratorData<A>* data) const;
-
- virtual MatcherBase<A>* InitMatcher(MatchType match_type) const {
- return new NGramFstMatcher<A>(*this, match_type);
- }
-
- private:
- explicit NGramFst(Impl* impl) : ImplToExpandedFst<Impl>(impl) {}
-
- Impl* GetImpl() const {
- return
- ImplToExpandedFst<Impl, ExpandedFst<A> >::GetImpl();
- }
-
- void SetImpl(Impl* impl, bool own_impl = true) {
- ImplToExpandedFst<Impl, Fst<A> >::SetImpl(impl, own_impl);
- }
-
- mutable NGramFstInst<A> inst_;
-};
-
-template <class A> inline void
-NGramFst<A>::InitArcIterator(StateId s, ArcIteratorData<A>* data) const {
- GetImpl()->SetInstFuture(s, &inst_);
- GetImpl()->SetInstNode(&inst_);
- data->base = new ArcIterator<NGramFst<A> >(*this, s);
-}
-
-/*****************************************************************************/
-template <class A>
-class NGramFstMatcher : public MatcherBase<A> {
- public:
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- NGramFstMatcher(const NGramFst<A> &fst, MatchType match_type)
- : fst_(fst), inst_(fst.inst_), match_type_(match_type),
- current_loop_(false),
- loop_(kNoLabel, 0, A::Weight::One(), kNoStateId) {
- if (match_type_ == MATCH_OUTPUT) {
- swap(loop_.ilabel, loop_.olabel);
- }
- }
-
- NGramFstMatcher(const NGramFstMatcher<A> &matcher, bool safe = false)
- : fst_(matcher.fst_), inst_(matcher.inst_),
- match_type_(matcher.match_type_), current_loop_(false),
- loop_(kNoLabel, 0, A::Weight::One(), kNoStateId) {
- if (match_type_ == MATCH_OUTPUT) {
- swap(loop_.ilabel, loop_.olabel);
- }
- }
-
- virtual NGramFstMatcher<A>* Copy(bool safe = false) const {
- return new NGramFstMatcher<A>(*this, safe);
- }
-
- virtual MatchType Type(bool test) const {
- return match_type_;
- }
-
- virtual const Fst<A> &GetFst() const {
- return fst_;
- }
-
- virtual uint64 Properties(uint64 props) const {
- return props;
- }
-
- private:
- virtual void SetState_(StateId s) {
- fst_.GetImpl()->SetInstFuture(s, &inst_);
- current_loop_ = false;
- }
-
- virtual bool Find_(Label label) {
- const Label nolabel = kNoLabel;
- done_ = true;
- if (label == 0 || label == nolabel) {
- if (label == 0) {
- current_loop_ = true;
- loop_.nextstate = inst_.state_;
- }
- // The unigram state has no epsilon arc.
- if (inst_.state_ != 0) {
- arc_.ilabel = arc_.olabel = 0;
- fst_.GetImpl()->SetInstNode(&inst_);
- arc_.nextstate = fst_.GetImpl()->context_index_.Rank1(
- fst_.GetImpl()->context_index_.Select1(
- fst_.GetImpl()->context_index_.Rank0(inst_.node_) - 1));
- arc_.weight = fst_.GetImpl()->backoff_[inst_.state_];
- done_ = false;
- }
- } else {
- const Label *start = fst_.GetImpl()->future_words_ + inst_.offset_;
- const Label *end = start + inst_.num_futures_;
- const Label* search = lower_bound(start, end, label);
- if (search != end && *search == label) {
- size_t state = search - start;
- arc_.ilabel = arc_.olabel = label;
- arc_.weight = fst_.GetImpl()->future_probs_[inst_.offset_ + state];
- fst_.GetImpl()->SetInstContext(&inst_);
- arc_.nextstate = fst_.GetImpl()->Transition(inst_.context_, label);
- done_ = false;
- }
- }
- return !Done_();
- }
-
- virtual bool Done_() const {
- return !current_loop_ && done_;
- }
-
- virtual const Arc& Value_() const {
- return (current_loop_) ? loop_ : arc_;
- }
-
- virtual void Next_() {
- if (current_loop_) {
- current_loop_ = false;
- } else {
- done_ = true;
- }
- }
-
- const NGramFst<A>& fst_;
- NGramFstInst<A> inst_;
- MatchType match_type_; // Supplied by caller
- bool done_;
- Arc arc_;
- bool current_loop_; // Current arc is the implicit loop
- Arc loop_;
-};
-
-/*****************************************************************************/
-template<class A>
-class ArcIterator<NGramFst<A> > : public ArcIteratorBase<A> {
- public:
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- ArcIterator(const NGramFst<A> &fst, StateId state)
- : lazy_(~0), impl_(fst.GetImpl()), i_(0), flags_(kArcValueFlags) {
- inst_ = fst.inst_;
- impl_->SetInstFuture(state, &inst_);
- impl_->SetInstNode(&inst_);
- }
-
- bool Done() const {
- return i_ >= ((inst_.node_ == 0) ? inst_.num_futures_ :
- inst_.num_futures_ + 1);
- }
-
- const Arc &Value() const {
- bool eps = (inst_.node_ != 0 && i_ == 0);
- StateId state = (inst_.node_ == 0) ? i_ : i_ - 1;
- if (flags_ & lazy_ & (kArcILabelValue | kArcOLabelValue)) {
- arc_.ilabel =
- arc_.olabel = eps ? 0 : impl_->future_words_[inst_.offset_ + state];
- lazy_ &= ~(kArcILabelValue | kArcOLabelValue);
- }
- if (flags_ & lazy_ & kArcNextStateValue) {
- if (eps) {
- arc_.nextstate = impl_->context_index_.Rank1(
- impl_->context_index_.Select1(
- impl_->context_index_.Rank0(inst_.node_) - 1));
- } else {
- if (lazy_ & kArcNextStateValue) {
- impl_->SetInstContext(&inst_); // first time only.
- }
- arc_.nextstate =
- impl_->Transition(inst_.context_,
- impl_->future_words_[inst_.offset_ + state]);
- }
- lazy_ &= ~kArcNextStateValue;
- }
- if (flags_ & lazy_ & kArcWeightValue) {
- arc_.weight = eps ? impl_->backoff_[inst_.state_] :
- impl_->future_probs_[inst_.offset_ + state];
- lazy_ &= ~kArcWeightValue;
- }
- return arc_;
- }
-
- void Next() {
- ++i_;
- lazy_ = ~0;
- }
-
- size_t Position() const { return i_; }
-
- void Reset() {
- i_ = 0;
- lazy_ = ~0;
- }
-
- void Seek(size_t a) {
- if (i_ != a) {
- i_ = a;
- lazy_ = ~0;
- }
- }
-
- uint32 Flags() const {
- return flags_;
- }
-
- void SetFlags(uint32 f, uint32 m) {
- flags_ &= ~m;
- flags_ |= (f & kArcValueFlags);
- }
-
- private:
- virtual bool Done_() const { return Done(); }
- virtual const Arc& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
- virtual size_t Position_() const { return Position(); }
- virtual void Reset_() { Reset(); }
- virtual void Seek_(size_t a) { Seek(a); }
- uint32 Flags_() const { return Flags(); }
- void SetFlags_(uint32 f, uint32 m) { SetFlags(f, m); }
-
- mutable Arc arc_;
- mutable uint32 lazy_;
- const NGramFstImpl<A> *impl_;
- mutable NGramFstInst<A> inst_;
-
- size_t i_;
- uint32 flags_;
-
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-/*****************************************************************************/
-// Specialization for NGramFst; see generic version in fst.h
-// for sample usage (but use the ProdLmFst type!). This version
-// should inline.
-template <class A>
-class StateIterator<NGramFst<A> > : public StateIteratorBase<A> {
- public:
- typedef typename A::StateId StateId;
-
- explicit StateIterator(const NGramFst<A> &fst)
- : s_(0), num_states_(fst.NumStates()) { }
-
- bool Done() const { return s_ >= num_states_; }
- StateId Value() const { return s_; }
- void Next() { ++s_; }
- void Reset() { s_ = 0; }
-
- private:
- virtual bool Done_() const { return Done(); }
- virtual StateId Value_() const { return Value(); }
- virtual void Next_() { Next(); }
- virtual void Reset_() { Reset(); }
-
- StateId s_, num_states_;
-
- DISALLOW_COPY_AND_ASSIGN(StateIterator);
-};
-} // namespace fst
-#endif // FST_EXTENSIONS_NGRAM_NGRAM_FST_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/extensions/ngram/nthbit.h b/kaldi_io/src/tools/openfst/include/fst/extensions/ngram/nthbit.h
deleted file mode 100644
index d4a9a5a..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/extensions/ngram/nthbit.h
+++ /dev/null
@@ -1,46 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jeffrey Sorensen)
-// [email protected] (Doug Rohde)
-
-#ifndef FST_EXTENSIONS_NGRAM_NTHBIT_H_
-#define FST_EXTENSIONS_NGRAM_NTHBIT_H_
-
-#include <fst/types.h>
-
-extern uint32 nth_bit_bit_offset[];
-
-inline uint32 nth_bit(uint64 v, uint32 r) {
- uint32 shift = 0;
- uint32 c = __builtin_popcount(v & 0xffffffff);
- uint32 mask = -(r > c);
- r -= c & mask;
- shift += (32 & mask);
-
- c = __builtin_popcount((v >> shift) & 0xffff);
- mask = -(r > c);
- r -= c & mask;
- shift += (16 & mask);
-
- c = __builtin_popcount((v >> shift) & 0xff);
- mask = -(r > c);
- r -= c & mask;
- shift += (8 & mask);
-
- return shift + ((nth_bit_bit_offset[(v >> shift) & 0xff] >>
- ((r - 1) << 2)) & 0xf);
-}
-
-#endif // FST_EXTENSIONS_NGRAM_NTHBIT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/factor-weight.h b/kaldi_io/src/tools/openfst/include/fst/factor-weight.h
deleted file mode 100644
index 685155c..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/factor-weight.h
+++ /dev/null
@@ -1,475 +0,0 @@
-// factor-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Classes to factor weights in an FST.
-
-#ifndef FST_LIB_FACTOR_WEIGHT_H__
-#define FST_LIB_FACTOR_WEIGHT_H__
-
-#include <algorithm>
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <string>
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-const uint32 kFactorFinalWeights = 0x00000001;
-const uint32 kFactorArcWeights = 0x00000002;
-
-template <class Arc>
-struct FactorWeightOptions : CacheOptions {
- typedef typename Arc::Label Label;
- float delta;
- uint32 mode; // factor arc weights and/or final weights
- Label final_ilabel; // input label of arc created when factoring final w's
- Label final_olabel; // output label of arc created when factoring final w's
-
- FactorWeightOptions(const CacheOptions &opts, float d,
- uint32 m = kFactorArcWeights | kFactorFinalWeights,
- Label il = 0, Label ol = 0)
- : CacheOptions(opts), delta(d), mode(m), final_ilabel(il),
- final_olabel(ol) {}
-
- explicit FactorWeightOptions(
- float d, uint32 m = kFactorArcWeights | kFactorFinalWeights,
- Label il = 0, Label ol = 0)
- : delta(d), mode(m), final_ilabel(il), final_olabel(ol) {}
-
- FactorWeightOptions(uint32 m = kFactorArcWeights | kFactorFinalWeights,
- Label il = 0, Label ol = 0)
- : delta(kDelta), mode(m), final_ilabel(il), final_olabel(ol) {}
-};
-
-
-// A factor iterator takes as argument a weight w and returns a
-// sequence of pairs of weights (xi,yi) such that the sum of the
-// products xi times yi is equal to w. If w is fully factored,
-// the iterator should return nothing.
-//
-// template <class W>
-// class FactorIterator {
-// public:
-// FactorIterator(W w);
-// bool Done() const;
-// void Next();
-// pair<W, W> Value() const;
-// void Reset();
-// }
-
-
-// Factor trivially.
-template <class W>
-class IdentityFactor {
- public:
- IdentityFactor(const W &w) {}
- bool Done() const { return true; }
- void Next() {}
- pair<W, W> Value() const { return make_pair(W::One(), W::One()); } // unused
- void Reset() {}
-};
-
-
-// Factor a StringWeight w as 'ab' where 'a' is a label.
-template <typename L, StringType S = STRING_LEFT>
-class StringFactor {
- public:
- StringFactor(const StringWeight<L, S> &w)
- : weight_(w), done_(w.Size() <= 1) {}
-
- bool Done() const { return done_; }
-
- void Next() { done_ = true; }
-
- pair< StringWeight<L, S>, StringWeight<L, S> > Value() const {
- StringWeightIterator<L, S> iter(weight_);
- StringWeight<L, S> w1(iter.Value());
- StringWeight<L, S> w2;
- for (iter.Next(); !iter.Done(); iter.Next())
- w2.PushBack(iter.Value());
- return make_pair(w1, w2);
- }
-
- void Reset() { done_ = weight_.Size() <= 1; }
-
- private:
- StringWeight<L, S> weight_;
- bool done_;
-};
-
-
-// Factor a GallicWeight using StringFactor.
-template <class L, class W, StringType S = STRING_LEFT>
-class GallicFactor {
- public:
- GallicFactor(const GallicWeight<L, W, S> &w)
- : weight_(w), done_(w.Value1().Size() <= 1) {}
-
- bool Done() const { return done_; }
-
- void Next() { done_ = true; }
-
- pair< GallicWeight<L, W, S>, GallicWeight<L, W, S> > Value() const {
- StringFactor<L, S> iter(weight_.Value1());
- GallicWeight<L, W, S> w1(iter.Value().first, weight_.Value2());
- GallicWeight<L, W, S> w2(iter.Value().second, W::One());
- return make_pair(w1, w2);
- }
-
- void Reset() { done_ = weight_.Value1().Size() <= 1; }
-
- private:
- GallicWeight<L, W, S> weight_;
- bool done_;
-};
-
-
-// Implementation class for FactorWeight
-template <class A, class F>
-class FactorWeightFstImpl
- : public CacheImpl<A> {
- public:
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
-
- using CacheBaseImpl< CacheState<A> >::PushArc;
- using CacheBaseImpl< CacheState<A> >::HasStart;
- using CacheBaseImpl< CacheState<A> >::HasFinal;
- using CacheBaseImpl< CacheState<A> >::HasArcs;
- using CacheBaseImpl< CacheState<A> >::SetArcs;
- using CacheBaseImpl< CacheState<A> >::SetFinal;
- using CacheBaseImpl< CacheState<A> >::SetStart;
-
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef F FactorIterator;
-
- struct Element {
- Element() {}
-
- Element(StateId s, Weight w) : state(s), weight(w) {}
-
- StateId state; // Input state Id
- Weight weight; // Residual weight
- };
-
- FactorWeightFstImpl(const Fst<A> &fst, const FactorWeightOptions<A> &opts)
- : CacheImpl<A>(opts),
- fst_(fst.Copy()),
- delta_(opts.delta),
- mode_(opts.mode),
- final_ilabel_(opts.final_ilabel),
- final_olabel_(opts.final_olabel) {
- SetType("factor_weight");
- uint64 props = fst.Properties(kFstProperties, false);
- SetProperties(FactorWeightProperties(props), kCopyProperties);
-
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
-
- if (mode_ == 0)
- LOG(WARNING) << "FactorWeightFst: factor mode is set to 0: "
- << "factoring neither arc weights nor final weights.";
- }
-
- FactorWeightFstImpl(const FactorWeightFstImpl<A, F> &impl)
- : CacheImpl<A>(impl),
- fst_(impl.fst_->Copy(true)),
- delta_(impl.delta_),
- mode_(impl.mode_),
- final_ilabel_(impl.final_ilabel_),
- final_olabel_(impl.final_olabel_) {
- SetType("factor_weight");
- SetProperties(impl.Properties(), kCopyProperties);
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- }
-
- ~FactorWeightFstImpl() {
- delete fst_;
- }
-
- StateId Start() {
- if (!HasStart()) {
- StateId s = fst_->Start();
- if (s == kNoStateId)
- return kNoStateId;
- StateId start = FindState(Element(fst_->Start(), Weight::One()));
- SetStart(start);
- }
- return CacheImpl<A>::Start();
- }
-
- Weight Final(StateId s) {
- if (!HasFinal(s)) {
- const Element &e = elements_[s];
- // TODO: fix so cast is unnecessary
- Weight w = e.state == kNoStateId
- ? e.weight
- : (Weight) Times(e.weight, fst_->Final(e.state));
- FactorIterator f(w);
- if (!(mode_ & kFactorFinalWeights) || f.Done())
- SetFinal(s, w);
- else
- SetFinal(s, Weight::Zero());
- }
- return CacheImpl<A>::Final(s);
- }
-
- size_t NumArcs(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumArcs(s);
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumOutputEpsilons(s);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) && fst_->Properties(kError, false))
- SetProperties(kError, kError);
- return FstImpl<Arc>::Properties(mask);
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<A> *data) {
- if (!HasArcs(s))
- Expand(s);
- CacheImpl<A>::InitArcIterator(s, data);
- }
-
-
- // Find state corresponding to an element. Create new state
- // if element not found.
- StateId FindState(const Element &e) {
- if (!(mode_ & kFactorArcWeights) && e.weight == Weight::One()) {
- while (unfactored_.size() <= e.state)
- unfactored_.push_back(kNoStateId);
- if (unfactored_[e.state] == kNoStateId) {
- unfactored_[e.state] = elements_.size();
- elements_.push_back(e);
- }
- return unfactored_[e.state];
- } else {
- typename ElementMap::iterator eit = element_map_.find(e);
- if (eit != element_map_.end()) {
- return (*eit).second;
- } else {
- StateId s = elements_.size();
- elements_.push_back(e);
- element_map_.insert(pair<const Element, StateId>(e, s));
- return s;
- }
- }
- }
-
- // Computes the outgoing transitions from a state, creating new destination
- // states as needed.
- void Expand(StateId s) {
- Element e = elements_[s];
- if (e.state != kNoStateId) {
- for (ArcIterator< Fst<A> > ait(*fst_, e.state);
- !ait.Done();
- ait.Next()) {
- const A &arc = ait.Value();
- Weight w = Times(e.weight, arc.weight);
- FactorIterator fit(w);
- if (!(mode_ & kFactorArcWeights) || fit.Done()) {
- StateId d = FindState(Element(arc.nextstate, Weight::One()));
- PushArc(s, Arc(arc.ilabel, arc.olabel, w, d));
- } else {
- for (; !fit.Done(); fit.Next()) {
- const pair<Weight, Weight> &p = fit.Value();
- StateId d = FindState(Element(arc.nextstate,
- p.second.Quantize(delta_)));
- PushArc(s, Arc(arc.ilabel, arc.olabel, p.first, d));
- }
- }
- }
- }
-
- if ((mode_ & kFactorFinalWeights) &&
- ((e.state == kNoStateId) ||
- (fst_->Final(e.state) != Weight::Zero()))) {
- Weight w = e.state == kNoStateId
- ? e.weight
- : Times(e.weight, fst_->Final(e.state));
- for (FactorIterator fit(w);
- !fit.Done();
- fit.Next()) {
- const pair<Weight, Weight> &p = fit.Value();
- StateId d = FindState(Element(kNoStateId,
- p.second.Quantize(delta_)));
- PushArc(s, Arc(final_ilabel_, final_olabel_, p.first, d));
- }
- }
- SetArcs(s);
- }
-
- private:
- static const size_t kPrime = 7853;
-
- // Equality function for Elements, assume weights have been quantized.
- class ElementEqual {
- public:
- bool operator()(const Element &x, const Element &y) const {
- return x.state == y.state && x.weight == y.weight;
- }
- };
-
- // Hash function for Elements to Fst states.
- class ElementKey {
- public:
- size_t operator()(const Element &x) const {
- return static_cast<size_t>(x.state * kPrime + x.weight.Hash());
- }
- private:
- };
-
- typedef unordered_map<Element, StateId, ElementKey, ElementEqual> ElementMap;
-
- const Fst<A> *fst_;
- float delta_;
- uint32 mode_; // factoring arc and/or final weights
- Label final_ilabel_; // ilabel of arc created when factoring final w's
- Label final_olabel_; // olabel of arc created when factoring final w's
- vector<Element> elements_; // mapping Fst state to Elements
- ElementMap element_map_; // mapping Elements to Fst state
- // mapping between old/new 'StateId' for states that do not need to
- // be factored when 'mode_' is '0' or 'kFactorFinalWeights'
- vector<StateId> unfactored_;
-
- void operator=(const FactorWeightFstImpl<A, F> &); // disallow
-};
-
-template <class A, class F> const size_t FactorWeightFstImpl<A, F>::kPrime;
-
-
-// FactorWeightFst takes as template parameter a FactorIterator as
-// defined above. The result of weight factoring is a transducer
-// equivalent to the input whose path weights have been factored
-// according to the FactorIterator. States and transitions will be
-// added as necessary. The algorithm is a generalization to arbitrary
-// weights of the second step of the input epsilon-normalization
-// algorithm due to Mohri, "Generic epsilon-removal and input
-// epsilon-normalization algorithms for weighted transducers",
-// International Journal of Computer Science 13(1): 129-143 (2002).
-//
-// This class attaches interface to implementation and handles
-// reference counting, delegating most methods to ImplToFst.
-template <class A, class F>
-class FactorWeightFst : public ImplToFst< FactorWeightFstImpl<A, F> > {
- public:
- friend class ArcIterator< FactorWeightFst<A, F> >;
- friend class StateIterator< FactorWeightFst<A, F> >;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
- typedef FactorWeightFstImpl<A, F> Impl;
-
- FactorWeightFst(const Fst<A> &fst)
- : ImplToFst<Impl>(new Impl(fst, FactorWeightOptions<A>())) {}
-
- FactorWeightFst(const Fst<A> &fst, const FactorWeightOptions<A> &opts)
- : ImplToFst<Impl>(new Impl(fst, opts)) {}
-
- // See Fst<>::Copy() for doc.
- FactorWeightFst(const FactorWeightFst<A, F> &fst, bool copy)
- : ImplToFst<Impl>(fst, copy) {}
-
- // Get a copy of this FactorWeightFst. See Fst<>::Copy() for further doc.
- virtual FactorWeightFst<A, F> *Copy(bool copy = false) const {
- return new FactorWeightFst<A, F>(*this, copy);
- }
-
- virtual inline void InitStateIterator(StateIteratorData<A> *data) const;
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<A> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const FactorWeightFst<A, F> &fst); // Disallow
-};
-
-
-// Specialization for FactorWeightFst.
-template<class A, class F>
-class StateIterator< FactorWeightFst<A, F> >
- : public CacheStateIterator< FactorWeightFst<A, F> > {
- public:
- explicit StateIterator(const FactorWeightFst<A, F> &fst)
- : CacheStateIterator< FactorWeightFst<A, F> >(fst, fst.GetImpl()) {}
-};
-
-
-// Specialization for FactorWeightFst.
-template <class A, class F>
-class ArcIterator< FactorWeightFst<A, F> >
- : public CacheArcIterator< FactorWeightFst<A, F> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const FactorWeightFst<A, F> &fst, StateId s)
- : CacheArcIterator< FactorWeightFst<A, F> >(fst.GetImpl(), s) {
- if (!fst.GetImpl()->HasArcs(s))
- fst.GetImpl()->Expand(s);
- }
-
- private:
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-template <class A, class F> inline
-void FactorWeightFst<A, F>::InitStateIterator(StateIteratorData<A> *data) const
-{
- data->base = new StateIterator< FactorWeightFst<A, F> >(*this);
-}
-
-
-} // namespace fst
-
-#endif // FST_LIB_FACTOR_WEIGHT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/flags.h b/kaldi_io/src/tools/openfst/include/fst/flags.h
deleted file mode 100644
index b3bb66c..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/flags.h
+++ /dev/null
@@ -1,242 +0,0 @@
-// flags.h
-//
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Google-style flag handling declarations and inline definitions.
-
-#ifndef FST_LIB_FLAGS_H__
-#define FST_LIB_FLAGS_H__
-
-#include <iostream>
-#include <map>
-#include <set>
-#include <sstream>
-#include <string>
-
-#include <fst/types.h>
-#include <fst/lock.h>
-
-using std::string;
-
-//
-// FLAGS USAGE:
-//
-// Definition example:
-//
-// DEFINE_int32(length, 0, "length");
-//
-// This defines variable FLAGS_length, initialized to 0.
-//
-// Declaration example:
-//
-// DECLARE_int32(length);
-//
-// SET_FLAGS() can be used to set flags from the command line
-// using, for example, '--length=2'.
-//
-// ShowUsage() can be used to print out command and flag usage.
-//
-
-#define DECLARE_bool(name) extern bool FLAGS_ ## name
-#define DECLARE_string(name) extern string FLAGS_ ## name
-#define DECLARE_int32(name) extern int32 FLAGS_ ## name
-#define DECLARE_int64(name) extern int64 FLAGS_ ## name
-#define DECLARE_double(name) extern double FLAGS_ ## name
-
-template <typename T>
-struct FlagDescription {
- FlagDescription(T *addr, const char *doc, const char *type,
- const char *file, const T val)
- : address(addr),
- doc_string(doc),
- type_name(type),
- file_name(file),
- default_value(val) {}
-
- T *address;
- const char *doc_string;
- const char *type_name;
- const char *file_name;
- const T default_value;
-};
-
-template <typename T>
-class FlagRegister {
- public:
- static FlagRegister<T> *GetRegister() {
- fst::FstOnceInit(&register_init_, &FlagRegister<T>::Init);
- return register_;
- }
-
- const FlagDescription<T> &GetFlagDescription(const string &name) const {
- fst::MutexLock l(register_lock_);
- typename std::map< string, FlagDescription<T> >::const_iterator it =
- flag_table_.find(name);
- return it != flag_table_.end() ? it->second : 0;
- }
- void SetDescription(const string &name,
- const FlagDescription<T> &desc) {
- fst::MutexLock l(register_lock_);
- flag_table_.insert(make_pair(name, desc));
- }
-
- bool SetFlag(const string &val, bool *address) const {
- if (val == "true" || val == "1" || val.empty()) {
- *address = true;
- return true;
- } else if (val == "false" || val == "0") {
- *address = false;
- return true;
- }
- else {
- return false;
- }
- }
- bool SetFlag(const string &val, string *address) const {
- *address = val;
- return true;
- }
- bool SetFlag(const string &val, int32 *address) const {
- char *p = 0;
- *address = strtol(val.c_str(), &p, 0);
- return !val.empty() && *p == '\0';
- }
- bool SetFlag(const string &val, int64 *address) const {
- char *p = 0;
- *address = strtoll(val.c_str(), &p, 0);
- return !val.empty() && *p == '\0';
- }
- bool SetFlag(const string &val, double *address) const {
- char *p = 0;
- *address = strtod(val.c_str(), &p);
- return !val.empty() && *p == '\0';
- }
-
- bool SetFlag(const string &arg, const string &val) const {
- for (typename std::map< string, FlagDescription<T> >::const_iterator it =
- flag_table_.begin();
- it != flag_table_.end();
- ++it) {
- const string &name = it->first;
- const FlagDescription<T> &desc = it->second;
- if (arg == name)
- return SetFlag(val, desc.address);
- }
- return false;
- }
-
- void GetUsage(std::set< std::pair<string, string> > *usage_set) const {
- for (typename std::map< string,
- FlagDescription<T> >::const_iterator it =
- flag_table_.begin();
- it != flag_table_.end();
- ++it) {
- const string &name = it->first;
- const FlagDescription<T> &desc = it->second;
- string usage = " --" + name;
- usage += ": type = ";
- usage += desc.type_name;
- usage += ", default = ";
- usage += GetDefault(desc.default_value) + "\n ";
- usage += desc.doc_string;
- usage_set->insert(make_pair(desc.file_name, usage));
- }
- }
-
- private:
- static void Init() {
- register_lock_ = new fst::Mutex;
- register_ = new FlagRegister<T>;
- }
-
- std::map< string, FlagDescription<T> > flag_table_;
-
- string GetDefault(bool default_value) const {
- return default_value ? "true" : "false";
- }
-
- string GetDefault(const string &default_value) const {
- return "\"" + default_value + "\"";
- }
-
- template<typename V> string GetDefault(const V& default_value) const {
- std::ostringstream strm;
- strm << default_value;
- return strm.str();
- }
-
- static fst::FstOnceType register_init_; // ensures only called once
- static fst::Mutex* register_lock_; // multithreading lock
- static FlagRegister<T> *register_;
-};
-
-template <class T>
-fst::FstOnceType FlagRegister<T>::register_init_ = fst::FST_ONCE_INIT;
-
-template <class T>
-fst::Mutex *FlagRegister<T>::register_lock_ = 0;
-
-template <class T>
-FlagRegister<T> *FlagRegister<T>::register_ = 0;
-
-
-template <typename T>
-class FlagRegisterer {
- public:
- FlagRegisterer(const string &name, const FlagDescription<T> &desc) {
- FlagRegister<T> *registr = FlagRegister<T>::GetRegister();
- registr->SetDescription(name, desc);
- }
-
- private:
- DISALLOW_COPY_AND_ASSIGN(FlagRegisterer);
-};
-
-
-#define DEFINE_VAR(type, name, value, doc) \
- type FLAGS_ ## name = value; \
- static FlagRegisterer<type> \
- name ## _flags_registerer(#name, FlagDescription<type>(&FLAGS_ ## name, \
- doc, \
- #type, \
- __FILE__, \
- value))
-
-#define DEFINE_bool(name, value, doc) DEFINE_VAR(bool, name, value, doc)
-#define DEFINE_string(name, value, doc) \
- DEFINE_VAR(string, name, value, doc)
-#define DEFINE_int32(name, value, doc) DEFINE_VAR(int32, name, value, doc)
-#define DEFINE_int64(name, value, doc) DEFINE_VAR(int64, name, value, doc)
-#define DEFINE_double(name, value, doc) DEFINE_VAR(double, name, value, doc)
-
-
-// Temporary directory
-DECLARE_string(tmpdir);
-
-void SetFlags(const char *usage, int *argc, char ***argv, bool remove_flags,
- const char *src = "");
-
-#define SET_FLAGS(usage, argc, argv, rmflags) \
-SetFlags(usage, argc, argv, rmflags, __FILE__)
-
-// Deprecated - for backward compatibility
-inline void InitFst(const char *usage, int *argc, char ***argv, bool rmflags) {
- return SetFlags(usage, argc, argv, rmflags);
-}
-
-void ShowUsage(bool long_usage = true);
-
-#endif // FST_LIB_FLAGS_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/float-weight.h b/kaldi_io/src/tools/openfst/include/fst/float-weight.h
deleted file mode 100644
index eb22638..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/float-weight.h
+++ /dev/null
@@ -1,601 +0,0 @@
-// float-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Float weight set and associated semiring operation definitions.
-//
-
-#ifndef FST_LIB_FLOAT_WEIGHT_H__
-#define FST_LIB_FLOAT_WEIGHT_H__
-
-#include <limits>
-#include <climits>
-#include <sstream>
-#include <string>
-
-#include <fst/util.h>
-#include <fst/weight.h>
-
-
-namespace fst {
-
-// numeric limits class
-template <class T>
-class FloatLimits {
- public:
- static const T PosInfinity() {
- static const T pos_infinity = numeric_limits<T>::infinity();
- return pos_infinity;
- }
-
- static const T NegInfinity() {
- static const T neg_infinity = -PosInfinity();
- return neg_infinity;
- }
-
- static const T NumberBad() {
- static const T number_bad = numeric_limits<T>::quiet_NaN();
- return number_bad;
- }
-
-};
-
-// weight class to be templated on floating-points types
-template <class T = float>
-class FloatWeightTpl {
- public:
- FloatWeightTpl() {}
-
- FloatWeightTpl(T f) : value_(f) {}
-
- FloatWeightTpl(const FloatWeightTpl<T> &w) : value_(w.value_) {}
-
- FloatWeightTpl<T> &operator=(const FloatWeightTpl<T> &w) {
- value_ = w.value_;
- return *this;
- }
-
- istream &Read(istream &strm) {
- return ReadType(strm, &value_);
- }
-
- ostream &Write(ostream &strm) const {
- return WriteType(strm, value_);
- }
-
- size_t Hash() const {
- union {
- T f;
- size_t s;
- } u;
- u.s = 0;
- u.f = value_;
- return u.s;
- }
-
- const T &Value() const { return value_; }
-
- protected:
- void SetValue(const T &f) { value_ = f; }
-
- inline static string GetPrecisionString() {
- int64 size = sizeof(T);
- if (size == sizeof(float)) return "";
- size *= CHAR_BIT;
-
- string result;
- Int64ToStr(size, &result);
- return result;
- }
-
- private:
- T value_;
-};
-
-// Single-precision float weight
-typedef FloatWeightTpl<float> FloatWeight;
-
-template <class T>
-inline bool operator==(const FloatWeightTpl<T> &w1,
- const FloatWeightTpl<T> &w2) {
- // Volatile qualifier thwarts over-aggressive compiler optimizations
- // that lead to problems esp. with NaturalLess().
- volatile T v1 = w1.Value();
- volatile T v2 = w2.Value();
- return v1 == v2;
-}
-
-inline bool operator==(const FloatWeightTpl<double> &w1,
- const FloatWeightTpl<double> &w2) {
- return operator==<double>(w1, w2);
-}
-
-inline bool operator==(const FloatWeightTpl<float> &w1,
- const FloatWeightTpl<float> &w2) {
- return operator==<float>(w1, w2);
-}
-
-template <class T>
-inline bool operator!=(const FloatWeightTpl<T> &w1,
- const FloatWeightTpl<T> &w2) {
- return !(w1 == w2);
-}
-
-inline bool operator!=(const FloatWeightTpl<double> &w1,
- const FloatWeightTpl<double> &w2) {
- return operator!=<double>(w1, w2);
-}
-
-inline bool operator!=(const FloatWeightTpl<float> &w1,
- const FloatWeightTpl<float> &w2) {
- return operator!=<float>(w1, w2);
-}
-
-template <class T>
-inline bool ApproxEqual(const FloatWeightTpl<T> &w1,
- const FloatWeightTpl<T> &w2,
- float delta = kDelta) {
- return w1.Value() <= w2.Value() + delta && w2.Value() <= w1.Value() + delta;
-}
-
-template <class T>
-inline ostream &operator<<(ostream &strm, const FloatWeightTpl<T> &w) {
- if (w.Value() == FloatLimits<T>::PosInfinity())
- return strm << "Infinity";
- else if (w.Value() == FloatLimits<T>::NegInfinity())
- return strm << "-Infinity";
- else if (w.Value() != w.Value()) // Fails for NaN
- return strm << "BadNumber";
- else
- return strm << w.Value();
-}
-
-template <class T>
-inline istream &operator>>(istream &strm, FloatWeightTpl<T> &w) {
- string s;
- strm >> s;
- if (s == "Infinity") {
- w = FloatWeightTpl<T>(FloatLimits<T>::PosInfinity());
- } else if (s == "-Infinity") {
- w = FloatWeightTpl<T>(FloatLimits<T>::NegInfinity());
- } else {
- char *p;
- T f = strtod(s.c_str(), &p);
- if (p < s.c_str() + s.size())
- strm.clear(std::ios::badbit);
- else
- w = FloatWeightTpl<T>(f);
- }
- return strm;
-}
-
-
-// Tropical semiring: (min, +, inf, 0)
-template <class T>
-class TropicalWeightTpl : public FloatWeightTpl<T> {
- public:
- using FloatWeightTpl<T>::Value;
-
- typedef TropicalWeightTpl<T> ReverseWeight;
-
- TropicalWeightTpl() : FloatWeightTpl<T>() {}
-
- TropicalWeightTpl(T f) : FloatWeightTpl<T>(f) {}
-
- TropicalWeightTpl(const TropicalWeightTpl<T> &w) : FloatWeightTpl<T>(w) {}
-
- static const TropicalWeightTpl<T> Zero() {
- return TropicalWeightTpl<T>(FloatLimits<T>::PosInfinity()); }
-
- static const TropicalWeightTpl<T> One() {
- return TropicalWeightTpl<T>(0.0F); }
-
- static const TropicalWeightTpl<T> NoWeight() {
- return TropicalWeightTpl<T>(FloatLimits<T>::NumberBad()); }
-
- static const string &Type() {
- static const string type = "tropical" +
- FloatWeightTpl<T>::GetPrecisionString();
- return type;
- }
-
- bool Member() const {
- // First part fails for IEEE NaN
- return Value() == Value() && Value() != FloatLimits<T>::NegInfinity();
- }
-
- TropicalWeightTpl<T> Quantize(float delta = kDelta) const {
- if (Value() == FloatLimits<T>::NegInfinity() ||
- Value() == FloatLimits<T>::PosInfinity() ||
- Value() != Value())
- return *this;
- else
- return TropicalWeightTpl<T>(floor(Value()/delta + 0.5F) * delta);
- }
-
- TropicalWeightTpl<T> Reverse() const { return *this; }
-
- static uint64 Properties() {
- return kLeftSemiring | kRightSemiring | kCommutative |
- kPath | kIdempotent;
- }
-};
-
-// Single precision tropical weight
-typedef TropicalWeightTpl<float> TropicalWeight;
-
-template <class T>
-inline TropicalWeightTpl<T> Plus(const TropicalWeightTpl<T> &w1,
- const TropicalWeightTpl<T> &w2) {
- if (!w1.Member() || !w2.Member())
- return TropicalWeightTpl<T>::NoWeight();
- return w1.Value() < w2.Value() ? w1 : w2;
-}
-
-inline TropicalWeightTpl<float> Plus(const TropicalWeightTpl<float> &w1,
- const TropicalWeightTpl<float> &w2) {
- return Plus<float>(w1, w2);
-}
-
-inline TropicalWeightTpl<double> Plus(const TropicalWeightTpl<double> &w1,
- const TropicalWeightTpl<double> &w2) {
- return Plus<double>(w1, w2);
-}
-
-template <class T>
-inline TropicalWeightTpl<T> Times(const TropicalWeightTpl<T> &w1,
- const TropicalWeightTpl<T> &w2) {
- if (!w1.Member() || !w2.Member())
- return TropicalWeightTpl<T>::NoWeight();
- T f1 = w1.Value(), f2 = w2.Value();
- if (f1 == FloatLimits<T>::PosInfinity())
- return w1;
- else if (f2 == FloatLimits<T>::PosInfinity())
- return w2;
- else
- return TropicalWeightTpl<T>(f1 + f2);
-}
-
-inline TropicalWeightTpl<float> Times(const TropicalWeightTpl<float> &w1,
- const TropicalWeightTpl<float> &w2) {
- return Times<float>(w1, w2);
-}
-
-inline TropicalWeightTpl<double> Times(const TropicalWeightTpl<double> &w1,
- const TropicalWeightTpl<double> &w2) {
- return Times<double>(w1, w2);
-}
-
-template <class T>
-inline TropicalWeightTpl<T> Divide(const TropicalWeightTpl<T> &w1,
- const TropicalWeightTpl<T> &w2,
- DivideType typ = DIVIDE_ANY) {
- if (!w1.Member() || !w2.Member())
- return TropicalWeightTpl<T>::NoWeight();
- T f1 = w1.Value(), f2 = w2.Value();
- if (f2 == FloatLimits<T>::PosInfinity())
- return FloatLimits<T>::NumberBad();
- else if (f1 == FloatLimits<T>::PosInfinity())
- return FloatLimits<T>::PosInfinity();
- else
- return TropicalWeightTpl<T>(f1 - f2);
-}
-
-inline TropicalWeightTpl<float> Divide(const TropicalWeightTpl<float> &w1,
- const TropicalWeightTpl<float> &w2,
- DivideType typ = DIVIDE_ANY) {
- return Divide<float>(w1, w2, typ);
-}
-
-inline TropicalWeightTpl<double> Divide(const TropicalWeightTpl<double> &w1,
- const TropicalWeightTpl<double> &w2,
- DivideType typ = DIVIDE_ANY) {
- return Divide<double>(w1, w2, typ);
-}
-
-
-// Log semiring: (log(e^-x + e^y), +, inf, 0)
-template <class T>
-class LogWeightTpl : public FloatWeightTpl<T> {
- public:
- using FloatWeightTpl<T>::Value;
-
- typedef LogWeightTpl ReverseWeight;
-
- LogWeightTpl() : FloatWeightTpl<T>() {}
-
- LogWeightTpl(T f) : FloatWeightTpl<T>(f) {}
-
- LogWeightTpl(const LogWeightTpl<T> &w) : FloatWeightTpl<T>(w) {}
-
- static const LogWeightTpl<T> Zero() {
- return LogWeightTpl<T>(FloatLimits<T>::PosInfinity());
- }
-
- static const LogWeightTpl<T> One() {
- return LogWeightTpl<T>(0.0F);
- }
-
- static const LogWeightTpl<T> NoWeight() {
- return LogWeightTpl<T>(FloatLimits<T>::NumberBad()); }
-
- static const string &Type() {
- static const string type = "log" + FloatWeightTpl<T>::GetPrecisionString();
- return type;
- }
-
- bool Member() const {
- // First part fails for IEEE NaN
- return Value() == Value() && Value() != FloatLimits<T>::NegInfinity();
- }
-
- LogWeightTpl<T> Quantize(float delta = kDelta) const {
- if (Value() == FloatLimits<T>::NegInfinity() ||
- Value() == FloatLimits<T>::PosInfinity() ||
- Value() != Value())
- return *this;
- else
- return LogWeightTpl<T>(floor(Value()/delta + 0.5F) * delta);
- }
-
- LogWeightTpl<T> Reverse() const { return *this; }
-
- static uint64 Properties() {
- return kLeftSemiring | kRightSemiring | kCommutative;
- }
-};
-
-// Single-precision log weight
-typedef LogWeightTpl<float> LogWeight;
-// Double-precision log weight
-typedef LogWeightTpl<double> Log64Weight;
-
-template <class T>
-inline T LogExp(T x) { return log(1.0F + exp(-x)); }
-
-template <class T>
-inline LogWeightTpl<T> Plus(const LogWeightTpl<T> &w1,
- const LogWeightTpl<T> &w2) {
- T f1 = w1.Value(), f2 = w2.Value();
- if (f1 == FloatLimits<T>::PosInfinity())
- return w2;
- else if (f2 == FloatLimits<T>::PosInfinity())
- return w1;
- else if (f1 > f2)
- return LogWeightTpl<T>(f2 - LogExp(f1 - f2));
- else
- return LogWeightTpl<T>(f1 - LogExp(f2 - f1));
-}
-
-inline LogWeightTpl<float> Plus(const LogWeightTpl<float> &w1,
- const LogWeightTpl<float> &w2) {
- return Plus<float>(w1, w2);
-}
-
-inline LogWeightTpl<double> Plus(const LogWeightTpl<double> &w1,
- const LogWeightTpl<double> &w2) {
- return Plus<double>(w1, w2);
-}
-
-template <class T>
-inline LogWeightTpl<T> Times(const LogWeightTpl<T> &w1,
- const LogWeightTpl<T> &w2) {
- if (!w1.Member() || !w2.Member())
- return LogWeightTpl<T>::NoWeight();
- T f1 = w1.Value(), f2 = w2.Value();
- if (f1 == FloatLimits<T>::PosInfinity())
- return w1;
- else if (f2 == FloatLimits<T>::PosInfinity())
- return w2;
- else
- return LogWeightTpl<T>(f1 + f2);
-}
-
-inline LogWeightTpl<float> Times(const LogWeightTpl<float> &w1,
- const LogWeightTpl<float> &w2) {
- return Times<float>(w1, w2);
-}
-
-inline LogWeightTpl<double> Times(const LogWeightTpl<double> &w1,
- const LogWeightTpl<double> &w2) {
- return Times<double>(w1, w2);
-}
-
-template <class T>
-inline LogWeightTpl<T> Divide(const LogWeightTpl<T> &w1,
- const LogWeightTpl<T> &w2,
- DivideType typ = DIVIDE_ANY) {
- if (!w1.Member() || !w2.Member())
- return LogWeightTpl<T>::NoWeight();
- T f1 = w1.Value(), f2 = w2.Value();
- if (f2 == FloatLimits<T>::PosInfinity())
- return FloatLimits<T>::NumberBad();
- else if (f1 == FloatLimits<T>::PosInfinity())
- return FloatLimits<T>::PosInfinity();
- else
- return LogWeightTpl<T>(f1 - f2);
-}
-
-inline LogWeightTpl<float> Divide(const LogWeightTpl<float> &w1,
- const LogWeightTpl<float> &w2,
- DivideType typ = DIVIDE_ANY) {
- return Divide<float>(w1, w2, typ);
-}
-
-inline LogWeightTpl<double> Divide(const LogWeightTpl<double> &w1,
- const LogWeightTpl<double> &w2,
- DivideType typ = DIVIDE_ANY) {
- return Divide<double>(w1, w2, typ);
-}
-
-// MinMax semiring: (min, max, inf, -inf)
-template <class T>
-class MinMaxWeightTpl : public FloatWeightTpl<T> {
- public:
- using FloatWeightTpl<T>::Value;
-
- typedef MinMaxWeightTpl<T> ReverseWeight;
-
- MinMaxWeightTpl() : FloatWeightTpl<T>() {}
-
- MinMaxWeightTpl(T f) : FloatWeightTpl<T>(f) {}
-
- MinMaxWeightTpl(const MinMaxWeightTpl<T> &w) : FloatWeightTpl<T>(w) {}
-
- static const MinMaxWeightTpl<T> Zero() {
- return MinMaxWeightTpl<T>(FloatLimits<T>::PosInfinity());
- }
-
- static const MinMaxWeightTpl<T> One() {
- return MinMaxWeightTpl<T>(FloatLimits<T>::NegInfinity());
- }
-
- static const MinMaxWeightTpl<T> NoWeight() {
- return MinMaxWeightTpl<T>(FloatLimits<T>::NumberBad()); }
-
- static const string &Type() {
- static const string type = "minmax" +
- FloatWeightTpl<T>::GetPrecisionString();
- return type;
- }
-
- bool Member() const {
- // Fails for IEEE NaN
- return Value() == Value();
- }
-
- MinMaxWeightTpl<T> Quantize(float delta = kDelta) const {
- // If one of infinities, or a NaN
- if (Value() == FloatLimits<T>::NegInfinity() ||
- Value() == FloatLimits<T>::PosInfinity() ||
- Value() != Value())
- return *this;
- else
- return MinMaxWeightTpl<T>(floor(Value()/delta + 0.5F) * delta);
- }
-
- MinMaxWeightTpl<T> Reverse() const { return *this; }
-
- static uint64 Properties() {
- return kLeftSemiring | kRightSemiring | kCommutative | kIdempotent | kPath;
- }
-};
-
-// Single-precision min-max weight
-typedef MinMaxWeightTpl<float> MinMaxWeight;
-
-// Min
-template <class T>
-inline MinMaxWeightTpl<T> Plus(
- const MinMaxWeightTpl<T> &w1, const MinMaxWeightTpl<T> &w2) {
- if (!w1.Member() || !w2.Member())
- return MinMaxWeightTpl<T>::NoWeight();
- return w1.Value() < w2.Value() ? w1 : w2;
-}
-
-inline MinMaxWeightTpl<float> Plus(
- const MinMaxWeightTpl<float> &w1, const MinMaxWeightTpl<float> &w2) {
- return Plus<float>(w1, w2);
-}
-
-inline MinMaxWeightTpl<double> Plus(
- const MinMaxWeightTpl<double> &w1, const MinMaxWeightTpl<double> &w2) {
- return Plus<double>(w1, w2);
-}
-
-// Max
-template <class T>
-inline MinMaxWeightTpl<T> Times(
- const MinMaxWeightTpl<T> &w1, const MinMaxWeightTpl<T> &w2) {
- if (!w1.Member() || !w2.Member())
- return MinMaxWeightTpl<T>::NoWeight();
- return w1.Value() >= w2.Value() ? w1 : w2;
-}
-
-inline MinMaxWeightTpl<float> Times(
- const MinMaxWeightTpl<float> &w1, const MinMaxWeightTpl<float> &w2) {
- return Times<float>(w1, w2);
-}
-
-inline MinMaxWeightTpl<double> Times(
- const MinMaxWeightTpl<double> &w1, const MinMaxWeightTpl<double> &w2) {
- return Times<double>(w1, w2);
-}
-
-// Defined only for special cases
-template <class T>
-inline MinMaxWeightTpl<T> Divide(const MinMaxWeightTpl<T> &w1,
- const MinMaxWeightTpl<T> &w2,
- DivideType typ = DIVIDE_ANY) {
- if (!w1.Member() || !w2.Member())
- return MinMaxWeightTpl<T>::NoWeight();
- // min(w1, x) = w2, w1 >= w2 => min(w1, x) = w2, x = w2
- return w1.Value() >= w2.Value() ? w1 : FloatLimits<T>::NumberBad();
-}
-
-inline MinMaxWeightTpl<float> Divide(const MinMaxWeightTpl<float> &w1,
- const MinMaxWeightTpl<float> &w2,
- DivideType typ = DIVIDE_ANY) {
- return Divide<float>(w1, w2, typ);
-}
-
-inline MinMaxWeightTpl<double> Divide(const MinMaxWeightTpl<double> &w1,
- const MinMaxWeightTpl<double> &w2,
- DivideType typ = DIVIDE_ANY) {
- return Divide<double>(w1, w2, typ);
-}
-
-//
-// WEIGHT CONVERTER SPECIALIZATIONS.
-//
-
-// Convert to tropical
-template <>
-struct WeightConvert<LogWeight, TropicalWeight> {
- TropicalWeight operator()(LogWeight w) const { return w.Value(); }
-};
-
-template <>
-struct WeightConvert<Log64Weight, TropicalWeight> {
- TropicalWeight operator()(Log64Weight w) const { return w.Value(); }
-};
-
-// Convert to log
-template <>
-struct WeightConvert<TropicalWeight, LogWeight> {
- LogWeight operator()(TropicalWeight w) const { return w.Value(); }
-};
-
-template <>
-struct WeightConvert<Log64Weight, LogWeight> {
- LogWeight operator()(Log64Weight w) const { return w.Value(); }
-};
-
-// Convert to log64
-template <>
-struct WeightConvert<TropicalWeight, Log64Weight> {
- Log64Weight operator()(TropicalWeight w) const { return w.Value(); }
-};
-
-template <>
-struct WeightConvert<LogWeight, Log64Weight> {
- Log64Weight operator()(LogWeight w) const { return w.Value(); }
-};
-
-} // namespace fst
-
-#endif // FST_LIB_FLOAT_WEIGHT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/fst-decl.h b/kaldi_io/src/tools/openfst/include/fst/fst-decl.h
deleted file mode 100644
index f27ded8..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/fst-decl.h
+++ /dev/null
@@ -1,124 +0,0 @@
-// fst-decl.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// This file contains declarations of classes in the Fst template library.
-//
-
-#ifndef FST_LIB_FST_DECL_H__
-#define FST_LIB_FST_DECL_H__
-
-#include <fst/types.h>
-
-namespace fst {
-
-class SymbolTable;
-class SymbolTableIterator;
-
-template <class W> class FloatWeightTpl;
-template <class W> class TropicalWeightTpl;
-template <class W> class LogWeightTpl;
-template <class W> class MinMaxWeightTpl;
-
-typedef FloatWeightTpl<float> FloatWeight;
-typedef TropicalWeightTpl<float> TropicalWeight;
-typedef LogWeightTpl<float> LogWeight;
-typedef MinMaxWeightTpl<float> MinMaxWeight;
-
-template <class W> class ArcTpl;
-typedef ArcTpl<TropicalWeight> StdArc;
-typedef ArcTpl<LogWeight> LogArc;
-
-template <class A, class C, class U = uint32> class CompactFst;
-template <class A, class U = uint32> class ConstFst;
-template <class A, class W, class M> class EditFst;
-template <class A> class ExpandedFst;
-template <class A> class Fst;
-template <class A> class MutableFst;
-template <class A> class VectorFst;
-
-template <class A, class C> class ArcSortFst;
-template <class A> class ClosureFst;
-template <class A> class ComposeFst;
-template <class A> class ConcatFst;
-template <class A> class DeterminizeFst;
-template <class A> class DifferenceFst;
-template <class A> class IntersectFst;
-template <class A> class InvertFst;
-template <class A, class B, class C> class ArcMapFst;
-template <class A> class ProjectFst;
-template <class A, class B, class S> class RandGenFst;
-template <class A> class RelabelFst;
-template <class A, class T> class ReplaceFst;
-template <class A> class RmEpsilonFst;
-template <class A> class UnionFst;
-
-template <class T, class Compare, bool max> class Heap;
-
-template <class A> class AcceptorCompactor;
-template <class A> class StringCompactor;
-template <class A> class UnweightedAcceptorCompactor;
-template <class A> class UnweightedCompactor;
-template <class A> class WeightedStringCompactor;
-
-template <class A, class P> class DefaultReplaceStateTable;
-
-typedef CompactFst<StdArc, AcceptorCompactor<StdArc> >
-StdCompactAcceptorFst;
-typedef CompactFst< StdArc, StringCompactor<StdArc> >
-StdCompactStringFst;
-typedef CompactFst<StdArc, UnweightedAcceptorCompactor<StdArc> >
-StdCompactUnweightedAcceptorFst;
-typedef CompactFst<StdArc, UnweightedCompactor<StdArc> >
-StdCompactUnweightedFst;
-typedef CompactFst< StdArc, WeightedStringCompactor<StdArc> >
-StdCompactWeightedStringFst;
-typedef ConstFst<StdArc> StdConstFst;
-typedef ExpandedFst<StdArc> StdExpandedFst;
-typedef Fst<StdArc> StdFst;
-typedef MutableFst<StdArc> StdMutableFst;
-typedef VectorFst<StdArc> StdVectorFst;
-
-
-template <class C> class StdArcSortFst;
-typedef ClosureFst<StdArc> StdClosureFst;
-typedef ComposeFst<StdArc> StdComposeFst;
-typedef ConcatFst<StdArc> StdConcatFst;
-typedef DeterminizeFst<StdArc> StdDeterminizeFst;
-typedef DifferenceFst<StdArc> StdDifferenceFst;
-typedef IntersectFst<StdArc> StdIntersectFst;
-typedef InvertFst<StdArc> StdInvertFst;
-typedef ProjectFst<StdArc> StdProjectFst;
-typedef RelabelFst<StdArc> StdRelabelFst;
-typedef ReplaceFst<StdArc, DefaultReplaceStateTable<StdArc, ssize_t> >
-StdReplaceFst;
-typedef RmEpsilonFst<StdArc> StdRmEpsilonFst;
-typedef UnionFst<StdArc> StdUnionFst;
-
-template <typename T> class IntegerFilterState;
-typedef IntegerFilterState<signed char> CharFilterState;
-typedef IntegerFilterState<short> ShortFilterState;
-typedef IntegerFilterState<int> IntFilterState;
-
-template <class F> class Matcher;
-template <class M1, class M2 = M1> class SequenceComposeFilter;
-template <class M1, class M2 = M1> class AltSequenceComposeFilter;
-template <class M1, class M2 = M1> class MatchComposeFilter;
-
-} // namespace fst
-
-#endif // FST_LIB_FST_DECL_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/fst.h b/kaldi_io/src/tools/openfst/include/fst/fst.h
deleted file mode 100644
index 150fc4e..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/fst.h
+++ /dev/null
@@ -1,949 +0,0 @@
-// fst.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Finite-State Transducer (FST) - abstract base class definition,
-// state and arc iterator interface, and suggested base implementation.
-//
-
-#ifndef FST_LIB_FST_H__
-#define FST_LIB_FST_H__
-
-#include <stddef.h>
-#include <sys/types.h>
-#include <cmath>
-#include <string>
-
-#include <fst/compat.h>
-#include <fst/types.h>
-
-#include <fst/arc.h>
-#include <fst/properties.h>
-#include <fst/register.h>
-#include <iostream>
-#include <fstream>
-#include <sstream>
-#include <fst/symbol-table.h>
-#include <fst/util.h>
-
-
-DECLARE_bool(fst_align);
-
-namespace fst {
-
-bool IsFstHeader(istream &, const string &);
-
-class FstHeader;
-template <class A> class StateIteratorData;
-template <class A> class ArcIteratorData;
-template <class A> class MatcherBase;
-
-struct FstReadOptions {
- // FileReadMode(s) are advisory, there are many conditions than prevent a
- // file from being mapped, READ mode will be selected in these cases with
- // a warning indicating why it was chosen.
- enum FileReadMode { READ, MAP };
-
- string source; // Where you're reading from
- const FstHeader *header; // Pointer to Fst header. If non-zero, use
- // this info (don't read a stream header)
- const SymbolTable* isymbols; // Pointer to input symbols. If non-zero, use
- // this info (read and skip stream isymbols)
- const SymbolTable* osymbols; // Pointer to output symbols. If non-zero, use
- // this info (read and skip stream osymbols)
- FileReadMode mode; // Read or map files (advisory, if possible)
-
- explicit FstReadOptions(const string& src = "<unspecified>",
- const FstHeader *hdr = 0,
- const SymbolTable* isym = 0,
- const SymbolTable* osym = 0);
-
- explicit FstReadOptions(const string& src,
- const SymbolTable* isym,
- const SymbolTable* osym = 0);
-
- // Helper function to convert strings FileReadModes into their enum value.
- static FileReadMode ReadMode(const string &mode);
-};
-
-struct FstWriteOptions {
- string source; // Where you're writing to
- bool write_header; // Write the header?
- bool write_isymbols; // Write input symbols?
- bool write_osymbols; // Write output symbols?
- bool align; // Write data aligned where appropriate;
- // this may fail on pipes
-
- explicit FstWriteOptions(const string& src = "<unspecifed>",
- bool hdr = true, bool isym = true,
- bool osym = true, bool alig = FLAGS_fst_align)
- : source(src), write_header(hdr),
- write_isymbols(isym), write_osymbols(osym), align(alig) {}
-};
-
-//
-// Fst HEADER CLASS
-//
-// This is the recommended Fst file header representation.
-//
-class FstHeader {
- public:
- enum {
- HAS_ISYMBOLS = 0x1, // Has input symbol table
- HAS_OSYMBOLS = 0x2, // Has output symbol table
- IS_ALIGNED = 0x4, // Memory-aligned (where appropriate)
- } Flags;
-
- FstHeader() : version_(0), flags_(0), properties_(0), start_(-1),
- numstates_(0), numarcs_(0) {}
- const string &FstType() const { return fsttype_; }
- const string &ArcType() const { return arctype_; }
- int32 Version() const { return version_; }
- int32 GetFlags() const { return flags_; }
- uint64 Properties() const { return properties_; }
- int64 Start() const { return start_; }
- int64 NumStates() const { return numstates_; }
- int64 NumArcs() const { return numarcs_; }
-
- void SetFstType(const string& type) { fsttype_ = type; }
- void SetArcType(const string& type) { arctype_ = type; }
- void SetVersion(int32 version) { version_ = version; }
- void SetFlags(int32 flags) { flags_ = flags; }
- void SetProperties(uint64 properties) { properties_ = properties; }
- void SetStart(int64 start) { start_ = start; }
- void SetNumStates(int64 numstates) { numstates_ = numstates; }
- void SetNumArcs(int64 numarcs) { numarcs_ = numarcs; }
-
- bool Read(istream &strm, const string &source, bool rewind = false);
- bool Write(ostream &strm, const string &source) const;
-
- private:
-
- string fsttype_; // E.g. "vector"
- string arctype_; // E.g. "standard"
- int32 version_; // Type version #
- int32 flags_; // File format bits
- uint64 properties_; // FST property bits
- int64 start_; // Start state
- int64 numstates_; // # of states
- int64 numarcs_; // # of arcs
-};
-
-
-// Specifies matcher action.
-enum MatchType { MATCH_INPUT, // Match input label.
- MATCH_OUTPUT, // Match output label.
- MATCH_BOTH, // Match input or output label.
- MATCH_NONE, // Match nothing.
- MATCH_UNKNOWN }; // Match type unknown.
-
-//
-// Fst INTERFACE CLASS DEFINITION
-//
-
-// A generic FST, templated on the arc definition, with
-// common-demoninator methods (use StateIterator and ArcIterator to
-// iterate over its states and arcs).
-template <class A>
-class Fst {
- public:
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- virtual ~Fst() {}
-
- virtual StateId Start() const = 0; // Initial state
-
- virtual Weight Final(StateId) const = 0; // State's final weight
-
- virtual size_t NumArcs(StateId) const = 0; // State's arc count
-
- virtual size_t NumInputEpsilons(StateId)
- const = 0; // State's input epsilon count
-
- virtual size_t NumOutputEpsilons(StateId)
- const = 0; // State's output epsilon count
-
- // If test=false, return stored properties bits for mask (some poss. unknown)
- // If test=true, return property bits for mask (computing o.w. unknown)
- virtual uint64 Properties(uint64 mask, bool test)
- const = 0; // Property bits
-
- virtual const string& Type() const = 0; // Fst type name
-
- // Get a copy of this Fst. The copying behaves as follows:
- //
- // (1) The copying is constant time if safe = false or if safe = true
- // and is on an otherwise unaccessed Fst.
- //
- // (2) If safe = true, the copy is thread-safe in that the original
- // and copy can be safely accessed (but not necessarily mutated) by
- // separate threads. For some Fst types, 'Copy(true)' should only be
- // called on an Fst that has not otherwise been accessed. Its behavior
- // is undefined otherwise.
- //
- // (3) If a MutableFst is copied and then mutated, then the original is
- // unmodified and vice versa (often by a copy-on-write on the initial
- // mutation, which may not be constant time).
- virtual Fst<A> *Copy(bool safe = false) const = 0;
-
- // Read an Fst from an input stream; returns NULL on error
- static Fst<A> *Read(istream &strm, const FstReadOptions &opts) {
- FstReadOptions ropts(opts);
- FstHeader hdr;
- if (ropts.header)
- hdr = *opts.header;
- else {
- if (!hdr.Read(strm, opts.source))
- return 0;
- ropts.header = &hdr;
- }
- FstRegister<A> *registr = FstRegister<A>::GetRegister();
- const typename FstRegister<A>::Reader reader =
- registr->GetReader(hdr.FstType());
- if (!reader) {
- LOG(ERROR) << "Fst::Read: Unknown FST type \"" << hdr.FstType()
- << "\" (arc type = \"" << A::Type()
- << "\"): " << ropts.source;
- return 0;
- }
- return reader(strm, ropts);
- };
-
- // Read an Fst from a file; return NULL on error
- // Empty filename reads from standard input
- static Fst<A> *Read(const string &filename) {
- if (!filename.empty()) {
- ifstream strm(filename.c_str(), ifstream::in | ifstream::binary);
- if (!strm) {
- LOG(ERROR) << "Fst::Read: Can't open file: " << filename;
- return 0;
- }
- return Read(strm, FstReadOptions(filename));
- } else {
- return Read(cin, FstReadOptions("standard input"));
- }
- }
-
- // Write an Fst to an output stream; return false on error
- virtual bool Write(ostream &strm, const FstWriteOptions &opts) const {
- LOG(ERROR) << "Fst::Write: No write stream method for " << Type()
- << " Fst type";
- return false;
- }
-
- // Write an Fst to a file; return false on error
- // Empty filename writes to standard output
- virtual bool Write(const string &filename) const {
- LOG(ERROR) << "Fst::Write: No write filename method for " << Type()
- << " Fst type";
- return false;
- }
-
- // Return input label symbol table; return NULL if not specified
- virtual const SymbolTable* InputSymbols() const = 0;
-
- // Return output label symbol table; return NULL if not specified
- virtual const SymbolTable* OutputSymbols() const = 0;
-
- // For generic state iterator construction; not normally called
- // directly by users.
- virtual void InitStateIterator(StateIteratorData<A> *) const = 0;
-
- // For generic arc iterator construction; not normally called
- // directly by users.
- virtual void InitArcIterator(StateId s, ArcIteratorData<A> *) const = 0;
-
- // For generic matcher construction; not normally called
- // directly by users.
- virtual MatcherBase<A> *InitMatcher(MatchType match_type) const;
-
- protected:
- bool WriteFile(const string &filename) const {
- if (!filename.empty()) {
- ofstream strm(filename.c_str(), ofstream::out | ofstream::binary);
- if (!strm) {
- LOG(ERROR) << "Fst::Write: Can't open file: " << filename;
- return false;
- }
- return Write(strm, FstWriteOptions(filename));
- } else {
- return Write(cout, FstWriteOptions("standard output"));
- }
- }
-};
-
-
-//
-// STATE and ARC ITERATOR DEFINITIONS
-//
-
-// State iterator interface templated on the Arc definition; used
-// for StateIterator specializations returned by the InitStateIterator
-// Fst method.
-template <class A>
-class StateIteratorBase {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
-
- virtual ~StateIteratorBase() {}
-
- bool Done() const { return Done_(); } // End of iterator?
- StateId Value() const { return Value_(); } // Current state (when !Done)
- void Next() { Next_(); } // Advance to next state (when !Done)
- void Reset() { Reset_(); } // Return to initial condition
-
- private:
- // This allows base class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual bool Done_() const = 0;
- virtual StateId Value_() const = 0;
- virtual void Next_() = 0;
- virtual void Reset_() = 0;
-};
-
-
-// StateIterator initialization data
-
-template <class A> struct StateIteratorData {
- StateIteratorBase<A> *base; // Specialized iterator if non-zero
- typename A::StateId nstates; // O.w. total # of states
-};
-
-
-// Generic state iterator, templated on the FST definition
-// - a wrapper around pointer to specific one.
-// Here is a typical use: \code
-// for (StateIterator<StdFst> siter(fst);
-// !siter.Done();
-// siter.Next()) {
-// StateId s = siter.Value();
-// ...
-// } \endcode
-template <class F>
-class StateIterator {
- public:
- typedef F FST;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
-
- explicit StateIterator(const F &fst) : s_(0) {
- fst.InitStateIterator(&data_);
- }
-
- ~StateIterator() { if (data_.base) delete data_.base; }
-
- bool Done() const {
- return data_.base ? data_.base->Done() : s_ >= data_.nstates;
- }
-
- StateId Value() const { return data_.base ? data_.base->Value() : s_; }
-
- void Next() {
- if (data_.base)
- data_.base->Next();
- else
- ++s_;
- }
-
- void Reset() {
- if (data_.base)
- data_.base->Reset();
- else
- s_ = 0;
- }
-
- private:
- StateIteratorData<Arc> data_;
- StateId s_;
-
- DISALLOW_COPY_AND_ASSIGN(StateIterator);
-};
-
-
-// Flags to control the behavior on an arc iterator:
-static const uint32 kArcILabelValue = 0x0001; // Value() gives valid ilabel
-static const uint32 kArcOLabelValue = 0x0002; // " " " olabel
-static const uint32 kArcWeightValue = 0x0004; // " " " weight
-static const uint32 kArcNextStateValue = 0x0008; // " " " nextstate
-static const uint32 kArcNoCache = 0x0010; // No need to cache arcs
-
-static const uint32 kArcValueFlags =
- kArcILabelValue | kArcOLabelValue |
- kArcWeightValue | kArcNextStateValue;
-
-static const uint32 kArcFlags = kArcValueFlags | kArcNoCache;
-
-
-// Arc iterator interface, templated on the Arc definition; used
-// for Arc iterator specializations that are returned by the InitArcIterator
-// Fst method.
-template <class A>
-class ArcIteratorBase {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
-
- virtual ~ArcIteratorBase() {}
-
- bool Done() const { return Done_(); } // End of iterator?
- const A& Value() const { return Value_(); } // Current arc (when !Done)
- void Next() { Next_(); } // Advance to next arc (when !Done)
- size_t Position() const { return Position_(); } // Return current position
- void Reset() { Reset_(); } // Return to initial condition
- void Seek(size_t a) { Seek_(a); } // Random arc access by position
- uint32 Flags() const { return Flags_(); } // Return current behavorial flags
- void SetFlags(uint32 flags, uint32 mask) { // Set behavorial flags
- SetFlags_(flags, mask);
- }
-
- private:
- // This allows base class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual bool Done_() const = 0;
- virtual const A& Value_() const = 0;
- virtual void Next_() = 0;
- virtual size_t Position_() const = 0;
- virtual void Reset_() = 0;
- virtual void Seek_(size_t a) = 0;
- virtual uint32 Flags_() const = 0;
- virtual void SetFlags_(uint32 flags, uint32 mask) = 0;
-};
-
-
-// ArcIterator initialization data
-template <class A> struct ArcIteratorData {
- ArcIteratorBase<A> *base; // Specialized iterator if non-zero
- const A *arcs; // O.w. arcs pointer
- size_t narcs; // ... and arc count
- int *ref_count; // ... and reference count if non-zero
-};
-
-
-// Generic arc iterator, templated on the FST definition
-// - a wrapper around pointer to specific one.
-// Here is a typical use: \code
-// for (ArcIterator<StdFst> aiter(fst, s));
-// !aiter.Done();
-// aiter.Next()) {
-// StdArc &arc = aiter.Value();
-// ...
-// } \endcode
-template <class F>
-class ArcIterator {
- public:
- typedef F FST;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
-
- ArcIterator(const F &fst, StateId s) : i_(0) {
- fst.InitArcIterator(s, &data_);
- }
-
- explicit ArcIterator(const ArcIteratorData<Arc> &data) : data_(data), i_(0) {
- if (data_.ref_count)
- ++(*data_.ref_count);
- }
-
- ~ArcIterator() {
- if (data_.base)
- delete data_.base;
- else if (data_.ref_count)
- --(*data_.ref_count);
- }
-
- bool Done() const {
- return data_.base ? data_.base->Done() : i_ >= data_.narcs;
- }
-
- const Arc& Value() const {
- return data_.base ? data_.base->Value() : data_.arcs[i_];
- }
-
- void Next() {
- if (data_.base)
- data_.base->Next();
- else
- ++i_;
- }
-
- void Reset() {
- if (data_.base)
- data_.base->Reset();
- else
- i_ = 0;
- }
-
- void Seek(size_t a) {
- if (data_.base)
- data_.base->Seek(a);
- else
- i_ = a;
- }
-
- size_t Position() const {
- return data_.base ? data_.base->Position() : i_;
- }
-
- uint32 Flags() const {
- if (data_.base)
- return data_.base->Flags();
- else
- return kArcValueFlags;
- }
-
- void SetFlags(uint32 flags, uint32 mask) {
- if (data_.base)
- data_.base->SetFlags(flags, mask);
- }
-
- private:
- ArcIteratorData<Arc> data_;
- size_t i_;
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-//
-// MATCHER DEFINITIONS
-//
-
-template <class A>
-MatcherBase<A> *Fst<A>::InitMatcher(MatchType match_type) const {
- return 0; // Use the default matcher
-}
-
-
-//
-// FST ACCESSORS - Useful functions in high-performance cases.
-//
-
-namespace internal {
-
-// General case - requires non-abstract, 'final' methods. Use for inlining.
-template <class F> inline
-typename F::Arc::Weight Final(const F &fst, typename F::Arc::StateId s) {
- return fst.F::Final(s);
-}
-
-template <class F> inline
-ssize_t NumArcs(const F &fst, typename F::Arc::StateId s) {
- return fst.F::NumArcs(s);
-}
-
-template <class F> inline
-ssize_t NumInputEpsilons(const F &fst, typename F::Arc::StateId s) {
- return fst.F::NumInputEpsilons(s);
-}
-
-template <class F> inline
-ssize_t NumOutputEpsilons(const F &fst, typename F::Arc::StateId s) {
- return fst.F::NumOutputEpsilons(s);
-}
-
-
-// Fst<A> case - abstract methods.
-template <class A> inline
-typename A::Weight Final(const Fst<A> &fst, typename A::StateId s) {
- return fst.Final(s);
-}
-
-template <class A> inline
-ssize_t NumArcs(const Fst<A> &fst, typename A::StateId s) {
- return fst.NumArcs(s);
-}
-
-template <class A> inline
-ssize_t NumInputEpsilons(const Fst<A> &fst, typename A::StateId s) {
- return fst.NumInputEpsilons(s);
-}
-
-template <class A> inline
-ssize_t NumOutputEpsilons(const Fst<A> &fst, typename A::StateId s) {
- return fst.NumOutputEpsilons(s);
-}
-
-} // namespace internal
-
-// A useful alias when using StdArc.
-typedef Fst<StdArc> StdFst;
-
-
-//
-// CONSTANT DEFINITIONS
-//
-
-const int kNoStateId = -1; // Not a valid state ID
-const int kNoLabel = -1; // Not a valid label
-
-//
-// Fst IMPLEMENTATION BASE
-//
-// This is the recommended Fst implementation base class. It will
-// handle reference counts, property bits, type information and symbols.
-//
-
-template <class A> class FstImpl {
- public:
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- FstImpl()
- : properties_(0), type_("null"), isymbols_(0), osymbols_(0) {}
-
- FstImpl(const FstImpl<A> &impl)
- : properties_(impl.properties_), type_(impl.type_),
- isymbols_(impl.isymbols_ ? impl.isymbols_->Copy() : 0),
- osymbols_(impl.osymbols_ ? impl.osymbols_->Copy() : 0) {}
-
- virtual ~FstImpl() {
- delete isymbols_;
- delete osymbols_;
- }
-
- const string& Type() const { return type_; }
-
- void SetType(const string &type) { type_ = type; }
-
- virtual uint64 Properties() const { return properties_; }
-
- virtual uint64 Properties(uint64 mask) const { return properties_ & mask; }
-
- void SetProperties(uint64 props) {
- properties_ &= kError; // kError can't be cleared
- properties_ |= props;
- }
-
- void SetProperties(uint64 props, uint64 mask) {
- properties_ &= ~mask | kError; // kError can't be cleared
- properties_ |= props & mask;
- }
-
- // Allows (only) setting error bit on const FST impls
- void SetProperties(uint64 props, uint64 mask) const {
- if (mask != kError)
- FSTERROR() << "FstImpl::SetProperties() const: can only set kError";
- properties_ |= kError;
- }
-
- const SymbolTable* InputSymbols() const { return isymbols_; }
-
- const SymbolTable* OutputSymbols() const { return osymbols_; }
-
- SymbolTable* InputSymbols() { return isymbols_; }
-
- SymbolTable* OutputSymbols() { return osymbols_; }
-
- void SetInputSymbols(const SymbolTable* isyms) {
- if (isymbols_) delete isymbols_;
- isymbols_ = isyms ? isyms->Copy() : 0;
- }
-
- void SetOutputSymbols(const SymbolTable* osyms) {
- if (osymbols_) delete osymbols_;
- osymbols_ = osyms ? osyms->Copy() : 0;
- }
-
- int RefCount() const {
- return ref_count_.count();
- }
-
- int IncrRefCount() {
- return ref_count_.Incr();
- }
-
- int DecrRefCount() {
- return ref_count_.Decr();
- }
-
- // Read-in header and symbols from input stream, initialize Fst, and
- // return the header. If opts.header is non-null, skip read-in and
- // use the option value. If opts.[io]symbols is non-null, read-in
- // (if present), but use the option value.
- bool ReadHeader(istream &strm, const FstReadOptions& opts,
- int min_version, FstHeader *hdr);
-
- // Write-out header and symbols from output stream.
- // If a opts.header is false, skip writing header.
- // If opts.[io]symbols is false, skip writing those symbols.
- // This method is needed for Impl's that implement Write methods.
- void WriteHeader(ostream &strm, const FstWriteOptions& opts,
- int version, FstHeader *hdr) const {
- if (opts.write_header) {
- hdr->SetFstType(type_);
- hdr->SetArcType(A::Type());
- hdr->SetVersion(version);
- hdr->SetProperties(properties_);
- int32 file_flags = 0;
- if (isymbols_ && opts.write_isymbols)
- file_flags |= FstHeader::HAS_ISYMBOLS;
- if (osymbols_ && opts.write_osymbols)
- file_flags |= FstHeader::HAS_OSYMBOLS;
- if (opts.align)
- file_flags |= FstHeader::IS_ALIGNED;
- hdr->SetFlags(file_flags);
- hdr->Write(strm, opts.source);
- }
- if (isymbols_ && opts.write_isymbols) isymbols_->Write(strm);
- if (osymbols_ && opts.write_osymbols) osymbols_->Write(strm);
- }
-
- // Write-out header and symbols to output stream.
- // If a opts.header is false, skip writing header.
- // If opts.[io]symbols is false, skip writing those symbols.
- // type is the Fst type being written.
- // This method is used in the cross-type serialization methods Fst::WriteFst.
- static void WriteFstHeader(const Fst<A> &fst, ostream &strm,
- const FstWriteOptions& opts, int version,
- const string &type, uint64 properties,
- FstHeader *hdr) {
- if (opts.write_header) {
- hdr->SetFstType(type);
- hdr->SetArcType(A::Type());
- hdr->SetVersion(version);
- hdr->SetProperties(properties);
- int32 file_flags = 0;
- if (fst.InputSymbols() && opts.write_isymbols)
- file_flags |= FstHeader::HAS_ISYMBOLS;
- if (fst.OutputSymbols() && opts.write_osymbols)
- file_flags |= FstHeader::HAS_OSYMBOLS;
- if (opts.align)
- file_flags |= FstHeader::IS_ALIGNED;
- hdr->SetFlags(file_flags);
- hdr->Write(strm, opts.source);
- }
- if (fst.InputSymbols() && opts.write_isymbols) {
- fst.InputSymbols()->Write(strm);
- }
- if (fst.OutputSymbols() && opts.write_osymbols) {
- fst.OutputSymbols()->Write(strm);
- }
- }
-
- // In serialization routines where the header cannot be written until after
- // the machine has been serialized, this routine can be called to seek to
- // the beginning of the file an rewrite the header with updated fields.
- // It repositions the file pointer back at the end of the file.
- // returns true on success, false on failure.
- static bool UpdateFstHeader(const Fst<A> &fst, ostream &strm,
- const FstWriteOptions& opts, int version,
- const string &type, uint64 properties,
- FstHeader *hdr, size_t header_offset) {
- strm.seekp(header_offset);
- if (!strm) {
- LOG(ERROR) << "Fst::UpdateFstHeader: write failed: " << opts.source;
- return false;
- }
- WriteFstHeader(fst, strm, opts, version, type, properties, hdr);
- if (!strm) {
- LOG(ERROR) << "Fst::UpdateFstHeader: write failed: " << opts.source;
- return false;
- }
- strm.seekp(0, ios_base::end);
- if (!strm) {
- LOG(ERROR) << "Fst::UpdateFstHeader: write failed: " << opts.source;
- return false;
- }
- return true;
- }
-
- protected:
- mutable uint64 properties_; // Property bits
-
- private:
- string type_; // Unique name of Fst class
- SymbolTable *isymbols_; // Ilabel symbol table
- SymbolTable *osymbols_; // Olabel symbol table
- RefCounter ref_count_; // Reference count
-
- void operator=(const FstImpl<A> &impl); // disallow
-};
-
-template <class A> inline
-bool FstImpl<A>::ReadHeader(istream &strm, const FstReadOptions& opts,
- int min_version, FstHeader *hdr) {
- if (opts.header)
- *hdr = *opts.header;
- else if (!hdr->Read(strm, opts.source))
- return false;
-
- if (FLAGS_v >= 2) {
- LOG(INFO) << "FstImpl::ReadHeader: source: " << opts.source
- << ", fst_type: " << hdr->FstType()
- << ", arc_type: " << A::Type()
- << ", version: " << hdr->Version()
- << ", flags: " << hdr->GetFlags();
- }
-
- if (hdr->FstType() != type_) {
- LOG(ERROR) << "FstImpl::ReadHeader: Fst not of type \"" << type_
- << "\": " << opts.source;
- return false;
- }
- if (hdr->ArcType() != A::Type()) {
- LOG(ERROR) << "FstImpl::ReadHeader: Arc not of type \"" << A::Type()
- << "\": " << opts.source;
- return false;
- }
- if (hdr->Version() < min_version) {
- LOG(ERROR) << "FstImpl::ReadHeader: Obsolete " << type_
- << " Fst version: " << opts.source;
- return false;
- }
- properties_ = hdr->Properties();
- if (hdr->GetFlags() & FstHeader::HAS_ISYMBOLS)
- isymbols_ = SymbolTable::Read(strm, opts.source);
- if (hdr->GetFlags() & FstHeader::HAS_OSYMBOLS)
- osymbols_ =SymbolTable::Read(strm, opts.source);
-
- if (opts.isymbols) {
- delete isymbols_;
- isymbols_ = opts.isymbols->Copy();
- }
- if (opts.osymbols) {
- delete osymbols_;
- osymbols_ = opts.osymbols->Copy();
- }
- return true;
-}
-
-
-template<class Arc>
-uint64 TestProperties(const Fst<Arc> &fst, uint64 mask, uint64 *known);
-
-
-// This is a helper class template useful for attaching an Fst interface to
-// its implementation, handling reference counting.
-template < class I, class F = Fst<typename I::Arc> >
-class ImplToFst : public F {
- public:
- typedef typename I::Arc Arc;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- virtual ~ImplToFst() { if (!impl_->DecrRefCount()) delete impl_; }
-
- virtual StateId Start() const { return impl_->Start(); }
-
- virtual Weight Final(StateId s) const { return impl_->Final(s); }
-
- virtual size_t NumArcs(StateId s) const { return impl_->NumArcs(s); }
-
- virtual size_t NumInputEpsilons(StateId s) const {
- return impl_->NumInputEpsilons(s);
- }
-
- virtual size_t NumOutputEpsilons(StateId s) const {
- return impl_->NumOutputEpsilons(s);
- }
-
- virtual uint64 Properties(uint64 mask, bool test) const {
- if (test) {
- uint64 knownprops, testprops = TestProperties(*this, mask, &knownprops);
- impl_->SetProperties(testprops, knownprops);
- return testprops & mask;
- } else {
- return impl_->Properties(mask);
- }
- }
-
- virtual const string& Type() const { return impl_->Type(); }
-
- virtual const SymbolTable* InputSymbols() const {
- return impl_->InputSymbols();
- }
-
- virtual const SymbolTable* OutputSymbols() const {
- return impl_->OutputSymbols();
- }
-
- protected:
- ImplToFst() : impl_(0) {}
-
- ImplToFst(I *impl) : impl_(impl) {}
-
- ImplToFst(const ImplToFst<I, F> &fst) {
- impl_ = fst.impl_;
- impl_->IncrRefCount();
- }
-
- // This constructor presumes there is a copy constructor for the
- // implementation.
- ImplToFst(const ImplToFst<I, F> &fst, bool safe) {
- if (safe) {
- impl_ = new I(*(fst.impl_));
- } else {
- impl_ = fst.impl_;
- impl_->IncrRefCount();
- }
- }
-
- I *GetImpl() const { return impl_; }
-
- // Change Fst implementation pointer. If 'own_impl' is true,
- // ownership of the input implementation is given to this
- // object; otherwise, the input implementation's reference count
- // should be incremented.
- void SetImpl(I *impl, bool own_impl = true) {
- if (!own_impl)
- impl->IncrRefCount();
- if (impl_ && !impl_->DecrRefCount()) delete impl_;
- impl_ = impl;
- }
-
- private:
- // Disallow
- ImplToFst<I, F> &operator=(const ImplToFst<I, F> &fst);
-
- ImplToFst<I, F> &operator=(const Fst<Arc> &fst) {
- FSTERROR() << "ImplToFst: Assignment operator disallowed";
- GetImpl()->SetProperties(kError, kError);
- return *this;
- }
-
- I *impl_;
-};
-
-
-// Converts FSTs by casting their implementations, where this makes
-// sense (which excludes implementations with weight-dependent virtual
-// methods). Must be a friend of the Fst classes involved (currently
-// the concrete Fsts: VectorFst, ConstFst, CompactFst).
-template<class F, class G> void Cast(const F &ifst, G *ofst) {
- ofst->SetImpl(reinterpret_cast<typename G::Impl *>(ifst.GetImpl()), false);
-}
-
-// Fst Serialization
-template <class A>
-void FstToString(const Fst<A> &fst, string *result) {
- ostringstream ostrm;
- fst.Write(ostrm, FstWriteOptions("FstToString"));
- *result = ostrm.str();
-}
-
-template <class A>
-Fst<A> *StringToFst(const string &s) {
- istringstream istrm(s);
- return Fst<A>::Read(istrm, FstReadOptions("StringToFst"));
-}
-
-} // namespace fst
-
-#endif // FST_LIB_FST_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/fstlib.h b/kaldi_io/src/tools/openfst/include/fst/fstlib.h
deleted file mode 100644
index de5976d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/fstlib.h
+++ /dev/null
@@ -1,153 +0,0 @@
-// fstlib.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \page FstLib FST - Weighted Finite State Transducers
-// This is a library for constructing, combining, optimizing, and
-// searching "weighted finite-state transducers" (FSTs). Weighted
-// finite-state transducers are automata where each transition has an
-// input label, an output label, and a weight. The more familiar
-// finite-state acceptor is represented as a transducer with each
-// transition's input and output the same. Finite-state acceptors
-// are used to represent sets of strings (specifically, "regular" or
-// "rational sets"); finite-state transducers are used to represent
-// binary relations between pairs of strings (specifically, "rational
-// transductions"). The weights can be used to represent the cost of
-// taking a particular transition.
-//
-// In this library, the transducers are templated on the Arc
-// (transition) definition, which allows changing the label, weight,
-// and state ID sets. Labels and state IDs are restricted to signed
-// integral types but the weight can be an arbitrary type whose
-// members satisfy certain algebraic ("semiring") properties.
-//
-// For more information, see the FST Library Wiki page:
-// http://wiki.corp.google.com/twiki/bin/view/Main/FstLibrary
-
-// \file
-// This convenience file includes all other FST inl.h files.
-//
-
-#ifndef FST_LIB_FSTLIB_H__
-#define FST_LIB_FSTLIB_H__
-
-
-// Abstract FST classes
-#include <fst/fst.h>
-#include <fst/expanded-fst.h>
-#include <fst/mutable-fst.h>
-
-// Concrete FST classes
-#include <fst/compact-fst.h>
-#include <fst/const-fst.h>
-#include <fst/edit-fst.h>
-#include <fst/vector-fst.h>
-
-// FST algorithms and delayed FST classes
-#include <fst/arcsort.h>
-#include <fst/arc-map.h>
-#include <fst/closure.h>
-#include <fst/compose.h>
-#include <fst/concat.h>
-#include <fst/connect.h>
-#include <fst/determinize.h>
-#include <fst/difference.h>
-#include <fst/encode.h>
-#include <fst/epsnormalize.h>
-#include <fst/equal.h>
-#include <fst/equivalent.h>
-#include <fst/factor-weight.h>
-#include <fst/intersect.h>
-#include <fst/invert.h>
-#include <fst/map.h>
-#include <fst/minimize.h>
-#include <fst/project.h>
-#include <fst/prune.h>
-#include <fst/push.h>
-#include <fst/randequivalent.h>
-#include <fst/randgen.h>
-#include <fst/rational.h>
-#include <fst/relabel.h>
-#include <fst/replace.h>
-#include <fst/replace-util.h>
-#include <fst/reverse.h>
-#include <fst/reweight.h>
-#include <fst/rmepsilon.h>
-#include <fst/rmfinalepsilon.h>
-#include <fst/shortest-distance.h>
-#include <fst/shortest-path.h>
-#include <fst/statesort.h>
-#include <fst/state-map.h>
-#include <fst/synchronize.h>
-#include <fst/topsort.h>
-#include <fst/union.h>
-#include <fst/verify.h>
-#include <fst/visit.h>
-
-// Weights
-#include <fst/weight.h>
-#include <fst/expectation-weight.h>
-#include <fst/float-weight.h>
-#include <fst/lexicographic-weight.h>
-#include <fst/pair-weight.h>
-#include <fst/power-weight.h>
-#include <fst/product-weight.h>
-#include <fst/random-weight.h>
-#include <fst/signed-log-weight.h>
-#include <fst/sparse-power-weight.h>
-#include <fst/sparse-tuple-weight.h>
-#include <fst/string-weight.h>
-#include <fst/tuple-weight.h>
-
-// Auxiliary classes for composition
-#include <fst/compose-filter.h>
-#include <fst/lookahead-filter.h>
-#include <fst/lookahead-matcher.h>
-#include <fst/matcher-fst.h>
-#include <fst/matcher.h>
-#include <fst/state-table.h>
-
-// Data structures
-#include <fst/heap.h>
-#include <fst/interval-set.h>
-#include <fst/queue.h>
-#include <fst/union-find.h>
-
-// Miscellaneous
-#include <fst/accumulator.h>
-#include <fst/add-on.h>
-#include <fst/arc.h>
-#include <fst/arcfilter.h>
-#include <fst/cache.h>
-#include <fst/complement.h>
-#include <fst/dfs-visit.h>
-#include <fst/generic-register.h>
-#include <fst/label-reachable.h>
-#include <fst/partition.h>
-#include <fst/properties.h>
-#include <fst/register.h>
-#include <fst/state-reachable.h>
-#include <iostream>
-#include <fstream>
-#include <sstream>
-#include <fst/string.h>
-#include <fst/symbol-table.h>
-#include <fst/symbol-table-ops.h>
-#include <fst/test-properties.h>
-#include <fst/util.h>
-
-
-#endif // FST_LIB_FSTLIB_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/generic-register.h b/kaldi_io/src/tools/openfst/include/fst/generic-register.h
deleted file mode 100644
index 4f8b512..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/generic-register.h
+++ /dev/null
@@ -1,159 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_LIB_GENERIC_REGISTER_H_
-#define FST_LIB_GENERIC_REGISTER_H_
-
-#include <map>
-#include <string>
-
-#include <fst/compat.h>
-#include <fst/types.h>
-
-// Generic class representing a globally-stored correspondence between
-// objects of KeyType and EntryType.
-// KeyType must:
-// a) be such as can be stored as a key in a map<>
-// b) be concatenable with a const char* with the + operator
-// (or you must subclass and redefine LoadEntryFromSharedObject)
-// EntryType must be default constructible.
-//
-// The third template parameter should be the type of a subclass of this class
-// (think CRTP). This is to allow GetRegister() to instantiate and return
-// an object of the appropriate type.
-
-namespace fst {
-
-template<class KeyType, class EntryType, class RegisterType>
-class GenericRegister {
- public:
- typedef KeyType Key;
- typedef EntryType Entry;
-
- static RegisterType *GetRegister() {
- FstOnceInit(&register_init_,
- &RegisterType::Init);
-
- return register_;
- }
-
- void SetEntry(const KeyType &key,
- const EntryType &entry) {
- MutexLock l(register_lock_);
-
- register_table_.insert(make_pair(key, entry));
- }
-
- EntryType GetEntry(const KeyType &key) const {
- const EntryType *entry = LookupEntry(key);
- if (entry) {
- return *entry;
- } else {
- return LoadEntryFromSharedObject(key);
- }
- }
-
- virtual ~GenericRegister() { }
-
- protected:
- // Override this if you want to be able to load missing definitions from
- // shared object files.
- virtual EntryType LoadEntryFromSharedObject(const KeyType &key) const {
- string so_filename = ConvertKeyToSoFilename(key);
-
- void *handle = dlopen(so_filename.c_str(), RTLD_LAZY);
- if (handle == 0) {
- LOG(ERROR) << "GenericRegister::GetEntry : " << dlerror();
- return EntryType();
- }
-
- // We assume that the DSO constructs a static object in its global
- // scope that does the registration. Thus we need only load it, not
- // call any methods.
- const EntryType *entry = this->LookupEntry(key);
- if (entry == 0) {
- LOG(ERROR) << "GenericRegister::GetEntry : "
- << "lookup failed in shared object: " << so_filename;
- return EntryType();
- }
- return *entry;
- }
-
- // Override this to define how to turn a key into an SO filename.
- virtual string ConvertKeyToSoFilename(const KeyType& key) const = 0;
-
- virtual const EntryType *LookupEntry(
- const KeyType &key) const {
- MutexLock l(register_lock_);
-
- typename RegisterMapType::const_iterator it = register_table_.find(key);
-
- if (it != register_table_.end()) {
- return &it->second;
- } else {
- return 0;
- }
- }
-
- private:
- typedef map<KeyType, EntryType> RegisterMapType;
-
- static void Init() {
- register_lock_ = new Mutex;
- register_ = new RegisterType;
- }
-
- static FstOnceType register_init_;
- static Mutex *register_lock_;
- static RegisterType *register_;
-
- RegisterMapType register_table_;
-};
-
-template<class KeyType, class EntryType, class RegisterType>
-FstOnceType GenericRegister<KeyType, EntryType,
- RegisterType>::register_init_ = FST_ONCE_INIT;
-
-template<class KeyType, class EntryType, class RegisterType>
-Mutex *GenericRegister<KeyType, EntryType, RegisterType>::register_lock_ = 0;
-
-template<class KeyType, class EntryType, class RegisterType>
-RegisterType *GenericRegister<KeyType, EntryType, RegisterType>::register_ = 0;
-
-//
-// GENERIC REGISTRATION
-//
-
-// Generic register-er class capable of creating new register entries in the
-// given RegisterType template parameter. This type must define types Key
-// and Entry, and have appropriate static GetRegister() and instance
-// SetEntry() functions. An easy way to accomplish this is to have RegisterType
-// be the type of a subclass of GenericRegister.
-template<class RegisterType>
-class GenericRegisterer {
- public:
- typedef typename RegisterType::Key Key;
- typedef typename RegisterType::Entry Entry;
-
- GenericRegisterer(Key key, Entry entry) {
- RegisterType *reg = RegisterType::GetRegister();
- reg->SetEntry(key, entry);
- }
-};
-
-} // namespace fst
-
-#endif // FST_LIB_GENERIC_REGISTER_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/heap.h b/kaldi_io/src/tools/openfst/include/fst/heap.h
deleted file mode 100644
index a7affbd..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/heap.h
+++ /dev/null
@@ -1,206 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// All Rights Reserved.
-// Author: Johan Schalkwyk ([email protected])
-//
-// \file
-// Implementation of a heap as in STL, but allows tracking positions
-// in heap using a key. The key can be used to do an in-place update of
-// values in the heap.
-
-#ifndef FST_LIB_HEAP_H__
-#define FST_LIB_HEAP_H__
-
-#include <vector>
-using std::vector;
-#include <functional>
-
-#include <fst/compat.h>
-namespace fst {
-
-//
-// \class Heap
-// \brief A templated heap implementation that support in-place update
-// of values.
-//
-// The templated heap implementation is a little different from the
-// STL priority_queue and the *_heap operations in STL. This heap
-// supports indexing of values in the heap via an associated key.
-//
-// Each value is internally associated with a key which is returned
-// to the calling functions on heap insert. This key can be used
-// to later update the specific value in the heap.
-//
-// \param T the element type of the hash, can be POD, Data or Ptr to Data
-// \param Compare Comparison class for determiningg min-heapness.
-// \param whether heap top should be max or min element w.r.t. Compare
-//
-
-static const int kNoKey = -1;
-template <class T, class Compare, bool max>
-class Heap {
- public:
-
- // Initialize with a specific comparator
- Heap(Compare comp) : comp_(comp), size_(0) { }
-
- // Create a heap with initial size of internal arrays of 0
- Heap() : size_(0) { }
-
- ~Heap() { }
-
- // Insert a value into the heap
- int Insert(const T& val) {
- if (size_ < A_.size()) {
- A_[size_] = val;
- pos_[key_[size_]] = size_;
- } else {
- A_.push_back(val);
- pos_.push_back(size_);
- key_.push_back(size_);
- }
-
- ++size_;
- return Insert(val, size_ - 1);
- }
-
- // Update a value at position given by the key. The pos array is first
- // indexed by the key. The position gives the position in the heap array.
- // Once we have the position we can then use the standard heap operations
- // to calculate the parent and child positions.
- void Update(int key, const T& val) {
- int i = pos_[key];
- if (Better(val, A_[Parent(i)])) {
- Insert(val, i);
- } else {
- A_[i] = val;
- Heapify(i);
- }
- }
-
- // Return the greatest (max=true) / least (max=false) value w.r.t.
- // from the heap.
- T Pop() {
- T top = A_[0];
-
- Swap(0, size_-1);
- size_--;
- Heapify(0);
- return top;
- }
-
- // Return the greatest (max=true) / least (max=false) value w.r.t.
- // comp object from the heap.
- T Top() const {
- return A_[0];
- }
-
- // Check if the heap is empty
- bool Empty() const {
- return size_ == 0;
- }
-
- void Clear() {
- size_ = 0;
- }
-
-
- //
- // The following protected routines are used in a supportive role
- // for managing the heap and keeping the heap properties.
- //
- private:
- // Compute left child of parent
- int Left(int i) {
- return 2*(i+1)-1; // 0 -> 1, 1 -> 3
- }
-
- // Compute right child of parent
- int Right(int i) {
- return 2*(i+1); // 0 -> 2, 1 -> 4
- }
-
- // Given a child compute parent
- int Parent(int i) {
- return (i-1)/2; // 1 -> 0, 2 -> 0, 3 -> 1, 4-> 1
- }
-
- // Swap a child, parent. Use to move element up/down tree.
- // Note a little tricky here. When we swap we need to swap:
- // the value
- // the associated keys
- // the position of the value in the heap
- void Swap(int j, int k) {
- int tkey = key_[j];
- pos_[key_[j] = key_[k]] = j;
- pos_[key_[k] = tkey] = k;
-
- T val = A_[j];
- A_[j] = A_[k];
- A_[k] = val;
- }
-
- // Returns the greater (max=true) / least (max=false) of two
- // elements.
- bool Better(const T& x, const T& y) {
- return max ? comp_(y, x) : comp_(x, y);
- }
-
- // Heapify subtree rooted at index i.
- void Heapify(int i) {
- int l = Left(i);
- int r = Right(i);
- int largest;
-
- if (l < size_ && Better(A_[l], A_[i]) )
- largest = l;
- else
- largest = i;
-
- if (r < size_ && Better(A_[r], A_[largest]) )
- largest = r;
-
- if (largest != i) {
- Swap(i, largest);
- Heapify(largest);
- }
- }
-
-
- // Insert (update) element at subtree rooted at index i
- int Insert(const T& val, int i) {
- int p;
- while (i > 0 && !Better(A_[p = Parent(i)], val)) {
- Swap(i, p);
- i = p;
- }
-
- return key_[i];
- }
-
- private:
- Compare comp_;
-
- vector<int> pos_;
- vector<int> key_;
- vector<T> A_;
- int size_;
-
- // DISALLOW_COPY_AND_ASSIGN(Heap);
-};
-
-} // namespace fst
-
-#endif // FST_LIB_HEAP_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/icu.h b/kaldi_io/src/tools/openfst/include/fst/icu.h
deleted file mode 100644
index 3947716..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/icu.h
+++ /dev/null
@@ -1,116 +0,0 @@
-// icu.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jeffrey Sorensen)
-// [email protected] (Fredrik Roubert)
-//
-// This library implements an unrestricted Thompson/Pike UTF-8 parser and
-// serializer. UTF-8 is a restricted subset of this byte stream encoding. See
-// http://en.wikipedia.org/wiki/UTF-8 for a good description of the encoding
-// details.
-
-#ifndef FST_LIB_ICU_H_
-#define FST_LIB_ICU_H_
-
-#include <iostream>
-#include <fstream>
-#include <sstream>
-
-namespace fst {
-
-template <class Label>
-bool UTF8StringToLabels(const string &str, vector<Label> *labels) {
- const char *data = str.data();
- size_t length = str.size();
- for (int i = 0; i < length; /* no update */) {
- int c = data[i++] & 0xff;
- if ((c & 0x80) == 0) {
- labels->push_back(c);
- } else {
- if ((c & 0xc0) == 0x80) {
- LOG(ERROR) << "UTF8StringToLabels: continuation byte as lead byte";
- return false;
- }
- int count = (c >= 0xc0) + (c >= 0xe0) + (c >= 0xf0) + (c >= 0xf8) +
- (c >= 0xfc);
- int code = c & ((1 << (6 - count)) - 1);
- while (count != 0) {
- if (i == length) {
- LOG(ERROR) << "UTF8StringToLabels: truncated utf-8 byte sequence";
- return false;
- }
- char cb = data[i++];
- if ((cb & 0xc0) != 0x80) {
- LOG(ERROR) << "UTF8StringToLabels: missing/invalid continuation byte";
- return false;
- }
- code = (code << 6) | (cb & 0x3f);
- count--;
- }
- if (code < 0) {
- // This should not be able to happen.
- LOG(ERROR) << "UTF8StringToLabels: Invalid character found: " << c;
- return false;
- }
- labels->push_back(code);
- }
- }
- return true;
-}
-
-template <class Label>
-bool LabelsToUTF8String(const vector<Label> &labels, string *str) {
- ostringstream ostr;
- for (size_t i = 0; i < labels.size(); ++i) {
- int32_t code = labels[i];
- if (code < 0) {
- LOG(ERROR) << "LabelsToUTF8String: Invalid character found: " << code;
- return false;
- } else if (code < 0x80) {
- ostr << static_cast<char>(code);
- } else if (code < 0x800) {
- ostr << static_cast<char>((code >> 6) | 0xc0);
- ostr << static_cast<char>((code & 0x3f) | 0x80);
- } else if (code < 0x10000) {
- ostr << static_cast<char>((code >> 12) | 0xe0);
- ostr << static_cast<char>(((code >> 6) & 0x3f) | 0x80);
- ostr << static_cast<char>((code & 0x3f) | 0x80);
- } else if (code < 0x200000) {
- ostr << static_cast<char>((code >> 18) | 0xf0);
- ostr << static_cast<char>(((code >> 12) & 0x3f) | 0x80);
- ostr << static_cast<char>(((code >> 6) & 0x3f) | 0x80);
- ostr << static_cast<char>((code & 0x3f) | 0x80);
- } else if (code < 0x4000000) {
- ostr << static_cast<char>((code >> 24) | 0xf8);
- ostr << static_cast<char>(((code >> 18) & 0x3f) | 0x80);
- ostr << static_cast<char>(((code >> 12) & 0x3f) | 0x80);
- ostr << static_cast<char>(((code >> 6) & 0x3f) | 0x80);
- ostr << static_cast<char>((code & 0x3f) | 0x80);
- } else {
- ostr << static_cast<char>((code >> 30) | 0xfc);
- ostr << static_cast<char>(((code >> 24) & 0x3f) | 0x80);
- ostr << static_cast<char>(((code >> 18) & 0x3f) | 0x80);
- ostr << static_cast<char>(((code >> 12) & 0x3f) | 0x80);
- ostr << static_cast<char>(((code >> 6) & 0x3f) | 0x80);
- ostr << static_cast<char>((code & 0x3f) | 0x80);
- }
- }
- *str = ostr.str();
- return true;
-}
-
-} // namespace fst
-
-#endif // FST_LIB_ICU_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/intersect.h b/kaldi_io/src/tools/openfst/include/fst/intersect.h
deleted file mode 100644
index f46116f..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/intersect.h
+++ /dev/null
@@ -1,172 +0,0 @@
-// intersect.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to compute the intersection of two FSAs
-
-#ifndef FST_LIB_INTERSECT_H__
-#define FST_LIB_INTERSECT_H__
-
-#include <algorithm>
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-#include <fst/compose.h>
-
-
-namespace fst {
-
-template <class A,
- class M = Matcher<Fst<A> >,
- class F = SequenceComposeFilter<M>,
- class T = GenericComposeStateTable<A, typename F::FilterState> >
-struct IntersectFstOptions : public ComposeFstOptions<A, M, F, T> {
- explicit IntersectFstOptions(const CacheOptions &opts,
- M *mat1 = 0, M *mat2 = 0,
- F *filt = 0, T *sttable= 0)
- : ComposeFstOptions<A, M, F, T>(opts, mat1, mat2, filt, sttable) { }
-
- IntersectFstOptions() {}
-};
-
-// Computes the intersection (Hadamard product) of two FSAs. This
-// version is a delayed Fst. Only strings that are in both automata
-// are retained in the result.
-//
-// The two arguments must be acceptors. One of the arguments must be
-// label-sorted.
-//
-// Complexity: same as ComposeFst.
-//
-// Caveats: same as ComposeFst.
-template <class A>
-class IntersectFst : public ComposeFst<A> {
- public:
- using ComposeFst<A>::CreateBase;
- using ComposeFst<A>::CreateBase1;
- using ComposeFst<A>::Properties;
- using ImplToFst< ComposeFstImplBase<A> >::GetImpl;
- using ImplToFst< ComposeFstImplBase<A> >::SetImpl;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- IntersectFst(const Fst<A> &fst1, const Fst<A> &fst2,
- const CacheOptions opts = CacheOptions()) {
- bool acceptors = fst1.Properties(kAcceptor, true) &&
- fst2.Properties(kAcceptor, true);
- SetImpl(CreateBase(fst1, fst2, opts));
- if (!acceptors) {
- FSTERROR() << "IntersectFst: input FSTs are not acceptors";
- GetImpl()->SetProperties(kError);
- }
- }
-
- template <class M, class F, class T>
- IntersectFst(const Fst<A> &fst1, const Fst<A> &fst2,
- const IntersectFstOptions<A, M, F, T> &opts) {
- bool acceptors = fst1.Properties(kAcceptor, true) &&
- fst2.Properties(kAcceptor, true);
- SetImpl(CreateBase1(fst1, fst2, opts));
- if (!acceptors) {
- FSTERROR() << "IntersectFst: input FSTs are not acceptors";
- GetImpl()->SetProperties(kError);
- }
- }
-
- // See Fst<>::Copy() for doc.
- IntersectFst(const IntersectFst<A> &fst, bool safe = false) :
- ComposeFst<A>(fst, safe) {}
-
- // Get a copy of this IntersectFst. See Fst<>::Copy() for further doc.
- virtual IntersectFst<A> *Copy(bool safe = false) const {
- return new IntersectFst<A>(*this, safe);
- }
-};
-
-
-// Specialization for IntersectFst.
-template <class A>
-class StateIterator< IntersectFst<A> >
- : public StateIterator< ComposeFst<A> > {
- public:
- explicit StateIterator(const IntersectFst<A> &fst)
- : StateIterator< ComposeFst<A> >(fst) {}
-};
-
-
-// Specialization for IntersectFst.
-template <class A>
-class ArcIterator< IntersectFst<A> >
- : public ArcIterator< ComposeFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const IntersectFst<A> &fst, StateId s)
- : ArcIterator< ComposeFst<A> >(fst, s) {}
-};
-
-// Useful alias when using StdArc.
-typedef IntersectFst<StdArc> StdIntersectFst;
-
-
-typedef ComposeOptions IntersectOptions;
-
-
-// Computes the intersection (Hadamard product) of two FSAs. This
-// version writes the intersection to an output MurableFst. Only
-// strings that are in both automata are retained in the result.
-//
-// The two arguments must be acceptors. One of the arguments must be
-// label-sorted.
-//
-// Complexity: same as Compose.
-//
-// Caveats: same as Compose.
-template<class Arc>
-void Intersect(const Fst<Arc> &ifst1, const Fst<Arc> &ifst2,
- MutableFst<Arc> *ofst,
- const IntersectOptions &opts = IntersectOptions()) {
- typedef Matcher< Fst<Arc> > M;
-
- if (opts.filter_type == AUTO_FILTER) {
- CacheOptions nopts;
- nopts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = IntersectFst<Arc>(ifst1, ifst2, nopts);
- } else if (opts.filter_type == SEQUENCE_FILTER) {
- IntersectFstOptions<Arc> iopts;
- iopts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = IntersectFst<Arc>(ifst1, ifst2, iopts);
- } else if (opts.filter_type == ALT_SEQUENCE_FILTER) {
- IntersectFstOptions<Arc, M, AltSequenceComposeFilter<M> > iopts;
- iopts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = IntersectFst<Arc>(ifst1, ifst2, iopts);
- } else if (opts.filter_type == MATCH_FILTER) {
- IntersectFstOptions<Arc, M, MatchComposeFilter<M> > iopts;
- iopts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = IntersectFst<Arc>(ifst1, ifst2, iopts);
- }
-
- if (opts.connect)
- Connect(ofst);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_INTERSECT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/interval-set.h b/kaldi_io/src/tools/openfst/include/fst/interval-set.h
deleted file mode 100644
index 58cad44..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/interval-set.h
+++ /dev/null
@@ -1,381 +0,0 @@
-// interval-set.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to represent and operate on sets of intervals.
-
-#ifndef FST_LIB_INTERVAL_SET_H__
-#define FST_LIB_INTERVAL_SET_H__
-
-#include <iostream>
-#include <vector>
-using std::vector;
-
-
-#include <fst/util.h>
-
-
-namespace fst {
-
-// Stores and operates on a set of half-open integral intervals [a,b)
-// of signed integers of type T.
-template <typename T>
-class IntervalSet {
- public:
- struct Interval {
- T begin_;
- T end_;
-
- Interval() : begin_(-1), end_(-1) {}
-
- Interval(T b, T e) : begin_(b), end_(e) {}
-
- bool operator<(const Interval &i) const {
- return begin_ < i.begin_ || (begin_ == i.begin_ && end_ > i.end_);
- }
-
- bool operator==(const Interval &i) const {
- return begin_ == i.begin_ && end_ == i.end_;
- }
-
- bool operator!=(const Interval &i) const {
- return begin_ != i.begin_ || end_ != i.end_;
- }
-
- istream &Read(istream &strm) {
- T n;
- ReadType(strm, &n);
- begin_ = n;
- ReadType(strm, &n);
- end_ = n;
- return strm;
- }
-
- ostream &Write(ostream &strm) const {
- T n = begin_;
- WriteType(strm, n);
- n = end_;
- WriteType(strm, n);
- return strm;
- }
- };
-
- IntervalSet() : count_(-1) {}
-
- // Returns the interval set as a vector.
- vector<Interval> *Intervals() { return &intervals_; }
-
- const vector<Interval> *Intervals() const { return &intervals_; }
-
- bool Empty() const { return intervals_.empty(); }
-
- T Size() const { return intervals_.size(); }
-
- // Number of points in the intervals (undefined if not normalized).
- T Count() const { return count_; }
-
- void Clear() {
- intervals_.clear();
- count_ = 0;
- }
-
- // Adds an interval set to the set. The result may not be normalized.
- void Union(const IntervalSet<T> &iset) {
- const vector<Interval> *intervals = iset.Intervals();
- for (typename vector<Interval>::const_iterator it = intervals->begin();
- it != intervals->end(); ++it)
- intervals_.push_back(*it);
- }
-
- // Requires intervals be normalized.
- bool Member(T value) const {
- Interval interval(value, value);
- typename vector<Interval>::const_iterator lb =
- lower_bound(intervals_.begin(), intervals_.end(), interval);
- if (lb == intervals_.begin())
- return false;
- return (--lb)->end_ > value;
- }
-
- // Requires intervals be normalized.
- bool operator==(const IntervalSet<T>& iset) const {
- return *(iset.Intervals()) == intervals_;
- }
-
- // Requires intervals be normalized.
- bool operator!=(const IntervalSet<T>& iset) const {
- return *(iset.Intervals()) != intervals_;
- }
-
- bool Singleton() const {
- return intervals_.size() == 1 &&
- intervals_[0].begin_ + 1 == intervals_[0].end_;
- }
-
-
- // Sorts; collapses overlapping and adjacent interals; sets count.
- void Normalize();
-
- // Intersects an interval set with the set. Requires intervals be
- // normalized. The result is normalized.
- void Intersect(const IntervalSet<T> &iset, IntervalSet<T> *oset) const;
-
- // Complements the set w.r.t [0, maxval). Requires intervals be
- // normalized. The result is normalized.
- void Complement(T maxval, IntervalSet<T> *oset) const;
-
- // Subtract an interval set from the set. Requires intervals be
- // normalized. The result is normalized.
- void Difference(const IntervalSet<T> &iset, IntervalSet<T> *oset) const;
-
- // Determines if an interval set overlaps with the set. Requires
- // intervals be normalized.
- bool Overlaps(const IntervalSet<T> &iset) const;
-
- // Determines if an interval set overlaps with the set but neither
- // is contained in the other. Requires intervals be normalized.
- bool StrictlyOverlaps(const IntervalSet<T> &iset) const;
-
- // Determines if an interval set is contained within the set. Requires
- // intervals be normalized.
- bool Contains(const IntervalSet<T> &iset) const;
-
- istream &Read(istream &strm) {
- ReadType(strm, &intervals_);
- return ReadType(strm, &count_);
- }
-
- ostream &Write(ostream &strm) const {
- WriteType(strm, intervals_);
- return WriteType(strm, count_);
- }
-
- private:
- vector<Interval> intervals_;
- T count_;
-};
-
-// Sorts; collapses overlapping and adjacent interavls; sets count.
-template <typename T>
-void IntervalSet<T>::Normalize() {
- sort(intervals_.begin(), intervals_.end());
-
- count_ = 0;
- T size = 0;
- for (T i = 0; i < intervals_.size(); ++i) {
- Interval &inti = intervals_[i];
- if (inti.begin_ == inti.end_)
- continue;
- for (T j = i + 1; j < intervals_.size(); ++j) {
- Interval &intj = intervals_[j];
- if (intj.begin_ > inti.end_)
- break;
- if (intj.end_ > inti.end_)
- inti.end_ = intj.end_;
- ++i;
- }
- count_ += inti.end_ - inti.begin_;
- intervals_[size++] = inti;
- }
- intervals_.resize(size);
-}
-
-// Intersects an interval set with the set. Requires intervals be normalized.
-// The result is normalized.
-template <typename T>
-void IntervalSet<T>::Intersect(const IntervalSet<T> &iset,
- IntervalSet<T> *oset) const {
- const vector<Interval> *iintervals = iset.Intervals();
- vector<Interval> *ointervals = oset->Intervals();
- typename vector<Interval>::const_iterator it1 = intervals_.begin();
- typename vector<Interval>::const_iterator it2 = iintervals->begin();
-
- ointervals->clear();
- oset->count_ = 0;
-
- while (it1 != intervals_.end() && it2 != iintervals->end()) {
- if (it1->end_ <= it2->begin_) {
- ++it1;
- } else if (it2->end_ <= it1->begin_) {
- ++it2;
- } else {
- Interval interval;
- interval.begin_ = max(it1->begin_, it2->begin_);
- interval.end_ = min(it1->end_, it2->end_);
- ointervals->push_back(interval);
- oset->count_ += interval.end_ - interval.begin_;
- if (it1->end_ < it2->end_)
- ++it1;
- else
- ++it2;
- }
- }
-}
-
-// Complements the set w.r.t [0, maxval). Requires intervals be normalized.
-// The result is normalized.
-template <typename T>
-void IntervalSet<T>::Complement(T maxval, IntervalSet<T> *oset) const {
- vector<Interval> *ointervals = oset->Intervals();
- ointervals->clear();
- oset->count_ = 0;
-
- Interval interval;
- interval.begin_ = 0;
- for (typename vector<Interval>::const_iterator it = intervals_.begin();
- it != intervals_.end();
- ++it) {
- interval.end_ = min(it->begin_, maxval);
- if (interval.begin_ < interval.end_) {
- ointervals->push_back(interval);
- oset->count_ += interval.end_ - interval.begin_;
- }
- interval.begin_ = it->end_;
- }
- interval.end_ = maxval;
- if (interval.begin_ < interval.end_) {
- ointervals->push_back(interval);
- oset->count_ += interval.end_ - interval.begin_;
- }
-}
-
-// Subtract an interval set from the set. Requires intervals be normalized.
-// The result is normalized.
-template <typename T>
-void IntervalSet<T>::Difference(const IntervalSet<T> &iset,
- IntervalSet<T> *oset) const {
- if (intervals_.empty()) {
- oset->Intervals()->clear();
- oset->count_ = 0;
- } else {
- IntervalSet<T> cset;
- iset.Complement(intervals_.back().end_, &cset);
- Intersect(cset, oset);
- }
-}
-
-// Determines if an interval set overlaps with the set. Requires
-// intervals be normalized.
-template <typename T>
-bool IntervalSet<T>::Overlaps(const IntervalSet<T> &iset) const {
- const vector<Interval> *intervals = iset.Intervals();
- typename vector<Interval>::const_iterator it1 = intervals_.begin();
- typename vector<Interval>::const_iterator it2 = intervals->begin();
-
- while (it1 != intervals_.end() && it2 != intervals->end()) {
- if (it1->end_ <= it2->begin_) {
- ++it1;
- } else if (it2->end_ <= it1->begin_) {
- ++it2;
- } else {
- return true;
- }
- }
- return false;
-}
-
-// Determines if an interval set overlaps with the set but neither
-// is contained in the other. Requires intervals be normalized.
-template <typename T>
-bool IntervalSet<T>::StrictlyOverlaps(const IntervalSet<T> &iset) const {
- const vector<Interval> *intervals = iset.Intervals();
- typename vector<Interval>::const_iterator it1 = intervals_.begin();
- typename vector<Interval>::const_iterator it2 = intervals->begin();
- bool only1 = false; // point in intervals_ but not intervals
- bool only2 = false; // point in intervals but not intervals_
- bool overlap = false; // point in both intervals_ and intervals
-
- while (it1 != intervals_.end() && it2 != intervals->end()) {
- if (it1->end_ <= it2->begin_) { // no overlap - it1 first
- only1 = true;
- ++it1;
- } else if (it2->end_ <= it1->begin_) { // no overlap - it2 first
- only2 = true;
- ++it2;
- } else if (it2->begin_ == it1->begin_ && it2->end_ == it1->end_) { // equals
- overlap = true;
- ++it1;
- ++it2;
- } else if (it2->begin_ <= it1->begin_ && it2->end_ >= it1->end_) { // 1 c 2
- only2 = true;
- overlap = true;
- ++it1;
- } else if (it1->begin_ <= it2->begin_ && it1->end_ >= it2->end_) { // 2 c 1
- only1 = true;
- overlap = true;
- ++it2;
- } else { // strict overlap
- only1 = true;
- only2 = true;
- overlap = true;
- }
- if (only1 == true && only2 == true && overlap == true)
- return true;
- }
- if (it1 != intervals_.end())
- only1 = true;
- if (it2 != intervals->end())
- only2 = true;
-
- return only1 == true && only2 == true && overlap == true;
-}
-
-// Determines if an interval set is contained within the set. Requires
-// intervals be normalized.
-template <typename T>
-bool IntervalSet<T>::Contains(const IntervalSet<T> &iset) const {
- if (iset.Count() > Count())
- return false;
-
- const vector<Interval> *intervals = iset.Intervals();
- typename vector<Interval>::const_iterator it1 = intervals_.begin();
- typename vector<Interval>::const_iterator it2 = intervals->begin();
-
- while (it1 != intervals_.end() && it2 != intervals->end()) {
- if (it1->end_ <= it2->begin_) { // no overlap - it1 first
- ++it1;
- } else if (it2->begin_ < it1->begin_ || it2->end_ > it1->end_) { // no C
- return false;
- } else if (it2->end_ == it1->end_) {
- ++it1;
- ++it2;
- } else {
- ++it2;
- }
- }
- return it2 == intervals->end();
-}
-
-template <typename T>
-ostream &operator<<(ostream &strm, const IntervalSet<T> &s) {
- typedef typename IntervalSet<T>::Interval Interval;
- const vector<Interval> *intervals = s.Intervals();
- strm << "{";
- for (typename vector<Interval>::const_iterator it = intervals->begin();
- it != intervals->end();
- ++it) {
- if (it != intervals->begin())
- strm << ",";
- strm << "[" << it->begin_ << "," << it->end_ << ")";
- }
- strm << "}";
- return strm;
-}
-
-} // namespace fst
-
-#endif // FST_LIB_INTERVAL_SET_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/invert.h b/kaldi_io/src/tools/openfst/include/fst/invert.h
deleted file mode 100644
index bc83a5d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/invert.h
+++ /dev/null
@@ -1,125 +0,0 @@
-// invert.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Functions and classes to invert an Fst.
-
-#ifndef FST_LIB_INVERT_H__
-#define FST_LIB_INVERT_H__
-
-#include <fst/arc-map.h>
-#include <fst/mutable-fst.h>
-
-
-namespace fst {
-
-// Mapper to implement inversion of an arc.
-template <class A> struct InvertMapper {
- InvertMapper() {}
-
- A operator()(const A &arc) {
- return A(arc.olabel, arc.ilabel, arc.weight, arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_CLEAR_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_CLEAR_SYMBOLS;}
-
- uint64 Properties(uint64 props) { return InvertProperties(props); }
-};
-
-
-// Inverts the transduction corresponding to an FST by exchanging the
-// FST's input and output labels. This version modifies its input.
-//
-// Complexity:
-// - Time: O(V + E)
-// - Space: O(1)
-// where V = # of states and E = # of arcs.
-template<class Arc> inline
-void Invert(MutableFst<Arc> *fst) {
- SymbolTable *input = fst->InputSymbols() ? fst->InputSymbols()->Copy() : 0;
- SymbolTable *output = fst->OutputSymbols() ? fst->OutputSymbols()->Copy() : 0;
- ArcMap(fst, InvertMapper<Arc>());
- fst->SetInputSymbols(output);
- fst->SetOutputSymbols(input);
- delete input;
- delete output;
-}
-
-
-// Inverts the transduction corresponding to an FST by exchanging the
-// FST's input and output labels. This version is a delayed Fst.
-//
-// Complexity:
-// - Time: O(v + e)
-// - Space: O(1)
-// where v = # of states visited, e = # of arcs visited. Constant
-// time and to visit an input state or arc is assumed and exclusive
-// of caching.
-template <class A>
-class InvertFst : public ArcMapFst<A, A, InvertMapper<A> > {
- public:
- typedef A Arc;
- typedef InvertMapper<A> C;
- typedef ArcMapFstImpl< A, A, InvertMapper<A> > Impl;
- using ImplToFst<Impl>::GetImpl;
-
- explicit InvertFst(const Fst<A> &fst) : ArcMapFst<A, A, C>(fst, C()) {
- GetImpl()->SetOutputSymbols(fst.InputSymbols());
- GetImpl()->SetInputSymbols(fst.OutputSymbols());
- }
-
- // See Fst<>::Copy() for doc.
- InvertFst(const InvertFst<A> &fst, bool safe = false)
- : ArcMapFst<A, A, C>(fst, safe) {}
-
- // Get a copy of this InvertFst. See Fst<>::Copy() for further doc.
- virtual InvertFst<A> *Copy(bool safe = false) const {
- return new InvertFst(*this, safe);
- }
-};
-
-
-// Specialization for InvertFst.
-template <class A>
-class StateIterator< InvertFst<A> >
- : public StateIterator< ArcMapFst<A, A, InvertMapper<A> > > {
- public:
- explicit StateIterator(const InvertFst<A> &fst)
- : StateIterator< ArcMapFst<A, A, InvertMapper<A> > >(fst) {}
-};
-
-
-// Specialization for InvertFst.
-template <class A>
-class ArcIterator< InvertFst<A> >
- : public ArcIterator< ArcMapFst<A, A, InvertMapper<A> > > {
- public:
- ArcIterator(const InvertFst<A> &fst, typename A::StateId s)
- : ArcIterator< ArcMapFst<A, A, InvertMapper<A> > >(fst, s) {}
-};
-
-
-// Useful alias when using StdArc.
-typedef InvertFst<StdArc> StdInvertFst;
-
-} // namespace fst
-
-#endif // FST_LIB_INVERT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/label-reachable.h b/kaldi_io/src/tools/openfst/include/fst/label-reachable.h
deleted file mode 100644
index af06eef..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/label-reachable.h
+++ /dev/null
@@ -1,565 +0,0 @@
-// label_reachable.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to determine if a non-epsilon label can be read as the
-// first non-epsilon symbol along some path from a given state.
-
-
-#ifndef FST_LIB_LABEL_REACHABLE_H__
-#define FST_LIB_LABEL_REACHABLE_H__
-
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <vector>
-using std::vector;
-
-#include <fst/accumulator.h>
-#include <fst/arcsort.h>
-#include <fst/interval-set.h>
-#include <fst/state-reachable.h>
-#include <fst/vector-fst.h>
-
-
-namespace fst {
-
-// Stores shareable data for label reachable class copies.
-template <typename L>
-class LabelReachableData {
- public:
- typedef L Label;
- typedef typename IntervalSet<L>::Interval Interval;
-
- explicit LabelReachableData(bool reach_input, bool keep_relabel_data = true)
- : reach_input_(reach_input),
- keep_relabel_data_(keep_relabel_data),
- have_relabel_data_(true),
- final_label_(kNoLabel) {}
-
- ~LabelReachableData() {}
-
- bool ReachInput() const { return reach_input_; }
-
- vector< IntervalSet<L> > *IntervalSets() { return &isets_; }
-
- unordered_map<L, L> *Label2Index() {
- if (!have_relabel_data_)
- FSTERROR() << "LabelReachableData: no relabeling data";
- return &label2index_;
- }
-
- Label FinalLabel() {
- if (final_label_ == kNoLabel)
- final_label_ = label2index_[kNoLabel];
- return final_label_;
- }
-
- static LabelReachableData<L> *Read(istream &istrm) {
- LabelReachableData<L> *data = new LabelReachableData<L>();
-
- ReadType(istrm, &data->reach_input_);
- ReadType(istrm, &data->keep_relabel_data_);
- data->have_relabel_data_ = data->keep_relabel_data_;
- if (data->keep_relabel_data_)
- ReadType(istrm, &data->label2index_);
- ReadType(istrm, &data->final_label_);
- ReadType(istrm, &data->isets_);
- return data;
- }
-
- bool Write(ostream &ostrm) {
- WriteType(ostrm, reach_input_);
- WriteType(ostrm, keep_relabel_data_);
- if (keep_relabel_data_)
- WriteType(ostrm, label2index_);
- WriteType(ostrm, FinalLabel());
- WriteType(ostrm, isets_);
- return true;
- }
-
- int RefCount() const { return ref_count_.count(); }
- int IncrRefCount() { return ref_count_.Incr(); }
- int DecrRefCount() { return ref_count_.Decr(); }
-
- private:
- LabelReachableData() {}
-
- bool reach_input_; // Input or output labels considered?
- bool keep_relabel_data_; // Save label2index_ to file?
- bool have_relabel_data_; // Using label2index_?
- Label final_label_; // Final label
- RefCounter ref_count_; // Reference count.
- unordered_map<L, L> label2index_; // Finds index for a label.
- vector<IntervalSet <L> > isets_; // Interval sets per state.
-
- DISALLOW_COPY_AND_ASSIGN(LabelReachableData);
-};
-
-
-// Tests reachability of labels from a given state. If reach_input =
-// true, then input labels are considered, o.w. output labels are
-// considered. To test for reachability from a state s, first do
-// SetState(s). Then a label l can be reached from state s of FST f
-// iff Reach(r) is true where r = Relabel(l). The relabeling is
-// required to ensure a compact representation of the reachable
-// labels.
-
-// The whole FST can be relabeled instead with Relabel(&f,
-// reach_input) so that the test Reach(r) applies directly to the
-// labels of the transformed FST f. The relabeled FST will also be
-// sorted appropriately for composition.
-//
-// Reachablity of a final state from state s (via an epsilon path)
-// can be tested with ReachFinal();
-//
-// Reachability can also be tested on the set of labels specified by
-// an arc iterator, useful for FST composition. In particular,
-// Reach(aiter, ...) is true if labels on the input (output) side of
-// the transitions of the arc iterator, when iter_input is true
-// (false), can be reached from the state s. The iterator labels must
-// have already been relabeled.
-//
-// With the arc iterator test of reachability, the begin position, end
-// position and accumulated arc weight of the matches can be
-// returned. The optional template argument controls how reachable arc
-// weights are accumulated. The default uses the semiring
-// Plus(). Alternative ones can be used to distribute the weights in
-// composition in various ways.
-template <class A, class S = DefaultAccumulator<A> >
-class LabelReachable {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename IntervalSet<Label>::Interval Interval;
-
- LabelReachable(const Fst<A> &fst, bool reach_input, S *s = 0,
- bool keep_relabel_data = true)
- : fst_(new VectorFst<Arc>(fst)),
- s_(kNoStateId),
- data_(new LabelReachableData<Label>(reach_input, keep_relabel_data)),
- accumulator_(s ? s : new S()),
- ncalls_(0),
- nintervals_(0),
- error_(false) {
- StateId ins = fst_->NumStates();
- TransformFst();
- FindIntervals(ins);
- delete fst_;
- }
-
- explicit LabelReachable(LabelReachableData<Label> *data, S *s = 0)
- : fst_(0),
- s_(kNoStateId),
- data_(data),
- accumulator_(s ? s : new S()),
- ncalls_(0),
- nintervals_(0),
- error_(false) {
- data_->IncrRefCount();
- }
-
- LabelReachable(const LabelReachable<A, S> &reachable) :
- fst_(0),
- s_(kNoStateId),
- data_(reachable.data_),
- accumulator_(new S(*reachable.accumulator_)),
- ncalls_(0),
- nintervals_(0),
- error_(reachable.error_) {
- data_->IncrRefCount();
- }
-
- ~LabelReachable() {
- if (!data_->DecrRefCount())
- delete data_;
- delete accumulator_;
- if (ncalls_ > 0) {
- VLOG(2) << "# of calls: " << ncalls_;
- VLOG(2) << "# of intervals/call: " << (nintervals_ / ncalls_);
- }
- }
-
- // Relabels w.r.t labels that give compact label sets.
- Label Relabel(Label label) {
- if (label == 0 || error_)
- return label;
- unordered_map<Label, Label> &label2index = *data_->Label2Index();
- Label &relabel = label2index[label];
- if (!relabel) // Add new label
- relabel = label2index.size() + 1;
- return relabel;
- }
-
- // Relabels Fst w.r.t to labels that give compact label sets.
- void Relabel(MutableFst<Arc> *fst, bool relabel_input) {
- for (StateIterator< MutableFst<Arc> > siter(*fst);
- !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- for (MutableArcIterator< MutableFst<Arc> > aiter(fst, s);
- !aiter.Done();
- aiter.Next()) {
- Arc arc = aiter.Value();
- if (relabel_input)
- arc.ilabel = Relabel(arc.ilabel);
- else
- arc.olabel = Relabel(arc.olabel);
- aiter.SetValue(arc);
- }
- }
- if (relabel_input) {
- ArcSort(fst, ILabelCompare<Arc>());
- fst->SetInputSymbols(0);
- } else {
- ArcSort(fst, OLabelCompare<Arc>());
- fst->SetOutputSymbols(0);
- }
- }
-
- // Returns relabeling pairs (cf. relabel.h::Relabel()).
- // If 'avoid_collisions' is true, extra pairs are added to
- // ensure no collisions when relabeling automata that have
- // labels unseen here.
- void RelabelPairs(vector<pair<Label, Label> > *pairs,
- bool avoid_collisions = false) {
- pairs->clear();
- unordered_map<Label, Label> &label2index = *data_->Label2Index();
- // Maps labels to their new values in [1, label2index().size()]
- for (typename unordered_map<Label, Label>::const_iterator
- it = label2index.begin(); it != label2index.end(); ++it)
- if (it->second != data_->FinalLabel())
- pairs->push_back(pair<Label, Label>(it->first, it->second));
- if (avoid_collisions) {
- // Ensures any label in [1, label2index().size()] is mapped either
- // by the above step or to label2index() + 1 (to avoid collisions).
- for (int i = 1; i <= label2index.size(); ++i) {
- typename unordered_map<Label, Label>::const_iterator
- it = label2index.find(i);
- if (it == label2index.end() || it->second == data_->FinalLabel())
- pairs->push_back(pair<Label, Label>(i, label2index.size() + 1));
- }
- }
- }
-
- // Set current state. Optionally set state associated
- // with arc iterator to be passed to Reach.
- void SetState(StateId s, StateId aiter_s = kNoStateId) {
- s_ = s;
- if (aiter_s != kNoStateId) {
- accumulator_->SetState(aiter_s);
- if (accumulator_->Error()) error_ = true;
- }
- }
-
- // Can reach this label from current state?
- // Original labels must be transformed by the Relabel methods above.
- bool Reach(Label label) {
- if (label == 0 || error_)
- return false;
- vector< IntervalSet<Label> > &isets = *data_->IntervalSets();
- return isets[s_].Member(label);
-
- }
-
- // Can reach final state (via epsilon transitions) from this state?
- bool ReachFinal() {
- if (error_) return false;
- vector< IntervalSet<Label> > &isets = *data_->IntervalSets();
- return isets[s_].Member(data_->FinalLabel());
- }
-
- // Initialize with secondary FST to be used with Reach(Iterator,...).
- // If copy is true, then 'fst' is a copy of the FST used in the
- // previous call to this method (useful to avoid unnecessary updates).
- template <class F>
- void ReachInit(const F &fst, bool copy = false) {
- accumulator_->Init(fst, copy);
- if (accumulator_->Error()) error_ = true;
- }
-
- // Can reach any arc iterator label between iterator positions
- // aiter_begin and aiter_end? If aiter_input = true, then iterator
- // input labels are considered, o.w. output labels are considered.
- // Arc iterator labels must be transformed by the Relabel methods
- // above. If compute_weight is true, user may call ReachWeight().
- template <class Iterator>
- bool Reach(Iterator *aiter, ssize_t aiter_begin,
- ssize_t aiter_end, bool aiter_input, bool compute_weight) {
- if (error_) return false;
- vector< IntervalSet<Label> > &isets = *data_->IntervalSets();
- const vector<Interval> *intervals = isets[s_].Intervals();
- ++ncalls_;
- nintervals_ += intervals->size();
-
- reach_begin_ = -1;
- reach_end_ = -1;
- reach_weight_ = Weight::Zero();
-
- uint32 flags = aiter->Flags(); // save flags to restore them on exit
- aiter->SetFlags(kArcNoCache, kArcNoCache); // make caching optional
- aiter->Seek(aiter_begin);
-
- if (2 * (aiter_end - aiter_begin) < intervals->size()) {
- // Check each arc against intervals.
- // Set arc iterator flags to only compute the ilabel or olabel values,
- // since they are the only values required for most of the arcs processed.
- aiter->SetFlags(aiter_input ? kArcILabelValue : kArcOLabelValue,
- kArcValueFlags);
- Label reach_label = kNoLabel;
- for (ssize_t aiter_pos = aiter_begin;
- aiter_pos < aiter_end; aiter->Next(), ++aiter_pos) {
- const A &arc = aiter->Value();
- Label label = aiter_input ? arc.ilabel : arc.olabel;
- if (label == reach_label || Reach(label)) {
- reach_label = label;
- if (reach_begin_ < 0)
- reach_begin_ = aiter_pos;
- reach_end_ = aiter_pos + 1;
- if (compute_weight) {
- if (!(aiter->Flags() & kArcWeightValue)) {
- // If the 'arc.weight' wasn't computed by the call
- // to 'aiter->Value()' above, we need to call
- // 'aiter->Value()' again after having set the arc iterator
- // flags to compute the arc weight value.
- aiter->SetFlags(kArcWeightValue, kArcValueFlags);
- const A &arcb = aiter->Value();
- // Call the accumulator.
- reach_weight_ = accumulator_->Sum(reach_weight_, arcb.weight);
- // Only ilabel or olabel required to process the following
- // arcs.
- aiter->SetFlags(aiter_input ? kArcILabelValue : kArcOLabelValue,
- kArcValueFlags);
- } else {
- // Call the accumulator.
- reach_weight_ = accumulator_->Sum(reach_weight_, arc.weight);
- }
- }
- }
- }
- } else {
- // Check each interval against arcs
- ssize_t begin_low, end_low = aiter_begin;
- for (typename vector<Interval>::const_iterator
- iiter = intervals->begin();
- iiter != intervals->end(); ++iiter) {
- begin_low = LowerBound(aiter, end_low, aiter_end,
- aiter_input, iiter->begin);
- end_low = LowerBound(aiter, begin_low, aiter_end,
- aiter_input, iiter->end);
- if (end_low - begin_low > 0) {
- if (reach_begin_ < 0)
- reach_begin_ = begin_low;
- reach_end_ = end_low;
- if (compute_weight) {
- aiter->SetFlags(kArcWeightValue, kArcValueFlags);
- reach_weight_ = accumulator_->Sum(reach_weight_, aiter,
- begin_low, end_low);
- }
- }
- }
- }
-
- aiter->SetFlags(flags, kArcFlags); // restore original flag values
- return reach_begin_ >= 0;
- }
-
- // Returns iterator position of first matching arc.
- ssize_t ReachBegin() const { return reach_begin_; }
-
- // Returns iterator position one past last matching arc.
- ssize_t ReachEnd() const { return reach_end_; }
-
- // Return the sum of the weights for matching arcs.
- // Valid only if compute_weight was true in Reach() call.
- Weight ReachWeight() const { return reach_weight_; }
-
- // Access to the relabeling map. Excludes epsilon (0) label but
- // includes kNoLabel that is used internally for super-final
- // transitons.
- const unordered_map<Label, Label>& Label2Index() const {
- return *data_->Label2Index();
- }
-
- LabelReachableData<Label> *GetData() const { return data_; }
-
- bool Error() const { return error_ || accumulator_->Error(); }
-
- private:
- // Redirects labeled arcs (input or output labels determined by
- // ReachInput()) to new label-specific final states. Each original
- // final state is redirected via a transition labeled with kNoLabel
- // to a new kNoLabel-specific final state. Creates super-initial
- // state for all states with zero in-degree.
- void TransformFst() {
- StateId ins = fst_->NumStates();
- StateId ons = ins;
-
- vector<ssize_t> indeg(ins, 0);
-
- // Redirects labeled arcs to new final states.
- for (StateId s = 0; s < ins; ++s) {
- for (MutableArcIterator< VectorFst<Arc> > aiter(fst_, s);
- !aiter.Done();
- aiter.Next()) {
- Arc arc = aiter.Value();
- Label label = data_->ReachInput() ? arc.ilabel : arc.olabel;
- if (label) {
- if (label2state_.find(label) == label2state_.end()) {
- label2state_[label] = ons;
- indeg.push_back(0);
- ++ons;
- }
- arc.nextstate = label2state_[label];
- aiter.SetValue(arc);
- }
- ++indeg[arc.nextstate]; // Finds in-degrees for next step.
- }
-
- // Redirects final weights to new final state.
- Weight final = fst_->Final(s);
- if (final != Weight::Zero()) {
- if (label2state_.find(kNoLabel) == label2state_.end()) {
- label2state_[kNoLabel] = ons;
- indeg.push_back(0);
- ++ons;
- }
- Arc arc(kNoLabel, kNoLabel, final, label2state_[kNoLabel]);
- fst_->AddArc(s, arc);
- ++indeg[arc.nextstate]; // Finds in-degrees for next step.
-
- fst_->SetFinal(s, Weight::Zero());
- }
- }
-
- // Add new final states to Fst.
- while (fst_->NumStates() < ons) {
- StateId s = fst_->AddState();
- fst_->SetFinal(s, Weight::One());
- }
-
- // Creates a super-initial state for all states with zero in-degree.
- StateId start = fst_->AddState();
- fst_->SetStart(start);
- for (StateId s = 0; s < start; ++s) {
- if (indeg[s] == 0) {
- Arc arc(0, 0, Weight::One(), s);
- fst_->AddArc(start, arc);
- }
- }
- }
-
- void FindIntervals(StateId ins) {
- StateReachable<A, Label> state_reachable(*fst_);
- if (state_reachable.Error()) {
- error_ = true;
- return;
- }
-
- vector<Label> &state2index = state_reachable.State2Index();
- vector< IntervalSet<Label> > &isets = *data_->IntervalSets();
- isets = state_reachable.IntervalSets();
- isets.resize(ins);
-
- unordered_map<Label, Label> &label2index = *data_->Label2Index();
- for (typename unordered_map<Label, StateId>::const_iterator
- it = label2state_.begin();
- it != label2state_.end();
- ++it) {
- Label l = it->first;
- StateId s = it->second;
- Label i = state2index[s];
- label2index[l] = i;
- }
- label2state_.clear();
-
- double nintervals = 0;
- ssize_t non_intervals = 0;
- for (ssize_t s = 0; s < ins; ++s) {
- nintervals += isets[s].Size();
- if (isets[s].Size() > 1) {
- ++non_intervals;
- VLOG(3) << "state: " << s << " # of intervals: " << isets[s].Size();
- }
- }
- VLOG(2) << "# of states: " << ins;
- VLOG(2) << "# of intervals: " << nintervals;
- VLOG(2) << "# of intervals/state: " << nintervals/ins;
- VLOG(2) << "# of non-interval states: " << non_intervals;
- }
-
- template <class Iterator>
- ssize_t LowerBound(Iterator *aiter, ssize_t aiter_begin,
- ssize_t aiter_end, bool aiter_input,
- Label match_label) const {
- // Only need to compute the ilabel or olabel of arcs when
- // performing the binary search.
- aiter->SetFlags(aiter_input ? kArcILabelValue : kArcOLabelValue,
- kArcValueFlags);
- ssize_t low = aiter_begin;
- ssize_t high = aiter_end;
- while (low < high) {
- ssize_t mid = (low + high) / 2;
- aiter->Seek(mid);
- Label label = aiter_input ?
- aiter->Value().ilabel : aiter->Value().olabel;
- if (label > match_label) {
- high = mid;
- } else if (label < match_label) {
- low = mid + 1;
- } else {
- // Find first matching label (when non-deterministic)
- for (ssize_t i = mid; i > low; --i) {
- aiter->Seek(i - 1);
- label = aiter_input ? aiter->Value().ilabel : aiter->Value().olabel;
- if (label != match_label) {
- aiter->Seek(i);
- aiter->SetFlags(kArcValueFlags, kArcValueFlags);
- return i;
- }
- }
- aiter->SetFlags(kArcValueFlags, kArcValueFlags);
- return low;
- }
- }
- aiter->Seek(low);
- aiter->SetFlags(kArcValueFlags, kArcValueFlags);
- return low;
- }
-
- VectorFst<Arc> *fst_;
- StateId s_; // Current state
- unordered_map<Label, StateId> label2state_; // Finds final state for a label
-
- ssize_t reach_begin_; // Iterator pos of first match
- ssize_t reach_end_; // Iterator pos after last match
- Weight reach_weight_; // Gives weight sum of arc iterator
- // arcs with reachable labels.
- LabelReachableData<Label> *data_; // Shareable data between copies
- S *accumulator_; // Sums arc weights
-
- double ncalls_;
- double nintervals_;
- bool error_;
-
- void operator=(const LabelReachable<A, S> &); // Disallow
-};
-
-} // namespace fst
-
-#endif // FST_LIB_LABEL_REACHABLE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/lexicographic-weight.h b/kaldi_io/src/tools/openfst/include/fst/lexicographic-weight.h
deleted file mode 100644
index 4b55c50..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/lexicographic-weight.h
+++ /dev/null
@@ -1,151 +0,0 @@
-// lexicographic-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Richard Sproat)
-//
-// \file
-// Lexicographic weight set and associated semiring operation definitions.
-//
-// A lexicographic weight is a sequence of weights, each of which must have the
-// path property and Times() must be (strongly) cancellative
-// (for all a,b,c != Zero(): Times(c, a) = Times(c, b) => a = b,
-// Times(a, c) = Times(b, c) => a = b).
-// The + operation on two weights a and b is the lexicographically
-// prior of a and b.
-
-#ifndef FST_LIB_LEXICOGRAPHIC_WEIGHT_H__
-#define FST_LIB_LEXICOGRAPHIC_WEIGHT_H__
-
-#include <string>
-
-#include <fst/pair-weight.h>
-#include <fst/weight.h>
-
-
-namespace fst {
-
-template<class W1, class W2>
-class LexicographicWeight : public PairWeight<W1, W2> {
- public:
- using PairWeight<W1, W2>::Value1;
- using PairWeight<W1, W2>::Value2;
- using PairWeight<W1, W2>::SetValue1;
- using PairWeight<W1, W2>::SetValue2;
- using PairWeight<W1, W2>::Zero;
- using PairWeight<W1, W2>::One;
- using PairWeight<W1, W2>::NoWeight;
- using PairWeight<W1, W2>::Quantize;
- using PairWeight<W1, W2>::Reverse;
-
- typedef LexicographicWeight<typename W1::ReverseWeight,
- typename W2::ReverseWeight>
- ReverseWeight;
-
- LexicographicWeight() {}
-
- LexicographicWeight(const PairWeight<W1, W2>& w)
- : PairWeight<W1, W2>(w) {}
-
- LexicographicWeight(W1 w1, W2 w2) : PairWeight<W1, W2>(w1, w2) {
- uint64 props = kPath;
- if ((W1::Properties() & props) != props) {
- FSTERROR() << "LexicographicWeight must "
- << "have the path property: " << W1::Type();
- SetValue1(W1::NoWeight());
- }
- if ((W2::Properties() & props) != props) {
- FSTERROR() << "LexicographicWeight must "
- << "have the path property: " << W2::Type();
- SetValue2(W2::NoWeight());
- }
- }
-
- static const LexicographicWeight<W1, W2> &Zero() {
- static const LexicographicWeight<W1, W2> zero(PairWeight<W1, W2>::Zero());
- return zero;
- }
-
- static const LexicographicWeight<W1, W2> &One() {
- static const LexicographicWeight<W1, W2> one(PairWeight<W1, W2>::One());
- return one;
- }
-
- static const LexicographicWeight<W1, W2> &NoWeight() {
- static const LexicographicWeight<W1, W2> no_weight(
- PairWeight<W1, W2>::NoWeight());
- return no_weight;
- }
-
- static const string &Type() {
- static const string type = W1::Type() + "_LT_" + W2::Type();
- return type;
- }
-
- bool Member() const {
- if (!Value1().Member() || !Value2().Member()) return false;
- // Lexicographic weights cannot mix zeroes and non-zeroes.
- if (Value1() == W1::Zero() && Value2() == W2::Zero()) return true;
- if (Value1() != W1::Zero() && Value2() != W2::Zero()) return true;
- return false;
- }
-
- LexicographicWeight<W1, W2> Quantize(float delta = kDelta) const {
- return PairWeight<W1, W2>::Quantize();
- }
-
- ReverseWeight Reverse() const {
- return PairWeight<W1, W2>::Reverse();
- }
-
- static uint64 Properties() {
- uint64 props1 = W1::Properties();
- uint64 props2 = W2::Properties();
- return props1 & props2 & (kLeftSemiring | kRightSemiring | kPath |
- kIdempotent | kCommutative);
- }
-};
-
-template <class W1, class W2>
-inline LexicographicWeight<W1, W2> Plus(const LexicographicWeight<W1, W2> &w,
- const LexicographicWeight<W1, W2> &v) {
- if (!w.Member() || !v.Member())
- return LexicographicWeight<W1, W2>::NoWeight();
- NaturalLess<W1> less1;
- NaturalLess<W2> less2;
- if (less1(w.Value1(), v.Value1())) return w;
- if (less1(v.Value1(), w.Value1())) return v;
- if (less2(w.Value2(), v.Value2())) return w;
- if (less2(v.Value2(), w.Value2())) return v;
- return w;
-}
-
-template <class W1, class W2>
-inline LexicographicWeight<W1, W2> Times(const LexicographicWeight<W1, W2> &w,
- const LexicographicWeight<W1, W2> &v) {
- return LexicographicWeight<W1, W2>(Times(w.Value1(), v.Value1()),
- Times(w.Value2(), v.Value2()));
-}
-
-template <class W1, class W2>
-inline LexicographicWeight<W1, W2> Divide(const LexicographicWeight<W1, W2> &w,
- const LexicographicWeight<W1, W2> &v,
- DivideType typ = DIVIDE_ANY) {
- return LexicographicWeight<W1, W2>(Divide(w.Value1(), v.Value1(), typ),
- Divide(w.Value2(), v.Value2(), typ));
-}
-
-} // namespace fst
-
-#endif // FST_LIB_LEXICOGRAPHIC_WEIGHT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/lock.h b/kaldi_io/src/tools/openfst/include/fst/lock.h
deleted file mode 100644
index 58cb22a..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/lock.h
+++ /dev/null
@@ -1,100 +0,0 @@
-// lock.h
-//
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Google-compatibility locking declarations and inline definitions
-//
-// Classes and functions here are no-ops (by design); proper locking requires
-// actual implementation.
-
-#ifndef FST_LIB_LOCK_H__
-#define FST_LIB_LOCK_H__
-
-#include <fst/compat.h> // for DISALLOW_COPY_AND_ASSIGN
-
-namespace fst {
-
-using namespace std;
-
-//
-// Single initialization - single-thread implementation
-//
-
-typedef int FstOnceType;
-
-static const int FST_ONCE_INIT = 1;
-
-inline int FstOnceInit(FstOnceType *once, void (*init)(void)) {
- if (*once)
- (*init)();
- *once = 0;
- return 0;
-}
-
-//
-// Thread locking - single-thread (non-)implementation
-//
-
-class Mutex {
- public:
- Mutex() {}
-
- private:
- DISALLOW_COPY_AND_ASSIGN(Mutex);
-};
-
-class MutexLock {
- public:
- MutexLock(Mutex *) {}
-
- private:
- DISALLOW_COPY_AND_ASSIGN(MutexLock);
-};
-
-class ReaderMutexLock {
- public:
- ReaderMutexLock(Mutex *) {}
-
- private:
- DISALLOW_COPY_AND_ASSIGN(ReaderMutexLock);
-};
-
-// Reference counting - single-thread implementation
-class RefCounter {
- public:
- RefCounter() : count_(1) {}
-
- int count() const { return count_; }
-
-// below lines are modifications of openfst for multi-thrads support,
-// from tools/extras/openfst_gcc41up.patch, applied by tools/Makefile,
-// applicable to gcc 4.1 or above
- // int Incr() const { return ++count_; }
- // int Decr() const { return --count_; }
-
- int Incr() const { return __sync_add_and_fetch(&count_, 1); }
- int Decr() const { return __sync_sub_and_fetch(&count_, 1); }
-// end modifications
-
- private:
- mutable int count_;
-
- DISALLOW_COPY_AND_ASSIGN(RefCounter);
-};
-
-} // namespace fst
-
-#endif // FST_LIB_LOCK_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/log.h b/kaldi_io/src/tools/openfst/include/fst/log.h
deleted file mode 100644
index d1492cd..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/log.h
+++ /dev/null
@@ -1,66 +0,0 @@
-// log.h
-//
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Google-style logging declarations and inline definitions.
-
-#ifndef FST_LIB_LOG_H__
-#define FST_LIB_LOG_H__
-
-#include <cassert>
-#include <iostream>
-#include <string>
-
-#include <fst/types.h>
-#include <fst/flags.h>
-
-using std::string;
-
-DECLARE_int32(v);
-
-class LogMessage {
- public:
- LogMessage(const string &type) : fatal_(type == "FATAL") {
- std::cerr << type << ": ";
- }
- ~LogMessage() {
- std::cerr << std::endl;
- if(fatal_)
- exit(1);
- }
- std::ostream &stream() { return std::cerr; }
-
- private:
- bool fatal_;
-};
-
-#define LOG(type) LogMessage(#type).stream()
-#define VLOG(level) if ((level) <= FLAGS_v) LOG(INFO)
-
-// Checks
-inline void CHECK(bool x) { assert(x); }
-
-#define CHECK_EQ(x, y) CHECK((x) == (y))
-#define CHECK_LT(x, y) CHECK((x) < (y))
-#define CHECK_GT(x, y) CHECK((x) > (y))
-#define CHECK_LE(x, y) CHECK((x) <= (y))
-#define CHECK_GE(x, y) CHECK((x) >= (y))
-#define CHECK_NE(x, y) CHECK((x) != (y))
-
-// Ports
-#define ATTRIBUTE_DEPRECATED __attribute__((deprecated))
-
-#endif // FST_LIB_LOG_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/lookahead-filter.h b/kaldi_io/src/tools/openfst/include/fst/lookahead-filter.h
deleted file mode 100644
index e11c1bb..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/lookahead-filter.h
+++ /dev/null
@@ -1,698 +0,0 @@
-// lookahead-filter.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Composition filters to support lookahead matchers, useful for improving
-// composition efficiency with certain inputs.
-
-#ifndef FST_LIB_LOOKAHEAD_FILTER_H__
-#define FST_LIB_LOOKAHEAD_FILTER_H__
-
-#include <vector>
-using std::vector;
-
-#include <fst/fst.h>
-#include <fst/lookahead-matcher.h>
-
-
-namespace fst {
-
-// Identifies and verifies the capabilities of the matcher to be used for
-// lookahead with the composition filters below. This version is passed
-// the matchers.
-template <class M1, class M2>
-MatchType LookAheadMatchType(const M1 &m1, const M2 &m2) {
- MatchType type1 = m1.Type(false);
- MatchType type2 = m2.Type(false);
- if (type1 == MATCH_OUTPUT &&
- m1.Flags() & kOutputLookAheadMatcher)
- return MATCH_OUTPUT;
- else if (type2 == MATCH_INPUT &&
- m2.Flags() & kInputLookAheadMatcher)
- return MATCH_INPUT;
- else if (m1.Flags() & kOutputLookAheadMatcher &&
- m1.Type(true) == MATCH_OUTPUT)
- return MATCH_OUTPUT;
- else if (m2.Flags() & kInputLookAheadMatcher &&
- m2.Type(true) == MATCH_INPUT)
- return MATCH_INPUT;
- else
- return MATCH_NONE;
-}
-
-// Identifies and verifies the capabilities of the matcher to be used for
-// lookahead with the composition filters below. This version uses the
-// Fst's default matchers.
-template <class Arc>
-MatchType LookAheadMatchType(const Fst<Arc> &fst1, const Fst<Arc> &fst2) {
- LookAheadMatcher< Fst <Arc> > matcher1(fst1, MATCH_OUTPUT);
- LookAheadMatcher< Fst <Arc> > matcher2(fst2, MATCH_INPUT);
- return LookAheadMatchType(matcher1, matcher2);
-}
-
-//
-// LookAheadSelector - a helper class for selecting among possibly
-// distinct FST and matcher types w/o using a common base class. This
-// lets us avoid virtual function calls.
-//
-
-// Stores and returns the appropriate FST and matcher for lookahead.
-// It is templated on the matcher types. General case has no methods
-// since not currently supported.
-template <class M1, class M2, MatchType MT>
-class LookAheadSelector {
-};
-
-// Stores and returns the appropriate FST and matcher for lookahead.
-// Specialized for two matchers of same type with the (match) 'type'
-// arg determining which is used for lookahead.
-template <class M, MatchType MT>
-class LookAheadSelector<M, M, MT> {
- public:
- typedef typename M::Arc Arc;
- typedef typename M::FST F;
-
- LookAheadSelector(M *lmatcher1, M *lmatcher2, MatchType type)
- : lmatcher1_(lmatcher1->Copy()),
- lmatcher2_(lmatcher2->Copy()),
- type_(type) {}
-
- LookAheadSelector(const LookAheadSelector<M, M, MT> &selector)
- : lmatcher1_(selector.lmatcher1_->Copy()),
- lmatcher2_(selector.lmatcher2_->Copy()),
- type_(selector.type_) {}
-
- ~LookAheadSelector() {
- delete lmatcher1_;
- delete lmatcher2_;
- }
-
- const F &GetFst() const {
- return type_ == MATCH_OUTPUT ? lmatcher2_->GetFst() :
- lmatcher1_->GetFst();
- }
-
- M *GetMatcher() const {
- return type_ == MATCH_OUTPUT ? lmatcher1_ : lmatcher2_;
- }
-
- private:
- M *lmatcher1_;
- M *lmatcher2_;
- MatchType type_;
-
- void operator=(const LookAheadSelector<M, M, MT> &); // disallow
-};
-
-// Stores and returns the appropriate FST and matcher for lookahead.
-// Specialized for lookahead on input labels.
-template <class M1, class M2>
-class LookAheadSelector<M1, M2, MATCH_INPUT> {
- public:
- typedef typename M1::FST F1;
-
- LookAheadSelector(M1 *lmatcher1, M2 *lmatcher2, MatchType)
- : fst_(lmatcher1->GetFst().Copy()),
- lmatcher_(lmatcher2->Copy()) {}
-
- LookAheadSelector(const LookAheadSelector<M1, M2, MATCH_INPUT> &selector)
- : fst_(selector.fst_->Copy()),
- lmatcher_(selector.lmatcher_->Copy()) {}
-
- ~LookAheadSelector() {
- delete lmatcher_;
- delete fst_;
- }
-
- const F1 &GetFst() const { return *fst_; }
-
- M2 *GetMatcher() const { return lmatcher_; }
-
- private:
- const F1 *fst_;
- M2 *lmatcher_;
-
- void operator=(const LookAheadSelector<M1, M2, MATCH_INPUT> &); // disallow
-};
-
-
-// Stores and returns the appropriate FST and matcher for lookahead.
-// Specialized for lookahead on output labels.
-template <class M1, class M2>
-class LookAheadSelector<M1, M2, MATCH_OUTPUT> {
- public:
- typedef typename M2::FST F2;
-
- LookAheadSelector(M1 *lmatcher1, M2 *lmatcher2, MatchType)
- : fst_(lmatcher2->GetFst().Copy()),
- lmatcher_(lmatcher1->Copy()) {}
-
- LookAheadSelector(const LookAheadSelector<M1, M2, MATCH_OUTPUT> &selector)
- : fst_(selector.fst_->Copy()),
- lmatcher_(selector.lmatcher_->Copy()) {}
-
- ~LookAheadSelector() {
- delete lmatcher_;
- delete fst_;
- }
-
- const F2 &GetFst() const { return *fst_; }
-
- M1 *GetMatcher() const { return lmatcher_; }
-
- private:
- const F2 *fst_;
- M1 *lmatcher_;
-
- void operator=(const LookAheadSelector<M1, M2, MATCH_OUTPUT> &); // disallow
-};
-
-// This filter uses a lookahead matcher in FilterArc(arc1, arc2) to
-// examine the future of the composition state (arc1.nextstate,
-// arc2.nextstate), blocking moving forward when its determined to be
-// non-coaccessible. It is templated on an underlying filter,
-// typically the epsilon filter. Which matcher is the lookahead
-// matcher is determined by the template argument MT unless it is
-// MATCH_BOTH. In that case, both matcher arguments must be lookahead
-// matchers of the same type and one will be selected by
-// LookAheadMatchType() based on their capability.
-template <class F,
- class M1 = LookAheadMatcher<typename F::FST1>,
- class M2 = M1,
- MatchType MT = MATCH_BOTH>
-class LookAheadComposeFilter {
- public:
- typedef typename F::FST1 FST1;
- typedef typename F::FST2 FST2;
- typedef typename F::Arc Arc;
- typedef typename F::Matcher1 Matcher1;
- typedef typename F::Matcher2 Matcher2;
- typedef typename F::FilterState FilterState;
- typedef LookAheadComposeFilter<F, M1, M2, MT> Filter;
-
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- LookAheadComposeFilter(const FST1 &fst1, const FST2 &fst2,
- M1 *matcher1, M2 *matcher2)
- : filter_(fst1, fst2, matcher1, matcher2),
- lookahead_type_(MT == MATCH_BOTH ?
- LookAheadMatchType(*filter_.GetMatcher1(),
- *filter_.GetMatcher2()) : MT),
- selector_(filter_.GetMatcher1(), filter_.GetMatcher2(),
- lookahead_type_),
- flags_(lookahead_type_ == MATCH_OUTPUT ?
- filter_.GetMatcher1()->Flags() :
- filter_.GetMatcher2()->Flags()) {
- if (lookahead_type_ == MATCH_NONE) {
- FSTERROR() << "LookAheadComposeFilter: 1st argument cannot "
- << "match/look-ahead on output labels and 2nd argument "
- << "cannot match/look-ahead on input labels.";
- }
- selector_.GetMatcher()->InitLookAheadFst(selector_.GetFst());
- }
-
- LookAheadComposeFilter(const LookAheadComposeFilter<F, M1, M2, MT> &filter,
- bool safe = false)
- : filter_(filter.filter_, safe),
- lookahead_type_(filter.lookahead_type_),
- selector_(filter_.GetMatcher1(), filter_.GetMatcher2(),
- lookahead_type_),
- flags_(filter.flags_) {
- selector_.GetMatcher()->InitLookAheadFst(selector_.GetFst(), true);
- }
-
- FilterState Start() const {
- return filter_.Start();
- }
-
- void SetState(StateId s1, StateId s2, const FilterState &f) {
- filter_.SetState(s1, s2, f);
- }
-
- FilterState FilterArc(Arc *arc1, Arc *arc2) const {
- lookahead_arc_ = false;
-
- const FilterState &f = filter_.FilterArc(arc1, arc2);
- if (f == FilterState::NoState())
- return FilterState::NoState();
-
- return LookAheadOutput() ? LookAheadFilterArc(arc1, arc2, f) :
- LookAheadFilterArc(arc2, arc1, f);
- }
-
- void FilterFinal(Weight *weight1, Weight *weight2) const {
- filter_.FilterFinal(weight1, weight2);
- }
-
- // Return resp matchers. Ownership stays with filter.
- Matcher1 *GetMatcher1() { return filter_.GetMatcher1(); }
- Matcher2 *GetMatcher2() { return filter_.GetMatcher2(); }
-
- const LookAheadSelector<Matcher1, Matcher2, MT> &Selector() const {
- return selector_;
- }
-
- uint64 Properties(uint64 inprops) const {
- uint64 outprops = filter_.Properties(inprops);
- if (lookahead_type_ == MATCH_NONE)
- outprops |= kError;
- return outprops;
- }
-
- uint32 LookAheadFlags() const { return flags_; }
-
- bool LookAheadArc() const { return lookahead_arc_; }
-
- bool LookAheadOutput() const {
- if (MT == MATCH_OUTPUT)
- return true;
- else if (MT == MATCH_INPUT)
- return false;
- else if (lookahead_type_ == MATCH_OUTPUT)
- return true;
- else
- return false;
- }
-
- private:
- FilterState LookAheadFilterArc(Arc *arca, Arc *arcb,
- const FilterState &f) const {
- Label &labela = LookAheadOutput() ? arca->olabel : arca->ilabel;
-
- if (labela != 0 && !(flags_ & kLookAheadNonEpsilons))
- return f;
- if (labela == 0 && !(flags_ & kLookAheadEpsilons))
- return f;
-
- lookahead_arc_ = true;
- selector_.GetMatcher()->SetState(arca->nextstate);
-
- return selector_.GetMatcher()->LookAheadFst(selector_.GetFst(),
- arcb->nextstate) ? f :
- FilterState::NoState();
- }
-
- F filter_; // Underlying filter
- MatchType lookahead_type_; // Lookahead match type
- LookAheadSelector<Matcher1, Matcher2, MT> selector_;
- uint32 flags_; // Lookahead flags
- mutable bool lookahead_arc_; // Look-ahead performed at last FilterArc()?
-
- void operator=(const LookAheadComposeFilter<F, M1, M2> &); // disallow
-};
-
-
-// This filter adds weight-pushing to a lookahead composition filter
-// using the LookAheadWeight() method of matcher argument. It is
-// templated on an underlying lookahead filter, typically the basic
-// lookahead filter. Weight-pushing in composition brings weights
-// forward as much as possible based on the lookahead information.
-template <class F,
- class M1 = LookAheadMatcher<typename F::FST1>,
- class M2 = M1,
- MatchType MT = MATCH_BOTH>
-class PushWeightsComposeFilter {
- public:
- typedef typename F::FST1 FST1;
- typedef typename F::FST2 FST2;
- typedef typename F::Arc Arc;
- typedef typename F::Matcher1 Matcher1;
- typedef typename F::Matcher2 Matcher2;
- typedef typename F::FilterState FilterState1;
- typedef WeightFilterState<typename Arc::Weight> FilterState2;
- typedef PairFilterState<FilterState1, FilterState2> FilterState;
-
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- PushWeightsComposeFilter(const FST1 &fst1, const FST2 &fst2,
- M1 *matcher1, M2 *matcher2)
- : filter_(fst1, fst2, matcher1, matcher2),
- f_(FilterState::NoState()) {}
-
- PushWeightsComposeFilter(const PushWeightsComposeFilter<F, M1, M2, MT>
- &filter,
- bool safe = false)
- : filter_(filter.filter_, safe),
- f_(FilterState::NoState()) {}
-
- FilterState Start() const {
- return FilterState(filter_.Start(), FilterState2(Weight::One()));
- }
-
- void SetState(StateId s1, StateId s2, const FilterState &f) {
- f_ = f;
- filter_.SetState(s1, s2, f.GetState1());
- }
-
- FilterState FilterArc(Arc *arc1, Arc *arc2) const {
- const FilterState1 &f1 = filter_.FilterArc(arc1, arc2);
- if (f1 == FilterState1::NoState())
- return FilterState::NoState();
-
- if (!(LookAheadFlags() & kLookAheadWeight))
- return FilterState(f1, FilterState2(Weight::One()));
-
- const Weight &lweight = filter_.LookAheadArc() ?
- Selector().GetMatcher()->LookAheadWeight() : Weight::One();
- const FilterState2 &f2 = f_.GetState2();
- const Weight &fweight = f2.GetWeight();
-
- arc2->weight = Divide(Times(arc2->weight, lweight), fweight);
- return FilterState(f1, FilterState2(lweight));
- }
-
- void FilterFinal(Weight *weight1, Weight *weight2) const {
- filter_.FilterFinal(weight1, weight2);
- if (!(LookAheadFlags() & kLookAheadWeight) || *weight1 == Weight::Zero())
- return;
-
- const FilterState2 &f2 = f_.GetState2();
- const Weight &fweight = f2.GetWeight();
- *weight1 = Divide(*weight1, fweight);
- }
- // Return resp matchers. Ownership states with filter.
- Matcher1 *GetMatcher1() { return filter_.GetMatcher1(); }
- Matcher2 *GetMatcher2() { return filter_.GetMatcher2(); }
-
- const LookAheadSelector<Matcher1, Matcher2, MT> &Selector() const {
- return filter_.Selector();
- }
-
- uint32 LookAheadFlags() const { return filter_.LookAheadFlags(); }
- bool LookAheadArc() const { return filter_.LookAheadArc(); }
- bool LookAheadOutput() const { return filter_.LookAheadOutput(); }
-
- uint64 Properties(uint64 props) const {
- return filter_.Properties(props) & kWeightInvariantProperties;
- }
-
- private:
- F filter_; // Underlying filter
- FilterState f_; // Current filter state
-
- void operator=(const PushWeightsComposeFilter<F, M1, M2, MT> &); // disallow
-};
-
-// This filter adds label-pushing to a lookahead composition filter
-// using the LookAheadPrefix() method of the matcher argument. It is
-// templated on an underlying filter, typically the basic lookahead
-// or weight-pushing lookahead filter. Label-pushing in composition
-// matches labels as early as possible based on the lookahead
-// information.
-template <class F,
- class M1 = LookAheadMatcher<typename F::FST1>,
- class M2 = M1,
- MatchType MT = MATCH_BOTH>
-class PushLabelsComposeFilter {
- public:
- typedef typename F::FST1 FST1;
- typedef typename F::FST2 FST2;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- typedef MultiEpsMatcher<typename F::Matcher1> Matcher1;
- typedef MultiEpsMatcher<typename F::Matcher2> Matcher2;
- typedef typename F::FilterState FilterState1;
- typedef IntegerFilterState<typename Arc::Label> FilterState2;
- typedef PairFilterState<FilterState1, FilterState2> FilterState;
-
- PushLabelsComposeFilter(const FST1 &fst1, const FST2 &fst2,
- M1 *matcher1, M2 *matcher2)
- : filter_(fst1, fst2, matcher1, matcher2),
- f_(FilterState::NoState()),
- fst1_(filter_.GetMatcher1()->GetFst()),
- fst2_(filter_.GetMatcher2()->GetFst()),
- matcher1_(fst1_, MATCH_OUTPUT,
- filter_.LookAheadOutput() ? kMultiEpsList : kMultiEpsLoop,
- filter_.GetMatcher1(),
- false),
- matcher2_(fst2_, MATCH_INPUT,
- filter_.LookAheadOutput() ? kMultiEpsLoop : kMultiEpsList,
- filter_.GetMatcher2(),
- false) {}
-
- PushLabelsComposeFilter(const PushLabelsComposeFilter<F, M1, M2, MT> &filter,
- bool safe = false)
- : filter_(filter.filter_, safe),
- f_(FilterState::NoState()),
- fst1_(filter_.GetMatcher1()->GetFst()),
- fst2_(filter_.GetMatcher2()->GetFst()),
- matcher1_(fst1_, MATCH_OUTPUT,
- filter_.LookAheadOutput() ? kMultiEpsList : kMultiEpsLoop,
- filter_.GetMatcher1(),
- false),
- matcher2_(fst2_, MATCH_INPUT,
- filter_.LookAheadOutput() ? kMultiEpsLoop : kMultiEpsList,
- filter_.GetMatcher2(),
- false) {
- }
-
- FilterState Start() const {
- return FilterState(filter_.Start(), FilterState2(kNoLabel));
- }
-
- void SetState(StateId s1, StateId s2, const FilterState &f) {
- f_ = f;
- filter_.SetState(s1, s2, f.GetState1());
- if (!(LookAheadFlags() & kLookAheadPrefix))
- return;
-
- narcsa_ = LookAheadOutput() ? internal::NumArcs(fst1_, s1)
- : internal::NumArcs(fst2_, s2);
-
- const FilterState2 &f2 = f_.GetState2();
- const Label &flabel = f2.GetState();
-
- GetMatcher1()->ClearMultiEpsLabels();
- GetMatcher2()->ClearMultiEpsLabels();
- if (flabel != kNoLabel) { // Have a lookahead label?
- GetMatcher1()->AddMultiEpsLabel(flabel); // Yes, make it a multi-epsilon
- GetMatcher2()->AddMultiEpsLabel(flabel); // label so that it matches the
- } // implicit epsilon arc to be
- } // modified below when pushing.
-
- FilterState FilterArc(Arc *arc1, Arc *arc2) const {
- if (!(LookAheadFlags() & kLookAheadPrefix))
- return FilterState(filter_.FilterArc(arc1, arc2),
- FilterState2(kNoLabel));
-
- const FilterState2 &f2 = f_.GetState2();
- const Label &flabel = f2.GetState();
- if (flabel != kNoLabel) // Have a lookahead label?
- return LookAheadOutput() ? PushedLabelFilterArc(arc1, arc2, flabel) :
- PushedLabelFilterArc(arc2, arc1, flabel);
-
- const FilterState1 &f1 = filter_.FilterArc(arc1, arc2);
- if (f1 == FilterState1::NoState())
- return FilterState::NoState();
-
- if (!filter_.LookAheadArc())
- return FilterState(f1, FilterState2(kNoLabel));
-
- return LookAheadOutput() ? PushLabelFilterArc(arc1, arc2, f1) :
- PushLabelFilterArc(arc2, arc1, f1);
- }
-
- void FilterFinal(Weight *weight1, Weight *weight2) const {
- filter_.FilterFinal(weight1, weight2);
- if (!(LookAheadFlags() & kLookAheadPrefix) ||
- *weight1 == Weight::Zero())
- return;
-
- const FilterState2 &f2 = f_.GetState2();
- const Label &flabel = f2.GetState();
- if (flabel != kNoLabel)
- *weight1 = Weight::Zero();
- }
-
- // Return resp matchers. Ownership states with filter.
- Matcher1 *GetMatcher1() { return &matcher1_; }
- Matcher2 *GetMatcher2() { return &matcher2_; }
-
- uint64 Properties(uint64 iprops) const {
- uint64 oprops = filter_.Properties(iprops);
- if (LookAheadOutput())
- return oprops & kOLabelInvariantProperties;
- else
- return oprops & kILabelInvariantProperties;
- }
-
- private:
- const LookAheadSelector<typename F::Matcher1, typename F::Matcher2, MT>
- &Selector() const {
- return filter_.Selector();
- }
-
- // Consumes an already pushed label.
- FilterState PushedLabelFilterArc(Arc *arca, Arc *arcb,
- Label flabel) const {
- Label &labela = LookAheadOutput() ? arca->olabel : arca->ilabel;
- const Label &labelb = LookAheadOutput() ? arcb->ilabel : arcb->olabel;
-
- if (labelb != kNoLabel) {
- return FilterState::NoState(); // Block non- (multi-) epsilon label
- } else if (labela == flabel) {
- labela = 0; // Convert match to multi-eps to eps
- return Start();
- } else if (labela == 0) {
- if (narcsa_ == 1)
- return f_; // Take eps; keep state w/ label
- Selector().GetMatcher()->SetState(arca->nextstate);
- if (Selector().GetMatcher()->LookAheadLabel(flabel))
- return f_; // Take eps; keep state w/ label
- else
- return FilterState::NoState(); // Block non-coaccessible path
- } else {
- return FilterState::NoState(); // Block mismatch to multi-eps label
- }
- }
-
- // Pushes a label forward when possible.
- FilterState PushLabelFilterArc(Arc *arca, Arc *arcb,
- const FilterState1 &f1) const {
- Label &labela = LookAheadOutput() ? arca->olabel : arca->ilabel;
- const Label &labelb = LookAheadOutput() ? arcb->olabel : arcb->ilabel;
-
- if (labelb != 0) // No place to push.
- return FilterState(f1, FilterState2(kNoLabel));
- if (labela != 0 && // Wrong lookahead prefix type?
- LookAheadFlags() & kLookAheadNonEpsilonPrefix)
- return FilterState(f1, FilterState2(kNoLabel));
-
- Arc larc(kNoLabel, kNoLabel, Weight::Zero(), kNoStateId);
-
- if (Selector().GetMatcher()->LookAheadPrefix(&larc)) { // Have prefix arc?
- labela = LookAheadOutput() ? larc.ilabel : larc.olabel;
- arcb->ilabel = larc.ilabel; // Yes, go forward on that arc,
- arcb->olabel = larc.olabel; // thus pushing the label.
- arcb->weight = Times(arcb->weight, larc.weight);
- arcb->nextstate = larc.nextstate;
- return FilterState(f1, FilterState2(labela));
- } else {
- return FilterState(f1, FilterState2(kNoLabel));
- }
- }
-
- uint32 LookAheadFlags() const { return filter_.LookAheadFlags(); }
- bool LookAheadArc() const { return filter_.LookAheadArc(); }
- bool LookAheadOutput() const { return filter_.LookAheadOutput(); }
-
- F filter_; // Underlying filter
- FilterState f_ ; // Current filter state
- const FST1 &fst1_;
- const FST2 &fst2_;
- Matcher1 matcher1_; // Multi-epsilon matcher for fst1
- Matcher2 matcher2_; // Multi-epsilon matcher for fst2
- ssize_t narcsa_; // Number of arcs leaving look-ahead match FST
-
- void operator=(const PushLabelsComposeFilter<F, M1, M2, MT> &); // disallow
-};
-
-//
-// CONVENIENCE CLASS useful for setting up composition with a default
-// look-ahead matcher and filter.
-//
-
-template <class A, MatchType type> // MATCH_NONE
-class DefaultLookAhead {
- public:
- typedef Matcher< Fst<A> > M;
- typedef SequenceComposeFilter<M> ComposeFilter;
- typedef M FstMatcher;
-};
-
-// Specializes for MATCH_INPUT to allow lookahead.
-template <class A>
-class DefaultLookAhead<A, MATCH_INPUT> {
- public:
- typedef LookAheadMatcher< Fst<A> > M;
- typedef SequenceComposeFilter<M> SF;
- typedef LookAheadComposeFilter<SF, M> ComposeFilter;
- typedef M FstMatcher;
-};
-
-// Specializes for MATCH_OUTPUT to allow lookahead.
-template <class A>
-class DefaultLookAhead<A, MATCH_OUTPUT> {
- public:
- typedef LookAheadMatcher< Fst<A> > M;
- typedef AltSequenceComposeFilter<M> SF;
- typedef LookAheadComposeFilter<SF, M> ComposeFilter;
- typedef M FstMatcher;
-};
-
-// Specializes for StdArc to allow weight and label pushing.
-template <>
-class DefaultLookAhead<StdArc, MATCH_INPUT> {
- public:
- typedef StdArc A;
- typedef LookAheadMatcher< Fst<A> > M;
- typedef SequenceComposeFilter<M> SF;
- typedef LookAheadComposeFilter<SF, M> LF;
- typedef PushWeightsComposeFilter<LF, M> WF;
- typedef PushLabelsComposeFilter<WF, M> ComposeFilter;
- typedef M FstMatcher;
-};
-
-// Specializes for StdArc to allow weight and label pushing.
-template <>
-class DefaultLookAhead<StdArc, MATCH_OUTPUT> {
- public:
- typedef StdArc A;
- typedef LookAheadMatcher< Fst<A> > M;
- typedef AltSequenceComposeFilter<M> SF;
- typedef LookAheadComposeFilter<SF, M> LF;
- typedef PushWeightsComposeFilter<LF, M> WF;
- typedef PushLabelsComposeFilter<WF, M> ComposeFilter;
- typedef M FstMatcher;
-};
-
-// Specializes for LogArc to allow weight and label pushing.
-template <>
-class DefaultLookAhead<LogArc, MATCH_INPUT> {
- public:
- typedef LogArc A;
- typedef LookAheadMatcher< Fst<A> > M;
- typedef SequenceComposeFilter<M> SF;
- typedef LookAheadComposeFilter<SF, M> LF;
- typedef PushWeightsComposeFilter<LF, M> WF;
- typedef PushLabelsComposeFilter<WF, M> ComposeFilter;
- typedef M FstMatcher;
-};
-
-// Specializes for LogArc to allow weight and label pushing.
-template <>
-class DefaultLookAhead<LogArc, MATCH_OUTPUT> {
- public:
- typedef LogArc A;
- typedef LookAheadMatcher< Fst<A> > M;
- typedef AltSequenceComposeFilter<M> SF;
- typedef LookAheadComposeFilter<SF, M> LF;
- typedef PushWeightsComposeFilter<LF, M> WF;
- typedef PushLabelsComposeFilter<WF, M> ComposeFilter;
- typedef M FstMatcher;
-};
-
-} // namespace fst
-
-#endif // FST_LIB_LOOKAHEAD_FILTER_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/lookahead-matcher.h b/kaldi_io/src/tools/openfst/include/fst/lookahead-matcher.h
deleted file mode 100644
index f927d65..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/lookahead-matcher.h
+++ /dev/null
@@ -1,812 +0,0 @@
-// lookahead-matcher.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Classes to add lookahead to FST matchers, useful e.g. for improving
-// composition efficiency with certain inputs.
-
-#ifndef FST_LIB_LOOKAHEAD_MATCHER_H__
-#define FST_LIB_LOOKAHEAD_MATCHER_H__
-
-#include <fst/add-on.h>
-#include <fst/const-fst.h>
-#include <fst/fst.h>
-#include <fst/label-reachable.h>
-#include <fst/matcher.h>
-
-
-DECLARE_string(save_relabel_ipairs);
-DECLARE_string(save_relabel_opairs);
-
-namespace fst {
-
-// LOOKAHEAD MATCHERS - these have the interface of Matchers (see
-// matcher.h) and these additional methods:
-//
-// template <class F>
-// class LookAheadMatcher {
-// public:
-// typedef F FST;
-// typedef F::Arc Arc;
-// typedef typename Arc::StateId StateId;
-// typedef typename Arc::Label Label;
-// typedef typename Arc::Weight Weight;
-//
-// // Required constructors.
-// LookAheadMatcher(const F &fst, MatchType match_type);
-// // If safe=true, the copy is thread-safe (except the lookahead Fst is
-// // preserved). See Fst<>::Cop() for further doc.
-// LookAheadMatcher(const LookAheadMatcher &matcher, bool safe = false);
-//
-// Below are methods for looking ahead for a match to a label and
-// more generally, to a rational set. Each returns false if there is
-// definitely not a match and returns true if there possibly is a
-// match.
-
-// // LABEL LOOKAHEAD: Can 'label' be read from the current matcher state
-// // after possibly following epsilon transitions?
-// bool LookAheadLabel(Label label) const;
-//
-// // RATIONAL LOOKAHEAD: The next methods allow looking ahead for an
-// // arbitrary rational set of strings, specified by an FST and a state
-// // from which to begin the matching. If the lookahead FST is a
-// // transducer, this looks on the side different from the matcher
-// // 'match_type' (cf. composition).
-//
-// // Are there paths P from 's' in the lookahead FST that can be read from
-// // the cur. matcher state?
-// bool LookAheadFst(const Fst<Arc>& fst, StateId s);
-//
-// // Gives an estimate of the combined weight of the paths P in the
-// // lookahead and matcher FSTs for the last call to LookAheadFst.
-// // A trivial implementation returns Weight::One(). Non-trivial
-// // implementations are useful for weight-pushing in composition.
-// Weight LookAheadWeight() const;
-//
-// // Is there is a single non-epsilon arc found in the lookahead FST
-// // that begins P (after possibly following any epsilons) in the last
-// // call LookAheadFst? If so, return true and copy it to '*arc', o.w.
-// // return false. A trivial implementation returns false. Non-trivial
-// // implementations are useful for label-pushing in composition.
-// bool LookAheadPrefix(Arc *arc);
-//
-// // Optionally pre-specifies the lookahead FST that will be passed
-// // to LookAheadFst() for possible precomputation. If copy is true,
-// // then 'fst' is a copy of the FST used in the previous call to
-// // this method (useful to avoid unnecessary updates).
-// void InitLookAheadFst(const Fst<Arc>& fst, bool copy = false);
-//
-// };
-
-//
-// LOOK-AHEAD FLAGS (see also kMatcherFlags in matcher.h):
-//
-// Matcher is a lookahead matcher when 'match_type' is MATCH_INPUT.
-const uint32 kInputLookAheadMatcher = 0x00000010;
-
-// Matcher is a lookahead matcher when 'match_type' is MATCH_OUTPUT.
-const uint32 kOutputLookAheadMatcher = 0x00000020;
-
-// A non-trivial implementation of LookAheadWeight() method defined and
-// should be used?
-const uint32 kLookAheadWeight = 0x00000040;
-
-// A non-trivial implementation of LookAheadPrefix() method defined and
-// should be used?
-const uint32 kLookAheadPrefix = 0x00000080;
-
-// Look-ahead of matcher FST non-epsilon arcs?
-const uint32 kLookAheadNonEpsilons = 0x00000100;
-
-// Look-ahead of matcher FST epsilon arcs?
-const uint32 kLookAheadEpsilons = 0x00000200;
-
-// Ignore epsilon paths for the lookahead prefix? Note this gives
-// correct results in composition only with an appropriate composition
-// filter since it depends on the filter blocking the ignored paths.
-const uint32 kLookAheadNonEpsilonPrefix = 0x00000400;
-
-// For LabelLookAheadMatcher, save relabeling data to file
-const uint32 kLookAheadKeepRelabelData = 0x00000800;
-
-// Flags used for lookahead matchers.
-const uint32 kLookAheadFlags = 0x00000ff0;
-
-// LookAhead Matcher interface, templated on the Arc definition; used
-// for lookahead matcher specializations that are returned by the
-// InitMatcher() Fst method.
-template <class A>
-class LookAheadMatcherBase : public MatcherBase<A> {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
-
- LookAheadMatcherBase()
- : weight_(Weight::One()),
- prefix_arc_(kNoLabel, kNoLabel, Weight::One(), kNoStateId) {}
-
- virtual ~LookAheadMatcherBase() {}
-
- bool LookAheadLabel(Label label) const { return LookAheadLabel_(label); }
-
- bool LookAheadFst(const Fst<Arc> &fst, StateId s) {
- return LookAheadFst_(fst, s);
- }
-
- Weight LookAheadWeight() const { return weight_; }
-
- bool LookAheadPrefix(Arc *arc) const {
- if (prefix_arc_.nextstate != kNoStateId) {
- *arc = prefix_arc_;
- return true;
- } else {
- return false;
- }
- }
-
- virtual void InitLookAheadFst(const Fst<Arc>& fst, bool copy = false) = 0;
-
- protected:
- void SetLookAheadWeight(const Weight &w) { weight_ = w; }
-
- void SetLookAheadPrefix(const Arc &arc) { prefix_arc_ = arc; }
-
- void ClearLookAheadPrefix() { prefix_arc_.nextstate = kNoStateId; }
-
- private:
- virtual bool LookAheadLabel_(Label label) const = 0;
- virtual bool LookAheadFst_(const Fst<Arc> &fst,
- StateId s) = 0; // This must set l.a. weight and
- // prefix if non-trivial.
- Weight weight_; // Look-ahead weight
- Arc prefix_arc_; // Look-ahead prefix arc
-};
-
-
-// Don't really lookahead, just declare future looks good regardless.
-template <class M>
-class TrivialLookAheadMatcher
- : public LookAheadMatcherBase<typename M::FST::Arc> {
- public:
- typedef typename M::FST FST;
- typedef typename M::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- TrivialLookAheadMatcher(const FST &fst, MatchType match_type)
- : matcher_(fst, match_type) {}
-
- TrivialLookAheadMatcher(const TrivialLookAheadMatcher<M> &lmatcher,
- bool safe = false)
- : matcher_(lmatcher.matcher_, safe) {}
-
- // General matcher methods
- TrivialLookAheadMatcher<M> *Copy(bool safe = false) const {
- return new TrivialLookAheadMatcher<M>(*this, safe);
- }
-
- MatchType Type(bool test) const { return matcher_.Type(test); }
- void SetState(StateId s) { return matcher_.SetState(s); }
- bool Find(Label label) { return matcher_.Find(label); }
- bool Done() const { return matcher_.Done(); }
- const Arc& Value() const { return matcher_.Value(); }
- void Next() { matcher_.Next(); }
- virtual const FST &GetFst() const { return matcher_.GetFst(); }
- uint64 Properties(uint64 props) const { return matcher_.Properties(props); }
- uint32 Flags() const {
- return matcher_.Flags() | kInputLookAheadMatcher | kOutputLookAheadMatcher;
- }
-
- // Look-ahead methods.
- bool LookAheadLabel(Label label) const { return true; }
- bool LookAheadFst(const Fst<Arc> &fst, StateId s) {return true; }
- Weight LookAheadWeight() const { return Weight::One(); }
- bool LookAheadPrefix(Arc *arc) const { return false; }
- void InitLookAheadFst(const Fst<Arc>& fst, bool copy = false) {}
-
- private:
- // This allows base class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual void SetState_(StateId s) { SetState(s); }
- virtual bool Find_(Label label) { return Find(label); }
- virtual bool Done_() const { return Done(); }
- virtual const Arc& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
-
- bool LookAheadLabel_(Label l) const { return LookAheadLabel(l); }
-
- bool LookAheadFst_(const Fst<Arc> &fst, StateId s) {
- return LookAheadFst(fst, s);
- }
-
- Weight LookAheadWeight_() const { return LookAheadWeight(); }
- bool LookAheadPrefix_(Arc *arc) const { return LookAheadPrefix(arc); }
-
- M matcher_;
-};
-
-// Look-ahead of one transition. Template argument F accepts flags to
-// control behavior.
-template <class M, uint32 F = kLookAheadNonEpsilons | kLookAheadEpsilons |
- kLookAheadWeight | kLookAheadPrefix>
-class ArcLookAheadMatcher
- : public LookAheadMatcherBase<typename M::FST::Arc> {
- public:
- typedef typename M::FST FST;
- typedef typename M::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef NullAddOn MatcherData;
-
- using LookAheadMatcherBase<Arc>::LookAheadWeight;
- using LookAheadMatcherBase<Arc>::SetLookAheadPrefix;
- using LookAheadMatcherBase<Arc>::SetLookAheadWeight;
- using LookAheadMatcherBase<Arc>::ClearLookAheadPrefix;
-
- ArcLookAheadMatcher(const FST &fst, MatchType match_type,
- MatcherData *data = 0)
- : matcher_(fst, match_type),
- fst_(matcher_.GetFst()),
- lfst_(0),
- s_(kNoStateId) {}
-
- ArcLookAheadMatcher(const ArcLookAheadMatcher<M, F> &lmatcher,
- bool safe = false)
- : matcher_(lmatcher.matcher_, safe),
- fst_(matcher_.GetFst()),
- lfst_(lmatcher.lfst_),
- s_(kNoStateId) {}
-
- // General matcher methods
- ArcLookAheadMatcher<M, F> *Copy(bool safe = false) const {
- return new ArcLookAheadMatcher<M, F>(*this, safe);
- }
-
- MatchType Type(bool test) const { return matcher_.Type(test); }
-
- void SetState(StateId s) {
- s_ = s;
- matcher_.SetState(s);
- }
-
- bool Find(Label label) { return matcher_.Find(label); }
- bool Done() const { return matcher_.Done(); }
- const Arc& Value() const { return matcher_.Value(); }
- void Next() { matcher_.Next(); }
- const FST &GetFst() const { return fst_; }
- uint64 Properties(uint64 props) const { return matcher_.Properties(props); }
- uint32 Flags() const {
- return matcher_.Flags() | kInputLookAheadMatcher |
- kOutputLookAheadMatcher | F;
- }
-
- // Writable matcher methods
- MatcherData *GetData() const { return 0; }
-
- // Look-ahead methods.
- bool LookAheadLabel(Label label) const { return matcher_.Find(label); }
-
- // Checks if there is a matching (possibly super-final) transition
- // at (s_, s).
- bool LookAheadFst(const Fst<Arc> &fst, StateId s);
-
- void InitLookAheadFst(const Fst<Arc>& fst, bool copy = false) {
- lfst_ = &fst;
- }
-
- private:
- // This allows base class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual void SetState_(StateId s) { SetState(s); }
- virtual bool Find_(Label label) { return Find(label); }
- virtual bool Done_() const { return Done(); }
- virtual const Arc& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
-
- bool LookAheadLabel_(Label l) const { return LookAheadLabel(l); }
- bool LookAheadFst_(const Fst<Arc> &fst, StateId s) {
- return LookAheadFst(fst, s);
- }
-
- mutable M matcher_;
- const FST &fst_; // Matcher FST
- const Fst<Arc> *lfst_; // Look-ahead FST
- StateId s_; // Matcher state
-};
-
-template <class M, uint32 F>
-bool ArcLookAheadMatcher<M, F>::LookAheadFst(const Fst<Arc> &fst, StateId s) {
- if (&fst != lfst_)
- InitLookAheadFst(fst);
-
- bool ret = false;
- ssize_t nprefix = 0;
- if (F & kLookAheadWeight)
- SetLookAheadWeight(Weight::Zero());
- if (F & kLookAheadPrefix)
- ClearLookAheadPrefix();
- if (fst_.Final(s_) != Weight::Zero() &&
- lfst_->Final(s) != Weight::Zero()) {
- if (!(F & (kLookAheadWeight | kLookAheadPrefix)))
- return true;
- ++nprefix;
- if (F & kLookAheadWeight)
- SetLookAheadWeight(Plus(LookAheadWeight(),
- Times(fst_.Final(s_), lfst_->Final(s))));
- ret = true;
- }
- if (matcher_.Find(kNoLabel)) {
- if (!(F & (kLookAheadWeight | kLookAheadPrefix)))
- return true;
- ++nprefix;
- if (F & kLookAheadWeight)
- for (; !matcher_.Done(); matcher_.Next())
- SetLookAheadWeight(Plus(LookAheadWeight(), matcher_.Value().weight));
- ret = true;
- }
- for (ArcIterator< Fst<Arc> > aiter(*lfst_, s);
- !aiter.Done();
- aiter.Next()) {
- const Arc &arc = aiter.Value();
- Label label = kNoLabel;
- switch (matcher_.Type(false)) {
- case MATCH_INPUT:
- label = arc.olabel;
- break;
- case MATCH_OUTPUT:
- label = arc.ilabel;
- break;
- default:
- FSTERROR() << "ArcLookAheadMatcher::LookAheadFst: bad match type";
- return true;
- }
- if (label == 0) {
- if (!(F & (kLookAheadWeight | kLookAheadPrefix)))
- return true;
- if (!(F & kLookAheadNonEpsilonPrefix))
- ++nprefix;
- if (F & kLookAheadWeight)
- SetLookAheadWeight(Plus(LookAheadWeight(), arc.weight));
- ret = true;
- } else if (matcher_.Find(label)) {
- if (!(F & (kLookAheadWeight | kLookAheadPrefix)))
- return true;
- for (; !matcher_.Done(); matcher_.Next()) {
- ++nprefix;
- if (F & kLookAheadWeight)
- SetLookAheadWeight(Plus(LookAheadWeight(),
- Times(arc.weight,
- matcher_.Value().weight)));
- if ((F & kLookAheadPrefix) && nprefix == 1)
- SetLookAheadPrefix(arc);
- }
- ret = true;
- }
- }
- if (F & kLookAheadPrefix) {
- if (nprefix == 1)
- SetLookAheadWeight(Weight::One()); // Avoids double counting.
- else
- ClearLookAheadPrefix();
- }
- return ret;
-}
-
-
-// Template argument F accepts flags to control behavior.
-// It must include precisely one of KInputLookAheadMatcher or
-// KOutputLookAheadMatcher.
-template <class M, uint32 F = kLookAheadEpsilons | kLookAheadWeight |
- kLookAheadPrefix | kLookAheadNonEpsilonPrefix |
- kLookAheadKeepRelabelData,
- class S = DefaultAccumulator<typename M::Arc> >
-class LabelLookAheadMatcher
- : public LookAheadMatcherBase<typename M::FST::Arc> {
- public:
- typedef typename M::FST FST;
- typedef typename M::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef LabelReachableData<Label> MatcherData;
-
- using LookAheadMatcherBase<Arc>::LookAheadWeight;
- using LookAheadMatcherBase<Arc>::SetLookAheadPrefix;
- using LookAheadMatcherBase<Arc>::SetLookAheadWeight;
- using LookAheadMatcherBase<Arc>::ClearLookAheadPrefix;
-
- LabelLookAheadMatcher(const FST &fst, MatchType match_type,
- MatcherData *data = 0, S *s = 0)
- : matcher_(fst, match_type),
- lfst_(0),
- label_reachable_(0),
- s_(kNoStateId),
- error_(false) {
- if (!(F & (kInputLookAheadMatcher | kOutputLookAheadMatcher))) {
- FSTERROR() << "LabelLookaheadMatcher: bad matcher flags: " << F;
- error_ = true;
- }
- bool reach_input = match_type == MATCH_INPUT;
- if (data) {
- if (reach_input == data->ReachInput())
- label_reachable_ = new LabelReachable<Arc, S>(data, s);
- } else if ((reach_input && (F & kInputLookAheadMatcher)) ||
- (!reach_input && (F & kOutputLookAheadMatcher))) {
- label_reachable_ = new LabelReachable<Arc, S>(
- fst, reach_input, s, F & kLookAheadKeepRelabelData);
- }
- }
-
- LabelLookAheadMatcher(const LabelLookAheadMatcher<M, F, S> &lmatcher,
- bool safe = false)
- : matcher_(lmatcher.matcher_, safe),
- lfst_(lmatcher.lfst_),
- label_reachable_(
- lmatcher.label_reachable_ ?
- new LabelReachable<Arc, S>(*lmatcher.label_reachable_) : 0),
- s_(kNoStateId),
- error_(lmatcher.error_) {}
-
- ~LabelLookAheadMatcher() {
- delete label_reachable_;
- }
-
- // General matcher methods
- LabelLookAheadMatcher<M, F, S> *Copy(bool safe = false) const {
- return new LabelLookAheadMatcher<M, F, S>(*this, safe);
- }
-
- MatchType Type(bool test) const { return matcher_.Type(test); }
-
- void SetState(StateId s) {
- if (s_ == s)
- return;
- s_ = s;
- match_set_state_ = false;
- reach_set_state_ = false;
- }
-
- bool Find(Label label) {
- if (!match_set_state_) {
- matcher_.SetState(s_);
- match_set_state_ = true;
- }
- return matcher_.Find(label);
- }
-
- bool Done() const { return matcher_.Done(); }
- const Arc& Value() const { return matcher_.Value(); }
- void Next() { matcher_.Next(); }
- const FST &GetFst() const { return matcher_.GetFst(); }
-
- uint64 Properties(uint64 inprops) const {
- uint64 outprops = matcher_.Properties(inprops);
- if (error_ || (label_reachable_ && label_reachable_->Error()))
- outprops |= kError;
- return outprops;
- }
-
- uint32 Flags() const {
- if (label_reachable_ && label_reachable_->GetData()->ReachInput())
- return matcher_.Flags() | F | kInputLookAheadMatcher;
- else if (label_reachable_ && !label_reachable_->GetData()->ReachInput())
- return matcher_.Flags() | F | kOutputLookAheadMatcher;
- else
- return matcher_.Flags();
- }
-
- // Writable matcher methods
- MatcherData *GetData() const {
- return label_reachable_ ? label_reachable_->GetData() : 0;
- };
-
- // Look-ahead methods.
- bool LookAheadLabel(Label label) const {
- if (label == 0)
- return true;
-
- if (label_reachable_) {
- if (!reach_set_state_) {
- label_reachable_->SetState(s_);
- reach_set_state_ = true;
- }
- return label_reachable_->Reach(label);
- } else {
- return true;
- }
- }
-
- // Checks if there is a matching (possibly super-final) transition
- // at (s_, s).
- template <class L>
- bool LookAheadFst(const L &fst, StateId s);
-
- void InitLookAheadFst(const Fst<Arc>& fst, bool copy = false) {
- lfst_ = &fst;
- if (label_reachable_)
- label_reachable_->ReachInit(fst, copy);
- }
-
- template <class L>
- void InitLookAheadFst(const L& fst, bool copy = false) {
- lfst_ = static_cast<const Fst<Arc> *>(&fst);
- if (label_reachable_)
- label_reachable_->ReachInit(fst, copy);
- }
-
- private:
- // This allows base class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual void SetState_(StateId s) { SetState(s); }
- virtual bool Find_(Label label) { return Find(label); }
- virtual bool Done_() const { return Done(); }
- virtual const Arc& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
-
- bool LookAheadLabel_(Label l) const { return LookAheadLabel(l); }
- bool LookAheadFst_(const Fst<Arc> &fst, StateId s) {
- return LookAheadFst(fst, s);
- }
-
- mutable M matcher_;
- const Fst<Arc> *lfst_; // Look-ahead FST
- LabelReachable<Arc, S> *label_reachable_; // Label reachability info
- StateId s_; // Matcher state
- bool match_set_state_; // matcher_.SetState called?
- mutable bool reach_set_state_; // reachable_.SetState called?
- bool error_;
-};
-
-template <class M, uint32 F, class S>
-template <class L> inline
-bool LabelLookAheadMatcher<M, F, S>::LookAheadFst(const L &fst, StateId s) {
- if (static_cast<const Fst<Arc> *>(&fst) != lfst_)
- InitLookAheadFst(fst);
-
- SetLookAheadWeight(Weight::One());
- ClearLookAheadPrefix();
-
- if (!label_reachable_)
- return true;
-
- label_reachable_->SetState(s_, s);
- reach_set_state_ = true;
-
- bool compute_weight = F & kLookAheadWeight;
- bool compute_prefix = F & kLookAheadPrefix;
-
- bool reach_input = Type(false) == MATCH_OUTPUT;
- ArcIterator<L> aiter(fst, s);
- bool reach_arc = label_reachable_->Reach(&aiter, 0,
- internal::NumArcs(*lfst_, s),
- reach_input, compute_weight);
- Weight lfinal = internal::Final(*lfst_, s);
- bool reach_final = lfinal != Weight::Zero() && label_reachable_->ReachFinal();
- if (reach_arc) {
- ssize_t begin = label_reachable_->ReachBegin();
- ssize_t end = label_reachable_->ReachEnd();
- if (compute_prefix && end - begin == 1 && !reach_final) {
- aiter.Seek(begin);
- SetLookAheadPrefix(aiter.Value());
- compute_weight = false;
- } else if (compute_weight) {
- SetLookAheadWeight(label_reachable_->ReachWeight());
- }
- }
- if (reach_final && compute_weight)
- SetLookAheadWeight(reach_arc ?
- Plus(LookAheadWeight(), lfinal) : lfinal);
-
- return reach_arc || reach_final;
-}
-
-
-// Label-lookahead relabeling class.
-template <class A>
-class LabelLookAheadRelabeler {
- public:
- typedef typename A::Label Label;
- typedef LabelReachableData<Label> MatcherData;
- typedef AddOnPair<MatcherData, MatcherData> D;
-
- // Relabels matcher Fst - initialization function object.
- template <typename I>
- LabelLookAheadRelabeler(I **impl);
-
- // Relabels arbitrary Fst. Class L should be a label-lookahead Fst.
- template <class L>
- static void Relabel(MutableFst<A> *fst, const L &mfst,
- bool relabel_input) {
- typename L::Impl *impl = mfst.GetImpl();
- D *data = impl->GetAddOn();
- LabelReachable<A> reachable(data->First() ?
- data->First() : data->Second());
- reachable.Relabel(fst, relabel_input);
- }
-
- // Returns relabeling pairs (cf. relabel.h::Relabel()).
- // Class L should be a label-lookahead Fst.
- // If 'avoid_collisions' is true, extra pairs are added to
- // ensure no collisions when relabeling automata that have
- // labels unseen here.
- template <class L>
- static void RelabelPairs(const L &mfst, vector<pair<Label, Label> > *pairs,
- bool avoid_collisions = false) {
- typename L::Impl *impl = mfst.GetImpl();
- D *data = impl->GetAddOn();
- LabelReachable<A> reachable(data->First() ?
- data->First() : data->Second());
- reachable.RelabelPairs(pairs, avoid_collisions);
- }
-};
-
-template <class A>
-template <typename I> inline
-LabelLookAheadRelabeler<A>::LabelLookAheadRelabeler(I **impl) {
- Fst<A> &fst = (*impl)->GetFst();
- D *data = (*impl)->GetAddOn();
- const string name = (*impl)->Type();
- bool is_mutable = fst.Properties(kMutable, false);
- MutableFst<A> *mfst = 0;
- if (is_mutable) {
- mfst = static_cast<MutableFst<A> *>(&fst);
- } else {
- mfst = new VectorFst<A>(fst);
- data->IncrRefCount();
- delete *impl;
- }
- if (data->First()) { // reach_input
- LabelReachable<A> reachable(data->First());
- reachable.Relabel(mfst, true);
- if (!FLAGS_save_relabel_ipairs.empty()) {
- vector<pair<Label, Label> > pairs;
- reachable.RelabelPairs(&pairs, true);
- WriteLabelPairs(FLAGS_save_relabel_ipairs, pairs);
- }
- } else {
- LabelReachable<A> reachable(data->Second());
- reachable.Relabel(mfst, false);
- if (!FLAGS_save_relabel_opairs.empty()) {
- vector<pair<Label, Label> > pairs;
- reachable.RelabelPairs(&pairs, true);
- WriteLabelPairs(FLAGS_save_relabel_opairs, pairs);
- }
- }
- if (!is_mutable) {
- *impl = new I(*mfst, name);
- (*impl)->SetAddOn(data);
- delete mfst;
- data->DecrRefCount();
- }
-}
-
-
-// Generic lookahead matcher, templated on the FST definition
-// - a wrapper around pointer to specific one.
-template <class F>
-class LookAheadMatcher {
- public:
- typedef F FST;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef LookAheadMatcherBase<Arc> LBase;
-
- LookAheadMatcher(const F &fst, MatchType match_type) {
- base_ = fst.InitMatcher(match_type);
- if (!base_)
- base_ = new SortedMatcher<F>(fst, match_type);
- lookahead_ = false;
- }
-
- LookAheadMatcher(const LookAheadMatcher<F> &matcher, bool safe = false) {
- base_ = matcher.base_->Copy(safe);
- lookahead_ = matcher.lookahead_;
- }
-
- ~LookAheadMatcher() { delete base_; }
-
- // General matcher methods
- LookAheadMatcher<F> *Copy(bool safe = false) const {
- return new LookAheadMatcher<F>(*this, safe);
- }
-
- MatchType Type(bool test) const { return base_->Type(test); }
- void SetState(StateId s) { base_->SetState(s); }
- bool Find(Label label) { return base_->Find(label); }
- bool Done() const { return base_->Done(); }
- const Arc& Value() const { return base_->Value(); }
- void Next() { base_->Next(); }
- const F &GetFst() const { return static_cast<const F &>(base_->GetFst()); }
-
- uint64 Properties(uint64 props) const { return base_->Properties(props); }
-
- uint32 Flags() const { return base_->Flags(); }
-
- // Look-ahead methods
- bool LookAheadLabel(Label label) const {
- if (LookAheadCheck()) {
- LBase *lbase = static_cast<LBase *>(base_);
- return lbase->LookAheadLabel(label);
- } else {
- return true;
- }
- }
-
- bool LookAheadFst(const Fst<Arc> &fst, StateId s) {
- if (LookAheadCheck()) {
- LBase *lbase = static_cast<LBase *>(base_);
- return lbase->LookAheadFst(fst, s);
- } else {
- return true;
- }
- }
-
- Weight LookAheadWeight() const {
- if (LookAheadCheck()) {
- LBase *lbase = static_cast<LBase *>(base_);
- return lbase->LookAheadWeight();
- } else {
- return Weight::One();
- }
- }
-
- bool LookAheadPrefix(Arc *arc) const {
- if (LookAheadCheck()) {
- LBase *lbase = static_cast<LBase *>(base_);
- return lbase->LookAheadPrefix(arc);
- } else {
- return false;
- }
- }
-
- void InitLookAheadFst(const Fst<Arc>& fst, bool copy = false) {
- if (LookAheadCheck()) {
- LBase *lbase = static_cast<LBase *>(base_);
- lbase->InitLookAheadFst(fst, copy);
- }
- }
-
- private:
- bool LookAheadCheck() const {
- if (!lookahead_) {
- lookahead_ = base_->Flags() &
- (kInputLookAheadMatcher | kOutputLookAheadMatcher);
- if (!lookahead_) {
- FSTERROR() << "LookAheadMatcher: No look-ahead matcher defined";
- }
- }
- return lookahead_;
- }
-
- MatcherBase<Arc> *base_;
- mutable bool lookahead_;
-
- void operator=(const LookAheadMatcher<Arc> &); // disallow
-};
-
-} // namespace fst
-
-#endif // FST_LIB_LOOKAHEAD_MATCHER_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/map.h b/kaldi_io/src/tools/openfst/include/fst/map.h
deleted file mode 100644
index 419cac4..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/map.h
+++ /dev/null
@@ -1,121 +0,0 @@
-// map.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Compatability file for old-style Map() functions and MapFst class
-// that have been renamed to ArcMap (cf. StateMap).
-
-#ifndef FST_LIB_MAP_H__
-#define FST_LIB_MAP_H__
-
-
-#include <fst/arc-map.h>
-
-
-namespace fst {
-
-template<class A, class C>
-void Map(MutableFst<A> *fst, C* mapper) {
- ArcMap(fst, mapper);
-}
-
-template<class A, class C>
-void Map(MutableFst<A> *fst, C mapper) {
- ArcMap(fst, mapper);
-}
-
-template<class A, class B, class C>
-void Map(const Fst<A> &ifst, MutableFst<B> *ofst, C* mapper) {
- ArcMap(ifst, ofst, mapper);
-}
-
-template<class A, class B, class C>
-void Map(const Fst<A> &ifst, MutableFst<B> *ofst, C mapper) {
- ArcMap(ifst, ofst, mapper);
-}
-
-typedef ArcMapFstOptions MapFstOptions;
-
-template <class A, class B, class C>
-class MapFst : public ArcMapFst<A, B, C> {
- public:
- typedef B Arc;
- typedef typename B::Weight Weight;
- typedef typename B::StateId StateId;
- typedef CacheState<B> State;
-
- MapFst(const Fst<A> &fst, const C &mapper, const MapFstOptions& opts)
- : ArcMapFst<A, B, C>(fst, mapper, opts) {}
-
- MapFst(const Fst<A> &fst, C* mapper, const MapFstOptions& opts)
- : ArcMapFst<A, B, C>(fst, mapper, opts) {}
-
- MapFst(const Fst<A> &fst, const C &mapper)
- : ArcMapFst<A, B, C>(fst, mapper) {}
-
- MapFst(const Fst<A> &fst, C* mapper) : ArcMapFst<A, B, C>(fst, mapper) {}
-
- // See Fst<>::Copy() for doc.
- MapFst(const ArcMapFst<A, B, C> &fst, bool safe = false)
- : ArcMapFst<A, B, C>(fst, safe) {}
-
- // Get a copy of this MapFst. See Fst<>::Copy() for further doc.
-virtual MapFst<A, B, C> *Copy(bool safe = false) const {
- return new MapFst(*this, safe);
- }
-};
-
-
-// Specialization for MapFst.
-template <class A, class B, class C>
-class StateIterator< MapFst<A, B, C> >
- : public StateIterator< ArcMapFst<A, B, C> > {
- public:
- explicit StateIterator(const ArcMapFst<A, B, C> &fst)
- : StateIterator< ArcMapFst<A, B, C> >(fst) {}
-};
-
-
-// Specialization for MapFst.
-template <class A, class B, class C>
-class ArcIterator< MapFst<A, B, C> >
- : public ArcIterator< ArcMapFst<A, B, C> > {
- public:
- ArcIterator(const ArcMapFst<A, B, C> &fst, typename A::StateId s)
- : ArcIterator< ArcMapFst<A, B, C> >(fst, s) {}
-};
-
-
-template <class A>
-struct IdentityMapper {
- typedef A FromArc;
- typedef A ToArc;
-
- A operator()(const A &arc) const { return arc; }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const { return props; }
-};
-
-} // namespace fst
-
-#endif // FST_LIB_MAP_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/mapped-file.h b/kaldi_io/src/tools/openfst/include/fst/mapped-file.h
deleted file mode 100644
index d61bc14..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/mapped-file.h
+++ /dev/null
@@ -1,83 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jeffrey Sorensen)
-
-#ifndef FST_LIB_MAPPED_FILE_H_
-#define FST_LIB_MAPPED_FILE_H_
-
-#include <unistd.h>
-#include <sys/mman.h>
-
-#include <fst/fst.h>
-#include <iostream>
-#include <fstream>
-#include <sstream>
-
-DECLARE_int32(fst_arch_alignment); // defined in mapped-file.h
-
-namespace fst {
-
-// A memory region is a simple abstraction for allocated memory or data from
-// mmap'ed files. If mmap equals NULL, then data represents an owned region of
-// size bytes. Otherwise, mmap and size refer to the mapping and data is a
-// casted pointer to a region contained within [mmap, mmap + size).
-// If size is 0, then mmap refers and data refer to a block of memory managed
-// externally by some other allocator.
-struct MemoryRegion {
- void *data;
- void *mmap;
- size_t size;
-};
-
-class MappedFile {
- public:
- virtual ~MappedFile();
-
- void* mutable_data() const {
- return reinterpret_cast<void*>(region_.data);
- }
-
- const void* data() const {
- return reinterpret_cast<void*>(region_.data);
- }
-
- // Returns a MappedFile object that contains the contents of the input
- // stream s starting from the current file position with size bytes.
- // The file name must also be provided in the FstReadOptions as opts.source
- // or else mapping will fail. If mapping is not possible, then a MappedFile
- // object with a new[]'ed block of memory will be created.
- static MappedFile* Map(istream* s, const FstReadOptions& opts, size_t size);
-
- // Creates a MappedFile object with a new[]'ed block of memory of size.
- // RECOMMENDED FOR INTERNAL USE ONLY, may change in future releases.
- static MappedFile* Allocate(size_t size);
-
- // Creates a MappedFile object pointing to a borrowed reference to data.
- // This block of memory is not owned by the MappedFile object and will not
- // be freed.
- // RECOMMENDED FOR INTERNAL USE ONLY, may change in future releases.
- static MappedFile* Borrow(void *data);
-
- static const int kArchAlignment;
-
- private:
- explicit MappedFile(const MemoryRegion &region);
-
- MemoryRegion region_;
- DISALLOW_COPY_AND_ASSIGN(MappedFile);
-};
-} // namespace fst
-
-#endif // FST_LIB_MAPPED_FILE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/matcher-fst.h b/kaldi_io/src/tools/openfst/include/fst/matcher-fst.h
deleted file mode 100644
index 73e64ad..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/matcher-fst.h
+++ /dev/null
@@ -1,359 +0,0 @@
-// matcher-fst.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to add a matcher to an FST.
-
-#ifndef FST_LIB_MATCHER_FST_FST_H__
-#define FST_LIB_MATCHER_FST_FST_H__
-
-#include <fst/add-on.h>
-#include <fst/const-fst.h>
-#include <fst/lookahead-matcher.h>
-
-
-namespace fst {
-
-// WRITABLE MATCHERS - these have the interface of Matchers (see
-// matcher.h) and these additional methods:
-//
-// template <class F>
-// class Matcher {
-// public:
-// typedef ... MatcherData; // Initialization data
-// ...
-// // Constructor with additional argument for external initialization
-// // data; matcher increments its reference count on construction and
-// // decrements the reference count, and if 0 deletes, on destruction.
-// Matcher(const F &fst, MatchType type, MatcherData *data);
-//
-// // Returns pointer to initialization data that can be
-// // passed to a Matcher constructor.
-// MatcherData *GetData() const;
-// };
-
-// The matcher initialization data class must have the form:
-// class MatcherData {
-// public:
-// // Required copy constructor.
-// MatcherData(const MatcherData &);
-// //
-// // Required I/O methods.
-// static MatcherData *Read(istream &istrm);
-// bool Write(ostream &ostrm);
-//
-// // Required reference counting.
-// int RefCount() const;
-// int IncrRefCount();
-// int DecrRefCount();
-// };
-
-// Default MatcherFst initializer - does nothing.
-template <class M>
-class NullMatcherFstInit {
- public:
- typedef AddOnPair<typename M::MatcherData, typename M::MatcherData> D;
- typedef AddOnImpl<typename M::FST, D> Impl;
- NullMatcherFstInit(Impl **) {}
-};
-
-// Class to add a matcher M to an Fst F. Creates a new Fst of type name N.
-// Optional function object I can be used to initialize the Fst.
-template <class F, class M, const char* N,
- class I = NullMatcherFstInit<M> >
-class MatcherFst
- : public ImplToExpandedFst<
- AddOnImpl<F,
- AddOnPair<typename M::MatcherData,
- typename M::MatcherData> > > {
- public:
- friend class StateIterator< MatcherFst<F, M, N, I> >;
- friend class ArcIterator< MatcherFst<F, M, N, I> >;
-
- typedef F FST;
- typedef M FstMatcher;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef AddOnPair<typename M::MatcherData, typename M::MatcherData> D;
- typedef AddOnImpl<F, D> Impl;
-
- MatcherFst() : ImplToExpandedFst<Impl>(new Impl(F(), N)) {}
-
- explicit MatcherFst(const F &fst)
- : ImplToExpandedFst<Impl>(CreateImpl(fst, N)) {}
-
- explicit MatcherFst(const Fst<Arc> &fst)
- : ImplToExpandedFst<Impl>(CreateImpl(fst, N)) {}
-
- // See Fst<>::Copy() for doc.
- MatcherFst(const MatcherFst<F, M, N, I> &fst, bool safe = false)
- : ImplToExpandedFst<Impl>(fst, safe) {}
-
- // Get a copy of this MatcherFst. See Fst<>::Copy() for further doc.
- virtual MatcherFst<F, M, N, I> *Copy(bool safe = false) const {
- return new MatcherFst<F, M, N, I>(*this, safe);
- }
-
- // Read a MatcherFst from an input stream; return NULL on error
- static MatcherFst<F, M, N, I> *Read(istream &strm,
- const FstReadOptions &opts) {
- Impl *impl = Impl::Read(strm, opts);
- return impl ? new MatcherFst<F, M, N, I>(impl) : 0;
- }
-
- // Read a MatcherFst from a file; return NULL on error
- // Empty filename reads from standard input
- static MatcherFst<F, M, N, I> *Read(const string &filename) {
- Impl *impl = ImplToExpandedFst<Impl>::Read(filename);
- return impl ? new MatcherFst<F, M, N, I>(impl) : 0;
- }
-
- virtual bool Write(ostream &strm, const FstWriteOptions &opts) const {
- return GetImpl()->Write(strm, opts);
- }
-
- virtual bool Write(const string &filename) const {
- return Fst<Arc>::WriteFile(filename);
- }
-
- virtual void InitStateIterator(StateIteratorData<Arc> *data) const {
- return GetImpl()->InitStateIterator(data);
- }
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<Arc> *data) const {
- return GetImpl()->InitArcIterator(s, data);
- }
-
- virtual M *InitMatcher(MatchType match_type) const {
- return new M(GetFst(), match_type, GetData(match_type));
- }
-
- // Allows access to MatcherFst components.
- Impl *GetImpl() const {
- return ImplToFst<Impl, ExpandedFst<Arc> >::GetImpl();
- }
-
- F& GetFst() const { return GetImpl()->GetFst(); }
-
- typename M::MatcherData *GetData(MatchType match_type) const {
- D *data = GetImpl()->GetAddOn();
- return match_type == MATCH_INPUT ? data->First() : data->Second();
- }
-
- private:
- static Impl *CreateImpl(const F &fst, const string &name) {
- M imatcher(fst, MATCH_INPUT);
- M omatcher(fst, MATCH_OUTPUT);
- D *data = new D(imatcher.GetData(), omatcher.GetData());
- Impl *impl = new Impl(fst, name);
- impl->SetAddOn(data);
- I init(&impl);
- data->DecrRefCount();
- return impl;
- }
-
- static Impl *CreateImpl(const Fst<Arc> &fst, const string &name) {
- F ffst(fst);
- return CreateImpl(ffst, name);
- }
-
- explicit MatcherFst(Impl *impl) : ImplToExpandedFst<Impl>(impl) {}
-
- // Makes visible to friends.
- void SetImpl(Impl *impl, bool own_impl = true) {
- ImplToFst< Impl, ExpandedFst<Arc> >::SetImpl(impl, own_impl);
- }
-
- void operator=(const MatcherFst<F, M, N, I> &fst); // disallow
-};
-
-
-// Specialization fo MatcherFst.
-template <class F, class M, const char* N, class I>
-class StateIterator< MatcherFst<F, M, N, I> > : public StateIterator<F> {
- public:
- explicit StateIterator(const MatcherFst<F, M, N, I> &fst) :
- StateIterator<F>(fst.GetImpl()->GetFst()) {}
-};
-
-
-// Specialization for MatcherFst.
-template <class F, class M, const char* N, class I>
-class ArcIterator< MatcherFst<F, M, N, I> > : public ArcIterator<F> {
- public:
- ArcIterator(const MatcherFst<F, M, N, I> &fst, typename F::Arc::StateId s)
- : ArcIterator<F>(fst.GetImpl()->GetFst(), s) {}
-};
-
-
-// Specialization for MatcherFst
-template <class F, class M, const char* N, class I>
-class Matcher< MatcherFst<F, M, N, I> > {
- public:
- typedef MatcherFst<F, M, N, I> FST;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
-
- Matcher(const FST &fst, MatchType match_type) {
- matcher_ = fst.InitMatcher(match_type);
- }
-
- Matcher(const Matcher<FST> &matcher) {
- matcher_ = matcher.matcher_->Copy();
- }
-
- ~Matcher() { delete matcher_; }
-
- Matcher<FST> *Copy() const {
- return new Matcher<FST>(*this);
- }
-
- MatchType Type(bool test) const { return matcher_->Type(test); }
- void SetState(StateId s) { matcher_->SetState(s); }
- bool Find(Label label) { return matcher_->Find(label); }
- bool Done() const { return matcher_->Done(); }
- const Arc& Value() const { return matcher_->Value(); }
- void Next() { matcher_->Next(); }
- uint64 Properties(uint64 props) const { return matcher_->Properties(props); }
- uint32 Flags() const { return matcher_->Flags(); }
-
- private:
- M *matcher_;
-
- void operator=(const Matcher<Arc> &); // disallow
-};
-
-
-// Specialization for MatcherFst
-template <class F, class M, const char* N, class I>
-class LookAheadMatcher< MatcherFst<F, M, N, I> > {
- public:
- typedef MatcherFst<F, M, N, I> FST;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- LookAheadMatcher(const FST &fst, MatchType match_type) {
- matcher_ = fst.InitMatcher(match_type);
- }
-
- LookAheadMatcher(const LookAheadMatcher<FST> &matcher, bool safe = false) {
- matcher_ = matcher.matcher_->Copy(safe);
- }
-
- ~LookAheadMatcher() { delete matcher_; }
-
- // General matcher methods
- LookAheadMatcher<FST> *Copy(bool safe = false) const {
- return new LookAheadMatcher<FST>(*this, safe);
- }
-
- MatchType Type(bool test) const { return matcher_->Type(test); }
- void SetState(StateId s) { matcher_->SetState(s); }
- bool Find(Label label) { return matcher_->Find(label); }
- bool Done() const { return matcher_->Done(); }
- const Arc& Value() const { return matcher_->Value(); }
- void Next() { matcher_->Next(); }
- const FST &GetFst() const { return matcher_->GetFst(); }
- uint64 Properties(uint64 props) const { return matcher_->Properties(props); }
- uint32 Flags() const { return matcher_->Flags(); }
-
- // Look-ahead methods
- bool LookAheadLabel(Label label) const {
- return matcher_->LookAheadLabel(label);
- }
-
- bool LookAheadFst(const Fst<Arc> &fst, StateId s) {
- return matcher_->LookAheadFst(fst, s);
- }
-
- Weight LookAheadWeight() const { return matcher_->LookAheadWeight(); }
-
- bool LookAheadPrefix(Arc *arc) const {
- return matcher_->LookAheadPrefix(arc);
- }
-
- void InitLookAheadFst(const Fst<Arc>& fst, bool copy = false) {
- matcher_->InitLookAheadFst(fst, copy);
- }
-
- private:
- M *matcher_;
-
- void operator=(const LookAheadMatcher<FST> &); // disallow
-};
-
-//
-// Useful aliases when using StdArc and LogArc.
-//
-
-// Arc look-ahead matchers
-extern const char arc_lookahead_fst_type[];
-
-typedef MatcherFst<ConstFst<StdArc>,
- ArcLookAheadMatcher<SortedMatcher<ConstFst<StdArc> > >,
- arc_lookahead_fst_type> StdArcLookAheadFst;
-
-typedef MatcherFst<ConstFst<LogArc>,
- ArcLookAheadMatcher<SortedMatcher<ConstFst<LogArc> > >,
- arc_lookahead_fst_type> LogArcLookAheadFst;
-
-
-// Label look-ahead matchers
-extern const char ilabel_lookahead_fst_type[];
-extern const char olabel_lookahead_fst_type[];
-
-static const uint32 ilabel_lookahead_flags = kInputLookAheadMatcher |
- kLookAheadWeight | kLookAheadPrefix |
- kLookAheadEpsilons | kLookAheadNonEpsilonPrefix;
-static const uint32 olabel_lookahead_flags = kOutputLookAheadMatcher |
- kLookAheadWeight | kLookAheadPrefix |
- kLookAheadEpsilons | kLookAheadNonEpsilonPrefix;
-
-typedef MatcherFst<ConstFst<StdArc>,
- LabelLookAheadMatcher<SortedMatcher<ConstFst<StdArc> >,
- ilabel_lookahead_flags,
- FastLogAccumulator<StdArc> >,
- ilabel_lookahead_fst_type,
- LabelLookAheadRelabeler<StdArc> > StdILabelLookAheadFst;
-
-typedef MatcherFst<ConstFst<LogArc>,
- LabelLookAheadMatcher<SortedMatcher<ConstFst<LogArc> >,
- ilabel_lookahead_flags,
- FastLogAccumulator<LogArc> >,
- ilabel_lookahead_fst_type,
- LabelLookAheadRelabeler<LogArc> > LogILabelLookAheadFst;
-
-typedef MatcherFst<ConstFst<StdArc>,
- LabelLookAheadMatcher<SortedMatcher<ConstFst<StdArc> >,
- olabel_lookahead_flags,
- FastLogAccumulator<StdArc> >,
- olabel_lookahead_fst_type,
- LabelLookAheadRelabeler<StdArc> > StdOLabelLookAheadFst;
-
-typedef MatcherFst<ConstFst<LogArc>,
- LabelLookAheadMatcher<SortedMatcher<ConstFst<LogArc> >,
- olabel_lookahead_flags,
- FastLogAccumulator<LogArc> >,
- olabel_lookahead_fst_type,
- LabelLookAheadRelabeler<LogArc> > LogOLabelLookAheadFst;
-
-} // namespace fst
-
-#endif // FST_LIB_MATCHER_FST_FST_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/matcher.h b/kaldi_io/src/tools/openfst/include/fst/matcher.h
deleted file mode 100644
index 89ed9be..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/matcher.h
+++ /dev/null
@@ -1,1205 +0,0 @@
-// matcher.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Classes to allow matching labels leaving FST states.
-
-#ifndef FST_LIB_MATCHER_H__
-#define FST_LIB_MATCHER_H__
-
-#include <algorithm>
-#include <set>
-
-#include <fst/mutable-fst.h> // for all internal FST accessors
-
-
-namespace fst {
-
-// MATCHERS - these can find and iterate through requested labels at
-// FST states. In the simplest form, these are just some associative
-// map or search keyed on labels. More generally, they may
-// implement matching special labels that represent sets of labels
-// such as 'sigma' (all), 'rho' (rest), or 'phi' (fail).
-// The Matcher interface is:
-//
-// template <class F>
-// class Matcher {
-// public:
-// typedef F FST;
-// typedef F::Arc Arc;
-// typedef typename Arc::StateId StateId;
-// typedef typename Arc::Label Label;
-// typedef typename Arc::Weight Weight;
-//
-// // Required constructors.
-// Matcher(const F &fst, MatchType type);
-// // If safe=true, the copy is thread-safe. See Fst<>::Copy()
-// // for further doc.
-// Matcher(const Matcher &matcher, bool safe = false);
-//
-// // If safe=true, the copy is thread-safe. See Fst<>::Copy()
-// // for further doc.
-// Matcher<F> *Copy(bool safe = false) const;
-//
-// // Returns the match type that can be provided (depending on
-// // compatibility of the input FST). It is either
-// // the requested match type, MATCH_NONE, or MATCH_UNKNOWN.
-// // If 'test' is false, a constant time test is performed, but
-// // MATCH_UNKNOWN may be returned. If 'test' is true,
-// // a definite answer is returned, but may involve more costly
-// // computation (e.g., visiting the Fst).
-// MatchType Type(bool test) const;
-// // Specifies the current state.
-// void SetState(StateId s);
-//
-// // This finds matches to a label at the current state.
-// // Returns true if a match found. kNoLabel matches any
-// // 'non-consuming' transitions, e.g., epsilon transitions,
-// // which do not require a matching symbol.
-// bool Find(Label label);
-// // These iterate through any matches found:
-// bool Done() const; // No more matches.
-// const A& Value() const; // Current arc (when !Done)
-// void Next(); // Advance to next arc (when !Done)
-// // Initially and after SetState() the iterator methods
-// // have undefined behavior until Find() is called.
-//
-// // Return matcher FST.
-// const F& GetFst() const;
-// // This specifies the known Fst properties as viewed from this
-// // matcher. It takes as argument the input Fst's known properties.
-// uint64 Properties(uint64 props) const;
-// };
-
-//
-// MATCHER FLAGS (see also kLookAheadFlags in lookahead-matcher.h)
-//
-// Matcher prefers being used as the matching side in composition.
-const uint32 kPreferMatch = 0x00000001;
-
-// Matcher needs to be used as the matching side in composition.
-const uint32 kRequireMatch = 0x00000002;
-
-// Flags used for basic matchers (see also lookahead.h).
-const uint32 kMatcherFlags = kPreferMatch | kRequireMatch;
-
-// Matcher interface, templated on the Arc definition; used
-// for matcher specializations that are returned by the
-// InitMatcher Fst method.
-template <class A>
-class MatcherBase {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
-
- virtual ~MatcherBase() {}
-
- virtual MatcherBase<A> *Copy(bool safe = false) const = 0;
- virtual MatchType Type(bool test) const = 0;
- void SetState(StateId s) { SetState_(s); }
- bool Find(Label label) { return Find_(label); }
- bool Done() const { return Done_(); }
- const A& Value() const { return Value_(); }
- void Next() { Next_(); }
- virtual const Fst<A> &GetFst() const = 0;
- virtual uint64 Properties(uint64 props) const = 0;
- virtual uint32 Flags() const { return 0; }
- private:
- virtual void SetState_(StateId s) = 0;
- virtual bool Find_(Label label) = 0;
- virtual bool Done_() const = 0;
- virtual const A& Value_() const = 0;
- virtual void Next_() = 0;
-};
-
-
-// A matcher that expects sorted labels on the side to be matched.
-// If match_type == MATCH_INPUT, epsilons match the implicit self loop
-// Arc(kNoLabel, 0, Weight::One(), current_state) as well as any
-// actual epsilon transitions. If match_type == MATCH_OUTPUT, then
-// Arc(0, kNoLabel, Weight::One(), current_state) is instead matched.
-template <class F>
-class SortedMatcher : public MatcherBase<typename F::Arc> {
- public:
- typedef F FST;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- // Labels >= binary_label will be searched for by binary search,
- // o.w. linear search is used.
- SortedMatcher(const F &fst, MatchType match_type,
- Label binary_label = 1)
- : fst_(fst.Copy()),
- s_(kNoStateId),
- aiter_(0),
- match_type_(match_type),
- binary_label_(binary_label),
- match_label_(kNoLabel),
- narcs_(0),
- loop_(kNoLabel, 0, Weight::One(), kNoStateId),
- error_(false) {
- switch(match_type_) {
- case MATCH_INPUT:
- case MATCH_NONE:
- break;
- case MATCH_OUTPUT:
- swap(loop_.ilabel, loop_.olabel);
- break;
- default:
- FSTERROR() << "SortedMatcher: bad match type";
- match_type_ = MATCH_NONE;
- error_ = true;
- }
- }
-
- SortedMatcher(const SortedMatcher<F> &matcher, bool safe = false)
- : fst_(matcher.fst_->Copy(safe)),
- s_(kNoStateId),
- aiter_(0),
- match_type_(matcher.match_type_),
- binary_label_(matcher.binary_label_),
- match_label_(kNoLabel),
- narcs_(0),
- loop_(matcher.loop_),
- error_(matcher.error_) {}
-
- virtual ~SortedMatcher() {
- if (aiter_)
- delete aiter_;
- delete fst_;
- }
-
- virtual SortedMatcher<F> *Copy(bool safe = false) const {
- return new SortedMatcher<F>(*this, safe);
- }
-
- virtual MatchType Type(bool test) const {
- if (match_type_ == MATCH_NONE)
- return match_type_;
-
- uint64 true_prop = match_type_ == MATCH_INPUT ?
- kILabelSorted : kOLabelSorted;
- uint64 false_prop = match_type_ == MATCH_INPUT ?
- kNotILabelSorted : kNotOLabelSorted;
- uint64 props = fst_->Properties(true_prop | false_prop, test);
-
- if (props & true_prop)
- return match_type_;
- else if (props & false_prop)
- return MATCH_NONE;
- else
- return MATCH_UNKNOWN;
- }
-
- void SetState(StateId s) {
- if (s_ == s)
- return;
- s_ = s;
- if (match_type_ == MATCH_NONE) {
- FSTERROR() << "SortedMatcher: bad match type";
- error_ = true;
- }
- if (aiter_)
- delete aiter_;
- aiter_ = new ArcIterator<F>(*fst_, s);
- aiter_->SetFlags(kArcNoCache, kArcNoCache);
- narcs_ = internal::NumArcs(*fst_, s);
- loop_.nextstate = s;
- }
-
- bool Find(Label match_label) {
- exact_match_ = true;
- if (error_) {
- current_loop_ = false;
- match_label_ = kNoLabel;
- return false;
- }
- current_loop_ = match_label == 0;
- match_label_ = match_label == kNoLabel ? 0 : match_label;
- if (Search()) {
- return true;
- } else {
- return current_loop_;
- }
- }
-
- // Positions matcher to the first position where inserting
- // match_label would maintain the sort order.
- void LowerBound(Label match_label) {
- exact_match_ = false;
- current_loop_ = false;
- if (error_) {
- match_label_ = kNoLabel;
- return;
- }
- match_label_ = match_label;
- Search();
- }
-
- // After Find(), returns false if no more exact matches.
- // After LowerBound(), returns false if no more arcs.
- bool Done() const {
- if (current_loop_)
- return false;
- if (aiter_->Done())
- return true;
- if (!exact_match_)
- return false;
- aiter_->SetFlags(
- match_type_ == MATCH_INPUT ? kArcILabelValue : kArcOLabelValue,
- kArcValueFlags);
- Label label = match_type_ == MATCH_INPUT ?
- aiter_->Value().ilabel : aiter_->Value().olabel;
- return label != match_label_;
- }
-
- const Arc& Value() const {
- if (current_loop_) {
- return loop_;
- }
- aiter_->SetFlags(kArcValueFlags, kArcValueFlags);
- return aiter_->Value();
- }
-
- void Next() {
- if (current_loop_)
- current_loop_ = false;
- else
- aiter_->Next();
- }
-
- virtual const F &GetFst() const { return *fst_; }
-
- virtual uint64 Properties(uint64 inprops) const {
- uint64 outprops = inprops;
- if (error_) outprops |= kError;
- return outprops;
- }
-
- size_t Position() const { return aiter_ ? aiter_->Position() : 0; }
-
- private:
- virtual void SetState_(StateId s) { SetState(s); }
- virtual bool Find_(Label label) { return Find(label); }
- virtual bool Done_() const { return Done(); }
- virtual const Arc& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
-
- bool Search();
-
- const F *fst_;
- StateId s_; // Current state
- ArcIterator<F> *aiter_; // Iterator for current state
- MatchType match_type_; // Type of match to perform
- Label binary_label_; // Least label for binary search
- Label match_label_; // Current label to be matched
- size_t narcs_; // Current state arc count
- Arc loop_; // For non-consuming symbols
- bool current_loop_; // Current arc is the implicit loop
- bool exact_match_; // Exact match or lower bound?
- bool error_; // Error encountered
-
- void operator=(const SortedMatcher<F> &); // Disallow
-};
-
-// Returns true iff match to match_label_. Positions arc iterator at
-// lower bound regardless.
-template <class F> inline
-bool SortedMatcher<F>::Search() {
- aiter_->SetFlags(
- match_type_ == MATCH_INPUT ? kArcILabelValue : kArcOLabelValue,
- kArcValueFlags);
- if (match_label_ >= binary_label_) {
- // Binary search for match.
- size_t low = 0;
- size_t high = narcs_;
- while (low < high) {
- size_t mid = (low + high) / 2;
- aiter_->Seek(mid);
- Label label = match_type_ == MATCH_INPUT ?
- aiter_->Value().ilabel : aiter_->Value().olabel;
- if (label > match_label_) {
- high = mid;
- } else if (label < match_label_) {
- low = mid + 1;
- } else {
- // find first matching label (when non-determinism)
- for (size_t i = mid; i > low; --i) {
- aiter_->Seek(i - 1);
- label = match_type_ == MATCH_INPUT ? aiter_->Value().ilabel :
- aiter_->Value().olabel;
- if (label != match_label_) {
- aiter_->Seek(i);
- return true;
- }
- }
- return true;
- }
- }
- aiter_->Seek(low);
- return false;
- } else {
- // Linear search for match.
- for (aiter_->Reset(); !aiter_->Done(); aiter_->Next()) {
- Label label = match_type_ == MATCH_INPUT ?
- aiter_->Value().ilabel : aiter_->Value().olabel;
- if (label == match_label_) {
- return true;
- }
- if (label > match_label_)
- break;
- }
- return false;
- }
-}
-
-
-// Specifies whether during matching we rewrite both the input and output sides.
-enum MatcherRewriteMode {
- MATCHER_REWRITE_AUTO = 0, // Rewrites both sides iff acceptor.
- MATCHER_REWRITE_ALWAYS,
- MATCHER_REWRITE_NEVER
-};
-
-
-// For any requested label that doesn't match at a state, this matcher
-// considers all transitions that match the label 'rho_label' (rho =
-// 'rest'). Each such rho transition found is returned with the
-// rho_label rewritten as the requested label (both sides if an
-// acceptor, or if 'rewrite_both' is true and both input and output
-// labels of the found transition are 'rho_label'). If 'rho_label' is
-// kNoLabel, this special matching is not done. RhoMatcher is
-// templated itself on a matcher, which is used to perform the
-// underlying matching. By default, the underlying matcher is
-// constructed by RhoMatcher. The user can instead pass in this
-// object; in that case, RhoMatcher takes its ownership.
-template <class M>
-class RhoMatcher : public MatcherBase<typename M::Arc> {
- public:
- typedef typename M::FST FST;
- typedef typename M::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- RhoMatcher(const FST &fst,
- MatchType match_type,
- Label rho_label = kNoLabel,
- MatcherRewriteMode rewrite_mode = MATCHER_REWRITE_AUTO,
- M *matcher = 0)
- : matcher_(matcher ? matcher : new M(fst, match_type)),
- match_type_(match_type),
- rho_label_(rho_label),
- error_(false) {
- if (match_type == MATCH_BOTH) {
- FSTERROR() << "RhoMatcher: bad match type";
- match_type_ = MATCH_NONE;
- error_ = true;
- }
- if (rho_label == 0) {
- FSTERROR() << "RhoMatcher: 0 cannot be used as rho_label";
- rho_label_ = kNoLabel;
- error_ = true;
- }
-
- if (rewrite_mode == MATCHER_REWRITE_AUTO)
- rewrite_both_ = fst.Properties(kAcceptor, true);
- else if (rewrite_mode == MATCHER_REWRITE_ALWAYS)
- rewrite_both_ = true;
- else
- rewrite_both_ = false;
- }
-
- RhoMatcher(const RhoMatcher<M> &matcher, bool safe = false)
- : matcher_(new M(*matcher.matcher_, safe)),
- match_type_(matcher.match_type_),
- rho_label_(matcher.rho_label_),
- rewrite_both_(matcher.rewrite_both_),
- error_(matcher.error_) {}
-
- virtual ~RhoMatcher() {
- delete matcher_;
- }
-
- virtual RhoMatcher<M> *Copy(bool safe = false) const {
- return new RhoMatcher<M>(*this, safe);
- }
-
- virtual MatchType Type(bool test) const { return matcher_->Type(test); }
-
- void SetState(StateId s) {
- matcher_->SetState(s);
- has_rho_ = rho_label_ != kNoLabel;
- }
-
- bool Find(Label match_label) {
- if (match_label == rho_label_ && rho_label_ != kNoLabel) {
- FSTERROR() << "RhoMatcher::Find: bad label (rho)";
- error_ = true;
- return false;
- }
- if (matcher_->Find(match_label)) {
- rho_match_ = kNoLabel;
- return true;
- } else if (has_rho_ && match_label != 0 && match_label != kNoLabel &&
- (has_rho_ = matcher_->Find(rho_label_))) {
- rho_match_ = match_label;
- return true;
- } else {
- return false;
- }
- }
-
- bool Done() const { return matcher_->Done(); }
-
- const Arc& Value() const {
- if (rho_match_ == kNoLabel) {
- return matcher_->Value();
- } else {
- rho_arc_ = matcher_->Value();
- if (rewrite_both_) {
- if (rho_arc_.ilabel == rho_label_)
- rho_arc_.ilabel = rho_match_;
- if (rho_arc_.olabel == rho_label_)
- rho_arc_.olabel = rho_match_;
- } else if (match_type_ == MATCH_INPUT) {
- rho_arc_.ilabel = rho_match_;
- } else {
- rho_arc_.olabel = rho_match_;
- }
- return rho_arc_;
- }
- }
-
- void Next() { matcher_->Next(); }
-
- virtual const FST &GetFst() const { return matcher_->GetFst(); }
-
- virtual uint64 Properties(uint64 props) const;
-
- virtual uint32 Flags() const {
- if (rho_label_ == kNoLabel || match_type_ == MATCH_NONE)
- return matcher_->Flags();
- return matcher_->Flags() | kRequireMatch;
- }
-
- private:
- virtual void SetState_(StateId s) { SetState(s); }
- virtual bool Find_(Label label) { return Find(label); }
- virtual bool Done_() const { return Done(); }
- virtual const Arc& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
-
- M *matcher_;
- MatchType match_type_; // Type of match requested
- Label rho_label_; // Label that represents the rho transition
- bool rewrite_both_; // Rewrite both sides when both are 'rho_label_'
- bool has_rho_; // Are there possibly rhos at the current state?
- Label rho_match_; // Current label that matches rho transition
- mutable Arc rho_arc_; // Arc to return when rho match
- bool error_; // Error encountered
-
- void operator=(const RhoMatcher<M> &); // Disallow
-};
-
-template <class M> inline
-uint64 RhoMatcher<M>::Properties(uint64 inprops) const {
- uint64 outprops = matcher_->Properties(inprops);
- if (error_) outprops |= kError;
-
- if (match_type_ == MATCH_NONE) {
- return outprops;
- } else if (match_type_ == MATCH_INPUT) {
- if (rewrite_both_) {
- return outprops & ~(kODeterministic | kNonODeterministic | kString |
- kILabelSorted | kNotILabelSorted |
- kOLabelSorted | kNotOLabelSorted);
- } else {
- return outprops & ~(kODeterministic | kAcceptor | kString |
- kILabelSorted | kNotILabelSorted);
- }
- } else if (match_type_ == MATCH_OUTPUT) {
- if (rewrite_both_) {
- return outprops & ~(kIDeterministic | kNonIDeterministic | kString |
- kILabelSorted | kNotILabelSorted |
- kOLabelSorted | kNotOLabelSorted);
- } else {
- return outprops & ~(kIDeterministic | kAcceptor | kString |
- kOLabelSorted | kNotOLabelSorted);
- }
- } else {
- // Shouldn't ever get here.
- FSTERROR() << "RhoMatcher:: bad match type: " << match_type_;
- return 0;
- }
-}
-
-
-// For any requested label, this matcher considers all transitions
-// that match the label 'sigma_label' (sigma = "any"), and this in
-// additions to transitions with the requested label. Each such sigma
-// transition found is returned with the sigma_label rewritten as the
-// requested label (both sides if an acceptor, or if 'rewrite_both' is
-// true and both input and output labels of the found transition are
-// 'sigma_label'). If 'sigma_label' is kNoLabel, this special
-// matching is not done. SigmaMatcher is templated itself on a
-// matcher, which is used to perform the underlying matching. By
-// default, the underlying matcher is constructed by SigmaMatcher.
-// The user can instead pass in this object; in that case,
-// SigmaMatcher takes its ownership.
-template <class M>
-class SigmaMatcher : public MatcherBase<typename M::Arc> {
- public:
- typedef typename M::FST FST;
- typedef typename M::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- SigmaMatcher(const FST &fst,
- MatchType match_type,
- Label sigma_label = kNoLabel,
- MatcherRewriteMode rewrite_mode = MATCHER_REWRITE_AUTO,
- M *matcher = 0)
- : matcher_(matcher ? matcher : new M(fst, match_type)),
- match_type_(match_type),
- sigma_label_(sigma_label),
- error_(false) {
- if (match_type == MATCH_BOTH) {
- FSTERROR() << "SigmaMatcher: bad match type";
- match_type_ = MATCH_NONE;
- error_ = true;
- }
- if (sigma_label == 0) {
- FSTERROR() << "SigmaMatcher: 0 cannot be used as sigma_label";
- sigma_label_ = kNoLabel;
- error_ = true;
- }
-
- if (rewrite_mode == MATCHER_REWRITE_AUTO)
- rewrite_both_ = fst.Properties(kAcceptor, true);
- else if (rewrite_mode == MATCHER_REWRITE_ALWAYS)
- rewrite_both_ = true;
- else
- rewrite_both_ = false;
- }
-
- SigmaMatcher(const SigmaMatcher<M> &matcher, bool safe = false)
- : matcher_(new M(*matcher.matcher_, safe)),
- match_type_(matcher.match_type_),
- sigma_label_(matcher.sigma_label_),
- rewrite_both_(matcher.rewrite_both_),
- error_(matcher.error_) {}
-
- virtual ~SigmaMatcher() {
- delete matcher_;
- }
-
- virtual SigmaMatcher<M> *Copy(bool safe = false) const {
- return new SigmaMatcher<M>(*this, safe);
- }
-
- virtual MatchType Type(bool test) const { return matcher_->Type(test); }
-
- void SetState(StateId s) {
- matcher_->SetState(s);
- has_sigma_ =
- sigma_label_ != kNoLabel ? matcher_->Find(sigma_label_) : false;
- }
-
- bool Find(Label match_label) {
- match_label_ = match_label;
- if (match_label == sigma_label_ && sigma_label_ != kNoLabel) {
- FSTERROR() << "SigmaMatcher::Find: bad label (sigma)";
- error_ = true;
- return false;
- }
- if (matcher_->Find(match_label)) {
- sigma_match_ = kNoLabel;
- return true;
- } else if (has_sigma_ && match_label != 0 && match_label != kNoLabel &&
- matcher_->Find(sigma_label_)) {
- sigma_match_ = match_label;
- return true;
- } else {
- return false;
- }
- }
-
- bool Done() const {
- return matcher_->Done();
- }
-
- const Arc& Value() const {
- if (sigma_match_ == kNoLabel) {
- return matcher_->Value();
- } else {
- sigma_arc_ = matcher_->Value();
- if (rewrite_both_) {
- if (sigma_arc_.ilabel == sigma_label_)
- sigma_arc_.ilabel = sigma_match_;
- if (sigma_arc_.olabel == sigma_label_)
- sigma_arc_.olabel = sigma_match_;
- } else if (match_type_ == MATCH_INPUT) {
- sigma_arc_.ilabel = sigma_match_;
- } else {
- sigma_arc_.olabel = sigma_match_;
- }
- return sigma_arc_;
- }
- }
-
- void Next() {
- matcher_->Next();
- if (matcher_->Done() && has_sigma_ && (sigma_match_ == kNoLabel) &&
- (match_label_ > 0)) {
- matcher_->Find(sigma_label_);
- sigma_match_ = match_label_;
- }
- }
-
- virtual const FST &GetFst() const { return matcher_->GetFst(); }
-
- virtual uint64 Properties(uint64 props) const;
-
- virtual uint32 Flags() const {
- if (sigma_label_ == kNoLabel || match_type_ == MATCH_NONE)
- return matcher_->Flags();
- // kRequireMatch temporarily disabled until issues
- // in //speech/gaudi/annotation/util/denorm are resolved.
- // return matcher_->Flags() | kRequireMatch;
- return matcher_->Flags();
- }
-
-private:
- virtual void SetState_(StateId s) { SetState(s); }
- virtual bool Find_(Label label) { return Find(label); }
- virtual bool Done_() const { return Done(); }
- virtual const Arc& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
-
- M *matcher_;
- MatchType match_type_; // Type of match requested
- Label sigma_label_; // Label that represents the sigma transition
- bool rewrite_both_; // Rewrite both sides when both are 'sigma_label_'
- bool has_sigma_; // Are there sigmas at the current state?
- Label sigma_match_; // Current label that matches sigma transition
- mutable Arc sigma_arc_; // Arc to return when sigma match
- Label match_label_; // Label being matched
- bool error_; // Error encountered
-
- void operator=(const SigmaMatcher<M> &); // disallow
-};
-
-template <class M> inline
-uint64 SigmaMatcher<M>::Properties(uint64 inprops) const {
- uint64 outprops = matcher_->Properties(inprops);
- if (error_) outprops |= kError;
-
- if (match_type_ == MATCH_NONE) {
- return outprops;
- } else if (rewrite_both_) {
- return outprops & ~(kIDeterministic | kNonIDeterministic |
- kODeterministic | kNonODeterministic |
- kILabelSorted | kNotILabelSorted |
- kOLabelSorted | kNotOLabelSorted |
- kString);
- } else if (match_type_ == MATCH_INPUT) {
- return outprops & ~(kIDeterministic | kNonIDeterministic |
- kODeterministic | kNonODeterministic |
- kILabelSorted | kNotILabelSorted |
- kString | kAcceptor);
- } else if (match_type_ == MATCH_OUTPUT) {
- return outprops & ~(kIDeterministic | kNonIDeterministic |
- kODeterministic | kNonODeterministic |
- kOLabelSorted | kNotOLabelSorted |
- kString | kAcceptor);
- } else {
- // Shouldn't ever get here.
- FSTERROR() << "SigmaMatcher:: bad match type: " << match_type_;
- return 0;
- }
-}
-
-
-// For any requested label that doesn't match at a state, this matcher
-// considers the *unique* transition that matches the label 'phi_label'
-// (phi = 'fail'), and recursively looks for a match at its
-// destination. When 'phi_loop' is true, if no match is found but a
-// phi self-loop is found, then the phi transition found is returned
-// with the phi_label rewritten as the requested label (both sides if
-// an acceptor, or if 'rewrite_both' is true and both input and output
-// labels of the found transition are 'phi_label'). If 'phi_label' is
-// kNoLabel, this special matching is not done. PhiMatcher is
-// templated itself on a matcher, which is used to perform the
-// underlying matching. By default, the underlying matcher is
-// constructed by PhiMatcher. The user can instead pass in this
-// object; in that case, PhiMatcher takes its ownership.
-// Warning: phi non-determinism not supported (for simplicity).
-template <class M>
-class PhiMatcher : public MatcherBase<typename M::Arc> {
- public:
- typedef typename M::FST FST;
- typedef typename M::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- PhiMatcher(const FST &fst,
- MatchType match_type,
- Label phi_label = kNoLabel,
- bool phi_loop = true,
- MatcherRewriteMode rewrite_mode = MATCHER_REWRITE_AUTO,
- M *matcher = 0)
- : matcher_(matcher ? matcher : new M(fst, match_type)),
- match_type_(match_type),
- phi_label_(phi_label),
- state_(kNoStateId),
- phi_loop_(phi_loop),
- error_(false) {
- if (match_type == MATCH_BOTH) {
- FSTERROR() << "PhiMatcher: bad match type";
- match_type_ = MATCH_NONE;
- error_ = true;
- }
-
- if (rewrite_mode == MATCHER_REWRITE_AUTO)
- rewrite_both_ = fst.Properties(kAcceptor, true);
- else if (rewrite_mode == MATCHER_REWRITE_ALWAYS)
- rewrite_both_ = true;
- else
- rewrite_both_ = false;
- }
-
- PhiMatcher(const PhiMatcher<M> &matcher, bool safe = false)
- : matcher_(new M(*matcher.matcher_, safe)),
- match_type_(matcher.match_type_),
- phi_label_(matcher.phi_label_),
- rewrite_both_(matcher.rewrite_both_),
- state_(kNoStateId),
- phi_loop_(matcher.phi_loop_),
- error_(matcher.error_) {}
-
- virtual ~PhiMatcher() {
- delete matcher_;
- }
-
- virtual PhiMatcher<M> *Copy(bool safe = false) const {
- return new PhiMatcher<M>(*this, safe);
- }
-
- virtual MatchType Type(bool test) const { return matcher_->Type(test); }
-
- void SetState(StateId s) {
- matcher_->SetState(s);
- state_ = s;
- has_phi_ = phi_label_ != kNoLabel;
- }
-
- bool Find(Label match_label);
-
- bool Done() const { return matcher_->Done(); }
-
- const Arc& Value() const {
- if ((phi_match_ == kNoLabel) && (phi_weight_ == Weight::One())) {
- return matcher_->Value();
- } else if (phi_match_ == 0) { // Virtual epsilon loop
- phi_arc_ = Arc(kNoLabel, 0, Weight::One(), state_);
- if (match_type_ == MATCH_OUTPUT)
- swap(phi_arc_.ilabel, phi_arc_.olabel);
- return phi_arc_;
- } else {
- phi_arc_ = matcher_->Value();
- phi_arc_.weight = Times(phi_weight_, phi_arc_.weight);
- if (phi_match_ != kNoLabel) { // Phi loop match
- if (rewrite_both_) {
- if (phi_arc_.ilabel == phi_label_)
- phi_arc_.ilabel = phi_match_;
- if (phi_arc_.olabel == phi_label_)
- phi_arc_.olabel = phi_match_;
- } else if (match_type_ == MATCH_INPUT) {
- phi_arc_.ilabel = phi_match_;
- } else {
- phi_arc_.olabel = phi_match_;
- }
- }
- return phi_arc_;
- }
- }
-
- void Next() { matcher_->Next(); }
-
- virtual const FST &GetFst() const { return matcher_->GetFst(); }
-
- virtual uint64 Properties(uint64 props) const;
-
- virtual uint32 Flags() const {
- if (phi_label_ == kNoLabel || match_type_ == MATCH_NONE)
- return matcher_->Flags();
- return matcher_->Flags() | kRequireMatch;
- }
-
-private:
- virtual void SetState_(StateId s) { SetState(s); }
- virtual bool Find_(Label label) { return Find(label); }
- virtual bool Done_() const { return Done(); }
- virtual const Arc& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
-
- M *matcher_;
- MatchType match_type_; // Type of match requested
- Label phi_label_; // Label that represents the phi transition
- bool rewrite_both_; // Rewrite both sides when both are 'phi_label_'
- bool has_phi_; // Are there possibly phis at the current state?
- Label phi_match_; // Current label that matches phi loop
- mutable Arc phi_arc_; // Arc to return
- StateId state_; // State where looking for matches
- Weight phi_weight_; // Product of the weights of phi transitions taken
- bool phi_loop_; // When true, phi self-loop are allowed and treated
- // as rho (required for Aho-Corasick)
- bool error_; // Error encountered
-
- void operator=(const PhiMatcher<M> &); // disallow
-};
-
-template <class M> inline
-bool PhiMatcher<M>::Find(Label match_label) {
- if (match_label == phi_label_ && phi_label_ != kNoLabel && phi_label_ != 0) {
- FSTERROR() << "PhiMatcher::Find: bad label (phi): " << phi_label_;
- error_ = true;
- return false;
- }
- matcher_->SetState(state_);
- phi_match_ = kNoLabel;
- phi_weight_ = Weight::One();
- if (phi_label_ == 0) { // When 'phi_label_ == 0',
- if (match_label == kNoLabel) // there are no more true epsilon arcs,
- return false;
- if (match_label == 0) { // but virtual eps loop need to be returned
- if (!matcher_->Find(kNoLabel)) {
- return matcher_->Find(0);
- } else {
- phi_match_ = 0;
- return true;
- }
- }
- }
- if (!has_phi_ || match_label == 0 || match_label == kNoLabel)
- return matcher_->Find(match_label);
- StateId state = state_;
- while (!matcher_->Find(match_label)) {
- // Look for phi transition (if phi_label_ == 0, we need to look
- // for -1 to avoid getting the virtual self-loop)
- if (!matcher_->Find(phi_label_ == 0 ? -1 : phi_label_))
- return false;
- if (phi_loop_ && matcher_->Value().nextstate == state) {
- phi_match_ = match_label;
- return true;
- }
- phi_weight_ = Times(phi_weight_, matcher_->Value().weight);
- state = matcher_->Value().nextstate;
- matcher_->Next();
- if (!matcher_->Done()) {
- FSTERROR() << "PhiMatcher: phi non-determinism not supported";
- error_ = true;
- }
- matcher_->SetState(state);
- }
- return true;
-}
-
-template <class M> inline
-uint64 PhiMatcher<M>::Properties(uint64 inprops) const {
- uint64 outprops = matcher_->Properties(inprops);
- if (error_) outprops |= kError;
-
- if (match_type_ == MATCH_NONE) {
- return outprops;
- } else if (match_type_ == MATCH_INPUT) {
- if (phi_label_ == 0) {
- outprops &= ~kEpsilons | ~kIEpsilons | ~kOEpsilons;
- outprops |= kNoEpsilons | kNoIEpsilons;
- }
- if (rewrite_both_) {
- return outprops & ~(kODeterministic | kNonODeterministic | kString |
- kILabelSorted | kNotILabelSorted |
- kOLabelSorted | kNotOLabelSorted);
- } else {
- return outprops & ~(kODeterministic | kAcceptor | kString |
- kILabelSorted | kNotILabelSorted |
- kOLabelSorted | kNotOLabelSorted);
- }
- } else if (match_type_ == MATCH_OUTPUT) {
- if (phi_label_ == 0) {
- outprops &= ~kEpsilons | ~kIEpsilons | ~kOEpsilons;
- outprops |= kNoEpsilons | kNoOEpsilons;
- }
- if (rewrite_both_) {
- return outprops & ~(kIDeterministic | kNonIDeterministic | kString |
- kILabelSorted | kNotILabelSorted |
- kOLabelSorted | kNotOLabelSorted);
- } else {
- return outprops & ~(kIDeterministic | kAcceptor | kString |
- kILabelSorted | kNotILabelSorted |
- kOLabelSorted | kNotOLabelSorted);
- }
- } else {
- // Shouldn't ever get here.
- FSTERROR() << "PhiMatcher:: bad match type: " << match_type_;
- return 0;
- }
-}
-
-
-//
-// MULTI-EPS MATCHER FLAGS
-//
-
-// Return multi-epsilon arcs for Find(kNoLabel).
-const uint32 kMultiEpsList = 0x00000001;
-
-// Return a kNolabel loop for Find(multi_eps).
-const uint32 kMultiEpsLoop = 0x00000002;
-
-// MultiEpsMatcher: allows treating multiple non-0 labels as
-// non-consuming labels in addition to 0 that is always
-// non-consuming. Precise behavior controlled by 'flags' argument. By
-// default, the underlying matcher is constructed by
-// MultiEpsMatcher. The user can instead pass in this object; in that
-// case, MultiEpsMatcher takes its ownership iff 'own_matcher' is
-// true.
-template <class M>
-class MultiEpsMatcher {
- public:
- typedef typename M::FST FST;
- typedef typename M::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- MultiEpsMatcher(const FST &fst, MatchType match_type,
- uint32 flags = (kMultiEpsLoop | kMultiEpsList),
- M *matcher = 0, bool own_matcher = true)
- : matcher_(matcher ? matcher : new M(fst, match_type)),
- flags_(flags),
- own_matcher_(matcher ? own_matcher : true) {
- if (match_type == MATCH_INPUT) {
- loop_.ilabel = kNoLabel;
- loop_.olabel = 0;
- } else {
- loop_.ilabel = 0;
- loop_.olabel = kNoLabel;
- }
- loop_.weight = Weight::One();
- loop_.nextstate = kNoStateId;
- }
-
- MultiEpsMatcher(const MultiEpsMatcher<M> &matcher, bool safe = false)
- : matcher_(new M(*matcher.matcher_, safe)),
- flags_(matcher.flags_),
- own_matcher_(true),
- multi_eps_labels_(matcher.multi_eps_labels_),
- loop_(matcher.loop_) {
- loop_.nextstate = kNoStateId;
- }
-
- ~MultiEpsMatcher() {
- if (own_matcher_)
- delete matcher_;
- }
-
- MultiEpsMatcher<M> *Copy(bool safe = false) const {
- return new MultiEpsMatcher<M>(*this, safe);
- }
-
- MatchType Type(bool test) const { return matcher_->Type(test); }
-
- void SetState(StateId s) {
- matcher_->SetState(s);
- loop_.nextstate = s;
- }
-
- bool Find(Label match_label);
-
- bool Done() const {
- return done_;
- }
-
- const Arc& Value() const {
- return current_loop_ ? loop_ : matcher_->Value();
- }
-
- void Next() {
- if (!current_loop_) {
- matcher_->Next();
- done_ = matcher_->Done();
- if (done_ && multi_eps_iter_ != multi_eps_labels_.End()) {
- ++multi_eps_iter_;
- while ((multi_eps_iter_ != multi_eps_labels_.End()) &&
- !matcher_->Find(*multi_eps_iter_))
- ++multi_eps_iter_;
- if (multi_eps_iter_ != multi_eps_labels_.End())
- done_ = false;
- else
- done_ = !matcher_->Find(kNoLabel);
-
- }
- } else {
- done_ = true;
- }
- }
-
- const FST &GetFst() const { return matcher_->GetFst(); }
-
- uint64 Properties(uint64 props) const { return matcher_->Properties(props); }
-
- uint32 Flags() const { return matcher_->Flags(); }
-
- void AddMultiEpsLabel(Label label) {
- if (label == 0) {
- FSTERROR() << "MultiEpsMatcher: Bad multi-eps label: 0";
- } else {
- multi_eps_labels_.Insert(label);
- }
- }
-
- void RemoveMultiEpsLabel(Label label) {
- if (label == 0) {
- FSTERROR() << "MultiEpsMatcher: Bad multi-eps label: 0";
- } else {
- multi_eps_labels_.Erase(label);
- }
- }
-
- void ClearMultiEpsLabels() {
- multi_eps_labels_.Clear();
- }
-
-private:
- M *matcher_;
- uint32 flags_;
- bool own_matcher_; // Does this class delete the matcher?
-
- // Multi-eps label set
- CompactSet<Label, kNoLabel> multi_eps_labels_;
- typename CompactSet<Label, kNoLabel>::const_iterator multi_eps_iter_;
-
- bool current_loop_; // Current arc is the implicit loop
- mutable Arc loop_; // For non-consuming symbols
- bool done_; // Matching done
-
- void operator=(const MultiEpsMatcher<M> &); // Disallow
-};
-
-template <class M> inline
-bool MultiEpsMatcher<M>::Find(Label match_label) {
- multi_eps_iter_ = multi_eps_labels_.End();
- current_loop_ = false;
- bool ret;
- if (match_label == 0) {
- ret = matcher_->Find(0);
- } else if (match_label == kNoLabel) {
- if (flags_ & kMultiEpsList) {
- // return all non-consuming arcs (incl. epsilon)
- multi_eps_iter_ = multi_eps_labels_.Begin();
- while ((multi_eps_iter_ != multi_eps_labels_.End()) &&
- !matcher_->Find(*multi_eps_iter_))
- ++multi_eps_iter_;
- if (multi_eps_iter_ != multi_eps_labels_.End())
- ret = true;
- else
- ret = matcher_->Find(kNoLabel);
- } else {
- // return all epsilon arcs
- ret = matcher_->Find(kNoLabel);
- }
- } else if ((flags_ & kMultiEpsLoop) &&
- multi_eps_labels_.Find(match_label) != multi_eps_labels_.End()) {
- // return 'implicit' loop
- current_loop_ = true;
- ret = true;
- } else {
- ret = matcher_->Find(match_label);
- }
- done_ = !ret;
- return ret;
-}
-
-
-// Generic matcher, templated on the FST definition
-// - a wrapper around pointer to specific one.
-// Here is a typical use: \code
-// Matcher<StdFst> matcher(fst, MATCH_INPUT);
-// matcher.SetState(state);
-// if (matcher.Find(label))
-// for (; !matcher.Done(); matcher.Next()) {
-// StdArc &arc = matcher.Value();
-// ...
-// } \endcode
-template <class F>
-class Matcher {
- public:
- typedef F FST;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- Matcher(const F &fst, MatchType match_type) {
- base_ = fst.InitMatcher(match_type);
- if (!base_)
- base_ = new SortedMatcher<F>(fst, match_type);
- }
-
- Matcher(const Matcher<F> &matcher, bool safe = false) {
- base_ = matcher.base_->Copy(safe);
- }
-
- // Takes ownership of the provided matcher
- Matcher(MatcherBase<Arc>* base_matcher) { base_ = base_matcher; }
-
- ~Matcher() { delete base_; }
-
- Matcher<F> *Copy(bool safe = false) const {
- return new Matcher<F>(*this, safe);
- }
-
- MatchType Type(bool test) const { return base_->Type(test); }
- void SetState(StateId s) { base_->SetState(s); }
- bool Find(Label label) { return base_->Find(label); }
- bool Done() const { return base_->Done(); }
- const Arc& Value() const { return base_->Value(); }
- void Next() { base_->Next(); }
- const F &GetFst() const { return static_cast<const F &>(base_->GetFst()); }
- uint64 Properties(uint64 props) const { return base_->Properties(props); }
- uint32 Flags() const { return base_->Flags() & kMatcherFlags; }
-
- private:
- MatcherBase<Arc> *base_;
-
- void operator=(const Matcher<Arc> &); // disallow
-};
-
-} // namespace fst
-
-
-
-#endif // FST_LIB_MATCHER_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/minimize.h b/kaldi_io/src/tools/openfst/include/fst/minimize.h
deleted file mode 100644
index 6e9dd3d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/minimize.h
+++ /dev/null
@@ -1,591 +0,0 @@
-// minimize.h
-// minimize.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Johan Schalkwyk)
-//
-// \file Functions and classes to minimize a finite state acceptor
-//
-
-#ifndef FST_LIB_MINIMIZE_H__
-#define FST_LIB_MINIMIZE_H__
-
-#include <cmath>
-
-#include <algorithm>
-#include <map>
-#include <queue>
-#include <vector>
-using std::vector;
-
-#include <fst/arcsort.h>
-#include <fst/connect.h>
-#include <fst/dfs-visit.h>
-#include <fst/encode.h>
-#include <fst/factor-weight.h>
-#include <fst/fst.h>
-#include <fst/mutable-fst.h>
-#include <fst/partition.h>
-#include <fst/push.h>
-#include <fst/queue.h>
-#include <fst/reverse.h>
-#include <fst/state-map.h>
-
-
-namespace fst {
-
-// comparator for creating partition based on sorting on
-// - states
-// - final weight
-// - out degree,
-// - (input label, output label, weight, destination_block)
-template <class A>
-class StateComparator {
- public:
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- static const uint32 kCompareFinal = 0x00000001;
- static const uint32 kCompareOutDegree = 0x00000002;
- static const uint32 kCompareArcs = 0x00000004;
- static const uint32 kCompareAll = 0x00000007;
-
- StateComparator(const Fst<A>& fst,
- const Partition<typename A::StateId>& partition,
- uint32 flags = kCompareAll)
- : fst_(fst), partition_(partition), flags_(flags) {}
-
- // compare state x with state y based on sort criteria
- bool operator()(const StateId x, const StateId y) const {
- // check for final state equivalence
- if (flags_ & kCompareFinal) {
- const size_t xfinal = fst_.Final(x).Hash();
- const size_t yfinal = fst_.Final(y).Hash();
- if (xfinal < yfinal) return true;
- else if (xfinal > yfinal) return false;
- }
-
- if (flags_ & kCompareOutDegree) {
- // check for # arcs
- if (fst_.NumArcs(x) < fst_.NumArcs(y)) return true;
- if (fst_.NumArcs(x) > fst_.NumArcs(y)) return false;
-
- if (flags_ & kCompareArcs) {
- // # arcs are equal, check for arc match
- for (ArcIterator<Fst<A> > aiter1(fst_, x), aiter2(fst_, y);
- !aiter1.Done() && !aiter2.Done(); aiter1.Next(), aiter2.Next()) {
- const A& arc1 = aiter1.Value();
- const A& arc2 = aiter2.Value();
- if (arc1.ilabel < arc2.ilabel) return true;
- if (arc1.ilabel > arc2.ilabel) return false;
-
- if (partition_.class_id(arc1.nextstate) <
- partition_.class_id(arc2.nextstate)) return true;
- if (partition_.class_id(arc1.nextstate) >
- partition_.class_id(arc2.nextstate)) return false;
- }
- }
- }
-
- return false;
- }
-
- private:
- const Fst<A>& fst_;
- const Partition<typename A::StateId>& partition_;
- const uint32 flags_;
-};
-
-template <class A> const uint32 StateComparator<A>::kCompareFinal;
-template <class A> const uint32 StateComparator<A>::kCompareOutDegree;
-template <class A> const uint32 StateComparator<A>::kCompareArcs;
-template <class A> const uint32 StateComparator<A>::kCompareAll;
-
-
-// Computes equivalence classes for cyclic Fsts. For cyclic minimization
-// we use the classic HopCroft minimization algorithm, which is of
-//
-// O(E)log(N),
-//
-// where E is the number of edges in the machine and N is number of states.
-//
-// The following paper describes the original algorithm
-// An N Log N algorithm for minimizing states in a finite automaton
-// by John HopCroft, January 1971
-//
-template <class A, class Queue>
-class CyclicMinimizer {
- public:
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::StateId ClassId;
- typedef typename A::Weight Weight;
- typedef ReverseArc<A> RevA;
-
- CyclicMinimizer(const ExpandedFst<A>& fst):
- // tell the Partition data-member to expect multiple repeated
- // calls to SplitOn with the same element if we are non-deterministic.
- P_(fst.Properties(kIDeterministic, true) == 0) {
- if(fst.Properties(kIDeterministic, true) == 0)
- CHECK(Weight::Properties() & kIdempotent); // this minimization
- // algorithm for non-deterministic FSTs can only work with idempotent
- // semirings.
- Initialize(fst);
- Compute(fst);
- }
-
- ~CyclicMinimizer() {
- delete aiter_queue_;
- }
-
- const Partition<StateId>& partition() const {
- return P_;
- }
-
- // helper classes
- private:
- typedef ArcIterator<Fst<RevA> > ArcIter;
- class ArcIterCompare {
- public:
- ArcIterCompare(const Partition<StateId>& partition)
- : partition_(partition) {}
-
- ArcIterCompare(const ArcIterCompare& comp)
- : partition_(comp.partition_) {}
-
- // compare two iterators based on there input labels, and proto state
- // (partition class Ids)
- bool operator()(const ArcIter* x, const ArcIter* y) const {
- const RevA& xarc = x->Value();
- const RevA& yarc = y->Value();
- return (xarc.ilabel > yarc.ilabel);
- }
-
- private:
- const Partition<StateId>& partition_;
- };
-
- typedef priority_queue<ArcIter*, vector<ArcIter*>, ArcIterCompare>
- ArcIterQueue;
-
- // helper methods
- private:
- // prepartitions the space into equivalence classes with
- // same final weight
- // same # arcs per state
- // same outgoing arcs
- void PrePartition(const Fst<A>& fst) {
- VLOG(5) << "PrePartition";
-
- typedef map<StateId, StateId, StateComparator<A> > EquivalenceMap;
- StateComparator<A> comp(fst, P_, StateComparator<A>::kCompareFinal);
- EquivalenceMap equiv_map(comp);
-
- StateIterator<Fst<A> > siter(fst);
- StateId class_id = P_.AddClass();
- P_.Add(siter.Value(), class_id);
- equiv_map[siter.Value()] = class_id;
- L_.Enqueue(class_id);
- for (siter.Next(); !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- typename EquivalenceMap::const_iterator it = equiv_map.find(s);
- if (it == equiv_map.end()) {
- class_id = P_.AddClass();
- P_.Add(s, class_id);
- equiv_map[s] = class_id;
- L_.Enqueue(class_id);
- } else {
- P_.Add(s, it->second);
- equiv_map[s] = it->second;
- }
- }
-
- VLOG(5) << "Initial Partition: " << P_.num_classes();
- }
-
- // - Create inverse transition Tr_ = rev(fst)
- // - loop over states in fst and split on final, creating two blocks
- // in the partition corresponding to final, non-final
- void Initialize(const Fst<A>& fst) {
- // construct Tr
- Reverse(fst, &Tr_);
- ILabelCompare<RevA> ilabel_comp;
- ArcSort(&Tr_, ilabel_comp);
-
- // initial split (F, S - F)
- P_.Initialize(Tr_.NumStates() - 1);
-
- // prep partition
- PrePartition(fst);
-
- // allocate arc iterator queue
- ArcIterCompare comp(P_);
- aiter_queue_ = new ArcIterQueue(comp);
- }
-
- // partition all classes with destination C
- void Split(ClassId C) {
- // Prep priority queue. Open arc iterator for each state in C, and
- // insert into priority queue.
- for (PartitionIterator<StateId> siter(P_, C);
- !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- if (Tr_.NumArcs(s + 1))
- aiter_queue_->push(new ArcIterator<Fst<RevA> >(Tr_, s + 1));
- }
-
- // Now pop arc iterator from queue, split entering equivalence class
- // re-insert updated iterator into queue.
- Label prev_label = -1;
- while (!aiter_queue_->empty()) {
- ArcIterator<Fst<RevA> >* aiter = aiter_queue_->top();
- aiter_queue_->pop();
- if (aiter->Done()) {
- delete aiter;
- continue;
- }
-
- const RevA& arc = aiter->Value();
- StateId from_state = aiter->Value().nextstate - 1;
- Label from_label = arc.ilabel;
- if (prev_label != from_label)
- P_.FinalizeSplit(&L_);
-
- StateId from_class = P_.class_id(from_state);
- if (P_.class_size(from_class) > 1)
- P_.SplitOn(from_state);
-
- prev_label = from_label;
- aiter->Next();
- if (aiter->Done())
- delete aiter;
- else
- aiter_queue_->push(aiter);
- }
- P_.FinalizeSplit(&L_);
- }
-
- // Main loop for hopcroft minimization.
- void Compute(const Fst<A>& fst) {
- // process active classes (FIFO, or FILO)
- while (!L_.Empty()) {
- ClassId C = L_.Head();
- L_.Dequeue();
-
- // split on C, all labels in C
- Split(C);
- }
- }
-
- // helper data
- private:
- // Partioning of states into equivalence classes
- Partition<StateId> P_;
-
- // L = set of active classes to be processed in partition P
- Queue L_;
-
- // reverse transition function
- VectorFst<RevA> Tr_;
-
- // Priority queue of open arc iterators for all states in the 'splitter'
- // equivalence class
- ArcIterQueue* aiter_queue_;
-};
-
-
-// Computes equivalence classes for acyclic Fsts. The implementation details
-// for this algorithms is documented by the following paper.
-//
-// Minimization of acyclic deterministic automata in linear time
-// Dominque Revuz
-//
-// Complexity O(|E|)
-//
-template <class A>
-class AcyclicMinimizer {
- public:
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::StateId ClassId;
- typedef typename A::Weight Weight;
-
- AcyclicMinimizer(const ExpandedFst<A>& fst):
- // tell the Partition data-member to expect multiple repeated
- // calls to SplitOn with the same element if we are non-deterministic.
- partition_(fst.Properties(kIDeterministic, true) == 0) {
- if(fst.Properties(kIDeterministic, true) == 0)
- CHECK(Weight::Properties() & kIdempotent); // minimization for
- // non-deterministic FSTs can only work with idempotent semirings.
- Initialize(fst);
- Refine(fst);
- }
-
- const Partition<StateId>& partition() {
- return partition_;
- }
-
- // helper classes
- private:
- // DFS visitor to compute the height (distance) to final state.
- class HeightVisitor {
- public:
- HeightVisitor() : max_height_(0), num_states_(0) { }
-
- // invoked before dfs visit
- void InitVisit(const Fst<A>& fst) {}
-
- // invoked when state is discovered (2nd arg is DFS tree root)
- bool InitState(StateId s, StateId root) {
- // extend height array and initialize height (distance) to 0
- for (size_t i = height_.size(); i <= s; ++i)
- height_.push_back(-1);
-
- if (s >= num_states_) num_states_ = s + 1;
- return true;
- }
-
- // invoked when tree arc examined (to undiscoverted state)
- bool TreeArc(StateId s, const A& arc) {
- return true;
- }
-
- // invoked when back arc examined (to unfinished state)
- bool BackArc(StateId s, const A& arc) {
- return true;
- }
-
- // invoked when forward or cross arc examined (to finished state)
- bool ForwardOrCrossArc(StateId s, const A& arc) {
- if (height_[arc.nextstate] + 1 > height_[s])
- height_[s] = height_[arc.nextstate] + 1;
- return true;
- }
-
- // invoked when state finished (parent is kNoStateId for tree root)
- void FinishState(StateId s, StateId parent, const A* parent_arc) {
- if (height_[s] == -1) height_[s] = 0;
- StateId h = height_[s] + 1;
- if (parent >= 0) {
- if (h > height_[parent]) height_[parent] = h;
- if (h > max_height_) max_height_ = h;
- }
- }
-
- // invoked after DFS visit
- void FinishVisit() {}
-
- size_t max_height() const { return max_height_; }
-
- const vector<StateId>& height() const { return height_; }
-
- const size_t num_states() const { return num_states_; }
-
- private:
- vector<StateId> height_;
- size_t max_height_;
- size_t num_states_;
- };
-
- // helper methods
- private:
- // cluster states according to height (distance to final state)
- void Initialize(const Fst<A>& fst) {
- // compute height (distance to final state)
- HeightVisitor hvisitor;
- DfsVisit(fst, &hvisitor);
-
- // create initial partition based on height
- partition_.Initialize(hvisitor.num_states());
- partition_.AllocateClasses(hvisitor.max_height() + 1);
- const vector<StateId>& hstates = hvisitor.height();
- for (size_t s = 0; s < hstates.size(); ++s)
- partition_.Add(s, hstates[s]);
- }
-
- // refine states based on arc sort (out degree, arc equivalence)
- void Refine(const Fst<A>& fst) {
- typedef map<StateId, StateId, StateComparator<A> > EquivalenceMap;
- StateComparator<A> comp(fst, partition_);
-
- // start with tail (height = 0)
- size_t height = partition_.num_classes();
- for (size_t h = 0; h < height; ++h) {
- EquivalenceMap equiv_classes(comp);
-
- // sort states within equivalence class
- PartitionIterator<StateId> siter(partition_, h);
- equiv_classes[siter.Value()] = h;
- for (siter.Next(); !siter.Done(); siter.Next()) {
- const StateId s = siter.Value();
- typename EquivalenceMap::const_iterator it = equiv_classes.find(s);
- if (it == equiv_classes.end())
- equiv_classes[s] = partition_.AddClass();
- else
- equiv_classes[s] = it->second;
- }
-
- // create refined partition
- for (siter.Reset(); !siter.Done();) {
- const StateId s = siter.Value();
- const StateId old_class = partition_.class_id(s);
- const StateId new_class = equiv_classes[s];
-
- // a move operation can invalidate the iterator, so
- // we first update the iterator to the next element
- // before we move the current element out of the list
- siter.Next();
- if (old_class != new_class)
- partition_.Move(s, new_class);
- }
- }
- }
-
- private:
- Partition<StateId> partition_;
-};
-
-
-// Given a partition and a mutable fst, merge states of Fst inplace
-// (i.e. destructively). Merging works by taking the first state in
-// a class of the partition to be the representative state for the class.
-// Each arc is then reconnected to this state. All states in the class
-// are merged by adding there arcs to the representative state.
-template <class A>
-void MergeStates(
- const Partition<typename A::StateId>& partition, MutableFst<A>* fst) {
- typedef typename A::StateId StateId;
-
- vector<StateId> state_map(partition.num_classes());
- for (size_t i = 0; i < partition.num_classes(); ++i) {
- PartitionIterator<StateId> siter(partition, i);
- state_map[i] = siter.Value(); // first state in partition;
- }
-
- // relabel destination states
- for (size_t c = 0; c < partition.num_classes(); ++c) {
- for (PartitionIterator<StateId> siter(partition, c);
- !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- for (MutableArcIterator<MutableFst<A> > aiter(fst, s);
- !aiter.Done(); aiter.Next()) {
- A arc = aiter.Value();
- arc.nextstate = state_map[partition.class_id(arc.nextstate)];
-
- if (s == state_map[c]) // first state just set destination
- aiter.SetValue(arc);
- else
- fst->AddArc(state_map[c], arc);
- }
- }
- }
- fst->SetStart(state_map[partition.class_id(fst->Start())]);
-
- Connect(fst);
-}
-
-template <class A>
-void AcceptorMinimize(MutableFst<A>* fst) {
- typedef typename A::StateId StateId;
- if (!(fst->Properties(kAcceptor | kUnweighted, true))) {
- FSTERROR() << "FST is not an unweighted acceptor";
- fst->SetProperties(kError, kError);
- return;
- }
-
- // connect fst before minimization, handles disconnected states
- Connect(fst);
- if (fst->NumStates() == 0) return;
-
- if (fst->Properties(kAcyclic, true)) {
- // Acyclic minimization (revuz)
- VLOG(2) << "Acyclic Minimization";
- ArcSort(fst, ILabelCompare<A>());
- AcyclicMinimizer<A> minimizer(*fst);
- MergeStates(minimizer.partition(), fst);
-
- } else {
- // Cyclic minimizaton (hopcroft)
- VLOG(2) << "Cyclic Minimization";
- CyclicMinimizer<A, LifoQueue<StateId> > minimizer(*fst);
- MergeStates(minimizer.partition(), fst);
- }
-
- // Merge in appropriate semiring
- ArcUniqueMapper<A> mapper(*fst);
- StateMap(fst, mapper);
-}
-
-
-// In place minimization of deterministic weighted automata and transducers.
-// For transducers, then the 'sfst' argument is not null, the algorithm
-// produces a compact factorization of the minimal transducer.
-//
-// In the acyclic case, we use an algorithm from Dominique Revuz that
-// is linear in the number of arcs (edges) in the machine.
-// Complexity = O(E)
-//
-// In the cyclic case, we use the classical hopcroft minimization.
-// Complexity = O(|E|log(|N|)
-//
-template <class A>
-void Minimize(MutableFst<A>* fst,
- MutableFst<A>* sfst = 0,
- float delta = kDelta) {
- uint64 props = fst->Properties(kAcceptor | kWeighted | kUnweighted, true);
-
- if (!(props & kAcceptor)) { // weighted transducer
- VectorFst< GallicArc<A, STRING_LEFT> > gfst;
- ArcMap(*fst, &gfst, ToGallicMapper<A, STRING_LEFT>());
- fst->DeleteStates();
- gfst.SetProperties(kAcceptor, kAcceptor);
- Push(&gfst, REWEIGHT_TO_INITIAL, delta);
- ArcMap(&gfst, QuantizeMapper< GallicArc<A, STRING_LEFT> >(delta));
- EncodeMapper< GallicArc<A, STRING_LEFT> >
- encoder(kEncodeLabels | kEncodeWeights, ENCODE);
- Encode(&gfst, &encoder);
- AcceptorMinimize(&gfst);
- Decode(&gfst, encoder);
-
- if (sfst == 0) {
- FactorWeightFst< GallicArc<A, STRING_LEFT>,
- GallicFactor<typename A::Label,
- typename A::Weight, STRING_LEFT> > fwfst(gfst);
- SymbolTable *osyms = fst->OutputSymbols() ?
- fst->OutputSymbols()->Copy() : 0;
- ArcMap(fwfst, fst, FromGallicMapper<A, STRING_LEFT>());
- fst->SetOutputSymbols(osyms);
- delete osyms;
- } else {
- sfst->SetOutputSymbols(fst->OutputSymbols());
- GallicToNewSymbolsMapper<A, STRING_LEFT> mapper(sfst);
- ArcMap(gfst, fst, &mapper);
- fst->SetOutputSymbols(sfst->InputSymbols());
- }
- } else if (props & kWeighted) { // weighted acceptor
- Push(fst, REWEIGHT_TO_INITIAL, delta);
- ArcMap(fst, QuantizeMapper<A>(delta));
- EncodeMapper<A> encoder(kEncodeLabels | kEncodeWeights, ENCODE);
- Encode(fst, &encoder);
- AcceptorMinimize(fst);
- Decode(fst, encoder);
- } else { // unweighted acceptor
- AcceptorMinimize(fst);
- }
-}
-
-} // namespace fst
-
-#endif // FST_LIB_MINIMIZE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/mutable-fst.h b/kaldi_io/src/tools/openfst/include/fst/mutable-fst.h
deleted file mode 100644
index 09eb237..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/mutable-fst.h
+++ /dev/null
@@ -1,378 +0,0 @@
-// mutable-fst.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Expanded FST augmented with mutators - interface class definition
-// and mutable arc iterator interface.
-//
-
-#ifndef FST_LIB_MUTABLE_FST_H__
-#define FST_LIB_MUTABLE_FST_H__
-
-#include <stddef.h>
-#include <sys/types.h>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/expanded-fst.h>
-
-
-namespace fst {
-
-template <class A> class MutableArcIteratorData;
-
-// An expanded FST plus mutators (use MutableArcIterator to modify arcs).
-template <class A>
-class MutableFst : public ExpandedFst<A> {
- public:
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- virtual MutableFst<A> &operator=(const Fst<A> &fst) = 0;
-
- MutableFst<A> &operator=(const MutableFst<A> &fst) {
- return operator=(static_cast<const Fst<A> &>(fst));
- }
-
- virtual void SetStart(StateId) = 0; // Set the initial state
- virtual void SetFinal(StateId, Weight) = 0; // Set a state's final weight
- virtual void SetProperties(uint64 props,
- uint64 mask) = 0; // Set property bits wrt mask
-
- virtual StateId AddState() = 0; // Add a state, return its ID
- virtual void AddArc(StateId, const A &arc) = 0; // Add an arc to state
-
- virtual void DeleteStates(const vector<StateId>&) = 0; // Delete some states
- virtual void DeleteStates() = 0; // Delete all states
- virtual void DeleteArcs(StateId, size_t n) = 0; // Delete some arcs at state
- virtual void DeleteArcs(StateId) = 0; // Delete all arcs at state
-
- virtual void ReserveStates(StateId n) { } // Optional, best effort only.
- virtual void ReserveArcs(StateId s, size_t n) { } // Optional, Best effort.
-
- // Return input label symbol table; return NULL if not specified
- virtual const SymbolTable* InputSymbols() const = 0;
- // Return output label symbol table; return NULL if not specified
- virtual const SymbolTable* OutputSymbols() const = 0;
-
- // Return input label symbol table; return NULL if not specified
- virtual SymbolTable* MutableInputSymbols() = 0;
- // Return output label symbol table; return NULL if not specified
- virtual SymbolTable* MutableOutputSymbols() = 0;
-
- // Set input label symbol table; NULL signifies not unspecified
- virtual void SetInputSymbols(const SymbolTable* isyms) = 0;
- // Set output label symbol table; NULL signifies not unspecified
- virtual void SetOutputSymbols(const SymbolTable* osyms) = 0;
-
- // Get a copy of this MutableFst. See Fst<>::Copy() for further doc.
- virtual MutableFst<A> *Copy(bool safe = false) const = 0;
-
- // Read an MutableFst from an input stream; return NULL on error.
- static MutableFst<A> *Read(istream &strm, const FstReadOptions &opts) {
- FstReadOptions ropts(opts);
- FstHeader hdr;
- if (ropts.header)
- hdr = *opts.header;
- else {
- if (!hdr.Read(strm, opts.source))
- return 0;
- ropts.header = &hdr;
- }
- if (!(hdr.Properties() & kMutable)) {
- LOG(ERROR) << "MutableFst::Read: Not an MutableFst: " << ropts.source;
- return 0;
- }
- FstRegister<A> *registr = FstRegister<A>::GetRegister();
- const typename FstRegister<A>::Reader reader =
- registr->GetReader(hdr.FstType());
- if (!reader) {
- LOG(ERROR) << "MutableFst::Read: Unknown FST type \"" << hdr.FstType()
- << "\" (arc type = \"" << A::Type()
- << "\"): " << ropts.source;
- return 0;
- }
- Fst<A> *fst = reader(strm, ropts);
- if (!fst) return 0;
- return static_cast<MutableFst<A> *>(fst);
- }
-
- // Read a MutableFst from a file; return NULL on error.
- // Empty filename reads from standard input. If 'convert' is true,
- // convert to a mutable FST of type 'convert_type' if file is
- // a non-mutable FST.
- static MutableFst<A> *Read(const string &filename, bool convert = false,
- const string &convert_type = "vector") {
- if (convert == false) {
- if (!filename.empty()) {
- ifstream strm(filename.c_str(), ifstream::in | ifstream::binary);
- if (!strm) {
- LOG(ERROR) << "MutableFst::Read: Can't open file: " << filename;
- return 0;
- }
- return Read(strm, FstReadOptions(filename));
- } else {
- return Read(cin, FstReadOptions("standard input"));
- }
- } else { // Converts to 'convert_type' if not mutable.
- Fst<A> *ifst = Fst<A>::Read(filename);
- if (!ifst) return 0;
- if (ifst->Properties(kMutable, false)) {
- return static_cast<MutableFst *>(ifst);
- } else {
- Fst<A> *ofst = Convert(*ifst, convert_type);
- delete ifst;
- if (!ofst) return 0;
- if (!ofst->Properties(kMutable, false))
- LOG(ERROR) << "MutableFst: bad convert type: " << convert_type;
- return static_cast<MutableFst *>(ofst);
- }
- }
- }
-
- // For generic mutuble arc iterator construction; not normally called
- // directly by users.
- virtual void InitMutableArcIterator(StateId s,
- MutableArcIteratorData<A> *) = 0;
-};
-
-// Mutable arc iterator interface, templated on the Arc definition; used
-// for mutable Arc iterator specializations that are returned by
-// the InitMutableArcIterator MutableFst method.
-template <class A>
-class MutableArcIteratorBase : public ArcIteratorBase<A> {
- public:
- typedef A Arc;
-
- void SetValue(const A &arc) { SetValue_(arc); } // Set current arc's content
-
- private:
- virtual void SetValue_(const A &arc) = 0;
-};
-
-template <class A>
-struct MutableArcIteratorData {
- MutableArcIteratorBase<A> *base; // Specific iterator
-};
-
-// Generic mutable arc iterator, templated on the FST definition
-// - a wrapper around pointer to specific one.
-// Here is a typical use: \code
-// for (MutableArcIterator<StdFst> aiter(&fst, s));
-// !aiter.Done();
-// aiter.Next()) {
-// StdArc arc = aiter.Value();
-// arc.ilabel = 7;
-// aiter.SetValue(arc);
-// ...
-// } \endcode
-// This version requires function calls.
-template <class F>
-class MutableArcIterator {
- public:
- typedef F FST;
- typedef typename F::Arc Arc;
- typedef typename Arc::StateId StateId;
-
- MutableArcIterator(F *fst, StateId s) {
- fst->InitMutableArcIterator(s, &data_);
- }
- ~MutableArcIterator() { delete data_.base; }
-
- bool Done() const { return data_.base->Done(); }
- const Arc& Value() const { return data_.base->Value(); }
- void Next() { data_.base->Next(); }
- size_t Position() const { return data_.base->Position(); }
- void Reset() { data_.base->Reset(); }
- void Seek(size_t a) { data_.base->Seek(a); }
- void SetValue(const Arc &a) { data_.base->SetValue(a); }
- uint32 Flags() const { return data_.base->Flags(); }
- void SetFlags(uint32 f, uint32 m) {
- return data_.base->SetFlags(f, m);
- }
-
- private:
- MutableArcIteratorData<Arc> data_;
- DISALLOW_COPY_AND_ASSIGN(MutableArcIterator);
-};
-
-
-namespace internal {
-
-// MutableFst<A> case - abstract methods.
-template <class A> inline
-typename A::Weight Final(const MutableFst<A> &fst, typename A::StateId s) {
- return fst.Final(s);
-}
-
-template <class A> inline
-ssize_t NumArcs(const MutableFst<A> &fst, typename A::StateId s) {
- return fst.NumArcs(s);
-}
-
-template <class A> inline
-ssize_t NumInputEpsilons(const MutableFst<A> &fst, typename A::StateId s) {
- return fst.NumInputEpsilons(s);
-}
-
-template <class A> inline
-ssize_t NumOutputEpsilons(const MutableFst<A> &fst, typename A::StateId s) {
- return fst.NumOutputEpsilons(s);
-}
-
-} // namespace internal
-
-
-// A useful alias when using StdArc.
-typedef MutableFst<StdArc> StdMutableFst;
-
-
-// This is a helper class template useful for attaching a MutableFst
-// interface to its implementation, handling reference counting and
-// copy-on-write.
-template <class I, class F = MutableFst<typename I::Arc> >
-class ImplToMutableFst : public ImplToExpandedFst<I, F> {
- public:
- typedef typename I::Arc Arc;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- using ImplToFst<I, F>::GetImpl;
- using ImplToFst<I, F>::SetImpl;
-
- virtual void SetStart(StateId s) {
- MutateCheck();
- GetImpl()->SetStart(s);
- }
-
- virtual void SetFinal(StateId s, Weight w) {
- MutateCheck();
- GetImpl()->SetFinal(s, w);
- }
-
- virtual void SetProperties(uint64 props, uint64 mask) {
- // Can skip mutate check if extrinsic properties don't change,
- // since it is then safe to update all (shallow) copies
- uint64 exprops = kExtrinsicProperties & mask;
- if (GetImpl()->Properties(exprops) != (props & exprops))
- MutateCheck();
- GetImpl()->SetProperties(props, mask);
- }
-
- virtual StateId AddState() {
- MutateCheck();
- return GetImpl()->AddState();
- }
-
- virtual void AddArc(StateId s, const Arc &arc) {
- MutateCheck();
- GetImpl()->AddArc(s, arc);
- }
-
- virtual void DeleteStates(const vector<StateId> &dstates) {
- MutateCheck();
- GetImpl()->DeleteStates(dstates);
- }
-
- virtual void DeleteStates() {
- MutateCheck();
- GetImpl()->DeleteStates();
- }
-
- virtual void DeleteArcs(StateId s, size_t n) {
- MutateCheck();
- GetImpl()->DeleteArcs(s, n);
- }
-
- virtual void DeleteArcs(StateId s) {
- MutateCheck();
- GetImpl()->DeleteArcs(s);
- }
-
- virtual void ReserveStates(StateId s) {
- MutateCheck();
- GetImpl()->ReserveStates(s);
- }
-
- virtual void ReserveArcs(StateId s, size_t n) {
- MutateCheck();
- GetImpl()->ReserveArcs(s, n);
- }
-
- virtual const SymbolTable* InputSymbols() const {
- return GetImpl()->InputSymbols();
- }
-
- virtual const SymbolTable* OutputSymbols() const {
- return GetImpl()->OutputSymbols();
- }
-
- virtual SymbolTable* MutableInputSymbols() {
- MutateCheck();
- return GetImpl()->InputSymbols();
- }
-
- virtual SymbolTable* MutableOutputSymbols() {
- MutateCheck();
- return GetImpl()->OutputSymbols();
- }
-
- virtual void SetInputSymbols(const SymbolTable* isyms) {
- MutateCheck();
- GetImpl()->SetInputSymbols(isyms);
- }
-
- virtual void SetOutputSymbols(const SymbolTable* osyms) {
- MutateCheck();
- GetImpl()->SetOutputSymbols(osyms);
- }
-
- protected:
- ImplToMutableFst() : ImplToExpandedFst<I, F>() {}
-
- ImplToMutableFst(I *impl) : ImplToExpandedFst<I, F>(impl) {}
-
-
- ImplToMutableFst(const ImplToMutableFst<I, F> &fst)
- : ImplToExpandedFst<I, F>(fst) {}
-
- ImplToMutableFst(const ImplToMutableFst<I, F> &fst, bool safe)
- : ImplToExpandedFst<I, F>(fst, safe) {}
-
- void MutateCheck() {
- // Copy on write
- if (GetImpl()->RefCount() > 1)
- SetImpl(new I(*this));
- }
-
- private:
- // Disallow
- ImplToMutableFst<I, F> &operator=(const ImplToMutableFst<I, F> &fst);
-
- ImplToMutableFst<I, F> &operator=(const Fst<Arc> &fst) {
- FSTERROR() << "ImplToMutableFst: Assignment operator disallowed";
- GetImpl()->SetProperties(kError, kError);
- return *this;
- }
-};
-
-
-} // namespace fst
-
-#endif // FST_LIB_MUTABLE_FST_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/pair-weight.h b/kaldi_io/src/tools/openfst/include/fst/pair-weight.h
deleted file mode 100644
index 7d8aa11..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/pair-weight.h
+++ /dev/null
@@ -1,280 +0,0 @@
-// pair-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Masha Maria Shugrina)
-//
-// \file
-// Pair weight templated base class for weight classes that
-// contain two weights (e.g. Product, Lexicographic)
-
-#ifndef FST_LIB_PAIR_WEIGHT_H_
-#define FST_LIB_PAIR_WEIGHT_H_
-
-#include <climits>
-#include <stack>
-#include <string>
-
-#include <fst/weight.h>
-
-
-DECLARE_string(fst_weight_parentheses);
-DECLARE_string(fst_weight_separator);
-
-namespace fst {
-
-template<class W1, class W2> class PairWeight;
-template <class W1, class W2>
-istream &operator>>(istream &strm, PairWeight<W1, W2> &w);
-
-template<class W1, class W2>
-class PairWeight {
- public:
- friend istream &operator>><W1, W2>(istream&, PairWeight<W1, W2>&);
-
- typedef PairWeight<typename W1::ReverseWeight,
- typename W2::ReverseWeight>
- ReverseWeight;
-
- PairWeight() {}
-
- PairWeight(const PairWeight& w) : value1_(w.value1_), value2_(w.value2_) {}
-
- PairWeight(W1 w1, W2 w2) : value1_(w1), value2_(w2) {}
-
- static const PairWeight<W1, W2> &Zero() {
- static const PairWeight<W1, W2> zero(W1::Zero(), W2::Zero());
- return zero;
- }
-
- static const PairWeight<W1, W2> &One() {
- static const PairWeight<W1, W2> one(W1::One(), W2::One());
- return one;
- }
-
- static const PairWeight<W1, W2> &NoWeight() {
- static const PairWeight<W1, W2> no_weight(W1::NoWeight(), W2::NoWeight());
- return no_weight;
- }
-
- istream &Read(istream &strm) {
- value1_.Read(strm);
- return value2_.Read(strm);
- }
-
- ostream &Write(ostream &strm) const {
- value1_.Write(strm);
- return value2_.Write(strm);
- }
-
- PairWeight<W1, W2> &operator=(const PairWeight<W1, W2> &w) {
- value1_ = w.Value1();
- value2_ = w.Value2();
- return *this;
- }
-
- bool Member() const { return value1_.Member() && value2_.Member(); }
-
- size_t Hash() const {
- size_t h1 = value1_.Hash();
- size_t h2 = value2_.Hash();
- const int lshift = 5;
- const int rshift = CHAR_BIT * sizeof(size_t) - 5;
- return h1 << lshift ^ h1 >> rshift ^ h2;
- }
-
- PairWeight<W1, W2> Quantize(float delta = kDelta) const {
- return PairWeight<W1, W2>(value1_.Quantize(delta),
- value2_.Quantize(delta));
- }
-
- ReverseWeight Reverse() const {
- return ReverseWeight(value1_.Reverse(), value2_.Reverse());
- }
-
- const W1& Value1() const { return value1_; }
-
- const W2& Value2() const { return value2_; }
-
- protected:
- void SetValue1(const W1 &w) { value1_ = w; }
- void SetValue2(const W2 &w) { value2_ = w; }
-
- // Reads PairWeight when there are not parentheses around pair terms
- inline static istream &ReadNoParen(
- istream &strm, PairWeight<W1, W2>& w, char separator) {
- int c;
- do {
- c = strm.get();
- } while (isspace(c));
-
- string s1;
- while (c != separator) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s1 += c;
- c = strm.get();
- }
- istringstream strm1(s1);
- W1 w1 = W1::Zero();
- strm1 >> w1;
-
- // read second element
- W2 w2 = W2::Zero();
- strm >> w2;
-
- w = PairWeight<W1, W2>(w1, w2);
- return strm;
- }
-
- // Reads PairWeight when there are parentheses around pair terms
- inline static istream &ReadWithParen(
- istream &strm, PairWeight<W1, W2>& w,
- char separator, char open_paren, char close_paren) {
- int c;
- do {
- c = strm.get();
- } while (isspace(c));
- if (c != open_paren) {
- FSTERROR() << " is fst_weight_parentheses flag set correcty? ";
- strm.clear(std::ios::failbit);
- return strm;
- }
- c = strm.get();
-
- // read first element
- stack<int> parens;
- string s1;
- while (c != separator || !parens.empty()) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s1 += c;
- // if parens encountered before separator, they must be matched
- if (c == open_paren) {
- parens.push(1);
- } else if (c == close_paren) {
- // Fail for mismatched parens
- if (parens.empty()) {
- strm.clear(std::ios::failbit);
- return strm;
- }
- parens.pop();
- }
- c = strm.get();
- }
- istringstream strm1(s1);
- W1 w1 = W1::Zero();
- strm1 >> w1;
-
- // read second element
- string s2;
- c = strm.get();
- while (c != EOF) {
- s2 += c;
- c = strm.get();
- }
- if (s2.empty() || (s2[s2.size() - 1] != close_paren)) {
- FSTERROR() << " is fst_weight_parentheses flag set correcty? ";
- strm.clear(std::ios::failbit);
- return strm;
- }
-
- s2.erase(s2.size() - 1, 1);
- istringstream strm2(s2);
- W2 w2 = W2::Zero();
- strm2 >> w2;
-
- w = PairWeight<W1, W2>(w1, w2);
- return strm;
- }
-
- private:
- W1 value1_;
- W2 value2_;
-
-};
-
-template <class W1, class W2>
-inline bool operator==(const PairWeight<W1, W2> &w,
- const PairWeight<W1, W2> &v) {
- return w.Value1() == v.Value1() && w.Value2() == v.Value2();
-}
-
-template <class W1, class W2>
-inline bool operator!=(const PairWeight<W1, W2> &w1,
- const PairWeight<W1, W2> &w2) {
- return w1.Value1() != w2.Value1() || w1.Value2() != w2.Value2();
-}
-
-
-template <class W1, class W2>
-inline bool ApproxEqual(const PairWeight<W1, W2> &w1,
- const PairWeight<W1, W2> &w2,
- float delta = kDelta) {
- return ApproxEqual(w1.Value1(), w2.Value1(), delta) &&
- ApproxEqual(w1.Value2(), w2.Value2(), delta);
-}
-
-template <class W1, class W2>
-inline ostream &operator<<(ostream &strm, const PairWeight<W1, W2> &w) {
- if(FLAGS_fst_weight_separator.size() != 1) {
- FSTERROR() << "FLAGS_fst_weight_separator.size() is not equal to 1";
- strm.clear(std::ios::badbit);
- return strm;
- }
- char separator = FLAGS_fst_weight_separator[0];
- if (FLAGS_fst_weight_parentheses.empty())
- return strm << w.Value1() << separator << w.Value2();
-
- if (FLAGS_fst_weight_parentheses.size() != 2) {
- FSTERROR() << "FLAGS_fst_weight_parentheses.size() is not equal to 2";
- strm.clear(std::ios::badbit);
- return strm;
- }
- char open_paren = FLAGS_fst_weight_parentheses[0];
- char close_paren = FLAGS_fst_weight_parentheses[1];
- return strm << open_paren << w.Value1() << separator
- << w.Value2() << close_paren ;
-}
-
-template <class W1, class W2>
-inline istream &operator>>(istream &strm, PairWeight<W1, W2> &w) {
- if(FLAGS_fst_weight_separator.size() != 1) {
- FSTERROR() << "FLAGS_fst_weight_separator.size() is not equal to 1";
- strm.clear(std::ios::badbit);
- return strm;
- }
- char separator = FLAGS_fst_weight_separator[0];
- bool read_parens = !FLAGS_fst_weight_parentheses.empty();
- if (read_parens) {
- if (FLAGS_fst_weight_parentheses.size() != 2) {
- FSTERROR() << "FLAGS_fst_weight_parentheses.size() is not equal to 2";
- strm.clear(std::ios::badbit);
- return strm;
- }
- return PairWeight<W1, W2>::ReadWithParen(
- strm, w, separator, FLAGS_fst_weight_parentheses[0],
- FLAGS_fst_weight_parentheses[1]);
- } else {
- return PairWeight<W1, W2>::ReadNoParen(strm, w, separator);
- }
-}
-
-} // namespace fst
-
-#endif // FST_LIB_PAIR_WEIGHT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/partition.h b/kaldi_io/src/tools/openfst/include/fst/partition.h
deleted file mode 100644
index 40b849a..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/partition.h
+++ /dev/null
@@ -1,305 +0,0 @@
-// partition.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Johan Schalkwyk)
-//
-// \file Functions and classes to create a partition of states
-//
-
-#ifndef FST_LIB_PARTITION_H__
-#define FST_LIB_PARTITION_H__
-
-#include <vector>
-using std::vector;
-#include <algorithm>
-
-
-#include <fst/queue.h>
-
-
-
-namespace fst {
-
-template <typename T> class PartitionIterator;
-
-// \class Partition
-// \brief Defines a partitioning of states. Typically used to represent
-// equivalence classes for Fst operations like minimization.
-//
-template <typename T>
-class Partition {
- friend class PartitionIterator<T>;
-
- struct Element {
- Element() : value(0), next(0), prev(0) {}
- Element(T v) : value(v), next(0), prev(0) {}
-
- T value;
- Element* next;
- Element* prev;
- };
-
- public:
- Partition(bool allow_repeated_split):
- allow_repeated_split_(allow_repeated_split) {}
-
- Partition(bool allow_repeated_split, T num_states):
- allow_repeated_split_(allow_repeated_split) {
- Initialize(num_states);
- }
-
- ~Partition() {
- for (size_t i = 0; i < elements_.size(); ++i)
- delete elements_[i];
- }
-
- // Create an empty partition for num_states. At initialization time
- // all elements are not assigned to a class (i.e class_index = -1).
- // Initialize just creates num_states of elements. All element
- // operations are then done by simply disconnecting the element from
- // it current class and placing it at the head of the next class.
- void Initialize(size_t num_states) {
- for (size_t i = 0; i < elements_.size(); ++i)
- delete elements_[i];
- elements_.clear();
- classes_.clear();
- class_index_.clear();
-
- elements_.resize(num_states);
- class_index_.resize(num_states, -1);
- class_size_.reserve(num_states);
- for (size_t i = 0; i < num_states; ++i)
- elements_[i] = new Element(i);
- num_states_ = num_states;
- }
-
- // Add a class, resize classes_ and class_size_ resource by 1.
- size_t AddClass() {
- size_t num_classes = classes_.size();
- classes_.resize(num_classes + 1, 0);
- class_size_.resize(num_classes + 1, 0);
- class_split_.resize(num_classes + 1, 0);
- split_size_.resize(num_classes + 1, 0);
- return num_classes;
- }
-
- void AllocateClasses(T num_classes) {
- size_t n = classes_.size() + num_classes;
- classes_.resize(n, 0);
- class_size_.resize(n, 0);
- class_split_.resize(n, 0);
- split_size_.resize(n, 0);
- }
-
- // Add element_id to class_id. The Add method is used to initialize
- // partition. Once elements have been added to a class, you need to
- // use the Move() method move an element from once class to another.
- void Add(T element_id, T class_id) {
- Element* element = elements_[element_id];
-
- if (classes_[class_id])
- classes_[class_id]->prev = element;
- element->next = classes_[class_id];
- element->prev = 0;
- classes_[class_id] = element;
-
- class_index_[element_id] = class_id;
- class_size_[class_id]++;
- }
-
- // Move and element_id to class_id. Disconnects (removes) element
- // from it current class and
- void Move(T element_id, T class_id) {
- T old_class_id = class_index_[element_id];
-
- Element* element = elements_[element_id];
- if (element->next) element->next->prev = element->prev;
- if (element->prev) element->prev->next = element->next;
- else classes_[old_class_id] = element->next;
-
- Add(element_id, class_id);
- class_size_[old_class_id]--;
- }
-
- // split class on the element_id
- void SplitOn(T element_id) {
- T class_id = class_index_[element_id];
- if (class_size_[class_id] == 1) return;
-
- // first time class is split
- if (split_size_[class_id] == 0) {
- visited_classes_.push_back(class_id);
- class_split_[class_id] = classes_[class_id];
- }
- // increment size of split (set of element at head of chain)
- split_size_[class_id]++;
-
- // update split point
- if (class_split_[class_id] != 0
- && class_split_[class_id] == elements_[element_id])
- class_split_[class_id] = elements_[element_id]->next;
-
- // move to head of chain in same class
- Move(element_id, class_id);
- }
-
- // Finalize class_id, split if required, and update class_splits,
- // class indices of the newly created class. Returns the new_class id
- // or -1 if no new class was created.
- T SplitRefine(T class_id) {
-
- Element* split_el = class_split_[class_id];
- // only split if necessary
- //if (class_size_[class_id] == split_size_[class_id]) {
- if(split_el == NULL) { // we split on everything...
- split_size_[class_id] = 0;
- return -1;
- } else {
- T new_class = AddClass();
-
- if(allow_repeated_split_) { // split_size_ is possibly
- // inaccurate, so work it out exactly.
- size_t split_count; Element *e;
- for(split_count=0,e=classes_[class_id];
- e != split_el; split_count++, e=e->next);
- split_size_[class_id] = split_count;
- }
- size_t remainder = class_size_[class_id] - split_size_[class_id];
- if (remainder < split_size_[class_id]) { // add smaller
- classes_[new_class] = split_el;
- split_el->prev->next = 0;
- split_el->prev = 0;
- class_size_[class_id] = split_size_[class_id];
- class_size_[new_class] = remainder;
- } else {
- classes_[new_class] = classes_[class_id];
- class_size_[class_id] = remainder;
- class_size_[new_class] = split_size_[class_id];
- split_el->prev->next = 0;
- split_el->prev = 0;
- classes_[class_id] = split_el;
- }
-
- // update class index for element in new class
- for (Element* el = classes_[new_class]; el; el = el->next)
- class_index_[el->value] = new_class;
-
- class_split_[class_id] = 0;
- split_size_[class_id] = 0;
-
- return new_class;
- }
- }
-
- // Once all states have been processed for a particular class C, we
- // can finalize the split. FinalizeSplit() will update each block in the
- // partition, create new once and update the queue of active classes
- // that require further refinement.
- template <class Queue>
- void FinalizeSplit(Queue* L) {
- for (size_t i = 0; i < visited_classes_.size(); ++i) {
- T new_class = SplitRefine(visited_classes_[i]);
- if (new_class != -1 && L)
- L->Enqueue(new_class);
- }
- visited_classes_.clear();
- }
-
-
- const T class_id(T element_id) const {
- return class_index_[element_id];
- }
-
- const vector<T>& class_sizes() const {
- return class_size_;
- }
-
- const size_t class_size(T class_id) const {
- return class_size_[class_id];
- }
-
- const T num_classes() const {
- return classes_.size();
- }
-
-
- private:
- int num_states_;
-
- // container of all elements (owner of ptrs)
- vector<Element*> elements_;
-
- // linked list of elements belonging to class
- vector<Element*> classes_;
-
- // pointer to split point for each class
- vector<Element*> class_split_;
-
- // class index of element
- vector<T> class_index_;
-
- // class sizes
- vector<T> class_size_;
-
- // size of split for each class
- // in the nondeterministic case, split_size_ is actually an upper
- // bound on the size of split for each class.
- vector<T> split_size_;
-
- // set of visited classes to be used in split refine
- vector<T> visited_classes_;
-
- // true if input fst was deterministic: we can make
- // certain assumptions in this case that speed up the algorithm.
- bool allow_repeated_split_;
-};
-
-
-// iterate over members of a class in a partition
-template <typename T>
-class PartitionIterator {
- typedef typename Partition<T>::Element Element;
- public:
- PartitionIterator(const Partition<T>& partition, T class_id)
- : p_(partition),
- element_(p_.classes_[class_id]),
- class_id_(class_id) {}
-
- bool Done() {
- return (element_ == 0);
- }
-
- const T Value() {
- return (element_->value);
- }
-
- void Next() {
- element_ = element_->next;
- }
-
- void Reset() {
- element_ = p_.classes_[class_id_];
- }
-
- private:
- const Partition<T>& p_;
-
- const Element* element_;
-
- T class_id_;
-};
-} // namespace fst
-
-#endif // FST_LIB_PARTITION_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/power-weight.h b/kaldi_io/src/tools/openfst/include/fst/power-weight.h
deleted file mode 100644
index 256928d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/power-weight.h
+++ /dev/null
@@ -1,159 +0,0 @@
-// power-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Cartesian power weight semiring operation definitions.
-
-#ifndef FST_LIB_POWER_WEIGHT_H__
-#define FST_LIB_POWER_WEIGHT_H__
-
-#include <fst/tuple-weight.h>
-#include <fst/weight.h>
-
-
-namespace fst {
-
-// Cartesian power semiring: W ^ n
-// Forms:
-// - a left semimodule when W is a left semiring,
-// - a right semimodule when W is a right semiring,
-// - a bisemimodule when W is a semiring,
-// the free semimodule of rank n over W
-// The Times operation is overloaded to provide the
-// left and right scalar products.
-template <class W, unsigned int n>
-class PowerWeight : public TupleWeight<W, n> {
- public:
- using TupleWeight<W, n>::Zero;
- using TupleWeight<W, n>::One;
- using TupleWeight<W, n>::NoWeight;
- using TupleWeight<W, n>::Quantize;
- using TupleWeight<W, n>::Reverse;
-
- typedef PowerWeight<typename W::ReverseWeight, n> ReverseWeight;
-
- PowerWeight() {}
-
- PowerWeight(const TupleWeight<W, n> &w) : TupleWeight<W, n>(w) {}
-
- template <class Iterator>
- PowerWeight(Iterator begin, Iterator end) : TupleWeight<W, n>(begin, end) {}
-
- static const PowerWeight<W, n> &Zero() {
- static const PowerWeight<W, n> zero(TupleWeight<W, n>::Zero());
- return zero;
- }
-
- static const PowerWeight<W, n> &One() {
- static const PowerWeight<W, n> one(TupleWeight<W, n>::One());
- return one;
- }
-
- static const PowerWeight<W, n> &NoWeight() {
- static const PowerWeight<W, n> no_weight(TupleWeight<W, n>::NoWeight());
- return no_weight;
- }
-
- static const string &Type() {
- static string type;
- if (type.empty()) {
- string power;
- Int64ToStr(n, &power);
- type = W::Type() + "_^" + power;
- }
- return type;
- }
-
- static uint64 Properties() {
- uint64 props = W::Properties();
- return props & (kLeftSemiring | kRightSemiring |
- kCommutative | kIdempotent);
- }
-
- PowerWeight<W, n> Quantize(float delta = kDelta) const {
- return TupleWeight<W, n>::Quantize(delta);
- }
-
- ReverseWeight Reverse() const {
- return TupleWeight<W, n>::Reverse();
- }
-};
-
-
-// Semiring plus operation
-template <class W, unsigned int n>
-inline PowerWeight<W, n> Plus(const PowerWeight<W, n> &w1,
- const PowerWeight<W, n> &w2) {
- PowerWeight<W, n> w;
- for (size_t i = 0; i < n; ++i)
- w.SetValue(i, Plus(w1.Value(i), w2.Value(i)));
- return w;
-}
-
-// Semiring times operation
-template <class W, unsigned int n>
-inline PowerWeight<W, n> Times(const PowerWeight<W, n> &w1,
- const PowerWeight<W, n> &w2) {
- PowerWeight<W, n> w;
- for (size_t i = 0; i < n; ++i)
- w.SetValue(i, Times(w1.Value(i), w2.Value(i)));
- return w;
-}
-
-// Semiring divide operation
-template <class W, unsigned int n>
-inline PowerWeight<W, n> Divide(const PowerWeight<W, n> &w1,
- const PowerWeight<W, n> &w2,
- DivideType type = DIVIDE_ANY) {
- PowerWeight<W, n> w;
- for (size_t i = 0; i < n; ++i)
- w.SetValue(i, Divide(w1.Value(i), w2.Value(i), type));
- return w;
-}
-
-// Semimodule left scalar product
-template <class W, unsigned int n>
-inline PowerWeight<W, n> Times(const W &s, const PowerWeight<W, n> &w) {
- PowerWeight<W, n> sw;
- for (size_t i = 0; i < n; ++i)
- sw.SetValue(i, Times(s, w.Value(i)));
- return w;
-}
-
-// Semimodule right scalar product
-template <class W, unsigned int n>
-inline PowerWeight<W, n> Times(const PowerWeight<W, n> &w, const W &s) {
- PowerWeight<W, n> ws;
- for (size_t i = 0; i < n; ++i)
- ws.SetValue(i, Times(w.Value(i), s));
- return w;
-}
-
-// Semimodule dot product
-template <class W, unsigned int n>
-inline W DotProduct(const PowerWeight<W, n> &w1,
- const PowerWeight<W, n> &w2) {
- W w = W::Zero();
- for (size_t i = 0; i < n; ++i)
- w = Plus(w, Times(w1.Value(i), w2.Value(i)));
- return w;
-}
-
-
-} // namespace fst
-
-#endif // FST_LIB_POWER_WEIGHT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/product-weight.h b/kaldi_io/src/tools/openfst/include/fst/product-weight.h
deleted file mode 100644
index 16dede8..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/product-weight.h
+++ /dev/null
@@ -1,115 +0,0 @@
-// product-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Product weight set and associated semiring operation definitions.
-
-#ifndef FST_LIB_PRODUCT_WEIGHT_H__
-#define FST_LIB_PRODUCT_WEIGHT_H__
-
-#include <stack>
-#include <string>
-
-#include <fst/pair-weight.h>
-#include <fst/weight.h>
-
-
-namespace fst {
-
-// Product semiring: W1 * W2
-template<class W1, class W2>
-class ProductWeight : public PairWeight<W1, W2> {
- public:
- using PairWeight<W1, W2>::Zero;
- using PairWeight<W1, W2>::One;
- using PairWeight<W1, W2>::NoWeight;
- using PairWeight<W1, W2>::Quantize;
- using PairWeight<W1, W2>::Reverse;
-
- typedef ProductWeight<typename W1::ReverseWeight, typename W2::ReverseWeight>
- ReverseWeight;
-
- ProductWeight() {}
-
- ProductWeight(const PairWeight<W1, W2>& w) : PairWeight<W1, W2>(w) {}
-
- ProductWeight(W1 w1, W2 w2) : PairWeight<W1, W2>(w1, w2) {}
-
- static const ProductWeight<W1, W2> &Zero() {
- static const ProductWeight<W1, W2> zero(PairWeight<W1, W2>::Zero());
- return zero;
- }
-
- static const ProductWeight<W1, W2> &One() {
- static const ProductWeight<W1, W2> one(PairWeight<W1, W2>::One());
- return one;
- }
-
- static const ProductWeight<W1, W2> &NoWeight() {
- static const ProductWeight<W1, W2> no_weight(
- PairWeight<W1, W2>::NoWeight());
- return no_weight;
- }
-
- static const string &Type() {
- static const string type = W1::Type() + "_X_" + W2::Type();
- return type;
- }
-
- static uint64 Properties() {
- uint64 props1 = W1::Properties();
- uint64 props2 = W2::Properties();
- return props1 & props2 & (kLeftSemiring | kRightSemiring |
- kCommutative | kIdempotent);
- }
-
- ProductWeight<W1, W2> Quantize(float delta = kDelta) const {
- return PairWeight<W1, W2>::Quantize(delta);
- }
-
- ReverseWeight Reverse() const {
- return PairWeight<W1, W2>::Reverse();
- }
-
-
-};
-
-template <class W1, class W2>
-inline ProductWeight<W1, W2> Plus(const ProductWeight<W1, W2> &w,
- const ProductWeight<W1, W2> &v) {
- return ProductWeight<W1, W2>(Plus(w.Value1(), v.Value1()),
- Plus(w.Value2(), v.Value2()));
-}
-
-template <class W1, class W2>
-inline ProductWeight<W1, W2> Times(const ProductWeight<W1, W2> &w,
- const ProductWeight<W1, W2> &v) {
- return ProductWeight<W1, W2>(Times(w.Value1(), v.Value1()),
- Times(w.Value2(), v.Value2()));
-}
-
-template <class W1, class W2>
-inline ProductWeight<W1, W2> Divide(const ProductWeight<W1, W2> &w,
- const ProductWeight<W1, W2> &v,
- DivideType typ = DIVIDE_ANY) {
- return ProductWeight<W1, W2>(Divide(w.Value1(), v.Value1(), typ),
- Divide(w.Value2(), v.Value2(), typ));
-}
-
-} // namespace fst
-
-#endif // FST_LIB_PRODUCT_WEIGHT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/project.h b/kaldi_io/src/tools/openfst/include/fst/project.h
deleted file mode 100644
index 07946c3..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/project.h
+++ /dev/null
@@ -1,148 +0,0 @@
-// project.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Functions and classes to project an Fst on to its domain or range.
-
-#ifndef FST_LIB_PROJECT_H__
-#define FST_LIB_PROJECT_H__
-
-#include <fst/arc-map.h>
-#include <fst/mutable-fst.h>
-
-
-namespace fst {
-
-// This specifies whether to project on input or output.
-enum ProjectType { PROJECT_INPUT = 1, PROJECT_OUTPUT = 2 };
-
-
-// Mapper to implement projection per arc.
-template <class A> class ProjectMapper {
- public:
- explicit ProjectMapper(ProjectType project_type)
- : project_type_(project_type) {}
-
- A operator()(const A &arc) {
- typename A::Label label = project_type_ == PROJECT_INPUT
- ? arc.ilabel : arc.olabel;
- return A(label, label, arc.weight, arc.nextstate);
- }
-
- MapFinalAction FinalAction() const { return MAP_NO_SUPERFINAL; }
-
- MapSymbolsAction InputSymbolsAction() const {
- return project_type_ == PROJECT_INPUT ? MAP_COPY_SYMBOLS :
- MAP_CLEAR_SYMBOLS;
- }
-
- MapSymbolsAction OutputSymbolsAction() const {
- return project_type_ == PROJECT_OUTPUT ? MAP_COPY_SYMBOLS :
- MAP_CLEAR_SYMBOLS;
- }
-
- uint64 Properties(uint64 props) {
- return ProjectProperties(props, project_type_ == PROJECT_INPUT);
- }
-
-
- private:
- ProjectType project_type_;
-};
-
-
-// Projects an FST onto its domain or range by either copying each arcs'
-// input label to the output label or vice versa. This version modifies
-// its input.
-//
-// Complexity:
-// - Time: O(V + E)
-// - Space: O(1)
-// where V = # of states and E = # of arcs.
-template<class Arc> inline
-void Project(MutableFst<Arc> *fst, ProjectType project_type) {
- ArcMap(fst, ProjectMapper<Arc>(project_type));
- if (project_type == PROJECT_INPUT)
- fst->SetOutputSymbols(fst->InputSymbols());
- if (project_type == PROJECT_OUTPUT)
- fst->SetInputSymbols(fst->OutputSymbols());
-}
-
-
-// Projects an FST onto its domain or range by either copying each arc's
-// input label to the output label or vice versa. This version is a delayed
-// Fst.
-//
-// Complexity:
-// - Time: O(v + e)
-// - Space: O(1)
-// where v = # of states visited, e = # of arcs visited. Constant
-// time and to visit an input state or arc is assumed and exclusive
-// of caching.
-template <class A>
-class ProjectFst : public ArcMapFst<A, A, ProjectMapper<A> > {
- public:
- typedef A Arc;
- typedef ProjectMapper<A> C;
- typedef ArcMapFstImpl< A, A, ProjectMapper<A> > Impl;
- using ImplToFst<Impl>::GetImpl;
-
- ProjectFst(const Fst<A> &fst, ProjectType project_type)
- : ArcMapFst<A, A, C>(fst, C(project_type)) {
- if (project_type == PROJECT_INPUT)
- GetImpl()->SetOutputSymbols(fst.InputSymbols());
- if (project_type == PROJECT_OUTPUT)
- GetImpl()->SetInputSymbols(fst.OutputSymbols());
- }
-
- // See Fst<>::Copy() for doc.
- ProjectFst(const ProjectFst<A> &fst, bool safe = false)
- : ArcMapFst<A, A, C>(fst, safe) {}
-
- // Get a copy of this ProjectFst. See Fst<>::Copy() for further doc.
- virtual ProjectFst<A> *Copy(bool safe = false) const {
- return new ProjectFst(*this, safe);
- }
-};
-
-
-// Specialization for ProjectFst.
-template <class A>
-class StateIterator< ProjectFst<A> >
- : public StateIterator< ArcMapFst<A, A, ProjectMapper<A> > > {
- public:
- explicit StateIterator(const ProjectFst<A> &fst)
- : StateIterator< ArcMapFst<A, A, ProjectMapper<A> > >(fst) {}
-};
-
-
-// Specialization for ProjectFst.
-template <class A>
-class ArcIterator< ProjectFst<A> >
- : public ArcIterator< ArcMapFst<A, A, ProjectMapper<A> > > {
- public:
- ArcIterator(const ProjectFst<A> &fst, typename A::StateId s)
- : ArcIterator< ArcMapFst<A, A, ProjectMapper<A> > >(fst, s) {}
-};
-
-
-// Useful alias when using StdArc.
-typedef ProjectFst<StdArc> StdProjectFst;
-
-} // namespace fst
-
-#endif // FST_LIB_PROJECT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/properties.h b/kaldi_io/src/tools/openfst/include/fst/properties.h
deleted file mode 100644
index 8fab16f..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/properties.h
+++ /dev/null
@@ -1,460 +0,0 @@
-// properties.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: Michael Riley <[email protected]>
-// \file
-// FST property bits.
-
-#ifndef FST_LIB_PROPERTIES_H__
-#define FST_LIB_PROPERTIES_H__
-
-#include <sys/types.h>
-#include <vector>
-using std::vector;
-
-#include <fst/compat.h>
-
-namespace fst {
-
-// The property bits here assert facts about an FST. If individual
-// bits are added, then the composite properties below, the property
-// functions and property names in properties.cc, and
-// TestProperties() in test-properties.h should be updated.
-
-//
-// BINARY PROPERTIES
-//
-// For each property below, there is a single bit. If it is set,
-// the property is true. If it is not set, the property is false.
-//
-
-// The Fst is an ExpandedFst
-const uint64 kExpanded = 0x0000000000000001ULL;
-
-// The Fst is a MutableFst
-const uint64 kMutable = 0x0000000000000002ULL;
-
-// An error was detected while constructing/using the FST
-const uint64 kError = 0x0000000000000004ULL;
-
-//
-// TRINARY PROPERTIES
-//
-// For each of these properties below there is a pair of property bits
-// - one positive and one negative. If the positive bit is set, the
-// property is true. If the negative bit is set, the property is
-// false. If neither is set, the property has unknown value. Both
-// should never be simultaneously set. The individual positive and
-// negative bit pairs should be adjacent with the positive bit
-// at an odd and lower position.
-
-// ilabel == olabel for each arc
-const uint64 kAcceptor = 0x0000000000010000ULL;
-// ilabel != olabel for some arc
-const uint64 kNotAcceptor = 0x0000000000020000ULL;
-
-// ilabels unique leaving each state
-const uint64 kIDeterministic = 0x0000000000040000ULL;
-// ilabels not unique leaving some state
-const uint64 kNonIDeterministic = 0x0000000000080000ULL;
-
-// olabels unique leaving each state
-const uint64 kODeterministic = 0x0000000000100000ULL;
-// olabels not unique leaving some state
-const uint64 kNonODeterministic = 0x0000000000200000ULL;
-
-// FST has input/output epsilons
-const uint64 kEpsilons = 0x0000000000400000ULL;
-// FST has no input/output epsilons
-const uint64 kNoEpsilons = 0x0000000000800000ULL;
-
-// FST has input epsilons
-const uint64 kIEpsilons = 0x0000000001000000ULL;
-// FST has no input epsilons
-const uint64 kNoIEpsilons = 0x0000000002000000ULL;
-
-// FST has output epsilons
-const uint64 kOEpsilons = 0x0000000004000000ULL;
-// FST has no output epsilons
-const uint64 kNoOEpsilons = 0x0000000008000000ULL;
-
-// ilabels sorted wrt < for each state
-const uint64 kILabelSorted = 0x0000000010000000ULL;
-// ilabels not sorted wrt < for some state
-const uint64 kNotILabelSorted = 0x0000000020000000ULL;
-
-// olabels sorted wrt < for each state
-const uint64 kOLabelSorted = 0x0000000040000000ULL;
-// olabels not sorted wrt < for some state
-const uint64 kNotOLabelSorted = 0x0000000080000000ULL;
-
-// Non-trivial arc or final weights
-const uint64 kWeighted = 0x0000000100000000ULL;
-// Only trivial arc and final weights
-const uint64 kUnweighted = 0x0000000200000000ULL;
-
-// FST has cycles
-const uint64 kCyclic = 0x0000000400000000ULL;
-// FST has no cycles
-const uint64 kAcyclic = 0x0000000800000000ULL;
-
-// FST has cycles containing the initial state
-const uint64 kInitialCyclic = 0x0000001000000000ULL;
-// FST has no cycles containing the initial state
-const uint64 kInitialAcyclic = 0x0000002000000000ULL;
-
-// FST is topologically sorted
-const uint64 kTopSorted = 0x0000004000000000ULL;
-// FST is not topologically sorted
-const uint64 kNotTopSorted = 0x0000008000000000ULL;
-
-// All states reachable from the initial state
-const uint64 kAccessible = 0x0000010000000000ULL;
-// Not all states reachable from the initial state
-const uint64 kNotAccessible = 0x0000020000000000ULL;
-
-// All states can reach a final state
-const uint64 kCoAccessible = 0x0000040000000000ULL;
-// Not all states can reach a final state
-const uint64 kNotCoAccessible = 0x0000080000000000ULL;
-
-// If NumStates() > 0, then state 0 is initial, state NumStates()-1 is
-// final, there is a transition from each non-final state i to
-// state i+1, and there are no other transitions.
-const uint64 kString = 0x0000100000000000ULL;
-
-// Not a string FST
-const uint64 kNotString = 0x0000200000000000ULL;
-
-//
-// COMPOSITE PROPERTIES
-//
-
-// Properties of an empty machine
-const uint64 kNullProperties
- = kAcceptor | kIDeterministic | kODeterministic | kNoEpsilons |
- kNoIEpsilons | kNoOEpsilons | kILabelSorted | kOLabelSorted |
- kUnweighted | kAcyclic | kInitialAcyclic | kTopSorted |
- kAccessible | kCoAccessible | kString;
-
-// Properties that are preserved when an FST is copied
-const uint64 kCopyProperties
- = kError | kAcceptor | kNotAcceptor | kIDeterministic | kNonIDeterministic |
- kODeterministic | kNonODeterministic | kEpsilons | kNoEpsilons |
- kIEpsilons | kNoIEpsilons | kOEpsilons | kNoOEpsilons |
- kILabelSorted | kNotILabelSorted | kOLabelSorted |
- kNotOLabelSorted | kWeighted | kUnweighted | kCyclic | kAcyclic |
- kInitialCyclic | kInitialAcyclic | kTopSorted | kNotTopSorted |
- kAccessible | kNotAccessible | kCoAccessible | kNotCoAccessible |
- kString | kNotString;
-
-// Properites that are intrinsic to the FST
-const uint64 kIntrinsicProperties
- = kExpanded | kMutable | kAcceptor | kNotAcceptor | kIDeterministic |
- kNonIDeterministic | kODeterministic | kNonODeterministic |
- kEpsilons | kNoEpsilons | kIEpsilons | kNoIEpsilons | kOEpsilons |
- kNoOEpsilons | kILabelSorted | kNotILabelSorted | kOLabelSorted |
- kNotOLabelSorted | kWeighted | kUnweighted | kCyclic | kAcyclic |
- kInitialCyclic | kInitialAcyclic | kTopSorted | kNotTopSorted |
- kAccessible | kNotAccessible | kCoAccessible | kNotCoAccessible |
- kString | kNotString;
-
-// Properites that are (potentially) extrinsic to the FST
-const uint64 kExtrinsicProperties = kError;
-
-// Properties that are preserved when an FST start state is set
-const uint64 kSetStartProperties
- = kExpanded | kMutable | kError | kAcceptor | kNotAcceptor |
- kIDeterministic | kNonIDeterministic | kODeterministic |
- kNonODeterministic | kEpsilons | kNoEpsilons | kIEpsilons |
- kNoIEpsilons | kOEpsilons | kNoOEpsilons | kILabelSorted |
- kNotILabelSorted | kOLabelSorted | kNotOLabelSorted | kWeighted |
- kUnweighted | kCyclic | kAcyclic | kTopSorted | kNotTopSorted |
- kCoAccessible | kNotCoAccessible;
-
-// Properties that are preserved when an FST final weight is set
-const uint64 kSetFinalProperties
- = kExpanded | kMutable | kError | kAcceptor | kNotAcceptor |
- kIDeterministic | kNonIDeterministic | kODeterministic |
- kNonODeterministic | kEpsilons | kNoEpsilons | kIEpsilons |
- kNoIEpsilons | kOEpsilons | kNoOEpsilons | kILabelSorted |
- kNotILabelSorted | kOLabelSorted | kNotOLabelSorted | kCyclic |
- kAcyclic | kInitialCyclic | kInitialAcyclic | kTopSorted |
- kNotTopSorted | kAccessible | kNotAccessible;
-
-// Properties that are preserved when an FST state is added
-const uint64 kAddStateProperties
- = kExpanded | kMutable | kError | kAcceptor | kNotAcceptor |
- kIDeterministic | kNonIDeterministic | kODeterministic |
- kNonODeterministic | kEpsilons | kNoEpsilons | kIEpsilons |
- kNoIEpsilons | kOEpsilons | kNoOEpsilons | kILabelSorted |
- kNotILabelSorted | kOLabelSorted | kNotOLabelSorted | kWeighted |
- kUnweighted | kCyclic | kAcyclic | kInitialCyclic |
- kInitialAcyclic | kTopSorted | kNotTopSorted | kNotAccessible |
- kNotCoAccessible | kNotString;
-
-// Properties that are preserved when an FST arc is added
-const uint64 kAddArcProperties = kExpanded | kMutable | kError | kNotAcceptor |
- kNonIDeterministic | kNonODeterministic | kEpsilons | kIEpsilons |
- kOEpsilons | kNotILabelSorted | kNotOLabelSorted | kWeighted |
- kCyclic | kInitialCyclic | kNotTopSorted | kAccessible | kCoAccessible;
-
-// Properties that are preserved when an FST arc is set
-const uint64 kSetArcProperties = kExpanded | kMutable | kError;
-
-// Properties that are preserved when FST states are deleted
-const uint64 kDeleteStatesProperties
- = kExpanded | kMutable | kError | kAcceptor | kIDeterministic |
- kODeterministic | kNoEpsilons | kNoIEpsilons | kNoOEpsilons |
- kILabelSorted | kOLabelSorted | kUnweighted | kAcyclic |
- kInitialAcyclic | kTopSorted;
-
-// Properties that are preserved when FST arcs are deleted
-const uint64 kDeleteArcsProperties
- = kExpanded | kMutable | kError | kAcceptor | kIDeterministic |
- kODeterministic | kNoEpsilons | kNoIEpsilons | kNoOEpsilons |
- kILabelSorted | kOLabelSorted | kUnweighted | kAcyclic |
- kInitialAcyclic | kTopSorted | kNotAccessible | kNotCoAccessible;
-
-// Properties that are preserved when an FST's states are reordered
-const uint64 kStateSortProperties = kExpanded | kMutable | kError | kAcceptor |
- kNotAcceptor | kIDeterministic | kNonIDeterministic |
- kODeterministic | kNonODeterministic | kEpsilons | kNoEpsilons |
- kIEpsilons | kNoIEpsilons | kOEpsilons | kNoOEpsilons |
- kILabelSorted | kNotILabelSorted | kOLabelSorted | kNotOLabelSorted
- | kWeighted | kUnweighted | kCyclic | kAcyclic | kInitialCyclic |
- kInitialAcyclic | kAccessible | kNotAccessible | kCoAccessible |
- kNotCoAccessible;
-
-// Properties that are preserved when an FST's arcs are reordered
-const uint64 kArcSortProperties =
- kExpanded | kMutable | kError | kAcceptor | kNotAcceptor | kIDeterministic |
- kNonIDeterministic | kODeterministic | kNonODeterministic |
- kEpsilons | kNoEpsilons | kIEpsilons | kNoIEpsilons | kOEpsilons |
- kNoOEpsilons | kWeighted | kUnweighted | kCyclic | kAcyclic |
- kInitialCyclic | kInitialAcyclic | kTopSorted | kNotTopSorted |
- kAccessible | kNotAccessible | kCoAccessible | kNotCoAccessible |
- kString | kNotString;
-
-// Properties that are preserved when an FST's input labels are changed.
-const uint64 kILabelInvariantProperties =
- kExpanded | kMutable | kError | kODeterministic | kNonODeterministic |
- kOEpsilons | kNoOEpsilons | kOLabelSorted | kNotOLabelSorted |
- kWeighted | kUnweighted | kCyclic | kAcyclic | kInitialCyclic |
- kInitialAcyclic | kTopSorted | kNotTopSorted | kAccessible |
- kNotAccessible | kCoAccessible | kNotCoAccessible | kString | kNotString;
-
-// Properties that are preserved when an FST's output labels are changed.
-const uint64 kOLabelInvariantProperties =
- kExpanded | kMutable | kError | kIDeterministic | kNonIDeterministic |
- kIEpsilons | kNoIEpsilons | kILabelSorted | kNotILabelSorted |
- kWeighted | kUnweighted | kCyclic | kAcyclic | kInitialCyclic |
- kInitialAcyclic | kTopSorted | kNotTopSorted | kAccessible |
- kNotAccessible | kCoAccessible | kNotCoAccessible | kString | kNotString;
-
-// Properties that are preserved when an FST's weights are changed.
-// This assumes that the set of states that are non-final is not changed.
-const uint64 kWeightInvariantProperties =
- kExpanded | kMutable | kError | kAcceptor | kNotAcceptor | kIDeterministic |
- kNonIDeterministic | kODeterministic | kNonODeterministic |
- kEpsilons | kNoEpsilons | kIEpsilons | kNoIEpsilons | kOEpsilons |
- kNoOEpsilons | kILabelSorted | kNotILabelSorted | kOLabelSorted |
- kNotOLabelSorted | kCyclic | kAcyclic | kInitialCyclic | kInitialAcyclic |
- kTopSorted | kNotTopSorted | kAccessible | kNotAccessible | kCoAccessible |
- kNotCoAccessible | kString | kNotString;
-
-// Properties that are preserved when a superfinal state is added
-// and an FSTs final weights are directed to it via new transitions.
-const uint64 kAddSuperFinalProperties = kExpanded | kMutable | kError |
- kAcceptor | kNotAcceptor | kNonIDeterministic | kNonODeterministic |
- kEpsilons | kIEpsilons | kOEpsilons | kNotILabelSorted | kNotOLabelSorted |
- kWeighted | kUnweighted | kCyclic | kAcyclic | kInitialCyclic |
- kInitialAcyclic | kNotTopSorted | kNotAccessible | kCoAccessible |
- kNotCoAccessible | kNotString;
-
-// Properties that are preserved when a superfinal state is removed
-// and the epsilon transitions directed to it are made final weights.
-const uint64 kRmSuperFinalProperties = kExpanded | kMutable | kError |
- kAcceptor | kNotAcceptor | kIDeterministic | kODeterministic |
- kNoEpsilons | kNoIEpsilons | kNoOEpsilons | kILabelSorted | kOLabelSorted |
- kWeighted | kUnweighted | kCyclic | kAcyclic | kInitialCyclic |
- kInitialAcyclic | kTopSorted | kAccessible | kCoAccessible |
- kNotCoAccessible | kString;
-
-// All binary properties
-const uint64 kBinaryProperties = 0x0000000000000007ULL;
-
-// All trinary properties
-const uint64 kTrinaryProperties = 0x00003fffffff0000ULL;
-
-//
-// COMPUTED PROPERTIES
-//
-
-// 1st bit of trinary properties
-const uint64 kPosTrinaryProperties =
- kTrinaryProperties & 0x5555555555555555ULL;
-
-// 2nd bit of trinary properties
-const uint64 kNegTrinaryProperties =
- kTrinaryProperties & 0xaaaaaaaaaaaaaaaaULL;
-
-// All properties
-const uint64 kFstProperties = kBinaryProperties | kTrinaryProperties;
-
-//
-// PROPERTY FUNCTIONS and STRING NAMES (defined in properties.cc)
-//
-
-// Below are functions for getting property bit vectors when executing
-// mutating fst operations.
-inline uint64 SetStartProperties(uint64 inprops);
-template <typename Weight>
-uint64 SetFinalProperties(uint64 inprops, Weight old_weight,
- Weight new_weight);
-inline uint64 AddStateProperties(uint64 inprops);
-template <typename A>
-uint64 AddArcProperties(uint64 inprops, typename A::StateId s, const A &arc,
- const A *prev_arc);
-inline uint64 DeleteStatesProperties(uint64 inprops);
-inline uint64 DeleteAllStatesProperties(uint64 inprops, uint64 staticProps);
-inline uint64 DeleteArcsProperties(uint64 inprops);
-
-uint64 ClosureProperties(uint64 inprops, bool star, bool delayed = false);
-uint64 ComplementProperties(uint64 inprops);
-uint64 ComposeProperties(uint64 inprops1, uint64 inprops2);
-uint64 ConcatProperties(uint64 inprops1, uint64 inprops2,
- bool delayed = false);
-uint64 DeterminizeProperties(uint64 inprops, bool has_subsequential_label);
-uint64 FactorWeightProperties(uint64 inprops);
-uint64 InvertProperties(uint64 inprops);
-uint64 ProjectProperties(uint64 inprops, bool project_input);
-uint64 RandGenProperties(uint64 inprops, bool weighted);
-uint64 RelabelProperties(uint64 inprops);
-uint64 ReplaceProperties(const vector<uint64>& inprops,
- ssize_t root,
- bool epsilon_on_replace,
- bool no_empty_fst);
-uint64 ReverseProperties(uint64 inprops);
-uint64 ReweightProperties(uint64 inprops);
-uint64 RmEpsilonProperties(uint64 inprops, bool delayed = false);
-uint64 ShortestPathProperties(uint64 props);
-uint64 SynchronizeProperties(uint64 inprops);
-uint64 UnionProperties(uint64 inprops1, uint64 inprops2, bool delayed = false);
-
-// Definitions of inlined functions.
-
-uint64 SetStartProperties(uint64 inprops) {
- uint64 outprops = inprops & kSetStartProperties;
- if (inprops & kAcyclic) {
- outprops |= kInitialAcyclic;
- }
- return outprops;
-}
-
-uint64 AddStateProperties(uint64 inprops) {
- return inprops & kAddStateProperties;
-}
-
-uint64 DeleteStatesProperties(uint64 inprops) {
- return inprops & kDeleteStatesProperties;
-}
-
-uint64 DeleteAllStatesProperties(uint64 inprops, uint64 staticprops) {
- uint64 outprops = inprops & kError;
- return outprops | kNullProperties | staticprops;
-}
-
-uint64 DeleteArcsProperties(uint64 inprops) {
- return inprops & kDeleteArcsProperties;
-}
-
-// Definitions of template functions.
-
-//
-template <typename Weight>
-uint64 SetFinalProperties(uint64 inprops, Weight old_weight,
- Weight new_weight) {
- uint64 outprops = inprops;
- if (old_weight != Weight::Zero() && old_weight != Weight::One()) {
- outprops &= ~kWeighted;
- }
- if (new_weight != Weight::Zero() && new_weight != Weight::One()) {
- outprops |= kWeighted;
- outprops &= ~kUnweighted;
- }
- outprops &= kSetFinalProperties | kWeighted | kUnweighted;
- return outprops;
-}
-
-/// Gets the properties for the MutableFst::AddArc method.
-///
-/// \param inprops the current properties of the fst
-/// \param s the id of the state to which an arc is being added
-/// \param arc the arc being added to the state with the specified id
-/// \param prev_arc the previously-added (or "last") arc of state s, or NULL if
-/// s currently has no arcs
-template <typename A>
-uint64 AddArcProperties(uint64 inprops, typename A::StateId s,
- const A &arc, const A *prev_arc) {
- uint64 outprops = inprops;
- if (arc.ilabel != arc.olabel) {
- outprops |= kNotAcceptor;
- outprops &= ~kAcceptor;
- }
- if (arc.ilabel == 0) {
- outprops |= kIEpsilons;
- outprops &= ~kNoIEpsilons;
- if (arc.olabel == 0) {
- outprops |= kEpsilons;
- outprops &= ~kNoEpsilons;
- }
- }
- if (arc.olabel == 0) {
- outprops |= kOEpsilons;
- outprops &= ~kNoOEpsilons;
- }
- if (prev_arc != 0) {
- if (prev_arc->ilabel > arc.ilabel) {
- outprops |= kNotILabelSorted;
- outprops &= ~kILabelSorted;
- }
- if (prev_arc->olabel > arc.olabel) {
- outprops |= kNotOLabelSorted;
- outprops &= ~kOLabelSorted;
- }
- }
- if (arc.weight != A::Weight::Zero() && arc.weight != A::Weight::One()) {
- outprops |= kWeighted;
- outprops &= ~kUnweighted;
- }
- if (arc.nextstate <= s) {
- outprops |= kNotTopSorted;
- outprops &= ~kTopSorted;
- }
- outprops &= kAddArcProperties | kAcceptor |
- kNoEpsilons | kNoIEpsilons | kNoOEpsilons |
- kILabelSorted | kOLabelSorted | kUnweighted | kTopSorted;
- if (outprops & kTopSorted) {
- outprops |= kAcyclic | kInitialAcyclic;
- }
- return outprops;
-}
-
-extern const char *PropertyNames[];
-
-} // namespace fst
-
-#endif // FST_LIB_PROPERTIES_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/prune.h b/kaldi_io/src/tools/openfst/include/fst/prune.h
deleted file mode 100644
index 5ea5b4d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/prune.h
+++ /dev/null
@@ -1,339 +0,0 @@
-// prune.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Functions implementing pruning.
-
-#ifndef FST_LIB_PRUNE_H__
-#define FST_LIB_PRUNE_H__
-
-#include <vector>
-using std::vector;
-
-#include <fst/arcfilter.h>
-#include <fst/heap.h>
-#include <fst/shortest-distance.h>
-
-
-namespace fst {
-
-template <class A, class ArcFilter>
-class PruneOptions {
- public:
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- // Pruning weight threshold.
- Weight weight_threshold;
- // Pruning state threshold.
- StateId state_threshold;
- // Arc filter.
- ArcFilter filter;
- // If non-zero, passes in pre-computed shortest distance to final states.
- const vector<Weight> *distance;
- // Determines the degree of convergence required when computing shortest
- // distances.
- float delta;
-
- explicit PruneOptions(const Weight& w, StateId s, ArcFilter f,
- vector<Weight> *d = 0, float e = kDelta)
- : weight_threshold(w),
- state_threshold(s),
- filter(f),
- distance(d),
- delta(e) {}
- private:
- PruneOptions(); // disallow
-};
-
-
-template <class S, class W>
-class PruneCompare {
- public:
- typedef S StateId;
- typedef W Weight;
-
- PruneCompare(const vector<Weight> &idistance,
- const vector<Weight> &fdistance)
- : idistance_(idistance), fdistance_(fdistance) {}
-
- bool operator()(const StateId x, const StateId y) const {
- Weight wx = Times(x < idistance_.size() ? idistance_[x] : Weight::Zero(),
- x < fdistance_.size() ? fdistance_[x] : Weight::Zero());
- Weight wy = Times(y < idistance_.size() ? idistance_[y] : Weight::Zero(),
- y < fdistance_.size() ? fdistance_[y] : Weight::Zero());
- return less_(wx, wy);
- }
-
- private:
- const vector<Weight> &idistance_;
- const vector<Weight> &fdistance_;
- NaturalLess<Weight> less_;
-};
-
-
-
-// Pruning algorithm: this version modifies its input and it takes an
-// options class as an argment. Delete states and arcs in 'fst' that
-// do not belong to a successful path whose weight is no more than
-// the weight of the shortest path Times() 'opts.weight_threshold'.
-// When 'opts.state_threshold != kNoStateId', the resulting transducer
-// will restricted further to have at most 'opts.state_threshold'
-// states. Weights need to be commutative and have the path
-// property. The weight 'w' of any cycle needs to be bounded, i.e.,
-// 'Plus(w, W::One()) = One()'.
-template <class Arc, class ArcFilter>
-void Prune(MutableFst<Arc> *fst,
- const PruneOptions<Arc, ArcFilter> &opts) {
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- if ((Weight::Properties() & (kPath | kCommutative))
- != (kPath | kCommutative)) {
- FSTERROR() << "Prune: Weight needs to have the path property and"
- << " be commutative: "
- << Weight::Type();
- fst->SetProperties(kError, kError);
- return;
- }
- StateId ns = fst->NumStates();
- if (ns == 0) return;
- vector<Weight> idistance(ns, Weight::Zero());
- vector<Weight> tmp;
- if (!opts.distance) {
- tmp.reserve(ns);
- ShortestDistance(*fst, &tmp, true, opts.delta);
- }
- const vector<Weight> *fdistance = opts.distance ? opts.distance : &tmp;
-
- if ((opts.state_threshold == 0) ||
- (fdistance->size() <= fst->Start()) ||
- ((*fdistance)[fst->Start()] == Weight::Zero())) {
- fst->DeleteStates();
- return;
- }
- PruneCompare<StateId, Weight> compare(idistance, *fdistance);
- Heap< StateId, PruneCompare<StateId, Weight>, false> heap(compare);
- vector<bool> visited(ns, false);
- vector<size_t> enqueued(ns, kNoKey);
- vector<StateId> dead;
- dead.push_back(fst->AddState());
- NaturalLess<Weight> less;
- Weight limit = Times((*fdistance)[fst->Start()], opts.weight_threshold);
-
- StateId num_visited = 0;
- StateId s = fst->Start();
- if (!less(limit, (*fdistance)[s])) {
- idistance[s] = Weight::One();
- enqueued[s] = heap.Insert(s);
- ++num_visited;
- }
-
- while (!heap.Empty()) {
- s = heap.Top();
- heap.Pop();
- enqueued[s] = kNoKey;
- visited[s] = true;
- if (less(limit, Times(idistance[s], fst->Final(s))))
- fst->SetFinal(s, Weight::Zero());
- for (MutableArcIterator< MutableFst<Arc> > ait(fst, s);
- !ait.Done();
- ait.Next()) {
- Arc arc = ait.Value();
- if (!opts.filter(arc)) continue;
- Weight weight = Times(Times(idistance[s], arc.weight),
- arc.nextstate < fdistance->size()
- ? (*fdistance)[arc.nextstate]
- : Weight::Zero());
- if (less(limit, weight)) {
- arc.nextstate = dead[0];
- ait.SetValue(arc);
- continue;
- }
- if (less(Times(idistance[s], arc.weight), idistance[arc.nextstate]))
- idistance[arc.nextstate] = Times(idistance[s], arc.weight);
- if (visited[arc.nextstate]) continue;
- if ((opts.state_threshold != kNoStateId) &&
- (num_visited >= opts.state_threshold))
- continue;
- if (enqueued[arc.nextstate] == kNoKey) {
- enqueued[arc.nextstate] = heap.Insert(arc.nextstate);
- ++num_visited;
- } else {
- heap.Update(enqueued[arc.nextstate], arc.nextstate);
- }
- }
- }
- for (size_t i = 0; i < visited.size(); ++i)
- if (!visited[i]) dead.push_back(i);
- fst->DeleteStates(dead);
-}
-
-
-// Pruning algorithm: this version modifies its input and simply takes
-// the pruning threshold as an argument. Delete states and arcs in
-// 'fst' that do not belong to a successful path whose weight is no
-// more than the weight of the shortest path Times()
-// 'weight_threshold'. When 'state_threshold != kNoStateId', the
-// resulting transducer will be restricted further to have at most
-// 'opts.state_threshold' states. Weights need to be commutative and
-// have the path property. The weight 'w' of any cycle needs to be
-// bounded, i.e., 'Plus(w, W::One()) = One()'.
-template <class Arc>
-void Prune(MutableFst<Arc> *fst,
- typename Arc::Weight weight_threshold,
- typename Arc::StateId state_threshold = kNoStateId,
- double delta = kDelta) {
- PruneOptions<Arc, AnyArcFilter<Arc> > opts(weight_threshold, state_threshold,
- AnyArcFilter<Arc>(), 0, delta);
- Prune(fst, opts);
-}
-
-
-// Pruning algorithm: this version writes the pruned input Fst to an
-// output MutableFst and it takes an options class as an argument.
-// 'ofst' contains states and arcs that belong to a successful path in
-// 'ifst' whose weight is no more than the weight of the shortest path
-// Times() 'opts.weight_threshold'. When 'opts.state_threshold !=
-// kNoStateId', 'ofst' will be restricted further to have at most
-// 'opts.state_threshold' states. Weights need to be commutative and
-// have the path property. The weight 'w' of any cycle needs to be
-// bounded, i.e., 'Plus(w, W::One()) = One()'.
-template <class Arc, class ArcFilter>
-void Prune(const Fst<Arc> &ifst,
- MutableFst<Arc> *ofst,
- const PruneOptions<Arc, ArcFilter> &opts) {
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- if ((Weight::Properties() & (kPath | kCommutative))
- != (kPath | kCommutative)) {
- FSTERROR() << "Prune: Weight needs to have the path property and"
- << " be commutative: "
- << Weight::Type();
- ofst->SetProperties(kError, kError);
- return;
- }
- ofst->DeleteStates();
- ofst->SetInputSymbols(ifst.InputSymbols());
- ofst->SetOutputSymbols(ifst.OutputSymbols());
- if (ifst.Start() == kNoStateId)
- return;
- NaturalLess<Weight> less;
- if (less(opts.weight_threshold, Weight::One()) ||
- (opts.state_threshold == 0))
- return;
- vector<Weight> idistance;
- vector<Weight> tmp;
- if (!opts.distance)
- ShortestDistance(ifst, &tmp, true, opts.delta);
- const vector<Weight> *fdistance = opts.distance ? opts.distance : &tmp;
-
- if ((fdistance->size() <= ifst.Start()) ||
- ((*fdistance)[ifst.Start()] == Weight::Zero())) {
- return;
- }
- PruneCompare<StateId, Weight> compare(idistance, *fdistance);
- Heap< StateId, PruneCompare<StateId, Weight>, false> heap(compare);
- vector<StateId> copy;
- vector<size_t> enqueued;
- vector<bool> visited;
-
- StateId s = ifst.Start();
- Weight limit = Times(s < fdistance->size() ? (*fdistance)[s] : Weight::Zero(),
- opts.weight_threshold);
- while (copy.size() <= s)
- copy.push_back(kNoStateId);
- copy[s] = ofst->AddState();
- ofst->SetStart(copy[s]);
- while (idistance.size() <= s)
- idistance.push_back(Weight::Zero());
- idistance[s] = Weight::One();
- while (enqueued.size() <= s) {
- enqueued.push_back(kNoKey);
- visited.push_back(false);
- }
- enqueued[s] = heap.Insert(s);
-
- while (!heap.Empty()) {
- s = heap.Top();
- heap.Pop();
- enqueued[s] = kNoKey;
- visited[s] = true;
- if (!less(limit, Times(idistance[s], ifst.Final(s))))
- ofst->SetFinal(copy[s], ifst.Final(s));
- for (ArcIterator< Fst<Arc> > ait(ifst, s);
- !ait.Done();
- ait.Next()) {
- const Arc &arc = ait.Value();
- if (!opts.filter(arc)) continue;
- Weight weight = Times(Times(idistance[s], arc.weight),
- arc.nextstate < fdistance->size()
- ? (*fdistance)[arc.nextstate]
- : Weight::Zero());
- if (less(limit, weight)) continue;
- if ((opts.state_threshold != kNoStateId) &&
- (ofst->NumStates() >= opts.state_threshold))
- continue;
- while (idistance.size() <= arc.nextstate)
- idistance.push_back(Weight::Zero());
- if (less(Times(idistance[s], arc.weight),
- idistance[arc.nextstate]))
- idistance[arc.nextstate] = Times(idistance[s], arc.weight);
- while (copy.size() <= arc.nextstate)
- copy.push_back(kNoStateId);
- if (copy[arc.nextstate] == kNoStateId)
- copy[arc.nextstate] = ofst->AddState();
- ofst->AddArc(copy[s], Arc(arc.ilabel, arc.olabel, arc.weight,
- copy[arc.nextstate]));
- while (enqueued.size() <= arc.nextstate) {
- enqueued.push_back(kNoKey);
- visited.push_back(false);
- }
- if (visited[arc.nextstate]) continue;
- if (enqueued[arc.nextstate] == kNoKey)
- enqueued[arc.nextstate] = heap.Insert(arc.nextstate);
- else
- heap.Update(enqueued[arc.nextstate], arc.nextstate);
- }
- }
-}
-
-
-// Pruning algorithm: this version writes the pruned input Fst to an
-// output MutableFst and simply takes the pruning threshold as an
-// argument. 'ofst' contains states and arcs that belong to a
-// successful path in 'ifst' whose weight is no more than
-// the weight of the shortest path Times() 'weight_threshold'. When
-// 'state_threshold != kNoStateId', 'ofst' will be restricted further
-// to have at most 'opts.state_threshold' states. Weights need to be
-// commutative and have the path property. The weight 'w' of any cycle
-// needs to be bounded, i.e., 'Plus(w, W::One()) = W::One()'.
-template <class Arc>
-void Prune(const Fst<Arc> &ifst,
- MutableFst<Arc> *ofst,
- typename Arc::Weight weight_threshold,
- typename Arc::StateId state_threshold = kNoStateId,
- float delta = kDelta) {
- PruneOptions<Arc, AnyArcFilter<Arc> > opts(weight_threshold, state_threshold,
- AnyArcFilter<Arc>(), 0, delta);
- Prune(ifst, ofst, opts);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_PRUNE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/push.h b/kaldi_io/src/tools/openfst/include/fst/push.h
deleted file mode 100644
index 1f7a8fa..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/push.h
+++ /dev/null
@@ -1,175 +0,0 @@
-// push.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Class to reweight/push an FST.
-
-#ifndef FST_LIB_PUSH_H__
-#define FST_LIB_PUSH_H__
-
-#include <vector>
-using std::vector;
-
-#include <fst/factor-weight.h>
-#include <fst/fst.h>
-#include <fst/arc-map.h>
-#include <fst/reweight.h>
-#include <fst/shortest-distance.h>
-
-
-namespace fst {
-
-// Private helper functions for Push
-namespace internal {
-
-// Compute the total weight (sum of the weights of all accepting paths) from
-// the output of ShortestDistance. 'distance' is the shortest distance from the
-// initial state when 'reverse == false' and to the final states when
-// 'reverse == true'.
-template <class Arc>
-typename Arc::Weight ComputeTotalWeight(
- const Fst<Arc> &fst,
- const vector<typename Arc::Weight> &distance,
- bool reverse) {
- if (reverse)
- return fst.Start() < distance.size() ?
- distance[fst.Start()] : Arc::Weight::Zero();
-
- typename Arc::Weight sum = Arc::Weight::Zero();
- for (typename Arc::StateId s = 0; s < distance.size(); ++s)
- sum = Plus(sum, Times(distance[s], fst.Final(s)));
- return sum;
-}
-
-// Divide the weight of every accepting path by 'w'. The weight 'w' is
-// divided at the final states if 'at_final == true' and at the
-// initial state otherwise.
-template <class Arc>
-void RemoveWeight(MutableFst<Arc> *fst, typename Arc::Weight w, bool at_final) {
- if ((w == Arc::Weight::One()) || (w == Arc::Weight::Zero()))
- return;
-
- if (at_final) {
- // Remove 'w' from the final states
- for (StateIterator< MutableFst<Arc> > sit(*fst);
- !sit.Done();
- sit.Next())
- fst->SetFinal(sit.Value(),
- Divide(fst->Final(sit.Value()), w, DIVIDE_RIGHT));
- } else { // at_final == false
- // Remove 'w' from the initial state
- typename Arc::StateId start = fst->Start();
- for (MutableArcIterator<MutableFst<Arc> > ait(fst, start);
- !ait.Done();
- ait.Next()) {
- Arc arc = ait.Value();
- arc.weight = Divide(arc.weight, w, DIVIDE_LEFT);
- ait.SetValue(arc);
- }
- fst->SetFinal(start, Divide(fst->Final(start), w, DIVIDE_LEFT));
- }
-}
-} // namespace internal
-
-// Pushes the weights in FST in the direction defined by TYPE. If
-// pushing towards the initial state, the sum of the weight of the
-// outgoing transitions and final weight at a non-initial state is
-// equal to One() in the resulting machine. If pushing towards the
-// final state, the same property holds on the reverse machine.
-//
-// Weight needs to be left distributive when pushing towards the
-// initial state and right distributive when pushing towards the final
-// states.
-template <class Arc>
-void Push(MutableFst<Arc> *fst,
- ReweightType type,
- float delta = kDelta,
- bool remove_total_weight = false) {
- vector<typename Arc::Weight> distance;
- ShortestDistance(*fst, &distance, type == REWEIGHT_TO_INITIAL, delta);
- typename Arc::Weight total_weight = Arc::Weight::One();
- if (remove_total_weight)
- total_weight = internal::ComputeTotalWeight(*fst, distance,
- type == REWEIGHT_TO_INITIAL);
- Reweight(fst, distance, type);
- if (remove_total_weight)
- internal::RemoveWeight(fst, total_weight, type == REWEIGHT_TO_FINAL);
-}
-
-const uint32 kPushWeights = 0x0001;
-const uint32 kPushLabels = 0x0002;
-const uint32 kPushRemoveTotalWeight = 0x0004;
-const uint32 kPushRemoveCommonAffix = 0x0008;
-
-// OFST obtained from IFST by pushing weights and/or labels according
-// to PTYPE in the direction defined by RTYPE. Weight needs to be
-// left distributive when pushing weights towards the initial state
-// and right distributive when pushing weights towards the final
-// states.
-template <class Arc, ReweightType rtype>
-void Push(const Fst<Arc> &ifst,
- MutableFst<Arc> *ofst,
- uint32 ptype,
- float delta = kDelta) {
-
- if ((ptype & (kPushWeights | kPushLabels)) == kPushWeights) {
- *ofst = ifst;
- Push(ofst, rtype, delta, ptype & kPushRemoveTotalWeight);
- } else if (ptype & kPushLabels) {
- const StringType stype = rtype == REWEIGHT_TO_INITIAL
- ? STRING_LEFT
- : STRING_RIGHT;
- vector<typename GallicArc<Arc, stype>::Weight> gdistance;
- VectorFst<GallicArc<Arc, stype> > gfst;
- ArcMap(ifst, &gfst, ToGallicMapper<Arc, stype>());
- if (ptype & kPushWeights ) {
- ShortestDistance(gfst, &gdistance, rtype == REWEIGHT_TO_INITIAL, delta);
- } else {
- ArcMapFst<Arc, Arc, RmWeightMapper<Arc> >
- uwfst(ifst, RmWeightMapper<Arc>());
- ArcMapFst<Arc, GallicArc<Arc, stype>, ToGallicMapper<Arc, stype> >
- guwfst(uwfst, ToGallicMapper<Arc, stype>());
- ShortestDistance(guwfst, &gdistance, rtype == REWEIGHT_TO_INITIAL, delta);
- }
- typename GallicArc<Arc, stype>::Weight total_weight =
- GallicArc<Arc, stype>::Weight::One();
- if (ptype & (kPushRemoveTotalWeight | kPushRemoveCommonAffix)) {
- total_weight = internal::ComputeTotalWeight(
- gfst, gdistance, rtype == REWEIGHT_TO_INITIAL);
- total_weight = typename GallicArc<Arc, stype>::Weight(
- ptype & kPushRemoveCommonAffix ? total_weight.Value1()
- : StringWeight<typename Arc::Label, stype>::One(),
- ptype & kPushRemoveTotalWeight ? total_weight.Value2()
- : Arc::Weight::One());
- }
- Reweight(&gfst, gdistance, rtype);
- if (ptype & (kPushRemoveTotalWeight | kPushRemoveCommonAffix))
- internal::RemoveWeight(&gfst, total_weight, rtype == REWEIGHT_TO_FINAL);
- FactorWeightFst< GallicArc<Arc, stype>, GallicFactor<typename Arc::Label,
- typename Arc::Weight, stype> > fwfst(gfst);
- ArcMap(fwfst, ofst, FromGallicMapper<Arc, stype>());
- ofst->SetOutputSymbols(ifst.OutputSymbols());
- } else {
- LOG(WARNING) << "Push: pushing type is set to 0: "
- << "pushing neither labels nor weights.";
- *ofst = ifst;
- }
-}
-
-} // namespace fst
-
-#endif /* FST_LIB_PUSH_H_ */
diff --git a/kaldi_io/src/tools/openfst/include/fst/queue.h b/kaldi_io/src/tools/openfst/include/fst/queue.h
deleted file mode 100644
index 95a082d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/queue.h
+++ /dev/null
@@ -1,938 +0,0 @@
-// queue.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Functions and classes for various Fst state queues with
-// a unified interface.
-
-#ifndef FST_LIB_QUEUE_H__
-#define FST_LIB_QUEUE_H__
-
-#include <deque>
-using std::deque;
-#include <vector>
-using std::vector;
-
-#include <fst/arcfilter.h>
-#include <fst/connect.h>
-#include <fst/heap.h>
-#include <fst/topsort.h>
-
-
-namespace fst {
-
-// template <class S>
-// class Queue {
-// public:
-// typedef typename S StateId;
-//
-// // Ctr: may need args (e.g., Fst, comparator) for some queues
-// Queue(...);
-// // Returns the head of the queue
-// StateId Head() const;
-// // Inserts a state
-// void Enqueue(StateId s);
-// // Removes the head of the queue
-// void Dequeue();
-// // Updates ordering of state s when weight changes, if necessary
-// void Update(StateId s);
-// // Does the queue contain no elements?
-// bool Empty() const;
-// // Remove all states from queue
-// void Clear();
-// };
-
-// State queue types.
-enum QueueType {
- TRIVIAL_QUEUE = 0, // Single state queue
- FIFO_QUEUE = 1, // First-in, first-out queue
- LIFO_QUEUE = 2, // Last-in, first-out queue
- SHORTEST_FIRST_QUEUE = 3, // Shortest-first queue
- TOP_ORDER_QUEUE = 4, // Topologically-ordered queue
- STATE_ORDER_QUEUE = 5, // State-ID ordered queue
- SCC_QUEUE = 6, // Component graph top-ordered meta-queue
- AUTO_QUEUE = 7, // Auto-selected queue
- OTHER_QUEUE = 8
- };
-
-
-// QueueBase, templated on the StateId, is the base class shared by the
-// queues considered by AutoQueue.
-template <class S>
-class QueueBase {
- public:
- typedef S StateId;
-
- QueueBase(QueueType type) : queue_type_(type), error_(false) {}
- virtual ~QueueBase() {}
- StateId Head() const { return Head_(); }
- void Enqueue(StateId s) { Enqueue_(s); }
- void Dequeue() { Dequeue_(); }
- void Update(StateId s) { Update_(s); }
- bool Empty() const { return Empty_(); }
- void Clear() { Clear_(); }
- QueueType Type() { return queue_type_; }
- bool Error() const { return error_; }
- void SetError(bool error) { error_ = error; }
-
- private:
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const = 0;
- virtual void Enqueue_(StateId s) = 0;
- virtual void Dequeue_() = 0;
- virtual void Update_(StateId s) = 0;
- virtual bool Empty_() const = 0;
- virtual void Clear_() = 0;
-
- QueueType queue_type_;
- bool error_;
-};
-
-
-// Trivial queue discipline, templated on the StateId. You may enqueue
-// at most one state at a time. It is used for strongly connected components
-// with only one state and no self loops.
-template <class S>
-class TrivialQueue : public QueueBase<S> {
-public:
- typedef S StateId;
-
- TrivialQueue() : QueueBase<S>(TRIVIAL_QUEUE), front_(kNoStateId) {}
- StateId Head() const { return front_; }
- void Enqueue(StateId s) { front_ = s; }
- void Dequeue() { front_ = kNoStateId; }
- void Update(StateId s) {}
- bool Empty() const { return front_ == kNoStateId; }
- void Clear() { front_ = kNoStateId; }
-
-
-private:
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const { return Head(); }
- virtual void Enqueue_(StateId s) { Enqueue(s); }
- virtual void Dequeue_() { Dequeue(); }
- virtual void Update_(StateId s) { Update(s); }
- virtual bool Empty_() const { return Empty(); }
- virtual void Clear_() { return Clear(); }
-
- StateId front_;
-};
-
-
-// First-in, first-out queue discipline, templated on the StateId.
-template <class S>
-class FifoQueue : public QueueBase<S>, public deque<S> {
- public:
- using deque<S>::back;
- using deque<S>::push_front;
- using deque<S>::pop_back;
- using deque<S>::empty;
- using deque<S>::clear;
-
- typedef S StateId;
-
- FifoQueue() : QueueBase<S>(FIFO_QUEUE) {}
- StateId Head() const { return back(); }
- void Enqueue(StateId s) { push_front(s); }
- void Dequeue() { pop_back(); }
- void Update(StateId s) {}
- bool Empty() const { return empty(); }
- void Clear() { clear(); }
-
- private:
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const { return Head(); }
- virtual void Enqueue_(StateId s) { Enqueue(s); }
- virtual void Dequeue_() { Dequeue(); }
- virtual void Update_(StateId s) { Update(s); }
- virtual bool Empty_() const { return Empty(); }
- virtual void Clear_() { return Clear(); }
-};
-
-
-// Last-in, first-out queue discipline, templated on the StateId.
-template <class S>
-class LifoQueue : public QueueBase<S>, public deque<S> {
- public:
- using deque<S>::front;
- using deque<S>::push_front;
- using deque<S>::pop_front;
- using deque<S>::empty;
- using deque<S>::clear;
-
- typedef S StateId;
-
- LifoQueue() : QueueBase<S>(LIFO_QUEUE) {}
- StateId Head() const { return front(); }
- void Enqueue(StateId s) { push_front(s); }
- void Dequeue() { pop_front(); }
- void Update(StateId s) {}
- bool Empty() const { return empty(); }
- void Clear() { clear(); }
-
- private:
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const { return Head(); }
- virtual void Enqueue_(StateId s) { Enqueue(s); }
- virtual void Dequeue_() { Dequeue(); }
- virtual void Update_(StateId s) { Update(s); }
- virtual bool Empty_() const { return Empty(); }
- virtual void Clear_() { return Clear(); }
-};
-
-
-// Shortest-first queue discipline, templated on the StateId and
-// comparison function object. Comparison function object COMP is
-// used to compare two StateIds. If a (single) state's order changes,
-// it can be reordered in the queue with a call to Update().
-// If 'update == false', call to Update() does not reorder the queue.
-template <typename S, typename C, bool update = true>
-class ShortestFirstQueue : public QueueBase<S> {
- public:
- typedef S StateId;
- typedef C Compare;
-
- ShortestFirstQueue(C comp)
- : QueueBase<S>(SHORTEST_FIRST_QUEUE), heap_(comp) {}
-
- StateId Head() const { return heap_.Top(); }
-
- void Enqueue(StateId s) {
- if (update) {
- for (StateId i = key_.size(); i <= s; ++i)
- key_.push_back(kNoKey);
- key_[s] = heap_.Insert(s);
- } else {
- heap_.Insert(s);
- }
- }
-
- void Dequeue() {
- if (update)
- key_[heap_.Pop()] = kNoKey;
- else
- heap_.Pop();
- }
-
- void Update(StateId s) {
- if (!update)
- return;
- if (s >= key_.size() || key_[s] == kNoKey) {
- Enqueue(s);
- } else {
- heap_.Update(key_[s], s);
- }
- }
-
- bool Empty() const { return heap_.Empty(); }
-
- void Clear() {
- heap_.Clear();
- if (update) key_.clear();
- }
-
- private:
- Heap<S, C, false> heap_;
- vector<ssize_t> key_;
-
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const { return Head(); }
- virtual void Enqueue_(StateId s) { Enqueue(s); }
- virtual void Dequeue_() { Dequeue(); }
- virtual void Update_(StateId s) { Update(s); }
- virtual bool Empty_() const { return Empty(); }
- virtual void Clear_() { return Clear(); }
-};
-
-
-// Given a vector that maps from states to weights and a Less
-// comparison function object between weights, this class defines a
-// comparison function object between states.
-template <typename S, typename L>
-class StateWeightCompare {
- public:
- typedef L Less;
- typedef typename L::Weight Weight;
- typedef S StateId;
-
- StateWeightCompare(const vector<Weight>& weights, const L &less)
- : weights_(weights), less_(less) {}
-
- bool operator()(const S x, const S y) const {
- return less_(weights_[x], weights_[y]);
- }
-
- private:
- const vector<Weight>& weights_;
- L less_;
-};
-
-
-// Shortest-first queue discipline, templated on the StateId and Weight, is
-// specialized to use the weight's natural order for the comparison function.
-template <typename S, typename W>
-class NaturalShortestFirstQueue :
- public ShortestFirstQueue<S, StateWeightCompare<S, NaturalLess<W> > > {
- public:
- typedef StateWeightCompare<S, NaturalLess<W> > C;
-
- NaturalShortestFirstQueue(const vector<W> &distance) :
- ShortestFirstQueue<S, C>(C(distance, less_)) {}
-
- private:
- NaturalLess<W> less_;
-};
-
-// Topological-order queue discipline, templated on the StateId.
-// States are ordered in the queue topologically. The FST must be acyclic.
-template <class S>
-class TopOrderQueue : public QueueBase<S> {
- public:
- typedef S StateId;
-
- // This constructor computes the top. order. It accepts an arc filter
- // to limit the transitions considered in that computation (e.g., only
- // the epsilon graph).
- template <class Arc, class ArcFilter>
- TopOrderQueue(const Fst<Arc> &fst, ArcFilter filter)
- : QueueBase<S>(TOP_ORDER_QUEUE), front_(0), back_(kNoStateId),
- order_(0), state_(0) {
- bool acyclic;
- TopOrderVisitor<Arc> top_order_visitor(&order_, &acyclic);
- DfsVisit(fst, &top_order_visitor, filter);
- if (!acyclic) {
- FSTERROR() << "TopOrderQueue: fst is not acyclic.";
- QueueBase<S>::SetError(true);
- }
- state_.resize(order_.size(), kNoStateId);
- }
-
- // This constructor is passed the top. order, useful when we know it
- // beforehand.
- TopOrderQueue(const vector<StateId> &order)
- : QueueBase<S>(TOP_ORDER_QUEUE), front_(0), back_(kNoStateId),
- order_(order), state_(order.size(), kNoStateId) {}
-
- StateId Head() const { return state_[front_]; }
-
- void Enqueue(StateId s) {
- if (front_ > back_) front_ = back_ = order_[s];
- else if (order_[s] > back_) back_ = order_[s];
- else if (order_[s] < front_) front_ = order_[s];
- state_[order_[s]] = s;
- }
-
- void Dequeue() {
- state_[front_] = kNoStateId;
- while ((front_ <= back_) && (state_[front_] == kNoStateId)) ++front_;
- }
-
- void Update(StateId s) {}
-
- bool Empty() const { return front_ > back_; }
-
- void Clear() {
- for (StateId i = front_; i <= back_; ++i) state_[i] = kNoStateId;
- back_ = kNoStateId;
- front_ = 0;
- }
-
- private:
- StateId front_;
- StateId back_;
- vector<StateId> order_;
- vector<StateId> state_;
-
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const { return Head(); }
- virtual void Enqueue_(StateId s) { Enqueue(s); }
- virtual void Dequeue_() { Dequeue(); }
- virtual void Update_(StateId s) { Update(s); }
- virtual bool Empty_() const { return Empty(); }
- virtual void Clear_() { return Clear(); }
-};
-
-
-// State order queue discipline, templated on the StateId.
-// States are ordered in the queue by state Id.
-template <class S>
-class StateOrderQueue : public QueueBase<S> {
-public:
- typedef S StateId;
-
- StateOrderQueue()
- : QueueBase<S>(STATE_ORDER_QUEUE), front_(0), back_(kNoStateId) {}
-
- StateId Head() const { return front_; }
-
- void Enqueue(StateId s) {
- if (front_ > back_) front_ = back_ = s;
- else if (s > back_) back_ = s;
- else if (s < front_) front_ = s;
- while (enqueued_.size() <= s) enqueued_.push_back(false);
- enqueued_[s] = true;
- }
-
- void Dequeue() {
- enqueued_[front_] = false;
- while ((front_ <= back_) && (enqueued_[front_] == false)) ++front_;
- }
-
- void Update(StateId s) {}
-
- bool Empty() const { return front_ > back_; }
-
- void Clear() {
- for (StateId i = front_; i <= back_; ++i) enqueued_[i] = false;
- front_ = 0;
- back_ = kNoStateId;
- }
-
-private:
- StateId front_;
- StateId back_;
- vector<bool> enqueued_;
-
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const { return Head(); }
- virtual void Enqueue_(StateId s) { Enqueue(s); }
- virtual void Dequeue_() { Dequeue(); }
- virtual void Update_(StateId s) { Update(s); }
- virtual bool Empty_() const { return Empty(); }
- virtual void Clear_() { return Clear(); }
-
-};
-
-
-// SCC topological-order meta-queue discipline, templated on the StateId S
-// and a queue Q, which is used inside each SCC. It visits the SCC's
-// of an FST in topological order. Its constructor is passed the queues to
-// to use within an SCC.
-template <class S, class Q>
-class SccQueue : public QueueBase<S> {
- public:
- typedef S StateId;
- typedef Q Queue;
-
- // Constructor takes a vector specifying the SCC number per state
- // and a vector giving the queue to use per SCC number.
- SccQueue(const vector<StateId> &scc, vector<Queue*> *queue)
- : QueueBase<S>(SCC_QUEUE), queue_(queue), scc_(scc), front_(0),
- back_(kNoStateId) {}
-
- StateId Head() const {
- while ((front_ <= back_) &&
- (((*queue_)[front_] && (*queue_)[front_]->Empty())
- || (((*queue_)[front_] == 0) &&
- ((front_ >= trivial_queue_.size())
- || (trivial_queue_[front_] == kNoStateId)))))
- ++front_;
- if ((*queue_)[front_])
- return (*queue_)[front_]->Head();
- else
- return trivial_queue_[front_];
- }
-
- void Enqueue(StateId s) {
- if (front_ > back_) front_ = back_ = scc_[s];
- else if (scc_[s] > back_) back_ = scc_[s];
- else if (scc_[s] < front_) front_ = scc_[s];
- if ((*queue_)[scc_[s]]) {
- (*queue_)[scc_[s]]->Enqueue(s);
- } else {
- while (trivial_queue_.size() <= scc_[s])
- trivial_queue_.push_back(kNoStateId);
- trivial_queue_[scc_[s]] = s;
- }
- }
-
- void Dequeue() {
- if ((*queue_)[front_])
- (*queue_)[front_]->Dequeue();
- else if (front_ < trivial_queue_.size())
- trivial_queue_[front_] = kNoStateId;
- }
-
- void Update(StateId s) {
- if ((*queue_)[scc_[s]])
- (*queue_)[scc_[s]]->Update(s);
- }
-
- bool Empty() const {
- if (front_ < back_) // Queue scc # back_ not empty unless back_==front_
- return false;
- else if (front_ > back_)
- return true;
- else if ((*queue_)[front_])
- return (*queue_)[front_]->Empty();
- else
- return (front_ >= trivial_queue_.size())
- || (trivial_queue_[front_] == kNoStateId);
- }
-
- void Clear() {
- for (StateId i = front_; i <= back_; ++i)
- if ((*queue_)[i])
- (*queue_)[i]->Clear();
- else if (i < trivial_queue_.size())
- trivial_queue_[i] = kNoStateId;
- front_ = 0;
- back_ = kNoStateId;
- }
-
-private:
- vector<Queue*> *queue_;
- const vector<StateId> &scc_;
- mutable StateId front_;
- StateId back_;
- vector<StateId> trivial_queue_;
-
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const { return Head(); }
- virtual void Enqueue_(StateId s) { Enqueue(s); }
- virtual void Dequeue_() { Dequeue(); }
- virtual void Update_(StateId s) { Update(s); }
- virtual bool Empty_() const { return Empty(); }
- virtual void Clear_() { return Clear(); }
-
- DISALLOW_COPY_AND_ASSIGN(SccQueue);
-};
-
-
-// Automatic queue discipline, templated on the StateId. It selects a
-// queue discipline for a given FST based on its properties.
-template <class S>
-class AutoQueue : public QueueBase<S> {
-public:
- typedef S StateId;
-
- // This constructor takes a state distance vector that, if non-null and if
- // the Weight type has the path property, will entertain the
- // shortest-first queue using the natural order w.r.t to the distance.
- template <class Arc, class ArcFilter>
- AutoQueue(const Fst<Arc> &fst, const vector<typename Arc::Weight> *distance,
- ArcFilter filter) : QueueBase<S>(AUTO_QUEUE) {
- typedef typename Arc::Weight Weight;
- typedef StateWeightCompare< StateId, NaturalLess<Weight> > Compare;
-
- // First check if the FST is known to have these properties.
- uint64 props = fst.Properties(kAcyclic | kCyclic |
- kTopSorted | kUnweighted, false);
- if ((props & kTopSorted) || fst.Start() == kNoStateId) {
- queue_ = new StateOrderQueue<StateId>();
- VLOG(2) << "AutoQueue: using state-order discipline";
- } else if (props & kAcyclic) {
- queue_ = new TopOrderQueue<StateId>(fst, filter);
- VLOG(2) << "AutoQueue: using top-order discipline";
- } else if ((props & kUnweighted) && (Weight::Properties() & kIdempotent)) {
- queue_ = new LifoQueue<StateId>();
- VLOG(2) << "AutoQueue: using LIFO discipline";
- } else {
- uint64 properties;
- // Decompose into strongly-connected components.
- SccVisitor<Arc> scc_visitor(&scc_, 0, 0, &properties);
- DfsVisit(fst, &scc_visitor, filter);
- StateId nscc = *max_element(scc_.begin(), scc_.end()) + 1;
- vector<QueueType> queue_types(nscc);
- NaturalLess<Weight> *less = 0;
- Compare *comp = 0;
- if (distance && (Weight::Properties() & kPath)) {
- less = new NaturalLess<Weight>;
- comp = new Compare(*distance, *less);
- }
- // Find the queue type to use per SCC.
- bool unweighted;
- bool all_trivial;
- SccQueueType(fst, scc_, &queue_types, filter, less, &all_trivial,
- &unweighted);
- // If unweighted and semiring is idempotent, use lifo queue.
- if (unweighted) {
- queue_ = new LifoQueue<StateId>();
- VLOG(2) << "AutoQueue: using LIFO discipline";
- delete comp;
- delete less;
- return;
- }
- // If all the scc are trivial, FST is acyclic and the scc# gives
- // the topological order.
- if (all_trivial) {
- queue_ = new TopOrderQueue<StateId>(scc_);
- VLOG(2) << "AutoQueue: using top-order discipline";
- delete comp;
- delete less;
- return;
- }
- VLOG(2) << "AutoQueue: using SCC meta-discipline";
- queues_.resize(nscc);
- for (StateId i = 0; i < nscc; ++i) {
- switch(queue_types[i]) {
- case TRIVIAL_QUEUE:
- queues_[i] = 0;
- VLOG(3) << "AutoQueue: SCC #" << i
- << ": using trivial discipline";
- break;
- case SHORTEST_FIRST_QUEUE:
- queues_[i] = new ShortestFirstQueue<StateId, Compare, false>(*comp);
- VLOG(3) << "AutoQueue: SCC #" << i <<
- ": using shortest-first discipline";
- break;
- case LIFO_QUEUE:
- queues_[i] = new LifoQueue<StateId>();
- VLOG(3) << "AutoQueue: SCC #" << i
- << ": using LIFO disciplle";
- break;
- case FIFO_QUEUE:
- default:
- queues_[i] = new FifoQueue<StateId>();
- VLOG(3) << "AutoQueue: SCC #" << i
- << ": using FIFO disciplle";
- break;
- }
- }
- queue_ = new SccQueue< StateId, QueueBase<StateId> >(scc_, &queues_);
- delete comp;
- delete less;
- }
- }
-
- ~AutoQueue() {
- for (StateId i = 0; i < queues_.size(); ++i)
- delete queues_[i];
- delete queue_;
- }
-
- StateId Head() const { return queue_->Head(); }
-
- void Enqueue(StateId s) { queue_->Enqueue(s); }
-
- void Dequeue() { queue_->Dequeue(); }
-
- void Update(StateId s) { queue_->Update(s); }
-
- bool Empty() const { return queue_->Empty(); }
-
- void Clear() { queue_->Clear(); }
-
-
- private:
- QueueBase<StateId> *queue_;
- vector< QueueBase<StateId>* > queues_;
- vector<StateId> scc_;
-
- template <class Arc, class ArcFilter, class Less>
- static void SccQueueType(const Fst<Arc> &fst,
- const vector<StateId> &scc,
- vector<QueueType> *queue_types,
- ArcFilter filter, Less *less,
- bool *all_trivial, bool *unweighted);
-
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const { return Head(); }
-
- virtual void Enqueue_(StateId s) { Enqueue(s); }
-
- virtual void Dequeue_() { Dequeue(); }
-
- virtual void Update_(StateId s) { Update(s); }
-
- virtual bool Empty_() const { return Empty(); }
-
- virtual void Clear_() { return Clear(); }
-
- DISALLOW_COPY_AND_ASSIGN(AutoQueue);
-};
-
-
-// Examines the states in an Fst's strongly connected components and
-// determines which type of queue to use per SCC. Stores result in
-// vector QUEUE_TYPES, which is assumed to have length equal to the
-// number of SCCs. An arc filter is used to limit the transitions
-// considered (e.g., only the epsilon graph). ALL_TRIVIAL is set
-// to true if every queue is the trivial queue. UNWEIGHTED is set to
-// true if the semiring is idempotent and all the arc weights are equal to
-// Zero() or One().
-template <class StateId>
-template <class A, class ArcFilter, class Less>
-void AutoQueue<StateId>::SccQueueType(const Fst<A> &fst,
- const vector<StateId> &scc,
- vector<QueueType> *queue_type,
- ArcFilter filter, Less *less,
- bool *all_trivial, bool *unweighted) {
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- *all_trivial = true;
- *unweighted = true;
-
- for (StateId i = 0; i < queue_type->size(); ++i)
- (*queue_type)[i] = TRIVIAL_QUEUE;
-
- for (StateIterator< Fst<Arc> > sit(fst); !sit.Done(); sit.Next()) {
- StateId state = sit.Value();
- for (ArcIterator< Fst<Arc> > ait(fst, state);
- !ait.Done();
- ait.Next()) {
- const Arc &arc = ait.Value();
- if (!filter(arc)) continue;
- if (scc[state] == scc[arc.nextstate]) {
- QueueType &type = (*queue_type)[scc[state]];
- if (!less || ((*less)(arc.weight, Weight::One())))
- type = FIFO_QUEUE;
- else if ((type == TRIVIAL_QUEUE) || (type == LIFO_QUEUE)) {
- if (!(Weight::Properties() & kIdempotent) ||
- (arc.weight != Weight::Zero() && arc.weight != Weight::One()))
- type = SHORTEST_FIRST_QUEUE;
- else
- type = LIFO_QUEUE;
- }
- if (type != TRIVIAL_QUEUE) *all_trivial = false;
- }
- if (!(Weight::Properties() & kIdempotent) ||
- (arc.weight != Weight::Zero() && arc.weight != Weight::One()))
- *unweighted = false;
- }
- }
-}
-
-
-// An A* estimate is a function object that maps from a state ID to a
-// an estimate of the shortest distance to the final states.
-// The trivial A* estimate is always One().
-template <typename S, typename W>
-struct TrivialAStarEstimate {
- W operator()(S s) const { return W::One(); }
-};
-
-
-// Given a vector that maps from states to weights representing the
-// shortest distance from the initial state, a Less comparison
-// function object between weights, and an estimate E of the
-// shortest distance to the final states, this class defines a
-// comparison function object between states.
-template <typename S, typename L, typename E>
-class AStarWeightCompare {
- public:
- typedef L Less;
- typedef typename L::Weight Weight;
- typedef S StateId;
-
- AStarWeightCompare(const vector<Weight>& weights, const L &less,
- const E &estimate)
- : weights_(weights), less_(less), estimate_(estimate) {}
-
- bool operator()(const S x, const S y) const {
- Weight wx = Times(weights_[x], estimate_(x));
- Weight wy = Times(weights_[y], estimate_(y));
- return less_(wx, wy);
- }
-
- private:
- const vector<Weight>& weights_;
- L less_;
- const E &estimate_;
-};
-
-
-// A* queue discipline, templated on the StateId, Weight and an
-// estimate E of the shortest distance to the final states, is specialized
-// to use the weight's natural order for the comparison function.
-template <typename S, typename W, typename E>
-class NaturalAStarQueue :
- public ShortestFirstQueue<S, AStarWeightCompare<S, NaturalLess<W>, E> > {
- public:
- typedef AStarWeightCompare<S, NaturalLess<W>, E> C;
-
- NaturalAStarQueue(const vector<W> &distance, const E &estimate) :
- ShortestFirstQueue<S, C>(C(distance, less_, estimate)) {}
-
- private:
- NaturalLess<W> less_;
-};
-
-
-// A state equivalence class is a function object that
-// maps from a state ID to an equivalence class (state) ID.
-// The trivial equivalence class maps a state to itself.
-template <typename S>
-struct TrivialStateEquivClass {
- S operator()(S s) const { return s; }
-};
-
-
-// Distance-based pruning queue discipline: Enqueues a state 's'
-// only when its shortest distance (so far), as specified by
-// 'distance', is less than (as specified by 'comp') the shortest
-// distance Times() the 'threshold' to any state in the same
-// equivalence class, as specified by the function object
-// 'class_func'. The underlying queue discipline is specified by
-// 'queue'. The ownership of 'queue' is given to this class.
-template <typename Q, typename L, typename C>
-class PruneQueue : public QueueBase<typename Q::StateId> {
- public:
- typedef typename Q::StateId StateId;
- typedef typename L::Weight Weight;
-
- PruneQueue(const vector<Weight> &distance, Q *queue, L comp,
- const C &class_func, Weight threshold)
- : QueueBase<StateId>(OTHER_QUEUE),
- distance_(distance),
- queue_(queue),
- less_(comp),
- class_func_(class_func),
- threshold_(threshold) {}
-
- ~PruneQueue() { delete queue_; }
-
- StateId Head() const { return queue_->Head(); }
-
- void Enqueue(StateId s) {
- StateId c = class_func_(s);
- if (c >= class_distance_.size())
- class_distance_.resize(c + 1, Weight::Zero());
- if (less_(distance_[s], class_distance_[c]))
- class_distance_[c] = distance_[s];
-
- // Enqueue only if below threshold limit
- Weight limit = Times(class_distance_[c], threshold_);
- if (less_(distance_[s], limit))
- queue_->Enqueue(s);
- }
-
- void Dequeue() { queue_->Dequeue(); }
-
- void Update(StateId s) {
- StateId c = class_func_(s);
- if (less_(distance_[s], class_distance_[c]))
- class_distance_[c] = distance_[s];
- queue_->Update(s);
- }
-
- bool Empty() const { return queue_->Empty(); }
- void Clear() { queue_->Clear(); }
-
- private:
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const { return Head(); }
- virtual void Enqueue_(StateId s) { Enqueue(s); }
- virtual void Dequeue_() { Dequeue(); }
- virtual void Update_(StateId s) { Update(s); }
- virtual bool Empty_() const { return Empty(); }
- virtual void Clear_() { return Clear(); }
-
- const vector<Weight> &distance_; // shortest distance to state
- Q *queue_;
- L less_;
- const C &class_func_; // eqv. class function object
- Weight threshold_; // pruning weight threshold
- vector<Weight> class_distance_; // shortest distance to class
-
- DISALLOW_COPY_AND_ASSIGN(PruneQueue);
-};
-
-
-// Pruning queue discipline (see above) using the weight's natural
-// order for the comparison function. The ownership of 'queue' is
-// given to this class.
-template <typename Q, typename W, typename C>
-class NaturalPruneQueue :
- public PruneQueue<Q, NaturalLess<W>, C> {
- public:
- typedef typename Q::StateId StateId;
- typedef W Weight;
-
- NaturalPruneQueue(const vector<W> &distance, Q *queue,
- const C &class_func_, Weight threshold) :
- PruneQueue<Q, NaturalLess<W>, C>(distance, queue, less_,
- class_func_, threshold) {}
-
- private:
- NaturalLess<W> less_;
-};
-
-
-// Filter-based pruning queue discipline: Enqueues a state 's' only
-// if allowed by the filter, specified by the function object 'state_filter'.
-// The underlying queue discipline is specified by 'queue'. The ownership
-// of 'queue' is given to this class.
-template <typename Q, typename F>
-class FilterQueue : public QueueBase<typename Q::StateId> {
- public:
- typedef typename Q::StateId StateId;
-
- FilterQueue(Q *queue, const F &state_filter)
- : QueueBase<StateId>(OTHER_QUEUE),
- queue_(queue),
- state_filter_(state_filter) {}
-
- ~FilterQueue() { delete queue_; }
-
- StateId Head() const { return queue_->Head(); }
-
- // Enqueues only if allowed by state filter.
- void Enqueue(StateId s) {
- if (state_filter_(s)) {
- queue_->Enqueue(s);
- }
- }
-
- void Dequeue() { queue_->Dequeue(); }
-
- void Update(StateId s) {}
- bool Empty() const { return queue_->Empty(); }
- void Clear() { queue_->Clear(); }
-
- private:
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual StateId Head_() const { return Head(); }
- virtual void Enqueue_(StateId s) { Enqueue(s); }
- virtual void Dequeue_() { Dequeue(); }
- virtual void Update_(StateId s) { Update(s); }
- virtual bool Empty_() const { return Empty(); }
- virtual void Clear_() { return Clear(); }
-
- Q *queue_;
- const F &state_filter_; // Filter to prune states
-
- DISALLOW_COPY_AND_ASSIGN(FilterQueue);
-};
-
-} // namespace fst
-
-#endif
diff --git a/kaldi_io/src/tools/openfst/include/fst/randequivalent.h b/kaldi_io/src/tools/openfst/include/fst/randequivalent.h
deleted file mode 100644
index 1aaccf7..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/randequivalent.h
+++ /dev/null
@@ -1,135 +0,0 @@
-// randequivalent.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Tests if two FSTS are equivalent by checking if random
-// strings from one FST are transduced the same by both FSTs.
-
-#ifndef FST_RANDEQUIVALENT_H__
-#define FST_RANDEQUIVALENT_H__
-
-#include <fst/arcsort.h>
-#include <fst/compose.h>
-#include <fst/project.h>
-#include <fst/randgen.h>
-#include <fst/shortest-distance.h>
-#include <fst/vector-fst.h>
-
-
-namespace fst {
-
-// Test if two FSTs are equivalent by randomly generating 'num_paths'
-// paths (as specified by the RandGenOptions 'opts') in these FSTs.
-//
-// For each randomly generated path, the algorithm computes for each
-// of the two FSTs the sum of the weights of all the successful paths
-// sharing the same input and output labels as the considered randomly
-// generated path and checks that these two values are within
-// 'delta'. Returns optional error value (when FLAGS_error_fatal = false).
-template<class Arc, class ArcSelector>
-bool RandEquivalent(const Fst<Arc> &fst1, const Fst<Arc> &fst2,
- ssize_t num_paths, float delta,
- const RandGenOptions<ArcSelector> &opts,
- bool *error = 0) {
- typedef typename Arc::Weight Weight;
- if (error) *error = false;
-
- // Check that the symbol table are compatible
- if (!CompatSymbols(fst1.InputSymbols(), fst2.InputSymbols()) ||
- !CompatSymbols(fst1.OutputSymbols(), fst2.OutputSymbols())) {
- FSTERROR() << "RandEquivalent: input/output symbol tables of 1st "
- << "argument do not match input/output symbol tables of 2nd "
- << "argument";
- if (error) *error = true;
- return false;
- }
-
- ILabelCompare<Arc> icomp;
- OLabelCompare<Arc> ocomp;
- VectorFst<Arc> sfst1(fst1);
- VectorFst<Arc> sfst2(fst2);
- Connect(&sfst1);
- Connect(&sfst2);
- ArcSort(&sfst1, icomp);
- ArcSort(&sfst2, icomp);
-
- bool ret = true;
- for (ssize_t n = 0; n < num_paths; ++n) {
- VectorFst<Arc> path;
- const Fst<Arc> &fst = rand() % 2 ? sfst1 : sfst2;
- RandGen(fst, &path, opts);
-
- VectorFst<Arc> ipath(path);
- VectorFst<Arc> opath(path);
- Project(&ipath, PROJECT_INPUT);
- Project(&opath, PROJECT_OUTPUT);
-
- VectorFst<Arc> cfst1, pfst1;
- Compose(ipath, sfst1, &cfst1);
- ArcSort(&cfst1, ocomp);
- Compose(cfst1, opath, &pfst1);
- // Give up if there are epsilon cycles in a non-idempotent semiring
- if (!(Weight::Properties() & kIdempotent) &&
- pfst1.Properties(kCyclic, true))
- continue;
- Weight sum1 = ShortestDistance(pfst1);
-
- VectorFst<Arc> cfst2, pfst2;
- Compose(ipath, sfst2, &cfst2);
- ArcSort(&cfst2, ocomp);
- Compose(cfst2, opath, &pfst2);
- // Give up if there are epsilon cycles in a non-idempotent semiring
- if (!(Weight::Properties() & kIdempotent) &&
- pfst2.Properties(kCyclic, true))
- continue;
- Weight sum2 = ShortestDistance(pfst2);
-
- if (!ApproxEqual(sum1, sum2, delta)) {
- VLOG(1) << "Sum1 = " << sum1;
- VLOG(1) << "Sum2 = " << sum2;
- ret = false;
- break;
- }
- }
-
- if (fst1.Properties(kError, false) || fst2.Properties(kError, false)) {
- if (error) *error = true;
- return false;
- }
-
- return ret;
-}
-
-
-// Test if two FSTs are equivalent by randomly generating 'num_paths' paths
-// of length no more than 'path_length' using the seed 'seed' in these FSTs.
-// Returns optional error value (when FLAGS_error_fatal = false).
-template <class Arc>
-bool RandEquivalent(const Fst<Arc> &fst1, const Fst<Arc> &fst2,
- ssize_t num_paths, float delta = kDelta,
- int seed = time(0), int path_length = INT_MAX,
- bool *error = 0) {
- UniformArcSelector<Arc> uniform_selector(seed);
- RandGenOptions< UniformArcSelector<Arc> >
- opts(uniform_selector, path_length);
- return RandEquivalent(fst1, fst2, num_paths, delta, opts, error);
-}
-
-
-} // namespace fst
-
-#endif // FST_LIB_RANDEQUIVALENT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/randgen.h b/kaldi_io/src/tools/openfst/include/fst/randgen.h
deleted file mode 100644
index 82ddffa..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/randgen.h
+++ /dev/null
@@ -1,712 +0,0 @@
-// randgen.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Classes and functions to generate random paths through an FST.
-
-#ifndef FST_LIB_RANDGEN_H__
-#define FST_LIB_RANDGEN_H__
-
-#include <cmath>
-#include <cstdlib>
-#include <ctime>
-#include <map>
-
-#include <fst/accumulator.h>
-#include <fst/cache.h>
-#include <fst/dfs-visit.h>
-#include <fst/mutable-fst.h>
-
-namespace fst {
-
-//
-// ARC SELECTORS - these function objects are used to select a random
-// transition to take from an FST's state. They should return a number
-// N s.t. 0 <= N <= NumArcs(). If N < NumArcs(), then the N-th
-// transition is selected. If N == NumArcs(), then the final weight at
-// that state is selected (i.e., the 'super-final' transition is selected).
-// It can be assumed these will not be called unless either there
-// are transitions leaving the state and/or the state is final.
-//
-
-// Randomly selects a transition using the uniform distribution.
-template <class A>
-struct UniformArcSelector {
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- UniformArcSelector(int seed = time(0)) { srand(seed); }
-
- size_t operator()(const Fst<A> &fst, StateId s) const {
- double r = rand()/(RAND_MAX + 1.0);
- size_t n = fst.NumArcs(s);
- if (fst.Final(s) != Weight::Zero())
- ++n;
- return static_cast<size_t>(r * n);
- }
-};
-
-
-// Randomly selects a transition w.r.t. the weights treated as negative
-// log probabilities after normalizing for the total weight leaving
-// the state. Weight::zero transitions are disregarded.
-// Assumes Weight::Value() accesses the floating point
-// representation of the weight.
-template <class A>
-class LogProbArcSelector {
- public:
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- LogProbArcSelector(int seed = time(0)) { srand(seed); }
-
- size_t operator()(const Fst<A> &fst, StateId s) const {
- // Find total weight leaving state
- double sum = 0.0;
- for (ArcIterator< Fst<A> > aiter(fst, s); !aiter.Done();
- aiter.Next()) {
- const A &arc = aiter.Value();
- sum += exp(-to_log_weight_(arc.weight).Value());
- }
- sum += exp(-to_log_weight_(fst.Final(s)).Value());
-
- double r = rand()/(RAND_MAX + 1.0);
- double p = 0.0;
- int n = 0;
- for (ArcIterator< Fst<A> > aiter(fst, s); !aiter.Done();
- aiter.Next(), ++n) {
- const A &arc = aiter.Value();
- p += exp(-to_log_weight_(arc.weight).Value());
- if (p > r * sum) return n;
- }
- return n;
- }
-
- private:
- WeightConvert<Weight, Log64Weight> to_log_weight_;
-};
-
-// Convenience definitions
-typedef LogProbArcSelector<StdArc> StdArcSelector;
-typedef LogProbArcSelector<LogArc> LogArcSelector;
-
-
-// Same as LogProbArcSelector but use CacheLogAccumulator to cache
-// the cummulative weight computations.
-template <class A>
-class FastLogProbArcSelector : public LogProbArcSelector<A> {
- public:
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
- using LogProbArcSelector<A>::operator();
-
- FastLogProbArcSelector(int seed = time(0))
- : LogProbArcSelector<A>(seed),
- seed_(seed) {}
-
- size_t operator()(const Fst<A> &fst, StateId s,
- CacheLogAccumulator<A> *accumulator) const {
- accumulator->SetState(s);
- ArcIterator< Fst<A> > aiter(fst, s);
- // Find total weight leaving state
- double sum = to_log_weight_(accumulator->Sum(fst.Final(s), &aiter, 0,
- fst.NumArcs(s))).Value();
- double r = -log(rand()/(RAND_MAX + 1.0));
- return accumulator->LowerBound(r + sum, &aiter);
- }
-
- int Seed() const { return seed_; }
- private:
- int seed_;
- WeightConvert<Weight, Log64Weight> to_log_weight_;
-};
-
-// Random path state info maintained by RandGenFst and passed to samplers.
-template <typename A>
-struct RandState {
- typedef typename A::StateId StateId;
-
- StateId state_id; // current input FST state
- size_t nsamples; // # of samples to be sampled at this state
- size_t length; // length of path to this random state
- size_t select; // previous sample arc selection
- const RandState<A> *parent; // previous random state on this path
-
- RandState(StateId s, size_t n, size_t l, size_t k, const RandState<A> *p)
- : state_id(s), nsamples(n), length(l), select(k), parent(p) {}
-
- RandState()
- : state_id(kNoStateId), nsamples(0), length(0), select(0), parent(0) {}
-};
-
-// This class, given an arc selector, samples, with raplacement,
-// multiple random transitions from an FST's state. This is a generic
-// version with a straight-forward use of the arc selector.
-// Specializations may be defined for arc selectors for greater
-// efficiency or special behavior.
-template <class A, class S>
-class ArcSampler {
- public:
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- // The 'max_length' may be interpreted (including ignored) by a
- // sampler as it chooses. This generic version interprets this literally.
- ArcSampler(const Fst<A> &fst, const S &arc_selector,
- int max_length = INT_MAX)
- : fst_(fst),
- arc_selector_(arc_selector),
- max_length_(max_length) {}
-
- // Allow updating Fst argument; pass only if changed.
- ArcSampler(const ArcSampler<A, S> &sampler, const Fst<A> *fst = 0)
- : fst_(fst ? *fst : sampler.fst_),
- arc_selector_(sampler.arc_selector_),
- max_length_(sampler.max_length_) {
- Reset();
- }
-
- // Samples 'rstate.nsamples' from state 'state_id'. The 'rstate.length' is
- // the length of the path to 'rstate'. Returns true if samples were
- // collected. No samples may be collected if either there are no (including
- // 'super-final') transitions leaving that state or if the
- // 'max_length' has been deemed reached. Use the iterator members to
- // read the samples. The samples will be in their original order.
- bool Sample(const RandState<A> &rstate) {
- sample_map_.clear();
- if ((fst_.NumArcs(rstate.state_id) == 0 &&
- fst_.Final(rstate.state_id) == Weight::Zero()) ||
- rstate.length == max_length_) {
- Reset();
- return false;
- }
-
- for (size_t i = 0; i < rstate.nsamples; ++i)
- ++sample_map_[arc_selector_(fst_, rstate.state_id)];
- Reset();
- return true;
- }
-
- // More samples?
- bool Done() const { return sample_iter_ == sample_map_.end(); }
-
- // Gets the next sample.
- void Next() { ++sample_iter_; }
-
- // Returns a pair (N, K) where 0 <= N <= NumArcs(s) and 0 < K <= nsamples.
- // If N < NumArcs(s), then the N-th transition is specified.
- // If N == NumArcs(s), then the final weight at that state is
- // specified (i.e., the 'super-final' transition is specified).
- // For the specified transition, K repetitions have been sampled.
- pair<size_t, size_t> Value() const { return *sample_iter_; }
-
- void Reset() { sample_iter_ = sample_map_.begin(); }
-
- bool Error() const { return false; }
-
- private:
- const Fst<A> &fst_;
- const S &arc_selector_;
- int max_length_;
-
- // Stores (N, K) as described for Value().
- map<size_t, size_t> sample_map_;
- map<size_t, size_t>::const_iterator sample_iter_;
-
- // disallow
- ArcSampler<A, S> & operator=(const ArcSampler<A, S> &s);
-};
-
-
-// Specialization for FastLogProbArcSelector.
-template <class A>
-class ArcSampler<A, FastLogProbArcSelector<A> > {
- public:
- typedef FastLogProbArcSelector<A> S;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
- typedef CacheLogAccumulator<A> C;
-
- ArcSampler(const Fst<A> &fst, const S &arc_selector, int max_length = INT_MAX)
- : fst_(fst),
- arc_selector_(arc_selector),
- max_length_(max_length),
- accumulator_(new C()) {
- accumulator_->Init(fst);
- }
-
- ArcSampler(const ArcSampler<A, S> &sampler, const Fst<A> *fst = 0)
- : fst_(fst ? *fst : sampler.fst_),
- arc_selector_(sampler.arc_selector_),
- max_length_(sampler.max_length_) {
- if (fst) {
- accumulator_ = new C();
- accumulator_->Init(*fst);
- } else { // shallow copy
- accumulator_ = new C(*sampler.accumulator_);
- }
- }
-
- ~ArcSampler() {
- delete accumulator_;
- }
-
- bool Sample(const RandState<A> &rstate) {
- sample_map_.clear();
- if ((fst_.NumArcs(rstate.state_id) == 0 &&
- fst_.Final(rstate.state_id) == Weight::Zero()) ||
- rstate.length == max_length_) {
- Reset();
- return false;
- }
-
- for (size_t i = 0; i < rstate.nsamples; ++i)
- ++sample_map_[arc_selector_(fst_, rstate.state_id, accumulator_)];
- Reset();
- return true;
- }
-
- bool Done() const { return sample_iter_ == sample_map_.end(); }
- void Next() { ++sample_iter_; }
- pair<size_t, size_t> Value() const { return *sample_iter_; }
- void Reset() { sample_iter_ = sample_map_.begin(); }
-
- bool Error() const { return accumulator_->Error(); }
-
- private:
- const Fst<A> &fst_;
- const S &arc_selector_;
- int max_length_;
-
- // Stores (N, K) as described for Value().
- map<size_t, size_t> sample_map_;
- map<size_t, size_t>::const_iterator sample_iter_;
- C *accumulator_;
-
- // disallow
- ArcSampler<A, S> & operator=(const ArcSampler<A, S> &s);
-};
-
-
-// Options for random path generation with RandGenFst. The template argument
-// is an arc sampler, typically class 'ArcSampler' above. Ownership of
-// the sampler is taken by RandGenFst.
-template <class S>
-struct RandGenFstOptions : public CacheOptions {
- S *arc_sampler; // How to sample transitions at a state
- size_t npath; // # of paths to generate
- bool weighted; // Output tree weighted by path count; o.w.
- // output unweighted DAG
- bool remove_total_weight; // Remove total weight when output is weighted.
-
- RandGenFstOptions(const CacheOptions &copts, S *samp,
- size_t n = 1, bool w = true, bool rw = false)
- : CacheOptions(copts),
- arc_sampler(samp),
- npath(n),
- weighted(w),
- remove_total_weight(rw) {}
-};
-
-
-// Implementation of RandGenFst.
-template <class A, class B, class S>
-class RandGenFstImpl : public CacheImpl<B> {
- public:
- using FstImpl<B>::SetType;
- using FstImpl<B>::SetProperties;
- using FstImpl<B>::SetInputSymbols;
- using FstImpl<B>::SetOutputSymbols;
-
- using CacheBaseImpl< CacheState<B> >::AddArc;
- using CacheBaseImpl< CacheState<B> >::HasArcs;
- using CacheBaseImpl< CacheState<B> >::HasFinal;
- using CacheBaseImpl< CacheState<B> >::HasStart;
- using CacheBaseImpl< CacheState<B> >::SetArcs;
- using CacheBaseImpl< CacheState<B> >::SetFinal;
- using CacheBaseImpl< CacheState<B> >::SetStart;
-
- typedef B Arc;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- RandGenFstImpl(const Fst<A> &fst, const RandGenFstOptions<S> &opts)
- : CacheImpl<B>(opts),
- fst_(fst.Copy()),
- arc_sampler_(opts.arc_sampler),
- npath_(opts.npath),
- weighted_(opts.weighted),
- remove_total_weight_(opts.remove_total_weight),
- superfinal_(kNoLabel) {
- SetType("randgen");
-
- uint64 props = fst.Properties(kFstProperties, false);
- SetProperties(RandGenProperties(props, weighted_), kCopyProperties);
-
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
- }
-
- RandGenFstImpl(const RandGenFstImpl &impl)
- : CacheImpl<B>(impl),
- fst_(impl.fst_->Copy(true)),
- arc_sampler_(new S(*impl.arc_sampler_, fst_)),
- npath_(impl.npath_),
- weighted_(impl.weighted_),
- superfinal_(kNoLabel) {
- SetType("randgen");
- SetProperties(impl.Properties(), kCopyProperties);
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- }
-
- ~RandGenFstImpl() {
- for (int i = 0; i < state_table_.size(); ++i)
- delete state_table_[i];
- delete fst_;
- delete arc_sampler_;
- }
-
- StateId Start() {
- if (!HasStart()) {
- StateId s = fst_->Start();
- if (s == kNoStateId)
- return kNoStateId;
- StateId start = state_table_.size();
- SetStart(start);
- RandState<A> *rstate = new RandState<A>(s, npath_, 0, 0, 0);
- state_table_.push_back(rstate);
- }
- return CacheImpl<B>::Start();
- }
-
- Weight Final(StateId s) {
- if (!HasFinal(s)) {
- Expand(s);
- }
- return CacheImpl<B>::Final(s);
- }
-
- size_t NumArcs(StateId s) {
- if (!HasArcs(s)) {
- Expand(s);
- }
- return CacheImpl<B>::NumArcs(s);
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<B>::NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<B>::NumOutputEpsilons(s);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) &&
- (fst_->Properties(kError, false) || arc_sampler_->Error())) {
- SetProperties(kError, kError);
- }
- return FstImpl<Arc>::Properties(mask);
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<B> *data) {
- if (!HasArcs(s))
- Expand(s);
- CacheImpl<B>::InitArcIterator(s, data);
- }
-
- // Computes the outgoing transitions from a state, creating new destination
- // states as needed.
- void Expand(StateId s) {
- if (s == superfinal_) {
- SetFinal(s, Weight::One());
- SetArcs(s);
- return;
- }
-
- SetFinal(s, Weight::Zero());
- const RandState<A> &rstate = *state_table_[s];
- arc_sampler_->Sample(rstate);
- ArcIterator< Fst<A> > aiter(*fst_, rstate.state_id);
- size_t narcs = fst_->NumArcs(rstate.state_id);
- for (;!arc_sampler_->Done(); arc_sampler_->Next()) {
- const pair<size_t, size_t> &sample_pair = arc_sampler_->Value();
- size_t pos = sample_pair.first;
- size_t count = sample_pair.second;
- double prob = static_cast<double>(count)/rstate.nsamples;
- if (pos < narcs) { // regular transition
- aiter.Seek(sample_pair.first);
- const A &aarc = aiter.Value();
- Weight weight = weighted_ ? to_weight_(-log(prob)) : Weight::One();
- B barc(aarc.ilabel, aarc.olabel, weight, state_table_.size());
- AddArc(s, barc);
- RandState<A> *nrstate =
- new RandState<A>(aarc.nextstate, count, rstate.length + 1,
- pos, &rstate);
- state_table_.push_back(nrstate);
- } else { // super-final transition
- if (weighted_) {
- Weight weight = remove_total_weight_ ?
- to_weight_(-log(prob)) : to_weight_(-log(prob * npath_));
- SetFinal(s, weight);
- } else {
- if (superfinal_ == kNoLabel) {
- superfinal_ = state_table_.size();
- RandState<A> *nrstate = new RandState<A>(kNoStateId, 0, 0, 0, 0);
- state_table_.push_back(nrstate);
- }
- for (size_t n = 0; n < count; ++n) {
- B barc(0, 0, Weight::One(), superfinal_);
- AddArc(s, barc);
- }
- }
- }
- }
- SetArcs(s);
- }
-
- private:
- Fst<A> *fst_;
- S *arc_sampler_;
- size_t npath_;
- vector<RandState<A> *> state_table_;
- bool weighted_;
- bool remove_total_weight_;
- StateId superfinal_;
- WeightConvert<Log64Weight, Weight> to_weight_;
-
- void operator=(const RandGenFstImpl<A, B, S> &); // disallow
-};
-
-
-// Fst class to randomly generate paths through an FST; details controlled
-// by RandGenOptionsFst. Output format is a tree weighted by the
-// path count.
-template <class A, class B, class S>
-class RandGenFst : public ImplToFst< RandGenFstImpl<A, B, S> > {
- public:
- friend class ArcIterator< RandGenFst<A, B, S> >;
- friend class StateIterator< RandGenFst<A, B, S> >;
- typedef B Arc;
- typedef S Sampler;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<B> State;
- typedef RandGenFstImpl<A, B, S> Impl;
-
- RandGenFst(const Fst<A> &fst, const RandGenFstOptions<S> &opts)
- : ImplToFst<Impl>(new Impl(fst, opts)) {}
-
- // See Fst<>::Copy() for doc.
- RandGenFst(const RandGenFst<A, B, S> &fst, bool safe = false)
- : ImplToFst<Impl>(fst, safe) {}
-
- // Get a copy of this RandGenFst. See Fst<>::Copy() for further doc.
- virtual RandGenFst<A, B, S> *Copy(bool safe = false) const {
- return new RandGenFst<A, B, S>(*this, safe);
- }
-
- virtual inline void InitStateIterator(StateIteratorData<B> *data) const;
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<B> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const RandGenFst<A, B, S> &fst); // Disallow
-};
-
-
-
-// Specialization for RandGenFst.
-template <class A, class B, class S>
-class StateIterator< RandGenFst<A, B, S> >
- : public CacheStateIterator< RandGenFst<A, B, S> > {
- public:
- explicit StateIterator(const RandGenFst<A, B, S> &fst)
- : CacheStateIterator< RandGenFst<A, B, S> >(fst, fst.GetImpl()) {}
-
- private:
- DISALLOW_COPY_AND_ASSIGN(StateIterator);
-};
-
-
-// Specialization for RandGenFst.
-template <class A, class B, class S>
-class ArcIterator< RandGenFst<A, B, S> >
- : public CacheArcIterator< RandGenFst<A, B, S> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const RandGenFst<A, B, S> &fst, StateId s)
- : CacheArcIterator< RandGenFst<A, B, S> >(fst.GetImpl(), s) {
- if (!fst.GetImpl()->HasArcs(s))
- fst.GetImpl()->Expand(s);
- }
-
- private:
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-
-template <class A, class B, class S> inline
-void RandGenFst<A, B, S>::InitStateIterator(StateIteratorData<B> *data) const
-{
- data->base = new StateIterator< RandGenFst<A, B, S> >(*this);
-}
-
-// Options for random path generation.
-template <class S>
-struct RandGenOptions {
- const S &arc_selector; // How an arc is selected at a state
- int max_length; // Maximum path length
- size_t npath; // # of paths to generate
- bool weighted; // Output is tree weighted by path count; o.w.
- // output unweighted union of paths.
- bool remove_total_weight; // Remove total weight when output is weighted.
-
- RandGenOptions(const S &sel, int len = INT_MAX, size_t n = 1,
- bool w = false, bool rw = false)
- : arc_selector(sel),
- max_length(len),
- npath(n),
- weighted(w),
- remove_total_weight(rw) {}
-};
-
-
-template <class IArc, class OArc>
-class RandGenVisitor {
- public:
- typedef typename IArc::Weight Weight;
- typedef typename IArc::StateId StateId;
-
- RandGenVisitor(MutableFst<OArc> *ofst) : ofst_(ofst) {}
-
- void InitVisit(const Fst<IArc> &ifst) {
- ifst_ = &ifst;
-
- ofst_->DeleteStates();
- ofst_->SetInputSymbols(ifst.InputSymbols());
- ofst_->SetOutputSymbols(ifst.OutputSymbols());
- if (ifst.Properties(kError, false))
- ofst_->SetProperties(kError, kError);
- path_.clear();
- }
-
- bool InitState(StateId s, StateId root) { return true; }
-
- bool TreeArc(StateId s, const IArc &arc) {
- if (ifst_->Final(arc.nextstate) == Weight::Zero()) {
- path_.push_back(arc);
- } else {
- OutputPath();
- }
- return true;
- }
-
- bool BackArc(StateId s, const IArc &arc) {
- FSTERROR() << "RandGenVisitor: cyclic input";
- ofst_->SetProperties(kError, kError);
- return false;
- }
-
- bool ForwardOrCrossArc(StateId s, const IArc &arc) {
- OutputPath();
- return true;
- }
-
- void FinishState(StateId s, StateId p, const IArc *) {
- if (p != kNoStateId && ifst_->Final(s) == Weight::Zero())
- path_.pop_back();
- }
-
- void FinishVisit() {}
-
- private:
- void OutputPath() {
- if (ofst_->Start() == kNoStateId) {
- StateId start = ofst_->AddState();
- ofst_->SetStart(start);
- }
-
- StateId src = ofst_->Start();
- for (size_t i = 0; i < path_.size(); ++i) {
- StateId dest = ofst_->AddState();
- OArc arc(path_[i].ilabel, path_[i].olabel, Weight::One(), dest);
- ofst_->AddArc(src, arc);
- src = dest;
- }
- ofst_->SetFinal(src, Weight::One());
- }
-
- const Fst<IArc> *ifst_;
- MutableFst<OArc> *ofst_;
- vector<OArc> path_;
-
- DISALLOW_COPY_AND_ASSIGN(RandGenVisitor);
-};
-
-
-// Randomly generate paths through an FST; details controlled by
-// RandGenOptions.
-template<class IArc, class OArc, class Selector>
-void RandGen(const Fst<IArc> &ifst, MutableFst<OArc> *ofst,
- const RandGenOptions<Selector> &opts) {
- typedef ArcSampler<IArc, Selector> Sampler;
- typedef RandGenFst<IArc, OArc, Sampler> RandFst;
- typedef typename OArc::StateId StateId;
- typedef typename OArc::Weight Weight;
-
- Sampler* arc_sampler = new Sampler(ifst, opts.arc_selector, opts.max_length);
- RandGenFstOptions<Sampler> fopts(CacheOptions(true, 0), arc_sampler,
- opts.npath, opts.weighted,
- opts.remove_total_weight);
- RandFst rfst(ifst, fopts);
- if (opts.weighted) {
- *ofst = rfst;
- } else {
- RandGenVisitor<IArc, OArc> rand_visitor(ofst);
- DfsVisit(rfst, &rand_visitor);
- }
-}
-
-// Randomly generate a path through an FST with the uniform distribution
-// over the transitions.
-template<class IArc, class OArc>
-void RandGen(const Fst<IArc> &ifst, MutableFst<OArc> *ofst) {
- UniformArcSelector<IArc> uniform_selector;
- RandGenOptions< UniformArcSelector<IArc> > opts(uniform_selector);
- RandGen(ifst, ofst, opts);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_RANDGEN_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/random-weight.h b/kaldi_io/src/tools/openfst/include/fst/random-weight.h
deleted file mode 100644
index 0ccd95d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/random-weight.h
+++ /dev/null
@@ -1,348 +0,0 @@
-// random-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Function objects to generate random weights in various semirings
-// for testing purposes.
-
-#ifndef FST_LIB_RANDOM_WEIGHT_H__
-#define FST_LIB_RANDOM_WEIGHT_H__
-
-#include <cstdlib>
-#include <ctime>
-#include <vector>
-using std::vector;
-
-
-#include <fst/float-weight.h>
-#include <fst/product-weight.h>
-#include <fst/string-weight.h>
-#include <fst/lexicographic-weight.h>
-#include <fst/power-weight.h>
-#include <fst/signed-log-weight.h>
-#include <fst/sparse-power-weight.h>
-
-
-namespace fst {
-
-// The boolean 'allow_zero' below determines whether Zero() and zero
-// divisors should be returned in the random weight generation.
-
-// This function object returns TropicalWeightTpl<T>'s that are random integers
-// chosen from [0, kNumRandomWeights).
-template <class T>
-class TropicalWeightGenerator_ {
- public:
- typedef TropicalWeightTpl<T> Weight;
-
- TropicalWeightGenerator_(int seed = time(0), bool allow_zero = true)
- : allow_zero_(allow_zero) {
- srand(seed);
- }
-
- Weight operator() () const {
- int n = rand() % (kNumRandomWeights + allow_zero_);
- if (allow_zero_ && n == kNumRandomWeights)
- return Weight::Zero();
-
- return Weight(static_cast<T>(n));
- }
-
- private:
- // The number of alternative random weights.
- static const int kNumRandomWeights = 5;
-
- bool allow_zero_; // permit Zero() and zero divisors
-};
-
-template <class T> const int TropicalWeightGenerator_<T>::kNumRandomWeights;
-
-typedef TropicalWeightGenerator_<float> TropicalWeightGenerator;
-
-
-// This function object returns LogWeightTpl<T>'s that are random integers
-// chosen from [0, kNumRandomWeights).
-template <class T>
-class LogWeightGenerator_ {
- public:
- typedef LogWeightTpl<T> Weight;
-
- LogWeightGenerator_(int seed = time(0), bool allow_zero = true)
- : allow_zero_(allow_zero) {
- srand(seed);
- }
-
- Weight operator() () const {
- int n = rand() % (kNumRandomWeights + allow_zero_);
- if (allow_zero_ && n == kNumRandomWeights)
- return Weight::Zero();
-
- return Weight(static_cast<T>(n));
- }
-
- private:
- // Number of alternative random weights.
- static const int kNumRandomWeights = 5;
-
- bool allow_zero_; // permit Zero() and zero divisors
-};
-
-template <class T> const int LogWeightGenerator_<T>::kNumRandomWeights;
-
-typedef LogWeightGenerator_<float> LogWeightGenerator;
-
-
-// This function object returns MinMaxWeightTpl<T>'s that are random integers
-// chosen from (-kNumRandomWeights, kNumRandomWeights) in addition to
-// One(), and Zero() if zero is allowed.
-template <class T>
-class MinMaxWeightGenerator_ {
- public:
- typedef MinMaxWeightTpl<T> Weight;
-
- MinMaxWeightGenerator_(int seed = time(0), bool allow_zero = true)
- : allow_zero_(allow_zero) {
- srand(seed);
- }
-
- Weight operator() () const {
- int n = (rand() % (2*kNumRandomWeights + allow_zero_)) - kNumRandomWeights;
- if (allow_zero_ && n == kNumRandomWeights)
- return Weight::Zero();
- else if (n == -kNumRandomWeights)
- return Weight::One();
-
- return Weight(static_cast<T>(n));
- }
-
- private:
- // Parameters controlling the number of alternative random weights.
- static const int kNumRandomWeights = 5;
-
- bool allow_zero_; // permit Zero() and zero divisors
-};
-
-template <class T> const int MinMaxWeightGenerator_<T>::kNumRandomWeights;
-
-typedef MinMaxWeightGenerator_<float> MinMaxWeightGenerator;
-
-
-// This function object returns StringWeights that are random integer
-// strings chosen from {1,...,kAlphabetSize}^{0,kMaxStringLength} U { Zero }
-template <typename L, StringType S = STRING_LEFT>
-class StringWeightGenerator {
- public:
- typedef StringWeight<L, S> Weight;
-
- StringWeightGenerator(int seed = time(0), bool allow_zero = true)
- : allow_zero_(allow_zero) {
- srand(seed);
- }
-
- Weight operator() () const {
- int n = rand() % (kMaxStringLength + allow_zero_);
- if (allow_zero_ && n == kMaxStringLength)
- return Weight::Zero();
-
- vector<L> v;
- for (int i = 0; i < n; ++i)
- v.push_back(rand() % kAlphabetSize + 1);
- return Weight(v.begin(), v.end());
- }
-
- private:
- // Alphabet size for random weights.
- static const int kAlphabetSize = 5;
- // Number of alternative random weights.
- static const int kMaxStringLength = 5;
-
- bool allow_zero_; // permit Zero() and zero
-};
-
-template <typename L, StringType S>
-const int StringWeightGenerator<L, S>::kAlphabetSize;
-template <typename L, StringType S>
-const int StringWeightGenerator<L, S>::kMaxStringLength;
-
-
-// This function object returns a weight generator over the product of the
-// weights (by default) for the generators G1 and G2.
-template <class G1, class G2,
- class W = ProductWeight<typename G1::Weight, typename G2::Weight> >
-class ProductWeightGenerator {
- public:
- typedef typename G1::Weight W1;
- typedef typename G2::Weight W2;
- typedef W Weight;
-
- ProductWeightGenerator(int seed = time(0), bool allow_zero = true)
- : generator1_(seed, allow_zero), generator2_(seed, allow_zero) {}
-
- Weight operator() () const {
- W1 w1 = generator1_();
- W2 w2 = generator2_();
- return Weight(w1, w2);
- }
-
- private:
- G1 generator1_;
- G2 generator2_;
-};
-
-
-// This function object returns a weight generator for a lexicographic weight
-// composed out of weights for the generators G1 and G2. For lexicographic
-// weights, we cannot generate zeroes for the two subweights separately:
-// weights are members iff both members are zero or both members are non-zero.
-template <class G1, class G2>
-class LexicographicWeightGenerator {
- public:
- typedef typename G1::Weight W1;
- typedef typename G2::Weight W2;
- typedef LexicographicWeight<W1, W2> Weight;
-
- LexicographicWeightGenerator(int seed = time(0), bool allow_zero = true)
- : generator1_(seed, false), generator2_(seed, false),
- allow_zero_(allow_zero) {}
-
- Weight operator() () const {
- if (allow_zero_) {
- int n = rand() % (kNumRandomWeights + allow_zero_);
- if (n == kNumRandomWeights)
- return Weight(W1::Zero(), W2::Zero());
- }
- W1 w1 = generator1_();
- W2 w2 = generator2_();
- return Weight(w1, w2);
- }
-
- private:
- G1 generator1_;
- G2 generator2_;
- static const int kNumRandomWeights = 5;
- bool allow_zero_;
-};
-
-template <class G1, class G2>
-const int LexicographicWeightGenerator<G1, G2>::kNumRandomWeights;
-
-
-// Product generator of a string weight generator and an
-// arbitrary weight generator.
-template <class L, class G, StringType S = STRING_LEFT>
-class GallicWeightGenerator
- : public ProductWeightGenerator<StringWeightGenerator<L, S>, G> {
-
- public:
- typedef ProductWeightGenerator<StringWeightGenerator<L, S>, G> PG;
- typedef typename G::Weight W;
- typedef GallicWeight<L, W, S> Weight;
-
- GallicWeightGenerator(int seed = time(0), bool allow_zero = true)
- : PG(seed, allow_zero) {}
-
- GallicWeightGenerator(const PG &pg) : PG(pg) {}
-};
-
-// This function object returms a weight generator over the catersian power
-// of rank n of the weights for the generator G.
-template <class G, unsigned int n>
-class PowerWeightGenerator {
- public:
- typedef typename G::Weight W;
- typedef PowerWeight<W, n> Weight;
-
- PowerWeightGenerator(int seed = time(0), bool allow_zero = true)
- : generator_(seed, allow_zero) {}
-
- Weight operator()() const {
- Weight w;
- for (size_t i = 0; i < n; ++i) {
- W r = generator_();
- w.SetValue(i, r);
- }
- return w;
- }
-
- private:
- G generator_;
-};
-
-// This function object returns SignedLogWeightTpl<T>'s that are
-// random integers chosen from [0, kNumRandomWeights).
-// The sign is randomly chosen as well.
-template <class T>
-class SignedLogWeightGenerator_ {
- public:
- typedef SignedLogWeightTpl<T> Weight;
-
- SignedLogWeightGenerator_(int seed = time(0), bool allow_zero = true)
- : allow_zero_(allow_zero) {
- srand(seed);
- }
-
- Weight operator() () const {
- int m = rand() % 2;
- int n = rand() % (kNumRandomWeights + allow_zero_);
-
- return SignedLogWeightTpl<T>(
- (m == 0) ?
- TropicalWeight(-1.0) :
- TropicalWeight(1.0),
- (allow_zero_ && n == kNumRandomWeights) ?
- LogWeightTpl<T>::Zero() :
- LogWeightTpl<T>(static_cast<T>(n)));
- }
-
- private:
- // Number of alternative random weights.
- static const int kNumRandomWeights = 5;
- bool allow_zero_; // permit Zero() and zero divisors
-};
-
-template <class T> const int SignedLogWeightGenerator_<T>::kNumRandomWeights;
-
-typedef SignedLogWeightGenerator_<float> SignedLogWeightGenerator;
-
-// This function object returms a weight generator over the catersian power
-// of rank n of the weights for the generator G.
-template <class G, class K, unsigned int n>
-class SparsePowerWeightGenerator {
- public:
- typedef typename G::Weight W;
- typedef SparsePowerWeight<W, K> Weight;
-
- SparsePowerWeightGenerator(int seed = time(0), bool allow_zero = true)
- : generator_(seed, allow_zero) {}
-
- Weight operator()() const {
- Weight w;
- for (size_t i = 1; i <= n; ++i) {
- W r = generator_();
- K p = i;
- w.Push(p, r, true);
- }
- return w;
- }
-
- private:
- G generator_;
-};
-
-} // namespace fst
-
-#endif // FST_LIB_RANDOM_WEIGHT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/rational.h b/kaldi_io/src/tools/openfst/include/fst/rational.h
deleted file mode 100644
index 96aa00d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/rational.h
+++ /dev/null
@@ -1,330 +0,0 @@
-// rational.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// An Fst implementation and base interface for delayed unions,
-// concatenations and closures.
-
-#ifndef FST_LIB_RATIONAL_H__
-#define FST_LIB_RATIONAL_H__
-
-#include <algorithm>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/mutable-fst.h>
-#include <fst/replace.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-typedef CacheOptions RationalFstOptions;
-
-// This specifies whether to add the empty string.
-enum ClosureType { CLOSURE_STAR = 0, // T* -> add the empty string
- CLOSURE_PLUS = 1 }; // T+ -> don't add the empty string
-
-template <class A> class RationalFst;
-template <class A> void Union(RationalFst<A> *fst1, const Fst<A> &fst2);
-template <class A> void Concat(RationalFst<A> *fst1, const Fst<A> &fst2);
-template <class A> void Concat(const Fst<A> &fst1, RationalFst<A> *fst2);
-template <class A> void Closure(RationalFst<A> *fst, ClosureType closure_type);
-
-
-// Implementation class for delayed unions, concatenations and closures.
-template<class A>
-class RationalFstImpl : public FstImpl<A> {
- public:
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::WriteHeader;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
-
- explicit RationalFstImpl(const RationalFstOptions &opts)
- : nonterminals_(0),
- replace_(0),
- replace_options_(opts, 0) {
- SetType("rational");
- fst_tuples_.push_back(pair<Label, const Fst<A>*>(0, 0));
- }
-
- RationalFstImpl(const RationalFstImpl<A> &impl)
- : rfst_(impl.rfst_),
- nonterminals_(impl.nonterminals_),
-
- replace_(impl.replace_ ? impl.replace_->Copy(true) : 0),
- replace_options_(impl.replace_options_) {
- SetType("rational");
- fst_tuples_.reserve(impl.fst_tuples_.size());
- for (size_t i = 0; i < impl.fst_tuples_.size(); ++i)
- fst_tuples_.push_back(make_pair(impl.fst_tuples_[i].first,
- impl.fst_tuples_[i].second
- ? impl.fst_tuples_[i].second->Copy(true)
- : 0));
- }
-
- virtual ~RationalFstImpl() {
- for (size_t i = 0; i < fst_tuples_.size(); ++i)
- if (fst_tuples_[i].second)
- delete fst_tuples_[i].second;
- if (replace_)
- delete replace_;
- }
-
- StateId Start() { return Replace()->Start(); }
-
- Weight Final(StateId s) { return Replace()->Final(s); }
-
- size_t NumArcs(StateId s) { return Replace()->NumArcs(s); }
-
- size_t NumInputEpsilons(StateId s) {
- return Replace()->NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- return Replace()->NumOutputEpsilons(s);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) && Replace()->Properties(kError, false))
- SetProperties(kError, kError);
- return FstImpl<Arc>::Properties(mask);
- }
-
- // Implementation of UnionFst(fst1,fst2)
- void InitUnion(const Fst<A> &fst1, const Fst<A> &fst2) {
- if (replace_)
- delete replace_;
- uint64 props1 = fst1.Properties(kFstProperties, false);
- uint64 props2 = fst2.Properties(kFstProperties, false);
- SetInputSymbols(fst1.InputSymbols());
- SetOutputSymbols(fst1.OutputSymbols());
- rfst_.AddState();
- rfst_.AddState();
- rfst_.SetStart(0);
- rfst_.SetFinal(1, Weight::One());
- rfst_.SetInputSymbols(fst1.InputSymbols());
- rfst_.SetOutputSymbols(fst1.OutputSymbols());
- nonterminals_ = 2;
- rfst_.AddArc(0, A(0, -1, Weight::One(), 1));
- rfst_.AddArc(0, A(0, -2, Weight::One(), 1));
- fst_tuples_.push_back(make_pair(-1, fst1.Copy()));
- fst_tuples_.push_back(make_pair(-2, fst2.Copy()));
- SetProperties(UnionProperties(props1, props2, true), kCopyProperties);
- }
-
- // Implementation of ConcatFst(fst1,fst2)
- void InitConcat(const Fst<A> &fst1, const Fst<A> &fst2) {
- if (replace_)
- delete replace_;
- uint64 props1 = fst1.Properties(kFstProperties, false);
- uint64 props2 = fst2.Properties(kFstProperties, false);
- SetInputSymbols(fst1.InputSymbols());
- SetOutputSymbols(fst1.OutputSymbols());
- rfst_.AddState();
- rfst_.AddState();
- rfst_.AddState();
- rfst_.SetStart(0);
- rfst_.SetFinal(2, Weight::One());
- rfst_.SetInputSymbols(fst1.InputSymbols());
- rfst_.SetOutputSymbols(fst1.OutputSymbols());
- nonterminals_ = 2;
- rfst_.AddArc(0, A(0, -1, Weight::One(), 1));
- rfst_.AddArc(1, A(0, -2, Weight::One(), 2));
- fst_tuples_.push_back(make_pair(-1, fst1.Copy()));
- fst_tuples_.push_back(make_pair(-2, fst2.Copy()));
- SetProperties(ConcatProperties(props1, props2, true), kCopyProperties);
- }
-
- // Implementation of ClosureFst(fst, closure_type)
- void InitClosure(const Fst<A> &fst, ClosureType closure_type) {
- if (replace_)
- delete replace_;
- uint64 props = fst.Properties(kFstProperties, false);
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
- if (closure_type == CLOSURE_STAR) {
- rfst_.AddState();
- rfst_.SetStart(0);
- rfst_.SetFinal(0, Weight::One());
- rfst_.AddArc(0, A(0, -1, Weight::One(), 0));
- } else {
- rfst_.AddState();
- rfst_.AddState();
- rfst_.SetStart(0);
- rfst_.SetFinal(1, Weight::One());
- rfst_.AddArc(0, A(0, -1, Weight::One(), 1));
- rfst_.AddArc(1, A(0, 0, Weight::One(), 0));
- }
- rfst_.SetInputSymbols(fst.InputSymbols());
- rfst_.SetOutputSymbols(fst.OutputSymbols());
- fst_tuples_.push_back(make_pair(-1, fst.Copy()));
- nonterminals_ = 1;
- SetProperties(ClosureProperties(props, closure_type == CLOSURE_STAR, true),
- kCopyProperties);
- }
-
- // Implementation of Union(Fst &, RationalFst *)
- void AddUnion(const Fst<A> &fst) {
- if (replace_)
- delete replace_;
- uint64 props1 = FstImpl<A>::Properties();
- uint64 props2 = fst.Properties(kFstProperties, false);
- VectorFst<A> afst;
- afst.AddState();
- afst.AddState();
- afst.SetStart(0);
- afst.SetFinal(1, Weight::One());
- ++nonterminals_;
- afst.AddArc(0, A(0, -nonterminals_, Weight::One(), 1));
- Union(&rfst_, afst);
- fst_tuples_.push_back(make_pair(-nonterminals_, fst.Copy()));
- SetProperties(UnionProperties(props1, props2, true), kCopyProperties);
- }
-
- // Implementation of Concat(Fst &, RationalFst *)
- void AddConcat(const Fst<A> &fst, bool append) {
- if (replace_)
- delete replace_;
- uint64 props1 = FstImpl<A>::Properties();
- uint64 props2 = fst.Properties(kFstProperties, false);
- VectorFst<A> afst;
- afst.AddState();
- afst.AddState();
- afst.SetStart(0);
- afst.SetFinal(1, Weight::One());
- ++nonterminals_;
- afst.AddArc(0, A(0, -nonterminals_, Weight::One(), 1));
- if (append)
- Concat(&rfst_, afst);
- else
- Concat(afst, &rfst_);
- fst_tuples_.push_back(make_pair(-nonterminals_, fst.Copy()));
- SetProperties(ConcatProperties(props1, props2, true), kCopyProperties);
- }
-
- // Implementation of Closure(RationalFst *, closure_type)
- void AddClosure(ClosureType closure_type) {
- if (replace_)
- delete replace_;
- uint64 props = FstImpl<A>::Properties();
- Closure(&rfst_, closure_type);
- SetProperties(ClosureProperties(props, closure_type == CLOSURE_STAR, true),
- kCopyProperties);
- }
-
- // Returns the underlying ReplaceFst.
- ReplaceFst<A> *Replace() const {
- if (!replace_) {
- fst_tuples_[0].second = rfst_.Copy();
- replace_ = new ReplaceFst<A>(fst_tuples_, replace_options_);
- }
- return replace_;
- }
-
- private:
- VectorFst<A> rfst_; // rational topology machine; uses neg. nonterminals
- Label nonterminals_; // # of nonterminals used
- // Contains the nonterminals and their corresponding FSTs.
- mutable vector<pair<Label, const Fst<A>*> > fst_tuples_;
- mutable ReplaceFst<A> *replace_; // Underlying ReplaceFst
- ReplaceFstOptions<A> replace_options_; // Options for creating 'replace_'
-
- void operator=(const RationalFstImpl<A> &impl); // disallow
-};
-
-// Parent class for the delayed rational operations - delayed union,
-// concatenation, and closure.
-//
-// This class attaches interface to implementation and handles
-// reference counting, delegating most methods to ImplToFst.
-template <class A>
-class RationalFst : public ImplToFst< RationalFstImpl<A> > {
- public:
- friend class StateIterator< RationalFst<A> >;
- friend class ArcIterator< RationalFst<A> >;
- friend void Union<>(RationalFst<A> *fst1, const Fst<A> &fst2);
- friend void Concat<>(RationalFst<A> *fst1, const Fst<A> &fst2);
- friend void Concat<>(const Fst<A> &fst1, RationalFst<A> *fst2);
- friend void Closure<>(RationalFst<A> *fst, ClosureType closure_type);
-
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef RationalFstImpl<A> Impl;
-
- virtual void InitStateIterator(StateIteratorData<A> *data) const {
- GetImpl()->Replace()->InitStateIterator(data);
- }
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<A> *data) const {
- GetImpl()->Replace()->InitArcIterator(s, data);
- }
-
- protected:
- RationalFst()
- : ImplToFst<Impl>(new Impl(RationalFstOptions())) {}
-
- explicit RationalFst(const RationalFstOptions &opts)
- : ImplToFst<Impl>(new Impl(opts)) {}
-
- // See Fst<>::Copy() for doc.
- RationalFst(const RationalFst<A> &fst , bool safe = false)
- : ImplToFst<Impl>(fst, safe) {}
-
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const RationalFst<A> &fst); // disallow
-};
-
-
-// Specialization for RationalFst.
-template <class A>
-class StateIterator< RationalFst<A> >
- : public StateIterator< ReplaceFst<A> > {
- public:
- explicit StateIterator(const RationalFst<A> &fst)
- : StateIterator< ReplaceFst<A> >(*(fst.GetImpl()->Replace())) {}
-};
-
-
-// Specialization for RationalFst.
-template <class A>
-class ArcIterator< RationalFst<A> >
- : public CacheArcIterator< ReplaceFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const RationalFst<A> &fst, StateId s)
- : ArcIterator< ReplaceFst<A> >(*(fst.GetImpl()->Replace()), s) {}
-};
-
-} // namespace fst
-
-#endif // FST_LIB_RATIONAL_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/register.h b/kaldi_io/src/tools/openfst/include/fst/register.h
deleted file mode 100644
index ea3f4d8..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/register.h
+++ /dev/null
@@ -1,133 +0,0 @@
-// register.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley), [email protected] (Jake Ratkiewicz)
-//
-// \file
-// Classes for registering derived Fsts for generic reading
-//
-
-#ifndef FST_LIB_REGISTER_H__
-#define FST_LIB_REGISTER_H__
-
-#include <string>
-
-
-#include <fst/compat.h>
-#include <iostream>
-#include <fstream>
-#include <sstream>
-#include <fst/util.h>
-#include <fst/generic-register.h>
-
-
-#include <fst/types.h>
-
-namespace fst {
-
-template <class A> class Fst;
-struct FstReadOptions;
-
-// This class represents a single entry in a FstRegister
-template<class A>
-struct FstRegisterEntry {
- typedef Fst<A> *(*Reader)(istream &strm, const FstReadOptions &opts);
- typedef Fst<A> *(*Converter)(const Fst<A> &fst);
-
- Reader reader;
- Converter converter;
- FstRegisterEntry() : reader(0), converter(0) {}
- FstRegisterEntry(Reader r, Converter c) : reader(r), converter(c) { }
-};
-
-// This class maintains the correspondence between a string describing
-// an FST type, and its reader and converter.
-template<class A>
-class FstRegister : public GenericRegister<string, FstRegisterEntry<A>,
- FstRegister<A> > {
- public:
- typedef typename FstRegisterEntry<A>::Reader Reader;
- typedef typename FstRegisterEntry<A>::Converter Converter;
-
- const Reader GetReader(const string &type) const {
- return this->GetEntry(type).reader;
- }
-
- const Converter GetConverter(const string &type) const {
- return this->GetEntry(type).converter;
- }
-
- protected:
- virtual string ConvertKeyToSoFilename(const string& key) const {
- string legal_type(key);
-
- ConvertToLegalCSymbol(&legal_type);
-
- return legal_type + "-fst.so";
- }
-};
-
-
-// This class registers an Fst type for generic reading and creating.
-// The Fst type must have a default constructor and a copy constructor
-// from 'Fst<Arc>' for this to work.
-template <class F>
-class FstRegisterer
- : public GenericRegisterer<FstRegister<typename F::Arc> > {
- public:
- typedef typename F::Arc Arc;
- typedef typename FstRegister<Arc>::Entry Entry;
- typedef typename FstRegister<Arc>::Reader Reader;
-
- FstRegisterer() :
- GenericRegisterer<FstRegister<typename F::Arc> >(
- F().Type(), BuildEntry()) { }
-
- private:
- Entry BuildEntry() {
- F *(*reader)(istream &strm,
- const FstReadOptions &opts) = &F::Read;
-
- return Entry(reinterpret_cast<Reader>(reader),
- &FstRegisterer<F>::Convert);
- }
-
- static Fst<Arc> *Convert(const Fst<Arc> &fst) { return new F(fst); }
-};
-
-
-// Convenience macro to generate static FstRegisterer instance.
-#define REGISTER_FST(F, A) \
-static fst::FstRegisterer< F<A> > F ## _ ## A ## _registerer
-
-
-// Converts an fst to type 'type'.
-template <class A>
-Fst<A> *Convert(const Fst<A> &fst, const string &ftype) {
- FstRegister<A> *registr = FstRegister<A>::GetRegister();
- const typename FstRegister<A>::Converter
- converter = registr->GetConverter(ftype);
- if (!converter) {
- string atype = A::Type();
- LOG(ERROR) << "Fst::Convert: Unknown FST type \"" << ftype
- << "\" (arc type = \"" << atype << "\")";
- return 0;
- }
- return converter(fst);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_REGISTER_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/relabel.h b/kaldi_io/src/tools/openfst/include/fst/relabel.h
deleted file mode 100644
index dc675b6..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/relabel.h
+++ /dev/null
@@ -1,528 +0,0 @@
-// relabel.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Johan Schalkwyk)
-//
-// \file
-// Functions and classes to relabel an Fst (either on input or output)
-//
-#ifndef FST_LIB_RELABEL_H__
-#define FST_LIB_RELABEL_H__
-
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <string>
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-#include <fst/test-properties.h>
-
-
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-
-namespace fst {
-
-//
-// Relabels either the input labels or output labels. The old to
-// new labels are specified using a vector of pair<Label,Label>.
-// Any label associations not specified are assumed to be identity
-// mapping.
-//
-// \param fst input fst, must be mutable
-// \param ipairs vector of input label pairs indicating old to new mapping
-// \param opairs vector of output label pairs indicating old to new mapping
-//
-template <class A>
-void Relabel(
- MutableFst<A> *fst,
- const vector<pair<typename A::Label, typename A::Label> >& ipairs,
- const vector<pair<typename A::Label, typename A::Label> >& opairs) {
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
-
- uint64 props = fst->Properties(kFstProperties, false);
-
- // construct label to label hash.
- unordered_map<Label, Label> input_map;
- for (size_t i = 0; i < ipairs.size(); ++i) {
- input_map[ipairs[i].first] = ipairs[i].second;
- }
-
- unordered_map<Label, Label> output_map;
- for (size_t i = 0; i < opairs.size(); ++i) {
- output_map[opairs[i].first] = opairs[i].second;
- }
-
- for (StateIterator<MutableFst<A> > siter(*fst);
- !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- for (MutableArcIterator<MutableFst<A> > aiter(fst, s);
- !aiter.Done(); aiter.Next()) {
- A arc = aiter.Value();
-
- // relabel input
- // only relabel if relabel pair defined
- typename unordered_map<Label, Label>::iterator it =
- input_map.find(arc.ilabel);
- if (it != input_map.end()) {
- if (it->second == kNoLabel) {
- FSTERROR() << "Input symbol id " << arc.ilabel
- << " missing from target vocabulary";
- fst->SetProperties(kError, kError);
- return;
- }
- arc.ilabel = it->second;
- }
-
- // relabel output
- it = output_map.find(arc.olabel);
- if (it != output_map.end()) {
- if (it->second == kNoLabel) {
- FSTERROR() << "Output symbol id " << arc.olabel
- << " missing from target vocabulary";
- fst->SetProperties(kError, kError);
- return;
- }
- arc.olabel = it->second;
- }
-
- aiter.SetValue(arc);
- }
- }
-
- fst->SetProperties(RelabelProperties(props), kFstProperties);
-}
-
-//
-// Relabels either the input labels or output labels. The old to
-// new labels mappings are specified using an input Symbol set.
-// Any label associations not specified are assumed to be identity
-// mapping.
-//
-// \param fst input fst, must be mutable
-// \param new_isymbols symbol set indicating new mapping of input symbols
-// \param new_osymbols symbol set indicating new mapping of output symbols
-//
-template<class A>
-void Relabel(MutableFst<A> *fst,
- const SymbolTable* new_isymbols,
- const SymbolTable* new_osymbols) {
- Relabel(fst,
- fst->InputSymbols(), new_isymbols, true,
- fst->OutputSymbols(), new_osymbols, true);
-}
-
-template<class A>
-void Relabel(MutableFst<A> *fst,
- const SymbolTable* old_isymbols,
- const SymbolTable* new_isymbols,
- bool attach_new_isymbols,
- const SymbolTable* old_osymbols,
- const SymbolTable* new_osymbols,
- bool attach_new_osymbols) {
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
-
- vector<pair<Label, Label> > ipairs;
- if (old_isymbols && new_isymbols) {
- for (SymbolTableIterator syms_iter(*old_isymbols); !syms_iter.Done();
- syms_iter.Next()) {
- string isymbol = syms_iter.Symbol();
- int isymbol_val = syms_iter.Value();
- int new_isymbol_val = new_isymbols->Find(isymbol);
- ipairs.push_back(make_pair(isymbol_val, new_isymbol_val));
- }
- if (attach_new_isymbols)
- fst->SetInputSymbols(new_isymbols);
- }
-
- vector<pair<Label, Label> > opairs;
- if (old_osymbols && new_osymbols) {
- for (SymbolTableIterator syms_iter(*old_osymbols); !syms_iter.Done();
- syms_iter.Next()) {
- string osymbol = syms_iter.Symbol();
- int osymbol_val = syms_iter.Value();
- int new_osymbol_val = new_osymbols->Find(osymbol);
- opairs.push_back(make_pair(osymbol_val, new_osymbol_val));
- }
- if (attach_new_osymbols)
- fst->SetOutputSymbols(new_osymbols);
- }
-
- // call relabel using vector of relabel pairs.
- Relabel(fst, ipairs, opairs);
-}
-
-
-typedef CacheOptions RelabelFstOptions;
-
-template <class A> class RelabelFst;
-
-//
-// \class RelabelFstImpl
-// \brief Implementation for delayed relabeling
-//
-// Relabels an FST from one symbol set to another. Relabeling
-// can either be on input or output space. RelabelFst implements
-// a delayed version of the relabel. Arcs are relabeled on the fly
-// and not cached. I.e each request is recomputed.
-//
-template<class A>
-class RelabelFstImpl : public CacheImpl<A> {
- friend class StateIterator< RelabelFst<A> >;
- public:
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::WriteHeader;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
-
- using CacheImpl<A>::PushArc;
- using CacheImpl<A>::HasArcs;
- using CacheImpl<A>::HasFinal;
- using CacheImpl<A>::HasStart;
- using CacheImpl<A>::SetArcs;
- using CacheImpl<A>::SetFinal;
- using CacheImpl<A>::SetStart;
-
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
-
- RelabelFstImpl(const Fst<A>& fst,
- const vector<pair<Label, Label> >& ipairs,
- const vector<pair<Label, Label> >& opairs,
- const RelabelFstOptions &opts)
- : CacheImpl<A>(opts), fst_(fst.Copy()),
- relabel_input_(false), relabel_output_(false) {
- uint64 props = fst.Properties(kCopyProperties, false);
- SetProperties(RelabelProperties(props));
- SetType("relabel");
-
- // create input label map
- if (ipairs.size() > 0) {
- for (size_t i = 0; i < ipairs.size(); ++i) {
- input_map_[ipairs[i].first] = ipairs[i].second;
- }
- relabel_input_ = true;
- }
-
- // create output label map
- if (opairs.size() > 0) {
- for (size_t i = 0; i < opairs.size(); ++i) {
- output_map_[opairs[i].first] = opairs[i].second;
- }
- relabel_output_ = true;
- }
- }
-
- RelabelFstImpl(const Fst<A>& fst,
- const SymbolTable* old_isymbols,
- const SymbolTable* new_isymbols,
- const SymbolTable* old_osymbols,
- const SymbolTable* new_osymbols,
- const RelabelFstOptions &opts)
- : CacheImpl<A>(opts), fst_(fst.Copy()),
- relabel_input_(false), relabel_output_(false) {
- SetType("relabel");
-
- uint64 props = fst.Properties(kCopyProperties, false);
- SetProperties(RelabelProperties(props));
- SetInputSymbols(old_isymbols);
- SetOutputSymbols(old_osymbols);
-
- if (old_isymbols && new_isymbols &&
- old_isymbols->LabeledCheckSum() != new_isymbols->LabeledCheckSum()) {
- for (SymbolTableIterator syms_iter(*old_isymbols); !syms_iter.Done();
- syms_iter.Next()) {
- input_map_[syms_iter.Value()] = new_isymbols->Find(syms_iter.Symbol());
- }
- SetInputSymbols(new_isymbols);
- relabel_input_ = true;
- }
-
- if (old_osymbols && new_osymbols &&
- old_osymbols->LabeledCheckSum() != new_osymbols->LabeledCheckSum()) {
- for (SymbolTableIterator syms_iter(*old_osymbols); !syms_iter.Done();
- syms_iter.Next()) {
- output_map_[syms_iter.Value()] =
- new_osymbols->Find(syms_iter.Symbol());
- }
- SetOutputSymbols(new_osymbols);
- relabel_output_ = true;
- }
- }
-
- RelabelFstImpl(const RelabelFstImpl<A>& impl)
- : CacheImpl<A>(impl),
- fst_(impl.fst_->Copy(true)),
- input_map_(impl.input_map_),
- output_map_(impl.output_map_),
- relabel_input_(impl.relabel_input_),
- relabel_output_(impl.relabel_output_) {
- SetType("relabel");
- SetProperties(impl.Properties(), kCopyProperties);
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- }
-
- ~RelabelFstImpl() { delete fst_; }
-
- StateId Start() {
- if (!HasStart()) {
- StateId s = fst_->Start();
- SetStart(s);
- }
- return CacheImpl<A>::Start();
- }
-
- Weight Final(StateId s) {
- if (!HasFinal(s)) {
- SetFinal(s, fst_->Final(s));
- }
- return CacheImpl<A>::Final(s);
- }
-
- size_t NumArcs(StateId s) {
- if (!HasArcs(s)) {
- Expand(s);
- }
- return CacheImpl<A>::NumArcs(s);
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (!HasArcs(s)) {
- Expand(s);
- }
- return CacheImpl<A>::NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (!HasArcs(s)) {
- Expand(s);
- }
- return CacheImpl<A>::NumOutputEpsilons(s);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) && fst_->Properties(kError, false))
- SetProperties(kError, kError);
- return FstImpl<Arc>::Properties(mask);
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<A>* data) {
- if (!HasArcs(s)) {
- Expand(s);
- }
- CacheImpl<A>::InitArcIterator(s, data);
- }
-
- void Expand(StateId s) {
- for (ArcIterator<Fst<A> > aiter(*fst_, s); !aiter.Done(); aiter.Next()) {
- A arc = aiter.Value();
-
- // relabel input
- if (relabel_input_) {
- typename unordered_map<Label, Label>::iterator it =
- input_map_.find(arc.ilabel);
- if (it != input_map_.end()) { arc.ilabel = it->second; }
- }
-
- // relabel output
- if (relabel_output_) {
- typename unordered_map<Label, Label>::iterator it =
- output_map_.find(arc.olabel);
- if (it != output_map_.end()) { arc.olabel = it->second; }
- }
-
- PushArc(s, arc);
- }
- SetArcs(s);
- }
-
-
- private:
- const Fst<A> *fst_;
-
- unordered_map<Label, Label> input_map_;
- unordered_map<Label, Label> output_map_;
- bool relabel_input_;
- bool relabel_output_;
-
- void operator=(const RelabelFstImpl<A> &); // disallow
-};
-
-
-//
-// \class RelabelFst
-// \brief Delayed implementation of arc relabeling
-//
-// This class attaches interface to implementation and handles
-// reference counting, delegating most methods to ImplToFst.
-template <class A>
-class RelabelFst : public ImplToFst< RelabelFstImpl<A> > {
- public:
- friend class ArcIterator< RelabelFst<A> >;
- friend class StateIterator< RelabelFst<A> >;
-
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
- typedef RelabelFstImpl<A> Impl;
-
- RelabelFst(const Fst<A>& fst,
- const vector<pair<Label, Label> >& ipairs,
- const vector<pair<Label, Label> >& opairs)
- : ImplToFst<Impl>(new Impl(fst, ipairs, opairs, RelabelFstOptions())) {}
-
- RelabelFst(const Fst<A>& fst,
- const vector<pair<Label, Label> >& ipairs,
- const vector<pair<Label, Label> >& opairs,
- const RelabelFstOptions &opts)
- : ImplToFst<Impl>(new Impl(fst, ipairs, opairs, opts)) {}
-
- RelabelFst(const Fst<A>& fst,
- const SymbolTable* new_isymbols,
- const SymbolTable* new_osymbols)
- : ImplToFst<Impl>(new Impl(fst, fst.InputSymbols(), new_isymbols,
- fst.OutputSymbols(), new_osymbols,
- RelabelFstOptions())) {}
-
- RelabelFst(const Fst<A>& fst,
- const SymbolTable* new_isymbols,
- const SymbolTable* new_osymbols,
- const RelabelFstOptions &opts)
- : ImplToFst<Impl>(new Impl(fst, fst.InputSymbols(), new_isymbols,
- fst.OutputSymbols(), new_osymbols, opts)) {}
-
- RelabelFst(const Fst<A>& fst,
- const SymbolTable* old_isymbols,
- const SymbolTable* new_isymbols,
- const SymbolTable* old_osymbols,
- const SymbolTable* new_osymbols)
- : ImplToFst<Impl>(new Impl(fst, old_isymbols, new_isymbols, old_osymbols,
- new_osymbols, RelabelFstOptions())) {}
-
- RelabelFst(const Fst<A>& fst,
- const SymbolTable* old_isymbols,
- const SymbolTable* new_isymbols,
- const SymbolTable* old_osymbols,
- const SymbolTable* new_osymbols,
- const RelabelFstOptions &opts)
- : ImplToFst<Impl>(new Impl(fst, old_isymbols, new_isymbols, old_osymbols,
- new_osymbols, opts)) {}
-
- // See Fst<>::Copy() for doc.
- RelabelFst(const RelabelFst<A> &fst, bool safe = false)
- : ImplToFst<Impl>(fst, safe) {}
-
- // Get a copy of this RelabelFst. See Fst<>::Copy() for further doc.
- virtual RelabelFst<A> *Copy(bool safe = false) const {
- return new RelabelFst<A>(*this, safe);
- }
-
- virtual void InitStateIterator(StateIteratorData<A> *data) const;
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<A> *data) const {
- return GetImpl()->InitArcIterator(s, data);
- }
-
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const RelabelFst<A> &fst); // disallow
-};
-
-// Specialization for RelabelFst.
-template<class A>
-class StateIterator< RelabelFst<A> > : public StateIteratorBase<A> {
- public:
- typedef typename A::StateId StateId;
-
- explicit StateIterator(const RelabelFst<A> &fst)
- : impl_(fst.GetImpl()), siter_(*impl_->fst_), s_(0) {}
-
- bool Done() const { return siter_.Done(); }
-
- StateId Value() const { return s_; }
-
- void Next() {
- if (!siter_.Done()) {
- ++s_;
- siter_.Next();
- }
- }
-
- void Reset() {
- s_ = 0;
- siter_.Reset();
- }
-
- private:
- bool Done_() const { return Done(); }
- StateId Value_() const { return Value(); }
- void Next_() { Next(); }
- void Reset_() { Reset(); }
-
- const RelabelFstImpl<A> *impl_;
- StateIterator< Fst<A> > siter_;
- StateId s_;
-
- DISALLOW_COPY_AND_ASSIGN(StateIterator);
-};
-
-
-// Specialization for RelabelFst.
-template <class A>
-class ArcIterator< RelabelFst<A> >
- : public CacheArcIterator< RelabelFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const RelabelFst<A> &fst, StateId s)
- : CacheArcIterator< RelabelFst<A> >(fst.GetImpl(), s) {
- if (!fst.GetImpl()->HasArcs(s))
- fst.GetImpl()->Expand(s);
- }
-
- private:
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-template <class A> inline
-void RelabelFst<A>::InitStateIterator(StateIteratorData<A> *data) const {
- data->base = new StateIterator< RelabelFst<A> >(*this);
-}
-
-// Useful alias when using StdArc.
-typedef RelabelFst<StdArc> StdRelabelFst;
-
-} // namespace fst
-
-#endif // FST_LIB_RELABEL_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/replace-util.h b/kaldi_io/src/tools/openfst/include/fst/replace-util.h
deleted file mode 100644
index d58cb15..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/replace-util.h
+++ /dev/null
@@ -1,550 +0,0 @@
-// replace-util.h
-
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-
-// \file
-// Utility classes for the recursive replacement of Fsts (RTNs).
-
-#ifndef FST_LIB_REPLACE_UTIL_H__
-#define FST_LIB_REPLACE_UTIL_H__
-
-#include <vector>
-using std::vector;
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <tr1/unordered_set>
-using std::tr1::unordered_set;
-using std::tr1::unordered_multiset;
-#include <map>
-
-#include <fst/connect.h>
-#include <fst/mutable-fst.h>
-#include <fst/topsort.h>
-
-
-namespace fst {
-
-template <class Arc>
-void Replace(const vector<pair<typename Arc::Label, const Fst<Arc>* > >&,
- MutableFst<Arc> *, typename Arc::Label, bool);
-
-
-// Utility class for the recursive replacement of Fsts (RTNs). The
-// user provides a set of Label, Fst pairs at construction. These are
-// used by methods for testing cyclic dependencies and connectedness
-// and doing RTN connection and specific Fst replacement by label or
-// for various optimization properties. The modified results can be
-// obtained with the GetFstPairs() or GetMutableFstPairs() methods.
-template <class Arc>
-class ReplaceUtil {
- public:
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- typedef pair<Label, const Fst<Arc>*> FstPair;
- typedef pair<Label, MutableFst<Arc>*> MutableFstPair;
- typedef unordered_map<Label, Label> NonTerminalHash;
-
- // Constructs from mutable Fsts; Fst ownership given to ReplaceUtil.
- ReplaceUtil(const vector<MutableFstPair> &fst_pairs,
- Label root_label, bool epsilon_on_replace = false);
-
- // Constructs from Fsts; Fst ownership retained by caller.
- ReplaceUtil(const vector<FstPair> &fst_pairs,
- Label root_label, bool epsilon_on_replace = false);
-
- // Constructs from ReplaceFst internals; ownership retained by caller.
- ReplaceUtil(const vector<const Fst<Arc> *> &fst_array,
- const NonTerminalHash &nonterminal_hash, Label root_fst,
- bool epsilon_on_replace = false);
-
- ~ReplaceUtil() {
- for (Label i = 0; i < fst_array_.size(); ++i)
- delete fst_array_[i];
- }
-
- // True if the non-terminal dependencies are cyclic. Cyclic
- // dependencies will result in an unexpandable replace fst.
- bool CyclicDependencies() const {
- GetDependencies(false);
- return depprops_ & kCyclic;
- }
-
- // Returns true if no useless Fsts, states or transitions.
- bool Connected() const {
- GetDependencies(false);
- uint64 props = kAccessible | kCoAccessible;
- for (Label i = 0; i < fst_array_.size(); ++i) {
- if (!fst_array_[i])
- continue;
- if (fst_array_[i]->Properties(props, true) != props || !depaccess_[i])
- return false;
- }
- return true;
- }
-
- // Removes useless Fsts, states and transitions.
- void Connect();
-
- // Replaces Fsts specified by labels.
- // Does nothing if there are cyclic dependencies.
- void ReplaceLabels(const vector<Label> &labels);
-
- // Replaces Fsts that have at most 'nstates' states, 'narcs' arcs and
- // 'nnonterm' non-terminals (updating in reverse dependency order).
- // Does nothing if there are cyclic dependencies.
- void ReplaceBySize(size_t nstates, size_t narcs, size_t nnonterms);
-
- // Replaces singleton Fsts.
- // Does nothing if there are cyclic dependencies.
- void ReplaceTrivial() { ReplaceBySize(2, 1, 1); }
-
- // Replaces non-terminals that have at most 'ninstances' instances
- // (updating in dependency order).
- // Does nothing if there are cyclic dependencies.
- void ReplaceByInstances(size_t ninstances);
-
- // Replaces non-terminals that have only one instance.
- // Does nothing if there are cyclic dependencies.
- void ReplaceUnique() { ReplaceByInstances(1); }
-
- // Returns Label, Fst pairs; Fst ownership retained by ReplaceUtil.
- void GetFstPairs(vector<FstPair> *fst_pairs);
-
- // Returns Label, MutableFst pairs; Fst ownership given to caller.
- void GetMutableFstPairs(vector<MutableFstPair> *mutable_fst_pairs);
-
- private:
- // Per Fst statistics
- struct ReplaceStats {
- StateId nstates; // # of states
- StateId nfinal; // # of final states
- size_t narcs; // # of arcs
- Label nnonterms; // # of non-terminals in Fst
- size_t nref; // # of non-terminal instances referring to this Fst
-
- // # of times that ith Fst references this Fst
- map<Label, size_t> inref;
- // # of times that this Fst references the ith Fst
- map<Label, size_t> outref;
-
- ReplaceStats()
- : nstates(0),
- nfinal(0),
- narcs(0),
- nnonterms(0),
- nref(0) {}
- };
-
- // Check Mutable Fsts exist o.w. create them.
- void CheckMutableFsts();
-
- // Computes the dependency graph of the replace Fsts.
- // If 'stats' is true, dependency statistics computed as well.
- void GetDependencies(bool stats) const;
-
- void ClearDependencies() const {
- depfst_.DeleteStates();
- stats_.clear();
- depprops_ = 0;
- have_stats_ = false;
- }
-
- // Get topological order of dependencies. Returns false with cyclic input.
- bool GetTopOrder(const Fst<Arc> &fst, vector<Label> *toporder) const;
-
- // Update statistics assuming that jth Fst will be replaced.
- void UpdateStats(Label j);
-
- Label root_label_; // root non-terminal
- Label root_fst_; // root Fst ID
- bool epsilon_on_replace_; // see Replace()
- vector<const Fst<Arc> *> fst_array_; // Fst per ID
- vector<MutableFst<Arc> *> mutable_fst_array_; // MutableFst per ID
- vector<Label> nonterminal_array_; // Fst ID to non-terminal
- NonTerminalHash nonterminal_hash_; // non-terminal to Fst ID
- mutable VectorFst<Arc> depfst_; // Fst ID dependencies
- mutable vector<bool> depaccess_; // Fst ID accessibility
- mutable uint64 depprops_; // dependency Fst props
- mutable bool have_stats_; // have dependency statistics
- mutable vector<ReplaceStats> stats_; // Per Fst statistics
- DISALLOW_COPY_AND_ASSIGN(ReplaceUtil);
-};
-
-template <class Arc>
-ReplaceUtil<Arc>::ReplaceUtil(
- const vector<MutableFstPair> &fst_pairs,
- Label root_label, bool epsilon_on_replace)
- : root_label_(root_label),
- epsilon_on_replace_(epsilon_on_replace),
- depprops_(0),
- have_stats_(false) {
- fst_array_.push_back(0);
- mutable_fst_array_.push_back(0);
- nonterminal_array_.push_back(kNoLabel);
- for (Label i = 0; i < fst_pairs.size(); ++i) {
- Label label = fst_pairs[i].first;
- MutableFst<Arc> *fst = fst_pairs[i].second;
- nonterminal_hash_[label] = fst_array_.size();
- nonterminal_array_.push_back(label);
- fst_array_.push_back(fst);
- mutable_fst_array_.push_back(fst);
- }
- root_fst_ = nonterminal_hash_[root_label_];
- if (!root_fst_)
- FSTERROR() << "ReplaceUtil: no root FST for label: " << root_label_;
-}
-
-template <class Arc>
-ReplaceUtil<Arc>::ReplaceUtil(
- const vector<FstPair> &fst_pairs,
- Label root_label, bool epsilon_on_replace)
- : root_label_(root_label),
- epsilon_on_replace_(epsilon_on_replace),
- depprops_(0),
- have_stats_(false) {
- fst_array_.push_back(0);
- nonterminal_array_.push_back(kNoLabel);
- for (Label i = 0; i < fst_pairs.size(); ++i) {
- Label label = fst_pairs[i].first;
- const Fst<Arc> *fst = fst_pairs[i].second;
- nonterminal_hash_[label] = fst_array_.size();
- nonterminal_array_.push_back(label);
- fst_array_.push_back(fst->Copy());
- }
- root_fst_ = nonterminal_hash_[root_label];
- if (!root_fst_)
- FSTERROR() << "ReplaceUtil: no root FST for label: " << root_label_;
-}
-
-template <class Arc>
-ReplaceUtil<Arc>::ReplaceUtil(
- const vector<const Fst<Arc> *> &fst_array,
- const NonTerminalHash &nonterminal_hash, Label root_fst,
- bool epsilon_on_replace)
- : root_fst_(root_fst),
- epsilon_on_replace_(epsilon_on_replace),
- nonterminal_array_(fst_array.size()),
- nonterminal_hash_(nonterminal_hash),
- depprops_(0),
- have_stats_(false) {
- fst_array_.push_back(0);
- for (Label i = 1; i < fst_array.size(); ++i)
- fst_array_.push_back(fst_array[i]->Copy());
- for (typename NonTerminalHash::const_iterator it =
- nonterminal_hash.begin(); it != nonterminal_hash.end(); ++it)
- nonterminal_array_[it->second] = it->first;
- root_label_ = nonterminal_array_[root_fst_];
-}
-
-template <class Arc>
-void ReplaceUtil<Arc>::GetDependencies(bool stats) const {
- if (depfst_.NumStates() > 0) {
- if (stats && !have_stats_)
- ClearDependencies();
- else
- return;
- }
-
- have_stats_ = stats;
- if (have_stats_)
- stats_.reserve(fst_array_.size());
-
- for (Label i = 0; i < fst_array_.size(); ++i) {
- depfst_.AddState();
- depfst_.SetFinal(i, Weight::One());
- if (have_stats_)
- stats_.push_back(ReplaceStats());
- }
- depfst_.SetStart(root_fst_);
-
- // An arc from each state (representing the fst) to the
- // state representing the fst being replaced
- for (Label i = 0; i < fst_array_.size(); ++i) {
- const Fst<Arc> *ifst = fst_array_[i];
- if (!ifst)
- continue;
- for (StateIterator<Fst<Arc> > siter(*ifst); !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- if (have_stats_) {
- ++stats_[i].nstates;
- if (ifst->Final(s) != Weight::Zero())
- ++stats_[i].nfinal;
- }
- for (ArcIterator<Fst<Arc> > aiter(*ifst, s);
- !aiter.Done(); aiter.Next()) {
- if (have_stats_)
- ++stats_[i].narcs;
- const Arc& arc = aiter.Value();
-
- typename NonTerminalHash::const_iterator it =
- nonterminal_hash_.find(arc.olabel);
- if (it != nonterminal_hash_.end()) {
- Label j = it->second;
- depfst_.AddArc(i, Arc(arc.olabel, arc.olabel, Weight::One(), j));
- if (have_stats_) {
- ++stats_[i].nnonterms;
- ++stats_[j].nref;
- ++stats_[j].inref[i];
- ++stats_[i].outref[j];
- }
- }
- }
- }
- }
-
- // Gets accessibility info
- SccVisitor<Arc> scc_visitor(0, &depaccess_, 0, &depprops_);
- DfsVisit(depfst_, &scc_visitor);
-}
-
-template <class Arc>
-void ReplaceUtil<Arc>::UpdateStats(Label j) {
- if (!have_stats_) {
- FSTERROR() << "ReplaceUtil::UpdateStats: stats not available";
- return;
- }
-
- if (j == root_fst_) // can't replace root
- return;
-
- typedef typename map<Label, size_t>::iterator Iter;
- for (Iter in = stats_[j].inref.begin();
- in != stats_[j].inref.end();
- ++in) {
- Label i = in->first;
- size_t ni = in->second;
- stats_[i].nstates += stats_[j].nstates * ni;
- stats_[i].narcs += (stats_[j].narcs + 1) * ni; // narcs - 1 + 2 (eps)
- stats_[i].nnonterms += (stats_[j].nnonterms - 1) * ni;
- stats_[i].outref.erase(stats_[i].outref.find(j));
- for (Iter out = stats_[j].outref.begin();
- out != stats_[j].outref.end();
- ++out) {
- Label k = out->first;
- size_t nk = out->second;
- stats_[i].outref[k] += ni * nk;
- }
- }
-
- for (Iter out = stats_[j].outref.begin();
- out != stats_[j].outref.end();
- ++out) {
- Label k = out->first;
- size_t nk = out->second;
- stats_[k].nref -= nk;
- stats_[k].inref.erase(stats_[k].inref.find(j));
- for (Iter in = stats_[j].inref.begin();
- in != stats_[j].inref.end();
- ++in) {
- Label i = in->first;
- size_t ni = in->second;
- stats_[k].inref[i] += ni * nk;
- stats_[k].nref += ni * nk;
- }
- }
-}
-
-template <class Arc>
-void ReplaceUtil<Arc>::CheckMutableFsts() {
- if (mutable_fst_array_.size() == 0) {
- for (Label i = 0; i < fst_array_.size(); ++i) {
- if (!fst_array_[i]) {
- mutable_fst_array_.push_back(0);
- } else {
- mutable_fst_array_.push_back(new VectorFst<Arc>(*fst_array_[i]));
- delete fst_array_[i];
- fst_array_[i] = mutable_fst_array_[i];
- }
- }
- }
-}
-
-template <class Arc>
-void ReplaceUtil<Arc>::Connect() {
- CheckMutableFsts();
- uint64 props = kAccessible | kCoAccessible;
- for (Label i = 0; i < mutable_fst_array_.size(); ++i) {
- if (!mutable_fst_array_[i])
- continue;
- if (mutable_fst_array_[i]->Properties(props, false) != props)
- fst::Connect(mutable_fst_array_[i]);
- }
- GetDependencies(false);
- for (Label i = 0; i < mutable_fst_array_.size(); ++i) {
- MutableFst<Arc> *fst = mutable_fst_array_[i];
- if (fst && !depaccess_[i]) {
- delete fst;
- fst_array_[i] = 0;
- mutable_fst_array_[i] = 0;
- }
- }
- ClearDependencies();
-}
-
-template <class Arc>
-bool ReplaceUtil<Arc>::GetTopOrder(const Fst<Arc> &fst,
- vector<Label> *toporder) const {
- // Finds topological order of dependencies.
- vector<StateId> order;
- bool acyclic = false;
-
- TopOrderVisitor<Arc> top_order_visitor(&order, &acyclic);
- DfsVisit(fst, &top_order_visitor);
- if (!acyclic) {
- LOG(WARNING) << "ReplaceUtil::GetTopOrder: Cyclical label dependencies";
- return false;
- }
-
- toporder->resize(order.size());
- for (Label i = 0; i < order.size(); ++i)
- (*toporder)[order[i]] = i;
-
- return true;
-}
-
-template <class Arc>
-void ReplaceUtil<Arc>::ReplaceLabels(const vector<Label> &labels) {
- CheckMutableFsts();
- unordered_set<Label> label_set;
- for (Label i = 0; i < labels.size(); ++i)
- if (labels[i] != root_label_) // can't replace root
- label_set.insert(labels[i]);
-
- // Finds Fst dependencies restricted to the labels requested.
- GetDependencies(false);
- VectorFst<Arc> pfst(depfst_);
- for (StateId i = 0; i < pfst.NumStates(); ++i) {
- vector<Arc> arcs;
- for (ArcIterator< VectorFst<Arc> > aiter(pfst, i);
- !aiter.Done(); aiter.Next()) {
- const Arc &arc = aiter.Value();
- Label label = nonterminal_array_[arc.nextstate];
- if (label_set.count(label) > 0)
- arcs.push_back(arc);
- }
- pfst.DeleteArcs(i);
- for (size_t j = 0; j < arcs.size(); ++j)
- pfst.AddArc(i, arcs[j]);
- }
-
- vector<Label> toporder;
- if (!GetTopOrder(pfst, &toporder)) {
- ClearDependencies();
- return;
- }
-
- // Visits Fsts in reverse topological order of dependencies and
- // performs replacements.
- for (Label o = toporder.size() - 1; o >= 0; --o) {
- vector<FstPair> fst_pairs;
- StateId s = toporder[o];
- for (ArcIterator< VectorFst<Arc> > aiter(pfst, s);
- !aiter.Done(); aiter.Next()) {
- const Arc &arc = aiter.Value();
- Label label = nonterminal_array_[arc.nextstate];
- const Fst<Arc> *fst = fst_array_[arc.nextstate];
- fst_pairs.push_back(make_pair(label, fst));
- }
- if (fst_pairs.empty())
- continue;
- Label label = nonterminal_array_[s];
- const Fst<Arc> *fst = fst_array_[s];
- fst_pairs.push_back(make_pair(label, fst));
-
- Replace(fst_pairs, mutable_fst_array_[s], label, epsilon_on_replace_);
- }
- ClearDependencies();
-}
-
-template <class Arc>
-void ReplaceUtil<Arc>::ReplaceBySize(size_t nstates, size_t narcs,
- size_t nnonterms) {
- vector<Label> labels;
- GetDependencies(true);
-
- vector<Label> toporder;
- if (!GetTopOrder(depfst_, &toporder)) {
- ClearDependencies();
- return;
- }
-
- for (Label o = toporder.size() - 1; o >= 0; --o) {
- Label j = toporder[o];
- if (stats_[j].nstates <= nstates &&
- stats_[j].narcs <= narcs &&
- stats_[j].nnonterms <= nnonterms) {
- labels.push_back(nonterminal_array_[j]);
- UpdateStats(j);
- }
- }
- ReplaceLabels(labels);
-}
-
-template <class Arc>
-void ReplaceUtil<Arc>::ReplaceByInstances(size_t ninstances) {
- vector<Label> labels;
- GetDependencies(true);
-
- vector<Label> toporder;
- if (!GetTopOrder(depfst_, &toporder)) {
- ClearDependencies();
- return;
- }
- for (Label o = 0; o < toporder.size(); ++o) {
- Label j = toporder[o];
- if (stats_[j].nref <= ninstances) {
- labels.push_back(nonterminal_array_[j]);
- UpdateStats(j);
- }
- }
- ReplaceLabels(labels);
-}
-
-template <class Arc>
-void ReplaceUtil<Arc>::GetFstPairs(vector<FstPair> *fst_pairs) {
- CheckMutableFsts();
- fst_pairs->clear();
- for (Label i = 0; i < fst_array_.size(); ++i) {
- Label label = nonterminal_array_[i];
- const Fst<Arc> *fst = fst_array_[i];
- if (!fst)
- continue;
- fst_pairs->push_back(make_pair(label, fst));
- }
-}
-
-template <class Arc>
-void ReplaceUtil<Arc>::GetMutableFstPairs(
- vector<MutableFstPair> *mutable_fst_pairs) {
- CheckMutableFsts();
- mutable_fst_pairs->clear();
- for (Label i = 0; i < mutable_fst_array_.size(); ++i) {
- Label label = nonterminal_array_[i];
- MutableFst<Arc> *fst = mutable_fst_array_[i];
- if (!fst)
- continue;
- mutable_fst_pairs->push_back(make_pair(label, fst->Copy()));
- }
-}
-
-} // namespace fst
-
-#endif // FST_LIB_REPLACE_UTIL_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/replace.h b/kaldi_io/src/tools/openfst/include/fst/replace.h
deleted file mode 100644
index ef5f6cc..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/replace.h
+++ /dev/null
@@ -1,1453 +0,0 @@
-// replace.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Johan Schalkwyk)
-//
-// \file
-// Functions and classes for the recursive replacement of Fsts.
-//
-
-#ifndef FST_LIB_REPLACE_H__
-#define FST_LIB_REPLACE_H__
-
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <set>
-#include <string>
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-#include <fst/expanded-fst.h>
-#include <fst/fst.h>
-#include <fst/matcher.h>
-#include <fst/replace-util.h>
-#include <fst/state-table.h>
-#include <fst/test-properties.h>
-
-namespace fst {
-
-//
-// REPLACE STATE TUPLES AND TABLES
-//
-// The replace state table has the form
-//
-// template <class A, class P>
-// class ReplaceStateTable {
-// public:
-// typedef A Arc;
-// typedef P PrefixId;
-// typedef typename A::StateId StateId;
-// typedef ReplaceStateTuple<StateId, PrefixId> StateTuple;
-// typedef typename A::Label Label;
-//
-// // Required constuctor
-// ReplaceStateTable(const vector<pair<Label, const Fst<A>*> > &fst_tuples,
-// Label root);
-//
-// // Required copy constructor that does not copy state
-// ReplaceStateTable(const ReplaceStateTable<A,P> &table);
-//
-// // Lookup state ID by tuple. If it doesn't exist, then add it.
-// StateId FindState(const StateTuple &tuple);
-//
-// // Lookup state tuple by ID.
-// const StateTuple &Tuple(StateId id) const;
-// };
-
-
-// \struct ReplaceStateTuple
-// \brief Tuple of information that uniquely defines a state in replace
-template <class S, class P>
-struct ReplaceStateTuple {
- typedef S StateId;
- typedef P PrefixId;
-
- ReplaceStateTuple()
- : prefix_id(-1), fst_id(kNoStateId), fst_state(kNoStateId) {}
-
- ReplaceStateTuple(PrefixId p, StateId f, StateId s)
- : prefix_id(p), fst_id(f), fst_state(s) {}
-
- PrefixId prefix_id; // index in prefix table
- StateId fst_id; // current fst being walked
- StateId fst_state; // current state in fst being walked, not to be
- // confused with the state_id of the combined fst
-};
-
-
-// Equality of replace state tuples.
-template <class S, class P>
-inline bool operator==(const ReplaceStateTuple<S, P>& x,
- const ReplaceStateTuple<S, P>& y) {
- return x.prefix_id == y.prefix_id &&
- x.fst_id == y.fst_id &&
- x.fst_state == y.fst_state;
-}
-
-
-// \class ReplaceRootSelector
-// Functor returning true for tuples corresponding to states in the root FST
-template <class S, class P>
-class ReplaceRootSelector {
- public:
- bool operator()(const ReplaceStateTuple<S, P> &tuple) const {
- return tuple.prefix_id == 0;
- }
-};
-
-
-// \class ReplaceFingerprint
-// Fingerprint for general replace state tuples.
-template <class S, class P>
-class ReplaceFingerprint {
- public:
- ReplaceFingerprint(const vector<uint64> *size_array)
- : cumulative_size_array_(size_array) {}
-
- uint64 operator()(const ReplaceStateTuple<S, P> &tuple) const {
- return tuple.prefix_id * (cumulative_size_array_->back()) +
- cumulative_size_array_->at(tuple.fst_id - 1) +
- tuple.fst_state;
- }
-
- private:
- const vector<uint64> *cumulative_size_array_;
-};
-
-
-// \class ReplaceFstStateFingerprint
-// Useful when the fst_state uniquely define the tuple.
-template <class S, class P>
-class ReplaceFstStateFingerprint {
- public:
- uint64 operator()(const ReplaceStateTuple<S, P>& tuple) const {
- return tuple.fst_state;
- }
-};
-
-
-// \class ReplaceHash
-// A generic hash function for replace state tuples.
-template <typename S, typename P>
-class ReplaceHash {
- public:
- size_t operator()(const ReplaceStateTuple<S, P>& t) const {
- return t.prefix_id + t.fst_id * kPrime0 + t.fst_state * kPrime1;
- }
- private:
- static const size_t kPrime0;
- static const size_t kPrime1;
-};
-
-template <typename S, typename P>
-const size_t ReplaceHash<S, P>::kPrime0 = 7853;
-
-template <typename S, typename P>
-const size_t ReplaceHash<S, P>::kPrime1 = 7867;
-
-template <class A, class T> class ReplaceFstMatcher;
-
-
-// \class VectorHashReplaceStateTable
-// A two-level state table for replace.
-// Warning: calls CountStates to compute the number of states of each
-// component Fst.
-template <class A, class P = ssize_t>
-class VectorHashReplaceStateTable {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef P PrefixId;
- typedef ReplaceStateTuple<StateId, P> StateTuple;
- typedef VectorHashStateTable<ReplaceStateTuple<StateId, P>,
- ReplaceRootSelector<StateId, P>,
- ReplaceFstStateFingerprint<StateId, P>,
- ReplaceFingerprint<StateId, P> > StateTable;
-
- VectorHashReplaceStateTable(
- const vector<pair<Label, const Fst<A>*> > &fst_tuples,
- Label root) : root_size_(0) {
- cumulative_size_array_.push_back(0);
- for (size_t i = 0; i < fst_tuples.size(); ++i) {
- if (fst_tuples[i].first == root) {
- root_size_ = CountStates(*(fst_tuples[i].second));
- cumulative_size_array_.push_back(cumulative_size_array_.back());
- } else {
- cumulative_size_array_.push_back(cumulative_size_array_.back() +
- CountStates(*(fst_tuples[i].second)));
- }
- }
- state_table_ = new StateTable(
- new ReplaceRootSelector<StateId, P>,
- new ReplaceFstStateFingerprint<StateId, P>,
- new ReplaceFingerprint<StateId, P>(&cumulative_size_array_),
- root_size_,
- root_size_ + cumulative_size_array_.back());
- }
-
- VectorHashReplaceStateTable(const VectorHashReplaceStateTable<A, P> &table)
- : root_size_(table.root_size_),
- cumulative_size_array_(table.cumulative_size_array_) {
- state_table_ = new StateTable(
- new ReplaceRootSelector<StateId, P>,
- new ReplaceFstStateFingerprint<StateId, P>,
- new ReplaceFingerprint<StateId, P>(&cumulative_size_array_),
- root_size_,
- root_size_ + cumulative_size_array_.back());
- }
-
- ~VectorHashReplaceStateTable() {
- delete state_table_;
- }
-
- StateId FindState(const StateTuple &tuple) {
- return state_table_->FindState(tuple);
- }
-
- const StateTuple &Tuple(StateId id) const {
- return state_table_->Tuple(id);
- }
-
- private:
- StateId root_size_;
- vector<uint64> cumulative_size_array_;
- StateTable *state_table_;
-};
-
-
-// \class DefaultReplaceStateTable
-// Default replace state table
-template <class A, class P = ssize_t>
-class DefaultReplaceStateTable : public CompactHashStateTable<
- ReplaceStateTuple<typename A::StateId, P>,
- ReplaceHash<typename A::StateId, P> > {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef P PrefixId;
- typedef ReplaceStateTuple<StateId, P> StateTuple;
- typedef CompactHashStateTable<StateTuple,
- ReplaceHash<StateId, PrefixId> > StateTable;
-
- using StateTable::FindState;
- using StateTable::Tuple;
-
- DefaultReplaceStateTable(
- const vector<pair<Label, const Fst<A>*> > &fst_tuples,
- Label root) {}
-
- DefaultReplaceStateTable(const DefaultReplaceStateTable<A, P> &table)
- : StateTable() {}
-};
-
-//
-// REPLACE FST CLASS
-//
-
-// By default ReplaceFst will copy the input label of the 'replace arc'.
-// For acceptors we do not want this behaviour. Instead we need to
-// create an epsilon arc when recursing into the appropriate Fst.
-// The 'epsilon_on_replace' option can be used to toggle this behaviour.
-template <class A, class T = DefaultReplaceStateTable<A> >
-struct ReplaceFstOptions : CacheOptions {
- int64 root; // root rule for expansion
- bool epsilon_on_replace;
- bool take_ownership; // take ownership of input Fst(s)
- T* state_table;
-
- ReplaceFstOptions(const CacheOptions &opts, int64 r)
- : CacheOptions(opts),
- root(r),
- epsilon_on_replace(false),
- take_ownership(false),
- state_table(0) {}
- explicit ReplaceFstOptions(int64 r)
- : root(r),
- epsilon_on_replace(false),
- take_ownership(false),
- state_table(0) {}
- ReplaceFstOptions(int64 r, bool epsilon_replace_arc)
- : root(r),
- epsilon_on_replace(epsilon_replace_arc),
- take_ownership(false),
- state_table(0) {}
- ReplaceFstOptions()
- : root(kNoLabel),
- epsilon_on_replace(false),
- take_ownership(false),
- state_table(0) {}
-};
-
-
-// \class ReplaceFstImpl
-// \brief Implementation class for replace class Fst
-//
-// The replace implementation class supports a dynamic
-// expansion of a recursive transition network represented as Fst
-// with dynamic replacable arcs.
-//
-template <class A, class T>
-class ReplaceFstImpl : public CacheImpl<A> {
- friend class ReplaceFstMatcher<A, T>;
-
- public:
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::WriteHeader;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
- using FstImpl<A>::InputSymbols;
- using FstImpl<A>::OutputSymbols;
-
- using CacheImpl<A>::PushArc;
- using CacheImpl<A>::HasArcs;
- using CacheImpl<A>::HasFinal;
- using CacheImpl<A>::HasStart;
- using CacheImpl<A>::SetArcs;
- using CacheImpl<A>::SetFinal;
- using CacheImpl<A>::SetStart;
-
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
- typedef A Arc;
- typedef unordered_map<Label, Label> NonTerminalHash;
-
- typedef T StateTable;
- typedef typename T::PrefixId PrefixId;
- typedef ReplaceStateTuple<StateId, PrefixId> StateTuple;
-
- // constructor for replace class implementation.
- // \param fst_tuples array of label/fst tuples, one for each non-terminal
- ReplaceFstImpl(const vector< pair<Label, const Fst<A>* > >& fst_tuples,
- const ReplaceFstOptions<A, T> &opts)
- : CacheImpl<A>(opts),
- epsilon_on_replace_(opts.epsilon_on_replace),
- state_table_(opts.state_table ? opts.state_table :
- new StateTable(fst_tuples, opts.root)) {
-
- SetType("replace");
-
- if (fst_tuples.size() > 0) {
- SetInputSymbols(fst_tuples[0].second->InputSymbols());
- SetOutputSymbols(fst_tuples[0].second->OutputSymbols());
- }
-
- bool all_negative = true; // all nonterminals are negative?
- bool dense_range = true; // all nonterminals are positive
- // and form a dense range containing 1?
- for (size_t i = 0; i < fst_tuples.size(); ++i) {
- Label nonterminal = fst_tuples[i].first;
- if (nonterminal >= 0)
- all_negative = false;
- if (nonterminal > fst_tuples.size() || nonterminal <= 0)
- dense_range = false;
- }
-
- vector<uint64> inprops;
- bool all_ilabel_sorted = true;
- bool all_olabel_sorted = true;
- bool all_non_empty = true;
- fst_array_.push_back(0);
- for (size_t i = 0; i < fst_tuples.size(); ++i) {
- Label label = fst_tuples[i].first;
- const Fst<A> *fst = fst_tuples[i].second;
- nonterminal_hash_[label] = fst_array_.size();
- nonterminal_set_.insert(label);
- fst_array_.push_back(opts.take_ownership ? fst : fst->Copy());
- if (fst->Start() == kNoStateId)
- all_non_empty = false;
- if(!fst->Properties(kILabelSorted, false))
- all_ilabel_sorted = false;
- if(!fst->Properties(kOLabelSorted, false))
- all_olabel_sorted = false;
- inprops.push_back(fst->Properties(kCopyProperties, false));
- if (i) {
- if (!CompatSymbols(InputSymbols(), fst->InputSymbols())) {
- FSTERROR() << "ReplaceFstImpl: input symbols of Fst " << i
- << " does not match input symbols of base Fst (0'th fst)";
- SetProperties(kError, kError);
- }
- if (!CompatSymbols(OutputSymbols(), fst->OutputSymbols())) {
- FSTERROR() << "ReplaceFstImpl: output symbols of Fst " << i
- << " does not match output symbols of base Fst "
- << "(0'th fst)";
- SetProperties(kError, kError);
- }
- }
- }
- Label nonterminal = nonterminal_hash_[opts.root];
- if ((nonterminal == 0) && (fst_array_.size() > 1)) {
- FSTERROR() << "ReplaceFstImpl: no Fst corresponding to root label '"
- << opts.root << "' in the input tuple vector";
- SetProperties(kError, kError);
- }
- root_ = (nonterminal > 0) ? nonterminal : 1;
-
- SetProperties(ReplaceProperties(inprops, root_ - 1, epsilon_on_replace_,
- all_non_empty));
- // We assume that all terminals are positive. The resulting
- // ReplaceFst is known to be kILabelSorted when all sub-FSTs are
- // kILabelSorted and one of the 3 following conditions is satisfied:
- // 1. 'epsilon_on_replace' is false, or
- // 2. all non-terminals are negative, or
- // 3. all non-terninals are positive and form a dense range containing 1.
- if (all_ilabel_sorted &&
- (!epsilon_on_replace_ || all_negative || dense_range))
- SetProperties(kILabelSorted, kILabelSorted);
- // Similarly, the resulting ReplaceFst is known to be
- // kOLabelSorted when all sub-FSTs are kOLabelSorted and one of
- // the 2 following conditions is satisfied:
- // 1. all non-terminals are negative, or
- // 2. all non-terninals are positive and form a dense range containing 1.
- if (all_olabel_sorted && (all_negative || dense_range))
- SetProperties(kOLabelSorted, kOLabelSorted);
-
- // Enable optional caching as long as sorted and all non empty.
- if (Properties(kILabelSorted | kOLabelSorted) && all_non_empty)
- always_cache_ = false;
- else
- always_cache_ = true;
- VLOG(2) << "ReplaceFstImpl::ReplaceFstImpl: always_cache = "
- << (always_cache_ ? "true" : "false");
- }
-
- ReplaceFstImpl(const ReplaceFstImpl& impl)
- : CacheImpl<A>(impl),
- epsilon_on_replace_(impl.epsilon_on_replace_),
- always_cache_(impl.always_cache_),
- state_table_(new StateTable(*(impl.state_table_))),
- nonterminal_set_(impl.nonterminal_set_),
- nonterminal_hash_(impl.nonterminal_hash_),
- root_(impl.root_) {
- SetType("replace");
- SetProperties(impl.Properties(), kCopyProperties);
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- fst_array_.reserve(impl.fst_array_.size());
- fst_array_.push_back(0);
- for (size_t i = 1; i < impl.fst_array_.size(); ++i) {
- fst_array_.push_back(impl.fst_array_[i]->Copy(true));
- }
- }
-
- ~ReplaceFstImpl() {
- VLOG(2) << "~ReplaceFstImpl: gc = "
- << (CacheImpl<A>::GetCacheGc() ? "true" : "false")
- << ", gc_size = " << CacheImpl<A>::GetCacheSize()
- << ", gc_limit = " << CacheImpl<A>::GetCacheLimit();
-
- delete state_table_;
- for (size_t i = 1; i < fst_array_.size(); ++i) {
- delete fst_array_[i];
- }
- }
-
- // Computes the dependency graph of the replace class and returns
- // true if the dependencies are cyclic. Cyclic dependencies will result
- // in an un-expandable replace fst.
- bool CyclicDependencies() const {
- ReplaceUtil<A> replace_util(fst_array_, nonterminal_hash_, root_);
- return replace_util.CyclicDependencies();
- }
-
- // Return or compute start state of replace fst
- StateId Start() {
- if (!HasStart()) {
- if (fst_array_.size() == 1) { // no fsts defined for replace
- SetStart(kNoStateId);
- return kNoStateId;
- } else {
- const Fst<A>* fst = fst_array_[root_];
- StateId fst_start = fst->Start();
- if (fst_start == kNoStateId) // root Fst is empty
- return kNoStateId;
-
- PrefixId prefix = GetPrefixId(StackPrefix());
- StateId start = state_table_->FindState(
- StateTuple(prefix, root_, fst_start));
- SetStart(start);
- return start;
- }
- } else {
- return CacheImpl<A>::Start();
- }
- }
-
- // return final weight of state (kInfWeight means state is not final)
- Weight Final(StateId s) {
- if (!HasFinal(s)) {
- const StateTuple& tuple = state_table_->Tuple(s);
- const StackPrefix& stack = stackprefix_array_[tuple.prefix_id];
- const Fst<A>* fst = fst_array_[tuple.fst_id];
- StateId fst_state = tuple.fst_state;
-
- if (fst->Final(fst_state) != Weight::Zero() && stack.Depth() == 0)
- SetFinal(s, fst->Final(fst_state));
- else
- SetFinal(s, Weight::Zero());
- }
- return CacheImpl<A>::Final(s);
- }
-
- size_t NumArcs(StateId s) {
- if (HasArcs(s)) { // If state cached, use the cached value.
- return CacheImpl<A>::NumArcs(s);
- } else if (always_cache_) { // If always caching, expand and cache state.
- Expand(s);
- return CacheImpl<A>::NumArcs(s);
- } else { // Otherwise compute the number of arcs without expanding.
- StateTuple tuple = state_table_->Tuple(s);
- if (tuple.fst_state == kNoStateId)
- return 0;
-
- const Fst<A>* fst = fst_array_[tuple.fst_id];
- size_t num_arcs = fst->NumArcs(tuple.fst_state);
- if (ComputeFinalArc(tuple, 0))
- num_arcs++;
-
- return num_arcs;
- }
- }
-
- // Returns whether a given label is a non terminal
- bool IsNonTerminal(Label l) const {
- // TODO(allauzen): be smarter and take advantage of
- // all_dense or all_negative.
- // Use also in ComputeArc, this would require changes to replace
- // so that recursing into an empty fst lead to a non co-accessible
- // state instead of deleting the arc as done currently.
- // Current use correct, since i/olabel sorted iff all_non_empty.
- typename NonTerminalHash::const_iterator it =
- nonterminal_hash_.find(l);
- return it != nonterminal_hash_.end();
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (HasArcs(s)) {
- // If state cached, use the cached value.
- return CacheImpl<A>::NumInputEpsilons(s);
- } else if (always_cache_ || !Properties(kILabelSorted)) {
- // If always caching or if the number of input epsilons is too expensive
- // to compute without caching (i.e. not ilabel sorted),
- // then expand and cache state.
- Expand(s);
- return CacheImpl<A>::NumInputEpsilons(s);
- } else {
- // Otherwise, compute the number of input epsilons without caching.
- StateTuple tuple = state_table_->Tuple(s);
- if (tuple.fst_state == kNoStateId)
- return 0;
- const Fst<A>* fst = fst_array_[tuple.fst_id];
- size_t num = 0;
- if (!epsilon_on_replace_) {
- // If epsilon_on_replace is false, all input epsilon arcs
- // are also input epsilons arcs in the underlying machine.
- fst->NumInputEpsilons(tuple.fst_state);
- } else {
- // Otherwise, one need to consider that all non-terminal arcs
- // in the underlying machine also become input epsilon arc.
- ArcIterator<Fst<A> > aiter(*fst, tuple.fst_state);
- for (; !aiter.Done() &&
- ((aiter.Value().ilabel == 0) ||
- IsNonTerminal(aiter.Value().olabel));
- aiter.Next())
- ++num;
- }
- if (ComputeFinalArc(tuple, 0))
- num++;
- return num;
- }
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (HasArcs(s)) {
- // If state cached, use the cached value.
- return CacheImpl<A>::NumOutputEpsilons(s);
- } else if(always_cache_ || !Properties(kOLabelSorted)) {
- // If always caching or if the number of output epsilons is too expensive
- // to compute without caching (i.e. not olabel sorted),
- // then expand and cache state.
- Expand(s);
- return CacheImpl<A>::NumOutputEpsilons(s);
- } else {
- // Otherwise, compute the number of output epsilons without caching.
- StateTuple tuple = state_table_->Tuple(s);
- if (tuple.fst_state == kNoStateId)
- return 0;
- const Fst<A>* fst = fst_array_[tuple.fst_id];
- size_t num = 0;
- ArcIterator<Fst<A> > aiter(*fst, tuple.fst_state);
- for (; !aiter.Done() &&
- ((aiter.Value().olabel == 0) ||
- IsNonTerminal(aiter.Value().olabel));
- aiter.Next())
- ++num;
- if (ComputeFinalArc(tuple, 0))
- num++;
- return num;
- }
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if (mask & kError) {
- for (size_t i = 1; i < fst_array_.size(); ++i) {
- if (fst_array_[i]->Properties(kError, false))
- SetProperties(kError, kError);
- }
- }
- return FstImpl<Arc>::Properties(mask);
- }
-
- // return the base arc iterator, if arcs have not been computed yet,
- // extend/recurse for new arcs.
- void InitArcIterator(StateId s, ArcIteratorData<A> *data) {
- if (!HasArcs(s))
- Expand(s);
- CacheImpl<A>::InitArcIterator(s, data);
- // TODO(allauzen): Set behaviour of generic iterator
- // Warning: ArcIterator<ReplaceFst<A> >::InitCache()
- // relies on current behaviour.
- }
-
-
- // Extend current state (walk arcs one level deep)
- void Expand(StateId s) {
- StateTuple tuple = state_table_->Tuple(s);
-
- // If local fst is empty
- if (tuple.fst_state == kNoStateId) {
- SetArcs(s);
- return;
- }
-
- ArcIterator< Fst<A> > aiter(
- *(fst_array_[tuple.fst_id]), tuple.fst_state);
- Arc arc;
-
- // Create a final arc when needed
- if (ComputeFinalArc(tuple, &arc))
- PushArc(s, arc);
-
- // Expand all arcs leaving the state
- for (;!aiter.Done(); aiter.Next()) {
- if (ComputeArc(tuple, aiter.Value(), &arc))
- PushArc(s, arc);
- }
-
- SetArcs(s);
- }
-
- void Expand(StateId s, const StateTuple &tuple,
- const ArcIteratorData<A> &data) {
- // If local fst is empty
- if (tuple.fst_state == kNoStateId) {
- SetArcs(s);
- return;
- }
-
- ArcIterator< Fst<A> > aiter(data);
- Arc arc;
-
- // Create a final arc when needed
- if (ComputeFinalArc(tuple, &arc))
- AddArc(s, arc);
-
- // Expand all arcs leaving the state
- for (; !aiter.Done(); aiter.Next()) {
- if (ComputeArc(tuple, aiter.Value(), &arc))
- AddArc(s, arc);
- }
-
- SetArcs(s);
- }
-
- // If arcp == 0, only returns if a final arc is required, does not
- // actually compute it.
- bool ComputeFinalArc(const StateTuple &tuple, A* arcp,
- uint32 flags = kArcValueFlags) {
- const Fst<A>* fst = fst_array_[tuple.fst_id];
- StateId fst_state = tuple.fst_state;
- if (fst_state == kNoStateId)
- return false;
-
- // if state is final, pop up stack
- const StackPrefix& stack = stackprefix_array_[tuple.prefix_id];
- if (fst->Final(fst_state) != Weight::Zero() && stack.Depth()) {
- if (arcp) {
- arcp->ilabel = 0;
- arcp->olabel = 0;
- if (flags & kArcNextStateValue) {
- PrefixId prefix_id = PopPrefix(stack);
- const PrefixTuple& top = stack.Top();
- arcp->nextstate = state_table_->FindState(
- StateTuple(prefix_id, top.fst_id, top.nextstate));
- }
- if (flags & kArcWeightValue)
- arcp->weight = fst->Final(fst_state);
- }
- return true;
- } else {
- return false;
- }
- }
-
- // Compute the arc in the replace fst corresponding to a given
- // in the underlying machine. Returns false if the underlying arc
- // corresponds to no arc in the replace.
- bool ComputeArc(const StateTuple &tuple, const A &arc, A* arcp,
- uint32 flags = kArcValueFlags) {
- if (!epsilon_on_replace_ &&
- (flags == (flags & (kArcILabelValue | kArcWeightValue)))) {
- *arcp = arc;
- return true;
- }
-
- if (arc.olabel == 0) { // expand local fst
- StateId nextstate = flags & kArcNextStateValue
- ? state_table_->FindState(
- StateTuple(tuple.prefix_id, tuple.fst_id, arc.nextstate))
- : kNoStateId;
- *arcp = A(arc.ilabel, arc.olabel, arc.weight, nextstate);
- } else {
- // check for non terminal
- typename NonTerminalHash::const_iterator it =
- nonterminal_hash_.find(arc.olabel);
- if (it != nonterminal_hash_.end()) { // recurse into non terminal
- Label nonterminal = it->second;
- const Fst<A>* nt_fst = fst_array_[nonterminal];
- PrefixId nt_prefix = PushPrefix(stackprefix_array_[tuple.prefix_id],
- tuple.fst_id, arc.nextstate);
-
- // if start state is valid replace, else arc is implicitly
- // deleted
- StateId nt_start = nt_fst->Start();
- if (nt_start != kNoStateId) {
- StateId nt_nextstate = flags & kArcNextStateValue
- ? state_table_->FindState(
- StateTuple(nt_prefix, nonterminal, nt_start))
- : kNoStateId;
- Label ilabel = (epsilon_on_replace_) ? 0 : arc.ilabel;
- *arcp = A(ilabel, 0, arc.weight, nt_nextstate);
- } else {
- return false;
- }
- } else {
- StateId nextstate = flags & kArcNextStateValue
- ? state_table_->FindState(
- StateTuple(tuple.prefix_id, tuple.fst_id, arc.nextstate))
- : kNoStateId;
- *arcp = A(arc.ilabel, arc.olabel, arc.weight, nextstate);
- }
- }
- return true;
- }
-
- // Returns the arc iterator flags supported by this Fst.
- uint32 ArcIteratorFlags() const {
- uint32 flags = kArcValueFlags;
- if (!always_cache_)
- flags |= kArcNoCache;
- return flags;
- }
-
- T* GetStateTable() const {
- return state_table_;
- }
-
- const Fst<A>* GetFst(Label fst_id) const {
- return fst_array_[fst_id];
- }
-
- bool EpsilonOnReplace() const { return epsilon_on_replace_; }
-
- // private helper classes
- private:
- static const size_t kPrime0;
-
- // \class PrefixTuple
- // \brief Tuple of fst_id and destination state (entry in stack prefix)
- struct PrefixTuple {
- PrefixTuple(Label f, StateId s) : fst_id(f), nextstate(s) {}
-
- Label fst_id;
- StateId nextstate;
- };
-
- // \class StackPrefix
- // \brief Container for stack prefix.
- class StackPrefix {
- public:
- StackPrefix() {}
-
- // copy constructor
- StackPrefix(const StackPrefix& x) :
- prefix_(x.prefix_) {
- }
-
- void Push(StateId fst_id, StateId nextstate) {
- prefix_.push_back(PrefixTuple(fst_id, nextstate));
- }
-
- void Pop() {
- prefix_.pop_back();
- }
-
- const PrefixTuple& Top() const {
- return prefix_[prefix_.size()-1];
- }
-
- size_t Depth() const {
- return prefix_.size();
- }
-
- public:
- vector<PrefixTuple> prefix_;
- };
-
-
- // \class StackPrefixEqual
- // \brief Compare two stack prefix classes for equality
- class StackPrefixEqual {
- public:
- bool operator()(const StackPrefix& x, const StackPrefix& y) const {
- if (x.prefix_.size() != y.prefix_.size()) return false;
- for (size_t i = 0; i < x.prefix_.size(); ++i) {
- if (x.prefix_[i].fst_id != y.prefix_[i].fst_id ||
- x.prefix_[i].nextstate != y.prefix_[i].nextstate) return false;
- }
- return true;
- }
- };
-
- //
- // \class StackPrefixKey
- // \brief Hash function for stack prefix to prefix id
- class StackPrefixKey {
- public:
- size_t operator()(const StackPrefix& x) const {
- size_t sum = 0;
- for (size_t i = 0; i < x.prefix_.size(); ++i) {
- sum += x.prefix_[i].fst_id + x.prefix_[i].nextstate*kPrime0;
- }
- return sum;
- }
- };
-
- typedef unordered_map<StackPrefix, PrefixId, StackPrefixKey, StackPrefixEqual>
- StackPrefixHash;
-
- // private methods
- private:
- // hash stack prefix (return unique index into stackprefix array)
- PrefixId GetPrefixId(const StackPrefix& prefix) {
- typename StackPrefixHash::iterator it = prefix_hash_.find(prefix);
- if (it == prefix_hash_.end()) {
- PrefixId prefix_id = stackprefix_array_.size();
- stackprefix_array_.push_back(prefix);
- prefix_hash_[prefix] = prefix_id;
- return prefix_id;
- } else {
- return it->second;
- }
- }
-
- // prefix id after a stack pop
- PrefixId PopPrefix(StackPrefix prefix) {
- prefix.Pop();
- return GetPrefixId(prefix);
- }
-
- // prefix id after a stack push
- PrefixId PushPrefix(StackPrefix prefix, Label fst_id, StateId nextstate) {
- prefix.Push(fst_id, nextstate);
- return GetPrefixId(prefix);
- }
-
-
- // private data
- private:
- // runtime options
- bool epsilon_on_replace_;
- bool always_cache_; // Optionally caching arc iterator disabled when true
-
- // state table
- StateTable *state_table_;
-
- // cross index of unique stack prefix
- // could potentially have one copy of prefix array
- StackPrefixHash prefix_hash_;
- vector<StackPrefix> stackprefix_array_;
-
- set<Label> nonterminal_set_;
- NonTerminalHash nonterminal_hash_;
- vector<const Fst<A>*> fst_array_;
- Label root_;
-
- void operator=(const ReplaceFstImpl<A, T> &); // disallow
-};
-
-
-template <class A, class T>
-const size_t ReplaceFstImpl<A, T>::kPrime0 = 7853;
-
-//
-// \class ReplaceFst
-// \brief Recursivively replaces arcs in the root Fst with other Fsts.
-// This version is a delayed Fst.
-//
-// ReplaceFst supports dynamic replacement of arcs in one Fst with
-// another Fst. This replacement is recursive. ReplaceFst can be used
-// to support a variety of delayed constructions such as recursive
-// transition networks, union, or closure. It is constructed with an
-// array of Fst(s). One Fst represents the root (or topology)
-// machine. The root Fst refers to other Fsts by recursively replacing
-// arcs labeled as non-terminals with the matching non-terminal
-// Fst. Currently the ReplaceFst uses the output symbols of the arcs
-// to determine whether the arc is a non-terminal arc or not. A
-// non-terminal can be any label that is not a non-zero terminal label
-// in the output alphabet.
-//
-// Note that the constructor uses a vector of pair<>. These correspond
-// to the tuple of non-terminal Label and corresponding Fst. For example
-// to implement the closure operation we need 2 Fsts. The first root
-// Fst is a single Arc on the start State that self loops, it references
-// the particular machine for which we are performing the closure operation.
-//
-// The ReplaceFst class supports an optionally caching arc iterator:
-// ArcIterator< ReplaceFst<A> >
-// The ReplaceFst need to be built such that it is known to be ilabel
-// or olabel sorted (see usage below).
-//
-// Observe that Matcher<Fst<A> > will use the optionally caching arc
-// iterator when available (Fst is ilabel sorted and matching on the
-// input, or Fst is olabel sorted and matching on the output).
-// In order to obtain the most efficient behaviour, it is recommended
-// to set 'epsilon_on_replace' to false (this means constructing acceptors
-// as transducers with epsilons on the input side of nonterminal arcs)
-// and matching on the input side.
-//
-// This class attaches interface to implementation and handles
-// reference counting, delegating most methods to ImplToFst.
-template <class A, class T = DefaultReplaceStateTable<A> >
-class ReplaceFst : public ImplToFst< ReplaceFstImpl<A, T> > {
- public:
- friend class ArcIterator< ReplaceFst<A, T> >;
- friend class StateIterator< ReplaceFst<A, T> >;
- friend class ReplaceFstMatcher<A, T>;
-
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
- typedef ReplaceFstImpl<A, T> Impl;
-
- using ImplToFst<Impl>::Properties;
-
- ReplaceFst(const vector<pair<Label, const Fst<A>* > >& fst_array,
- Label root)
- : ImplToFst<Impl>(new Impl(fst_array, ReplaceFstOptions<A, T>(root))) {}
-
- ReplaceFst(const vector<pair<Label, const Fst<A>* > >& fst_array,
- const ReplaceFstOptions<A, T> &opts)
- : ImplToFst<Impl>(new Impl(fst_array, opts)) {}
-
- // See Fst<>::Copy() for doc.
- ReplaceFst(const ReplaceFst<A, T>& fst, bool safe = false)
- : ImplToFst<Impl>(fst, safe) {}
-
- // Get a copy of this ReplaceFst. See Fst<>::Copy() for further doc.
- virtual ReplaceFst<A, T> *Copy(bool safe = false) const {
- return new ReplaceFst<A, T>(*this, safe);
- }
-
- virtual inline void InitStateIterator(StateIteratorData<A> *data) const;
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<A> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- virtual MatcherBase<A> *InitMatcher(MatchType match_type) const {
- if ((GetImpl()->ArcIteratorFlags() & kArcNoCache) &&
- ((match_type == MATCH_INPUT && Properties(kILabelSorted, false)) ||
- (match_type == MATCH_OUTPUT && Properties(kOLabelSorted, false)))) {
- return new ReplaceFstMatcher<A, T>(*this, match_type);
- }
- else {
- VLOG(2) << "Not using replace matcher";
- return 0;
- }
- }
-
- bool CyclicDependencies() const {
- return GetImpl()->CyclicDependencies();
- }
-
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const ReplaceFst<A> &fst); // disallow
-};
-
-
-// Specialization for ReplaceFst.
-template<class A, class T>
-class StateIterator< ReplaceFst<A, T> >
- : public CacheStateIterator< ReplaceFst<A, T> > {
- public:
- explicit StateIterator(const ReplaceFst<A, T> &fst)
- : CacheStateIterator< ReplaceFst<A, T> >(fst, fst.GetImpl()) {}
-
- private:
- DISALLOW_COPY_AND_ASSIGN(StateIterator);
-};
-
-
-// Specialization for ReplaceFst.
-// Implements optional caching. It can be used as follows:
-//
-// ReplaceFst<A> replace;
-// ArcIterator< ReplaceFst<A> > aiter(replace, s);
-// // Note: ArcIterator< Fst<A> > is always a caching arc iterator.
-// aiter.SetFlags(kArcNoCache, kArcNoCache);
-// // Use the arc iterator, no arc will be cached, no state will be expanded.
-// // The varied 'kArcValueFlags' can be used to decide which part
-// // of arc values needs to be computed.
-// aiter.SetFlags(kArcILabelValue, kArcValueFlags);
-// // Only want the ilabel for this arc
-// aiter.Value(); // Does not compute the destination state.
-// aiter.Next();
-// aiter.SetFlags(kArcNextStateValue, kArcNextStateValue);
-// // Want both ilabel and nextstate for that arc
-// aiter.Value(); // Does compute the destination state and inserts it
-// // in the replace state table.
-// // No Arc has been cached at that point.
-//
-template <class A, class T>
-class ArcIterator< ReplaceFst<A, T> > {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
-
- ArcIterator(const ReplaceFst<A, T> &fst, StateId s)
- : fst_(fst), state_(s), pos_(0), offset_(0), flags_(0), arcs_(0),
- data_flags_(0), final_flags_(0) {
- cache_data_.ref_count = 0;
- local_data_.ref_count = 0;
-
- // If FST does not support optional caching, force caching.
- if(!(fst_.GetImpl()->ArcIteratorFlags() & kArcNoCache) &&
- !(fst_.GetImpl()->HasArcs(state_)))
- fst_.GetImpl()->Expand(state_);
-
- // If state is already cached, use cached arcs array.
- if (fst_.GetImpl()->HasArcs(state_)) {
- (fst_.GetImpl())->template CacheImpl<A>::InitArcIterator(state_,
- &cache_data_);
- num_arcs_ = cache_data_.narcs;
- arcs_ = cache_data_.arcs; // 'arcs_' is a ptr to the cached arcs.
- data_flags_ = kArcValueFlags; // All the arc member values are valid.
- } else { // Otherwise delay decision until Value() is called.
- tuple_ = fst_.GetImpl()->GetStateTable()->Tuple(state_);
- if (tuple_.fst_state == kNoStateId) {
- num_arcs_ = 0;
- } else {
- // The decision to cache or not to cache has been defered
- // until Value() or SetFlags() is called. However, the arc
- // iterator is set up now to be ready for non-caching in order
- // to keep the Value() method simple and efficient.
- const Fst<A>* fst = fst_.GetImpl()->GetFst(tuple_.fst_id);
- fst->InitArcIterator(tuple_.fst_state, &local_data_);
- // 'arcs_' is a pointer to the arcs in the underlying machine.
- arcs_ = local_data_.arcs;
- // Compute the final arc (but not its destination state)
- // if a final arc is required.
- bool has_final_arc = fst_.GetImpl()->ComputeFinalArc(
- tuple_,
- &final_arc_,
- kArcValueFlags & ~kArcNextStateValue);
- // Set the arc value flags that hold for 'final_arc_'.
- final_flags_ = kArcValueFlags & ~kArcNextStateValue;
- // Compute the number of arcs.
- num_arcs_ = local_data_.narcs;
- if (has_final_arc)
- ++num_arcs_;
- // Set the offset between the underlying arc positions and
- // the positions in the arc iterator.
- offset_ = num_arcs_ - local_data_.narcs;
- // Defers the decision to cache or not until Value() or
- // SetFlags() is called.
- data_flags_ = 0;
- }
- }
- }
-
- ~ArcIterator() {
- if (cache_data_.ref_count)
- --(*cache_data_.ref_count);
- if (local_data_.ref_count)
- --(*local_data_.ref_count);
- }
-
- void ExpandAndCache() const {
- // TODO(allauzen): revisit this
- // fst_.GetImpl()->Expand(state_, tuple_, local_data_);
- // (fst_.GetImpl())->CacheImpl<A>*>::InitArcIterator(state_,
- // &cache_data_);
- //
- fst_.InitArcIterator(state_, &cache_data_); // Expand and cache state.
- arcs_ = cache_data_.arcs; // 'arcs_' is a pointer to the cached arcs.
- data_flags_ = kArcValueFlags; // All the arc member values are valid.
- offset_ = 0; // No offset
-
- }
-
- void Init() {
- if (flags_ & kArcNoCache) { // If caching is disabled
- // 'arcs_' is a pointer to the arcs in the underlying machine.
- arcs_ = local_data_.arcs;
- // Set the arcs value flags that hold for 'arcs_'.
- data_flags_ = kArcWeightValue;
- if (!fst_.GetImpl()->EpsilonOnReplace())
- data_flags_ |= kArcILabelValue;
- // Set the offset between the underlying arc positions and
- // the positions in the arc iterator.
- offset_ = num_arcs_ - local_data_.narcs;
- } else { // Otherwise, expand and cache
- ExpandAndCache();
- }
- }
-
- bool Done() const { return pos_ >= num_arcs_; }
-
- const A& Value() const {
- // If 'data_flags_' was set to 0, non-caching was not requested
- if (!data_flags_) {
- // TODO(allauzen): revisit this.
- if (flags_ & kArcNoCache) {
- // Should never happen.
- FSTERROR() << "ReplaceFst: inconsistent arc iterator flags";
- }
- ExpandAndCache(); // Expand and cache.
- }
-
- if (pos_ - offset_ >= 0) { // The requested arc is not the 'final' arc.
- const A& arc = arcs_[pos_ - offset_];
- if ((data_flags_ & flags_) == (flags_ & kArcValueFlags)) {
- // If the value flags for 'arc' match the recquired value flags
- // then return 'arc'.
- return arc;
- } else {
- // Otherwise, compute the corresponding arc on-the-fly.
- fst_.GetImpl()->ComputeArc(tuple_, arc, &arc_, flags_ & kArcValueFlags);
- return arc_;
- }
- } else { // The requested arc is the 'final' arc.
- if ((final_flags_ & flags_) != (flags_ & kArcValueFlags)) {
- // If the arc value flags that hold for the final arc
- // do not match the requested value flags, then
- // 'final_arc_' needs to be updated.
- fst_.GetImpl()->ComputeFinalArc(tuple_, &final_arc_,
- flags_ & kArcValueFlags);
- final_flags_ = flags_ & kArcValueFlags;
- }
- return final_arc_;
- }
- }
-
- void Next() { ++pos_; }
-
- size_t Position() const { return pos_; }
-
- void Reset() { pos_ = 0; }
-
- void Seek(size_t pos) { pos_ = pos; }
-
- uint32 Flags() const { return flags_; }
-
- void SetFlags(uint32 f, uint32 mask) {
- // Update the flags taking into account what flags are supported
- // by the Fst.
- flags_ &= ~mask;
- flags_ |= (f & fst_.GetImpl()->ArcIteratorFlags());
- // If non-caching is not requested (and caching has not already
- // been performed), then flush 'data_flags_' to request caching
- // during the next call to Value().
- if (!(flags_ & kArcNoCache) && data_flags_ != kArcValueFlags) {
- if (!fst_.GetImpl()->HasArcs(state_))
- data_flags_ = 0;
- }
- // If 'data_flags_' has been flushed but non-caching is requested
- // before calling Value(), then set up the iterator for non-caching.
- if ((f & kArcNoCache) && (!data_flags_))
- Init();
- }
-
- private:
- const ReplaceFst<A, T> &fst_; // Reference to the FST
- StateId state_; // State in the FST
- mutable typename T::StateTuple tuple_; // Tuple corresponding to state_
-
- ssize_t pos_; // Current position
- mutable ssize_t offset_; // Offset between position in iterator and in arcs_
- ssize_t num_arcs_; // Number of arcs at state_
- uint32 flags_; // Behavorial flags for the arc iterator
- mutable Arc arc_; // Memory to temporarily store computed arcs
-
- mutable ArcIteratorData<Arc> cache_data_; // Arc iterator data in cache
- mutable ArcIteratorData<Arc> local_data_; // Arc iterator data in local fst
-
- mutable const A* arcs_; // Array of arcs
- mutable uint32 data_flags_; // Arc value flags valid for data in arcs_
- mutable Arc final_arc_; // Final arc (when required)
- mutable uint32 final_flags_; // Arc value flags valid for final_arc_
-
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-
-template <class A, class T>
-class ReplaceFstMatcher : public MatcherBase<A> {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef MultiEpsMatcher<Matcher<Fst<A> > > LocalMatcher;
-
- ReplaceFstMatcher(const ReplaceFst<A, T> &fst, fst::MatchType match_type)
- : fst_(fst),
- impl_(fst_.GetImpl()),
- s_(fst::kNoStateId),
- match_type_(match_type),
- current_loop_(false),
- final_arc_(false),
- loop_(fst::kNoLabel, 0, A::Weight::One(), fst::kNoStateId) {
- if (match_type_ == fst::MATCH_OUTPUT)
- swap(loop_.ilabel, loop_.olabel);
- InitMatchers();
- }
-
- ReplaceFstMatcher(const ReplaceFstMatcher<A, T> &matcher, bool safe = false)
- : fst_(matcher.fst_),
- impl_(fst_.GetImpl()),
- s_(fst::kNoStateId),
- match_type_(matcher.match_type_),
- current_loop_(false),
- loop_(fst::kNoLabel, 0, A::Weight::One(), fst::kNoStateId) {
- if (match_type_ == fst::MATCH_OUTPUT)
- swap(loop_.ilabel, loop_.olabel);
- InitMatchers();
- }
-
- // Create a local matcher for each component Fst of replace.
- // LocalMatcher is a multi epsilon wrapper matcher. MultiEpsilonMatcher
- // is used to match each non-terminal arc, since these non-terminal
- // turn into epsilons on recursion.
- void InitMatchers() {
- const vector<const Fst<A>*>& fst_array = impl_->fst_array_;
- matcher_.resize(fst_array.size(), 0);
- for (size_t i = 0; i < fst_array.size(); ++i) {
- if (fst_array[i]) {
- matcher_[i] =
- new LocalMatcher(*fst_array[i], match_type_, kMultiEpsList);
-
- typename set<Label>::iterator it = impl_->nonterminal_set_.begin();
- for (; it != impl_->nonterminal_set_.end(); ++it) {
- matcher_[i]->AddMultiEpsLabel(*it);
- }
- }
- }
- }
-
- virtual ReplaceFstMatcher<A, T> *Copy(bool safe = false) const {
- return new ReplaceFstMatcher<A, T>(*this, safe);
- }
-
- virtual ~ReplaceFstMatcher() {
- for (size_t i = 0; i < matcher_.size(); ++i)
- delete matcher_[i];
- }
-
- virtual MatchType Type(bool test) const {
- if (match_type_ == MATCH_NONE)
- return match_type_;
-
- uint64 true_prop = match_type_ == MATCH_INPUT ?
- kILabelSorted : kOLabelSorted;
- uint64 false_prop = match_type_ == MATCH_INPUT ?
- kNotILabelSorted : kNotOLabelSorted;
- uint64 props = fst_.Properties(true_prop | false_prop, test);
-
- if (props & true_prop)
- return match_type_;
- else if (props & false_prop)
- return MATCH_NONE;
- else
- return MATCH_UNKNOWN;
- }
-
- virtual const Fst<A> &GetFst() const {
- return fst_;
- }
-
- virtual uint64 Properties(uint64 props) const {
- return props;
- }
-
- private:
- // Set the sate from which our matching happens.
- virtual void SetState_(StateId s) {
- if (s_ == s) return;
-
- s_ = s;
- tuple_ = impl_->GetStateTable()->Tuple(s_);
- if (tuple_.fst_state == kNoStateId) {
- done_ = true;
- return;
- }
- // Get current matcher. Used for non epsilon matching
- current_matcher_ = matcher_[tuple_.fst_id];
- current_matcher_->SetState(tuple_.fst_state);
- loop_.nextstate = s_;
-
- final_arc_ = false;
- }
-
- // Search for label, from previous set state. If label == 0, first
- // hallucinate and epsilon loop, else use the underlying matcher to
- // search for the label or epsilons.
- // - Note since the ReplaceFST recursion on non-terminal arcs causes
- // epsilon transitions to be created we use the MultiEpsilonMatcher
- // to search for possible matches of non terminals.
- // - If the component Fst reaches a final state we also need to add
- // the exiting final arc.
- virtual bool Find_(Label label) {
- bool found = false;
- label_ = label;
- if (label_ == 0 || label_ == kNoLabel) {
- // Compute loop directly, saving Replace::ComputeArc
- if (label_ == 0) {
- current_loop_ = true;
- found = true;
- }
- // Search for matching multi epsilons
- final_arc_ = impl_->ComputeFinalArc(tuple_, 0);
- found = current_matcher_->Find(kNoLabel) || final_arc_ || found;
- } else {
- // Search on sub machine directly using sub machine matcher.
- found = current_matcher_->Find(label_);
- }
- return found;
- }
-
- virtual bool Done_() const {
- return !current_loop_ && !final_arc_ && current_matcher_->Done();
- }
-
- virtual const Arc& Value_() const {
- if (current_loop_) {
- return loop_;
- }
- if (final_arc_) {
- impl_->ComputeFinalArc(tuple_, &arc_);
- return arc_;
- }
- const Arc& component_arc = current_matcher_->Value();
- impl_->ComputeArc(tuple_, component_arc, &arc_);
- return arc_;
- }
-
- virtual void Next_() {
- if (current_loop_) {
- current_loop_ = false;
- return;
- }
- if (final_arc_) {
- final_arc_ = false;
- return;
- }
- current_matcher_->Next();
- }
-
- const ReplaceFst<A, T>& fst_;
- ReplaceFstImpl<A, T> *impl_;
- LocalMatcher* current_matcher_;
- vector<LocalMatcher*> matcher_;
-
- StateId s_; // Current state
- Label label_; // Current label
-
- MatchType match_type_; // Supplied by caller
- mutable bool done_;
- mutable bool current_loop_; // Current arc is the implicit loop
- mutable bool final_arc_; // Current arc for exiting recursion
- mutable typename T::StateTuple tuple_; // Tuple corresponding to state_
- mutable Arc arc_;
- Arc loop_;
-};
-
-template <class A, class T> inline
-void ReplaceFst<A, T>::InitStateIterator(StateIteratorData<A> *data) const {
- data->base = new StateIterator< ReplaceFst<A, T> >(*this);
-}
-
-typedef ReplaceFst<StdArc> StdReplaceFst;
-
-
-// // Recursivively replaces arcs in the root Fst with other Fsts.
-// This version writes the result of replacement to an output MutableFst.
-//
-// Replace supports replacement of arcs in one Fst with another
-// Fst. This replacement is recursive. Replace takes an array of
-// Fst(s). One Fst represents the root (or topology) machine. The root
-// Fst refers to other Fsts by recursively replacing arcs labeled as
-// non-terminals with the matching non-terminal Fst. Currently Replace
-// uses the output symbols of the arcs to determine whether the arc is
-// a non-terminal arc or not. A non-terminal can be any label that is
-// not a non-zero terminal label in the output alphabet. Note that
-// input argument is a vector of pair<>. These correspond to the tuple
-// of non-terminal Label and corresponding Fst.
-template<class Arc>
-void Replace(const vector<pair<typename Arc::Label,
- const Fst<Arc>* > >& ifst_array,
- MutableFst<Arc> *ofst, typename Arc::Label root,
- bool epsilon_on_replace) {
- ReplaceFstOptions<Arc> opts(root, epsilon_on_replace);
- opts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = ReplaceFst<Arc>(ifst_array, opts);
-}
-
-template<class Arc>
-void Replace(const vector<pair<typename Arc::Label,
- const Fst<Arc>* > >& ifst_array,
- MutableFst<Arc> *ofst, typename Arc::Label root) {
- Replace(ifst_array, ofst, root, false);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_REPLACE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/reverse.h b/kaldi_io/src/tools/openfst/include/fst/reverse.h
deleted file mode 100644
index 4d4c75c..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/reverse.h
+++ /dev/null
@@ -1,91 +0,0 @@
-// reverse.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Functions and classes to sort arcs in an FST.
-
-#ifndef FST_LIB_REVERSE_H__
-#define FST_LIB_REVERSE_H__
-
-#include <algorithm>
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-
-
-namespace fst {
-
-// Reverses an FST. The reversed result is written to an output
-// MutableFst. If A transduces string x to y with weight a, then the
-// reverse of A transduces the reverse of x to the reverse of y with
-// weight a.Reverse().
-//
-// Typically, a = a.Reverse() and Arc = RevArc (e.g. for
-// TropicalWeight or LogWeight). In general, e.g. when the weights
-// only form a left or right semiring, the output arc type must match
-// the input arc type except having the reversed Weight type.
-template<class Arc, class RevArc>
-void Reverse(const Fst<Arc> &ifst, MutableFst<RevArc> *ofst) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
- typedef typename RevArc::Weight RevWeight;
-
- ofst->DeleteStates();
- ofst->SetInputSymbols(ifst.InputSymbols());
- ofst->SetOutputSymbols(ifst.OutputSymbols());
- if (ifst.Properties(kExpanded, false))
- ofst->ReserveStates(CountStates(ifst) + 1);
- StateId istart = ifst.Start();
- StateId ostart = ofst->AddState();
- ofst->SetStart(ostart);
-
- for (StateIterator< Fst<Arc> > siter(ifst);
- !siter.Done();
- siter.Next()) {
- StateId is = siter.Value();
- StateId os = is + 1;
- while (ofst->NumStates() <= os)
- ofst->AddState();
- if (is == istart)
- ofst->SetFinal(os, RevWeight::One());
-
- Weight final = ifst.Final(is);
- if (final != Weight::Zero()) {
- RevArc oarc(0, 0, final.Reverse(), os);
- ofst->AddArc(0, oarc);
- }
-
- for (ArcIterator< Fst<Arc> > aiter(ifst, is);
- !aiter.Done();
- aiter.Next()) {
- const Arc &iarc = aiter.Value();
- RevArc oarc(iarc.ilabel, iarc.olabel, iarc.weight.Reverse(), os);
- StateId nos = iarc.nextstate + 1;
- while (ofst->NumStates() <= nos)
- ofst->AddState();
- ofst->AddArc(nos, oarc);
- }
- }
- uint64 iprops = ifst.Properties(kCopyProperties, false);
- uint64 oprops = ofst->Properties(kFstProperties, false);
- ofst->SetProperties(ReverseProperties(iprops) | oprops, kFstProperties);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_REVERSE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/reweight.h b/kaldi_io/src/tools/openfst/include/fst/reweight.h
deleted file mode 100644
index c051c2a..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/reweight.h
+++ /dev/null
@@ -1,146 +0,0 @@
-// reweight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Function to reweight an FST.
-
-#ifndef FST_LIB_REWEIGHT_H__
-#define FST_LIB_REWEIGHT_H__
-
-#include <vector>
-using std::vector;
-
-#include <fst/mutable-fst.h>
-
-
-namespace fst {
-
-enum ReweightType { REWEIGHT_TO_INITIAL, REWEIGHT_TO_FINAL };
-
-// Reweight FST according to the potentials defined by the POTENTIAL
-// vector in the direction defined by TYPE. Weight needs to be left
-// distributive when reweighting towards the initial state and right
-// distributive when reweighting towards the final states.
-//
-// An arc of weight w, with an origin state of potential p and
-// destination state of potential q, is reweighted by p\wq when
-// reweighting towards the initial state and by pw/q when reweighting
-// towards the final states.
-template <class Arc>
-void Reweight(MutableFst<Arc> *fst,
- const vector<typename Arc::Weight> &potential,
- ReweightType type) {
- typedef typename Arc::Weight Weight;
-
- if (fst->NumStates() == 0)
- return;
-
- if (type == REWEIGHT_TO_FINAL && !(Weight::Properties() & kRightSemiring)) {
- FSTERROR() << "Reweight: Reweighting to the final states requires "
- << "Weight to be right distributive: "
- << Weight::Type();
- fst->SetProperties(kError, kError);
- return;
- }
-
- if (type == REWEIGHT_TO_INITIAL && !(Weight::Properties() & kLeftSemiring)) {
- FSTERROR() << "Reweight: Reweighting to the initial state requires "
- << "Weight to be left distributive: "
- << Weight::Type();
- fst->SetProperties(kError, kError);
- return;
- }
-
- StateIterator< MutableFst<Arc> > sit(*fst);
- for (; !sit.Done(); sit.Next()) {
- typename Arc::StateId state = sit.Value();
- if (state == potential.size())
- break;
- typename Arc::Weight weight = potential[state];
- if (weight != Weight::Zero()) {
- for (MutableArcIterator< MutableFst<Arc> > ait(fst, state);
- !ait.Done();
- ait.Next()) {
- Arc arc = ait.Value();
- if (arc.nextstate >= potential.size())
- continue;
- typename Arc::Weight nextweight = potential[arc.nextstate];
- if (nextweight == Weight::Zero())
- continue;
- if (type == REWEIGHT_TO_INITIAL)
- arc.weight = Divide(Times(arc.weight, nextweight), weight,
- DIVIDE_LEFT);
- if (type == REWEIGHT_TO_FINAL)
- arc.weight = Divide(Times(weight, arc.weight), nextweight,
- DIVIDE_RIGHT);
- ait.SetValue(arc);
- }
- if (type == REWEIGHT_TO_INITIAL)
- fst->SetFinal(state, Divide(fst->Final(state), weight, DIVIDE_LEFT));
- }
- if (type == REWEIGHT_TO_FINAL)
- fst->SetFinal(state, Times(weight, fst->Final(state)));
- }
-
- // This handles elements past the end of the potentials array.
- for (; !sit.Done(); sit.Next()) {
- typename Arc::StateId state = sit.Value();
- if (type == REWEIGHT_TO_FINAL)
- fst->SetFinal(state, Times(Weight::Zero(), fst->Final(state)));
- }
-
- typename Arc::Weight startweight = fst->Start() < potential.size() ?
- potential[fst->Start()] : Weight::Zero();
- if ((startweight != Weight::One()) && (startweight != Weight::Zero())) {
- if (fst->Properties(kInitialAcyclic, true) & kInitialAcyclic) {
- typename Arc::StateId state = fst->Start();
- for (MutableArcIterator< MutableFst<Arc> > ait(fst, state);
- !ait.Done();
- ait.Next()) {
- Arc arc = ait.Value();
- if (type == REWEIGHT_TO_INITIAL)
- arc.weight = Times(startweight, arc.weight);
- else
- arc.weight = Times(
- Divide(Weight::One(), startweight, DIVIDE_RIGHT),
- arc.weight);
- ait.SetValue(arc);
- }
- if (type == REWEIGHT_TO_INITIAL)
- fst->SetFinal(state, Times(startweight, fst->Final(state)));
- else
- fst->SetFinal(state, Times(Divide(Weight::One(), startweight,
- DIVIDE_RIGHT),
- fst->Final(state)));
- } else {
- typename Arc::StateId state = fst->AddState();
- Weight w = type == REWEIGHT_TO_INITIAL ? startweight :
- Divide(Weight::One(), startweight, DIVIDE_RIGHT);
- Arc arc(0, 0, w, fst->Start());
- fst->AddArc(state, arc);
- fst->SetStart(state);
- }
- }
-
- fst->SetProperties(ReweightProperties(
- fst->Properties(kFstProperties, false)),
- kFstProperties);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_REWEIGHT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/rmepsilon.h b/kaldi_io/src/tools/openfst/include/fst/rmepsilon.h
deleted file mode 100644
index 89b8178..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/rmepsilon.h
+++ /dev/null
@@ -1,600 +0,0 @@
-// rmepsilon.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Functions and classes that implemement epsilon-removal.
-
-#ifndef FST_LIB_RMEPSILON_H__
-#define FST_LIB_RMEPSILON_H__
-
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <fst/slist.h>
-#include <stack>
-#include <string>
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-#include <fst/arcfilter.h>
-#include <fst/cache.h>
-#include <fst/connect.h>
-#include <fst/factor-weight.h>
-#include <fst/invert.h>
-#include <fst/prune.h>
-#include <fst/queue.h>
-#include <fst/shortest-distance.h>
-#include <fst/topsort.h>
-
-
-namespace fst {
-
-template <class Arc, class Queue>
-class RmEpsilonOptions
- : public ShortestDistanceOptions<Arc, Queue, EpsilonArcFilter<Arc> > {
- public:
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- bool connect; // Connect output
- Weight weight_threshold; // Pruning weight threshold.
- StateId state_threshold; // Pruning state threshold.
-
- explicit RmEpsilonOptions(Queue *q, float d = kDelta, bool c = true,
- Weight w = Weight::Zero(),
- StateId n = kNoStateId)
- : ShortestDistanceOptions< Arc, Queue, EpsilonArcFilter<Arc> >(
- q, EpsilonArcFilter<Arc>(), kNoStateId, d),
- connect(c), weight_threshold(w), state_threshold(n) {}
- private:
- RmEpsilonOptions(); // disallow
-};
-
-// Computation state of the epsilon-removal algorithm.
-template <class Arc, class Queue>
-class RmEpsilonState {
- public:
- typedef typename Arc::Label Label;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- RmEpsilonState(const Fst<Arc> &fst,
- vector<Weight> *distance,
- const RmEpsilonOptions<Arc, Queue> &opts)
- : fst_(fst), distance_(distance), sd_state_(fst_, distance, opts, true),
- expand_id_(0) {}
-
- // Compute arcs and final weight for state 's'
- void Expand(StateId s);
-
- // Returns arcs of expanded state.
- vector<Arc> &Arcs() { return arcs_; }
-
- // Returns final weight of expanded state.
- const Weight &Final() const { return final_; }
-
- // Return true if an error has occured.
- bool Error() const { return sd_state_.Error(); }
-
- private:
- static const size_t kPrime0 = 7853;
- static const size_t kPrime1 = 7867;
-
- struct Element {
- Label ilabel;
- Label olabel;
- StateId nextstate;
-
- Element() {}
-
- Element(Label i, Label o, StateId s)
- : ilabel(i), olabel(o), nextstate(s) {}
- };
-
- class ElementKey {
- public:
- size_t operator()(const Element& e) const {
- return static_cast<size_t>(e.nextstate +
- e.ilabel * kPrime0 +
- e.olabel * kPrime1);
- }
-
- private:
- };
-
- class ElementEqual {
- public:
- bool operator()(const Element &e1, const Element &e2) const {
- return (e1.ilabel == e2.ilabel) && (e1.olabel == e2.olabel)
- && (e1.nextstate == e2.nextstate);
- }
- };
-
- typedef unordered_map<Element, pair<StateId, size_t>,
- ElementKey, ElementEqual> ElementMap;
-
- const Fst<Arc> &fst_;
- // Distance from state being expanded in epsilon-closure.
- vector<Weight> *distance_;
- // Shortest distance algorithm computation state.
- ShortestDistanceState<Arc, Queue, EpsilonArcFilter<Arc> > sd_state_;
- // Maps an element 'e' to a pair 'p' corresponding to a position
- // in the arcs vector of the state being expanded. 'e' corresponds
- // to the position 'p.second' in the 'arcs_' vector if 'p.first' is
- // equal to the state being expanded.
- ElementMap element_map_;
- EpsilonArcFilter<Arc> eps_filter_;
- stack<StateId> eps_queue_; // Queue used to visit the epsilon-closure
- vector<bool> visited_; // '[i] = true' if state 'i' has been visited
- slist<StateId> visited_states_; // List of visited states
- vector<Arc> arcs_; // Arcs of state being expanded
- Weight final_; // Final weight of state being expanded
- StateId expand_id_; // Unique ID for each call to Expand
-
- DISALLOW_COPY_AND_ASSIGN(RmEpsilonState);
-};
-
-template <class Arc, class Queue>
-const size_t RmEpsilonState<Arc, Queue>::kPrime0;
-template <class Arc, class Queue>
-const size_t RmEpsilonState<Arc, Queue>::kPrime1;
-
-
-template <class Arc, class Queue>
-void RmEpsilonState<Arc,Queue>::Expand(typename Arc::StateId source) {
- final_ = Weight::Zero();
- arcs_.clear();
- sd_state_.ShortestDistance(source);
- if (sd_state_.Error())
- return;
- eps_queue_.push(source);
-
- while (!eps_queue_.empty()) {
- StateId state = eps_queue_.top();
- eps_queue_.pop();
-
- while (visited_.size() <= state) visited_.push_back(false);
- if (visited_[state]) continue;
- visited_[state] = true;
- visited_states_.push_front(state);
-
- for (ArcIterator< Fst<Arc> > ait(fst_, state);
- !ait.Done();
- ait.Next()) {
- Arc arc = ait.Value();
- arc.weight = Times((*distance_)[state], arc.weight);
-
- if (eps_filter_(arc)) {
- while (visited_.size() <= arc.nextstate)
- visited_.push_back(false);
- if (!visited_[arc.nextstate])
- eps_queue_.push(arc.nextstate);
- } else {
- Element element(arc.ilabel, arc.olabel, arc.nextstate);
- typename ElementMap::iterator it = element_map_.find(element);
- if (it == element_map_.end()) {
- element_map_.insert(
- pair<Element, pair<StateId, size_t> >
- (element, pair<StateId, size_t>(expand_id_, arcs_.size())));
- arcs_.push_back(arc);
- } else {
- if (((*it).second).first == expand_id_) {
- Weight &w = arcs_[((*it).second).second].weight;
- w = Plus(w, arc.weight);
- } else {
- ((*it).second).first = expand_id_;
- ((*it).second).second = arcs_.size();
- arcs_.push_back(arc);
- }
- }
- }
- }
- final_ = Plus(final_, Times((*distance_)[state], fst_.Final(state)));
- }
-
- while (!visited_states_.empty()) {
- visited_[visited_states_.front()] = false;
- visited_states_.pop_front();
- }
- ++expand_id_;
-}
-
-// Removes epsilon-transitions (when both the input and output label
-// are an epsilon) from a transducer. The result will be an equivalent
-// FST that has no such epsilon transitions. This version modifies
-// its input. It allows fine control via the options argument; see
-// below for a simpler interface.
-//
-// The vector 'distance' will be used to hold the shortest distances
-// during the epsilon-closure computation. The state queue discipline
-// and convergence delta are taken in the options argument.
-template <class Arc, class Queue>
-void RmEpsilon(MutableFst<Arc> *fst,
- vector<typename Arc::Weight> *distance,
- const RmEpsilonOptions<Arc, Queue> &opts) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::Label Label;
-
- if (fst->Start() == kNoStateId) {
- return;
- }
-
- // 'noneps_in[s]' will be set to true iff 's' admits a non-epsilon
- // incoming transition or is the start state.
- vector<bool> noneps_in(fst->NumStates(), false);
- noneps_in[fst->Start()] = true;
- for (StateId i = 0; i < fst->NumStates(); ++i) {
- for (ArcIterator<Fst<Arc> > aiter(*fst, i);
- !aiter.Done();
- aiter.Next()) {
- if (aiter.Value().ilabel != 0 || aiter.Value().olabel != 0)
- noneps_in[aiter.Value().nextstate] = true;
- }
- }
-
- // States sorted in topological order when (acyclic) or generic
- // topological order (cyclic).
- vector<StateId> states;
- states.reserve(fst->NumStates());
-
- if (fst->Properties(kTopSorted, false) & kTopSorted) {
- for (StateId i = 0; i < fst->NumStates(); i++)
- states.push_back(i);
- } else if (fst->Properties(kAcyclic, false) & kAcyclic) {
- vector<StateId> order;
- bool acyclic;
- TopOrderVisitor<Arc> top_order_visitor(&order, &acyclic);
- DfsVisit(*fst, &top_order_visitor, EpsilonArcFilter<Arc>());
- // Sanity check: should be acyclic if property bit is set.
- if(!acyclic) {
- FSTERROR() << "RmEpsilon: inconsistent acyclic property bit";
- fst->SetProperties(kError, kError);
- return;
- }
- states.resize(order.size());
- for (StateId i = 0; i < order.size(); i++)
- states[order[i]] = i;
- } else {
- uint64 props;
- vector<StateId> scc;
- SccVisitor<Arc> scc_visitor(&scc, 0, 0, &props);
- DfsVisit(*fst, &scc_visitor, EpsilonArcFilter<Arc>());
- vector<StateId> first(scc.size(), kNoStateId);
- vector<StateId> next(scc.size(), kNoStateId);
- for (StateId i = 0; i < scc.size(); i++) {
- if (first[scc[i]] != kNoStateId)
- next[i] = first[scc[i]];
- first[scc[i]] = i;
- }
- for (StateId i = 0; i < first.size(); i++)
- for (StateId j = first[i]; j != kNoStateId; j = next[j])
- states.push_back(j);
- }
-
- RmEpsilonState<Arc, Queue>
- rmeps_state(*fst, distance, opts);
-
- while (!states.empty()) {
- StateId state = states.back();
- states.pop_back();
- if (!noneps_in[state])
- continue;
- rmeps_state.Expand(state);
- fst->SetFinal(state, rmeps_state.Final());
- fst->DeleteArcs(state);
- vector<Arc> &arcs = rmeps_state.Arcs();
- fst->ReserveArcs(state, arcs.size());
- while (!arcs.empty()) {
- fst->AddArc(state, arcs.back());
- arcs.pop_back();
- }
- }
-
- for (StateId s = 0; s < fst->NumStates(); ++s) {
- if (!noneps_in[s])
- fst->DeleteArcs(s);
- }
-
- if(rmeps_state.Error())
- fst->SetProperties(kError, kError);
- fst->SetProperties(
- RmEpsilonProperties(fst->Properties(kFstProperties, false)),
- kFstProperties);
-
- if (opts.weight_threshold != Weight::Zero() ||
- opts.state_threshold != kNoStateId)
- Prune(fst, opts.weight_threshold, opts.state_threshold);
- if (opts.connect && (opts.weight_threshold == Weight::Zero() ||
- opts.state_threshold != kNoStateId))
- Connect(fst);
-}
-
-// Removes epsilon-transitions (when both the input and output label
-// are an epsilon) from a transducer. The result will be an equivalent
-// FST that has no such epsilon transitions. This version modifies its
-// input. It has a simplified interface; see above for a version that
-// allows finer control.
-//
-// Complexity:
-// - Time:
-// - Unweighted: O(V2 + V E)
-// - Acyclic: O(V2 + V E)
-// - Tropical semiring: O(V2 log V + V E)
-// - General: exponential
-// - Space: O(V E)
-// where V = # of states visited, E = # of arcs.
-//
-// References:
-// - Mehryar Mohri. Generic Epsilon-Removal and Input
-// Epsilon-Normalization Algorithms for Weighted Transducers,
-// "International Journal of Computer Science", 13(1):129-143 (2002).
-template <class Arc>
-void RmEpsilon(MutableFst<Arc> *fst,
- bool connect = true,
- typename Arc::Weight weight_threshold = Arc::Weight::Zero(),
- typename Arc::StateId state_threshold = kNoStateId,
- float delta = kDelta) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::Label Label;
-
- vector<Weight> distance;
- AutoQueue<StateId> state_queue(*fst, &distance, EpsilonArcFilter<Arc>());
- RmEpsilonOptions<Arc, AutoQueue<StateId> >
- opts(&state_queue, delta, connect, weight_threshold, state_threshold);
-
- RmEpsilon(fst, &distance, opts);
-}
-
-
-struct RmEpsilonFstOptions : CacheOptions {
- float delta;
-
- RmEpsilonFstOptions(const CacheOptions &opts, float delta = kDelta)
- : CacheOptions(opts), delta(delta) {}
-
- explicit RmEpsilonFstOptions(float delta = kDelta) : delta(delta) {}
-};
-
-
-// Implementation of delayed RmEpsilonFst.
-template <class A>
-class RmEpsilonFstImpl : public CacheImpl<A> {
- public:
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
-
- using CacheBaseImpl< CacheState<A> >::PushArc;
- using CacheBaseImpl< CacheState<A> >::HasArcs;
- using CacheBaseImpl< CacheState<A> >::HasFinal;
- using CacheBaseImpl< CacheState<A> >::HasStart;
- using CacheBaseImpl< CacheState<A> >::SetArcs;
- using CacheBaseImpl< CacheState<A> >::SetFinal;
- using CacheBaseImpl< CacheState<A> >::SetStart;
-
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
-
- RmEpsilonFstImpl(const Fst<A>& fst, const RmEpsilonFstOptions &opts)
- : CacheImpl<A>(opts),
- fst_(fst.Copy()),
- delta_(opts.delta),
- rmeps_state_(
- *fst_,
- &distance_,
- RmEpsilonOptions<A, FifoQueue<StateId> >(&queue_, delta_, false)) {
- SetType("rmepsilon");
- uint64 props = fst.Properties(kFstProperties, false);
- SetProperties(RmEpsilonProperties(props, true), kCopyProperties);
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
- }
-
- RmEpsilonFstImpl(const RmEpsilonFstImpl &impl)
- : CacheImpl<A>(impl),
- fst_(impl.fst_->Copy(true)),
- delta_(impl.delta_),
- rmeps_state_(
- *fst_,
- &distance_,
- RmEpsilonOptions<A, FifoQueue<StateId> >(&queue_, delta_, false)) {
- SetType("rmepsilon");
- SetProperties(impl.Properties(), kCopyProperties);
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- }
-
- ~RmEpsilonFstImpl() {
- delete fst_;
- }
-
- StateId Start() {
- if (!HasStart()) {
- SetStart(fst_->Start());
- }
- return CacheImpl<A>::Start();
- }
-
- Weight Final(StateId s) {
- if (!HasFinal(s)) {
- Expand(s);
- }
- return CacheImpl<A>::Final(s);
- }
-
- size_t NumArcs(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumArcs(s);
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumOutputEpsilons(s);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) &&
- (fst_->Properties(kError, false) || rmeps_state_.Error()))
- SetProperties(kError, kError);
- return FstImpl<A>::Properties(mask);
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<A> *data) {
- if (!HasArcs(s))
- Expand(s);
- CacheImpl<A>::InitArcIterator(s, data);
- }
-
- void Expand(StateId s) {
- rmeps_state_.Expand(s);
- SetFinal(s, rmeps_state_.Final());
- vector<A> &arcs = rmeps_state_.Arcs();
- while (!arcs.empty()) {
- PushArc(s, arcs.back());
- arcs.pop_back();
- }
- SetArcs(s);
- }
-
- private:
- const Fst<A> *fst_;
- float delta_;
- vector<Weight> distance_;
- FifoQueue<StateId> queue_;
- RmEpsilonState<A, FifoQueue<StateId> > rmeps_state_;
-
- void operator=(const RmEpsilonFstImpl<A> &); // disallow
-};
-
-
-// Removes epsilon-transitions (when both the input and output label
-// are an epsilon) from a transducer. The result will be an equivalent
-// FST that has no such epsilon transitions. This version is a
-// delayed Fst.
-//
-// Complexity:
-// - Time:
-// - Unweighted: O(v^2 + v e)
-// - General: exponential
-// - Space: O(v e)
-// where v = # of states visited, e = # of arcs visited. Constant time
-// to visit an input state or arc is assumed and exclusive of caching.
-//
-// References:
-// - Mehryar Mohri. Generic Epsilon-Removal and Input
-// Epsilon-Normalization Algorithms for Weighted Transducers,
-// "International Journal of Computer Science", 13(1):129-143 (2002).
-//
-// This class attaches interface to implementation and handles
-// reference counting, delegating most methods to ImplToFst.
-template <class A>
-class RmEpsilonFst : public ImplToFst< RmEpsilonFstImpl<A> > {
- public:
- friend class ArcIterator< RmEpsilonFst<A> >;
- friend class StateIterator< RmEpsilonFst<A> >;
-
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
- typedef RmEpsilonFstImpl<A> Impl;
-
- RmEpsilonFst(const Fst<A> &fst)
- : ImplToFst<Impl>(new Impl(fst, RmEpsilonFstOptions())) {}
-
- RmEpsilonFst(const Fst<A> &fst, const RmEpsilonFstOptions &opts)
- : ImplToFst<Impl>(new Impl(fst, opts)) {}
-
- // See Fst<>::Copy() for doc.
- RmEpsilonFst(const RmEpsilonFst<A> &fst, bool safe = false)
- : ImplToFst<Impl>(fst, safe) {}
-
- // Get a copy of this RmEpsilonFst. See Fst<>::Copy() for further doc.
- virtual RmEpsilonFst<A> *Copy(bool safe = false) const {
- return new RmEpsilonFst<A>(*this, safe);
- }
-
- virtual inline void InitStateIterator(StateIteratorData<A> *data) const;
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<Arc> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const RmEpsilonFst<A> &fst); // disallow
-};
-
-// Specialization for RmEpsilonFst.
-template<class A>
-class StateIterator< RmEpsilonFst<A> >
- : public CacheStateIterator< RmEpsilonFst<A> > {
- public:
- explicit StateIterator(const RmEpsilonFst<A> &fst)
- : CacheStateIterator< RmEpsilonFst<A> >(fst, fst.GetImpl()) {}
-};
-
-
-// Specialization for RmEpsilonFst.
-template <class A>
-class ArcIterator< RmEpsilonFst<A> >
- : public CacheArcIterator< RmEpsilonFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const RmEpsilonFst<A> &fst, StateId s)
- : CacheArcIterator< RmEpsilonFst<A> >(fst.GetImpl(), s) {
- if (!fst.GetImpl()->HasArcs(s))
- fst.GetImpl()->Expand(s);
- }
-
- private:
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-
-template <class A> inline
-void RmEpsilonFst<A>::InitStateIterator(StateIteratorData<A> *data) const {
- data->base = new StateIterator< RmEpsilonFst<A> >(*this);
-}
-
-
-// Useful alias when using StdArc.
-typedef RmEpsilonFst<StdArc> StdRmEpsilonFst;
-
-} // namespace fst
-
-#endif // FST_LIB_RMEPSILON_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/rmfinalepsilon.h b/kaldi_io/src/tools/openfst/include/fst/rmfinalepsilon.h
deleted file mode 100644
index eb0f937..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/rmfinalepsilon.h
+++ /dev/null
@@ -1,107 +0,0 @@
-// rmfinalepsilon.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Johan Schalkwyk)
-//
-// \file
-// Function to remove of final states that have epsilon only input arcs.
-
-#ifndef FST_LIB_RMFINALEPSILON_H__
-#define FST_LIB_RMFINALEPSILON_H__
-
-#include <tr1/unordered_set>
-using std::tr1::unordered_set;
-using std::tr1::unordered_multiset;
-#include <vector>
-using std::vector;
-
-#include <fst/connect.h>
-#include <fst/mutable-fst.h>
-
-
-namespace fst {
-
-template<class A>
-void RmFinalEpsilon(MutableFst<A>* fst) {
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- // Determine the coaccesibility of states.
- vector<bool> access;
- vector<bool> coaccess;
- uint64 props = 0;
- SccVisitor<A> scc_visitor(0, &access, &coaccess, &props);
- DfsVisit(*fst, &scc_visitor);
-
- // Find potential list of removable final states. These are final states
- // that have no outgoing transitions or final states that have a
- // non-coaccessible future. Complexity O(S)
- unordered_set<StateId> finals;
- for (StateIterator<Fst<A> > siter(*fst); !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- if (fst->Final(s) != Weight::Zero()) {
- bool future_coaccess = false;
- for (ArcIterator<Fst<A> > aiter(*fst, s); !aiter.Done(); aiter.Next()) {
- const A& arc = aiter.Value();
- if (coaccess[arc.nextstate]) {
- future_coaccess = true;
- break;
- }
- }
- if (!future_coaccess) {
- finals.insert(s);
- }
- }
- }
-
- // Move the final weight. Complexity O(E)
- vector<A> arcs;
- for (StateIterator<Fst<A> > siter(*fst); !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- Weight w(fst->Final(s));
-
- arcs.clear();
- for (ArcIterator<Fst<A> > aiter(*fst, s); !aiter.Done(); aiter.Next()) {
- const A& arc = aiter.Value();
- // is next state in the list of finals
- if (finals.find(arc.nextstate) != finals.end()) {
- // sum up all epsilon arcs
- if (arc.ilabel == 0 && arc.olabel == 0) {
- w = Plus(Times(fst->Final(arc.nextstate), arc.weight), w);
- } else {
- arcs.push_back(arc);
- }
- } else {
- arcs.push_back(arc);
- }
- }
-
- // If some arcs (epsilon arcs) were deleted, delete all
- // arcs and add back only the non epsilon arcs
- if (arcs.size() < fst->NumArcs(s)) {
- fst->DeleteArcs(s);
- fst->SetFinal(s, w);
- for (size_t i = 0; i < arcs.size(); ++i) {
- fst->AddArc(s, arcs[i]);
- }
- }
- }
-
- Connect(fst);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_RMFINALEPSILON_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/arcsort.h b/kaldi_io/src/tools/openfst/include/fst/script/arcsort.h
deleted file mode 100644
index 4277332..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/arcsort.h
+++ /dev/null
@@ -1,49 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_ARCSORT_H_
-#define FST_SCRIPT_ARCSORT_H_
-
-#include <fst/arcsort.h>
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-
-namespace fst {
-namespace script {
-
-enum ArcSortType { ILABEL_COMPARE, OLABEL_COMPARE };
-
-typedef args::Package<MutableFstClass*, const ArcSortType> ArcSortArgs;
-
-template<class Arc>
-void ArcSort(ArcSortArgs *args) {
- MutableFst<Arc> *fst = args->arg1->GetMutableFst<Arc>();
-
- if (args->arg2 == ILABEL_COMPARE) {
- ILabelCompare<Arc> icomp;
- ArcSort(fst, icomp);
- } else { // OLABEL_COMPARE
- OLabelCompare<Arc> ocomp;
- ArcSort(fst, ocomp);
- }
-}
-
-void ArcSort(MutableFstClass *ofst, ArcSortType sort_type);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_ARCSORT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/arg-packs.h b/kaldi_io/src/tools/openfst/include/fst/script/arg-packs.h
deleted file mode 100644
index 8ebf8d8..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/arg-packs.h
+++ /dev/null
@@ -1,240 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-// Convenience templates for defining arg packs for the FstClass operations.
-
-// See operation-templates.h for a discussion about why these are needed; the
-// short story is that all FstClass operations must be implemented by a version
-// that takes one argument, most likely a struct bundling all the
-// logical arguments together. These template structs provide convenient ways
-// to specify these bundles (e.g. by means of appropriate typedefs).
-
-// The ArgPack template is sufficient for bundling together all the args for
-// a particular function. The function is assumed to be void-returning. If
-// you want a space for a return value, use the WithReturnValue template
-// as follows:
-
-// WithReturnValue<bool, ArgPack<...> >
-
-#ifndef FST_SCRIPT_ARG_PACKS_H_
-#define FST_SCRIPT_ARG_PACKS_H_
-
-namespace fst {
-namespace script {
-namespace args {
-
-// Sentinel value that means "no arg here."
-class none_type { };
-
-// Base arg pack template class. Specializations follow that allow
-// fewer numbers of arguments (down to 2). If the maximum number of arguments
-// increases, you will need to change three things:
-// 1) Add more template parameters to this template
-// 2) Add more specializations to allow fewer numbers of parameters than
-// the new max.
-// 3) Add extra none_types to all existing specializations to fill
-// the new slots.
-
-
-// 9 args (max)
-template<class T1,
- class T2 = none_type,
- class T3 = none_type,
- class T4 = none_type,
- class T5 = none_type,
- class T6 = none_type,
- class T7 = none_type,
- class T8 = none_type,
- class T9 = none_type>
-struct Package {
- T1 arg1;
- T2 arg2;
- T3 arg3;
- T4 arg4;
- T5 arg5;
- T6 arg6;
- T7 arg7;
- T8 arg8;
- T9 arg9;
-
- Package(T1 arg1, T2 arg2, T3 arg3, T4 arg4, T5 arg5, T6 arg6,
- T7 arg7, T8 arg8, T9 arg9) :
- arg1(arg1), arg2(arg2), arg3(arg3), arg4(arg4), arg5(arg5),
- arg6(arg6), arg7(arg7), arg8(arg8), arg9(arg9) { }
-};
-
-// 8 args
-template<class T1,
- class T2,
- class T3,
- class T4,
- class T5,
- class T6,
- class T7,
- class T8>
-struct Package<T1, T2, T3, T4, T5, T6, T7, T8, none_type> {
- T1 arg1;
- T2 arg2;
- T3 arg3;
- T4 arg4;
- T5 arg5;
- T6 arg6;
- T7 arg7;
- T8 arg8;
-
- Package(T1 arg1, T2 arg2, T3 arg3, T4 arg4, T5 arg5, T6 arg6,
- T7 arg7, T8 arg8) :
- arg1(arg1), arg2(arg2), arg3(arg3), arg4(arg4), arg5(arg5),
- arg6(arg6), arg7(arg7), arg8(arg8) { }
-};
-
-// 7 args
-template<class T1,
- class T2,
- class T3,
- class T4,
- class T5,
- class T6,
- class T7>
-struct Package<T1, T2, T3, T4, T5, T6, T7,
- none_type, none_type> {
- T1 arg1;
- T2 arg2;
- T3 arg3;
- T4 arg4;
- T5 arg5;
- T6 arg6;
- T7 arg7;
-
- Package(T1 arg1, T2 arg2, T3 arg3, T4 arg4, T5 arg5, T6 arg6,
- T7 arg7) :
- arg1(arg1), arg2(arg2), arg3(arg3), arg4(arg4), arg5(arg5),
- arg6(arg6), arg7(arg7) { }
-};
-
-// 6 args
-template<class T1,
- class T2,
- class T3,
- class T4,
- class T5,
- class T6>
-struct Package<T1, T2, T3, T4, T5, T6, none_type,
- none_type, none_type> {
- T1 arg1;
- T2 arg2;
- T3 arg3;
- T4 arg4;
- T5 arg5;
- T6 arg6;
-
- Package(T1 arg1, T2 arg2, T3 arg3, T4 arg4, T5 arg5, T6 arg6) :
- arg1(arg1), arg2(arg2), arg3(arg3), arg4(arg4), arg5(arg5),
- arg6(arg6) { }
-};
-
-// 5 args
-template<class T1,
- class T2,
- class T3,
- class T4,
- class T5>
-struct Package<T1, T2, T3, T4, T5, none_type, none_type,
- none_type, none_type> {
- T1 arg1;
- T2 arg2;
- T3 arg3;
- T4 arg4;
- T5 arg5;
-
- Package(T1 arg1, T2 arg2, T3 arg3, T4 arg4, T5 arg5) :
- arg1(arg1), arg2(arg2), arg3(arg3), arg4(arg4), arg5(arg5) { }
-};
-
-// 4 args
-template<class T1,
- class T2,
- class T3,
- class T4>
-struct Package<T1, T2, T3, T4, none_type, none_type,
- none_type, none_type, none_type> {
- T1 arg1;
- T2 arg2;
- T3 arg3;
- T4 arg4;
-
- Package(T1 arg1, T2 arg2, T3 arg3, T4 arg4) :
- arg1(arg1), arg2(arg2), arg3(arg3), arg4(arg4) { }
-};
-
-// 3 args
-template<class T1,
- class T2,
- class T3>
-struct Package<T1, T2, T3, none_type, none_type,
- none_type, none_type, none_type,
- none_type> {
- T1 arg1;
- T2 arg2;
- T3 arg3;
-
- Package(T1 arg1, T2 arg2, T3 arg3) :
- arg1(arg1), arg2(arg2), arg3(arg3) { }
-};
-
-// 2 args (minimum)
-template<class T1,
- class T2>
-struct Package<T1, T2, none_type, none_type,
- none_type, none_type, none_type,
- none_type, none_type> {
- T1 arg1;
- T2 arg2;
-
- Package(T1 arg1, T2 arg2) :
- arg1(arg1), arg2(arg2) { }
-};
-
-// Tack this on to an existing arg pack to add a return value.
-// The syntax for accessing the args is then slightly more stilted,
-// as you must do an extra member access (since the args are stored
-// as a member of this class).
-// The alternative is to declare another slew of templates for functions
-// that return a value, analogous to the above.
-
-template<class Retval, class ArgPackage>
-struct WithReturnValue {
- Retval retval;
- const ArgPackage &args;
-
- explicit WithReturnValue(const ArgPackage &args) : args(args) { }
-};
-
-// We don't want to store a reference to a reference, if ArgPackage is
-// already some reference type.
-template<class Retval, class ArgPackage>
-struct WithReturnValue<Retval, ArgPackage&> {
- Retval retval;
- const ArgPackage &args;
-
- explicit WithReturnValue(const ArgPackage &args) : args(args) { }
-};
-
-} // namespace args
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_ARG_PACKS_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/closure.h b/kaldi_io/src/tools/openfst/include/fst/script/closure.h
deleted file mode 100644
index 93b5ec3..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/closure.h
+++ /dev/null
@@ -1,41 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_CLOSURE_H_
-#define FST_SCRIPT_CLOSURE_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/closure.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<MutableFstClass*, const ClosureType> ClosureArgs;
-
-template<class Arc>
-void Closure(ClosureArgs *args) {
- MutableFst<Arc> *fst = args->arg1->GetMutableFst<Arc>();
-
- Closure(fst, args->arg2);
-}
-
-void Closure(MutableFstClass *ofst, ClosureType closure_type);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_CLOSURE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/compile-impl.h b/kaldi_io/src/tools/openfst/include/fst/script/compile-impl.h
deleted file mode 100644
index 68f37c3..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/compile-impl.h
+++ /dev/null
@@ -1,216 +0,0 @@
-// compile.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to to compile a binary Fst from textual input.
-
-#ifndef FST_SCRIPT_COMPILE_IMPL_H_
-#define FST_SCRIPT_COMPILE_IMPL_H_
-
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <sstream>
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <iostream>
-#include <fstream>
-#include <sstream>
-#include <fst/fst.h>
-#include <fst/util.h>
-#include <fst/vector-fst.h>
-
-DECLARE_string(fst_field_separator);
-
-namespace fst {
-
-// Compile a binary Fst from textual input, helper class for fstcompile.cc
-// WARNING: Stand-alone use of this class not recommended, most code should
-// read/write using the binary format which is much more efficient.
-template <class A> class FstCompiler {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
-
- // WARNING: use of 'allow_negative_labels = true' not recommended; may
- // cause conflicts
- FstCompiler(istream &istrm, const string &source,
- const SymbolTable *isyms, const SymbolTable *osyms,
- const SymbolTable *ssyms, bool accep, bool ikeep,
- bool okeep, bool nkeep, bool allow_negative_labels = false)
- : nline_(0), source_(source),
- isyms_(isyms), osyms_(osyms), ssyms_(ssyms),
- nstates_(0), keep_state_numbering_(nkeep),
- allow_negative_labels_(allow_negative_labels) {
- char line[kLineLen];
- while (istrm.getline(line, kLineLen)) {
- ++nline_;
- vector<char *> col;
- string separator = FLAGS_fst_field_separator + "\n";
- SplitToVector(line, separator.c_str(), &col, true);
- if (col.size() == 0 || col[0][0] == '\0') // empty line
- continue;
- if (col.size() > 5 ||
- (col.size() > 4 && accep) ||
- (col.size() == 3 && !accep)) {
- FSTERROR() << "FstCompiler: Bad number of columns, source = "
- << source_
- << ", line = " << nline_;
- fst_.SetProperties(kError, kError);
- return;
- }
- StateId s = StrToStateId(col[0]);
- while (s >= fst_.NumStates())
- fst_.AddState();
- if (nline_ == 1)
- fst_.SetStart(s);
-
- Arc arc;
- StateId d = s;
- switch (col.size()) {
- case 1:
- fst_.SetFinal(s, Weight::One());
- break;
- case 2:
- fst_.SetFinal(s, StrToWeight(col[1], true));
- break;
- case 3:
- arc.nextstate = d = StrToStateId(col[1]);
- arc.ilabel = StrToILabel(col[2]);
- arc.olabel = arc.ilabel;
- arc.weight = Weight::One();
- fst_.AddArc(s, arc);
- break;
- case 4:
- arc.nextstate = d = StrToStateId(col[1]);
- arc.ilabel = StrToILabel(col[2]);
- if (accep) {
- arc.olabel = arc.ilabel;
- arc.weight = StrToWeight(col[3], false);
- } else {
- arc.olabel = StrToOLabel(col[3]);
- arc.weight = Weight::One();
- }
- fst_.AddArc(s, arc);
- break;
- case 5:
- arc.nextstate = d = StrToStateId(col[1]);
- arc.ilabel = StrToILabel(col[2]);
- arc.olabel = StrToOLabel(col[3]);
- arc.weight = StrToWeight(col[4], false);
- fst_.AddArc(s, arc);
- }
- while (d >= fst_.NumStates())
- fst_.AddState();
- }
- if (ikeep)
- fst_.SetInputSymbols(isyms);
- if (okeep)
- fst_.SetOutputSymbols(osyms);
- }
-
- const VectorFst<A> &Fst() const {
- return fst_;
- }
-
- private:
- // Maximum line length in text file.
- static const int kLineLen = 8096;
-
- int64 StrToId(const char *s, const SymbolTable *syms,
- const char *name, bool allow_negative = false) const {
- int64 n = 0;
-
- if (syms) {
- n = syms->Find(s);
- if (n == -1 || (!allow_negative && n < 0)) {
- FSTERROR() << "FstCompiler: Symbol \"" << s
- << "\" is not mapped to any integer " << name
- << ", symbol table = " << syms->Name()
- << ", source = " << source_ << ", line = " << nline_;
- fst_.SetProperties(kError, kError);
- }
- } else {
- char *p;
- n = strtoll(s, &p, 10);
- if (p < s + strlen(s) || (!allow_negative && n < 0)) {
- FSTERROR() << "FstCompiler: Bad " << name << " integer = \"" << s
- << "\", source = " << source_ << ", line = " << nline_;
- fst_.SetProperties(kError, kError);
- }
- }
- return n;
- }
-
- StateId StrToStateId(const char *s) {
- StateId n = StrToId(s, ssyms_, "state ID");
-
- if (keep_state_numbering_)
- return n;
-
- // remap state IDs to make dense set
- typename unordered_map<StateId, StateId>::const_iterator it = states_.find(n);
- if (it == states_.end()) {
- states_[n] = nstates_;
- return nstates_++;
- } else {
- return it->second;
- }
- }
-
- StateId StrToILabel(const char *s) const {
- return StrToId(s, isyms_, "arc ilabel", allow_negative_labels_);
- }
-
- StateId StrToOLabel(const char *s) const {
- return StrToId(s, osyms_, "arc olabel", allow_negative_labels_);
- }
-
- Weight StrToWeight(const char *s, bool allow_zero) const {
- Weight w;
- istringstream strm(s);
- strm >> w;
- if (!strm || (!allow_zero && w == Weight::Zero())) {
- FSTERROR() << "FstCompiler: Bad weight = \"" << s
- << "\", source = " << source_ << ", line = " << nline_;
- fst_.SetProperties(kError, kError);
- w = Weight::NoWeight();
- }
- return w;
- }
-
- mutable VectorFst<A> fst_;
- size_t nline_;
- string source_; // text FST source name
- const SymbolTable *isyms_; // ilabel symbol table
- const SymbolTable *osyms_; // olabel symbol table
- const SymbolTable *ssyms_; // slabel symbol table
- unordered_map<StateId, StateId> states_; // state ID map
- StateId nstates_; // number of seen states
- bool keep_state_numbering_;
- bool allow_negative_labels_; // not recommended; may cause conflicts
-
- DISALLOW_COPY_AND_ASSIGN(FstCompiler);
-};
-
-} // namespace fst
-
-#endif // FST_SCRIPT_COMPILE_IMPL_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/compile.h b/kaldi_io/src/tools/openfst/include/fst/script/compile.h
deleted file mode 100644
index bb6ea56..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/compile.h
+++ /dev/null
@@ -1,92 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_COMPILE_H_
-#define FST_SCRIPT_COMPILE_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/compile-impl.h>
-
-namespace fst {
-namespace script {
-
-// Note: it is safe to pass these strings as references because
-// this struct is only used to pass them deeper in the call graph.
-// Be sure you understand why this is so before using this struct
-// for anything else!
-struct FstCompileArgs {
- fst::istream &istrm;
- const string &source;
- const string &dest;
- const string &fst_type;
- const fst::SymbolTable *isyms;
- const fst::SymbolTable *osyms;
- const fst::SymbolTable *ssyms;
- const bool accep;
- const bool ikeep;
- const bool okeep;
- const bool nkeep;
- const bool allow_negative_labels;
-
- FstCompileArgs(istream &istrm, const string &source, const string &dest,
- const string &fst_type, const fst::SymbolTable *isyms,
- const fst::SymbolTable *osyms,
- const fst::SymbolTable *ssyms,
- bool accep, bool ikeep, bool okeep, bool nkeep,
- bool allow_negative_labels = false) :
- istrm(istrm), source(source), dest(dest), fst_type(fst_type),
- isyms(isyms), osyms(osyms), ssyms(ssyms), accep(accep), ikeep(ikeep),
- okeep(okeep), nkeep(nkeep),
- allow_negative_labels(allow_negative_labels) { }
-};
-
-template<class Arc>
-void CompileFst(FstCompileArgs *args) {
- using fst::FstCompiler;
- using fst::Convert;
- using fst::Fst;
-
- FstCompiler<Arc> fstcompiler(args->istrm, args->source, args->isyms,
- args->osyms, args->ssyms,
- args->accep, args->ikeep,
- args->okeep, args->nkeep,
- args->allow_negative_labels);
-
- const Fst<Arc> *fst = &fstcompiler.Fst();
- if (args->fst_type != "vector") {
- fst = Convert<Arc>(*fst, args->fst_type);
- if (!fst) {
- FSTERROR() << "Failed to convert FST to desired type: "
- << args->fst_type;
- return;
- }
- }
-
- fst->Write(args->dest);
-}
-
-void CompileFst(istream &istrm, const string &source, const string &dest,
- const string &fst_type, const string &arc_type,
- const SymbolTable *isyms,
- const SymbolTable *osyms, const SymbolTable *ssyms,
- bool accep, bool ikeep, bool okeep, bool nkeep,
- bool allow_negative_labels);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_COMPILE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/compose.h b/kaldi_io/src/tools/openfst/include/fst/script/compose.h
deleted file mode 100644
index 96375f7..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/compose.h
+++ /dev/null
@@ -1,63 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_COMPOSE_H_
-#define FST_SCRIPT_COMPOSE_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/compose.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const FstClass&, const FstClass&,
- MutableFstClass*, ComposeFilter> ComposeArgs1;
-
-template<class Arc>
-void Compose(ComposeArgs1 *args) {
- const Fst<Arc> &ifst1 = *(args->arg1.GetFst<Arc>());
- const Fst<Arc> &ifst2 = *(args->arg2.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg3->GetMutableFst<Arc>();
-
- Compose(ifst1, ifst2, ofst, args->arg4);
-}
-
-typedef fst::ComposeOptions ComposeOptions;
-
-typedef args::Package<const FstClass&, const FstClass&,
- MutableFstClass*, const ComposeOptions &> ComposeArgs2;
-
-template<class Arc>
-void Compose(ComposeArgs2 *args) {
- const Fst<Arc> &ifst1 = *(args->arg1.GetFst<Arc>());
- const Fst<Arc> &ifst2 = *(args->arg2.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg3->GetMutableFst<Arc>();
-
- Compose(ifst1, ifst2, ofst, args->arg4);
-}
-
-void Compose(const FstClass &ifst1, const FstClass &ifst2,
- MutableFstClass *ofst,
- const ComposeOptions &opts = fst::script::ComposeOptions());
-
-void Compose(const FstClass &ifst1, const FstClass &ifst2,
- MutableFstClass *ofst, ComposeFilter compose_filter);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_COMPOSE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/concat.h b/kaldi_io/src/tools/openfst/include/fst/script/concat.h
deleted file mode 100644
index 46c4407..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/concat.h
+++ /dev/null
@@ -1,54 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_CONCAT_H_
-#define FST_SCRIPT_CONCAT_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/concat.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<MutableFstClass*, const FstClass&> ConcatArgs1;
-typedef args::Package<const FstClass&, MutableFstClass*> ConcatArgs2;
-
-template<class Arc>
-void Concat(ConcatArgs1 *args) {
- MutableFst<Arc> *ofst = args->arg1->GetMutableFst<Arc>();
- const Fst<Arc> &ifst = *(args->arg2.GetFst<Arc>());
-
- Concat(ofst, ifst);
-}
-
-template<class Arc>
-void Concat(ConcatArgs2 *args) {
- const Fst<Arc> &ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
-
- Concat(ifst, ofst);
-}
-
-void Concat(MutableFstClass *ofst, const FstClass &ifst);
-void Concat(const FstClass &ifst, MutableFstClass *ofst);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_CONCAT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/connect.h b/kaldi_io/src/tools/openfst/include/fst/script/connect.h
deleted file mode 100644
index 19c4390..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/connect.h
+++ /dev/null
@@ -1,45 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_CONNECT_H_
-#define FST_SCRIPT_CONNECT_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/dfs-visit.h>
-#include <fst/connect.h>
-
-namespace fst {
-namespace script {
-
-// This function confuses SWIG, because both versions have the same args
-#ifndef SWIG
-template<class Arc>
-void Connect(MutableFstClass *fst) {
- MutableFst<Arc> *typed_fst = fst->GetMutableFst<Arc>();
-
- Connect(typed_fst);
-}
-#endif
-
-void Connect(MutableFstClass *fst);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_CONNECT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/convert.h b/kaldi_io/src/tools/openfst/include/fst/script/convert.h
deleted file mode 100644
index 4a3ce6b..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/convert.h
+++ /dev/null
@@ -1,49 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_CONVERT_H_
-#define FST_SCRIPT_CONVERT_H_
-
-#include <string>
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const FstClass&, const string&> ConvertInnerArgs;
-typedef args::WithReturnValue<FstClass*, ConvertInnerArgs> ConvertArgs;
-
-template<class Arc>
-void Convert(ConvertArgs *args) {
- const Fst<Arc> &fst = *(args->args.arg1.GetFst<Arc>());
- const string &new_type = args->args.arg2;
-
- Fst<Arc> *result = Convert(fst, new_type);
- args->retval = new FstClass(*result);
- delete result;
-}
-
-#ifdef SWIG
-%newobject Convert;
-#endif
-FstClass *Convert(const FstClass& f, const string &new_type);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_CONVERT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/decode.h b/kaldi_io/src/tools/openfst/include/fst/script/decode.h
deleted file mode 100644
index 1064ad5..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/decode.h
+++ /dev/null
@@ -1,46 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_DECODE_H_
-#define FST_SCRIPT_DECODE_H_
-
-#include <string>
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/encode.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<MutableFstClass*, const string&> DecodeArgs;
-
-template<class Arc>
-void Decode(DecodeArgs *args) {
- MutableFst<Arc> *ofst = args->arg1->GetMutableFst<Arc>();
-
- EncodeMapper<Arc> *decoder = EncodeMapper<Arc>::Read(args->arg2, DECODE);
- Decode(ofst, *decoder);
-
- delete decoder;
-}
-
-void Decode(MutableFstClass *fst, const string &coder_fname);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_DECODE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/determinize.h b/kaldi_io/src/tools/openfst/include/fst/script/determinize.h
deleted file mode 100644
index 38fd7ad..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/determinize.h
+++ /dev/null
@@ -1,68 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_DETERMINIZE_H_
-#define FST_SCRIPT_DETERMINIZE_H_
-
-#include <fst/determinize.h>
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/weight-class.h>
-
-namespace fst {
-namespace script {
-
-struct DeterminizeOptions {
- float delta;
- WeightClass weight_threshold;
- int64 state_threshold;
- int64 subsequential_label;
-
- explicit DeterminizeOptions(float d = fst::kDelta,
- WeightClass w =
- fst::script::WeightClass::Zero(),
- int64 n = fst::kNoStateId, int64 l = 0)
- : delta(d), weight_threshold(w), state_threshold(n),
- subsequential_label(l) {}
-};
-
-typedef args::Package<const FstClass&, MutableFstClass*,
- const DeterminizeOptions &> DeterminizeArgs;
-
-template<class Arc>
-void Determinize(DeterminizeArgs *args) {
- const Fst<Arc> &ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
- const DeterminizeOptions &opts = args->arg3;
-
- fst::DeterminizeOptions<Arc> detargs;
- detargs.delta = opts.delta;
- detargs.weight_threshold =
- *(opts.weight_threshold.GetWeight<typename Arc::Weight>());
- detargs.state_threshold = opts.state_threshold;
- detargs.subsequential_label = opts.subsequential_label;
-
- Determinize(ifst, ofst, detargs);
-}
-
-void Determinize(const FstClass &ifst, MutableFstClass *ofst,
- const DeterminizeOptions &opts =
- fst::script::DeterminizeOptions());
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_DETERMINIZE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/difference.h b/kaldi_io/src/tools/openfst/include/fst/script/difference.h
deleted file mode 100644
index 76490d4..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/difference.h
+++ /dev/null
@@ -1,67 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_DIFFERENCE_H_
-#define FST_SCRIPT_DIFFERENCE_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/compose.h> // for ComposeFilter
-#include <fst/difference.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const FstClass&, const FstClass&,
- MutableFstClass*, ComposeFilter> DifferenceArgs1;
-
-template<class Arc>
-void Difference(DifferenceArgs1 *args) {
- const Fst<Arc> &ifst1 = *(args->arg1.GetFst<Arc>());
- const Fst<Arc> &ifst2 = *(args->arg2.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg3->GetMutableFst<Arc>();
-
- Difference(ifst1, ifst2, ofst, args->arg4);
-}
-
-typedef args::Package<const FstClass&, const FstClass&,
- MutableFstClass*, const ComposeOptions &> DifferenceArgs2;
-
-template<class Arc>
-void Difference(DifferenceArgs2 *args) {
- const Fst<Arc> &ifst1 = *(args->arg1.GetFst<Arc>());
- const Fst<Arc> &ifst2 = *(args->arg2.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg3->GetMutableFst<Arc>();
-
- Difference(ifst1, ifst2, ofst, args->arg4);
-}
-
-
-void Difference(const FstClass &ifst1, const FstClass &ifst2,
- MutableFstClass *ofst,
- ComposeFilter compose_filter);
-
-void Difference(const FstClass &ifst1, const FstClass &ifst2,
- MutableFstClass *ofst,
- const ComposeOptions &opts = fst::script::ComposeOptions());
-
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_DIFFERENCE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/disambiguate.h b/kaldi_io/src/tools/openfst/include/fst/script/disambiguate.h
deleted file mode 100644
index e42a9c2..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/disambiguate.h
+++ /dev/null
@@ -1,68 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_DISAMBIGUATE_H_
-#define FST_SCRIPT_DISAMBIGUATE_H_
-
-#include <fst/disambiguate.h>
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/weight-class.h>
-
-namespace fst {
-namespace script {
-
-struct DisambiguateOptions {
- float delta;
- WeightClass weight_threshold;
- int64 state_threshold;
- int64 subsequential_label;
-
- explicit DisambiguateOptions(float d = fst::kDelta,
- WeightClass w =
- fst::script::WeightClass::Zero(),
- int64 n = fst::kNoStateId, int64 l = 0)
- : delta(d), weight_threshold(w), state_threshold(n),
- subsequential_label(l) {}
-};
-
-typedef args::Package<const FstClass&, MutableFstClass*,
- const DisambiguateOptions &> DisambiguateArgs;
-
-template<class Arc>
-void Disambiguate(DisambiguateArgs *args) {
- const Fst<Arc> &ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
- const DisambiguateOptions &opts = args->arg3;
-
- fst::DisambiguateOptions<Arc> detargs;
- detargs.delta = opts.delta;
- detargs.weight_threshold =
- *(opts.weight_threshold.GetWeight<typename Arc::Weight>());
- detargs.state_threshold = opts.state_threshold;
- detargs.subsequential_label = opts.subsequential_label;
-
- Disambiguate(ifst, ofst, detargs);
-}
-
-void Disambiguate(const FstClass &ifst, MutableFstClass *ofst,
- const DisambiguateOptions &opts =
- fst::script::DisambiguateOptions());
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_DISAMBIGUATE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/draw-impl.h b/kaldi_io/src/tools/openfst/include/fst/script/draw-impl.h
deleted file mode 100644
index 893e258..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/draw-impl.h
+++ /dev/null
@@ -1,234 +0,0 @@
-// draw.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Class to draw a binary FST by producing a text file in dot format,
-// helper class to fstdraw.cc
-
-#ifndef FST_SCRIPT_DRAW_IMPL_H_
-#define FST_SCRIPT_DRAW_IMPL_H_
-
-#include <sstream>
-#include <string>
-
-#include <fst/script/fst-class.h>
-#include <fst/fst.h>
-#include <fst/util.h>
-
-namespace fst {
-
-// Print a binary Fst in the dot textual format, helper class for fstdraw.cc
-// WARNING: Stand-alone use not recommend.
-template <class A> class FstDrawer {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
-
- FstDrawer(const Fst<A> &fst,
- const SymbolTable *isyms,
- const SymbolTable *osyms,
- const SymbolTable *ssyms,
- bool accep,
- string title,
- float width,
- float height,
- bool portrait,
- bool vertical,
- float ranksep,
- float nodesep,
- int fontsize,
- int precision,
- bool show_weight_one)
- : fst_(fst), isyms_(isyms), osyms_(osyms), ssyms_(ssyms),
- accep_(accep && fst.Properties(kAcceptor, true)), ostrm_(0),
- title_(title), width_(width), height_(height), portrait_(portrait),
- vertical_(vertical), ranksep_(ranksep), nodesep_(nodesep),
- fontsize_(fontsize), precision_(precision),
- show_weight_one_(show_weight_one) {}
-
- // Draw Fst to an output buffer (or stdout if buf = 0)
- void Draw(ostream *strm, const string &dest) {
- ostrm_ = strm;
- dest_ = dest;
- StateId start = fst_.Start();
- if (start == kNoStateId)
- return;
-
- PrintString("digraph FST {\n");
- if (vertical_)
- PrintString("rankdir = BT;\n");
- else
- PrintString("rankdir = LR;\n");
- PrintString("size = \"");
- Print(width_);
- PrintString(",");
- Print(height_);
- PrintString("\";\n");
- if (!dest_.empty())
- PrintString("label = \"" + title_ + "\";\n");
- PrintString("center = 1;\n");
- if (portrait_)
- PrintString("orientation = Portrait;\n");
- else
- PrintString("orientation = Landscape;\n");
- PrintString("ranksep = \"");
- Print(ranksep_);
- PrintString("\";\n");
- PrintString("nodesep = \"");
- Print(nodesep_);
- PrintString("\";\n");
- // initial state first
- DrawState(start);
- for (StateIterator< Fst<A> > siter(fst_);
- !siter.Done();
- siter.Next()) {
- StateId s = siter.Value();
- if (s != start)
- DrawState(s);
- }
- PrintString("}\n");
- }
-
- private:
- // Maximum line length in text file.
- static const int kLineLen = 8096;
-
- void PrintString(const string &s) const {
- *ostrm_ << s;
- }
-
- // Escapes backslash and double quote if these occur in the string. Dot will
- // not deal gracefully with these if they are not escaped.
- inline void EscapeChars(const string &s, string* ns) const {
- const char* c = s.c_str();
- while (*c) {
- if (*c == '\\' || *c == '"') ns->push_back('\\');
- ns->push_back(*c);
- ++c;
- }
- }
-
- void PrintId(int64 id, const SymbolTable *syms,
- const char *name) const {
- if (syms) {
- string symbol = syms->Find(id);
- if (symbol == "") {
- FSTERROR() << "FstDrawer: Integer " << id
- << " is not mapped to any textual symbol"
- << ", symbol table = " << syms->Name()
- << ", destination = " << dest_;
- symbol = "?";
- }
- string nsymbol;
- EscapeChars(symbol, &nsymbol);
- PrintString(nsymbol);
- } else {
- string idstr;
- Int64ToStr(id, &idstr);
- PrintString(idstr);
- }
- }
-
- void PrintStateId(StateId s) const {
- PrintId(s, ssyms_, "state ID");
- }
-
- void PrintILabel(Label l) const {
- PrintId(l, isyms_, "arc input label");
- }
-
- void PrintOLabel(Label l) const {
- PrintId(l, osyms_, "arc output label");
- }
-
- template <class T>
- void Print(T t) const {
- *ostrm_ << t;
- }
-
- void DrawState(StateId s) const {
- Print(s);
- PrintString(" [label = \"");
- PrintStateId(s);
- Weight final = fst_.Final(s);
- if (final != Weight::Zero()) {
- if (show_weight_one_ || (final != Weight::One())) {
- PrintString("/");
- Print(final);
- }
- PrintString("\", shape = doublecircle,");
- } else {
- PrintString("\", shape = circle,");
- }
- if (s == fst_.Start())
- PrintString(" style = bold,");
- else
- PrintString(" style = solid,");
- PrintString(" fontsize = ");
- Print(fontsize_);
- PrintString("]\n");
- for (ArcIterator< Fst<A> > aiter(fst_, s);
- !aiter.Done();
- aiter.Next()) {
- Arc arc = aiter.Value();
- PrintString("\t");
- Print(s);
- PrintString(" -> ");
- Print(arc.nextstate);
- PrintString(" [label = \"");
- PrintILabel(arc.ilabel);
- if (!accep_) {
- PrintString(":");
- PrintOLabel(arc.olabel);
- }
- if (show_weight_one_ || (arc.weight != Weight::One())) {
- PrintString("/");
- Print(arc.weight);
- }
- PrintString("\", fontsize = ");
- Print(fontsize_);
- PrintString("];\n");
- }
- }
-
- const Fst<A> &fst_;
- const SymbolTable *isyms_; // ilabel symbol table
- const SymbolTable *osyms_; // olabel symbol table
- const SymbolTable *ssyms_; // slabel symbol table
- bool accep_; // print as acceptor when possible
- ostream *ostrm_; // drawn FST destination
- string dest_; // drawn FST destination name
-
- string title_;
- float width_;
- float height_;
- bool portrait_;
- bool vertical_;
- float ranksep_;
- float nodesep_;
- int fontsize_;
- int precision_;
- bool show_weight_one_;
-
- DISALLOW_COPY_AND_ASSIGN(FstDrawer);
-};
-
-} // namespace fst
-
-#endif // FST_SCRIPT_DRAW_IMPL_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/draw.h b/kaldi_io/src/tools/openfst/include/fst/script/draw.h
deleted file mode 100644
index 2b66373..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/draw.h
+++ /dev/null
@@ -1,114 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_DRAW_H_
-#define FST_SCRIPT_DRAW_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/draw-impl.h>
-#include <iostream>
-#include <fstream>
-#include <sstream>
-
-namespace fst {
-namespace script {
-
-// Note: it is safe to pass these strings as references because
-// this struct is only used to pass them deeper in the call graph.
-// Be sure you understand why this is so before using this struct
-// for anything else!
-struct FstDrawerArgs {
- const FstClass &fst;
- const SymbolTable *isyms;
- const SymbolTable *osyms;
- const SymbolTable *ssyms;
- const bool accep;
- const string& title;
- const float width;
- const float height;
- const bool portrait;
- const bool vertical;
- const float ranksep;
- const float nodesep;
- const int fontsize;
- const int precision;
- const bool show_weight_one;
- ostream *ostrm;
- const string &dest;
-
- FstDrawerArgs(const FstClass &fst,
- const SymbolTable *isyms,
- const SymbolTable *osyms,
- const SymbolTable *ssyms,
- bool accep,
- const string &title,
- float width,
- float height,
- bool portrait,
- bool vertical,
- float ranksep,
- float nodesep,
- int fontsize,
- int precision,
- bool show_weight_one,
- ostream *ostrm,
- const string &dest) :
- fst(fst), isyms(isyms), osyms(osyms), ssyms(ssyms), accep(accep),
- title(title), width(width), height(height), portrait(portrait),
- vertical(vertical), ranksep(ranksep), nodesep(nodesep),
- fontsize(fontsize), precision(precision),
- show_weight_one(show_weight_one), ostrm(ostrm), dest(dest) { }
-};
-
-
-template<class Arc>
-void DrawFst(FstDrawerArgs *args) {
- const Fst<Arc> &fst = *(args->fst.GetFst<Arc>());
-
- FstDrawer<Arc> fstdrawer(fst, args->isyms, args->osyms, args->ssyms,
- args->accep, args->title, args->width,
- args->height, args->portrait,
- args->vertical, args->ranksep,
- args->nodesep, args->fontsize,
- args->precision, args->show_weight_one);
- fstdrawer.Draw(args->ostrm, args->dest);
-}
-
-void DrawFst(const FstClass &fst,
- const SymbolTable *isyms,
- const SymbolTable *osyms,
- const SymbolTable *ssyms,
- bool accep,
- const string &title,
- float width,
- float height,
- bool portrait,
- bool vertical,
- float ranksep,
- float nodesep,
- int fontsize,
- int precision,
- bool show_weight_one,
- ostream *ostrm,
- const string &dest);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_DRAW_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/encode.h b/kaldi_io/src/tools/openfst/include/fst/script/encode.h
deleted file mode 100644
index dc1a290..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/encode.h
+++ /dev/null
@@ -1,58 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_ENCODE_H_
-#define FST_SCRIPT_ENCODE_H_
-
-#include <string>
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/encode.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<MutableFstClass*, uint32, bool,
- const string &> EncodeArgs;
-
-template<class Arc>
-void Encode(EncodeArgs *args) {
- MutableFst<Arc> *ofst = args->arg1->GetMutableFst<Arc>();
- bool reuse_encoder = args->arg3;
- const string &coder_fname = args->arg4;
- uint32 flags = args->arg2;
-
- EncodeMapper<Arc> *encoder = reuse_encoder
- ? EncodeMapper<Arc>::Read(coder_fname, ENCODE)
- : new EncodeMapper<Arc>(flags, ENCODE);
-
- Encode(ofst, encoder);
- if (!args->arg3)
- encoder->Write(coder_fname);
-
- delete encoder;
-}
-
-void Encode(MutableFstClass *fst, uint32 flags, bool reuse_encoder,
- const string &coder_fname);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_ENCODE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/epsnormalize.h b/kaldi_io/src/tools/openfst/include/fst/script/epsnormalize.h
deleted file mode 100644
index 50b12da..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/epsnormalize.h
+++ /dev/null
@@ -1,44 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_EPSNORMALIZE_H_
-#define FST_SCRIPT_EPSNORMALIZE_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/epsnormalize.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const FstClass&, MutableFstClass*,
- EpsNormalizeType> EpsNormalizeArgs;
-
-template<class Arc>
-void EpsNormalize(EpsNormalizeArgs *args) {
- const Fst<Arc> &ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
-
- EpsNormalize(ifst, ofst, args->arg3);
-}
-
-void EpsNormalize(const FstClass &ifst, MutableFstClass *ofst,
- EpsNormalizeType norm_type = EPS_NORM_INPUT);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_EPSNORMALIZE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/equal.h b/kaldi_io/src/tools/openfst/include/fst/script/equal.h
deleted file mode 100644
index 9fb2d3c..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/equal.h
+++ /dev/null
@@ -1,45 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_EQUAL_H_
-#define FST_SCRIPT_EQUAL_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/equal.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const FstClass&, const FstClass&, float> EqualInnerArgs;
-typedef args::WithReturnValue<bool, EqualInnerArgs> EqualArgs;
-
-template<class Arc>
-void Equal(EqualArgs *args) {
- const Fst<Arc> &fst1 = *(args->args.arg1.GetFst<Arc>());
- const Fst<Arc> &fst2 = *(args->args.arg2.GetFst<Arc>());
-
- args->retval = Equal(fst1, fst2, args->args.arg3);
-}
-
-bool Equal(const FstClass &fst1, const FstClass &fst2,
- float delta = kDelta);
-
-} // namespace script
-} // namespace fst
-
-
-#endif // FST_SCRIPT_EQUAL_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/equivalent.h b/kaldi_io/src/tools/openfst/include/fst/script/equivalent.h
deleted file mode 100644
index 43460c6..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/equivalent.h
+++ /dev/null
@@ -1,47 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_EQUIVALENT_H_
-#define FST_SCRIPT_EQUIVALENT_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/equivalent.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const FstClass &, const FstClass &,
- float> EquivalentInnerArgs;
-typedef args::WithReturnValue<bool, EquivalentInnerArgs> EquivalentArgs;
-
-template<class Arc>
-void Equivalent(EquivalentArgs *args) {
- const Fst<Arc> &fst1 = *(args->args.arg1.GetFst<Arc>());
- const Fst<Arc> &fst2 = *(args->args.arg2.GetFst<Arc>());
-
- args->retval = Equivalent(fst1, fst2, args->args.arg3);
-}
-
-bool Equivalent(const FstClass &fst1, const FstClass &fst2,
- float delta = kDelta);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_EQUIVALENT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/fst-class.h b/kaldi_io/src/tools/openfst/include/fst/script/fst-class.h
deleted file mode 100644
index fe2cf53..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/fst-class.h
+++ /dev/null
@@ -1,382 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_FST_CLASS_H_
-#define FST_SCRIPT_FST_CLASS_H_
-
-#include <string>
-
-#include <fst/fst.h>
-#include <fst/mutable-fst.h>
-#include <fst/vector-fst.h>
-#include <iostream>
-#include <fstream>
-#include <sstream>
-
-// Classes to support "boxing" all existing types of FST arcs in a single
-// FstClass which hides the arc types. This allows clients to load
-// and work with FSTs without knowing the arc type.
-
-// These classes are only recommended for use in high-level scripting
-// applications. Most users should use the lower-level templated versions
-// corresponding to these classes.
-
-namespace fst {
-namespace script {
-
-//
-// Abstract base class defining the set of functionalities implemented
-// in all impls, and passed through by all bases Below FstClassBase
-// the class hierarchy bifurcates; FstClassImplBase serves as the base
-// class for all implementations (of which FstClassImpl is currently
-// the only one) and FstClass serves as the base class for all
-// interfaces.
-//
-class FstClassBase {
- public:
- virtual const string &ArcType() const = 0;
- virtual const string &FstType() const = 0;
- virtual const string &WeightType() const = 0;
- virtual const SymbolTable *InputSymbols() const = 0;
- virtual const SymbolTable *OutputSymbols() const = 0;
- virtual bool Write(const string& fname) const = 0;
- virtual bool Write(ostream &ostr, const FstWriteOptions &opts) const = 0;
- virtual uint64 Properties(uint64 mask, bool test) const = 0;
- virtual ~FstClassBase() { }
-};
-
-class FstClassImplBase : public FstClassBase {
- public:
- virtual FstClassImplBase *Copy() = 0;
- virtual void SetInputSymbols(SymbolTable *is) = 0;
- virtual void SetOutputSymbols(SymbolTable *is) = 0;
- virtual ~FstClassImplBase() { }
-};
-
-
-//
-// CONTAINER CLASS
-// Wraps an Fst<Arc>, hiding its arc type. Whether this Fst<Arc>
-// pointer refers to a special kind of FST (e.g. a MutableFst) is
-// known by the type of interface class that owns the pointer to this
-// container.
-//
-
-template<class Arc>
-class FstClassImpl : public FstClassImplBase {
- public:
- explicit FstClassImpl(Fst<Arc> *impl,
- bool should_own = false) :
- impl_(should_own ? impl : impl->Copy()) { }
-
- explicit FstClassImpl(const Fst<Arc> &impl) : impl_(impl.Copy()) { }
-
- virtual const string &ArcType() const {
- return Arc::Type();
- }
-
- virtual const string &FstType() const {
- return impl_->Type();
- }
-
- virtual const string &WeightType() const {
- return Arc::Weight::Type();
- }
-
- virtual const SymbolTable *InputSymbols() const {
- return impl_->InputSymbols();
- }
-
- virtual const SymbolTable *OutputSymbols() const {
- return impl_->OutputSymbols();
- }
-
- // Warning: calling this method casts the FST to a mutable FST.
- virtual void SetInputSymbols(SymbolTable *is) {
- static_cast<MutableFst<Arc> *>(impl_)->SetInputSymbols(is);
- }
-
- // Warning: calling this method casts the FST to a mutable FST.
- virtual void SetOutputSymbols(SymbolTable *os) {
- static_cast<MutableFst<Arc> *>(impl_)->SetOutputSymbols(os);
- }
-
- virtual bool Write(const string &fname) const {
- return impl_->Write(fname);
- }
-
- virtual bool Write(ostream &ostr, const FstWriteOptions &opts) const {
- return impl_->Write(ostr, opts);
- }
-
- virtual uint64 Properties(uint64 mask, bool test) const {
- return impl_->Properties(mask, test);
- }
-
- virtual ~FstClassImpl() { delete impl_; }
-
- Fst<Arc> *GetImpl() const { return impl_; }
-
- Fst<Arc> *GetImpl() { return impl_; }
-
- virtual FstClassImpl *Copy() {
- return new FstClassImpl<Arc>(impl_);
- }
-
- private:
- Fst<Arc> *impl_;
-};
-
-//
-// BASE CLASS DEFINITIONS
-//
-
-class MutableFstClass;
-
-class FstClass : public FstClassBase {
- public:
- template<class Arc>
- static FstClass *Read(istream &stream,
- const FstReadOptions &opts) {
- if (!opts.header) {
- FSTERROR() << "FstClass::Read: options header not specified";
- return 0;
- }
- const FstHeader &hdr = *opts.header;
-
- if (hdr.Properties() & kMutable) {
- return ReadTypedFst<MutableFstClass, MutableFst<Arc> >(stream, opts);
- } else {
- return ReadTypedFst<FstClass, Fst<Arc> >(stream, opts);
- }
- }
-
- FstClass() : impl_(NULL) {
- }
-
- template<class Arc>
- explicit FstClass(const Fst<Arc> &fst) : impl_(new FstClassImpl<Arc>(fst)) {
- }
-
- FstClass(const FstClass &other) : impl_(other.impl_->Copy()) { }
-
- FstClass &operator=(const FstClass &other) {
- delete impl_;
- impl_ = other.impl_->Copy();
- return *this;
- }
-
- static FstClass *Read(const string &fname);
-
- static FstClass *Read(istream &istr, const string &source);
-
- virtual const string &ArcType() const {
- return impl_->ArcType();
- }
-
- virtual const string& FstType() const {
- return impl_->FstType();
- }
-
- virtual const SymbolTable *InputSymbols() const {
- return impl_->InputSymbols();
- }
-
- virtual const SymbolTable *OutputSymbols() const {
- return impl_->OutputSymbols();
- }
-
- virtual const string& WeightType() const {
- return impl_->WeightType();
- }
-
- virtual bool Write(const string &fname) const {
- return impl_->Write(fname);
- }
-
- virtual bool Write(ostream &ostr, const FstWriteOptions &opts) const {
- return impl_->Write(ostr, opts);
- }
-
- virtual uint64 Properties(uint64 mask, bool test) const {
- return impl_->Properties(mask, test);
- }
-
- template<class Arc>
- const Fst<Arc> *GetFst() const {
- if (Arc::Type() != ArcType()) {
- return NULL;
- } else {
- FstClassImpl<Arc> *typed_impl = static_cast<FstClassImpl<Arc> *>(impl_);
- return typed_impl->GetImpl();
- }
- }
-
- virtual ~FstClass() { delete impl_; }
-
- // These methods are required by IO registration
- template<class Arc>
- static FstClassImplBase *Convert(const FstClass &other) {
- LOG(ERROR) << "Doesn't make sense to convert any class to type FstClass.";
- return 0;
- }
-
- template<class Arc>
- static FstClassImplBase *Create() {
- LOG(ERROR) << "Doesn't make sense to create an FstClass with a "
- << "particular arc type.";
- return 0;
- }
-
-
- protected:
- explicit FstClass(FstClassImplBase *impl) : impl_(impl) { }
-
- // Generic template method for reading an arc-templated FST of type
- // UnderlyingT, and returning it wrapped as FstClassT, with appropriate
- // error checking. Called from arc-templated Read() static methods.
- template<class FstClassT, class UnderlyingT>
- static FstClassT* ReadTypedFst(istream &stream,
- const FstReadOptions &opts) {
- UnderlyingT *u = UnderlyingT::Read(stream, opts);
- if (!u) {
- return 0;
- } else {
- FstClassT *r = new FstClassT(*u);
- delete u;
- return r;
- }
- }
-
- FstClassImplBase *GetImpl() const { return impl_; }
-
- FstClassImplBase *GetImpl() { return impl_; }
-
-// friend ostream &operator<<(ostream&, const FstClass&);
-
- private:
- FstClassImplBase *impl_;
-};
-
-//
-// Specific types of FstClass with special properties
-//
-
-class MutableFstClass : public FstClass {
- public:
- template<class Arc>
- explicit MutableFstClass(const MutableFst<Arc> &fst) :
- FstClass(fst) { }
-
- template<class Arc>
- MutableFst<Arc> *GetMutableFst() {
- Fst<Arc> *fst = const_cast<Fst<Arc> *>(this->GetFst<Arc>());
- MutableFst<Arc> *mfst = static_cast<MutableFst<Arc> *>(fst);
-
- return mfst;
- }
-
- template<class Arc>
- static MutableFstClass *Read(istream &stream,
- const FstReadOptions &opts) {
- MutableFst<Arc> *mfst = MutableFst<Arc>::Read(stream, opts);
- if (!mfst) {
- return 0;
- } else {
- MutableFstClass *retval = new MutableFstClass(*mfst);
- delete mfst;
- return retval;
- }
- }
-
- virtual bool Write(const string &fname) const {
- return GetImpl()->Write(fname);
- }
-
- virtual bool Write(ostream &ostr, const FstWriteOptions &opts) const {
- return GetImpl()->Write(ostr, opts);
- }
-
- static MutableFstClass *Read(const string &fname, bool convert = false);
-
- virtual void SetInputSymbols(SymbolTable *is) {
- GetImpl()->SetInputSymbols(is);
- }
-
- virtual void SetOutputSymbols(SymbolTable *os) {
- GetImpl()->SetOutputSymbols(os);
- }
-
- // These methods are required by IO registration
- template<class Arc>
- static FstClassImplBase *Convert(const FstClass &other) {
- LOG(ERROR) << "Doesn't make sense to convert any class to type "
- << "MutableFstClass.";
- return 0;
- }
-
- template<class Arc>
- static FstClassImplBase *Create() {
- LOG(ERROR) << "Doesn't make sense to create a MutableFstClass with a "
- << "particular arc type.";
- return 0;
- }
-
- protected:
- explicit MutableFstClass(FstClassImplBase *impl) : FstClass(impl) { }
-};
-
-
-class VectorFstClass : public MutableFstClass {
- public:
- explicit VectorFstClass(const FstClass &other);
- explicit VectorFstClass(const string &arc_type);
-
- template<class Arc>
- explicit VectorFstClass(const VectorFst<Arc> &fst) :
- MutableFstClass(fst) { }
-
- template<class Arc>
- static VectorFstClass *Read(istream &stream,
- const FstReadOptions &opts) {
- VectorFst<Arc> *vfst = VectorFst<Arc>::Read(stream, opts);
- if (!vfst) {
- return 0;
- } else {
- VectorFstClass *retval = new VectorFstClass(*vfst);
- delete vfst;
- return retval;
- }
- }
-
- static VectorFstClass *Read(const string &fname);
-
- // Converter / creator for known arc types
- template<class Arc>
- static FstClassImplBase *Convert(const FstClass &other) {
- return new FstClassImpl<Arc>(new VectorFst<Arc>(
- *other.GetFst<Arc>()), true);
- }
-
- template<class Arc>
- static FstClassImplBase *Create() {
- return new FstClassImpl<Arc>(new VectorFst<Arc>(), true);
- }
-};
-
-} // namespace script
-} // namespace fst
-#endif // FST_SCRIPT_FST_CLASS_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/fstscript-decl.h b/kaldi_io/src/tools/openfst/include/fst/script/fstscript-decl.h
deleted file mode 100644
index fee813e..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/fstscript-decl.h
+++ /dev/null
@@ -1,35 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-// Forward declarations for the FST and FST-script classes.
-
-#ifndef FST_SCRIPT_FSTSCRIPT_DECL_H_
-#define FST_SCRIPT_FSTSCRIPT_DECL_H_
-
-#include <fst/fst-decl.h>
-
-namespace fst {
-namespace script {
-
-class FstClass;
-class MutableFstClass;
-class VectorFstClass;
-class WeightClass;
-
-} // namespace script
-} // namespace fst;
-
-#endif // FST_SCRIPT_FSTSCRIPT_DECL_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/fstscript.h b/kaldi_io/src/tools/openfst/include/fst/script/fstscript.h
deleted file mode 100644
index 90e1e75..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/fstscript.h
+++ /dev/null
@@ -1,154 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-// Convenience file that includes all FstScript functionality
-
-#ifndef FST_SCRIPT_FSTSCRIPT_H_
-#define FST_SCRIPT_FSTSCRIPT_H_
-
-// Major classes
-#include <fst/script/fst-class.h>
-#include <fst/script/weight-class.h>
-#include <fst/script/text-io.h>
-
-// Templates like Operation< >, Apply< >
-#include <fst/script/script-impl.h>
-
-// Operations
-#include <fst/script/arcsort.h>
-#include <fst/script/closure.h>
-#include <fst/script/compile.h>
-#include <fst/script/compose.h>
-#include <fst/script/concat.h>
-#include <fst/script/connect.h>
-#include <fst/script/convert.h>
-#include <fst/script/decode.h>
-#include <fst/script/determinize.h>
-#include <fst/script/difference.h>
-#include <fst/script/draw.h>
-#include <fst/script/encode.h>
-#include <fst/script/epsnormalize.h>
-#include <fst/script/equal.h>
-#include <fst/script/equivalent.h>
-#include <fst/script/info.h>
-#include <fst/script/intersect.h>
-#include <fst/script/invert.h>
-#include <fst/script/map.h>
-#include <fst/script/minimize.h>
-#include <fst/script/print.h>
-#include <fst/script/project.h>
-#include <fst/script/prune.h>
-#include <fst/script/push.h>
-#include <fst/script/randequivalent.h>
-#include <fst/script/randgen.h>
-#include <fst/script/relabel.h>
-#include <fst/script/replace.h>
-#include <fst/script/reverse.h>
-#include <fst/script/reweight.h>
-#include <fst/script/rmepsilon.h>
-#include <fst/script/shortest-distance.h>
-#include <fst/script/shortest-path.h>
-#include <fst/script/symbols.h>
-#include <fst/script/synchronize.h>
-#include <fst/script/topsort.h>
-#include <fst/script/union.h>
-#include <fst/script/verify.h>
-
-//
-// REGISTER OPERATIONS
-//
-
-
-// This class is necessary because registering each of the operations
-// separately overfills the stack, as there's so many of them.
-namespace fst {
-namespace script {
-template<class Arc>
-class AllFstOperationsRegisterer {
- public:
- AllFstOperationsRegisterer() {
- RegisterBatch1();
- RegisterBatch2();
- }
-
- private:
- void RegisterBatch1() {
- REGISTER_FST_OPERATION(ArcSort, Arc, ArcSortArgs);
- REGISTER_FST_OPERATION(Closure, Arc, ClosureArgs);
- REGISTER_FST_OPERATION(CompileFst, Arc, FstCompileArgs);
- REGISTER_FST_OPERATION(Compose, Arc, ComposeArgs1);
- REGISTER_FST_OPERATION(Compose, Arc, ComposeArgs2);
- REGISTER_FST_OPERATION(Concat, Arc, ConcatArgs1);
- REGISTER_FST_OPERATION(Concat, Arc, ConcatArgs2);
- REGISTER_FST_OPERATION(Connect, Arc, MutableFstClass);
- REGISTER_FST_OPERATION(Convert, Arc, ConvertArgs);
- REGISTER_FST_OPERATION(Decode, Arc, DecodeArgs);
- REGISTER_FST_OPERATION(Determinize, Arc, DeterminizeArgs);
- REGISTER_FST_OPERATION(Difference, Arc, DifferenceArgs1);
- REGISTER_FST_OPERATION(Difference, Arc, DifferenceArgs2);
- REGISTER_FST_OPERATION(DrawFst, Arc, FstDrawerArgs);
- REGISTER_FST_OPERATION(Encode, Arc, EncodeArgs);
- REGISTER_FST_OPERATION(EpsNormalize, Arc, EpsNormalizeArgs);
- REGISTER_FST_OPERATION(Equal, Arc, EqualArgs);
- REGISTER_FST_OPERATION(Equivalent, Arc, EquivalentArgs);
- REGISTER_FST_OPERATION(PrintFstInfo, Arc, InfoArgs);
- REGISTER_FST_OPERATION(Intersect, Arc, IntersectArgs1);
- REGISTER_FST_OPERATION(Intersect, Arc, IntersectArgs2);
- REGISTER_FST_OPERATION(Invert, Arc, MutableFstClass);
- REGISTER_FST_OPERATION(Map, Arc, MapArgs);
- REGISTER_FST_OPERATION(Minimize, Arc, MinimizeArgs);
- }
-
- void RegisterBatch2() {
- REGISTER_FST_OPERATION(PrintFst, Arc, FstPrinterArgs);
- REGISTER_FST_OPERATION(Project, Arc, ProjectArgs);
- REGISTER_FST_OPERATION(Prune, Arc, PruneArgs1);
- REGISTER_FST_OPERATION(Prune, Arc, PruneArgs2);
- REGISTER_FST_OPERATION(Prune, Arc, PruneArgs3);
- REGISTER_FST_OPERATION(Prune, Arc, PruneArgs4);
- REGISTER_FST_OPERATION(Push, Arc, PushArgs1);
- REGISTER_FST_OPERATION(Push, Arc, PushArgs2);
- REGISTER_FST_OPERATION(RandEquivalent, Arc, RandEquivalentArgs1);
- REGISTER_FST_OPERATION(RandEquivalent, Arc, RandEquivalentArgs2);
- REGISTER_FST_OPERATION(RandGen, Arc, RandGenArgs);
- REGISTER_FST_OPERATION(Relabel, Arc, RelabelArgs1);
- REGISTER_FST_OPERATION(Relabel, Arc, RelabelArgs2);
- REGISTER_FST_OPERATION(Relabel, Arc, RelabelArgs3);
- REGISTER_FST_OPERATION(Replace, Arc, ReplaceArgs);
- REGISTER_FST_OPERATION(Reverse, Arc, ReverseArgs);
- REGISTER_FST_OPERATION(Reweight, Arc, ReweightArgs);
- REGISTER_FST_OPERATION(RmEpsilon, Arc, RmEpsilonArgs1);
- REGISTER_FST_OPERATION(RmEpsilon, Arc, RmEpsilonArgs2);
- REGISTER_FST_OPERATION(RmEpsilon, Arc, RmEpsilonArgs3);
- REGISTER_FST_OPERATION(ShortestDistance, Arc, ShortestDistanceArgs1);
- REGISTER_FST_OPERATION(ShortestDistance, Arc, ShortestDistanceArgs2);
- REGISTER_FST_OPERATION(ShortestDistance, Arc, ShortestDistanceArgs3);
- REGISTER_FST_OPERATION(ShortestPath, Arc, ShortestPathArgs1);
- REGISTER_FST_OPERATION(ShortestPath, Arc, ShortestPathArgs2);
- REGISTER_FST_OPERATION(Synchronize, Arc, SynchronizeArgs);
- REGISTER_FST_OPERATION(TopSort, Arc, TopSortArgs);
- REGISTER_FST_OPERATION(Union, Arc, UnionArgs);
- REGISTER_FST_OPERATION(Verify, Arc, VerifyArgs);
- }
-};
-} // namespace script
-} // namespace fst
-
-
-#define REGISTER_FST_OPERATIONS(Arc) \
- AllFstOperationsRegisterer<Arc> register_all_fst_operations ## Arc;
-
-#endif // FST_SCRIPT_FSTSCRIPT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/info-impl.h b/kaldi_io/src/tools/openfst/include/fst/script/info-impl.h
deleted file mode 100644
index 408fbcd..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/info-impl.h
+++ /dev/null
@@ -1,325 +0,0 @@
-// info.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to compute various information about FSTs, helper class for fstinfo.cc
-
-#ifndef FST_SCRIPT_INFO_IMPL_H_
-#define FST_SCRIPT_INFO_IMPL_H_
-
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/connect.h>
-#include <fst/dfs-visit.h>
-#include <fst/fst.h>
-#include <fst/lookahead-matcher.h>
-#include <fst/matcher.h>
-#include <fst/queue.h>
-#include <fst/test-properties.h>
-#include <fst/verify.h>
-#include <fst/visit.h>
-
-namespace fst {
-
-// Compute various information about FSTs, helper class for fstinfo.cc.
-// WARNING: Stand-alone use of this class is not recommended, most code
-// should call directly the relevant library functions: Fst<A>::NumStates,
-// Fst<A>::NumArcs, TestProperties, ...
-template <class A> class FstInfo {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
-
- // When info_type is "short" (or "auto" and not an ExpandedFst)
- // then only minimal info is computed and can be requested.
- FstInfo(const Fst<A> &fst, bool test_properties,
- const string &arc_filter_type = "any",
- string info_type = "auto", bool verify = true)
- : fst_type_(fst.Type()),
- input_symbols_(fst.InputSymbols() ?
- fst.InputSymbols()->Name() : "none"),
- output_symbols_(fst.OutputSymbols() ?
- fst.OutputSymbols()->Name() : "none"),
- nstates_(0), narcs_(0), start_(kNoStateId), nfinal_(0),
- nepsilons_(0), niepsilons_(0), noepsilons_(0),
- naccess_(0), ncoaccess_(0), nconnect_(0), ncc_(0), nscc_(0),
- input_match_type_(MATCH_NONE), output_match_type_(MATCH_NONE),
- input_lookahead_(false), output_lookahead_(false),
- properties_(0), arc_filter_type_(arc_filter_type), long_info_(true) {
- if (info_type == "long") {
- long_info_ = true;
- } else if (info_type == "short") {
- long_info_ = false;
- } else if (info_type == "auto") {
- long_info_ = fst.Properties(kExpanded, false);
- } else {
- FSTERROR() << "Bad info type: " << info_type;
- return;
- }
-
- if (!long_info_)
- return;
-
- // If the FST is not sane, we return.
- if (verify && !Verify(fst)) {
- FSTERROR() << "FstInfo: Verify: FST not well-formed.";
- return;
- }
-
- start_ = fst.Start();
- properties_ = fst.Properties(kFstProperties, test_properties);
-
- for (StateIterator< Fst<A> > siter(fst);
- !siter.Done();
- siter.Next()) {
- ++nstates_;
- StateId s = siter.Value();
- if (fst.Final(s) != Weight::Zero())
- ++nfinal_;
- for (ArcIterator< Fst<A> > aiter(fst, s);
- !aiter.Done();
- aiter.Next()) {
- const A &arc = aiter.Value();
- ++narcs_;
- if (arc.ilabel == 0 && arc.olabel == 0)
- ++nepsilons_;
- if (arc.ilabel == 0)
- ++niepsilons_;
- if (arc.olabel == 0)
- ++noepsilons_;
- }
- }
-
- {
- vector<StateId> cc;
- CcVisitor<Arc> cc_visitor(&cc);
- FifoQueue<StateId> fifo_queue;
- if (arc_filter_type == "any") {
- Visit(fst, &cc_visitor, &fifo_queue);
- } else if (arc_filter_type == "epsilon") {
- Visit(fst, &cc_visitor, &fifo_queue, EpsilonArcFilter<Arc>());
- } else if (arc_filter_type == "iepsilon") {
- Visit(fst, &cc_visitor, &fifo_queue, InputEpsilonArcFilter<Arc>());
- } else if (arc_filter_type == "oepsilon") {
- Visit(fst, &cc_visitor, &fifo_queue, OutputEpsilonArcFilter<Arc>());
- } else {
- FSTERROR() << "Bad arc filter type: " << arc_filter_type;
- return;
- }
-
- for (StateId s = 0; s < cc.size(); ++s) {
- if (cc[s] >= ncc_)
- ncc_ = cc[s] + 1;
- }
- }
-
- {
- vector<StateId> scc;
- vector<bool> access, coaccess;
- uint64 props = 0;
- SccVisitor<Arc> scc_visitor(&scc, &access, &coaccess, &props);
- if (arc_filter_type == "any") {
- DfsVisit(fst, &scc_visitor);
- } else if (arc_filter_type == "epsilon") {
- DfsVisit(fst, &scc_visitor, EpsilonArcFilter<Arc>());
- } else if (arc_filter_type == "iepsilon") {
- DfsVisit(fst, &scc_visitor, InputEpsilonArcFilter<Arc>());
- } else if (arc_filter_type == "oepsilon") {
- DfsVisit(fst, &scc_visitor, OutputEpsilonArcFilter<Arc>());
- } else {
- FSTERROR() << "Bad arc filter type: " << arc_filter_type;
- return;
- }
-
- for (StateId s = 0; s < scc.size(); ++s) {
- if (access[s])
- ++naccess_;
- if (coaccess[s])
- ++ncoaccess_;
- if (access[s] && coaccess[s])
- ++nconnect_;
- if (scc[s] >= nscc_)
- nscc_ = scc[s] + 1;
- }
- }
-
- LookAheadMatcher< Fst<A> > imatcher(fst, MATCH_INPUT);
- input_match_type_ = imatcher.Type(test_properties);
- input_lookahead_ = imatcher.Flags() & kInputLookAheadMatcher;
-
- LookAheadMatcher< Fst<A> > omatcher(fst, MATCH_OUTPUT);
- output_match_type_ = omatcher.Type(test_properties);
- output_lookahead_ = omatcher.Flags() & kOutputLookAheadMatcher;
- }
-
- // Short info
- const string& FstType() const { return fst_type_; }
- const string& ArcType() const { return A::Type(); }
- const string& InputSymbols() const { return input_symbols_; }
- const string& OutputSymbols() const { return output_symbols_; }
- const bool LongInfo() const { return long_info_; }
- const string& ArcFilterType() const { return arc_filter_type_; }
-
- // Long info
- MatchType InputMatchType() const { CheckLong(); return input_match_type_; }
- MatchType OutputMatchType() const { CheckLong(); return output_match_type_; }
- bool InputLookAhead() const { CheckLong(); return input_lookahead_; }
- bool OutputLookAhead() const { CheckLong(); return output_lookahead_; }
- int64 NumStates() const { CheckLong(); return nstates_; }
- int64 NumArcs() const { CheckLong(); return narcs_; }
- int64 Start() const { CheckLong(); return start_; }
- int64 NumFinal() const { CheckLong(); return nfinal_; }
- int64 NumEpsilons() const { CheckLong(); return nepsilons_; }
- int64 NumInputEpsilons() const { CheckLong(); return niepsilons_; }
- int64 NumOutputEpsilons() const { CheckLong(); return noepsilons_; }
- int64 NumAccessible() const { CheckLong(); return naccess_; }
- int64 NumCoAccessible() const { CheckLong(); return ncoaccess_; }
- int64 NumConnected() const { CheckLong(); return nconnect_; }
- int64 NumCc() const { CheckLong(); return ncc_; }
- int64 NumScc() const { CheckLong(); return nscc_; }
- uint64 Properties() const { CheckLong(); return properties_; }
-
- private:
- void CheckLong() const {
- if (!long_info_)
- FSTERROR() << "FstInfo: method only available with long info version";
- }
-
- string fst_type_;
- string input_symbols_;
- string output_symbols_;
- int64 nstates_;
- int64 narcs_;
- int64 start_;
- int64 nfinal_;
- int64 nepsilons_;
- int64 niepsilons_;
- int64 noepsilons_;
- int64 naccess_;
- int64 ncoaccess_;
- int64 nconnect_;
- int64 ncc_;
- int64 nscc_;
- MatchType input_match_type_;
- MatchType output_match_type_;
- bool input_lookahead_;
- bool output_lookahead_;
- uint64 properties_;
- string arc_filter_type_;
- bool long_info_;
- DISALLOW_COPY_AND_ASSIGN(FstInfo);
-};
-
-template <class A>
-void PrintFstInfo(const FstInfo<A> &fstinfo, bool pipe = false) {
- ostream &os = pipe ? cerr : cout;
-
- ios_base::fmtflags old = os.setf(ios::left);
- os.width(50);
- os << "fst type" << fstinfo.FstType() << endl;
- os.width(50);
- os << "arc type" << fstinfo.ArcType() << endl;
- os.width(50);
- os << "input symbol table" << fstinfo.InputSymbols() << endl;
- os.width(50);
- os << "output symbol table" << fstinfo.OutputSymbols() << endl;
-
- if (!fstinfo.LongInfo()) {
- os.setf(old);
- return;
- }
-
- os.width(50);
- os << "# of states" << fstinfo.NumStates() << endl;
- os.width(50);
- os << "# of arcs" << fstinfo.NumArcs() << endl;
- os.width(50);
- os << "initial state" << fstinfo.Start() << endl;
- os.width(50);
- os << "# of final states" << fstinfo.NumFinal() << endl;
- os.width(50);
- os << "# of input/output epsilons" << fstinfo.NumEpsilons() << endl;
- os.width(50);
- os << "# of input epsilons" << fstinfo.NumInputEpsilons() << endl;
- os.width(50);
- os << "# of output epsilons" << fstinfo.NumOutputEpsilons() << endl;
- os.width(50);
-
- string arc_type = "";
- if (fstinfo.ArcFilterType() == "epsilon")
- arc_type = "epsilon ";
- else if (fstinfo.ArcFilterType() == "iepsilon")
- arc_type = "input-epsilon ";
- else if (fstinfo.ArcFilterType() == "oepsilon")
- arc_type = "output-epsilon ";
-
- string accessible_label = "# of " + arc_type + "accessible states";
- os.width(50);
- os << accessible_label << fstinfo.NumAccessible() << endl;
- string coaccessible_label = "# of " + arc_type + "coaccessible states";
- os.width(50);
- os << coaccessible_label << fstinfo.NumCoAccessible() << endl;
- string connected_label = "# of " + arc_type + "connected states";
- os.width(50);
- os << connected_label << fstinfo.NumConnected() << endl;
- string numcc_label = "# of " + arc_type + "connected components";
- os.width(50);
- os << numcc_label << fstinfo.NumCc() << endl;
- string numscc_label = "# of " + arc_type + "strongly conn components";
- os.width(50);
- os << numscc_label << fstinfo.NumScc() << endl;
-
- os.width(50);
- os << "input matcher"
- << (fstinfo.InputMatchType() == MATCH_INPUT ? 'y' :
- fstinfo.InputMatchType() == MATCH_NONE ? 'n' : '?') << endl;
- os.width(50);
- os << "output matcher"
- << (fstinfo.OutputMatchType() == MATCH_OUTPUT ? 'y' :
- fstinfo.OutputMatchType() == MATCH_NONE ? 'n' : '?') << endl;
- os.width(50);
- os << "input lookahead"
- << (fstinfo.InputLookAhead() ? 'y' : 'n') << endl;
- os.width(50);
- os << "output lookahead"
- << (fstinfo.OutputLookAhead() ? 'y' : 'n') << endl;
-
- uint64 prop = 1;
- for (int i = 0; i < 64; ++i, prop <<= 1) {
- if (prop & kBinaryProperties) {
- char value = 'n';
- if (fstinfo.Properties() & prop) value = 'y';
- os.width(50);
- os << PropertyNames[i] << value << endl;
- } else if (prop & kPosTrinaryProperties) {
- char value = '?';
- if (fstinfo.Properties() & prop) value = 'y';
- else if (fstinfo.Properties() & prop << 1) value = 'n';
- os.width(50);
- os << PropertyNames[i] << value << endl;
- }
- }
- os.setf(old);
-}
-
-} // namespace fst
-
-#endif // FST_SCRIPT_INFO_IMPL_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/info.h b/kaldi_io/src/tools/openfst/include/fst/script/info.h
deleted file mode 100644
index f434bd5..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/info.h
+++ /dev/null
@@ -1,48 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_INFO_H_
-#define FST_SCRIPT_INFO_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/info-impl.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const FstClass&, bool, const string&,
- const string&, bool, bool> InfoArgs;
-
-template<class Arc>
-void PrintFstInfo(InfoArgs *args) {
- const Fst<Arc> &fst = *(args->arg1.GetFst<Arc>());
- FstInfo<Arc> fstinfo(fst, args->arg2, args->arg3,
- args->arg4, args->arg5);
- PrintFstInfo(fstinfo, args->arg6);
-
- if (args->arg6)
- fst.Write("");
-}
-
-void PrintFstInfo(const FstClass &f, bool test_properties,
- const string &arc_filter, const string &info_type,
- bool pipe, bool verify);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_INFO_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/intersect.h b/kaldi_io/src/tools/openfst/include/fst/script/intersect.h
deleted file mode 100644
index 8011024..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/intersect.h
+++ /dev/null
@@ -1,65 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_INTERSECT_H_
-#define FST_SCRIPT_INTERSECT_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/intersect.h>
-#include <fst/script/compose.h> // for ComposeOptions, ComposeFilter
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const FstClass&, const FstClass&,
- MutableFstClass*, ComposeFilter> IntersectArgs1;
-
-template<class Arc>
-void Intersect(IntersectArgs1 *args) {
- const Fst<Arc> &ifst1 = *(args->arg1.GetFst<Arc>());
- const Fst<Arc> &ifst2 = *(args->arg2.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg3->GetMutableFst<Arc>();
-
- Intersect(ifst1, ifst2, ofst, args->arg4);
-}
-
-typedef args::Package<const FstClass&, const FstClass&,
- MutableFstClass*, const ComposeOptions &> IntersectArgs2;
-
-template<class Arc>
-void Intersect(IntersectArgs2 *args) {
- const Fst<Arc> &ifst1 = *(args->arg1.GetFst<Arc>());
- const Fst<Arc> &ifst2 = *(args->arg2.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg3->GetMutableFst<Arc>();
-
- Intersect(ifst1, ifst2, ofst, args->arg4);
-}
-
-void Intersect(const FstClass &ifst1, const FstClass &ifst2,
- MutableFstClass *ofst,
- ComposeFilter compose_filter);
-
-void Intersect(const FstClass &ifst, const FstClass &ifst2,
- MutableFstClass *ofst,
- const ComposeOptions &opts = fst::script::ComposeOptions());
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_INTERSECT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/invert.h b/kaldi_io/src/tools/openfst/include/fst/script/invert.h
deleted file mode 100644
index 1befd9f..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/invert.h
+++ /dev/null
@@ -1,43 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_INVERT_H_
-#define FST_SCRIPT_INVERT_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/invert.h>
-
-namespace fst {
-namespace script {
-
-// The following confuses swig, because it has the same arguments
-// as the non-templated version
-#ifndef SWIG
-template<class Arc>
-void Invert(MutableFstClass *fst) {
- MutableFst<Arc> *typed_fst = fst->GetMutableFst<Arc>();
-
- Invert(typed_fst);
-}
-#endif
-
-void Invert(MutableFstClass *fst);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_INVERT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/map.h b/kaldi_io/src/tools/openfst/include/fst/script/map.h
deleted file mode 100644
index 3caaa9f..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/map.h
+++ /dev/null
@@ -1,123 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_MAP_H_
-#define FST_SCRIPT_MAP_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/weight-class.h>
-#include <fst/arc-map.h>
-#include <fst/state-map.h>
-
-namespace fst {
-namespace script {
-
-template <class M>
-Fst<typename M::ToArc> *ArcMap(const Fst<typename M::FromArc> &fst,
- const M &mapper) {
- typedef typename M::ToArc ToArc;
- VectorFst<ToArc> *ofst = new VectorFst<ToArc>;
- ArcMap(fst, ofst, mapper);
- return ofst;
-}
-
-template <class M>
-Fst<typename M::ToArc> *StateMap(const Fst<typename M::FromArc> &fst,
- const M &mapper) {
- typedef typename M::ToArc ToArc;
- VectorFst<ToArc> *ofst = new VectorFst<ToArc>;
- StateMap(fst, ofst, mapper);
- return ofst;
-}
-
-enum MapType { ARC_SUM_MAPPER, IDENTITY_MAPPER, INVERT_MAPPER, PLUS_MAPPER,
- QUANTIZE_MAPPER, RMWEIGHT_MAPPER, SUPERFINAL_MAPPER,
- TIMES_MAPPER, TO_LOG_MAPPER, TO_LOG64_MAPPER, TO_STD_MAPPER };
-
-typedef args::Package<const FstClass&, MapType, float,
- const WeightClass &> MapInnerArgs;
-typedef args::WithReturnValue<FstClass*, MapInnerArgs> MapArgs;
-
-template <class Arc>
-void Map(MapArgs *args) {
- const Fst<Arc> &ifst = *(args->args.arg1.GetFst<Arc>());
- MapType map_type = args->args.arg2;
- float delta = args->args.arg3;
- typename Arc::Weight w = *(args->args.arg4.GetWeight<typename Arc::Weight>());
-
- Fst<Arc> *fst = NULL;
- Fst<LogArc> *lfst = NULL;
- Fst<Log64Arc> *l64fst = NULL;
- Fst<StdArc> *sfst = NULL;
- if (map_type == ARC_SUM_MAPPER) {
- args->retval = new FstClass(*(fst =
- script::StateMap(ifst, ArcSumMapper<Arc>(ifst))));
- } else if (map_type == IDENTITY_MAPPER) {
- args->retval = new FstClass(*(fst =
- script::ArcMap(ifst, IdentityArcMapper<Arc>())));
- } else if (map_type == INVERT_MAPPER) {
- args->retval = new FstClass(*(fst =
- script::ArcMap(ifst, InvertWeightMapper<Arc>())));
- } else if (map_type == PLUS_MAPPER) {
- args->retval = new FstClass(*(fst =
- script::ArcMap(ifst, PlusMapper<Arc>(w))));
- } else if (map_type == QUANTIZE_MAPPER) {
- args->retval = new FstClass(*(fst =
- script::ArcMap(ifst, QuantizeMapper<Arc>(delta))));
- } else if (map_type == RMWEIGHT_MAPPER) {
- args->retval = new FstClass(*(fst =
- script::ArcMap(ifst, RmWeightMapper<Arc>())));
- } else if (map_type == SUPERFINAL_MAPPER) {
- args->retval = new FstClass(*(fst =
- script::ArcMap(ifst, SuperFinalMapper<Arc>())));
- } else if (map_type == TIMES_MAPPER) {
- args->retval = new FstClass(*(fst =
- script::ArcMap(ifst, TimesMapper<Arc>(w))));
- } else if (map_type == TO_LOG_MAPPER) {
- args->retval = new FstClass(*(lfst =
- script::ArcMap(ifst, WeightConvertMapper<Arc, LogArc>())));
- } else if (map_type == TO_LOG64_MAPPER) {
- args->retval = new FstClass(*(l64fst =
- script::ArcMap(ifst, WeightConvertMapper<Arc, Log64Arc>())));
- } else if (map_type == TO_STD_MAPPER) {
- args->retval = new FstClass(*(sfst =
- script::ArcMap(ifst, WeightConvertMapper<Arc, StdArc>())));
- } else {
- FSTERROR() << "Error: unknown/unsupported mapper type: "
- << map_type;
- VectorFst<Arc> *ofst = new VectorFst<Arc>;
- ofst->SetProperties(kError, kError);
- args->retval = new FstClass(*(fst =ofst));
- }
- delete sfst;
- delete l64fst;
- delete lfst;
- delete fst;
-}
-
-
-#ifdef SWIG
-%newobject Map;
-#endif
-FstClass *Map(const FstClass& f, MapType map_type,
- float delta = fst::kDelta,
- const WeightClass &w = fst::script::WeightClass::Zero());
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_MAP_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/minimize.h b/kaldi_io/src/tools/openfst/include/fst/script/minimize.h
deleted file mode 100644
index f250d03..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/minimize.h
+++ /dev/null
@@ -1,45 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_MINIMIZE_H_
-#define FST_SCRIPT_MINIMIZE_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/minimize.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<MutableFstClass*, MutableFstClass*, float> MinimizeArgs;
-
-template<class Arc>
-void Minimize(MinimizeArgs *args) {
- MutableFst<Arc> *ofst1 = args->arg1->GetMutableFst<Arc>();
- MutableFst<Arc> *ofst2 = args->arg2 ? args->arg2->GetMutableFst<Arc>() : 0;
-
- Minimize(ofst1, ofst2, args->arg3);
-}
-
-void Minimize(MutableFstClass *ofst1, MutableFstClass *ofst2 = 0,
- float delta = kDelta);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_MINIMIZE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/print-impl.h b/kaldi_io/src/tools/openfst/include/fst/script/print-impl.h
deleted file mode 100644
index 1433a29..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/print-impl.h
+++ /dev/null
@@ -1,149 +0,0 @@
-// print.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Stand-alone class to print out binary FSTs in the AT&T format,
-// helper class for fstprint.cc
-
-#ifndef FST_SCRIPT_PRINT_IMPL_H_
-#define FST_SCRIPT_PRINT_IMPL_H_
-
-#include <sstream>
-#include <string>
-
-#include <fst/fst.h>
-#include <fst/util.h>
-
-DECLARE_string(fst_field_separator);
-
-namespace fst {
-
-// Print a binary Fst in textual format, helper class for fstprint.cc
-// WARNING: Stand-alone use of this class not recommended, most code should
-// read/write using the binary format which is much more efficient.
-template <class A> class FstPrinter {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
-
- FstPrinter(const Fst<A> &fst,
- const SymbolTable *isyms,
- const SymbolTable *osyms,
- const SymbolTable *ssyms,
- bool accep,
- bool show_weight_one)
- : fst_(fst), isyms_(isyms), osyms_(osyms), ssyms_(ssyms),
- accep_(accep && fst.Properties(kAcceptor, true)), ostrm_(0),
- show_weight_one_(show_weight_one) {}
-
- // Print Fst to an output stream
- void Print(ostream *ostrm, const string &dest) {
- ostrm_ = ostrm;
- dest_ = dest;
- StateId start = fst_.Start();
- if (start == kNoStateId)
- return;
- // initial state first
- PrintState(start);
- for (StateIterator< Fst<A> > siter(fst_);
- !siter.Done();
- siter.Next()) {
- StateId s = siter.Value();
- if (s != start)
- PrintState(s);
- }
- }
-
- private:
- // Maximum line length in text file.
- static const int kLineLen = 8096;
-
- void PrintId(int64 id, const SymbolTable *syms,
- const char *name) const {
- if (syms) {
- string symbol = syms->Find(id);
- if (symbol == "") {
- FSTERROR() << "FstPrinter: Integer " << id
- << " is not mapped to any textual symbol"
- << ", symbol table = " << syms->Name()
- << ", destination = " << dest_;
- symbol = "?";
- }
- *ostrm_ << symbol;
- } else {
- *ostrm_ << id;
- }
- }
-
- void PrintStateId(StateId s) const {
- PrintId(s, ssyms_, "state ID");
- }
-
- void PrintILabel(Label l) const {
- PrintId(l, isyms_, "arc input label");
- }
-
- void PrintOLabel(Label l) const {
- PrintId(l, osyms_, "arc output label");
- }
-
- void PrintState(StateId s) const {
- bool output = false;
- for (ArcIterator< Fst<A> > aiter(fst_, s);
- !aiter.Done();
- aiter.Next()) {
- Arc arc = aiter.Value();
- PrintStateId(s);
- *ostrm_ << FLAGS_fst_field_separator[0];
- PrintStateId(arc.nextstate);
- *ostrm_ << FLAGS_fst_field_separator[0];
- PrintILabel(arc.ilabel);
- if (!accep_) {
- *ostrm_ << FLAGS_fst_field_separator[0];
- PrintOLabel(arc.olabel);
- }
- if (show_weight_one_ || arc.weight != Weight::One())
- *ostrm_ << FLAGS_fst_field_separator[0] << arc.weight;
- *ostrm_ << "\n";
- output = true;
- }
- Weight final = fst_.Final(s);
- if (final != Weight::Zero() || !output) {
- PrintStateId(s);
- if (show_weight_one_ || final != Weight::One()) {
- *ostrm_ << FLAGS_fst_field_separator[0] << final;
- }
- *ostrm_ << "\n";
- }
- }
-
- const Fst<A> &fst_;
- const SymbolTable *isyms_; // ilabel symbol table
- const SymbolTable *osyms_; // olabel symbol table
- const SymbolTable *ssyms_; // slabel symbol table
- bool accep_; // print as acceptor when possible
- ostream *ostrm_; // text FST destination
- string dest_; // text FST destination name
- bool show_weight_one_; // print weights equal to Weight::One()
- DISALLOW_COPY_AND_ASSIGN(FstPrinter);
-};
-
-} // namespace fst
-
-#endif // FST_SCRIPT_PRINT_IMPL_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/print.h b/kaldi_io/src/tools/openfst/include/fst/script/print.h
deleted file mode 100644
index f82b19b..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/print.h
+++ /dev/null
@@ -1,86 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_PRINT_H_
-#define FST_SCRIPT_PRINT_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/print-impl.h>
-
-namespace fst {
-namespace script {
-
-// Note: it is safe to pass these strings as references because
-// this struct is only used to pass them deeper in the call graph.
-// Be sure you understand why this is so before using this struct
-// for anything else!
-struct FstPrinterArgs {
- const FstClass &fst;
- const SymbolTable *isyms;
- const SymbolTable *osyms;
- const SymbolTable *ssyms;
- const bool accept;
- const bool show_weight_one;
- ostream *ostrm;
- const string &dest;
-
- FstPrinterArgs(const FstClass &fst,
- const SymbolTable *isyms,
- const SymbolTable *osyms,
- const SymbolTable *ssyms,
- bool accept,
- bool show_weight_one,
- ostream *ostrm,
- const string &dest) :
- fst(fst), isyms(isyms), osyms(osyms), ssyms(ssyms), accept(accept),
- show_weight_one(show_weight_one), ostrm(ostrm), dest(dest) { }
-};
-
-template<class Arc>
-void PrintFst(FstPrinterArgs *args) {
- const Fst<Arc> &fst = *(args->fst.GetFst<Arc>());
-
- fst::FstPrinter<Arc> fstprinter(fst, args->isyms, args->osyms,
- args->ssyms, args->accept,
- args->show_weight_one);
- fstprinter.Print(args->ostrm, args->dest);
-}
-
-void PrintFst(const FstClass &fst, ostream &ostrm, const string &dest,
- const SymbolTable *isyms,
- const SymbolTable *osyms,
- const SymbolTable *ssyms,
- bool accept, bool show_weight_one);
-
-
-// Below are two printing methods with useful defaults for a few of
-// the fst printer arguments.
-template <class Arc>
-void PrintFst(const Fst<Arc> &fst, ostream &os, const string dest = "",
- const SymbolTable *isyms = NULL,
- const SymbolTable *osyms = NULL,
- const SymbolTable *ssyms = NULL) {
- fst::FstPrinter<Arc> fstprinter(fst, isyms, osyms, ssyms, true, true);
- fstprinter.Print(&os, dest);
-}
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_PRINT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/project.h b/kaldi_io/src/tools/openfst/include/fst/script/project.h
deleted file mode 100644
index 12ee890..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/project.h
+++ /dev/null
@@ -1,43 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_PROJECT_H_
-#define FST_SCRIPT_PROJECT_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/project.h> // for ProjectType
-
-namespace fst {
-namespace script {
-
-typedef args::Package<MutableFstClass*, ProjectType> ProjectArgs;
-
-template<class Arc>
-void Project(ProjectArgs *args) {
- MutableFst<Arc> *ofst = args->arg1->GetMutableFst<Arc>();
-
- Project(ofst, args->arg2);
-}
-
-void Project(MutableFstClass *ofst, ProjectType project_type);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_PROJECT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/prune.h b/kaldi_io/src/tools/openfst/include/fst/script/prune.h
deleted file mode 100644
index 7118ff1..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/prune.h
+++ /dev/null
@@ -1,153 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_PRUNE_H_
-#define FST_SCRIPT_PRUNE_H_
-
-#include <vector>
-using std::vector;
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/weight-class.h>
-#include <fst/prune.h>
-#include <fst/arcfilter.h>
-
-namespace fst {
-namespace script {
-
-struct PruneOptions {
- WeightClass weight_threshold;
- int64 state_threshold;
- const vector<WeightClass> *distance;
- float delta;
-
- explicit PruneOptions(const WeightClass& w, int64 s,
- vector<WeightClass> *d = 0, float e = kDelta)
- : weight_threshold(w),
- state_threshold(s),
- distance(d),
- delta(e) {}
- private:
- PruneOptions(); // disallow
-};
-
-// converts a script::PruneOptions into a fst::PruneOptions.
-// Notes:
-// If the original opts.distance is not NULL, a new distance will be
-// created with new; it's the client's responsibility to delete this.
-
-template<class A>
-fst::PruneOptions<A, AnyArcFilter<A> > ConvertPruneOptions(
- const PruneOptions &opts) {
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- Weight weight_threshold = *(opts.weight_threshold.GetWeight<Weight>());
- StateId state_threshold = opts.state_threshold;
- vector<Weight> *distance = 0;
-
- if (opts.distance) {
- distance = new vector<Weight>(opts.distance->size());
- for (unsigned i = 0; i < opts.distance->size(); ++i) {
- (*distance)[i] = *((*opts.distance)[i].GetWeight<Weight>());
- }
- }
-
- return fst::PruneOptions<A, AnyArcFilter<A> >(
- weight_threshold, state_threshold, AnyArcFilter<A>(), distance,
- opts.delta);
-}
-
-// 1
-typedef args::Package<MutableFstClass *, const PruneOptions &> PruneArgs1;
-
-template<class Arc>
-void Prune(PruneArgs1 *args) {
- MutableFst<Arc> *ofst = args->arg1->GetMutableFst<Arc>();
-
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- fst::PruneOptions<Arc, AnyArcFilter<Arc> > opts =
- ConvertPruneOptions<Arc>(args->arg2);
- Prune(ofst, opts);
- delete opts.distance;
-}
-
-// 2
-typedef args::Package<const FstClass &, MutableFstClass *,
- const PruneOptions &> PruneArgs2;
-
-template<class Arc>
-void Prune(PruneArgs2 *args) {
- const Fst<Arc>& ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
-
- fst::PruneOptions<Arc, AnyArcFilter<Arc> > opts =
- ConvertPruneOptions<Arc>(args->arg3);
- Prune(ifst, ofst, opts);
- delete opts.distance;
-}
-
-// 3
-typedef args::Package<const FstClass &,
- MutableFstClass *,
- const WeightClass &, int64, float> PruneArgs3;
-
-template<class Arc>
-void Prune(PruneArgs3 *args) {
- const Fst<Arc>& ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
- typename Arc::Weight w = *(args->arg3.GetWeight<typename Arc::Weight>());
-
- Prune(ifst, ofst, w, args->arg4, args->arg5);
-}
-
-// 4
-typedef args::Package<MutableFstClass *, const WeightClass&,
- int64, float> PruneArgs4;
-template<class Arc>
-void Prune(PruneArgs4 *args) {
- MutableFst<Arc> *fst = args->arg1->GetMutableFst<Arc>();
- typename Arc::Weight w = *(args->arg2.GetWeight<typename Arc::Weight>());
- Prune(fst, w, args->arg3, args->arg4);
-}
-
-
-// 1
-void Prune(MutableFstClass *fst, const PruneOptions &opts);
-
-// 2
-void Prune(const FstClass &ifst, MutableFstClass *fst,
- const PruneOptions &opts);
-
-// 3
-void Prune(const FstClass &ifst, MutableFstClass *ofst,
- const WeightClass &weight_threshold,
- int64 state_threshold = kNoStateId,
- float delta = kDelta);
-
-// 4
-void Prune(MutableFstClass *fst, const WeightClass& weight_threshold,
- int64 state_threshold, float delta);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_PRUNE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/push.h b/kaldi_io/src/tools/openfst/include/fst/script/push.h
deleted file mode 100644
index cebd655..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/push.h
+++ /dev/null
@@ -1,70 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_PUSH_H_
-#define FST_SCRIPT_PUSH_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/push.h>
-
-namespace fst {
-namespace script {
-
-// 1
-typedef args::Package<MutableFstClass*, ReweightType, float, bool> PushArgs1;
-
-template<class Arc>
-void Push(PushArgs1 *args) {
- MutableFst<Arc> *ofst = args->arg1->GetMutableFst<Arc>();
-
- if (args->arg2 == REWEIGHT_TO_FINAL) {
- fst::Push(ofst, REWEIGHT_TO_FINAL, args->arg3, args->arg4);
- } else {
- fst::Push(ofst, REWEIGHT_TO_INITIAL, args->arg3, args->arg4);
- }
-}
-
-// 2
-typedef args::Package<const FstClass &, MutableFstClass *, uint32,
- ReweightType, float> PushArgs2;
-
-template<class Arc>
-void Push(PushArgs2 *args) {
- const Fst<Arc> &ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
-
- if (args->arg4 == REWEIGHT_TO_FINAL) {
- fst::Push<Arc, REWEIGHT_TO_FINAL>(ifst, ofst, args->arg3, args->arg5);
- } else {
- fst::Push<Arc, REWEIGHT_TO_INITIAL>(ifst, ofst, args->arg3, args->arg5);
- }
-}
-
-// 1
-void Push(MutableFstClass *ofst, ReweightType type, float delta = kDelta,
- bool remove_total_weight = false);
-
-// 2
-void Push(const FstClass &ifst, MutableFstClass *ofst, uint32 flags,
- ReweightType dir, float delta);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_PUSH_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/randequivalent.h b/kaldi_io/src/tools/openfst/include/fst/script/randequivalent.h
deleted file mode 100644
index b929683..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/randequivalent.h
+++ /dev/null
@@ -1,105 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_RANDEQUIVALENT_H_
-#define FST_SCRIPT_RANDEQUIVALENT_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/randgen.h> // for RandArcSelection
-#include <fst/randequivalent.h>
-
-namespace fst {
-namespace script {
-
-// 1
-typedef args::Package<const FstClass&, const FstClass&,
- int32, float, int, int> RandEquivalentInnerArgs1;
-typedef args::WithReturnValue<bool,
- RandEquivalentInnerArgs1> RandEquivalentArgs1;
-
-template<class Arc>
-void RandEquivalent(RandEquivalentArgs1 *args) {
- const Fst<Arc> &fst1 = *(args->args.arg1.GetFst<Arc>());
- const Fst<Arc> &fst2 = *(args->args.arg2.GetFst<Arc>());
-
- args->retval = RandEquivalent(fst1, fst2, args->args.arg3, args->args.arg4,
- args->args.arg5, args->args.arg6);
-}
-
-// 2
-typedef args::Package<const FstClass &, const FstClass &, int32,
- ssize_t, float,
- const RandGenOptions<RandArcSelection> &>
- RandEquivalentInnerArgs2;
-
-typedef args::WithReturnValue<bool,
- RandEquivalentInnerArgs2> RandEquivalentArgs2;
-
-template<class Arc>
-void RandEquivalent(RandEquivalentArgs2 *args) {
- const Fst<Arc> &fst1 = *(args->args.arg1.GetFst<Arc>());
- const Fst<Arc> &fst2 = *(args->args.arg2.GetFst<Arc>());
- const RandGenOptions<RandArcSelection> &opts = args->args.arg6;
- int32 seed = args->args.arg3;
-
- if (opts.arc_selector == UNIFORM_ARC_SELECTOR) {
- UniformArcSelector<Arc> arc_selector(seed);
- RandGenOptions< UniformArcSelector<Arc> >
- ropts(arc_selector, opts.max_length, opts.npath);
-
- args->retval = RandEquivalent(fst1, fst2, args->args.arg4,
- args->args.arg5, ropts);
- } else if (opts.arc_selector == FAST_LOG_PROB_ARC_SELECTOR) {
- FastLogProbArcSelector<Arc> arc_selector(seed);
- RandGenOptions< FastLogProbArcSelector<Arc> >
- ropts(arc_selector, opts.max_length, opts.npath);
-
- args->retval = RandEquivalent(fst1, fst2, args->args.arg4,
- args->args.arg5, ropts);
- } else {
- LogProbArcSelector<Arc> arc_selector(seed);
- RandGenOptions< LogProbArcSelector<Arc> >
- ropts(arc_selector, opts.max_length, opts.npath);
- args->retval = RandEquivalent(fst1, fst2, args->args.arg4,
- args->args.arg5, ropts);
- }
-}
-
-
-// 1
-bool RandEquivalent(const FstClass &fst1,
- const FstClass &fst2,
- int32 seed = time(0),
- ssize_t num_paths = 1,
- float delta = fst::kDelta,
- int path_length = INT_MAX);
-
-// 2
-bool RandEquivalent(const FstClass &fst1,
- const FstClass &fst2,
- int32 seed,
- ssize_t num_paths,
- float delta,
- const fst::RandGenOptions<
- fst::script::RandArcSelection> &opts);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_RANDEQUIVALENT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/randgen.h b/kaldi_io/src/tools/openfst/include/fst/script/randgen.h
deleted file mode 100644
index 817f9c1..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/randgen.h
+++ /dev/null
@@ -1,76 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_RANDGEN_H_
-#define FST_SCRIPT_RANDGEN_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/randgen.h>
-
-namespace fst {
-namespace script {
-
-enum RandArcSelection {
- UNIFORM_ARC_SELECTOR,
- LOG_PROB_ARC_SELECTOR,
- FAST_LOG_PROB_ARC_SELECTOR
-};
-
-typedef args::Package<const FstClass &, MutableFstClass*, int32,
- const RandGenOptions<RandArcSelection> &> RandGenArgs;
-
-template<class Arc>
-void RandGen(RandGenArgs *args) {
- const Fst<Arc> &ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
- int32 seed = args->arg3;
- const RandGenOptions<RandArcSelection> &opts = args->arg4;
-
- if (opts.arc_selector == UNIFORM_ARC_SELECTOR) {
- UniformArcSelector<Arc> arc_selector(seed);
- RandGenOptions< UniformArcSelector<Arc> >
- ropts(arc_selector, opts.max_length,
- opts.npath, opts.weighted);
- RandGen(ifst, ofst, ropts);
- } else if (opts.arc_selector == FAST_LOG_PROB_ARC_SELECTOR) {
- FastLogProbArcSelector<Arc> arc_selector(seed);
- RandGenOptions< FastLogProbArcSelector<Arc> >
- ropts(arc_selector, opts.max_length,
- opts.npath, opts.weighted);
- RandGen(ifst, ofst, ropts);
- } else {
- LogProbArcSelector<Arc> arc_selector(seed);
- RandGenOptions< LogProbArcSelector<Arc> >
- ropts(arc_selector, opts.max_length,
- opts.npath, opts.weighted);
- RandGen(ifst, ofst, ropts);
- }
-}
-
-
-// Client-facing prototype
-void RandGen(const FstClass &ifst, MutableFstClass *ofst, int32 seed = time(0),
- const RandGenOptions<RandArcSelection> &opts =
- fst::RandGenOptions<fst::script::RandArcSelection>(
- fst::script::UNIFORM_ARC_SELECTOR));
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_RANDGEN_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/register.h b/kaldi_io/src/tools/openfst/include/fst/script/register.h
deleted file mode 100644
index 03e0e36..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/register.h
+++ /dev/null
@@ -1,120 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_REGISTER_H_
-#define FST_SCRIPT_REGISTER_H_
-
-#include <string>
-
-#include <fst/generic-register.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/weight-class.h>
-
-// Holds methods and classes responsible for maintaining
-// the register for FstClass arc types.
-
-namespace fst {
-namespace script {
-
-//
-// Registers for reading and converting various kinds of FST classes.
-//
-
-// This class definition is to avoid a nested class definition inside
-// the IORegistration struct.
-template<class Reader, class Creator, class Converter>
-struct FstClassRegEntry {
- Reader reader;
- Creator creator;
- Converter converter;
-
- FstClassRegEntry(Reader r, Creator cr, Converter co) :
- reader(r), creator(cr), converter(co) { }
- FstClassRegEntry() : reader(0), creator(0), converter(0) { }
-};
-
-template<class Reader, class Creator, class Converter>
-class FstClassIORegister
- : public GenericRegister<string,
- FstClassRegEntry<Reader, Creator, Converter>,
- FstClassIORegister<Reader, Creator,
- Converter> > {
- public:
- Reader GetReader(const string &arc_type) const {
- return this->GetEntry(arc_type).reader;
- }
-
- Creator GetCreator(const string &arc_type) const {
- return this->GetEntry(arc_type).creator;
- }
-
- Converter GetConverter(const string &arc_type) const {
- return this->GetEntry(arc_type).converter;
- }
-
- protected:
- virtual string ConvertKeyToSoFilename(
- const string& key) const {
- string legal_type(key);
- ConvertToLegalCSymbol(&legal_type);
-
- return legal_type + "-arc.so";
- }
-};
-
-//
-// Struct containing everything needed to register a particular type
-// of FST class (e.g. a plain FstClass, or a MutableFstClass, etc)
-//
-template<class FstClassType>
-struct IORegistration {
- typedef FstClassType *(*Reader)(istream &stream,
- const FstReadOptions &opts);
-
- typedef FstClassImplBase *(*Creator)();
- typedef FstClassImplBase *(*Converter)(const FstClass &other);
-
- typedef FstClassRegEntry<Reader, Creator, Converter> Entry;
-
- // FST class Register
- typedef FstClassIORegister<Reader, Creator, Converter> Register;
-
- // FST class Register-er
- typedef GenericRegisterer<FstClassIORegister<Reader, Creator, Converter> >
- Registerer;
-};
-
-
-//
-// REGISTRATION MACROS
-//
-
-#define REGISTER_FST_CLASS(Class, Arc) \
- static IORegistration<Class>::Registerer Class ## _ ## Arc ## _registerer( \
- Arc::Type(), \
- IORegistration<Class>::Entry(Class::Read<Arc>, \
- Class::Create<Arc>, \
- Class::Convert<Arc>))
-
-#define REGISTER_FST_CLASSES(Arc) \
- REGISTER_FST_CLASS(FstClass, Arc); \
- REGISTER_FST_CLASS(MutableFstClass, Arc); \
- REGISTER_FST_CLASS(VectorFstClass, Arc);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_REGISTER_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/relabel.h b/kaldi_io/src/tools/openfst/include/fst/script/relabel.h
deleted file mode 100644
index 6bbb4c5..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/relabel.h
+++ /dev/null
@@ -1,102 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_RELABEL_H_
-#define FST_SCRIPT_RELABEL_H_
-
-#include <utility>
-using std::pair; using std::make_pair;
-#include <algorithm>
-#include <vector>
-using std::vector;
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/relabel.h>
-
-namespace fst {
-namespace script {
-
-// 1
-typedef args::Package<MutableFstClass *,
- const SymbolTable *, const SymbolTable *, bool,
- const SymbolTable *, const SymbolTable *,
- bool> RelabelArgs1;
-
-template<class Arc>
-void Relabel(RelabelArgs1 *args) {
- MutableFst<Arc> *ofst = args->arg1->GetMutableFst<Arc>();
-
- Relabel(ofst, args->arg2, args->arg3, args->arg4,
- args->arg5, args->arg6, args->arg7);
-}
-
-// 2
-typedef args::Package<MutableFstClass*,
- const vector<pair<int64, int64> > &,
- const vector<pair<int64, int64> > > RelabelArgs2;
-
-template<class Arc>
-void Relabel(RelabelArgs2 *args) {
- MutableFst<Arc> *ofst = args->arg1->GetMutableFst<Arc>();
-
- // In case int64 is not the same as Arc::Label,
- // copy the reassignments
- typedef typename Arc::Label Label;
-
- vector<pair<Label, Label> > converted_ipairs(args->arg2.size());
- copy(args->arg2.begin(), args->arg2.end(), converted_ipairs.begin());
-
- vector<pair<Label, Label> > converted_opairs(args->arg3.size());
- copy(args->arg3.begin(), args->arg3.end(), converted_opairs.begin());
-
- Relabel(ofst, converted_ipairs, converted_opairs);
-}
-
-// 3
-typedef args::Package<MutableFstClass*, const SymbolTable*,
- const SymbolTable*> RelabelArgs3;
-template<class Arc>
-void Relabel(args::Package<MutableFstClass*, const SymbolTable*,
- const SymbolTable*> *args) {
- MutableFst<Arc> *fst = args->arg1->GetMutableFst<Arc>();
- Relabel(fst, args->arg2, args->arg3);
-}
-
-
-// 1
-void Relabel(MutableFstClass *ofst,
- const SymbolTable *old_isyms, const SymbolTable *relabel_isyms,
- bool attach_new_isyms,
- const SymbolTable *old_osyms, const SymbolTable *relabel_osyms,
- bool attch_new_osyms);
-
-// 2
-void Relabel(MutableFstClass *ofst,
- const vector<pair<int64, int64> > &ipairs,
- const vector<pair<int64, int64> > &opairs);
-
-
-// 3
-void Relabel(MutableFstClass *fst,
- const SymbolTable *new_isymbols,
- const SymbolTable *new_osymbols);
-
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_RELABEL_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/replace.h b/kaldi_io/src/tools/openfst/include/fst/script/replace.h
deleted file mode 100644
index 5eaf5bf..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/replace.h
+++ /dev/null
@@ -1,62 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_REPLACE_H_
-#define FST_SCRIPT_REPLACE_H_
-
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/replace.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const vector<pair<int64, const FstClass *> > &,
- MutableFstClass *, const int64, bool> ReplaceArgs;
-
-template<class Arc>
-void Replace(ReplaceArgs *args) {
- // Now that we know the arc type, we construct a vector of
- // pair<real label, real fst> that the real Replace will use
- const vector<pair<int64, const FstClass *> >& untyped_tuples =
- args->arg1;
-
- vector<pair<typename Arc::Label, const Fst<Arc> *> > fst_tuples(
- untyped_tuples.size());
-
- for (unsigned i = 0; i < untyped_tuples.size(); ++i) {
- fst_tuples[i].first = untyped_tuples[i].first; // convert label
- fst_tuples[i].second = untyped_tuples[i].second->GetFst<Arc>();
- }
-
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
-
- Replace(fst_tuples, ofst, args->arg3, args->arg4);
-}
-
-void Replace(const vector<pair<int64, const FstClass *> > &tuples,
- MutableFstClass *ofst, const int64 &root,
- bool epsilon_on_replace = false);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_REPLACE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/reverse.h b/kaldi_io/src/tools/openfst/include/fst/script/reverse.h
deleted file mode 100644
index 3930875..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/reverse.h
+++ /dev/null
@@ -1,42 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_REVERSE_H_
-#define FST_SCRIPT_REVERSE_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/reverse.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const FstClass &, MutableFstClass *> ReverseArgs;
-
-template<class Arc>
-void Reverse(ReverseArgs *args) {
- const Fst<Arc> &fst1 = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *fst2 = args->arg2->GetMutableFst<Arc>();
-
- Reverse(fst1, fst2);
-}
-
-void Reverse(const FstClass &fst1, MutableFstClass *fst2);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_REVERSE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/reweight.h b/kaldi_io/src/tools/openfst/include/fst/script/reweight.h
deleted file mode 100644
index 7bce839..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/reweight.h
+++ /dev/null
@@ -1,53 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_REWEIGHT_H_
-#define FST_SCRIPT_REWEIGHT_H_
-
-#include <vector>
-using std::vector;
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/weight-class.h>
-#include <fst/reweight.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<MutableFstClass *, const vector<WeightClass> &,
- ReweightType> ReweightArgs;
-
-template<class Arc>
-void Reweight(ReweightArgs *args) {
- MutableFst<Arc> *fst = args->arg1->GetMutableFst<Arc>();
- typedef typename Arc::Weight Weight;
- vector<Weight> potentials(args->arg2.size());
-
- for (unsigned i = 0; i < args->arg2.size(); ++i) {
- potentials[i] = *(args->arg2[i].GetWeight<Weight>());
- }
-
- Reweight(fst, potentials, args->arg3);
-}
-
-void Reweight(MutableFstClass *fst, const vector<WeightClass> &potential,
- ReweightType reweight_type);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_REWEIGHT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/rmepsilon.h b/kaldi_io/src/tools/openfst/include/fst/script/rmepsilon.h
deleted file mode 100644
index 62fed03..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/rmepsilon.h
+++ /dev/null
@@ -1,211 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_RMEPSILON_H_
-#define FST_SCRIPT_RMEPSILON_H_
-
-#include <vector>
-using std::vector;
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/weight-class.h>
-#include <fst/script/shortest-distance.h> // for ShortestDistanceOptions
-#include <fst/rmepsilon.h>
-#include <fst/queue.h>
-
-// the following is necessary, or SWIG complains mightily about
-// shortestdistanceoptions not being defined before being used as a base.
-#ifdef SWIG
-%include "nlp/fst/script/shortest-distance.h"
-#endif
-
-
-namespace fst {
-namespace script {
-
-//
-// OPTIONS
-//
-
-struct RmEpsilonOptions : public fst::script::ShortestDistanceOptions {
- bool connect;
- WeightClass weight_threshold;
- int64 state_threshold;
-
- RmEpsilonOptions(QueueType qt = AUTO_QUEUE, float d = kDelta, bool c = true,
- WeightClass w = fst::script::WeightClass::Zero(),
- int64 n = kNoStateId)
- : ShortestDistanceOptions(qt, EPSILON_ARC_FILTER,
- kNoStateId, d),
- connect(c), weight_threshold(w), state_threshold(n) { }
-};
-
-
-//
-// TEMPLATES
-//
-
-// this function takes care of transforming a script-land RmEpsilonOptions
-// into a lib-land RmEpsilonOptions
-template<class Arc>
-void RmEpsilonHelper(MutableFst<Arc> *fst,
- vector<typename Arc::Weight> *distance,
- const RmEpsilonOptions &opts) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- typename Arc::Weight weight_thresh =
- *(opts.weight_threshold.GetWeight<Weight>());
-
- switch (opts.queue_type) {
- case AUTO_QUEUE: {
- AutoQueue<StateId> queue(*fst, distance, EpsilonArcFilter<Arc>());
- fst::RmEpsilonOptions<Arc, AutoQueue<StateId> > ropts(
- &queue, opts.delta, opts.connect, weight_thresh,
- opts.state_threshold);
- RmEpsilon(fst, distance, ropts);
- break;
- }
- case FIFO_QUEUE: {
- FifoQueue<StateId> queue;
- fst::RmEpsilonOptions<Arc, FifoQueue<StateId> > ropts(
- &queue, opts.delta, opts.connect, weight_thresh,
- opts.state_threshold);
- RmEpsilon(fst, distance, ropts);
- break;
- }
- case LIFO_QUEUE: {
- LifoQueue<StateId> queue;
- fst::RmEpsilonOptions<Arc, LifoQueue<StateId> > ropts(
- &queue, opts.delta, opts.connect, weight_thresh,
- opts.state_threshold);
- RmEpsilon(fst, distance, ropts);
- break;
- }
- case SHORTEST_FIRST_QUEUE: {
- NaturalShortestFirstQueue<StateId, Weight> queue(*distance);
- fst::RmEpsilonOptions<Arc, NaturalShortestFirstQueue<StateId,
- Weight> > ropts(
- &queue, opts.delta, opts.connect, weight_thresh,
- opts.state_threshold);
- RmEpsilon(fst, distance, ropts);
- break;
- }
- case STATE_ORDER_QUEUE: {
- StateOrderQueue<StateId> queue;
- fst::RmEpsilonOptions<Arc, StateOrderQueue<StateId> > ropts(
- &queue, opts.delta, opts.connect, weight_thresh,
- opts.state_threshold);
- RmEpsilon(fst, distance, ropts);
- break;
- }
- case TOP_ORDER_QUEUE: {
- TopOrderQueue<StateId> queue(*fst, EpsilonArcFilter<Arc>());
- fst::RmEpsilonOptions<Arc, TopOrderQueue<StateId> > ropts(
- &queue, opts.delta, opts.connect, weight_thresh,
- opts.state_threshold);
- RmEpsilon(fst, distance, ropts);
- break;
- }
- default:
- FSTERROR() << "Unknown or unsupported queue type: " << opts.queue_type;
- fst->SetProperties(kError, kError);
- }
-}
-
-// 1
-typedef args::Package<const FstClass &, MutableFstClass *,
- bool, const RmEpsilonOptions &> RmEpsilonArgs1;
-
-template<class Arc>
-void RmEpsilon(RmEpsilonArgs1 *args) {
- const Fst<Arc> &ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
- vector<typename Arc::Weight> distance;
- bool reverse = args->arg3;
-
- if (reverse) {
- VectorFst<Arc> rfst;
- Reverse(ifst, &rfst);
- RmEpsilonHelper(&rfst, &distance, args->arg4);
- Reverse(rfst, ofst);
- } else {
- *ofst = ifst;
- }
- RmEpsilonHelper(ofst, &distance, args->arg4);
-}
-
-// 2
-typedef args::Package<MutableFstClass *, bool,
- const WeightClass, int64,
- float> RmEpsilonArgs2;
-
-template<class Arc>
-void RmEpsilon(RmEpsilonArgs2 *args) {
- MutableFst<Arc> *fst = args->arg1->GetMutableFst<Arc>();
- typename Arc::Weight w = *(args->arg3.GetWeight<typename Arc::Weight>());
-
- RmEpsilon(fst, args->arg2, w, args->arg4, args->arg5);
-}
-
-// 3
-typedef args::Package<MutableFstClass *, vector<WeightClass> *,
- const RmEpsilonOptions &> RmEpsilonArgs3;
-
-template<class Arc>
-void RmEpsilon(RmEpsilonArgs3 *args) {
- MutableFst<Arc> *fst = args->arg1->GetMutableFst<Arc>();
- const RmEpsilonOptions &opts = args->arg3;
-
- vector<typename Arc::Weight> weights;
-
- RmEpsilonHelper(fst, &weights, opts);
-
- // Copy the weights back
- args->arg2->resize(weights.size());
- for (unsigned i = 0; i < weights.size(); ++i) {
- (*args->arg2)[i] = WeightClass(weights[i]);
- }
-}
-
-//
-// PROTOTYPES
-//
-
-// 1
-void RmEpsilon(const FstClass &ifst, MutableFstClass *ofst,
- bool reverse = false,
- const RmEpsilonOptions& opts =
- fst::script::RmEpsilonOptions());
-
-// 2
-void RmEpsilon(MutableFstClass *arc, bool connect = true,
- const WeightClass &weight_threshold =
- fst::script::WeightClass::Zero(),
- int64 state_threshold = fst::kNoStateId,
- float delta = fst::kDelta);
-
-// 3
-void RmEpsilon(MutableFstClass *fst, vector<WeightClass> *distance,
- const RmEpsilonOptions &opts);
-
-
-} // namespace script
-} // namespace fst
-
-
-#endif // FST_SCRIPT_RMEPSILON_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/script-impl.h b/kaldi_io/src/tools/openfst/include/fst/script/script-impl.h
deleted file mode 100644
index 452c7c5..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/script-impl.h
+++ /dev/null
@@ -1,206 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-// This file defines the registration mechanism for new operations.
-// These operations are designed to enable scripts to work with FST classes
-// at a high level.
-
-// If you have a new arc type and want these operations to work with FSTs
-// with that arc type, see below for the registration steps
-// you must take.
-
-// These methods are only recommended for use in high-level scripting
-// applications. Most users should use the lower-level templated versions
-// corresponding to these.
-
-// If you have a new arc type you'd like these operations to work with,
-// use the REGISTER_FST_OPERATIONS macro defined in fstcsript.h
-
-// If you have a custom operation you'd like to define, you need four
-// components. In the following, assume you want to create a new operation
-// with the signature
-//
-// void Foo(const FstClass &ifst, MutableFstClass *ofst);
-//
-// You need:
-//
-// 1) A way to bundle the args that your new Foo operation will take, as
-// a single struct. The template structs in arg-packs.h provide a handy
-// way to do this. In Foo's case, that might look like this:
-//
-// typedef args::Package<const FstClass &,
-// MutableFstClass *> FooArgs;
-//
-// Note: this package of args is going to be passed by non-const pointer.
-//
-// 2) A function template that is able to perform Foo, given the args and
-// arc type. Yours might look like this:
-//
-// template<class Arc>
-// void Foo(FooArgs *args) {
-// // Pull out the actual, arc-templated FSTs
-// const Fst<Arc> &ifst = args->arg1.GetFst<Arc>();
-// MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
-//
-// // actually perform foo on ifst and ofst...
-// }
-//
-// 3) a client-facing function for your operation. This would look like
-// the following:
-//
-// void Foo(const FstClass &ifst, MutableFstClass *ofst) {
-// // Check that the arc types of the FSTs match
-// if (!ArcTypesMatch(ifst, *ofst, "Foo")) return;
-// // package the args
-// FooArgs args(ifst, ofst);
-// // Finally, call the operation
-// Apply<Operation<FooArgs> >("Foo", ifst->ArcType(), &args);
-// }
-//
-// The Apply<> function template takes care of the link between 2 and 3,
-// provided you also have:
-//
-// 4) A registration for your new operation, on the arc types you care about.
-// This can be provided easily by the REGISTER_FST_OPERATION macro in
-// operations.h:
-//
-// REGISTER_FST_OPERATION(Foo, StdArc, FooArgs);
-// REGISTER_FST_OPERATION(Foo, MyArc, FooArgs);
-// // .. etc
-//
-//
-// That's it! Now when you call Foo(const FstClass &, MutableFstClass *),
-// it dispatches (in #3) via the Apply<> function to the correct
-// instantiation of the template function in #2.
-//
-
-
-#ifndef FST_SCRIPT_SCRIPT_IMPL_H_
-#define FST_SCRIPT_SCRIPT_IMPL_H_
-
-//
-// This file contains general-purpose templates which are used in the
-// implementation of the operations.
-//
-
-#include <utility>
-using std::pair; using std::make_pair;
-#include <string>
-
-#include <fst/script/fst-class.h>
-#include <fst/generic-register.h>
-#include <fst/script/arg-packs.h>
-
-#include <fst/types.h>
-
-namespace fst {
-namespace script {
-
-//
-// A generic register for operations with various kinds of signatures.
-// Needed since every function signature requires a new registration class.
-// The pair<string, string> is understood to be the operation name and arc
-// type; subclasses (or typedefs) need only provide the operation signature.
-//
-
-template<class OperationSignature>
-class GenericOperationRegister
- : public GenericRegister<pair<string, string>,
- OperationSignature,
- GenericOperationRegister<OperationSignature> > {
- public:
- void RegisterOperation(const string &operation_name,
- const string &arc_type,
- OperationSignature op) {
- this->SetEntry(make_pair(operation_name, arc_type), op);
- }
-
- OperationSignature GetOperation(
- const string &operation_name, const string &arc_type) {
- return this->GetEntry(make_pair(operation_name, arc_type));
- }
-
- protected:
- virtual string ConvertKeyToSoFilename(
- const pair<string, string>& key) const {
- // Just use the old-style FST for now.
- string legal_type(key.second); // the arc type
- ConvertToLegalCSymbol(&legal_type);
-
- return legal_type + "-arc.so";
- }
-};
-
-
-// Operation package - everything you need to register a new type of operation
-
-// The ArgPack should be the type that's passed into each wrapped function -
-// for instance, it might be a struct containing all the args.
-// It's always passed by pointer, so const members should be used to enforce
-// constness where it's needed. Return values should be implemented as a
-// member of ArgPack as well.
-
-template<class ArgPack>
-struct Operation {
- typedef ArgPack Args;
- typedef void (*OpType)(ArgPack *args);
-
- // The register (hash) type
- typedef GenericOperationRegister<OpType> Register;
-
- // The register-er type
- typedef GenericRegisterer<Register> Registerer;
-};
-
-
-// Macro for registering new types of operations.
-
-#define REGISTER_FST_OPERATION(Op, Arc, ArgPack) \
- static fst::script::Operation<ArgPack>::Registerer \
- arc_dispatched_operation_ ## ArgPack ## Op ## Arc ## _registerer( \
- make_pair(#Op, Arc::Type()), Op<Arc>)
-
-
-//
-// Template function to apply an operation by name
-//
-
-template<class OpReg>
-void Apply(const string &op_name, const string &arc_type,
- typename OpReg::Args *args) {
- typename OpReg::Register *reg = OpReg::Register::GetRegister();
-
- typename OpReg::OpType op = reg->GetOperation(op_name, arc_type);
-
- if (op == 0) {
- FSTERROR() << "No operation found for \"" << op_name << "\" on "
- << "arc type " << arc_type;
- return;
- }
-
- op(args);
-}
-
-
-// Helper that logs to ERROR if the arc types of a and b don't match.
-// The op_name is also printed.
-bool ArcTypesMatch(const FstClass &a, const FstClass &b,
- const string &op_name);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_SCRIPT_IMPL_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/shortest-distance.h b/kaldi_io/src/tools/openfst/include/fst/script/shortest-distance.h
deleted file mode 100644
index 5fc2976..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/shortest-distance.h
+++ /dev/null
@@ -1,250 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_SHORTEST_DISTANCE_H_
-#define FST_SCRIPT_SHORTEST_DISTANCE_H_
-
-#include <vector>
-using std::vector;
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/weight-class.h>
-#include <fst/script/prune.h> // for ArcFilterType
-#include <fst/queue.h> // for QueueType
-#include <fst/shortest-distance.h>
-
-namespace fst {
-namespace script {
-
-enum ArcFilterType { ANY_ARC_FILTER, EPSILON_ARC_FILTER,
- INPUT_EPSILON_ARC_FILTER, OUTPUT_EPSILON_ARC_FILTER };
-
-// See nlp/fst/lib/shortest-distance.h for the template options class
-// that this one shadows
-struct ShortestDistanceOptions {
- const QueueType queue_type;
- const ArcFilterType arc_filter_type;
- const int64 source;
- const float delta;
- const bool first_path;
-
- ShortestDistanceOptions(QueueType qt, ArcFilterType aft, int64 s,
- float d)
- : queue_type(qt), arc_filter_type(aft), source(s), delta(d),
- first_path(false) { }
-};
-
-
-
-// 1
-typedef args::Package<const FstClass &, vector<WeightClass> *,
- const ShortestDistanceOptions &> ShortestDistanceArgs1;
-
-template<class Queue, class Arc, class ArcFilter>
-struct QueueConstructor {
- // template<class Arc, class ArcFilter>
- static Queue *Construct(const Fst<Arc> &,
- const vector<typename Arc::Weight> *) {
- return new Queue();
- }
-};
-
-// Specializations to deal with AutoQueue, NaturalShortestFirstQueue,
-// and TopOrderQueue's different constructors
-template<class Arc, class ArcFilter>
-struct QueueConstructor<AutoQueue<typename Arc::StateId>, Arc, ArcFilter> {
- // template<class Arc, class ArcFilter>
- static AutoQueue<typename Arc::StateId> *Construct(
- const Fst<Arc> &fst,
- const vector<typename Arc::Weight> *distance) {
- return new AutoQueue<typename Arc::StateId>(fst, distance, ArcFilter());
- }
-};
-
-template<class Arc, class ArcFilter>
-struct QueueConstructor<NaturalShortestFirstQueue<typename Arc::StateId,
- typename Arc::Weight>,
- Arc, ArcFilter> {
- // template<class Arc, class ArcFilter>
- static NaturalShortestFirstQueue<typename Arc::StateId, typename Arc::Weight>
- *Construct(const Fst<Arc> &fst,
- const vector<typename Arc::Weight> *distance) {
- return new NaturalShortestFirstQueue<typename Arc::StateId,
- typename Arc::Weight>(*distance);
- }
-};
-
-template<class Arc, class ArcFilter>
-struct QueueConstructor<TopOrderQueue<typename Arc::StateId>, Arc, ArcFilter> {
- // template<class Arc, class ArcFilter>
- static TopOrderQueue<typename Arc::StateId> *Construct(
- const Fst<Arc> &fst, const vector<typename Arc::Weight> *weights) {
- return new TopOrderQueue<typename Arc::StateId>(fst, ArcFilter());
- }
-};
-
-
-template<class Arc, class Queue>
-void ShortestDistanceHelper(ShortestDistanceArgs1 *args) {
- const Fst<Arc> &fst = *(args->arg1.GetFst<Arc>());
- const ShortestDistanceOptions &opts = args->arg3;
-
- vector<typename Arc::Weight> weights;
-
- switch (opts.arc_filter_type) {
- case ANY_ARC_FILTER: {
- Queue *queue =
- QueueConstructor<Queue, Arc, AnyArcFilter<Arc> >::Construct(
- fst, &weights);
- fst::ShortestDistanceOptions<Arc, Queue, AnyArcFilter<Arc> > sdopts(
- queue, AnyArcFilter<Arc>(), opts.source, opts.delta);
- ShortestDistance(fst, &weights, sdopts);
- delete queue;
- break;
- }
- case EPSILON_ARC_FILTER: {
- Queue *queue =
- QueueConstructor<Queue, Arc, AnyArcFilter<Arc> >::Construct(
- fst, &weights);
- fst::ShortestDistanceOptions<Arc, Queue,
- EpsilonArcFilter<Arc> > sdopts(
- queue, EpsilonArcFilter<Arc>(), opts.source, opts.delta);
- ShortestDistance(fst, &weights, sdopts);
- delete queue;
- break;
- }
- case INPUT_EPSILON_ARC_FILTER: {
- Queue *queue =
- QueueConstructor<Queue, Arc, InputEpsilonArcFilter<Arc> >::Construct(
- fst, &weights);
- fst::ShortestDistanceOptions<Arc, Queue,
- InputEpsilonArcFilter<Arc> > sdopts(
- queue, InputEpsilonArcFilter<Arc>(), opts.source, opts.delta);
- ShortestDistance(fst, &weights, sdopts);
- delete queue;
- break;
- }
- case OUTPUT_EPSILON_ARC_FILTER: {
- Queue *queue =
- QueueConstructor<Queue, Arc,
- OutputEpsilonArcFilter<Arc> >::Construct(
- fst, &weights);
- fst::ShortestDistanceOptions<Arc, Queue,
- OutputEpsilonArcFilter<Arc> > sdopts(
- queue, OutputEpsilonArcFilter<Arc>(), opts.source, opts.delta);
- ShortestDistance(fst, &weights, sdopts);
- delete queue;
- break;
- }
- }
-
- // Copy the weights back
- args->arg2->resize(weights.size());
- for (unsigned i = 0; i < weights.size(); ++i) {
- (*args->arg2)[i] = WeightClass(weights[i]);
- }
-}
-
-template<class Arc>
-void ShortestDistance(ShortestDistanceArgs1 *args) {
- const ShortestDistanceOptions &opts = args->arg3;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- // Must consider (opts.queue_type x opts.filter_type) options
- switch (opts.queue_type) {
- default:
- FSTERROR() << "Unknown queue type." << opts.queue_type;
-
- case AUTO_QUEUE:
- ShortestDistanceHelper<Arc, AutoQueue<StateId> >(args);
- return;
-
- case FIFO_QUEUE:
- ShortestDistanceHelper<Arc, FifoQueue<StateId> >(args);
- return;
-
- case LIFO_QUEUE:
- ShortestDistanceHelper<Arc, LifoQueue<StateId> >(args);
- return;
-
- case SHORTEST_FIRST_QUEUE:
- ShortestDistanceHelper<Arc,
- NaturalShortestFirstQueue<StateId, Weight> >(args);
- return;
-
- case STATE_ORDER_QUEUE:
- ShortestDistanceHelper<Arc, StateOrderQueue<StateId> >(args);
- return;
-
- case TOP_ORDER_QUEUE:
- ShortestDistanceHelper<Arc, TopOrderQueue<StateId> >(args);
- return;
- }
-}
-
-// 2
-typedef args::Package<const FstClass&, vector<WeightClass>*,
- bool, double> ShortestDistanceArgs2;
-
-template<class Arc>
-void ShortestDistance(ShortestDistanceArgs2 *args) {
- const Fst<Arc> &fst = *(args->arg1.GetFst<Arc>());
- vector<typename Arc::Weight> distance;
-
- ShortestDistance(fst, &distance, args->arg3, args->arg4);
-
- // convert the typed weights back into weightclass
- vector<WeightClass> *retval = args->arg2;
- retval->resize(distance.size());
-
- for (unsigned i = 0; i < distance.size(); ++i) {
- (*retval)[i] = WeightClass(distance[i]);
- }
-}
-
-// 3
-typedef args::WithReturnValue<WeightClass,
- const FstClass &> ShortestDistanceArgs3;
-
-template<class Arc>
-void ShortestDistance(ShortestDistanceArgs3 *args) {
- const Fst<Arc> &fst = *(args->args.GetFst<Arc>());
-
- args->retval = WeightClass(ShortestDistance(fst));
-}
-
-
-// 1
-void ShortestDistance(const FstClass &fst, vector<WeightClass> *distance,
- const ShortestDistanceOptions &opts);
-
-// 2
-void ShortestDistance(const FstClass &ifst, vector<WeightClass> *distance,
- bool reverse = false, double delta = fst::kDelta);
-
-#ifndef SWIG
-// 3
-WeightClass ShortestDistance(const FstClass &ifst);
-#endif
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_SHORTEST_DISTANCE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/shortest-path.h b/kaldi_io/src/tools/openfst/include/fst/script/shortest-path.h
deleted file mode 100644
index b3a3eb9..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/shortest-path.h
+++ /dev/null
@@ -1,190 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_SHORTEST_PATH_H_
-#define FST_SCRIPT_SHORTEST_PATH_H_
-
-#include <vector>
-using std::vector;
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/script/weight-class.h>
-#include <fst/shortest-path.h>
-#include <fst/script/shortest-distance.h> // for ShortestDistanceOptions
-
-namespace fst {
-namespace script {
-
-struct ShortestPathOptions
- : public fst::script::ShortestDistanceOptions {
- const size_t nshortest;
- const bool unique;
- const bool has_distance;
- const bool first_path;
- const WeightClass weight_threshold;
- const int64 state_threshold;
-
- ShortestPathOptions(QueueType qt, size_t n = 1,
- bool u = false, bool hasdist = false,
- float d = fst::kDelta, bool fp = false,
- WeightClass w = fst::script::WeightClass::Zero(),
- int64 s = fst::kNoStateId)
- : ShortestDistanceOptions(qt, ANY_ARC_FILTER, kNoStateId, d),
- nshortest(n), unique(u), has_distance(hasdist), first_path(fp),
- weight_threshold(w), state_threshold(s) { }
-};
-
-typedef args::Package<const FstClass &, MutableFstClass *,
- vector<WeightClass> *, const ShortestPathOptions &>
- ShortestPathArgs1;
-
-
-template<class Arc>
-void ShortestPath(ShortestPathArgs1 *args) {
- const Fst<Arc> &ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
- const ShortestPathOptions &opts = args->arg4;
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
- typedef AnyArcFilter<Arc> ArcFilter;
-
- vector<typename Arc::Weight> weights;
- typename Arc::Weight weight_threshold =
- *(opts.weight_threshold.GetWeight<Weight>());
-
- switch (opts.queue_type) {
- case AUTO_QUEUE: {
- typedef AutoQueue<StateId> Queue;
- Queue *queue = QueueConstructor<Queue, Arc,
- ArcFilter>::Construct(ifst, &weights);
- fst::ShortestPathOptions<Arc, Queue, ArcFilter> spopts(
- queue, ArcFilter(), opts.nshortest, opts.unique,
- opts.has_distance, opts.delta, opts.first_path,
- weight_threshold, opts.state_threshold);
- ShortestPath(ifst, ofst, &weights, spopts);
- delete queue;
- return;
- }
- case FIFO_QUEUE: {
- typedef FifoQueue<StateId> Queue;
- Queue *queue = QueueConstructor<Queue, Arc,
- ArcFilter>::Construct(ifst, &weights);
- fst::ShortestPathOptions<Arc, Queue, ArcFilter> spopts(
- queue, ArcFilter(), opts.nshortest, opts.unique,
- opts.has_distance, opts.delta, opts.first_path,
- weight_threshold, opts.state_threshold);
- ShortestPath(ifst, ofst, &weights, spopts);
- delete queue;
- return;
- }
- case LIFO_QUEUE: {
- typedef LifoQueue<StateId> Queue;
- Queue *queue = QueueConstructor<Queue, Arc,
- ArcFilter >::Construct(ifst, &weights);
- fst::ShortestPathOptions<Arc, Queue, ArcFilter> spopts(
- queue, ArcFilter(), opts.nshortest, opts.unique,
- opts.has_distance, opts.delta, opts.first_path,
- weight_threshold, opts.state_threshold);
- ShortestPath(ifst, ofst, &weights, spopts);
- delete queue;
- return;
- }
- case SHORTEST_FIRST_QUEUE: {
- typedef NaturalShortestFirstQueue<StateId, Weight> Queue;
- Queue *queue = QueueConstructor<Queue, Arc,
- ArcFilter>::Construct(ifst, &weights);
- fst::ShortestPathOptions<Arc, Queue, ArcFilter> spopts(
- queue, ArcFilter(), opts.nshortest, opts.unique,
- opts.has_distance, opts.delta, opts.first_path,
- weight_threshold, opts.state_threshold);
- ShortestPath(ifst, ofst, &weights, spopts);
- delete queue;
- return;
- }
- case STATE_ORDER_QUEUE: {
- typedef StateOrderQueue<StateId> Queue;
- Queue *queue = QueueConstructor<Queue, Arc,
- ArcFilter>::Construct(ifst, &weights);
- fst::ShortestPathOptions<Arc, Queue, ArcFilter> spopts(
- queue, ArcFilter(), opts.nshortest, opts.unique,
- opts.has_distance, opts.delta, opts.first_path,
- weight_threshold, opts.state_threshold);
- ShortestPath(ifst, ofst, &weights, spopts);
- delete queue;
- return;
- }
- case TOP_ORDER_QUEUE: {
- typedef TopOrderQueue<StateId> Queue;
- Queue *queue = QueueConstructor<Queue, Arc,
- ArcFilter>::Construct(ifst, &weights);
- fst::ShortestPathOptions<Arc, Queue, ArcFilter> spopts(
- queue, ArcFilter(), opts.nshortest, opts.unique,
- opts.has_distance, opts.delta, opts.first_path,
- weight_threshold, opts.state_threshold);
- ShortestPath(ifst, ofst, &weights, spopts);
- delete queue;
- return;
- }
- default:
- FSTERROR() << "Unknown queue type: " << opts.queue_type;
- ofst->SetProperties(kError, kError);
- }
-
- // Copy the weights back
- args->arg3->resize(weights.size());
- for (unsigned i = 0; i < weights.size(); ++i) {
- (*args->arg3)[i] = WeightClass(weights[i]);
- }
-}
-
-// 2
-typedef args::Package<const FstClass &, MutableFstClass *,
- size_t, bool, bool, WeightClass,
- int64> ShortestPathArgs2;
-
-template<class Arc>
-void ShortestPath(ShortestPathArgs2 *args) {
- const Fst<Arc> &ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
- typename Arc::Weight weight_threshold =
- *(args->arg6.GetWeight<typename Arc::Weight>());
-
- ShortestPath(ifst, ofst, args->arg3, args->arg4, args->arg5,
- weight_threshold, args->arg7);
-}
-
-
-// 1
-void ShortestPath(const FstClass &ifst, MutableFstClass *ofst,
- vector<WeightClass> *distance,
- const ShortestPathOptions &opts);
-
-
-// 2
-void ShortestPath(const FstClass &ifst, MutableFstClass *ofst,
- size_t n = 1, bool unique = false,
- bool first_path = false,
- WeightClass weight_threshold =
- fst::script::WeightClass::Zero(),
- int64 state_threshold = fst::kNoStateId);
-
-} // namespace script
-} // namespace fst
-
-
-
-#endif // FST_SCRIPT_SHORTEST_PATH_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/symbols.h b/kaldi_io/src/tools/openfst/include/fst/script/symbols.h
deleted file mode 100644
index 927600a..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/symbols.h
+++ /dev/null
@@ -1,20 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_SYMBOLS_H_
-#define FST_SCRIPT_SYMBOLS_H_
-
-#endif // FST_SCRIPT_SYMBOLS_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/synchronize.h b/kaldi_io/src/tools/openfst/include/fst/script/synchronize.h
deleted file mode 100644
index 3c0c905..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/synchronize.h
+++ /dev/null
@@ -1,42 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_SYNCHRONIZE_H_
-#define FST_SCRIPT_SYNCHRONIZE_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/synchronize.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<const FstClass &, MutableFstClass *> SynchronizeArgs;
-
-template<class Arc>
-void Synchronize(SynchronizeArgs *args) {
- const Fst<Arc> &ifst = *(args->arg1.GetFst<Arc>());
- MutableFst<Arc> *ofst = args->arg2->GetMutableFst<Arc>();
-
- Synchronize(ifst, ofst);
-}
-
-void Synchronize(const FstClass &ifst, MutableFstClass *ofst);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_SYNCHRONIZE_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/text-io.h b/kaldi_io/src/tools/openfst/include/fst/script/text-io.h
deleted file mode 100644
index d97a007..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/text-io.h
+++ /dev/null
@@ -1,51 +0,0 @@
-// text-io.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-// Modified: [email protected] (Jake Ratkiewicz) to work with generic WeightClass
-//
-// \file
-// Utilities for reading and writing textual strings representing
-// states, labels, and weights and files specifying label-label pairs
-// and potentials (state-weight pairs).
-//
-
-#ifndef FST_SCRIPT_TEXT_IO_H__
-#define FST_SCRIPT_TEXT_IO_H__
-
-#include <string>
-#include <vector>
-using std::vector;
-
-
-#include <iostream>
-#include <fstream>
-#include <sstream>
-#include <fst/script/weight-class.h>
-
-namespace fst {
-namespace script {
-
-bool ReadPotentials(const string &weight_type,
- const string& filename,
- vector<WeightClass>* potential);
-
-bool WritePotentials(const string& filename,
- const vector<WeightClass>& potential);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_TEXT_IO_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/topsort.h b/kaldi_io/src/tools/openfst/include/fst/script/topsort.h
deleted file mode 100644
index 4e27e48..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/topsort.h
+++ /dev/null
@@ -1,40 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_TOPSORT_H_
-#define FST_SCRIPT_TOPSORT_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/topsort.h>
-
-namespace fst {
-namespace script {
-
-typedef args::WithReturnValue<bool, MutableFstClass*> TopSortArgs;
-
-template<class Arc>
-void TopSort(TopSortArgs *args) {
- MutableFst<Arc> *fst = args->args->GetMutableFst<Arc>();
- args->retval = TopSort(fst);
-}
-
-bool TopSort(MutableFstClass *fst);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_TOPSORT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/union.h b/kaldi_io/src/tools/openfst/include/fst/script/union.h
deleted file mode 100644
index 780e484..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/union.h
+++ /dev/null
@@ -1,42 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-#ifndef FST_SCRIPT_UNION_H_
-#define FST_SCRIPT_UNION_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/union.h>
-
-namespace fst {
-namespace script {
-
-typedef args::Package<MutableFstClass *, const FstClass &> UnionArgs;
-
-template<class Arc>
-void Union(UnionArgs *args) {
- MutableFst<Arc> *fst1 = args->arg1->GetMutableFst<Arc>();
- const Fst<Arc> &fst2 = *(args->arg2.GetFst<Arc>());
-
- Union(fst1, fst2);
-}
-
-void Union(MutableFstClass *fst1, const FstClass &fst2);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_UNION_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/verify.h b/kaldi_io/src/tools/openfst/include/fst/script/verify.h
deleted file mode 100644
index 6904003..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/verify.h
+++ /dev/null
@@ -1,40 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jeffrey Sorensen)
-
-#ifndef FST_SCRIPT_VERIFY_H_
-#define FST_SCRIPT_VERIFY_H_
-
-#include <fst/script/arg-packs.h>
-#include <fst/script/fst-class.h>
-#include <fst/verify.h>
-
-namespace fst {
-namespace script {
-
-typedef args::WithReturnValue<bool, const FstClass *> VerifyArgs;
-
-template<class Arc>
-void Verify(VerifyArgs *args) {
- const Fst<Arc> *fst = args->args->GetFst<Arc>();
- args->retval = Verify(*fst);
-}
-
-bool Verify(const FstClass &fst1);
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_VERIFY_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/script/weight-class.h b/kaldi_io/src/tools/openfst/include/fst/script/weight-class.h
deleted file mode 100644
index b9f7ddf..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/script/weight-class.h
+++ /dev/null
@@ -1,223 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jake Ratkiewicz)
-
-// Represents a generic weight in an FST -- that is, represents a specific
-// type of weight underneath while hiding that type from a client.
-
-
-#ifndef FST_SCRIPT_WEIGHT_CLASS_H_
-#define FST_SCRIPT_WEIGHT_CLASS_H_
-
-#include <string>
-
-#include <fst/generic-register.h>
-#include <fst/util.h>
-
-namespace fst {
-namespace script {
-
-class WeightImplBase {
- public:
- virtual WeightImplBase *Copy() const = 0;
- virtual void Print(ostream *o) const = 0;
- virtual const string &Type() const = 0;
- virtual string to_string() const = 0;
- virtual bool operator == (const WeightImplBase &other) const = 0;
- virtual ~WeightImplBase() { }
-};
-
-template<class W>
-struct WeightClassImpl : public WeightImplBase {
- W weight;
-
- explicit WeightClassImpl(const W& weight) : weight(weight) { }
-
- virtual WeightClassImpl<W> *Copy() const {
- return new WeightClassImpl<W>(weight);
- }
-
- virtual const string &Type() const { return W::Type(); }
-
- virtual void Print(ostream *o) const {
- *o << weight;
- }
-
- virtual string to_string() const {
- string str;
- WeightToStr(weight, &str);
- return str;
- }
-
- virtual bool operator == (const WeightImplBase &other) const {
- if (Type() != other.Type()) {
- return false;
- } else {
- const WeightClassImpl<W> *typed_other =
- static_cast<const WeightClassImpl<W> *>(&other);
-
- return typed_other->weight == weight;
- }
- }
-};
-
-
-class WeightClass {
- public:
- WeightClass() : element_type_(ZERO), impl_(0) { }
-
- template<class W>
- explicit WeightClass(const W& weight)
- : element_type_(OTHER), impl_(new WeightClassImpl<W>(weight)) { }
-
- WeightClass(const string &weight_type, const string &weight_str);
-
- WeightClass(const WeightClass &other) :
- element_type_(other.element_type_),
- impl_(other.impl_ ? other.impl_->Copy() : 0) { }
-
- WeightClass &operator = (const WeightClass &other) {
- if (impl_) delete impl_;
- impl_ = other.impl_ ? other.impl_->Copy() : 0;
- element_type_ = other.element_type_;
- return *this;
- }
-
- template<class W>
- const W* GetWeight() const;
-
- string to_string() const {
- switch (element_type_) {
- case ZERO:
- return "ZERO";
- case ONE:
- return "ONE";
- default:
- case OTHER:
- return impl_->to_string();
- }
- }
-
- bool operator == (const WeightClass &other) const {
- return element_type_ == other.element_type_ &&
- ((impl_ && other.impl_ && (*impl_ == *other.impl_)) ||
- (impl_ == 0 && other.impl_ == 0));
- }
-
- static const WeightClass &Zero() {
- static WeightClass w(ZERO);
-
- return w;
- }
-
- static const WeightClass &One() {
- static WeightClass w(ONE);
-
- return w;
- }
-
- const string &Type() const {
- if (impl_) return impl_->Type();
- static const string no_type = "none";
- return no_type;
- }
-
-
- ~WeightClass() { if (impl_) delete impl_; }
- private:
- enum ElementType { ZERO, ONE, OTHER };
- ElementType element_type_;
-
- WeightImplBase *impl_;
-
- explicit WeightClass(ElementType et) : element_type_(et), impl_(0) { }
-
- friend ostream &operator << (ostream &o, const WeightClass &c);
-};
-
-template<class W>
-const W* WeightClass::GetWeight() const {
- // We need to store zero and one as statics, because the weight type
- // W might return them as temporaries. We're returning a pointer,
- // and it won't do to get the address of a temporary.
- static const W zero = W::Zero();
- static const W one = W::One();
-
- if (element_type_ == ZERO) {
- return &zero;
- } else if (element_type_ == ONE) {
- return &one;
- } else {
- if (W::Type() != impl_->Type()) {
- return NULL;
- } else {
- WeightClassImpl<W> *typed_impl =
- static_cast<WeightClassImpl<W> *>(impl_);
- return &typed_impl->weight;
- }
- }
-}
-
-//
-// Registration for generic weight types.
-//
-
-typedef WeightImplBase* (*StrToWeightImplBaseT)(const string &str,
- const string &src,
- size_t nline);
-
-template<class W>
-WeightImplBase* StrToWeightImplBase(const string &str,
- const string &src, size_t nline) {
- return new WeightClassImpl<W>(StrToWeight<W>(str, src, nline));
-}
-
-// The following confuses swig, and doesn't need to be wrapped anyway.
-#ifndef SWIG
-ostream& operator << (ostream &o, const WeightClass &c);
-
-class WeightClassRegister : public GenericRegister<string,
- StrToWeightImplBaseT,
- WeightClassRegister> {
- protected:
- virtual string ConvertKeyToSoFilename(const string &key) const {
- return key + ".so";
- }
-};
-
-typedef GenericRegisterer<WeightClassRegister> WeightClassRegisterer;
-#endif
-
-// internal version, needs to be called by wrapper in order for
-// macro args to expand
-#define REGISTER_FST_WEIGHT__(Weight, line) \
- static WeightClassRegisterer weight_registerer ## _ ## line( \
- Weight::Type(), \
- StrToWeightImplBase<Weight>)
-
-// This layer is where __FILE__ and __LINE__ are expanded
-#define REGISTER_FST_WEIGHT_EXPANDER(Weight, line) \
- REGISTER_FST_WEIGHT__(Weight, line)
-
-//
-// Macro for registering new weight types. Clients call this.
-//
-#define REGISTER_FST_WEIGHT(Weight) \
- REGISTER_FST_WEIGHT_EXPANDER(Weight, __LINE__)
-
-} // namespace script
-} // namespace fst
-
-#endif // FST_SCRIPT_WEIGHT_CLASS_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/shortest-distance.h b/kaldi_io/src/tools/openfst/include/fst/shortest-distance.h
deleted file mode 100644
index ec47a14..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/shortest-distance.h
+++ /dev/null
@@ -1,348 +0,0 @@
-// shortest-distance.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Functions and classes to find shortest distance in an FST.
-
-#ifndef FST_LIB_SHORTEST_DISTANCE_H__
-#define FST_LIB_SHORTEST_DISTANCE_H__
-
-#include <deque>
-using std::deque;
-#include <vector>
-using std::vector;
-
-#include <fst/arcfilter.h>
-#include <fst/cache.h>
-#include <fst/queue.h>
-#include <fst/reverse.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-template <class Arc, class Queue, class ArcFilter>
-struct ShortestDistanceOptions {
- typedef typename Arc::StateId StateId;
-
- Queue *state_queue; // Queue discipline used; owned by caller
- ArcFilter arc_filter; // Arc filter (e.g., limit to only epsilon graph)
- StateId source; // If kNoStateId, use the Fst's initial state
- float delta; // Determines the degree of convergence required
- bool first_path; // For a semiring with the path property (o.w.
- // undefined), compute the shortest-distances along
- // along the first path to a final state found
- // by the algorithm. That path is the shortest-path
- // only if the FST has a unique final state (or all
- // the final states have the same final weight), the
- // queue discipline is shortest-first and all the
- // weights in the FST are between One() and Zero()
- // according to NaturalLess.
-
- ShortestDistanceOptions(Queue *q, ArcFilter filt, StateId src = kNoStateId,
- float d = kDelta)
- : state_queue(q), arc_filter(filt), source(src), delta(d),
- first_path(false) {}
-};
-
-
-// Computation state of the shortest-distance algorithm. Reusable
-// information is maintained across calls to member function
-// ShortestDistance(source) when 'retain' is true for improved
-// efficiency when calling multiple times from different source states
-// (e.g., in epsilon removal). Contrary to usual conventions, 'fst'
-// may not be freed before this class. Vector 'distance' should not be
-// modified by the user between these calls.
-// The Error() method returns true if an error was encountered.
-template<class Arc, class Queue, class ArcFilter>
-class ShortestDistanceState {
- public:
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- ShortestDistanceState(
- const Fst<Arc> &fst,
- vector<Weight> *distance,
- const ShortestDistanceOptions<Arc, Queue, ArcFilter> &opts,
- bool retain)
- : fst_(fst), distance_(distance), state_queue_(opts.state_queue),
- arc_filter_(opts.arc_filter), delta_(opts.delta),
- first_path_(opts.first_path), retain_(retain), source_id_(0),
- error_(false) {
- distance_->clear();
- }
-
- ~ShortestDistanceState() {}
-
- void ShortestDistance(StateId source);
-
- bool Error() const { return error_; }
-
- private:
- const Fst<Arc> &fst_;
- vector<Weight> *distance_;
- Queue *state_queue_;
- ArcFilter arc_filter_;
- float delta_;
- bool first_path_;
- bool retain_; // Retain and reuse information across calls
-
- vector<Weight> rdistance_; // Relaxation distance.
- vector<bool> enqueued_; // Is state enqueued?
- vector<StateId> sources_; // Source ID for ith state in 'distance_',
- // 'rdistance_', and 'enqueued_' if retained.
- StateId source_id_; // Unique ID characterizing each call to SD
-
- bool error_;
-};
-
-// Compute the shortest distance. If 'source' is kNoStateId, use
-// the initial state of the Fst.
-template <class Arc, class Queue, class ArcFilter>
-void ShortestDistanceState<Arc, Queue, ArcFilter>::ShortestDistance(
- StateId source) {
- if (fst_.Start() == kNoStateId) {
- if (fst_.Properties(kError, false)) error_ = true;
- return;
- }
-
- if (!(Weight::Properties() & kRightSemiring)) {
- FSTERROR() << "ShortestDistance: Weight needs to be right distributive: "
- << Weight::Type();
- error_ = true;
- return;
- }
-
- if (first_path_ && !(Weight::Properties() & kPath)) {
- FSTERROR() << "ShortestDistance: first_path option disallowed when "
- << "Weight does not have the path property: "
- << Weight::Type();
- error_ = true;
- return;
- }
-
- state_queue_->Clear();
-
- if (!retain_) {
- distance_->clear();
- rdistance_.clear();
- enqueued_.clear();
- }
-
- if (source == kNoStateId)
- source = fst_.Start();
-
- while (distance_->size() <= source) {
- distance_->push_back(Weight::Zero());
- rdistance_.push_back(Weight::Zero());
- enqueued_.push_back(false);
- }
- if (retain_) {
- while (sources_.size() <= source)
- sources_.push_back(kNoStateId);
- sources_[source] = source_id_;
- }
- (*distance_)[source] = Weight::One();
- rdistance_[source] = Weight::One();
- enqueued_[source] = true;
-
- state_queue_->Enqueue(source);
-
- while (!state_queue_->Empty()) {
- StateId s = state_queue_->Head();
- state_queue_->Dequeue();
- while (distance_->size() <= s) {
- distance_->push_back(Weight::Zero());
- rdistance_.push_back(Weight::Zero());
- enqueued_.push_back(false);
- }
- if (first_path_ && (fst_.Final(s) != Weight::Zero()))
- break;
- enqueued_[s] = false;
- Weight r = rdistance_[s];
- rdistance_[s] = Weight::Zero();
- for (ArcIterator< Fst<Arc> > aiter(fst_, s);
- !aiter.Done();
- aiter.Next()) {
- const Arc &arc = aiter.Value();
- if (!arc_filter_(arc))
- continue;
- while (distance_->size() <= arc.nextstate) {
- distance_->push_back(Weight::Zero());
- rdistance_.push_back(Weight::Zero());
- enqueued_.push_back(false);
- }
- if (retain_) {
- while (sources_.size() <= arc.nextstate)
- sources_.push_back(kNoStateId);
- if (sources_[arc.nextstate] != source_id_) {
- (*distance_)[arc.nextstate] = Weight::Zero();
- rdistance_[arc.nextstate] = Weight::Zero();
- enqueued_[arc.nextstate] = false;
- sources_[arc.nextstate] = source_id_;
- }
- }
- Weight &nd = (*distance_)[arc.nextstate];
- Weight &nr = rdistance_[arc.nextstate];
- Weight w = Times(r, arc.weight);
- if (!ApproxEqual(nd, Plus(nd, w), delta_)) {
- nd = Plus(nd, w);
- nr = Plus(nr, w);
- if (!nd.Member() || !nr.Member()) {
- error_ = true;
- return;
- }
- if (!enqueued_[arc.nextstate]) {
- state_queue_->Enqueue(arc.nextstate);
- enqueued_[arc.nextstate] = true;
- } else {
- state_queue_->Update(arc.nextstate);
- }
- }
- }
- }
- ++source_id_;
- if (fst_.Properties(kError, false)) error_ = true;
-}
-
-
-// Shortest-distance algorithm: this version allows fine control
-// via the options argument. See below for a simpler interface.
-//
-// This computes the shortest distance from the 'opts.source' state to
-// each visited state S and stores the value in the 'distance' vector.
-// An unvisited state S has distance Zero(), which will be stored in
-// the 'distance' vector if S is less than the maximum visited state.
-// The state queue discipline, arc filter, and convergence delta are
-// taken in the options argument.
-// The 'distance' vector will contain a unique element for which
-// Member() is false if an error was encountered.
-//
-// The weights must must be right distributive and k-closed (i.e., 1 +
-// x + x^2 + ... + x^(k +1) = 1 + x + x^2 + ... + x^k).
-//
-// The algorithm is from Mohri, "Semiring Framweork and Algorithms for
-// Shortest-Distance Problems", Journal of Automata, Languages and
-// Combinatorics 7(3):321-350, 2002. The complexity of algorithm
-// depends on the properties of the semiring and the queue discipline
-// used. Refer to the paper for more details.
-template<class Arc, class Queue, class ArcFilter>
-void ShortestDistance(
- const Fst<Arc> &fst,
- vector<typename Arc::Weight> *distance,
- const ShortestDistanceOptions<Arc, Queue, ArcFilter> &opts) {
-
- ShortestDistanceState<Arc, Queue, ArcFilter>
- sd_state(fst, distance, opts, false);
- sd_state.ShortestDistance(opts.source);
- if (sd_state.Error()) {
- distance->clear();
- distance->resize(1, Arc::Weight::NoWeight());
- }
-}
-
-// Shortest-distance algorithm: simplified interface. See above for a
-// version that allows finer control.
-//
-// If 'reverse' is false, this computes the shortest distance from the
-// initial state to each state S and stores the value in the
-// 'distance' vector. If 'reverse' is true, this computes the shortest
-// distance from each state to the final states. An unvisited state S
-// has distance Zero(), which will be stored in the 'distance' vector
-// if S is less than the maximum visited state. The state queue
-// discipline is automatically-selected.
-// The 'distance' vector will contain a unique element for which
-// Member() is false if an error was encountered.
-//
-// The weights must must be right (left) distributive if reverse is
-// false (true) and k-closed (i.e., 1 + x + x^2 + ... + x^(k +1) = 1 +
-// x + x^2 + ... + x^k).
-//
-// The algorithm is from Mohri, "Semiring Framweork and Algorithms for
-// Shortest-Distance Problems", Journal of Automata, Languages and
-// Combinatorics 7(3):321-350, 2002. The complexity of algorithm
-// depends on the properties of the semiring and the queue discipline
-// used. Refer to the paper for more details.
-template<class Arc>
-void ShortestDistance(const Fst<Arc> &fst,
- vector<typename Arc::Weight> *distance,
- bool reverse = false,
- float delta = kDelta) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- if (!reverse) {
- AnyArcFilter<Arc> arc_filter;
- AutoQueue<StateId> state_queue(fst, distance, arc_filter);
- ShortestDistanceOptions< Arc, AutoQueue<StateId>, AnyArcFilter<Arc> >
- opts(&state_queue, arc_filter);
- opts.delta = delta;
- ShortestDistance(fst, distance, opts);
- } else {
- typedef ReverseArc<Arc> ReverseArc;
- typedef typename ReverseArc::Weight ReverseWeight;
- AnyArcFilter<ReverseArc> rarc_filter;
- VectorFst<ReverseArc> rfst;
- Reverse(fst, &rfst);
- vector<ReverseWeight> rdistance;
- AutoQueue<StateId> state_queue(rfst, &rdistance, rarc_filter);
- ShortestDistanceOptions< ReverseArc, AutoQueue<StateId>,
- AnyArcFilter<ReverseArc> >
- ropts(&state_queue, rarc_filter);
- ropts.delta = delta;
- ShortestDistance(rfst, &rdistance, ropts);
- distance->clear();
- if (rdistance.size() == 1 && !rdistance[0].Member()) {
- distance->resize(1, Arc::Weight::NoWeight());
- return;
- }
- while (distance->size() < rdistance.size() - 1)
- distance->push_back(rdistance[distance->size() + 1].Reverse());
- }
-}
-
-
-// Return the sum of the weight of all successful paths in an FST, i.e.,
-// the shortest-distance from the initial state to the final states.
-// Returns a weight such that Member() is false if an error was encountered.
-template <class Arc>
-typename Arc::Weight ShortestDistance(const Fst<Arc> &fst, float delta = kDelta) {
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
- vector<Weight> distance;
- if (Weight::Properties() & kRightSemiring) {
- ShortestDistance(fst, &distance, false, delta);
- if (distance.size() == 1 && !distance[0].Member())
- return Arc::Weight::NoWeight();
- Weight sum = Weight::Zero();
- for (StateId s = 0; s < distance.size(); ++s)
- sum = Plus(sum, Times(distance[s], fst.Final(s)));
- return sum;
- } else {
- ShortestDistance(fst, &distance, true, delta);
- StateId s = fst.Start();
- if (distance.size() == 1 && !distance[0].Member())
- return Arc::Weight::NoWeight();
- return s != kNoStateId && s < distance.size() ?
- distance[s] : Weight::Zero();
- }
-}
-
-
-} // namespace fst
-
-#endif // FST_LIB_SHORTEST_DISTANCE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/shortest-path.h b/kaldi_io/src/tools/openfst/include/fst/shortest-path.h
deleted file mode 100644
index 9cd13d9..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/shortest-path.h
+++ /dev/null
@@ -1,501 +0,0 @@
-// shortest-path.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Functions to find shortest paths in an FST.
-
-#ifndef FST_LIB_SHORTEST_PATH_H__
-#define FST_LIB_SHORTEST_PATH_H__
-
-#include <functional>
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-#include <fst/determinize.h>
-#include <fst/queue.h>
-#include <fst/shortest-distance.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-template <class Arc, class Queue, class ArcFilter>
-struct ShortestPathOptions
- : public ShortestDistanceOptions<Arc, Queue, ArcFilter> {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
- size_t nshortest; // return n-shortest paths
- bool unique; // only return paths with distinct input strings
- bool has_distance; // distance vector already contains the
- // shortest distance from the initial state
- bool first_path; // Single shortest path stops after finding the first
- // path to a final state. That path is the shortest path
- // only when using the ShortestFirstQueue and
- // only when all the weights in the FST are between
- // One() and Zero() according to NaturalLess.
- Weight weight_threshold; // pruning weight threshold.
- StateId state_threshold; // pruning state threshold.
-
- ShortestPathOptions(Queue *q, ArcFilter filt, size_t n = 1, bool u = false,
- bool hasdist = false, float d = kDelta,
- bool fp = false, Weight w = Weight::Zero(),
- StateId s = kNoStateId)
- : ShortestDistanceOptions<Arc, Queue, ArcFilter>(q, filt, kNoStateId, d),
- nshortest(n), unique(u), has_distance(hasdist), first_path(fp),
- weight_threshold(w), state_threshold(s) {}
-};
-
-
-// Shortest-path algorithm: normally not called directly; prefer
-// 'ShortestPath' below with n=1. 'ofst' contains the shortest path in
-// 'ifst'. 'distance' returns the shortest distances from the source
-// state to each state in 'ifst'. 'opts' is used to specify options
-// such as the queue discipline, the arc filter and delta.
-//
-// The shortest path is the lowest weight path w.r.t. the natural
-// semiring order.
-//
-// The weights need to be right distributive and have the path (kPath)
-// property.
-template<class Arc, class Queue, class ArcFilter>
-void SingleShortestPath(const Fst<Arc> &ifst,
- MutableFst<Arc> *ofst,
- vector<typename Arc::Weight> *distance,
- ShortestPathOptions<Arc, Queue, ArcFilter> &opts) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- ofst->DeleteStates();
- ofst->SetInputSymbols(ifst.InputSymbols());
- ofst->SetOutputSymbols(ifst.OutputSymbols());
-
- if (ifst.Start() == kNoStateId) {
- if (ifst.Properties(kError, false)) ofst->SetProperties(kError, kError);
- return;
- }
-
- vector<bool> enqueued;
- vector<StateId> parent;
- vector<Arc> arc_parent;
-
- Queue *state_queue = opts.state_queue;
- StateId source = opts.source == kNoStateId ? ifst.Start() : opts.source;
- Weight f_distance = Weight::Zero();
- StateId f_parent = kNoStateId;
-
- distance->clear();
- state_queue->Clear();
- if (opts.nshortest != 1) {
- FSTERROR() << "SingleShortestPath: for nshortest > 1, use ShortestPath"
- << " instead";
- ofst->SetProperties(kError, kError);
- return;
- }
- if (opts.weight_threshold != Weight::Zero() ||
- opts.state_threshold != kNoStateId) {
- FSTERROR() <<
- "SingleShortestPath: weight and state thresholds not applicable";
- ofst->SetProperties(kError, kError);
- return;
- }
- if ((Weight::Properties() & (kPath | kRightSemiring))
- != (kPath | kRightSemiring)) {
- FSTERROR() << "SingleShortestPath: Weight needs to have the path"
- << " property and be right distributive: " << Weight::Type();
- ofst->SetProperties(kError, kError);
- return;
- }
- while (distance->size() < source) {
- distance->push_back(Weight::Zero());
- enqueued.push_back(false);
- parent.push_back(kNoStateId);
- arc_parent.push_back(Arc(kNoLabel, kNoLabel, Weight::Zero(), kNoStateId));
- }
- distance->push_back(Weight::One());
- parent.push_back(kNoStateId);
- arc_parent.push_back(Arc(kNoLabel, kNoLabel, Weight::Zero(), kNoStateId));
- state_queue->Enqueue(source);
- enqueued.push_back(true);
-
- while (!state_queue->Empty()) {
- StateId s = state_queue->Head();
- state_queue->Dequeue();
- enqueued[s] = false;
- Weight sd = (*distance)[s];
- if (ifst.Final(s) != Weight::Zero()) {
- Weight w = Times(sd, ifst.Final(s));
- if (f_distance != Plus(f_distance, w)) {
- f_distance = Plus(f_distance, w);
- f_parent = s;
- }
- if (!f_distance.Member()) {
- ofst->SetProperties(kError, kError);
- return;
- }
- if (opts.first_path)
- break;
- }
- for (ArcIterator< Fst<Arc> > aiter(ifst, s);
- !aiter.Done();
- aiter.Next()) {
- const Arc &arc = aiter.Value();
- while (distance->size() <= arc.nextstate) {
- distance->push_back(Weight::Zero());
- enqueued.push_back(false);
- parent.push_back(kNoStateId);
- arc_parent.push_back(Arc(kNoLabel, kNoLabel, Weight::Zero(),
- kNoStateId));
- }
- Weight &nd = (*distance)[arc.nextstate];
- Weight w = Times(sd, arc.weight);
- if (nd != Plus(nd, w)) {
- nd = Plus(nd, w);
- if (!nd.Member()) {
- ofst->SetProperties(kError, kError);
- return;
- }
- parent[arc.nextstate] = s;
- arc_parent[arc.nextstate] = arc;
- if (!enqueued[arc.nextstate]) {
- state_queue->Enqueue(arc.nextstate);
- enqueued[arc.nextstate] = true;
- } else {
- state_queue->Update(arc.nextstate);
- }
- }
- }
- }
-
- StateId s_p = kNoStateId, d_p = kNoStateId;
- for (StateId s = f_parent, d = kNoStateId;
- s != kNoStateId;
- d = s, s = parent[s]) {
- d_p = s_p;
- s_p = ofst->AddState();
- if (d == kNoStateId) {
- ofst->SetFinal(s_p, ifst.Final(f_parent));
- } else {
- arc_parent[d].nextstate = d_p;
- ofst->AddArc(s_p, arc_parent[d]);
- }
- }
- ofst->SetStart(s_p);
- if (ifst.Properties(kError, false)) ofst->SetProperties(kError, kError);
- ofst->SetProperties(
- ShortestPathProperties(ofst->Properties(kFstProperties, false)),
- kFstProperties);
-}
-
-
-template <class S, class W>
-class ShortestPathCompare {
- public:
- typedef S StateId;
- typedef W Weight;
- typedef pair<StateId, Weight> Pair;
-
- ShortestPathCompare(const vector<Pair>& pairs,
- const vector<Weight>& distance,
- StateId sfinal, float d)
- : pairs_(pairs), distance_(distance), superfinal_(sfinal), delta_(d) {}
-
- bool operator()(const StateId x, const StateId y) const {
- const Pair &px = pairs_[x];
- const Pair &py = pairs_[y];
- Weight dx = px.first == superfinal_ ? Weight::One() :
- px.first < distance_.size() ? distance_[px.first] : Weight::Zero();
- Weight dy = py.first == superfinal_ ? Weight::One() :
- py.first < distance_.size() ? distance_[py.first] : Weight::Zero();
- Weight wx = Times(dx, px.second);
- Weight wy = Times(dy, py.second);
- // Penalize complete paths to ensure correct results with inexact weights.
- // This forms a strict weak order so long as ApproxEqual(a, b) =>
- // ApproxEqual(a, c) for all c s.t. less_(a, c) && less_(c, b).
- if (px.first == superfinal_ && py.first != superfinal_) {
- return less_(wy, wx) || ApproxEqual(wx, wy, delta_);
- } else if (py.first == superfinal_ && px.first != superfinal_) {
- return less_(wy, wx) && !ApproxEqual(wx, wy, delta_);
- } else {
- return less_(wy, wx);
- }
- }
-
- private:
- const vector<Pair> &pairs_;
- const vector<Weight> &distance_;
- StateId superfinal_;
- float delta_;
- NaturalLess<Weight> less_;
-};
-
-
-// N-Shortest-path algorithm: implements the core n-shortest path
-// algorithm. The output is built REVERSED. See below for versions with
-// more options and not reversed.
-//
-// 'ofst' contains the REVERSE of 'n'-shortest paths in 'ifst'.
-// 'distance' must contain the shortest distance from each state to a final
-// state in 'ifst'. 'delta' is the convergence delta.
-//
-// The n-shortest paths are the n-lowest weight paths w.r.t. the
-// natural semiring order. The single path that can be read from the
-// ith of at most n transitions leaving the initial state of 'ofst' is
-// the ith shortest path. Disregarding the initial state and initial
-// transitions, the n-shortest paths, in fact, form a tree rooted at
-// the single final state.
-//
-// The weights need to be left and right distributive (kSemiring) and
-// have the path (kPath) property.
-//
-// The algorithm is from Mohri and Riley, "An Efficient Algorithm for
-// the n-best-strings problem", ICSLP 2002. The algorithm relies on
-// the shortest-distance algorithm. There are some issues with the
-// pseudo-code as written in the paper (viz., line 11).
-//
-// IMPLEMENTATION NOTE: The input fst 'ifst' can be a delayed fst and
-// and at any state in its expansion the values of distance vector need only
-// be defined at that time for the states that are known to exist.
-template<class Arc, class RevArc>
-void NShortestPath(const Fst<RevArc> &ifst,
- MutableFst<Arc> *ofst,
- const vector<typename Arc::Weight> &distance,
- size_t n,
- float delta = kDelta,
- typename Arc::Weight weight_threshold = Arc::Weight::Zero(),
- typename Arc::StateId state_threshold = kNoStateId) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
- typedef pair<StateId, Weight> Pair;
- typedef typename RevArc::Weight RevWeight;
-
- if (n <= 0) return;
- if ((Weight::Properties() & (kPath | kSemiring)) != (kPath | kSemiring)) {
- FSTERROR() << "NShortestPath: Weight needs to have the "
- << "path property and be distributive: "
- << Weight::Type();
- ofst->SetProperties(kError, kError);
- return;
- }
- ofst->DeleteStates();
- ofst->SetInputSymbols(ifst.InputSymbols());
- ofst->SetOutputSymbols(ifst.OutputSymbols());
- // Each state in 'ofst' corresponds to a path with weight w from the
- // initial state of 'ifst' to a state s in 'ifst', that can be
- // characterized by a pair (s,w). The vector 'pairs' maps each
- // state in 'ofst' to the corresponding pair maps states in OFST to
- // the corresponding pair (s,w).
- vector<Pair> pairs;
- // The supefinal state is denoted by -1, 'compare' knows that the
- // distance from 'superfinal' to the final state is 'Weight::One()',
- // hence 'distance[superfinal]' is not needed.
- StateId superfinal = -1;
- ShortestPathCompare<StateId, Weight>
- compare(pairs, distance, superfinal, delta);
- vector<StateId> heap;
- // 'r[s + 1]', 's' state in 'fst', is the number of states in 'ofst'
- // which corresponding pair contains 's' ,i.e. , it is number of
- // paths computed so far to 's'. Valid for 's == -1' (superfinal).
- vector<int> r;
- NaturalLess<Weight> less;
- if (ifst.Start() == kNoStateId ||
- distance.size() <= ifst.Start() ||
- distance[ifst.Start()] == Weight::Zero() ||
- less(weight_threshold, Weight::One()) ||
- state_threshold == 0) {
- if (ifst.Properties(kError, false)) ofst->SetProperties(kError, kError);
- return;
- }
- ofst->SetStart(ofst->AddState());
- StateId final = ofst->AddState();
- ofst->SetFinal(final, Weight::One());
- while (pairs.size() <= final)
- pairs.push_back(Pair(kNoStateId, Weight::Zero()));
- pairs[final] = Pair(ifst.Start(), Weight::One());
- heap.push_back(final);
- Weight limit = Times(distance[ifst.Start()], weight_threshold);
-
- while (!heap.empty()) {
- pop_heap(heap.begin(), heap.end(), compare);
- StateId state = heap.back();
- Pair p = pairs[state];
- heap.pop_back();
- Weight d = p.first == superfinal ? Weight::One() :
- p.first < distance.size() ? distance[p.first] : Weight::Zero();
-
- if (less(limit, Times(d, p.second)) ||
- (state_threshold != kNoStateId &&
- ofst->NumStates() >= state_threshold))
- continue;
-
- while (r.size() <= p.first + 1) r.push_back(0);
- ++r[p.first + 1];
- if (p.first == superfinal)
- ofst->AddArc(ofst->Start(), Arc(0, 0, Weight::One(), state));
- if ((p.first == superfinal) && (r[p.first + 1] == n)) break;
- if (r[p.first + 1] > n) continue;
- if (p.first == superfinal) continue;
-
- for (ArcIterator< Fst<RevArc> > aiter(ifst, p.first);
- !aiter.Done();
- aiter.Next()) {
- const RevArc &rarc = aiter.Value();
- Arc arc(rarc.ilabel, rarc.olabel, rarc.weight.Reverse(), rarc.nextstate);
- Weight w = Times(p.second, arc.weight);
- StateId next = ofst->AddState();
- pairs.push_back(Pair(arc.nextstate, w));
- arc.nextstate = state;
- ofst->AddArc(next, arc);
- heap.push_back(next);
- push_heap(heap.begin(), heap.end(), compare);
- }
-
- Weight finalw = ifst.Final(p.first).Reverse();
- if (finalw != Weight::Zero()) {
- Weight w = Times(p.second, finalw);
- StateId next = ofst->AddState();
- pairs.push_back(Pair(superfinal, w));
- ofst->AddArc(next, Arc(0, 0, finalw, state));
- heap.push_back(next);
- push_heap(heap.begin(), heap.end(), compare);
- }
- }
- Connect(ofst);
- if (ifst.Properties(kError, false)) ofst->SetProperties(kError, kError);
- ofst->SetProperties(
- ShortestPathProperties(ofst->Properties(kFstProperties, false)),
- kFstProperties);
-}
-
-
-// N-Shortest-path algorithm: this version allow fine control
-// via the options argument. See below for a simpler interface.
-//
-// 'ofst' contains the n-shortest paths in 'ifst'. 'distance' returns
-// the shortest distances from the source state to each state in
-// 'ifst'. 'opts' is used to specify options such as the number of
-// paths to return, whether they need to have distinct input
-// strings, the queue discipline, the arc filter and the convergence
-// delta.
-//
-// The n-shortest paths are the n-lowest weight paths w.r.t. the
-// natural semiring order. The single path that can be read from the
-// ith of at most n transitions leaving the initial state of 'ofst' is
-// the ith shortest path. Disregarding the initial state and initial
-// transitions, The n-shortest paths, in fact, form a tree rooted at
-// the single final state.
-
-// The weights need to be right distributive and have the path (kPath)
-// property. They need to be left distributive as well for nshortest
-// > 1.
-//
-// The algorithm is from Mohri and Riley, "An Efficient Algorithm for
-// the n-best-strings problem", ICSLP 2002. The algorithm relies on
-// the shortest-distance algorithm. There are some issues with the
-// pseudo-code as written in the paper (viz., line 11).
-template<class Arc, class Queue, class ArcFilter>
-void ShortestPath(const Fst<Arc> &ifst, MutableFst<Arc> *ofst,
- vector<typename Arc::Weight> *distance,
- ShortestPathOptions<Arc, Queue, ArcFilter> &opts) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
- typedef ReverseArc<Arc> ReverseArc;
-
- size_t n = opts.nshortest;
- if (n == 1) {
- SingleShortestPath(ifst, ofst, distance, opts);
- return;
- }
- if (n <= 0) return;
- if ((Weight::Properties() & (kPath | kSemiring)) != (kPath | kSemiring)) {
- FSTERROR() << "ShortestPath: n-shortest: Weight needs to have the "
- << "path property and be distributive: "
- << Weight::Type();
- ofst->SetProperties(kError, kError);
- return;
- }
- if (!opts.has_distance) {
- ShortestDistance(ifst, distance, opts);
- if (distance->size() == 1 && !(*distance)[0].Member()) {
- ofst->SetProperties(kError, kError);
- return;
- }
- }
- // Algorithm works on the reverse of 'fst' : 'rfst', 'distance' is
- // the distance to the final state in 'rfst', 'ofst' is built as the
- // reverse of the tree of n-shortest path in 'rfst'.
- VectorFst<ReverseArc> rfst;
- Reverse(ifst, &rfst);
- Weight d = Weight::Zero();
- for (ArcIterator< VectorFst<ReverseArc> > aiter(rfst, 0);
- !aiter.Done(); aiter.Next()) {
- const ReverseArc &arc = aiter.Value();
- StateId s = arc.nextstate - 1;
- if (s < distance->size())
- d = Plus(d, Times(arc.weight.Reverse(), (*distance)[s]));
- }
- distance->insert(distance->begin(), d);
-
- if (!opts.unique) {
- NShortestPath(rfst, ofst, *distance, n, opts.delta,
- opts.weight_threshold, opts.state_threshold);
- } else {
- vector<Weight> ddistance;
- DeterminizeFstOptions<ReverseArc> dopts(opts.delta);
- DeterminizeFst<ReverseArc> dfst(rfst, distance, &ddistance, dopts);
- NShortestPath(dfst, ofst, ddistance, n, opts.delta,
- opts.weight_threshold, opts.state_threshold);
- }
- distance->erase(distance->begin());
-}
-
-
-// Shortest-path algorithm: simplified interface. See above for a
-// version that allows finer control.
-//
-// 'ofst' contains the 'n'-shortest paths in 'ifst'. The queue
-// discipline is automatically selected. When 'unique' == true, only
-// paths with distinct input labels are returned.
-//
-// The n-shortest paths are the n-lowest weight paths w.r.t. the
-// natural semiring order. The single path that can be read from the
-// ith of at most n transitions leaving the initial state of 'ofst' is
-// the ith best path.
-//
-// The weights need to be right distributive and have the path
-// (kPath) property.
-template<class Arc>
-void ShortestPath(const Fst<Arc> &ifst, MutableFst<Arc> *ofst,
- size_t n = 1, bool unique = false,
- bool first_path = false,
- typename Arc::Weight weight_threshold = Arc::Weight::Zero(),
- typename Arc::StateId state_threshold = kNoStateId) {
- vector<typename Arc::Weight> distance;
- AnyArcFilter<Arc> arc_filter;
- AutoQueue<typename Arc::StateId> state_queue(ifst, &distance, arc_filter);
- ShortestPathOptions< Arc, AutoQueue<typename Arc::StateId>,
- AnyArcFilter<Arc> > opts(&state_queue, arc_filter, n, unique, false,
- kDelta, first_path, weight_threshold,
- state_threshold);
- ShortestPath(ifst, ofst, &distance, opts);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_SHORTEST_PATH_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/signed-log-weight.h b/kaldi_io/src/tools/openfst/include/fst/signed-log-weight.h
deleted file mode 100644
index 61adefb..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/signed-log-weight.h
+++ /dev/null
@@ -1,367 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Kasturi Rangan Raghavan)
-// \file
-// LogWeight along with sign information that represents the value X in the
-// linear domain as <sign(X), -ln(|X|)>
-// The sign is a TropicalWeight:
-// positive, TropicalWeight.Value() > 0.0, recommended value 1.0
-// negative, TropicalWeight.Value() <= 0.0, recommended value -1.0
-
-#ifndef FST_LIB_SIGNED_LOG_WEIGHT_H_
-#define FST_LIB_SIGNED_LOG_WEIGHT_H_
-
-#include <fst/float-weight.h>
-#include <fst/pair-weight.h>
-
-
-namespace fst {
-template <class T>
-class SignedLogWeightTpl
- : public PairWeight<TropicalWeight, LogWeightTpl<T> > {
- public:
- typedef TropicalWeight X1;
- typedef LogWeightTpl<T> X2;
- using PairWeight<X1, X2>::Value1;
- using PairWeight<X1, X2>::Value2;
-
- using PairWeight<X1, X2>::Reverse;
- using PairWeight<X1, X2>::Quantize;
- using PairWeight<X1, X2>::Member;
-
- typedef SignedLogWeightTpl<T> ReverseWeight;
-
- SignedLogWeightTpl() : PairWeight<X1, X2>() {}
-
- SignedLogWeightTpl(const SignedLogWeightTpl<T>& w)
- : PairWeight<X1, X2> (w) { }
-
- SignedLogWeightTpl(const PairWeight<X1, X2>& w)
- : PairWeight<X1, X2> (w) { }
-
- SignedLogWeightTpl(const X1& x1, const X2& x2)
- : PairWeight<X1, X2>(x1, x2) { }
-
- static const SignedLogWeightTpl<T> &Zero() {
- static const SignedLogWeightTpl<T> zero(X1(1.0), X2::Zero());
- return zero;
- }
-
- static const SignedLogWeightTpl<T> &One() {
- static const SignedLogWeightTpl<T> one(X1(1.0), X2::One());
- return one;
- }
-
- static const SignedLogWeightTpl<T> &NoWeight() {
- static const SignedLogWeightTpl<T> no_weight(X1(1.0), X2::NoWeight());
- return no_weight;
- }
-
- static const string &Type() {
- static const string type = "signed_log_" + X1::Type() + "_" + X2::Type();
- return type;
- }
-
- ProductWeight<X1, X2> Quantize(float delta = kDelta) const {
- return PairWeight<X1, X2>::Quantize();
- }
-
- ReverseWeight Reverse() const {
- return PairWeight<X1, X2>::Reverse();
- }
-
- bool Member() const {
- return PairWeight<X1, X2>::Member();
- }
-
- static uint64 Properties() {
- // not idempotent nor path
- return kLeftSemiring | kRightSemiring | kCommutative;
- }
-
- size_t Hash() const {
- size_t h1;
- if (Value2() == X2::Zero() || Value1().Value() > 0.0)
- h1 = TropicalWeight(1.0).Hash();
- else
- h1 = TropicalWeight(-1.0).Hash();
- size_t h2 = Value2().Hash();
- const int lshift = 5;
- const int rshift = CHAR_BIT * sizeof(size_t) - 5;
- return h1 << lshift ^ h1 >> rshift ^ h2;
- }
-};
-
-template <class T>
-inline SignedLogWeightTpl<T> Plus(const SignedLogWeightTpl<T> &w1,
- const SignedLogWeightTpl<T> &w2) {
- if (!w1.Member() || !w2.Member())
- return SignedLogWeightTpl<T>::NoWeight();
- bool s1 = w1.Value1().Value() > 0.0;
- bool s2 = w2.Value1().Value() > 0.0;
- T f1 = w1.Value2().Value();
- T f2 = w2.Value2().Value();
- if (f1 == FloatLimits<T>::PosInfinity())
- return w2;
- else if (f2 == FloatLimits<T>::PosInfinity())
- return w1;
- else if (f1 == f2) {
- if (s1 == s2)
- return SignedLogWeightTpl<T>(w1.Value1(), (f2 - log(2.0F)));
- else
- return SignedLogWeightTpl<T>::Zero();
- } else if (f1 > f2) {
- if (s1 == s2) {
- return SignedLogWeightTpl<T>(
- w1.Value1(), (f2 - log(1.0F + exp(f2 - f1))));
- } else {
- return SignedLogWeightTpl<T>(
- w2.Value1(), (f2 - log(1.0F - exp(f2 - f1))));
- }
- } else {
- if (s2 == s1) {
- return SignedLogWeightTpl<T>(
- w2.Value1(), (f1 - log(1.0F + exp(f1 - f2))));
- } else {
- return SignedLogWeightTpl<T>(
- w1.Value1(), (f1 - log(1.0F - exp(f1 - f2))));
- }
- }
-}
-
-template <class T>
-inline SignedLogWeightTpl<T> Minus(const SignedLogWeightTpl<T> &w1,
- const SignedLogWeightTpl<T> &w2) {
- SignedLogWeightTpl<T> minus_w2(-w2.Value1().Value(), w2.Value2());
- return Plus(w1, minus_w2);
-}
-
-template <class T>
-inline SignedLogWeightTpl<T> Times(const SignedLogWeightTpl<T> &w1,
- const SignedLogWeightTpl<T> &w2) {
- if (!w1.Member() || !w2.Member())
- return SignedLogWeightTpl<T>::NoWeight();
- bool s1 = w1.Value1().Value() > 0.0;
- bool s2 = w2.Value1().Value() > 0.0;
- T f1 = w1.Value2().Value();
- T f2 = w2.Value2().Value();
- if (s1 == s2)
- return SignedLogWeightTpl<T>(TropicalWeight(1.0), (f1 + f2));
- else
- return SignedLogWeightTpl<T>(TropicalWeight(-1.0), (f1 + f2));
-}
-
-template <class T>
-inline SignedLogWeightTpl<T> Divide(const SignedLogWeightTpl<T> &w1,
- const SignedLogWeightTpl<T> &w2,
- DivideType typ = DIVIDE_ANY) {
- if (!w1.Member() || !w2.Member())
- return SignedLogWeightTpl<T>::NoWeight();
- bool s1 = w1.Value1().Value() > 0.0;
- bool s2 = w2.Value1().Value() > 0.0;
- T f1 = w1.Value2().Value();
- T f2 = w2.Value2().Value();
- if (f2 == FloatLimits<T>::PosInfinity())
- return SignedLogWeightTpl<T>(TropicalWeight(1.0),
- FloatLimits<T>::NumberBad());
- else if (f1 == FloatLimits<T>::PosInfinity())
- return SignedLogWeightTpl<T>(TropicalWeight(1.0),
- FloatLimits<T>::PosInfinity());
- else if (s1 == s2)
- return SignedLogWeightTpl<T>(TropicalWeight(1.0), (f1 - f2));
- else
- return SignedLogWeightTpl<T>(TropicalWeight(-1.0), (f1 - f2));
-}
-
-template <class T>
-inline bool ApproxEqual(const SignedLogWeightTpl<T> &w1,
- const SignedLogWeightTpl<T> &w2,
- float delta = kDelta) {
- bool s1 = w1.Value1().Value() > 0.0;
- bool s2 = w2.Value1().Value() > 0.0;
- if (s1 == s2) {
- return ApproxEqual(w1.Value2(), w2.Value2(), delta);
- } else {
- return w1.Value2() == LogWeightTpl<T>::Zero()
- && w2.Value2() == LogWeightTpl<T>::Zero();
- }
-}
-
-template <class T>
-inline bool operator==(const SignedLogWeightTpl<T> &w1,
- const SignedLogWeightTpl<T> &w2) {
- bool s1 = w1.Value1().Value() > 0.0;
- bool s2 = w2.Value1().Value() > 0.0;
- if (s1 == s2)
- return w1.Value2() == w2.Value2();
- else
- return (w1.Value2() == LogWeightTpl<T>::Zero()) &&
- (w2.Value2() == LogWeightTpl<T>::Zero());
-}
-
-
-// Single-precision signed-log weight
-typedef SignedLogWeightTpl<float> SignedLogWeight;
-// Double-precision signed-log weight
-typedef SignedLogWeightTpl<double> SignedLog64Weight;
-
-//
-// WEIGHT CONVERTER SPECIALIZATIONS.
-//
-
-template <class W1, class W2>
-bool SignedLogConvertCheck(W1 w) {
- if (w.Value1().Value() < 0.0) {
- FSTERROR() << "WeightConvert: can't convert weight from \""
- << W1::Type() << "\" to \"" << W2::Type();
- return false;
- }
- return true;
-}
-
-// Convert to tropical
-template <>
-struct WeightConvert<SignedLogWeight, TropicalWeight> {
- TropicalWeight operator()(SignedLogWeight w) const {
- if (!SignedLogConvertCheck<SignedLogWeight, TropicalWeight>(w))
- return TropicalWeight::NoWeight();
- return w.Value2().Value();
- }
-};
-
-template <>
-struct WeightConvert<SignedLog64Weight, TropicalWeight> {
- TropicalWeight operator()(SignedLog64Weight w) const {
- if (!SignedLogConvertCheck<SignedLog64Weight, TropicalWeight>(w))
- return TropicalWeight::NoWeight();
- return w.Value2().Value();
- }
-};
-
-// Convert to log
-template <>
-struct WeightConvert<SignedLogWeight, LogWeight> {
- LogWeight operator()(SignedLogWeight w) const {
- if (!SignedLogConvertCheck<SignedLogWeight, LogWeight>(w))
- return LogWeight::NoWeight();
- return w.Value2().Value();
- }
-};
-
-template <>
-struct WeightConvert<SignedLog64Weight, LogWeight> {
- LogWeight operator()(SignedLog64Weight w) const {
- if (!SignedLogConvertCheck<SignedLog64Weight, LogWeight>(w))
- return LogWeight::NoWeight();
- return w.Value2().Value();
- }
-};
-
-// Convert to log64
-template <>
-struct WeightConvert<SignedLogWeight, Log64Weight> {
- Log64Weight operator()(SignedLogWeight w) const {
- if (!SignedLogConvertCheck<SignedLogWeight, Log64Weight>(w))
- return Log64Weight::NoWeight();
- return w.Value2().Value();
- }
-};
-
-template <>
-struct WeightConvert<SignedLog64Weight, Log64Weight> {
- Log64Weight operator()(SignedLog64Weight w) const {
- if (!SignedLogConvertCheck<SignedLog64Weight, Log64Weight>(w))
- return Log64Weight::NoWeight();
- return w.Value2().Value();
- }
-};
-
-// Convert to signed log
-template <>
-struct WeightConvert<TropicalWeight, SignedLogWeight> {
- SignedLogWeight operator()(TropicalWeight w) const {
- TropicalWeight x1 = 1.0;
- LogWeight x2 = w.Value();
- return SignedLogWeight(x1, x2);
- }
-};
-
-template <>
-struct WeightConvert<LogWeight, SignedLogWeight> {
- SignedLogWeight operator()(LogWeight w) const {
- TropicalWeight x1 = 1.0;
- LogWeight x2 = w.Value();
- return SignedLogWeight(x1, x2);
- }
-};
-
-template <>
-struct WeightConvert<Log64Weight, SignedLogWeight> {
- SignedLogWeight operator()(Log64Weight w) const {
- TropicalWeight x1 = 1.0;
- LogWeight x2 = w.Value();
- return SignedLogWeight(x1, x2);
- }
-};
-
-template <>
-struct WeightConvert<SignedLog64Weight, SignedLogWeight> {
- SignedLogWeight operator()(SignedLog64Weight w) const {
- TropicalWeight x1 = w.Value1();
- LogWeight x2 = w.Value2().Value();
- return SignedLogWeight(x1, x2);
- }
-};
-
-// Convert to signed log64
-template <>
-struct WeightConvert<TropicalWeight, SignedLog64Weight> {
- SignedLog64Weight operator()(TropicalWeight w) const {
- TropicalWeight x1 = 1.0;
- Log64Weight x2 = w.Value();
- return SignedLog64Weight(x1, x2);
- }
-};
-
-template <>
-struct WeightConvert<LogWeight, SignedLog64Weight> {
- SignedLog64Weight operator()(LogWeight w) const {
- TropicalWeight x1 = 1.0;
- Log64Weight x2 = w.Value();
- return SignedLog64Weight(x1, x2);
- }
-};
-
-template <>
-struct WeightConvert<Log64Weight, SignedLog64Weight> {
- SignedLog64Weight operator()(Log64Weight w) const {
- TropicalWeight x1 = 1.0;
- Log64Weight x2 = w.Value();
- return SignedLog64Weight(x1, x2);
- }
-};
-
-template <>
-struct WeightConvert<SignedLogWeight, SignedLog64Weight> {
- SignedLog64Weight operator()(SignedLogWeight w) const {
- TropicalWeight x1 = w.Value1();
- Log64Weight x2 = w.Value2().Value();
- return SignedLog64Weight(x1, x2);
- }
-};
-
-} // namespace fst
-
-#endif // FST_LIB_SIGNED_LOG_WEIGHT_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/slist.h b/kaldi_io/src/tools/openfst/include/fst/slist.h
deleted file mode 100644
index b800522..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/slist.h
+++ /dev/null
@@ -1,61 +0,0 @@
-// slist.h
-//
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Includes slist definition or defines in terms of STL list as a fallback.
-
-#ifndef FST_LIB_SLIST_H__
-#define FST_LIB_SLIST_H__
-
-#include <fst/config.h>
-
-#ifdef HAVE___GNU_CXX__SLIST_INT_
-
-#include <ext/slist>
-
-namespace fst {
-
-using __gnu_cxx::slist;
-
-}
-
-#else
-
-#include <list>
-
-namespace fst {
-
-using std::list;
-
-template <typename T> class slist : public list<T> {
- public:
- typedef typename list<T>::iterator iterator;
- typedef typename list<T>::const_iterator const_iterator;
-
- using list<T>::erase;
-
- iterator erase_after(iterator pos) {
- iterator npos = pos;
- erase(++npos);
- return pos;
- }
-};
-
-} // namespace fst
-
-#endif // HAVE___GNU_CXX__SLIST_INT_
-
-#endif // FST_LIB_SLIST_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/sparse-power-weight.h b/kaldi_io/src/tools/openfst/include/fst/sparse-power-weight.h
deleted file mode 100644
index a1ff56a..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/sparse-power-weight.h
+++ /dev/null
@@ -1,225 +0,0 @@
-// sparse-power-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Kasturi Rangan Raghavan)
-// Inspiration: [email protected] (Cyril Allauzen)
-//
-// \file
-// Cartesian power weight semiring operation definitions.
-// Uses SparseTupleWeight as underlying representation.
-
-#ifndef FST_LIB_SPARSE_POWER_WEIGHT_H__
-#define FST_LIB_SPARSE_POWER_WEIGHT_H__
-
-#include<string>
-
-#include <fst/sparse-tuple-weight.h>
-#include <fst/weight.h>
-
-
-namespace fst {
-
-// Below SparseTupleWeight*Mapper are used in conjunction with
-// SparseTupleWeightMap to compute the respective semiring operations
-template<class W, class K>
-struct SparseTupleWeightPlusMapper {
- W Map(const K& k, const W& v1, const W& v2) const {
- return Plus(v1, v2);
- }
-};
-
-template<class W, class K>
-struct SparseTupleWeightTimesMapper {
- W Map(const K& k, const W& v1, const W& v2) const {
- return Times(v1, v2);
- }
-};
-
-template<class W, class K>
-struct SparseTupleWeightDivideMapper {
- SparseTupleWeightDivideMapper(DivideType divide_type) {
- divide_type_ = divide_type;
- }
- W Map(const K& k, const W& v1, const W& v2) const {
- return Divide(v1, v2, divide_type_);
- }
- DivideType divide_type_;
-};
-
-template<class W, class K>
-struct SparseTupleWeightApproxMapper {
- SparseTupleWeightApproxMapper(float delta) { delta_ = delta; }
- W Map(const K& k, const W& v1, const W& v2) const {
- return ApproxEqual(v1, v2, delta_) ? W::One() : W::Zero();
- }
- float delta_;
-};
-
-// Sparse cartesian power semiring: W ^ n
-// Forms:
-// - a left semimodule when W is a left semiring,
-// - a right semimodule when W is a right semiring,
-// - a bisemimodule when W is a semiring,
-// the free semimodule of rank n over W
-// The Times operation is overloaded to provide the
-// left and right scalar products.
-// K is the key value type. kNoKey(-1) is reserved for internal use
-template <class W, class K = int>
-class SparsePowerWeight : public SparseTupleWeight<W, K> {
- public:
- using SparseTupleWeight<W, K>::Zero;
- using SparseTupleWeight<W, K>::One;
- using SparseTupleWeight<W, K>::NoWeight;
- using SparseTupleWeight<W, K>::Quantize;
- using SparseTupleWeight<W, K>::Reverse;
-
- typedef SparsePowerWeight<typename W::ReverseWeight, K> ReverseWeight;
-
- SparsePowerWeight() {}
-
- SparsePowerWeight(const SparseTupleWeight<W, K> &w) :
- SparseTupleWeight<W, K>(w) { }
-
- template <class Iterator>
- SparsePowerWeight(Iterator begin, Iterator end) :
- SparseTupleWeight<W, K>(begin, end) { }
-
- SparsePowerWeight(const K &key, const W &w) :
- SparseTupleWeight<W, K>(key, w) { }
-
- static const SparsePowerWeight<W, K> &Zero() {
- static const SparsePowerWeight<W, K> zero(SparseTupleWeight<W, K>::Zero());
- return zero;
- }
-
- static const SparsePowerWeight<W, K> &One() {
- static const SparsePowerWeight<W, K> one(SparseTupleWeight<W, K>::One());
- return one;
- }
-
- static const SparsePowerWeight<W, K> &NoWeight() {
- static const SparsePowerWeight<W, K> no_weight(
- SparseTupleWeight<W, K>::NoWeight());
- return no_weight;
- }
-
- // Overide this: Overwrite the Type method to reflect the key type
- // if using non-default key type.
- static const string &Type() {
- static string type;
- if(type.empty()) {
- type = W::Type() + "_^n";
- if(sizeof(K) != sizeof(uint32)) {
- string size;
- Int64ToStr(8 * sizeof(K), &size);
- type += "_" + size;
- }
- }
- return type;
- }
-
- static uint64 Properties() {
- uint64 props = W::Properties();
- return props & (kLeftSemiring | kRightSemiring |
- kCommutative | kIdempotent);
- }
-
- SparsePowerWeight<W, K> Quantize(float delta = kDelta) const {
- return SparseTupleWeight<W, K>::Quantize(delta);
- }
-
- ReverseWeight Reverse() const {
- return SparseTupleWeight<W, K>::Reverse();
- }
-};
-
-// Semimodule plus operation
-template <class W, class K>
-inline SparsePowerWeight<W, K> Plus(const SparsePowerWeight<W, K> &w1,
- const SparsePowerWeight<W, K> &w2) {
- SparsePowerWeight<W, K> ret;
- SparseTupleWeightPlusMapper<W, K> operator_mapper;
- SparseTupleWeightMap(&ret, w1, w2, operator_mapper);
- return ret;
-}
-
-// Semimodule times operation
-template <class W, class K>
-inline SparsePowerWeight<W, K> Times(const SparsePowerWeight<W, K> &w1,
- const SparsePowerWeight<W, K> &w2) {
- SparsePowerWeight<W, K> ret;
- SparseTupleWeightTimesMapper<W, K> operator_mapper;
- SparseTupleWeightMap(&ret, w1, w2, operator_mapper);
- return ret;
-}
-
-// Semimodule divide operation
-template <class W, class K>
-inline SparsePowerWeight<W, K> Divide(const SparsePowerWeight<W, K> &w1,
- const SparsePowerWeight<W, K> &w2,
- DivideType type = DIVIDE_ANY) {
- SparsePowerWeight<W, K> ret;
- SparseTupleWeightDivideMapper<W, K> operator_mapper(type);
- SparseTupleWeightMap(&ret, w1, w2, operator_mapper);
- return ret;
-}
-
-// Semimodule dot product
-template <class W, class K>
-inline const W& DotProduct(const SparsePowerWeight<W, K> &w1,
- const SparsePowerWeight<W, K> &w2) {
- const SparsePowerWeight<W, K>& product = Times(w1, w2);
- W ret(W::Zero());
- for (SparseTupleWeightIterator<W, K> it(product); !it.Done(); it.Next()) {
- ret = Plus(ret, it.Value().second);
- }
- return ret;
-}
-
-template <class W, class K>
-inline bool ApproxEqual(const SparsePowerWeight<W, K> &w1,
- const SparsePowerWeight<W, K> &w2,
- float delta = kDelta) {
- SparseTupleWeight<W, K> ret;
- SparseTupleWeightApproxMapper<W, K> operator_mapper(kDelta);
- SparseTupleWeightMap(&ret, w1, w2, operator_mapper);
- return ret == SparsePowerWeight<W, K>::One();
-}
-
-template <class W, class K>
-inline SparsePowerWeight<W, K> Times(const W &k,
- const SparsePowerWeight<W, K> &w2) {
- SparsePowerWeight<W, K> w1(k);
- return Times(w1, w2);
-}
-
-template <class W, class K>
-inline SparsePowerWeight<W, K> Times(const SparsePowerWeight<W, K> &w1,
- const W &k) {
- SparsePowerWeight<W, K> w2(k);
- return Times(w1, w2);
-}
-
-template <class W, class K>
-inline SparsePowerWeight<W, K> Divide(const SparsePowerWeight<W, K> &w1,
- const W &k,
- DivideType divide_type = DIVIDE_ANY) {
- SparsePowerWeight<W, K> w2(k);
- return Divide(w1, w2, divide_type);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_SPARSE_POWER_WEIGHT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/sparse-tuple-weight.h b/kaldi_io/src/tools/openfst/include/fst/sparse-tuple-weight.h
deleted file mode 100644
index c12ef4f..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/sparse-tuple-weight.h
+++ /dev/null
@@ -1,640 +0,0 @@
-// sparse-tuple-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Kasturi Rangan Raghavan)
-// Inspiration: [email protected] (Cyril Allauzen)
-// \file
-// Sparse version of tuple-weight, based on tuple-weight.h
-// Internally stores sparse key, value pairs in linked list
-// Default value elemnt is the assumed value of unset keys
-// Internal singleton implementation that stores first key,
-// value pair as a initialized member variable to avoide
-// unnecessary allocation on heap.
-// Use SparseTupleWeightIterator to iterate through the key,value pairs
-// Note: this does NOT iterate through the default value.
-//
-// Sparse tuple weight set operation definitions.
-
-#ifndef FST_LIB_SPARSE_TUPLE_WEIGHT_H__
-#define FST_LIB_SPARSE_TUPLE_WEIGHT_H__
-
-#include<string>
-#include<list>
-#include<stack>
-#include<tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-
-#include <fst/weight.h>
-
-
-DECLARE_string(fst_weight_parentheses);
-DECLARE_string(fst_weight_separator);
-
-namespace fst {
-
-template <class W, class K> class SparseTupleWeight;
-
-template<class W, class K>
-class SparseTupleWeightIterator;
-
-template <class W, class K>
-istream &operator>>(istream &strm, SparseTupleWeight<W, K> &w);
-
-// Arbitrary dimension tuple weight, stored as a sorted linked-list
-// W is any weight class,
-// K is the key value type. kNoKey(-1) is reserved for internal use
-template <class W, class K = int>
-class SparseTupleWeight {
- public:
- typedef pair<K, W> Pair;
- typedef SparseTupleWeight<typename W::ReverseWeight, K> ReverseWeight;
-
- const static K kNoKey = -1;
- SparseTupleWeight() {
- Init();
- }
-
- template <class Iterator>
- SparseTupleWeight(Iterator begin, Iterator end) {
- Init();
- // Assumes input iterator is sorted
- for (Iterator it = begin; it != end; ++it)
- Push(*it);
- }
-
-
- SparseTupleWeight(const K& key, const W &w) {
- Init();
- Push(key, w);
- }
-
- SparseTupleWeight(const W &w) {
- Init(w);
- }
-
- SparseTupleWeight(const SparseTupleWeight<W, K> &w) {
- Init(w.DefaultValue());
- SetDefaultValue(w.DefaultValue());
- for (SparseTupleWeightIterator<W, K> it(w); !it.Done(); it.Next()) {
- Push(it.Value());
- }
- }
-
- static const SparseTupleWeight<W, K> &Zero() {
- static SparseTupleWeight<W, K> zero;
- return zero;
- }
-
- static const SparseTupleWeight<W, K> &One() {
- static SparseTupleWeight<W, K> one(W::One());
- return one;
- }
-
- static const SparseTupleWeight<W, K> &NoWeight() {
- static SparseTupleWeight<W, K> no_weight(W::NoWeight());
- return no_weight;
- }
-
- istream &Read(istream &strm) {
- ReadType(strm, &default_);
- ReadType(strm, &first_);
- return ReadType(strm, &rest_);
- }
-
- ostream &Write(ostream &strm) const {
- WriteType(strm, default_);
- WriteType(strm, first_);
- return WriteType(strm, rest_);
- }
-
- SparseTupleWeight<W, K> &operator=(const SparseTupleWeight<W, K> &w) {
- if (this == &w) return *this; // check for w = w
- Init(w.DefaultValue());
- for (SparseTupleWeightIterator<W, K> it(w); !it.Done(); it.Next()) {
- Push(it.Value());
- }
- return *this;
- }
-
- bool Member() const {
- if (!DefaultValue().Member()) return false;
- for (SparseTupleWeightIterator<W, K> it(*this); !it.Done(); it.Next()) {
- if (!it.Value().second.Member()) return false;
- }
- return true;
- }
-
- // Assumes H() function exists for the hash of the key value
- size_t Hash() const {
- uint64 h = 0;
- std::tr1::hash<K> H;
- for (SparseTupleWeightIterator<W, K> it(*this); !it.Done(); it.Next()) {
- h = 5 * h + H(it.Value().first);
- h = 13 * h + it.Value().second.Hash();
- }
- return size_t(h);
- }
-
- SparseTupleWeight<W, K> Quantize(float delta = kDelta) const {
- SparseTupleWeight<W, K> w;
- for (SparseTupleWeightIterator<W, K> it(*this); !it.Done(); it.Next()) {
- w.Push(it.Value().first, it.Value().second.Quantize(delta));
- }
- return w;
- }
-
- ReverseWeight Reverse() const {
- SparseTupleWeight<W, K> w;
- for (SparseTupleWeightIterator<W, K> it(*this); !it.Done(); it.Next()) {
- w.Push(it.Value().first, it.Value().second.Reverse());
- }
- return w;
- }
-
- // Common initializer among constructors.
- void Init() {
- Init(W::Zero());
- }
-
- void Init(const W& default_value) {
- first_.first = kNoKey;
- /* initialized to the reserved key value */
- default_ = default_value;
- rest_.clear();
- }
-
- size_t Size() const {
- if (first_.first == kNoKey)
- return 0;
- else
- return rest_.size() + 1;
- }
-
- inline void Push(const K &k, const W &w, bool default_value_check = true) {
- Push(make_pair(k, w), default_value_check);
- }
-
- inline void Push(const Pair &p, bool default_value_check = true) {
- if (default_value_check && p.second == default_) return;
- if (first_.first == kNoKey) {
- first_ = p;
- } else {
- rest_.push_back(p);
- }
- }
-
- void SetDefaultValue(const W& val) { default_ = val; }
-
- const W& DefaultValue() const { return default_; }
-
- protected:
- static istream& ReadNoParen(
- istream&, SparseTupleWeight<W, K>&, char separator);
-
- static istream& ReadWithParen(
- istream&, SparseTupleWeight<W, K>&,
- char separator, char open_paren, char close_paren);
-
- private:
- // Assumed default value of uninitialized keys, by default W::Zero()
- W default_;
-
- // Key values pairs are first stored in first_, then fill rest_
- // this way we can avoid dynamic allocation in the common case
- // where the weight is a single key,val pair.
- Pair first_;
- list<Pair> rest_;
-
- friend istream &operator>><W, K>(istream&, SparseTupleWeight<W, K>&);
- friend class SparseTupleWeightIterator<W, K>;
-};
-
-template<class W, class K>
-class SparseTupleWeightIterator {
- public:
- typedef typename SparseTupleWeight<W, K>::Pair Pair;
- typedef typename list<Pair>::const_iterator const_iterator;
- typedef typename list<Pair>::iterator iterator;
-
- explicit SparseTupleWeightIterator(const SparseTupleWeight<W, K>& w)
- : first_(w.first_), rest_(w.rest_), init_(true),
- iter_(rest_.begin()) {}
-
- bool Done() const {
- if (init_)
- return first_.first == SparseTupleWeight<W, K>::kNoKey;
- else
- return iter_ == rest_.end();
- }
-
- const Pair& Value() const { return init_ ? first_ : *iter_; }
-
- void Next() {
- if (init_)
- init_ = false;
- else
- ++iter_;
- }
-
- void Reset() {
- init_ = true;
- iter_ = rest_.begin();
- }
-
- private:
- const Pair &first_;
- const list<Pair> & rest_;
- bool init_; // in the initialized state?
- typename list<Pair>::const_iterator iter_;
-
- DISALLOW_COPY_AND_ASSIGN(SparseTupleWeightIterator);
-};
-
-template<class W, class K, class M>
-inline void SparseTupleWeightMap(
- SparseTupleWeight<W, K>* ret,
- const SparseTupleWeight<W, K>& w1,
- const SparseTupleWeight<W, K>& w2,
- const M& operator_mapper) {
- SparseTupleWeightIterator<W, K> w1_it(w1);
- SparseTupleWeightIterator<W, K> w2_it(w2);
- const W& v1_def = w1.DefaultValue();
- const W& v2_def = w2.DefaultValue();
- ret->SetDefaultValue(operator_mapper.Map(0, v1_def, v2_def));
- while (!w1_it.Done() || !w2_it.Done()) {
- const K& k1 = (w1_it.Done()) ? w2_it.Value().first : w1_it.Value().first;
- const K& k2 = (w2_it.Done()) ? w1_it.Value().first : w2_it.Value().first;
- const W& v1 = (w1_it.Done()) ? v1_def : w1_it.Value().second;
- const W& v2 = (w2_it.Done()) ? v2_def : w2_it.Value().second;
- if (k1 == k2) {
- ret->Push(k1, operator_mapper.Map(k1, v1, v2));
- if (!w1_it.Done()) w1_it.Next();
- if (!w2_it.Done()) w2_it.Next();
- } else if (k1 < k2) {
- ret->Push(k1, operator_mapper.Map(k1, v1, v2_def));
- w1_it.Next();
- } else {
- ret->Push(k2, operator_mapper.Map(k2, v1_def, v2));
- w2_it.Next();
- }
- }
-}
-
-template <class W, class K>
-inline bool operator==(const SparseTupleWeight<W, K> &w1,
- const SparseTupleWeight<W, K> &w2) {
- const W& v1_def = w1.DefaultValue();
- const W& v2_def = w2.DefaultValue();
- if (v1_def != v2_def) return false;
-
- SparseTupleWeightIterator<W, K> w1_it(w1);
- SparseTupleWeightIterator<W, K> w2_it(w2);
- while (!w1_it.Done() || !w2_it.Done()) {
- const K& k1 = (w1_it.Done()) ? w2_it.Value().first : w1_it.Value().first;
- const K& k2 = (w2_it.Done()) ? w1_it.Value().first : w2_it.Value().first;
- const W& v1 = (w1_it.Done()) ? v1_def : w1_it.Value().second;
- const W& v2 = (w2_it.Done()) ? v2_def : w2_it.Value().second;
- if (k1 == k2) {
- if (v1 != v2) return false;
- if (!w1_it.Done()) w1_it.Next();
- if (!w2_it.Done()) w2_it.Next();
- } else if (k1 < k2) {
- if (v1 != v2_def) return false;
- w1_it.Next();
- } else {
- if (v1_def != v2) return false;
- w2_it.Next();
- }
- }
- return true;
-}
-
-template <class W, class K>
-inline bool operator!=(const SparseTupleWeight<W, K> &w1,
- const SparseTupleWeight<W, K> &w2) {
- return !(w1 == w2);
-}
-
-template <class W, class K>
-inline ostream &operator<<(ostream &strm, const SparseTupleWeight<W, K> &w) {
- if(FLAGS_fst_weight_separator.size() != 1) {
- FSTERROR() << "FLAGS_fst_weight_separator.size() is not equal to 1";
- strm.clear(std::ios::badbit);
- return strm;
- }
- char separator = FLAGS_fst_weight_separator[0];
- bool write_parens = false;
- if (!FLAGS_fst_weight_parentheses.empty()) {
- if (FLAGS_fst_weight_parentheses.size() != 2) {
- FSTERROR() << "FLAGS_fst_weight_parentheses.size() is not equal to 2";
- strm.clear(std::ios::badbit);
- return strm;
- }
- write_parens = true;
- }
-
- if (write_parens)
- strm << FLAGS_fst_weight_parentheses[0];
-
- strm << w.DefaultValue();
- strm << separator;
-
- size_t n = w.Size();
- strm << n;
- strm << separator;
-
- for (SparseTupleWeightIterator<W, K> it(w); !it.Done(); it.Next()) {
- strm << it.Value().first;
- strm << separator;
- strm << it.Value().second;
- strm << separator;
- }
-
- if (write_parens)
- strm << FLAGS_fst_weight_parentheses[1];
-
- return strm;
-}
-
-template <class W, class K>
-inline istream &operator>>(istream &strm, SparseTupleWeight<W, K> &w) {
- if(FLAGS_fst_weight_separator.size() != 1) {
- FSTERROR() << "FLAGS_fst_weight_separator.size() is not equal to 1";
- strm.clear(std::ios::badbit);
- return strm;
- }
- char separator = FLAGS_fst_weight_separator[0];
-
- if (!FLAGS_fst_weight_parentheses.empty()) {
- if (FLAGS_fst_weight_parentheses.size() != 2) {
- FSTERROR() << "FLAGS_fst_weight_parentheses.size() is not equal to 2";
- strm.clear(std::ios::badbit);
- return strm;
- }
- return SparseTupleWeight<W, K>::ReadWithParen(
- strm, w, separator, FLAGS_fst_weight_parentheses[0],
- FLAGS_fst_weight_parentheses[1]);
- } else {
- return SparseTupleWeight<W, K>::ReadNoParen(strm, w, separator);
- }
-}
-
-// Reads SparseTupleWeight when there are no parentheses around tuple terms
-template <class W, class K>
-inline istream& SparseTupleWeight<W, K>::ReadNoParen(
- istream &strm,
- SparseTupleWeight<W, K> &w,
- char separator) {
- int c;
- size_t n;
-
- do {
- c = strm.get();
- } while (isspace(c));
-
-
- { // Read default weight
- W default_value;
- string s;
- while (c != separator) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s += c;
- c = strm.get();
- }
- istringstream sstrm(s);
- sstrm >> default_value;
- w.SetDefaultValue(default_value);
- }
-
- c = strm.get();
-
- { // Read n
- string s;
- while (c != separator) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s += c;
- c = strm.get();
- }
- istringstream sstrm(s);
- sstrm >> n;
- }
-
- // Read n elements
- for (size_t i = 0; i < n; ++i) {
- // discard separator
- c = strm.get();
- K p;
- W r;
-
- { // read key
- string s;
- while (c != separator) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s += c;
- c = strm.get();
- }
- istringstream sstrm(s);
- sstrm >> p;
- }
-
- c = strm.get();
-
- { // read weight
- string s;
- while (c != separator) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s += c;
- c = strm.get();
- }
- istringstream sstrm(s);
- sstrm >> r;
- }
-
- w.Push(p, r);
- }
-
- c = strm.get();
- if (c != separator) {
- strm.clear(std::ios::badbit);
- }
-
- return strm;
-}
-
-// Reads SparseTupleWeight when there are parentheses around tuple terms
-template <class W, class K>
-inline istream& SparseTupleWeight<W, K>::ReadWithParen(
- istream &strm,
- SparseTupleWeight<W, K> &w,
- char separator,
- char open_paren,
- char close_paren) {
- int c;
- size_t n;
-
- do {
- c = strm.get();
- } while (isspace(c));
-
- if (c != open_paren) {
- FSTERROR() << "is fst_weight_parentheses flag set correcty? ";
- strm.clear(std::ios::badbit);
- return strm;
- }
-
- c = strm.get();
-
- { // Read weight
- W default_value;
- stack<int> parens;
- string s;
- while (c != separator || !parens.empty()) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s += c;
- // If parens encountered before separator, they must be matched
- if (c == open_paren) {
- parens.push(1);
- } else if (c == close_paren) {
- // Fail for mismatched parens
- if (parens.empty()) {
- strm.clear(std::ios::failbit);
- return strm;
- }
- parens.pop();
- }
- c = strm.get();
- }
- istringstream sstrm(s);
- sstrm >> default_value;
- w.SetDefaultValue(default_value);
- }
-
- c = strm.get();
-
- { // Read n
- string s;
- while (c != separator) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s += c;
- c = strm.get();
- }
- istringstream sstrm(s);
- sstrm >> n;
- }
-
- // Read n elements
- for (size_t i = 0; i < n; ++i) {
- // discard separator
- c = strm.get();
- K p;
- W r;
-
- { // Read key
- stack<int> parens;
- string s;
- while (c != separator || !parens.empty()) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s += c;
- // If parens encountered before separator, they must be matched
- if (c == open_paren) {
- parens.push(1);
- } else if (c == close_paren) {
- // Fail for mismatched parens
- if (parens.empty()) {
- strm.clear(std::ios::failbit);
- return strm;
- }
- parens.pop();
- }
- c = strm.get();
- }
- istringstream sstrm(s);
- sstrm >> p;
- }
-
- c = strm.get();
-
- { // Read weight
- stack<int> parens;
- string s;
- while (c != separator || !parens.empty()) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s += c;
- // If parens encountered before separator, they must be matched
- if (c == open_paren) {
- parens.push(1);
- } else if (c == close_paren) {
- // Fail for mismatched parens
- if (parens.empty()) {
- strm.clear(std::ios::failbit);
- return strm;
- }
- parens.pop();
- }
- c = strm.get();
- }
- istringstream sstrm(s);
- sstrm >> r;
- }
-
- w.Push(p, r);
- }
-
- if (c != separator) {
- FSTERROR() << " separator expected, not found! ";
- strm.clear(std::ios::badbit);
- return strm;
- }
-
- c = strm.get();
- if (c != close_paren) {
- FSTERROR() << " is fst_weight_parentheses flag set correcty? ";
- strm.clear(std::ios::badbit);
- return strm;
- }
-
- return strm;
-}
-
-
-
-} // namespace fst
-
-#endif // FST_LIB_SPARSE_TUPLE_WEIGHT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/state-map.h b/kaldi_io/src/tools/openfst/include/fst/state-map.h
deleted file mode 100644
index 9d6db74..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/state-map.h
+++ /dev/null
@@ -1,605 +0,0 @@
-// map.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to map over/transform states e.g., sort transitions
-// Consider using when operation does not change the number of states.
-
-#ifndef FST_LIB_STATE_MAP_H__
-#define FST_LIB_STATE_MAP_H__
-
-#include <algorithm>
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <string>
-#include <utility>
-using std::pair; using std::make_pair;
-
-#include <fst/cache.h>
-#include <fst/arc-map.h>
-#include <fst/mutable-fst.h>
-
-
-namespace fst {
-
-// StateMapper Interface - class determinies how states are mapped.
-// Useful for implementing operations that do not change the number of states.
-//
-// class StateMapper {
-// public:
-// typedef A FromArc;
-// typedef B ToArc;
-//
-// // Typical constructor
-// StateMapper(const Fst<A> &fst);
-// // Required copy constructor that allows updating Fst argument;
-// // pass only if relevant and changed.
-// StateMapper(const StateMapper &mapper, const Fst<A> *fst = 0);
-//
-// // Specifies initial state of result
-// B::StateId Start() const;
-// // Specifies state's final weight in result
-// B::Weight Final(B::StateId s) const;
-//
-// // These methods iterate through a state's arcs in result
-// // Specifies state to iterate over
-// void SetState(B::StateId s);
-// // End of arcs?
-// bool Done() const;
-// // Current arc
-
-// const B &Value() const;
-// // Advance to next arc (when !Done)
-// void Next();
-//
-// // Specifies input symbol table action the mapper requires (see above).
-// MapSymbolsAction InputSymbolsAction() const;
-// // Specifies output symbol table action the mapper requires (see above).
-// MapSymbolsAction OutputSymbolsAction() const;
-// // This specifies the known properties of an Fst mapped by this
-// // mapper. It takes as argument the input Fst's known properties.
-// uint64 Properties(uint64 props) const;
-// };
-//
-// We include a various state map versions below. One dimension of
-// variation is whether the mapping mutates its input, writes to a
-// new result Fst, or is an on-the-fly Fst. Another dimension is how
-// we pass the mapper. We allow passing the mapper by pointer
-// for cases that we need to change the state of the user's mapper.
-// We also include map versions that pass the mapper
-// by value or const reference when this suffices.
-
-// Maps an arc type A using a mapper function object C, passed
-// by pointer. This version modifies its Fst input.
-template<class A, class C>
-void StateMap(MutableFst<A> *fst, C* mapper) {
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- if (mapper->InputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- fst->SetInputSymbols(0);
-
- if (mapper->OutputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- fst->SetOutputSymbols(0);
-
- if (fst->Start() == kNoStateId)
- return;
-
- uint64 props = fst->Properties(kFstProperties, false);
-
- fst->SetStart(mapper->Start());
-
- for (StateId s = 0; s < fst->NumStates(); ++s) {
- mapper->SetState(s);
- fst->DeleteArcs(s);
- for (; !mapper->Done(); mapper->Next())
- fst->AddArc(s, mapper->Value());
- fst->SetFinal(s, mapper->Final(s));
- }
-
- fst->SetProperties(mapper->Properties(props), kFstProperties);
-}
-
-// Maps an arc type A using a mapper function object C, passed
-// by value. This version modifies its Fst input.
-template<class A, class C>
-void StateMap(MutableFst<A> *fst, C mapper) {
- StateMap(fst, &mapper);
-}
-
-
-// Maps an arc type A to an arc type B using mapper function
-// object C, passed by pointer. This version writes the mapped
-// input Fst to an output MutableFst.
-template<class A, class B, class C>
-void StateMap(const Fst<A> &ifst, MutableFst<B> *ofst, C* mapper) {
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- ofst->DeleteStates();
-
- if (mapper->InputSymbolsAction() == MAP_COPY_SYMBOLS)
- ofst->SetInputSymbols(ifst.InputSymbols());
- else if (mapper->InputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- ofst->SetInputSymbols(0);
-
- if (mapper->OutputSymbolsAction() == MAP_COPY_SYMBOLS)
- ofst->SetOutputSymbols(ifst.OutputSymbols());
- else if (mapper->OutputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- ofst->SetOutputSymbols(0);
-
- uint64 iprops = ifst.Properties(kCopyProperties, false);
-
- if (ifst.Start() == kNoStateId) {
- if (iprops & kError) ofst->SetProperties(kError, kError);
- return;
- }
-
- // Add all states.
- if (ifst.Properties(kExpanded, false))
- ofst->ReserveStates(CountStates(ifst));
- for (StateIterator< Fst<A> > siter(ifst); !siter.Done(); siter.Next())
- ofst->AddState();
-
- ofst->SetStart(mapper->Start());
-
- for (StateIterator< Fst<A> > siter(ifst); !siter.Done(); siter.Next()) {
- StateId s = siter.Value();
- mapper->SetState(s);
- for (; !mapper->Done(); mapper->Next())
- ofst->AddArc(s, mapper->Value());
- ofst->SetFinal(s, mapper->Final(s));
- }
-
- uint64 oprops = ofst->Properties(kFstProperties, false);
- ofst->SetProperties(mapper->Properties(iprops) | oprops, kFstProperties);
-}
-
-// Maps an arc type A to an arc type B using mapper function
-// object C, passed by value. This version writes the mapped input
-// Fst to an output MutableFst.
-template<class A, class B, class C>
-void StateMap(const Fst<A> &ifst, MutableFst<B> *ofst, C mapper) {
- StateMap(ifst, ofst, &mapper);
-}
-
-typedef CacheOptions StateMapFstOptions;
-
-template <class A, class B, class C> class StateMapFst;
-
-// Implementation of delayed StateMapFst.
-template <class A, class B, class C>
-class StateMapFstImpl : public CacheImpl<B> {
- public:
- using FstImpl<B>::SetType;
- using FstImpl<B>::SetProperties;
- using FstImpl<B>::SetInputSymbols;
- using FstImpl<B>::SetOutputSymbols;
-
- using VectorFstBaseImpl<typename CacheImpl<B>::State>::NumStates;
-
- using CacheImpl<B>::PushArc;
- using CacheImpl<B>::HasArcs;
- using CacheImpl<B>::HasFinal;
- using CacheImpl<B>::HasStart;
- using CacheImpl<B>::SetArcs;
- using CacheImpl<B>::SetFinal;
- using CacheImpl<B>::SetStart;
-
- friend class StateIterator< StateMapFst<A, B, C> >;
-
- typedef B Arc;
- typedef typename B::Weight Weight;
- typedef typename B::StateId StateId;
-
- StateMapFstImpl(const Fst<A> &fst, const C &mapper,
- const StateMapFstOptions& opts)
- : CacheImpl<B>(opts),
- fst_(fst.Copy()),
- mapper_(new C(mapper, fst_)),
- own_mapper_(true) {
- Init();
- }
-
- StateMapFstImpl(const Fst<A> &fst, C *mapper,
- const StateMapFstOptions& opts)
- : CacheImpl<B>(opts),
- fst_(fst.Copy()),
- mapper_(mapper),
- own_mapper_(false) {
- Init();
- }
-
- StateMapFstImpl(const StateMapFstImpl<A, B, C> &impl)
- : CacheImpl<B>(impl),
- fst_(impl.fst_->Copy(true)),
- mapper_(new C(*impl.mapper_, fst_)),
- own_mapper_(true) {
- Init();
- }
-
- ~StateMapFstImpl() {
- delete fst_;
- if (own_mapper_) delete mapper_;
- }
-
- StateId Start() {
- if (!HasStart())
- SetStart(mapper_->Start());
- return CacheImpl<B>::Start();
- }
-
- Weight Final(StateId s) {
- if (!HasFinal(s))
- SetFinal(s, mapper_->Final(s));
- return CacheImpl<B>::Final(s);
- }
-
- size_t NumArcs(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<B>::NumArcs(s);
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<B>::NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<B>::NumOutputEpsilons(s);
- }
-
- void InitStateIterator(StateIteratorData<A> *data) const {
- fst_->InitStateIterator(data);
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<B> *data) {
- if (!HasArcs(s))
- Expand(s);
- CacheImpl<B>::InitArcIterator(s, data);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) && (fst_->Properties(kError, false) ||
- (mapper_->Properties(0) & kError)))
- SetProperties(kError, kError);
- return FstImpl<Arc>::Properties(mask);
- }
-
- void Expand(StateId s) {
- // Add exiting arcs.
- for (mapper_->SetState(s); !mapper_->Done(); mapper_->Next())
- PushArc(s, mapper_->Value());
- SetArcs(s);
- }
-
- const Fst<A> &GetFst() const {
- return *fst_;
- }
-
- private:
- void Init() {
- SetType("statemap");
-
- if (mapper_->InputSymbolsAction() == MAP_COPY_SYMBOLS)
- SetInputSymbols(fst_->InputSymbols());
- else if (mapper_->InputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- SetInputSymbols(0);
-
- if (mapper_->OutputSymbolsAction() == MAP_COPY_SYMBOLS)
- SetOutputSymbols(fst_->OutputSymbols());
- else if (mapper_->OutputSymbolsAction() == MAP_CLEAR_SYMBOLS)
- SetOutputSymbols(0);
-
- uint64 props = fst_->Properties(kCopyProperties, false);
- SetProperties(mapper_->Properties(props));
- }
-
- const Fst<A> *fst_;
- C* mapper_;
- bool own_mapper_;
-
- void operator=(const StateMapFstImpl<A, B, C> &); // disallow
-};
-
-
-// Maps an arc type A to an arc type B using Mapper function object
-// C. This version is a delayed Fst.
-template <class A, class B, class C>
-class StateMapFst : public ImplToFst< StateMapFstImpl<A, B, C> > {
- public:
- friend class ArcIterator< StateMapFst<A, B, C> >;
-
- typedef B Arc;
- typedef typename B::Weight Weight;
- typedef typename B::StateId StateId;
- typedef CacheState<B> State;
- typedef StateMapFstImpl<A, B, C> Impl;
-
- StateMapFst(const Fst<A> &fst, const C &mapper,
- const StateMapFstOptions& opts)
- : ImplToFst<Impl>(new Impl(fst, mapper, opts)) {}
-
- StateMapFst(const Fst<A> &fst, C* mapper, const StateMapFstOptions& opts)
- : ImplToFst<Impl>(new Impl(fst, mapper, opts)) {}
-
- StateMapFst(const Fst<A> &fst, const C &mapper)
- : ImplToFst<Impl>(new Impl(fst, mapper, StateMapFstOptions())) {}
-
- StateMapFst(const Fst<A> &fst, C* mapper)
- : ImplToFst<Impl>(new Impl(fst, mapper, StateMapFstOptions())) {}
-
- // See Fst<>::Copy() for doc.
- StateMapFst(const StateMapFst<A, B, C> &fst, bool safe = false)
- : ImplToFst<Impl>(fst, safe) {}
-
- // Get a copy of this StateMapFst. See Fst<>::Copy() for further doc.
- virtual StateMapFst<A, B, C> *Copy(bool safe = false) const {
- return new StateMapFst<A, B, C>(*this, safe);
- }
-
- virtual void InitStateIterator(StateIteratorData<A> *data) const {
- GetImpl()->InitStateIterator(data);
- }
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<B> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- protected:
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- private:
- void operator=(const StateMapFst<A, B, C> &fst); // disallow
-};
-
-
-// Specialization for StateMapFst.
-template <class A, class B, class C>
-class ArcIterator< StateMapFst<A, B, C> >
- : public CacheArcIterator< StateMapFst<A, B, C> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const StateMapFst<A, B, C> &fst, StateId s)
- : CacheArcIterator< StateMapFst<A, B, C> >(fst.GetImpl(), s) {
- if (!fst.GetImpl()->HasArcs(s))
- fst.GetImpl()->Expand(s);
- }
-
- private:
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-//
-// Utility Mappers
-//
-
-// Mapper that returns its input.
-template <class A>
-class IdentityStateMapper {
- public:
- typedef A FromArc;
- typedef A ToArc;
-
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- explicit IdentityStateMapper(const Fst<A> &fst) : fst_(fst), aiter_(0) {}
-
- // Allows updating Fst argument; pass only if changed.
- IdentityStateMapper(const IdentityStateMapper<A> &mapper,
- const Fst<A> *fst = 0)
- : fst_(fst ? *fst : mapper.fst_), aiter_(0) {}
-
- ~IdentityStateMapper() { delete aiter_; }
-
- StateId Start() const { return fst_.Start(); }
-
- Weight Final(StateId s) const { return fst_.Final(s); }
-
- void SetState(StateId s) {
- if (aiter_) delete aiter_;
- aiter_ = new ArcIterator< Fst<A> >(fst_, s);
- }
-
- bool Done() const { return aiter_->Done(); }
- const A &Value() const { return aiter_->Value(); }
- void Next() { aiter_->Next(); }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS;}
-
- uint64 Properties(uint64 props) const { return props; }
-
- private:
- const Fst<A> &fst_;
- ArcIterator< Fst<A> > *aiter_;
-};
-
-template <class A>
-class ArcSumMapper {
- public:
- typedef A FromArc;
- typedef A ToArc;
-
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- explicit ArcSumMapper(const Fst<A> &fst) : fst_(fst), i_(0) {}
-
- // Allows updating Fst argument; pass only if changed.
- ArcSumMapper(const ArcSumMapper<A> &mapper,
- const Fst<A> *fst = 0)
- : fst_(fst ? *fst : mapper.fst_), i_(0) {}
-
- StateId Start() const { return fst_.Start(); }
- Weight Final(StateId s) const { return fst_.Final(s); }
-
- void SetState(StateId s) {
- i_ = 0;
- arcs_.clear();
- arcs_.reserve(fst_.NumArcs(s));
- for (ArcIterator<Fst<A> > aiter(fst_, s); !aiter.Done(); aiter.Next())
- arcs_.push_back(aiter.Value());
-
- // First sorts the exiting arcs by input label, output label
- // and destination state and then sums weights of arcs with
- // the same input label, output label, and destination state.
- sort(arcs_.begin(), arcs_.end(), comp_);
- size_t narcs = 0;
- for (size_t i = 0; i < arcs_.size(); ++i) {
- if (narcs > 0 && equal_(arcs_[i], arcs_[narcs - 1])) {
- arcs_[narcs - 1].weight = Plus(arcs_[narcs - 1].weight,
- arcs_[i].weight);
- } else {
- arcs_[narcs++] = arcs_[i];
- }
- }
- arcs_.resize(narcs);
- }
-
- bool Done() const { return i_ >= arcs_.size(); }
- const A &Value() const { return arcs_[i_]; }
- void Next() { ++i_; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- uint64 Properties(uint64 props) const {
- return props & kArcSortProperties &
- kDeleteArcsProperties & kWeightInvariantProperties;
- }
-
- private:
- struct Compare {
- bool operator()(const A& x, const A& y) {
- if (x.ilabel < y.ilabel) return true;
- if (x.ilabel > y.ilabel) return false;
- if (x.olabel < y.olabel) return true;
- if (x.olabel > y.olabel) return false;
- if (x.nextstate < y.nextstate) return true;
- if (x.nextstate > y.nextstate) return false;
- return false;
- }
- };
-
- struct Equal {
- bool operator()(const A& x, const A& y) {
- return (x.ilabel == y.ilabel &&
- x.olabel == y.olabel &&
- x.nextstate == y.nextstate);
- }
- };
-
- const Fst<A> &fst_;
- Compare comp_;
- Equal equal_;
- vector<A> arcs_;
- ssize_t i_; // current arc position
-
- void operator=(const ArcSumMapper<A> &); // disallow
-};
-
-template <class A>
-class ArcUniqueMapper {
- public:
- typedef A FromArc;
- typedef A ToArc;
-
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- explicit ArcUniqueMapper(const Fst<A> &fst) : fst_(fst), i_(0) {}
-
- // Allows updating Fst argument; pass only if changed.
- ArcUniqueMapper(const ArcUniqueMapper<A> &mapper,
- const Fst<A> *fst = 0)
- : fst_(fst ? *fst : mapper.fst_), i_(0) {}
-
- StateId Start() const { return fst_.Start(); }
- Weight Final(StateId s) const { return fst_.Final(s); }
-
- void SetState(StateId s) {
- i_ = 0;
- arcs_.clear();
- arcs_.reserve(fst_.NumArcs(s));
- for (ArcIterator<Fst<A> > aiter(fst_, s); !aiter.Done(); aiter.Next())
- arcs_.push_back(aiter.Value());
-
- // First sorts the exiting arcs by input label, output label
- // and destination state and then uniques identical arcs
- sort(arcs_.begin(), arcs_.end(), comp_);
- typename vector<A>::iterator unique_end =
- unique(arcs_.begin(), arcs_.end(), equal_);
- arcs_.resize(unique_end - arcs_.begin());
- }
-
- bool Done() const { return i_ >= arcs_.size(); }
- const A &Value() const { return arcs_[i_]; }
- void Next() { ++i_; }
-
- MapSymbolsAction InputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
- MapSymbolsAction OutputSymbolsAction() const { return MAP_COPY_SYMBOLS; }
-
- uint64 Properties(uint64 props) const {
- return props & kArcSortProperties & kDeleteArcsProperties;
- }
-
- private:
- struct Compare {
- bool operator()(const A& x, const A& y) {
- if (x.ilabel < y.ilabel) return true;
- if (x.ilabel > y.ilabel) return false;
- if (x.olabel < y.olabel) return true;
- if (x.olabel > y.olabel) return false;
- if (x.nextstate < y.nextstate) return true;
- if (x.nextstate > y.nextstate) return false;
- return false;
- }
- };
-
- struct Equal {
- bool operator()(const A& x, const A& y) {
- return (x.ilabel == y.ilabel &&
- x.olabel == y.olabel &&
- x.nextstate == y.nextstate &&
- x.weight == y.weight);
- }
- };
-
- const Fst<A> &fst_;
- Compare comp_;
- Equal equal_;
- vector<A> arcs_;
- ssize_t i_; // current arc position
-
- void operator=(const ArcUniqueMapper<A> &); // disallow
-};
-
-
-} // namespace fst
-
-#endif // FST_LIB_STATE_MAP_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/state-reachable.h b/kaldi_io/src/tools/openfst/include/fst/state-reachable.h
deleted file mode 100644
index 6d0c971..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/state-reachable.h
+++ /dev/null
@@ -1,198 +0,0 @@
-// state-reachable.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Class to determine whether a given (final) state can be reached from some
-// other given state.
-
-#ifndef FST_LIB_STATE_REACHABLE_H__
-#define FST_LIB_STATE_REACHABLE_H__
-
-#include <vector>
-using std::vector;
-
-#include <fst/dfs-visit.h>
-#include <fst/fst.h>
-#include <fst/interval-set.h>
-
-
-namespace fst {
-
-// Computes the (final) states reachable from a given state in an FST.
-// After this visitor has been called, a final state f can be reached
-// from a state s iff (*isets)[s].Member(state2index[f]) is true, where
-// (*isets[s]) is a set of half-open inteval of final state indices
-// and state2index[f] maps from a final state to its index.
-//
-// If state2index is empty, it is filled-in with suitable indices.
-// If it is non-empty, those indices are used; in this case, the
-// final states must have out-degree 0.
-template <class A, typename I = typename A::StateId>
-class IntervalReachVisitor {
- public:
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename IntervalSet<I>::Interval Interval;
-
- IntervalReachVisitor(const Fst<A> &fst,
- vector< IntervalSet<I> > *isets,
- vector<I> *state2index)
- : fst_(fst),
- isets_(isets),
- state2index_(state2index),
- index_(state2index->empty() ? 1 : -1),
- error_(false) {
- isets_->clear();
- }
-
- void InitVisit(const Fst<A> &fst) { error_ = false; }
-
- bool InitState(StateId s, StateId r) {
- while (isets_->size() <= s)
- isets_->push_back(IntervalSet<Label>());
- while (state2index_->size() <= s)
- state2index_->push_back(-1);
-
- if (fst_.Final(s) != Weight::Zero()) {
- // Create tree interval
- vector<Interval> *intervals = (*isets_)[s].Intervals();
- if (index_ < 0) { // Use state2index_ map to set index
- if (fst_.NumArcs(s) > 0) {
- FSTERROR() << "IntervalReachVisitor: state2index map must be empty "
- << "for this FST";
- error_ = true;
- return false;
- }
- I index = (*state2index_)[s];
- if (index < 0) {
- FSTERROR() << "IntervalReachVisitor: state2index map incomplete";
- error_ = true;
- return false;
- }
- intervals->push_back(Interval(index, index + 1));
- } else { // Use pre-order index
- intervals->push_back(Interval(index_, index_ + 1));
- (*state2index_)[s] = index_++;
- }
- }
- return true;
- }
-
- bool TreeArc(StateId s, const A &arc) {
- return true;
- }
-
- bool BackArc(StateId s, const A &arc) {
- FSTERROR() << "IntervalReachVisitor: cyclic input";
- error_ = true;
- return false;
- }
-
- bool ForwardOrCrossArc(StateId s, const A &arc) {
- // Non-tree interval
- (*isets_)[s].Union((*isets_)[arc.nextstate]);
- return true;
- }
-
- void FinishState(StateId s, StateId p, const A *arc) {
- if (index_ >= 0 && fst_.Final(s) != Weight::Zero()) {
- vector<Interval> *intervals = (*isets_)[s].Intervals();
- (*intervals)[0].end = index_; // Update tree interval end
- }
- (*isets_)[s].Normalize();
- if (p != kNoStateId)
- (*isets_)[p].Union((*isets_)[s]); // Propagate intervals to parent
- }
-
- void FinishVisit() {}
-
- bool Error() const { return error_; }
-
- private:
- const Fst<A> &fst_;
- vector< IntervalSet<I> > *isets_;
- vector<I> *state2index_;
- I index_;
- bool error_;
-};
-
-
-// Tests reachability of final states from a given state. To test for
-// reachability from a state s, first do SetState(s). Then a final
-// state f can be reached from state s of FST iff Reach(f) is true.
-template <class A, typename I = typename A::StateId>
-class StateReachable {
- public:
- typedef A Arc;
- typedef I Index;
- typedef typename A::StateId StateId;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename IntervalSet<I>::Interval Interval;
-
- StateReachable(const Fst<A> &fst)
- : error_(false) {
- IntervalReachVisitor<Arc> reach_visitor(fst, &isets_, &state2index_);
- DfsVisit(fst, &reach_visitor);
- if (reach_visitor.Error()) error_ = true;
- }
-
- StateReachable(const StateReachable<A> &reachable) {
- FSTERROR() << "Copy constructor for state reachable class "
- << "not yet implemented.";
- error_ = true;
- }
-
- // Set current state.
- void SetState(StateId s) { s_ = s; }
-
- // Can reach this label from current state?
- bool Reach(StateId s) {
- if (s >= state2index_.size())
- return false;
-
- I i = state2index_[s];
- if (i < 0) {
- FSTERROR() << "StateReachable: state non-final: " << s;
- error_ = true;
- return false;
- }
- return isets_[s_].Member(i);
- }
-
- // Access to the state-to-index mapping. Unassigned states have index -1.
- vector<I> &State2Index() { return state2index_; }
-
- // Access to the interval sets. These specify the reachability
- // to the final states as intervals of the final state indices.
- const vector< IntervalSet<I> > &IntervalSets() { return isets_; }
-
- bool Error() const { return error_; }
-
- private:
- StateId s_; // Current state
- vector< IntervalSet<I> > isets_; // Interval sets per state
- vector<I> state2index_; // Finds index for a final state
- bool error_;
-
- void operator=(const StateReachable<A> &); // Disallow
-};
-
-} // namespace fst
-
-#endif // FST_LIB_STATE_REACHABLE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/state-table.h b/kaldi_io/src/tools/openfst/include/fst/state-table.h
deleted file mode 100644
index d8107a1..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/state-table.h
+++ /dev/null
@@ -1,481 +0,0 @@
-// state-table.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Classes for representing the mapping between state tuples and state Ids.
-
-#ifndef FST_LIB_STATE_TABLE_H__
-#define FST_LIB_STATE_TABLE_H__
-
-#include <deque>
-using std::deque;
-#include <vector>
-using std::vector;
-
-#include <fst/bi-table.h>
-#include <fst/expanded-fst.h>
-
-
-namespace fst {
-
-// STATE TABLES - these determine the bijective mapping between state
-// tuples (e.g. in composition triples of two FST states and a
-// composition filter state) and their corresponding state IDs.
-// They are classes, templated on state tuples, of the form:
-//
-// template <class T>
-// class StateTable {
-// public:
-// typedef typename T StateTuple;
-//
-// // Required constructors.
-// StateTable();
-//
-// // Lookup state ID by tuple. If it doesn't exist, then add it.
-// StateId FindState(const StateTuple &);
-// // Lookup state tuple by state ID.
-// const StateTuple<StateId> &Tuple(StateId) const;
-// // # of stored tuples.
-// StateId Size() const;
-// };
-//
-// A state tuple has the form:
-//
-// template <class S>
-// struct StateTuple {
-// typedef typename S StateId;
-//
-// // Required constructors.
-// StateTuple();
-// StateTuple(const StateTuple &);
-// };
-
-
-// An implementation using a hash map for the tuple to state ID mapping.
-// The state tuple T must have == defined. H is the hash function.
-template <class T, class H>
-class HashStateTable : public HashBiTable<typename T::StateId, T, H> {
- public:
- typedef T StateTuple;
- typedef typename StateTuple::StateId StateId;
- using HashBiTable<StateId, T, H>::FindId;
- using HashBiTable<StateId, T, H>::FindEntry;
- using HashBiTable<StateId, T, H>::Size;
-
- HashStateTable() : HashBiTable<StateId, T, H>() {}
-
- // Reserves space for table_size elements.
- explicit HashStateTable(size_t table_size)
- : HashBiTable<StateId, T, H>(table_size) {}
-
- StateId FindState(const StateTuple &tuple) { return FindId(tuple); }
- const StateTuple &Tuple(StateId s) const { return FindEntry(s); }
-};
-
-
-// An implementation using a hash map for the tuple to state ID mapping.
-// The state tuple T must have == defined. H is the hash function.
-template <class T, class H>
-class CompactHashStateTable
- : public CompactHashBiTable<typename T::StateId, T, H> {
- public:
- typedef T StateTuple;
- typedef typename StateTuple::StateId StateId;
- using CompactHashBiTable<StateId, T, H>::FindId;
- using CompactHashBiTable<StateId, T, H>::FindEntry;
- using CompactHashBiTable<StateId, T, H>::Size;
-
- CompactHashStateTable() : CompactHashBiTable<StateId, T, H>() {}
-
- // Reserves space for 'table_size' elements.
- explicit CompactHashStateTable(size_t table_size)
- : CompactHashBiTable<StateId, T, H>(table_size) {}
-
- StateId FindState(const StateTuple &tuple) { return FindId(tuple); }
- const StateTuple &Tuple(StateId s) const { return FindEntry(s); }
-};
-
-// An implementation using a vector for the tuple to state mapping.
-// It is passed a function object FP that should fingerprint tuples
-// uniquely to an integer that can used as a vector index. Normally,
-// VectorStateTable constructs the FP object. The user can instead
-// pass in this object; in that case, VectorStateTable takes its
-// ownership.
-template <class T, class FP>
-class VectorStateTable
- : public VectorBiTable<typename T::StateId, T, FP> {
- public:
- typedef T StateTuple;
- typedef typename StateTuple::StateId StateId;
- using VectorBiTable<StateId, T, FP>::FindId;
- using VectorBiTable<StateId, T, FP>::FindEntry;
- using VectorBiTable<StateId, T, FP>::Size;
- using VectorBiTable<StateId, T, FP>::Fingerprint;
-
- // Reserves space for 'table_size' elements.
- explicit VectorStateTable(FP *fp = 0, size_t table_size = 0)
- : VectorBiTable<StateId, T, FP>(fp, table_size) {}
-
- StateId FindState(const StateTuple &tuple) { return FindId(tuple); }
- const StateTuple &Tuple(StateId s) const { return FindEntry(s); }
-};
-
-
-// An implementation using a vector and a compact hash table. The
-// selecting functor S returns true for tuples to be hashed in the
-// vector. The fingerprinting functor FP returns a unique fingerprint
-// for each tuple to be hashed in the vector (these need to be
-// suitable for indexing in a vector). The hash functor H is used when
-// hashing tuple into the compact hash table.
-template <class T, class S, class FP, class H>
-class VectorHashStateTable
- : public VectorHashBiTable<typename T::StateId, T, S, FP, H> {
- public:
- typedef T StateTuple;
- typedef typename StateTuple::StateId StateId;
- using VectorHashBiTable<StateId, T, S, FP, H>::FindId;
- using VectorHashBiTable<StateId, T, S, FP, H>::FindEntry;
- using VectorHashBiTable<StateId, T, S, FP, H>::Size;
- using VectorHashBiTable<StateId, T, S, FP, H>::Selector;
- using VectorHashBiTable<StateId, T, S, FP, H>::Fingerprint;
- using VectorHashBiTable<StateId, T, S, FP, H>::Hash;
-
- VectorHashStateTable(S *s, FP *fp, H *h,
- size_t vector_size = 0,
- size_t tuple_size = 0)
- : VectorHashBiTable<StateId, T, S, FP, H>(
- s, fp, h, vector_size, tuple_size) {}
-
- StateId FindState(const StateTuple &tuple) { return FindId(tuple); }
- const StateTuple &Tuple(StateId s) const { return FindEntry(s); }
-};
-
-
-// An implementation using a hash map for the tuple to state ID
-// mapping. This version permits erasing of states. The state tuple T
-// must have == defined and its default constructor must produce a
-// tuple that will never be seen. F is the hash function.
-template <class T, class F>
-class ErasableStateTable : public ErasableBiTable<typename T::StateId, T, F> {
- public:
- typedef T StateTuple;
- typedef typename StateTuple::StateId StateId;
- using ErasableBiTable<StateId, T, F>::FindId;
- using ErasableBiTable<StateId, T, F>::FindEntry;
- using ErasableBiTable<StateId, T, F>::Size;
- using ErasableBiTable<StateId, T, F>::Erase;
-
- ErasableStateTable() : ErasableBiTable<StateId, T, F>() {}
- StateId FindState(const StateTuple &tuple) { return FindId(tuple); }
- const StateTuple &Tuple(StateId s) const { return FindEntry(s); }
-};
-
-//
-// COMPOSITION STATE TUPLES AND TABLES
-//
-// The composition state table has the form:
-//
-// template <class A, class F>
-// class ComposeStateTable {
-// public:
-// typedef A Arc;
-// typedef F FilterState;
-// typedef typename A::StateId StateId;
-// typedef ComposeStateTuple<StateId> StateTuple;
-//
-// // Required constructors. Copy constructor does not copy state.
-// ComposeStateTable(const Fst<Arc> &fst1, const Fst<Arc> &fst2);
-// ComposeStateTable(const ComposeStateTable<A, F> &table);
-// // Lookup state ID by tuple. If it doesn't exist, then add it.
-// StateId FindState(const StateTuple &);
-// // Lookup state tuple by state ID.
-// const StateTuple<StateId> &Tuple(StateId) const;
-// // # of stored tuples.
-// StateId Size() const;
-// // Return true if error encountered
-// bool Error() const;
-// };
-
-// Represents the composition state.
-template <typename S, typename F>
-struct ComposeStateTuple {
- typedef S StateId;
- typedef F FilterState;
-
- ComposeStateTuple()
- : state_id1(kNoStateId), state_id2(kNoStateId),
- filter_state(FilterState::NoState()) {}
-
- ComposeStateTuple(StateId s1, StateId s2, const FilterState &f)
- : state_id1(s1), state_id2(s2), filter_state(f) {}
-
- StateId state_id1; // State Id on fst1
- StateId state_id2; // State Id on fst2
- FilterState filter_state; // State of composition filter
-};
-
-// Equality of composition state tuples.
-template <typename S, typename F>
-inline bool operator==(const ComposeStateTuple<S, F>& x,
- const ComposeStateTuple<S, F>& y) {
- if (&x == &y)
- return true;
- return x.state_id1 == y.state_id1 &&
- x.state_id2 == y.state_id2 &&
- x.filter_state == y.filter_state;
-}
-
-
-// Hashing of composition state tuples.
-template <typename S, typename F>
-class ComposeHash {
- public:
- size_t operator()(const ComposeStateTuple<S, F>& t) const {
- return t.state_id1 + t.state_id2 * kPrime0 +
- t.filter_state.Hash() * kPrime1;
- }
- private:
- static const size_t kPrime0;
- static const size_t kPrime1;
-};
-
-template <typename S, typename F>
-const size_t ComposeHash<S, F>::kPrime0 = 7853;
-
-template <typename S, typename F>
-const size_t ComposeHash<S, F>::kPrime1 = 7867;
-
-
-// A HashStateTable over composition tuples.
-template <typename A,
- typename F,
- typename H =
- CompactHashStateTable<ComposeStateTuple<typename A::StateId, F>,
- ComposeHash<typename A::StateId, F> > >
-class GenericComposeStateTable : public H {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef F FilterState;
- typedef ComposeStateTuple<StateId, F> StateTuple;
-
- GenericComposeStateTable(const Fst<A> &fst1, const Fst<A> &fst2) {}
-
- // Reserves space for 'table_size' elements.
- GenericComposeStateTable(const Fst<A> &fst1, const Fst<A> &fst2,
- size_t table_size) : H(table_size) {}
-
- bool Error() const { return false; }
-
- private:
- void operator=(const GenericComposeStateTable<A, F> &table); // disallow
-};
-
-
-// Fingerprint for general composition tuples.
-template <typename S, typename F>
-class ComposeFingerprint {
- public:
- typedef S StateId;
- typedef F FilterState;
- typedef ComposeStateTuple<S, F> StateTuple;
-
- // Required but suboptimal constructor.
- ComposeFingerprint() : mult1_(8192), mult2_(8192) {
- LOG(WARNING) << "TupleFingerprint: # of FST states should be provided.";
- }
-
- // Constructor is provided the sizes of the input FSTs
- ComposeFingerprint(StateId nstates1, StateId nstates2)
- : mult1_(nstates1), mult2_(nstates1 * nstates2) { }
-
- size_t operator()(const StateTuple &tuple) {
- return tuple.state_id1 + tuple.state_id2 * mult1_ +
- tuple.filter_state.Hash() * mult2_;
- }
-
- private:
- ssize_t mult1_;
- ssize_t mult2_;
-};
-
-
-// Useful when the first composition state determines the tuple.
-template <typename S, typename F>
-class ComposeState1Fingerprint {
- public:
- typedef S StateId;
- typedef F FilterState;
- typedef ComposeStateTuple<S, F> StateTuple;
-
- size_t operator()(const StateTuple &tuple) { return tuple.state_id1; }
-};
-
-
-// Useful when the second composition state determines the tuple.
-template <typename S, typename F>
-class ComposeState2Fingerprint {
- public:
- typedef S StateId;
- typedef F FilterState;
- typedef ComposeStateTuple<S, F> StateTuple;
-
- size_t operator()(const StateTuple &tuple) { return tuple.state_id2; }
-};
-
-
-// A VectorStateTable over composition tuples. This can be used when
-// the product of number of states in FST1 and FST2 (and the
-// composition filter state hash) is manageable. If the FSTs are not
-// expanded Fsts, they will first have their states counted.
-template <typename A, typename F>
-class ProductComposeStateTable : public
-VectorStateTable<ComposeStateTuple<typename A::StateId, F>,
- ComposeFingerprint<typename A::StateId, F> > {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef F FilterState;
- typedef ComposeStateTuple<StateId, F> StateTuple;
- typedef VectorStateTable<StateTuple,
- ComposeFingerprint<StateId, F> > StateTable;
-
- // Reserves space for 'table_size' elements.
- ProductComposeStateTable(const Fst<A> &fst1, const Fst<A> &fst2,
- size_t table_size = 0)
- : StateTable(new ComposeFingerprint<StateId, F>(CountStates(fst1),
- CountStates(fst2)),
- table_size) {}
-
- ProductComposeStateTable(const ProductComposeStateTable<A, F> &table)
- : StateTable(new ComposeFingerprint<StateId, F>(table.Fingerprint())) {}
-
- bool Error() const { return false; }
-
- private:
- void operator=(const ProductComposeStateTable<A, F> &table); // disallow
-};
-
-// A VectorStateTable over composition tuples. This can be used when
-// FST1 is a string (satisfies kStringProperties) and FST2 is
-// epsilon-free and deterministic. It should be used with a
-// composition filter that creates at most one filter state per tuple
-// under these conditions (e.g. SequenceComposeFilter or
-// MatchComposeFilter).
-template <typename A, typename F>
-class StringDetComposeStateTable : public
-VectorStateTable<ComposeStateTuple<typename A::StateId, F>,
- ComposeState1Fingerprint<typename A::StateId, F> > {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef F FilterState;
- typedef ComposeStateTuple<StateId, F> StateTuple;
- typedef VectorStateTable<StateTuple,
- ComposeState1Fingerprint<StateId, F> > StateTable;
-
- StringDetComposeStateTable(const Fst<A> &fst1, const Fst<A> &fst2)
- : error_(false) {
- uint64 props1 = kString;
- uint64 props2 = kIDeterministic | kNoIEpsilons;
- if (fst1.Properties(props1, true) != props1 ||
- fst2.Properties(props2, true) != props2) {
- FSTERROR() << "StringDetComposeStateTable: fst1 not a string or"
- << " fst2 not input deterministic and epsilon-free";
- error_ = true;
- }
- }
-
- StringDetComposeStateTable(const StringDetComposeStateTable<A, F> &table)
- : StateTable(table), error_(table.error_) {}
-
- bool Error() const { return error_; }
-
- private:
- bool error_;
-
- void operator=(const StringDetComposeStateTable<A, F> &table); // disallow
-};
-
-
-// A VectorStateTable over composition tuples. This can be used when
-// FST2 is a string (satisfies kStringProperties) and FST1 is
-// epsilon-free and deterministic. It should be used with a
-// composition filter that creates at most one filter state per tuple
-// under these conditions (e.g. SequenceComposeFilter or
-// MatchComposeFilter).
-template <typename A, typename F>
-class DetStringComposeStateTable : public
-VectorStateTable<ComposeStateTuple<typename A::StateId, F>,
- ComposeState2Fingerprint<typename A::StateId, F> > {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef F FilterState;
- typedef ComposeStateTuple<StateId, F> StateTuple;
- typedef VectorStateTable<StateTuple,
- ComposeState2Fingerprint<StateId, F> > StateTable;
-
- DetStringComposeStateTable(const Fst<A> &fst1, const Fst<A> &fst2)
- :error_(false) {
- uint64 props1 = kODeterministic | kNoOEpsilons;
- uint64 props2 = kString;
- if (fst1.Properties(props1, true) != props1 ||
- fst2.Properties(props2, true) != props2) {
- FSTERROR() << "StringDetComposeStateTable: fst2 not a string or"
- << " fst1 not output deterministic and epsilon-free";
- error_ = true;
- }
- }
-
- DetStringComposeStateTable(const DetStringComposeStateTable<A, F> &table)
- : StateTable(table), error_(table.error_) {}
-
- bool Error() const { return error_; }
-
- private:
- bool error_;
-
- void operator=(const DetStringComposeStateTable<A, F> &table); // disallow
-};
-
-
-// An ErasableStateTable over composition tuples. The Erase(StateId) method
-// can be called if the user either is sure that composition will never return
-// to that tuple or doesn't care that if it does, it is assigned a new
-// state ID.
-template <typename A, typename F>
-class ErasableComposeStateTable : public
-ErasableStateTable<ComposeStateTuple<typename A::StateId, F>,
- ComposeHash<typename A::StateId, F> > {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef F FilterState;
- typedef ComposeStateTuple<StateId, F> StateTuple;
-
- ErasableComposeStateTable(const Fst<A> &fst1, const Fst<A> &fst2) {}
-
- bool Error() const { return false; }
-
- private:
- void operator=(const ErasableComposeStateTable<A, F> &table); // disallow
-};
-
-} // namespace fst
-
-#endif // FST_LIB_STATE_TABLE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/statesort.h b/kaldi_io/src/tools/openfst/include/fst/statesort.h
deleted file mode 100644
index 6f827f4..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/statesort.h
+++ /dev/null
@@ -1,97 +0,0 @@
-// statesort.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Function to sort states of an Fst.
-
-#ifndef FST_LIB_STATESORT_H__
-#define FST_LIB_STATESORT_H__
-
-#include <vector>
-using std::vector;
-#include <algorithm>
-
-#include <fst/mutable-fst.h>
-
-
-namespace fst {
-
-// Sorts the input states of an FST, modifying it. ORDER[i] gives the
-// the state Id after sorting that corresponds to state Id i before
-// sorting. ORDER must be a permutation of FST's states ID sequence:
-// (0, 1, 2, ..., fst->NumStates() - 1).
-template <class Arc>
-void StateSort(MutableFst<Arc> *fst,
- const vector<typename Arc::StateId> &order) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Weight Weight;
-
- if (order.size() != fst->NumStates()) {
- FSTERROR() << "StateSort: bad order vector size: " << order.size();
- fst->SetProperties(kError, kError);
- return;
- }
-
- if (fst->Start() == kNoStateId)
- return;
-
- uint64 props = fst->Properties(kStateSortProperties, false);
-
- vector<bool> done(order.size(), false);
- vector<Arc> arcsa, arcsb;
- vector<Arc> *arcs1 = &arcsa, *arcs2 = &arcsb;
-
- fst->SetStart(order[fst->Start()]);
-
- for (StateIterator< MutableFst<Arc> > siter(*fst);
- !siter.Done();
- siter.Next()) {
- StateId s1 = siter.Value(), s2;
- if (done[s1])
- continue;
- Weight final1 = fst->Final(s1), final2 = Weight::Zero();
- arcs1->clear();
- for (ArcIterator< MutableFst<Arc> > aiter(*fst, s1);
- !aiter.Done();
- aiter.Next())
- arcs1->push_back(aiter.Value());
- for (; !done[s1]; s1 = s2, final1 = final2, swap(arcs1, arcs2)) {
- s2 = order[s1];
- if (!done[s2]) {
- final2 = fst->Final(s2);
- arcs2->clear();
- for (ArcIterator< MutableFst<Arc> > aiter(*fst, s2);
- !aiter.Done();
- aiter.Next())
- arcs2->push_back(aiter.Value());
- }
- fst->SetFinal(s2, final1);
- fst->DeleteArcs(s2);
- for (size_t i = 0; i < arcs1->size(); ++i) {
- Arc arc = (*arcs1)[i];
- arc.nextstate = order[arc.nextstate];
- fst->AddArc(s2, arc);
- }
- done[s1] = true;
- }
- }
- fst->SetProperties(props, kFstProperties);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_STATESORT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/string-weight.h b/kaldi_io/src/tools/openfst/include/fst/string-weight.h
deleted file mode 100644
index 1beeb33..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/string-weight.h
+++ /dev/null
@@ -1,560 +0,0 @@
-// string-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// String weight set and associated semiring operation definitions.
-
-#ifndef FST_LIB_STRING_WEIGHT_H__
-#define FST_LIB_STRING_WEIGHT_H__
-
-#include <list>
-#include <string>
-
-#include <fst/product-weight.h>
-#include <fst/weight.h>
-
-namespace fst {
-
-const int kStringInfinity = -1; // Label for the infinite string
-const int kStringBad = -2; // Label for a non-string
-const char kStringSeparator = '_'; // Label separator in strings
-
-// Determines whether to use left or right string semiring. Includes
-// restricted versions that signal an error if proper prefixes
-// (suffixes) would otherwise be returned by Plus, useful with various
-// algorithms that require functional transducer input with the
-// string semirings.
-enum StringType { STRING_LEFT = 0, STRING_RIGHT = 1 ,
- STRING_LEFT_RESTRICT = 2, STRING_RIGHT_RESTRICT };
-
-#define REVERSE_STRING_TYPE(S) \
- ((S) == STRING_LEFT ? STRING_RIGHT : \
- ((S) == STRING_RIGHT ? STRING_LEFT : \
- ((S) == STRING_LEFT_RESTRICT ? STRING_RIGHT_RESTRICT : \
- STRING_LEFT_RESTRICT)))
-
-template <typename L, StringType S = STRING_LEFT>
-class StringWeight;
-
-template <typename L, StringType S = STRING_LEFT>
-class StringWeightIterator;
-
-template <typename L, StringType S = STRING_LEFT>
-class StringWeightReverseIterator;
-
-template <typename L, StringType S>
-bool operator==(const StringWeight<L, S> &, const StringWeight<L, S> &);
-
-
-// String semiring: (longest_common_prefix/suffix, ., Infinity, Epsilon)
-template <typename L, StringType S>
-class StringWeight {
- public:
- typedef L Label;
- typedef StringWeight<L, REVERSE_STRING_TYPE(S)> ReverseWeight;
-
- friend class StringWeightIterator<L, S>;
- friend class StringWeightReverseIterator<L, S>;
- friend bool operator==<>(const StringWeight<L, S> &,
- const StringWeight<L, S> &);
-
- StringWeight() { Init(); }
-
- template <typename Iter>
- StringWeight(const Iter &begin, const Iter &end) {
- Init();
- for (Iter iter = begin; iter != end; ++iter)
- PushBack(*iter);
- }
-
- explicit StringWeight(L l) { Init(); PushBack(l); }
-
- static const StringWeight<L, S> &Zero() {
- static const StringWeight<L, S> zero(kStringInfinity);
- return zero;
- }
-
- static const StringWeight<L, S> &One() {
- static const StringWeight<L, S> one;
- return one;
- }
-
- static const StringWeight<L, S> &NoWeight() {
- static const StringWeight<L, S> no_weight(kStringBad);
- return no_weight;
- }
-
- static const string &Type() {
- static const string type =
- S == STRING_LEFT ? "string" :
- (S == STRING_RIGHT ? "right_string" :
- (S == STRING_LEFT_RESTRICT ? "restricted_string" :
- "right_restricted_string"));
- return type;
- }
-
- bool Member() const;
-
- istream &Read(istream &strm);
-
- ostream &Write(ostream &strm) const;
-
- size_t Hash() const;
-
- StringWeight<L, S> Quantize(float delta = kDelta) const {
- return *this;
- }
-
- ReverseWeight Reverse() const;
-
- static uint64 Properties() {
- return (S == STRING_LEFT || S == STRING_LEFT_RESTRICT ?
- kLeftSemiring : kRightSemiring) | kIdempotent;
- }
-
- // NB: This needs to be uncommented only if default fails for this impl.
- // StringWeight<L, S> &operator=(const StringWeight<L, S> &w);
-
- // These operations combined with the StringWeightIterator and
- // StringWeightReverseIterator provide the access and mutation of
- // the string internal elements.
-
- // Common initializer among constructors.
- void Init() { first_ = 0; }
-
- // Clear existing StringWeight.
- void Clear() { first_ = 0; rest_.clear(); }
-
- size_t Size() const { return first_ ? rest_.size() + 1 : 0; }
-
- void PushFront(L l) {
- if (first_)
- rest_.push_front(first_);
- first_ = l;
- }
-
- void PushBack(L l) {
- if (!first_)
- first_ = l;
- else
- rest_.push_back(l);
- }
-
- private:
- L first_; // first label in string (0 if empty)
- list<L> rest_; // remaining labels in string
-};
-
-
-// Traverses string in forward direction.
-template <typename L, StringType S>
-class StringWeightIterator {
- public:
- explicit StringWeightIterator(const StringWeight<L, S>& w)
- : first_(w.first_), rest_(w.rest_), init_(true),
- iter_(rest_.begin()) {}
-
- bool Done() const {
- if (init_) return first_ == 0;
- else return iter_ == rest_.end();
- }
-
- const L& Value() const { return init_ ? first_ : *iter_; }
-
- void Next() {
- if (init_) init_ = false;
- else ++iter_;
- }
-
- void Reset() {
- init_ = true;
- iter_ = rest_.begin();
- }
-
- private:
- const L &first_;
- const list<L> &rest_;
- bool init_; // in the initialized state?
- typename list<L>::const_iterator iter_;
-
- DISALLOW_COPY_AND_ASSIGN(StringWeightIterator);
-};
-
-
-// Traverses string in backward direction.
-template <typename L, StringType S>
-class StringWeightReverseIterator {
- public:
- explicit StringWeightReverseIterator(const StringWeight<L, S>& w)
- : first_(w.first_), rest_(w.rest_), fin_(first_ == 0),
- iter_(rest_.rbegin()) {}
-
- bool Done() const { return fin_; }
-
- const L& Value() const { return iter_ == rest_.rend() ? first_ : *iter_; }
-
- void Next() {
- if (iter_ == rest_.rend()) fin_ = true;
- else ++iter_;
- }
-
- void Reset() {
- fin_ = false;
- iter_ = rest_.rbegin();
- }
-
- private:
- const L &first_;
- const list<L> &rest_;
- bool fin_; // in the final state?
- typename list<L>::const_reverse_iterator iter_;
-
- DISALLOW_COPY_AND_ASSIGN(StringWeightReverseIterator);
-};
-
-
-// StringWeight member functions follow that require
-// StringWeightIterator or StringWeightReverseIterator.
-
-template <typename L, StringType S>
-inline istream &StringWeight<L, S>::Read(istream &strm) {
- Clear();
- int32 size;
- ReadType(strm, &size);
- for (int i = 0; i < size; ++i) {
- L label;
- ReadType(strm, &label);
- PushBack(label);
- }
- return strm;
-}
-
-template <typename L, StringType S>
-inline ostream &StringWeight<L, S>::Write(ostream &strm) const {
- int32 size = Size();
- WriteType(strm, size);
- for (StringWeightIterator<L, S> iter(*this); !iter.Done(); iter.Next()) {
- L label = iter.Value();
- WriteType(strm, label);
- }
- return strm;
-}
-
-template <typename L, StringType S>
-inline bool StringWeight<L, S>::Member() const {
- if (Size() != 1)
- return true;
- StringWeightIterator<L, S> iter(*this);
- return iter.Value() != kStringBad;
-}
-
-template <typename L, StringType S>
-inline typename StringWeight<L, S>::ReverseWeight
-StringWeight<L, S>::Reverse() const {
- ReverseWeight rw;
- for (StringWeightIterator<L, S> iter(*this); !iter.Done(); iter.Next())
- rw.PushFront(iter.Value());
- return rw;
-}
-
-template <typename L, StringType S>
-inline size_t StringWeight<L, S>::Hash() const {
- size_t h = 0;
- for (StringWeightIterator<L, S> iter(*this); !iter.Done(); iter.Next())
- h ^= h<<1 ^ iter.Value();
- return h;
-}
-
-// NB: This needs to be uncommented only if default fails for this the impl.
-//
-// template <typename L, StringType S>
-// inline StringWeight<L, S>
-// &StringWeight<L, S>::operator=(const StringWeight<L, S> &w) {
-// if (this != &w) {
-// Clear();
-// for (StringWeightIterator<L, S> iter(w); !iter.Done(); iter.Next())
-// PushBack(iter.Value());
-// }
-// return *this;
-// }
-
-template <typename L, StringType S>
-inline bool operator==(const StringWeight<L, S> &w1,
- const StringWeight<L, S> &w2) {
- if (w1.Size() != w2.Size())
- return false;
-
- StringWeightIterator<L, S> iter1(w1);
- StringWeightIterator<L, S> iter2(w2);
-
- for (; !iter1.Done() ; iter1.Next(), iter2.Next())
- if (iter1.Value() != iter2.Value())
- return false;
-
- return true;
-}
-
-template <typename L, StringType S>
-inline bool operator!=(const StringWeight<L, S> &w1,
- const StringWeight<L, S> &w2) {
- return !(w1 == w2);
-}
-
-template <typename L, StringType S>
-inline bool ApproxEqual(const StringWeight<L, S> &w1,
- const StringWeight<L, S> &w2,
- float delta = kDelta) {
- return w1 == w2;
-}
-
-template <typename L, StringType S>
-inline ostream &operator<<(ostream &strm, const StringWeight<L, S> &w) {
- StringWeightIterator<L, S> iter(w);
- if (iter.Done())
- return strm << "Epsilon";
- else if (iter.Value() == kStringInfinity)
- return strm << "Infinity";
- else if (iter.Value() == kStringBad)
- return strm << "BadString";
- else
- for (size_t i = 0; !iter.Done(); ++i, iter.Next()) {
- if (i > 0)
- strm << kStringSeparator;
- strm << iter.Value();
- }
- return strm;
-}
-
-template <typename L, StringType S>
-inline istream &operator>>(istream &strm, StringWeight<L, S> &w) {
- string s;
- strm >> s;
- if (s == "Infinity") {
- w = StringWeight<L, S>::Zero();
- } else if (s == "Epsilon") {
- w = StringWeight<L, S>::One();
- } else {
- w.Clear();
- char *p = 0;
- for (const char *cs = s.c_str(); !p || *p != '\0'; cs = p + 1) {
- int l = strtoll(cs, &p, 10);
- if (p == cs || (*p != 0 && *p != kStringSeparator)) {
- strm.clear(std::ios::badbit);
- break;
- }
- w.PushBack(l);
- }
- }
- return strm;
-}
-
-
-// Default is for the restricted left and right semirings. String
-// equality is required (for non-Zero() input. This restriction
-// is used in e.g. Determinize to ensure functional input.
-template <typename L, StringType S> inline StringWeight<L, S>
-Plus(const StringWeight<L, S> &w1,
- const StringWeight<L, S> &w2) {
- if (!w1.Member() || !w2.Member())
- return StringWeight<L, S>::NoWeight();
- if (w1 == StringWeight<L, S>::Zero())
- return w2;
- if (w2 == StringWeight<L, S>::Zero())
- return w1;
-
- if (w1 != w2) {
- FSTERROR() << "StringWeight::Plus: unequal arguments "
- << "(non-functional FST?)"
- << " w1 = " << w1
- << " w2 = " << w2;
- return StringWeight<L, S>::NoWeight();
- }
-
- return w1;
-}
-
-
-// Longest common prefix for left string semiring.
-template <typename L> inline StringWeight<L, STRING_LEFT>
-Plus(const StringWeight<L, STRING_LEFT> &w1,
- const StringWeight<L, STRING_LEFT> &w2) {
- if (!w1.Member() || !w2.Member())
- return StringWeight<L, STRING_LEFT>::NoWeight();
- if (w1 == StringWeight<L, STRING_LEFT>::Zero())
- return w2;
- if (w2 == StringWeight<L, STRING_LEFT>::Zero())
- return w1;
-
- StringWeight<L, STRING_LEFT> sum;
- StringWeightIterator<L, STRING_LEFT> iter1(w1);
- StringWeightIterator<L, STRING_LEFT> iter2(w2);
- for (; !iter1.Done() && !iter2.Done() && iter1.Value() == iter2.Value();
- iter1.Next(), iter2.Next())
- sum.PushBack(iter1.Value());
- return sum;
-}
-
-
-// Longest common suffix for right string semiring.
-template <typename L> inline StringWeight<L, STRING_RIGHT>
-Plus(const StringWeight<L, STRING_RIGHT> &w1,
- const StringWeight<L, STRING_RIGHT> &w2) {
- if (!w1.Member() || !w2.Member())
- return StringWeight<L, STRING_RIGHT>::NoWeight();
- if (w1 == StringWeight<L, STRING_RIGHT>::Zero())
- return w2;
- if (w2 == StringWeight<L, STRING_RIGHT>::Zero())
- return w1;
-
- StringWeight<L, STRING_RIGHT> sum;
- StringWeightReverseIterator<L, STRING_RIGHT> iter1(w1);
- StringWeightReverseIterator<L, STRING_RIGHT> iter2(w2);
- for (; !iter1.Done() && !iter2.Done() && iter1.Value() == iter2.Value();
- iter1.Next(), iter2.Next())
- sum.PushFront(iter1.Value());
- return sum;
-}
-
-
-template <typename L, StringType S>
-inline StringWeight<L, S> Times(const StringWeight<L, S> &w1,
- const StringWeight<L, S> &w2) {
- if (!w1.Member() || !w2.Member())
- return StringWeight<L, S>::NoWeight();
- if (w1 == StringWeight<L, S>::Zero() || w2 == StringWeight<L, S>::Zero())
- return StringWeight<L, S>::Zero();
-
- StringWeight<L, S> prod(w1);
- for (StringWeightIterator<L, S> iter(w2); !iter.Done(); iter.Next())
- prod.PushBack(iter.Value());
-
- return prod;
-}
-
-
-// Default is for left division in the left string and the
-// left restricted string semirings.
-template <typename L, StringType S> inline StringWeight<L, S>
-Divide(const StringWeight<L, S> &w1,
- const StringWeight<L, S> &w2,
- DivideType typ) {
-
- if (typ != DIVIDE_LEFT) {
- FSTERROR() << "StringWeight::Divide: only left division is defined "
- << "for the " << StringWeight<L, S>::Type() << " semiring";
- return StringWeight<L, S>::NoWeight();
- }
-
- if (!w1.Member() || !w2.Member())
- return StringWeight<L, S>::NoWeight();
-
- if (w2 == StringWeight<L, S>::Zero())
- return StringWeight<L, S>(kStringBad);
- else if (w1 == StringWeight<L, S>::Zero())
- return StringWeight<L, S>::Zero();
-
- StringWeight<L, S> div;
- StringWeightIterator<L, S> iter(w1);
- for (int i = 0; !iter.Done(); iter.Next(), ++i) {
- if (i >= w2.Size())
- div.PushBack(iter.Value());
- }
- return div;
-}
-
-
-// Right division in the right string semiring.
-template <typename L> inline StringWeight<L, STRING_RIGHT>
-Divide(const StringWeight<L, STRING_RIGHT> &w1,
- const StringWeight<L, STRING_RIGHT> &w2,
- DivideType typ) {
-
- if (typ != DIVIDE_RIGHT) {
- FSTERROR() << "StringWeight::Divide: only right division is defined "
- << "for the right string semiring";
- return StringWeight<L, STRING_RIGHT>::NoWeight();
- }
-
- if (!w1.Member() || !w2.Member())
- return StringWeight<L, STRING_RIGHT>::NoWeight();
-
- if (w2 == StringWeight<L, STRING_RIGHT>::Zero())
- return StringWeight<L, STRING_RIGHT>(kStringBad);
- else if (w1 == StringWeight<L, STRING_RIGHT>::Zero())
- return StringWeight<L, STRING_RIGHT>::Zero();
-
- StringWeight<L, STRING_RIGHT> div;
- StringWeightReverseIterator<L, STRING_RIGHT> iter(w1);
- for (int i = 0; !iter.Done(); iter.Next(), ++i) {
- if (i >= w2.Size())
- div.PushFront(iter.Value());
- }
- return div;
-}
-
-
-// Right division in the right restricted string semiring.
-template <typename L> inline StringWeight<L, STRING_RIGHT_RESTRICT>
-Divide(const StringWeight<L, STRING_RIGHT_RESTRICT> &w1,
- const StringWeight<L, STRING_RIGHT_RESTRICT> &w2,
- DivideType typ) {
-
- if (typ != DIVIDE_RIGHT) {
- FSTERROR() << "StringWeight::Divide: only right division is defined "
- << "for the right restricted string semiring";
- return StringWeight<L, STRING_RIGHT_RESTRICT>::NoWeight();
- }
-
- if (!w1.Member() || !w2.Member())
- return StringWeight<L, STRING_RIGHT_RESTRICT>::NoWeight();
-
- if (w2 == StringWeight<L, STRING_RIGHT_RESTRICT>::Zero())
- return StringWeight<L, STRING_RIGHT_RESTRICT>(kStringBad);
- else if (w1 == StringWeight<L, STRING_RIGHT_RESTRICT>::Zero())
- return StringWeight<L, STRING_RIGHT_RESTRICT>::Zero();
-
- StringWeight<L, STRING_RIGHT_RESTRICT> div;
- StringWeightReverseIterator<L, STRING_RIGHT_RESTRICT> iter(w1);
- for (int i = 0; !iter.Done(); iter.Next(), ++i) {
- if (i >= w2.Size())
- div.PushFront(iter.Value());
- }
- return div;
-}
-
-
-// Product of string weight and an arbitray weight.
-template <class L, class W, StringType S = STRING_LEFT>
-struct GallicWeight : public ProductWeight<StringWeight<L, S>, W> {
- typedef GallicWeight<L, typename W::ReverseWeight, REVERSE_STRING_TYPE(S)>
- ReverseWeight;
-
- GallicWeight() {}
-
- GallicWeight(StringWeight<L, S> w1, W w2)
- : ProductWeight<StringWeight<L, S>, W>(w1, w2) {}
-
- explicit GallicWeight(const string &s, int *nread = 0)
- : ProductWeight<StringWeight<L, S>, W>(s, nread) {}
-
- GallicWeight(const ProductWeight<StringWeight<L, S>, W> &w)
- : ProductWeight<StringWeight<L, S>, W>(w) {}
-};
-
-} // namespace fst
-
-#endif // FST_LIB_STRING_WEIGHT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/string.h b/kaldi_io/src/tools/openfst/include/fst/string.h
deleted file mode 100644
index 9eaf7a3..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/string.h
+++ /dev/null
@@ -1,271 +0,0 @@
-
-// string.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Utilities to convert strings into FSTs.
-//
-
-#ifndef FST_LIB_STRING_H_
-#define FST_LIB_STRING_H_
-
-#include <fst/compact-fst.h>
-#include <fst/icu.h>
-#include <fst/mutable-fst.h>
-
-DECLARE_string(fst_field_separator);
-
-namespace fst {
-
-// Functor compiling a string in an FST
-template <class A>
-class StringCompiler {
- public:
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
-
- enum TokenType { SYMBOL = 1, BYTE = 2, UTF8 = 3 };
-
- StringCompiler(TokenType type, const SymbolTable *syms = 0,
- Label unknown_label = kNoLabel,
- bool allow_negative = false)
- : token_type_(type), syms_(syms), unknown_label_(unknown_label),
- allow_negative_(allow_negative) {}
-
- // Compile string 's' into FST 'fst'.
- template <class F>
- bool operator()(const string &s, F *fst) const {
- vector<Label> labels;
- if (!ConvertStringToLabels(s, &labels))
- return false;
- Compile(labels, fst);
- return true;
- }
-
- template <class F>
- bool operator()(const string &s, F *fst, Weight w) const {
- vector<Label> labels;
- if (!ConvertStringToLabels(s, &labels))
- return false;
- Compile(labels, fst, w);
- return true;
- }
-
- private:
- bool ConvertStringToLabels(const string &str, vector<Label> *labels) const {
- labels->clear();
- if (token_type_ == BYTE) {
- for (size_t i = 0; i < str.size(); ++i)
- labels->push_back(static_cast<unsigned char>(str[i]));
- } else if (token_type_ == UTF8) {
- return UTF8StringToLabels(str, labels);
- } else {
- char *c_str = new char[str.size() + 1];
- str.copy(c_str, str.size());
- c_str[str.size()] = 0;
- vector<char *> vec;
- string separator = "\n" + FLAGS_fst_field_separator;
- SplitToVector(c_str, separator.c_str(), &vec, true);
- for (size_t i = 0; i < vec.size(); ++i) {
- Label label;
- if (!ConvertSymbolToLabel(vec[i], &label))
- return false;
- labels->push_back(label);
- }
- delete[] c_str;
- }
- return true;
- }
-
- void Compile(const vector<Label> &labels, MutableFst<A> *fst,
- const Weight &weight = Weight::One()) const {
- fst->DeleteStates();
- while (fst->NumStates() <= labels.size())
- fst->AddState();
- for (size_t i = 0; i < labels.size(); ++i)
- fst->AddArc(i, Arc(labels[i], labels[i], Weight::One(), i + 1));
- fst->SetStart(0);
- fst->SetFinal(labels.size(), weight);
- }
-
- template <class Unsigned>
- void Compile(const vector<Label> &labels,
- CompactFst<A, StringCompactor<A>, Unsigned> *fst) const {
- fst->SetCompactElements(labels.begin(), labels.end());
- }
-
- template <class Unsigned>
- void Compile(const vector<Label> &labels,
- CompactFst<A, WeightedStringCompactor<A>, Unsigned> *fst,
- const Weight &weight = Weight::One()) const {
- vector<pair<Label, Weight> > compacts;
- compacts.reserve(labels.size());
- for (size_t i = 0; i < labels.size(); ++i)
- compacts.push_back(make_pair(labels[i], Weight::One()));
- compacts.back().second = weight;
- fst->SetCompactElements(compacts.begin(), compacts.end());
- }
-
- bool ConvertSymbolToLabel(const char *s, Label* output) const {
- int64 n;
- if (syms_) {
- n = syms_->Find(s);
- if ((n == -1) && (unknown_label_ != kNoLabel))
- n = unknown_label_;
- if (n == -1 || (!allow_negative_ && n < 0)) {
- VLOG(1) << "StringCompiler::ConvertSymbolToLabel: Symbol \"" << s
- << "\" is not mapped to any integer label, symbol table = "
- << syms_->Name();
- return false;
- }
- } else {
- char *p;
- n = strtoll(s, &p, 10);
- if (p < s + strlen(s) || (!allow_negative_ && n < 0)) {
- VLOG(1) << "StringCompiler::ConvertSymbolToLabel: Bad label integer "
- << "= \"" << s << "\"";
- return false;
- }
- }
- *output = n;
- return true;
- }
-
- TokenType token_type_; // Token type: symbol, byte or utf8 encoded
- const SymbolTable *syms_; // Symbol table used when token type is symbol
- Label unknown_label_; // Label for token missing from symbol table
- bool allow_negative_; // Negative labels allowed?
-
- DISALLOW_COPY_AND_ASSIGN(StringCompiler);
-};
-
-// Functor to print a string FST as a string.
-template <class A>
-class StringPrinter {
- public:
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- enum TokenType { SYMBOL = 1, BYTE = 2, UTF8 = 3 };
-
- StringPrinter(TokenType token_type,
- const SymbolTable *syms = 0)
- : token_type_(token_type), syms_(syms) {}
-
- // Convert the FST 'fst' into the string 'output'
- bool operator()(const Fst<A> &fst, string *output) {
- bool is_a_string = FstToLabels(fst);
- if (!is_a_string) {
- VLOG(1) << "StringPrinter::operator(): Fst is not a string.";
- return false;
- }
-
- output->clear();
-
- if (token_type_ == SYMBOL) {
- stringstream sstrm;
- for (size_t i = 0; i < labels_.size(); ++i) {
- if (i)
- sstrm << *(FLAGS_fst_field_separator.rbegin());
- if (!PrintLabel(labels_[i], sstrm))
- return false;
- }
- *output = sstrm.str();
- } else if (token_type_ == BYTE) {
- output->reserve(labels_.size());
- for (size_t i = 0; i < labels_.size(); ++i) {
- output->push_back(labels_[i]);
- }
- } else if (token_type_ == UTF8) {
- return LabelsToUTF8String(labels_, output);
- } else {
- VLOG(1) << "StringPrinter::operator(): Unknown token type: "
- << token_type_;
- return false;
- }
- return true;
- }
-
- private:
- bool FstToLabels(const Fst<A> &fst) {
- labels_.clear();
-
- StateId s = fst.Start();
- if (s == kNoStateId) {
- VLOG(2) << "StringPrinter::FstToLabels: Invalid starting state for "
- << "string fst.";
- return false;
- }
-
- while (fst.Final(s) == Weight::Zero()) {
- ArcIterator<Fst<A> > aiter(fst, s);
- if (aiter.Done()) {
- VLOG(2) << "StringPrinter::FstToLabels: String fst traversal does "
- << "not reach final state.";
- return false;
- }
-
- const A& arc = aiter.Value();
- labels_.push_back(arc.olabel);
-
- s = arc.nextstate;
- if (s == kNoStateId) {
- VLOG(2) << "StringPrinter::FstToLabels: Transition to invalid "
- << "state.";
- return false;
- }
-
- aiter.Next();
- if (!aiter.Done()) {
- VLOG(2) << "StringPrinter::FstToLabels: State with multiple "
- << "outgoing arcs found.";
- return false;
- }
- }
-
- return true;
- }
-
- bool PrintLabel(Label lab, ostream& ostrm) {
- if (syms_) {
- string symbol = syms_->Find(lab);
- if (symbol == "") {
- VLOG(2) << "StringPrinter::PrintLabel: Integer " << lab << " is not "
- << "mapped to any textual symbol, symbol table = "
- << syms_->Name();
- return false;
- }
- ostrm << symbol;
- } else {
- ostrm << lab;
- }
- return true;
- }
-
- TokenType token_type_; // Token type: symbol, byte or utf8 encoded
- const SymbolTable *syms_; // Symbol table used when token type is symbol
- vector<Label> labels_; // Input FST labels.
-
- DISALLOW_COPY_AND_ASSIGN(StringPrinter);
-};
-
-} // namespace fst
-
-#endif // FST_LIB_STRING_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/symbol-table-ops.h b/kaldi_io/src/tools/openfst/include/fst/symbol-table-ops.h
deleted file mode 100644
index 1f327da..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/symbol-table-ops.h
+++ /dev/null
@@ -1,91 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Jeffrey Sorensen)
-
-#ifndef FST_LIB_SYMBOL_TABLE_OPS_H_
-#define FST_LIB_SYMBOL_TABLE_OPS_H_
-
-#include <vector>
-using std::vector;
-#include <string>
-#include <tr1/unordered_set>
-using std::tr1::unordered_set;
-using std::tr1::unordered_multiset;
-
-
-#include <fst/fst.h>
-#include <fst/symbol-table.h>
-
-
-namespace fst {
-
-// Returns a minimal symbol table containing only symbols referenced by the
-// passed fst. Symbols preserve their original numbering, so fst does not
-// require relabeling.
-template<class Arc>
-SymbolTable *PruneSymbolTable(const Fst<Arc> &fst, const SymbolTable &syms,
- bool input) {
- unordered_set<typename Arc::Label> seen;
- seen.insert(0); // Always keep epslion
- StateIterator<Fst<Arc> > siter(fst);
- for (; !siter.Done(); siter.Next()) {
- ArcIterator<Fst<Arc> > aiter(fst, siter.Value());
- for (; !aiter.Done(); aiter.Next()) {
- typename Arc::Label sym = (input) ? aiter.Value().ilabel :
- aiter.Value().olabel;
- seen.insert(sym);
- }
- }
- SymbolTable *pruned = new SymbolTable(syms.Name() + "_pruned");
- for (SymbolTableIterator stiter(syms); !stiter.Done(); stiter.Next()) {
- typename Arc::Label label = stiter.Value();
- if (seen.find(label) != seen.end()) {
- pruned->AddSymbol(stiter.Symbol(), stiter.Value());
- }
- }
- return pruned;
-}
-
-// Relabels a symbol table to make it a contiguous mapping.
-SymbolTable *CompactSymbolTable(const SymbolTable &syms);
-
-// Merges two SymbolTables, all symbols from left will be merged into right
-// with the same ids. Symbols in right that have conflicting ids with those
-// in left will be assigned to value assigned from the left SymbolTable.
-// The returned symbol table will never modify symbol assignments from the left
-// side, but may do so on the right. If right_relabel_output is non-NULL, it
-// will be assigned true if the symbols from the right table needed to be
-// reassigned.
-// A potential use case is to Compose two Fst's that have different symbol
-// tables. You can reconcile them in the following way:
-// Fst<Arc> a, b;
-// bool relabel;
-// SymbolTable *bnew = MergeSymbolTable(a.OutputSymbols(),
-// b.InputSymbols(), &relabel);
-// if (relabel) {
-// Relabel(b, bnew, NULL);
-// }
-// b.SetInputSymbols(bnew);
-// delete bnew;
-SymbolTable *MergeSymbolTable(const SymbolTable &left, const SymbolTable &right,
- bool *right_relabel_output = 0);
-
-// Read the symbol table from any Fst::Read()able file, without loading the
-// corresponding Fst. Returns NULL if the Fst does not contain a symbol table
-// or the symbol table cannot be read.
-SymbolTable *FstReadSymbols(const string &filename, bool input);
-
-} // namespace fst
-#endif // FST_LIB_SYMBOL_TABLE_OPS_H_
diff --git a/kaldi_io/src/tools/openfst/include/fst/symbol-table.h b/kaldi_io/src/tools/openfst/include/fst/symbol-table.h
deleted file mode 100644
index 6eb6c2d..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/symbol-table.h
+++ /dev/null
@@ -1,537 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// All Rights Reserved.
-//
-// Author : Johan Schalkwyk
-//
-// \file
-// Classes to provide symbol-to-integer and integer-to-symbol mappings.
-
-#ifndef FST_LIB_SYMBOL_TABLE_H__
-#define FST_LIB_SYMBOL_TABLE_H__
-
-#include <cstring>
-#include <string>
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-
-#include <fst/compat.h>
-#include <iostream>
-#include <fstream>
-#include <sstream>
-
-
-#include <map>
-
-DECLARE_bool(fst_compat_symbols);
-
-namespace fst {
-
-// WARNING: Reading via symbol table read options should
-// not be used. This is a temporary work around for
-// reading symbol ranges of previously stored symbol sets.
-struct SymbolTableReadOptions {
- SymbolTableReadOptions() { }
-
- SymbolTableReadOptions(vector<pair<int64, int64> > string_hash_ranges_,
- const string& source_)
- : string_hash_ranges(string_hash_ranges_),
- source(source_) { }
-
- vector<pair<int64, int64> > string_hash_ranges;
- string source;
-};
-
-struct SymbolTableTextOptions {
- SymbolTableTextOptions();
-
- bool allow_negative;
- string fst_field_separator;
-};
-
-class SymbolTableImpl {
- public:
- SymbolTableImpl(const string &name)
- : name_(name),
- available_key_(0),
- dense_key_limit_(0),
- check_sum_finalized_(false) {}
-
- explicit SymbolTableImpl(const SymbolTableImpl& impl)
- : name_(impl.name_),
- available_key_(0),
- dense_key_limit_(0),
- check_sum_finalized_(false) {
- for (size_t i = 0; i < impl.symbols_.size(); ++i) {
- AddSymbol(impl.symbols_[i], impl.Find(impl.symbols_[i]));
- }
- }
-
- ~SymbolTableImpl() {
- for (size_t i = 0; i < symbols_.size(); ++i)
- delete[] symbols_[i];
- }
-
- // TODO(johans): Add flag to specify whether the symbol
- // should be indexed as string or int or both.
- int64 AddSymbol(const string& symbol, int64 key);
-
- int64 AddSymbol(const string& symbol) {
- int64 key = Find(symbol);
- return (key == -1) ? AddSymbol(symbol, available_key_++) : key;
- }
-
- static SymbolTableImpl* ReadText(
- istream &strm, const string &name,
- const SymbolTableTextOptions &opts = SymbolTableTextOptions());
-
- static SymbolTableImpl* Read(istream &strm,
- const SymbolTableReadOptions& opts);
-
- bool Write(ostream &strm) const;
-
- //
- // Return the string associated with the key. If the key is out of
- // range (<0, >max), return an empty string.
- string Find(int64 key) const {
- if (key >=0 && key < dense_key_limit_)
- return string(symbols_[key]);
-
- map<int64, const char*>::const_iterator it =
- key_map_.find(key);
- if (it == key_map_.end()) {
- return "";
- }
- return string(it->second);
- }
-
- //
- // Return the key associated with the symbol. If the symbol
- // does not exists, return SymbolTable::kNoSymbol.
- int64 Find(const string& symbol) const {
- return Find(symbol.c_str());
- }
-
- //
- // Return the key associated with the symbol. If the symbol
- // does not exists, return SymbolTable::kNoSymbol.
- int64 Find(const char* symbol) const {
- map<const char *, int64, StrCmp>::const_iterator it =
- symbol_map_.find(symbol);
- if (it == symbol_map_.end()) {
- return -1;
- }
- return it->second;
- }
-
- int64 GetNthKey(ssize_t pos) const {
- if ((pos < 0) || (pos >= symbols_.size())) return -1;
- else return Find(symbols_[pos]);
- }
-
- const string& Name() const { return name_; }
-
- int IncrRefCount() const {
- return ref_count_.Incr();
- }
- int DecrRefCount() const {
- return ref_count_.Decr();
- }
- int RefCount() const {
- return ref_count_.count();
- }
-
- string CheckSum() const {
- MaybeRecomputeCheckSum();
- return check_sum_string_;
- }
-
- string LabeledCheckSum() const {
- MaybeRecomputeCheckSum();
- return labeled_check_sum_string_;
- }
-
- int64 AvailableKey() const {
- return available_key_;
- }
-
- size_t NumSymbols() const {
- return symbols_.size();
- }
-
- private:
- // Recomputes the checksums (both of them) if we've had changes since the last
- // computation (i.e., if check_sum_finalized_ is false).
- // Takes ~2.5 microseconds (dbg) or ~230 nanoseconds (opt) on a 2.67GHz Xeon
- // if the checksum is up-to-date (requiring no recomputation).
- void MaybeRecomputeCheckSum() const;
-
- struct StrCmp {
- bool operator()(const char *s1, const char *s2) const {
- return strcmp(s1, s2) < 0;
- }
- };
-
- string name_;
- int64 available_key_;
- int64 dense_key_limit_;
- vector<const char *> symbols_;
- map<int64, const char*> key_map_;
- map<const char *, int64, StrCmp> symbol_map_;
-
- mutable RefCounter ref_count_;
- mutable bool check_sum_finalized_;
- mutable string check_sum_string_;
- mutable string labeled_check_sum_string_;
- mutable Mutex check_sum_mutex_;
-};
-
-//
-// \class SymbolTable
-// \brief Symbol (string) to int and reverse mapping
-//
-// The SymbolTable implements the mappings of labels to strings and reverse.
-// SymbolTables are used to describe the alphabet of the input and output
-// labels for arcs in a Finite State Transducer.
-//
-// SymbolTables are reference counted and can therefore be shared across
-// multiple machines. For example a language model grammar G, with a
-// SymbolTable for the words in the language model can share this symbol
-// table with the lexical representation L o G.
-//
-class SymbolTable {
- public:
- static const int64 kNoSymbol = -1;
-
- // Construct symbol table with an unspecified name.
- SymbolTable() : impl_(new SymbolTableImpl("<unspecified>")) {}
-
- // Construct symbol table with a unique name.
- SymbolTable(const string& name) : impl_(new SymbolTableImpl(name)) {}
-
- // Create a reference counted copy.
- SymbolTable(const SymbolTable& table) : impl_(table.impl_) {
- impl_->IncrRefCount();
- }
-
- // Derefence implentation object. When reference count hits 0, delete
- // implementation.
- virtual ~SymbolTable() {
- if (!impl_->DecrRefCount()) delete impl_;
- }
-
- // Copys the implemenation from one symbol table to another.
- void operator=(const SymbolTable &st) {
- if (impl_ != st.impl_) {
- st.impl_->IncrRefCount();
- if (!impl_->DecrRefCount()) delete impl_;
- impl_ = st.impl_;
- }
- }
-
- // Read an ascii representation of the symbol table from an istream. Pass a
- // name to give the resulting SymbolTable.
- static SymbolTable* ReadText(
- istream &strm, const string& name,
- const SymbolTableTextOptions &opts = SymbolTableTextOptions()) {
- SymbolTableImpl* impl = SymbolTableImpl::ReadText(strm, name, opts);
- if (!impl)
- return 0;
- else
- return new SymbolTable(impl);
- }
-
- // read an ascii representation of the symbol table
- static SymbolTable* ReadText(const string& filename,
- const SymbolTableTextOptions &opts = SymbolTableTextOptions()) {
- ifstream strm(filename.c_str(), ifstream::in);
- if (!strm) {
- LOG(ERROR) << "SymbolTable::ReadText: Can't open file " << filename;
- return 0;
- }
- return ReadText(strm, filename, opts);
- }
-
-
- // WARNING: Reading via symbol table read options should
- // not be used. This is a temporary work around.
- static SymbolTable* Read(istream &strm,
- const SymbolTableReadOptions& opts) {
- SymbolTableImpl* impl = SymbolTableImpl::Read(strm, opts);
- if (!impl)
- return 0;
- else
- return new SymbolTable(impl);
- }
-
- // read a binary dump of the symbol table from a stream
- static SymbolTable* Read(istream &strm, const string& source) {
- SymbolTableReadOptions opts;
- opts.source = source;
- return Read(strm, opts);
- }
-
- // read a binary dump of the symbol table
- static SymbolTable* Read(const string& filename) {
- ifstream strm(filename.c_str(), ifstream::in | ifstream::binary);
- if (!strm) {
- LOG(ERROR) << "SymbolTable::Read: Can't open file " << filename;
- return 0;
- }
- return Read(strm, filename);
- }
-
- //--------------------------------------------------------
- // Derivable Interface (final)
- //--------------------------------------------------------
- // create a reference counted copy
- virtual SymbolTable* Copy() const {
- return new SymbolTable(*this);
- }
-
- // Add a symbol with given key to table. A symbol table also
- // keeps track of the last available key (highest key value in
- // the symbol table).
- virtual int64 AddSymbol(const string& symbol, int64 key) {
- MutateCheck();
- return impl_->AddSymbol(symbol, key);
- }
-
- // Add a symbol to the table. The associated value key is automatically
- // assigned by the symbol table.
- virtual int64 AddSymbol(const string& symbol) {
- MutateCheck();
- return impl_->AddSymbol(symbol);
- }
-
- // Add another symbol table to this table. All key values will be offset
- // by the current available key (highest key value in the symbol table).
- // Note string symbols with the same key value with still have the same
- // key value after the symbol table has been merged, but a different
- // value. Adding symbol tables do not result in changes in the base table.
- virtual void AddTable(const SymbolTable& table);
-
- // return the name of the symbol table
- virtual const string& Name() const {
- return impl_->Name();
- }
-
- // Return the label-agnostic MD5 check-sum for this table. All new symbols
- // added to the table will result in an updated checksum.
- // DEPRECATED.
- virtual string CheckSum() const {
- return impl_->CheckSum();
- }
-
- // Same as CheckSum(), but this returns an label-dependent version.
- virtual string LabeledCheckSum() const {
- return impl_->LabeledCheckSum();
- }
-
- virtual bool Write(ostream &strm) const {
- return impl_->Write(strm);
- }
-
- bool Write(const string& filename) const {
- ofstream strm(filename.c_str(), ofstream::out | ofstream::binary);
- if (!strm) {
- LOG(ERROR) << "SymbolTable::Write: Can't open file " << filename;
- return false;
- }
- return Write(strm);
- }
-
- // Dump an ascii text representation of the symbol table via a stream
- virtual bool WriteText(
- ostream &strm,
- const SymbolTableTextOptions &opts = SymbolTableTextOptions()) const;
-
- // Dump an ascii text representation of the symbol table
- bool WriteText(const string& filename) const {
- ofstream strm(filename.c_str());
- if (!strm) {
- LOG(ERROR) << "SymbolTable::WriteText: Can't open file " << filename;
- return false;
- }
- return WriteText(strm);
- }
-
- // Return the string associated with the key. If the key is out of
- // range (<0, >max), log error and return an empty string.
- virtual string Find(int64 key) const {
- return impl_->Find(key);
- }
-
- // Return the key associated with the symbol. If the symbol
- // does not exists, log error and return SymbolTable::kNoSymbol
- virtual int64 Find(const string& symbol) const {
- return impl_->Find(symbol);
- }
-
- // Return the key associated with the symbol. If the symbol
- // does not exists, log error and return SymbolTable::kNoSymbol
- virtual int64 Find(const char* symbol) const {
- return impl_->Find(symbol);
- }
-
- // Return the current available key (i.e highest key number+1) in
- // the symbol table
- virtual int64 AvailableKey(void) const {
- return impl_->AvailableKey();
- }
-
- // Return the current number of symbols in table (not necessarily
- // equal to AvailableKey())
- virtual size_t NumSymbols(void) const {
- return impl_->NumSymbols();
- }
-
- virtual int64 GetNthKey(ssize_t pos) const {
- return impl_->GetNthKey(pos);
- }
-
- private:
- explicit SymbolTable(SymbolTableImpl* impl) : impl_(impl) {}
-
- void MutateCheck() {
- // Copy on write
- if (impl_->RefCount() > 1) {
- impl_->DecrRefCount();
- impl_ = new SymbolTableImpl(*impl_);
- }
- }
-
- const SymbolTableImpl* Impl() const {
- return impl_;
- }
-
- private:
- SymbolTableImpl* impl_;
-};
-
-
-//
-// \class SymbolTableIterator
-// \brief Iterator class for symbols in a symbol table
-class SymbolTableIterator {
- public:
- SymbolTableIterator(const SymbolTable& table)
- : table_(table),
- pos_(0),
- nsymbols_(table.NumSymbols()),
- key_(table.GetNthKey(0)) { }
-
- ~SymbolTableIterator() { }
-
- // is iterator done
- bool Done(void) {
- return (pos_ == nsymbols_);
- }
-
- // return the Value() of the current symbol (int64 key)
- int64 Value(void) {
- return key_;
- }
-
- // return the string of the current symbol
- string Symbol(void) {
- return table_.Find(key_);
- }
-
- // advance iterator forward
- void Next(void) {
- ++pos_;
- if (pos_ < nsymbols_) key_ = table_.GetNthKey(pos_);
- }
-
- // reset iterator
- void Reset(void) {
- pos_ = 0;
- key_ = table_.GetNthKey(0);
- }
-
- private:
- const SymbolTable& table_;
- ssize_t pos_;
- size_t nsymbols_;
- int64 key_;
-};
-
-
-// Tests compatibilty between two sets of symbol tables
-inline bool CompatSymbols(const SymbolTable *syms1, const SymbolTable *syms2,
- bool warning = true) {
- if (!FLAGS_fst_compat_symbols) {
- return true;
- } else if (!syms1 && !syms2) {
- return true;
- } else if (syms1 && !syms2) {
- if (warning)
- LOG(WARNING) <<
- "CompatSymbols: first symbol table present but second missing";
- return false;
- } else if (!syms1 && syms2) {
- if (warning)
- LOG(WARNING) <<
- "CompatSymbols: second symbol table present but first missing";
- return false;
- } else if (syms1->LabeledCheckSum() != syms2->LabeledCheckSum()) {
- if (warning)
- LOG(WARNING) << "CompatSymbols: Symbol table check sums do not match";
- return false;
- } else {
- return true;
- }
-}
-
-
-// Relabels a symbol table as specified by the input vector of pairs
-// (old label, new label). The new symbol table only retains symbols
-// for which a relabeling is *explicitely* specified.
-// TODO(allauzen): consider adding options to allow for some form
-// of implicit identity relabeling.
-template <class Label>
-SymbolTable *RelabelSymbolTable(const SymbolTable *table,
- const vector<pair<Label, Label> > &pairs) {
- SymbolTable *new_table = new SymbolTable(
- table->Name().empty() ? string() :
- (string("relabeled_") + table->Name()));
-
- for (size_t i = 0; i < pairs.size(); ++i)
- new_table->AddSymbol(table->Find(pairs[i].first), pairs[i].second);
-
- return new_table;
-}
-
-// Symbol Table Serialization
-inline void SymbolTableToString(const SymbolTable *table, string *result) {
- ostringstream ostrm;
- table->Write(ostrm);
- *result = ostrm.str();
-}
-
-inline SymbolTable *StringToSymbolTable(const string &s) {
- istringstream istrm(s);
- return SymbolTable::Read(istrm, SymbolTableReadOptions());
-}
-
-
-
-} // namespace fst
-
-#endif // FST_LIB_SYMBOL_TABLE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/synchronize.h b/kaldi_io/src/tools/openfst/include/fst/synchronize.h
deleted file mode 100644
index 9582926..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/synchronize.h
+++ /dev/null
@@ -1,457 +0,0 @@
-// synchronize.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Cyril Allauzen)
-//
-// \file
-// Synchronize an FST with bounded delay.
-
-#ifndef FST_LIB_SYNCHRONIZE_H__
-#define FST_LIB_SYNCHRONIZE_H__
-
-#include <algorithm>
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <tr1/unordered_set>
-using std::tr1::unordered_set;
-using std::tr1::unordered_multiset;
-#include <string>
-#include <utility>
-using std::pair; using std::make_pair;
-#include <vector>
-using std::vector;
-
-#include <fst/cache.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-typedef CacheOptions SynchronizeFstOptions;
-
-
-// Implementation class for SynchronizeFst
-template <class A>
-class SynchronizeFstImpl
- : public CacheImpl<A> {
- public:
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
-
- using CacheBaseImpl< CacheState<A> >::PushArc;
- using CacheBaseImpl< CacheState<A> >::HasArcs;
- using CacheBaseImpl< CacheState<A> >::HasFinal;
- using CacheBaseImpl< CacheState<A> >::HasStart;
- using CacheBaseImpl< CacheState<A> >::SetArcs;
- using CacheBaseImpl< CacheState<A> >::SetFinal;
- using CacheBaseImpl< CacheState<A> >::SetStart;
-
- typedef A Arc;
- typedef typename A::Label Label;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- typedef basic_string<Label> String;
-
- struct Element {
- Element() {}
-
- Element(StateId s, const String *i, const String *o)
- : state(s), istring(i), ostring(o) {}
-
- StateId state; // Input state Id
- const String *istring; // Residual input labels
- const String *ostring; // Residual output labels
- // Residual strings are represented by const pointers to
- // basic_string<Label> and are stored in a hash_set. The pointed
- // memory is owned by the hash_set string_set_.
- };
-
- SynchronizeFstImpl(const Fst<A> &fst, const SynchronizeFstOptions &opts)
- : CacheImpl<A>(opts), fst_(fst.Copy()) {
- SetType("synchronize");
- uint64 props = fst.Properties(kFstProperties, false);
- SetProperties(SynchronizeProperties(props), kCopyProperties);
-
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
- }
-
- SynchronizeFstImpl(const SynchronizeFstImpl &impl)
- : CacheImpl<A>(impl),
- fst_(impl.fst_->Copy(true)) {
- SetType("synchronize");
- SetProperties(impl.Properties(), kCopyProperties);
- SetInputSymbols(impl.InputSymbols());
- SetOutputSymbols(impl.OutputSymbols());
- }
-
- ~SynchronizeFstImpl() {
- delete fst_;
- // Extract pointers from the hash set
- vector<const String*> strings;
- typename StringSet::iterator it = string_set_.begin();
- for (; it != string_set_.end(); ++it)
- strings.push_back(*it);
- // Free the extracted pointers
- for (size_t i = 0; i < strings.size(); ++i)
- delete strings[i];
- }
-
- StateId Start() {
- if (!HasStart()) {
- StateId s = fst_->Start();
- if (s == kNoStateId)
- return kNoStateId;
- const String *empty = FindString(new String());
- StateId start = FindState(Element(fst_->Start(), empty, empty));
- SetStart(start);
- }
- return CacheImpl<A>::Start();
- }
-
- Weight Final(StateId s) {
- if (!HasFinal(s)) {
- const Element &e = elements_[s];
- Weight w = e.state == kNoStateId ? Weight::One() : fst_->Final(e.state);
- if ((w != Weight::Zero()) && (e.istring)->empty() && (e.ostring)->empty())
- SetFinal(s, w);
- else
- SetFinal(s, Weight::Zero());
- }
- return CacheImpl<A>::Final(s);
- }
-
- size_t NumArcs(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumArcs(s);
- }
-
- size_t NumInputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumInputEpsilons(s);
- }
-
- size_t NumOutputEpsilons(StateId s) {
- if (!HasArcs(s))
- Expand(s);
- return CacheImpl<A>::NumOutputEpsilons(s);
- }
-
- uint64 Properties() const { return Properties(kFstProperties); }
-
- // Set error if found; return FST impl properties.
- uint64 Properties(uint64 mask) const {
- if ((mask & kError) && fst_->Properties(kError, false))
- SetProperties(kError, kError);
- return FstImpl<Arc>::Properties(mask);
- }
-
- void InitArcIterator(StateId s, ArcIteratorData<A> *data) {
- if (!HasArcs(s))
- Expand(s);
- CacheImpl<A>::InitArcIterator(s, data);
- }
-
- // Returns the first character of the string obtained by
- // concatenating s and l.
- Label Car(const String *s, Label l = 0) const {
- if (!s->empty())
- return (*s)[0];
- else
- return l;
- }
-
- // Computes the residual string obtained by removing the first
- // character in the concatenation of s and l.
- const String *Cdr(const String *s, Label l = 0) {
- String *r = new String();
- for (int i = 1; i < s->size(); ++i)
- r->push_back((*s)[i]);
- if (l && !(s->empty())) r->push_back(l);
- return FindString(r);
- }
-
- // Computes the concatenation of s and l.
- const String *Concat(const String *s, Label l = 0) {
- String *r = new String();
- for (int i = 0; i < s->size(); ++i)
- r->push_back((*s)[i]);
- if (l) r->push_back(l);
- return FindString(r);
- }
-
- // Tests if the concatenation of s and l is empty
- bool Empty(const String *s, Label l = 0) const {
- if (s->empty())
- return l == 0;
- else
- return false;
- }
-
- // Finds the string pointed by s in the hash set. Transfers the
- // pointer ownership to the hash set.
- const String *FindString(const String *s) {
- typename StringSet::iterator it = string_set_.find(s);
- if (it != string_set_.end()) {
- delete s;
- return (*it);
- } else {
- string_set_.insert(s);
- return s;
- }
- }
-
- // Finds state corresponding to an element. Creates new state
- // if element not found.
- StateId FindState(const Element &e) {
- typename ElementMap::iterator eit = element_map_.find(e);
- if (eit != element_map_.end()) {
- return (*eit).second;
- } else {
- StateId s = elements_.size();
- elements_.push_back(e);
- element_map_.insert(pair<const Element, StateId>(e, s));
- return s;
- }
- }
-
-
- // Computes the outgoing transitions from a state, creating new destination
- // states as needed.
- void Expand(StateId s) {
- Element e = elements_[s];
-
- if (e.state != kNoStateId)
- for (ArcIterator< Fst<A> > ait(*fst_, e.state);
- !ait.Done();
- ait.Next()) {
- const A &arc = ait.Value();
- if (!Empty(e.istring, arc.ilabel) && !Empty(e.ostring, arc.olabel)) {
- const String *istring = Cdr(e.istring, arc.ilabel);
- const String *ostring = Cdr(e.ostring, arc.olabel);
- StateId d = FindState(Element(arc.nextstate, istring, ostring));
- PushArc(s, Arc(Car(e.istring, arc.ilabel),
- Car(e.ostring, arc.olabel), arc.weight, d));
- } else {
- const String *istring = Concat(e.istring, arc.ilabel);
- const String *ostring = Concat(e.ostring, arc.olabel);
- StateId d = FindState(Element(arc.nextstate, istring, ostring));
- PushArc(s, Arc(0 , 0, arc.weight, d));
- }
- }
-
- Weight w = e.state == kNoStateId ? Weight::One() : fst_->Final(e.state);
- if ((w != Weight::Zero()) &&
- ((e.istring)->size() + (e.ostring)->size() > 0)) {
- const String *istring = Cdr(e.istring);
- const String *ostring = Cdr(e.ostring);
- StateId d = FindState(Element(kNoStateId, istring, ostring));
- PushArc(s, Arc(Car(e.istring), Car(e.ostring), w, d));
- }
- SetArcs(s);
- }
-
- private:
- // Equality function for Elements, assume strings have been hashed.
- class ElementEqual {
- public:
- bool operator()(const Element &x, const Element &y) const {
- return x.state == y.state &&
- x.istring == y.istring &&
- x.ostring == y.ostring;
- }
- };
-
- // Hash function for Elements to Fst states.
- class ElementKey {
- public:
- size_t operator()(const Element &x) const {
- size_t key = x.state;
- key = (key << 1) ^ (x.istring)->size();
- for (size_t i = 0; i < (x.istring)->size(); ++i)
- key = (key << 1) ^ (*x.istring)[i];
- key = (key << 1) ^ (x.ostring)->size();
- for (size_t i = 0; i < (x.ostring)->size(); ++i)
- key = (key << 1) ^ (*x.ostring)[i];
- return key;
- }
- };
-
- // Equality function for strings
- class StringEqual {
- public:
- bool operator()(const String * const &x, const String * const &y) const {
- if (x->size() != y->size()) return false;
- for (size_t i = 0; i < x->size(); ++i)
- if ((*x)[i] != (*y)[i]) return false;
- return true;
- }
- };
-
- // Hash function for set of strings
- class StringKey{
- public:
- size_t operator()(const String * const & x) const {
- size_t key = x->size();
- for (size_t i = 0; i < x->size(); ++i)
- key = (key << 1) ^ (*x)[i];
- return key;
- }
- };
-
-
- typedef unordered_map<Element, StateId, ElementKey, ElementEqual> ElementMap;
- typedef unordered_set<const String*, StringKey, StringEqual> StringSet;
-
- const Fst<A> *fst_;
- vector<Element> elements_; // mapping Fst state to Elements
- ElementMap element_map_; // mapping Elements to Fst state
- StringSet string_set_;
-
- void operator=(const SynchronizeFstImpl<A> &); // disallow
-};
-
-
-// Synchronizes a transducer. This version is a delayed Fst. The
-// result will be an equivalent FST that has the property that during
-// the traversal of a path, the delay is either zero or strictly
-// increasing, where the delay is the difference between the number of
-// non-epsilon output labels and input labels along the path.
-//
-// For the algorithm to terminate, the input transducer must have
-// bounded delay, i.e., the delay of every cycle must be zero.
-//
-// Complexity:
-// - A has bounded delay: exponential
-// - A does not have bounded delay: does not terminate
-//
-// References:
-// - Mehryar Mohri. Edit-Distance of Weighted Automata: General
-// Definitions and Algorithms, International Journal of Computer
-// Science, 14(6): 957-982 (2003).
-//
-// This class attaches interface to implementation and handles
-// reference counting, delegating most methods to ImplToFst.
-template <class A>
-class SynchronizeFst : public ImplToFst< SynchronizeFstImpl<A> > {
- public:
- friend class ArcIterator< SynchronizeFst<A> >;
- friend class StateIterator< SynchronizeFst<A> >;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
- typedef CacheState<A> State;
- typedef SynchronizeFstImpl<A> Impl;
-
- SynchronizeFst(const Fst<A> &fst)
- : ImplToFst<Impl>(new Impl(fst, SynchronizeFstOptions())) {}
-
- SynchronizeFst(const Fst<A> &fst, const SynchronizeFstOptions &opts)
- : ImplToFst<Impl>(new Impl(fst, opts)) {}
-
- // See Fst<>::Copy() for doc.
- SynchronizeFst(const SynchronizeFst<A> &fst, bool safe = false)
- : ImplToFst<Impl>(fst, safe) {}
-
- // Get a copy of this SynchronizeFst. See Fst<>::Copy() for further doc.
- virtual SynchronizeFst<A> *Copy(bool safe = false) const {
- return new SynchronizeFst<A>(*this, safe);
- }
-
- virtual inline void InitStateIterator(StateIteratorData<A> *data) const;
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<A> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- private:
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst<Impl>::GetImpl(); }
-
- void operator=(const SynchronizeFst<A> &fst); // Disallow
-};
-
-
-// Specialization for SynchronizeFst.
-template<class A>
-class StateIterator< SynchronizeFst<A> >
- : public CacheStateIterator< SynchronizeFst<A> > {
- public:
- explicit StateIterator(const SynchronizeFst<A> &fst)
- : CacheStateIterator< SynchronizeFst<A> >(fst, fst.GetImpl()) {}
-};
-
-
-// Specialization for SynchronizeFst.
-template <class A>
-class ArcIterator< SynchronizeFst<A> >
- : public CacheArcIterator< SynchronizeFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const SynchronizeFst<A> &fst, StateId s)
- : CacheArcIterator< SynchronizeFst<A> >(fst.GetImpl(), s) {
- if (!fst.GetImpl()->HasArcs(s))
- fst.GetImpl()->Expand(s);
- }
-
- private:
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-
-template <class A> inline
-void SynchronizeFst<A>::InitStateIterator(StateIteratorData<A> *data) const
-{
- data->base = new StateIterator< SynchronizeFst<A> >(*this);
-}
-
-
-
-// Synchronizes a transducer. This version writes the synchronized
-// result to a MutableFst. The result will be an equivalent FST that
-// has the property that during the traversal of a path, the delay is
-// either zero or strictly increasing, where the delay is the
-// difference between the number of non-epsilon output labels and
-// input labels along the path.
-//
-// For the algorithm to terminate, the input transducer must have
-// bounded delay, i.e., the delay of every cycle must be zero.
-//
-// Complexity:
-// - A has bounded delay: exponential
-// - A does not have bounded delay: does not terminate
-//
-// References:
-// - Mehryar Mohri. Edit-Distance of Weighted Automata: General
-// Definitions and Algorithms, International Journal of Computer
-// Science, 14(6): 957-982 (2003).
-template<class Arc>
-void Synchronize(const Fst<Arc> &ifst, MutableFst<Arc> *ofst) {
- SynchronizeFstOptions opts;
- opts.gc_limit = 0; // Cache only the last state for fastest copy.
- *ofst = SynchronizeFst<Arc>(ifst, opts);
-}
-
-} // namespace fst
-
-#endif // FST_LIB_SYNCHRONIZE_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/test-properties.h b/kaldi_io/src/tools/openfst/include/fst/test-properties.h
deleted file mode 100644
index 80af593..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/test-properties.h
+++ /dev/null
@@ -1,250 +0,0 @@
-// test-properties.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Functions to manipulate and test property bits
-
-#ifndef FST_LIB_TEST_PROPERTIES_H__
-#define FST_LIB_TEST_PROPERTIES_H__
-
-#include <tr1/unordered_set>
-using std::tr1::unordered_set;
-using std::tr1::unordered_multiset;
-
-#include <fst/dfs-visit.h>
-#include <fst/connect.h>
-
-
-DECLARE_bool(fst_verify_properties);
-
-namespace fst {
-
-// For a binary property, the bit is always returned set.
-// For a trinary (i.e. two-bit) property, both bits are
-// returned set iff either corresponding input bit is set.
-inline uint64 KnownProperties(uint64 props) {
- return kBinaryProperties | (props & kTrinaryProperties) |
- ((props & kPosTrinaryProperties) << 1) |
- ((props & kNegTrinaryProperties) >> 1);
-}
-
-// Tests compatibility between two sets of properties
-inline bool CompatProperties(uint64 props1, uint64 props2) {
- uint64 known_props1 = KnownProperties(props1);
- uint64 known_props2 = KnownProperties(props2);
- uint64 known_props = known_props1 & known_props2;
- uint64 incompat_props = (props1 & known_props) ^ (props2 & known_props);
- if (incompat_props) {
- uint64 prop = 1;
- for (int i = 0; i < 64; ++i, prop <<= 1)
- if (prop & incompat_props)
- LOG(ERROR) << "CompatProperties: mismatch: " << PropertyNames[i]
- << ": props1 = " << (props1 & prop ? "true" : "false")
- << ", props2 = " << (props2 & prop ? "true" : "false");
- return false;
- } else {
- return true;
- }
-}
-
-// Computes FST property values defined in properties.h. The value of
-// each property indicated in the mask will be determined and returned
-// (these will never be unknown here). In the course of determining
-// the properties specifically requested in the mask, certain other
-// properties may be determined (those with little additional expense)
-// and their values will be returned as well. The complete set of
-// known properties (whether true or false) determined by this
-// operation will be assigned to the the value pointed to by KNOWN.
-// If 'use_stored' is true, pre-computed FST properties may be used
-// when possible. This routine is seldom called directly; instead it
-// is used to implement fst.Properties(mask, true).
-template<class Arc>
-uint64 ComputeProperties(const Fst<Arc> &fst, uint64 mask, uint64 *known,
- bool use_stored) {
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- uint64 fst_props = fst.Properties(kFstProperties, false); // Fst-stored
-
- // Check stored FST properties first if allowed.
- if (use_stored) {
- uint64 known_props = KnownProperties(fst_props);
- // If FST contains required info, return it.
- if ((known_props & mask) == mask) {
- *known = known_props;
- return fst_props;
- }
- }
-
- // Compute (trinary) properties explicitly.
-
- // Initialize with binary properties (already known).
- uint64 comp_props = fst_props & kBinaryProperties;
-
- // Compute these trinary properties with a DFS. We compute only those
- // that need a DFS here, since we otherwise would like to avoid a DFS
- // since its stack could grow large.
- uint64 dfs_props = kCyclic | kAcyclic | kInitialCyclic | kInitialAcyclic |
- kAccessible | kNotAccessible |
- kCoAccessible | kNotCoAccessible;
- if (mask & dfs_props) {
- SccVisitor<Arc> scc_visitor(&comp_props);
- DfsVisit(fst, &scc_visitor);
- }
-
- // Compute any remaining trinary properties via a state and arcs iterations
- if (mask & ~(kBinaryProperties | dfs_props)) {
- comp_props |= kAcceptor | kNoEpsilons | kNoIEpsilons | kNoOEpsilons |
- kILabelSorted | kOLabelSorted | kUnweighted | kTopSorted | kString;
- if (mask & (kIDeterministic | kNonIDeterministic))
- comp_props |= kIDeterministic;
- if (mask & (kODeterministic | kNonODeterministic))
- comp_props |= kODeterministic;
-
- unordered_set<Label> *ilabels = 0;
- unordered_set<Label> *olabels = 0;
-
- StateId nfinal = 0;
- for (StateIterator< Fst<Arc> > siter(fst);
- !siter.Done();
- siter.Next()) {
- StateId s = siter.Value();
-
- Arc prev_arc;
- // Create these only if we need to
- if (mask & (kIDeterministic | kNonIDeterministic))
- ilabels = new unordered_set<Label>;
- if (mask & (kODeterministic | kNonODeterministic))
- olabels = new unordered_set<Label>;
-
- bool first_arc = true;
- for (ArcIterator< Fst<Arc> > aiter(fst, s);
- !aiter.Done();
- aiter.Next()) {
- const Arc &arc =aiter.Value();
-
- if (ilabels && ilabels->find(arc.ilabel) != ilabels->end()) {
- comp_props |= kNonIDeterministic;
- comp_props &= ~kIDeterministic;
- }
- if (olabels && olabels->find(arc.olabel) != olabels->end()) {
- comp_props |= kNonODeterministic;
- comp_props &= ~kODeterministic;
- }
- if (arc.ilabel != arc.olabel) {
- comp_props |= kNotAcceptor;
- comp_props &= ~kAcceptor;
- }
- if (arc.ilabel == 0 && arc.olabel == 0) {
- comp_props |= kEpsilons;
- comp_props &= ~kNoEpsilons;
- }
- if (arc.ilabel == 0) {
- comp_props |= kIEpsilons;
- comp_props &= ~kNoIEpsilons;
- }
- if (arc.olabel == 0) {
- comp_props |= kOEpsilons;
- comp_props &= ~kNoOEpsilons;
- }
- if (!first_arc) {
- if (arc.ilabel < prev_arc.ilabel) {
- comp_props |= kNotILabelSorted;
- comp_props &= ~kILabelSorted;
- }
- if (arc.olabel < prev_arc.olabel) {
- comp_props |= kNotOLabelSorted;
- comp_props &= ~kOLabelSorted;
- }
- }
- if (arc.weight != Weight::One() && arc.weight != Weight::Zero()) {
- comp_props |= kWeighted;
- comp_props &= ~kUnweighted;
- }
- if (arc.nextstate <= s) {
- comp_props |= kNotTopSorted;
- comp_props &= ~kTopSorted;
- }
- if (arc.nextstate != s + 1) {
- comp_props |= kNotString;
- comp_props &= ~kString;
- }
- prev_arc = arc;
- first_arc = false;
- if (ilabels)
- ilabels->insert(arc.ilabel);
- if (olabels)
- olabels->insert(arc.olabel);
- }
-
- if (nfinal > 0) { // final state not last
- comp_props |= kNotString;
- comp_props &= ~kString;
- }
-
- Weight final = fst.Final(s);
-
- if (final != Weight::Zero()) { // final state
- if (final != Weight::One()) {
- comp_props |= kWeighted;
- comp_props &= ~kUnweighted;
- }
- ++nfinal;
- } else { // non-final state
- if (fst.NumArcs(s) != 1) {
- comp_props |= kNotString;
- comp_props &= ~kString;
- }
- }
-
- delete ilabels;
- delete olabels;
- }
-
- if (fst.Start() != kNoStateId && fst.Start() != 0) {
- comp_props |= kNotString;
- comp_props &= ~kString;
- }
- }
-
- *known = KnownProperties(comp_props);
- return comp_props;
-}
-
-// This is a wrapper around ComputeProperties that will cause a fatal
-// error if the stored properties and the computed properties are
-// incompatible when 'FLAGS_fst_verify_properties' is true. This
-// routine is seldom called directly; instead it is used to implement
-// fst.Properties(mask, true).
-template<class Arc>
-uint64 TestProperties(const Fst<Arc> &fst, uint64 mask, uint64 *known) {
- if (FLAGS_fst_verify_properties) {
- uint64 stored_props = fst.Properties(kFstProperties, false);
- uint64 computed_props = ComputeProperties(fst, mask, known, false);
- if (!CompatProperties(stored_props, computed_props))
- LOG(FATAL) << "TestProperties: stored Fst properties incorrect"
- << " (stored: props1, computed: props2)";
- return computed_props;
- } else {
- return ComputeProperties(fst, mask, known, true);
- }
-}
-
-} // namespace fst
-
-#endif // FST_LIB_TEST_PROPERTIES_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/topsort.h b/kaldi_io/src/tools/openfst/include/fst/topsort.h
deleted file mode 100644
index 53735e5..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/topsort.h
+++ /dev/null
@@ -1,112 +0,0 @@
-// topsort.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Topological sort of FSTs
-
-#ifndef FST_LIB_TOPSORT_H__
-#define FST_LIB_TOPSORT_H__
-
-#include <algorithm>
-#include <vector>
-using std::vector;
-
-
-#include <fst/dfs-visit.h>
-#include <fst/fst.h>
-#include <fst/statesort.h>
-
-
-namespace fst {
-
-// DFS visitor class to return topological ordering.
-template <class A>
-class TopOrderVisitor {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
-
- // If acyclic, ORDER[i] gives the topological position of state Id i;
- // otherwise unchanged. ACYCLIC will be true iff the FST has
- // no cycles.
- TopOrderVisitor(vector<StateId> *order, bool *acyclic)
- : order_(order), acyclic_(acyclic) {}
-
- void InitVisit(const Fst<A> &fst) {
- finish_ = new vector<StateId>;
- *acyclic_ = true;
- }
-
- bool InitState(StateId s, StateId r) { return true; }
-
- bool TreeArc(StateId s, const A &arc) { return true; }
-
- bool BackArc(StateId s, const A &arc) { return (*acyclic_ = false); }
-
- bool ForwardOrCrossArc(StateId s, const A &arc) { return true; }
-
- void FinishState(StateId s, StateId p, const A *) { finish_->push_back(s); }
-
- void FinishVisit() {
- if (*acyclic_) {
- order_->clear();
- for (StateId s = 0; s < finish_->size(); ++s)
- order_->push_back(kNoStateId);
- for (StateId s = 0; s < finish_->size(); ++s)
- (*order_)[(*finish_)[finish_->size() - s - 1]] = s;
- }
- delete finish_;
- }
-
- private:
- vector<StateId> *order_;
- bool *acyclic_;
- vector<StateId> *finish_; // states in finishing-time order
-};
-
-
-// Topologically sorts its input if acyclic, modifying it. Otherwise,
-// the input is unchanged. When sorted, all transitions are from
-// lower to higher state IDs.
-//
-// Complexity:
-// - Time: O(V + E)
-// - Space: O(V + E)
-// where V = # of states and E = # of arcs.
-template <class Arc>
-bool TopSort(MutableFst<Arc> *fst) {
- typedef typename Arc::StateId StateId;
-
- vector<StateId> order;
- bool acyclic;
-
- TopOrderVisitor<Arc> top_order_visitor(&order, &acyclic);
- DfsVisit(*fst, &top_order_visitor);
-
- if (acyclic) {
- StateSort(fst, order);
- fst->SetProperties(kAcyclic | kInitialAcyclic | kTopSorted,
- kAcyclic | kInitialAcyclic | kTopSorted);
- } else {
- fst->SetProperties(kCyclic | kNotTopSorted, kCyclic | kNotTopSorted);
- }
- return acyclic;
-}
-
-} // namespace fst
-
-#endif // FST_LIB_TOPSORT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/tuple-weight.h b/kaldi_io/src/tools/openfst/include/fst/tuple-weight.h
deleted file mode 100644
index 184026c..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/tuple-weight.h
+++ /dev/null
@@ -1,332 +0,0 @@
-// tuple-weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: allauzen@google (Cyril Allauzen)
-//
-// \file
-// Tuple weight set operation definitions.
-
-#ifndef FST_LIB_TUPLE_WEIGHT_H__
-#define FST_LIB_TUPLE_WEIGHT_H__
-
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/weight.h>
-
-
-DECLARE_string(fst_weight_parentheses);
-DECLARE_string(fst_weight_separator);
-
-namespace fst {
-
-template<class W, unsigned int n> class TupleWeight;
-template <class W, unsigned int n>
-istream &operator>>(istream &strm, TupleWeight<W, n> &w);
-
-// n-tuple weight, element of the n-th catersian power of W
-template <class W, unsigned int n>
-class TupleWeight {
- public:
- typedef TupleWeight<typename W::ReverseWeight, n> ReverseWeight;
-
- TupleWeight() {}
-
- TupleWeight(const TupleWeight &w) {
- for (size_t i = 0; i < n; ++i)
- values_[i] = w.values_[i];
- }
-
- template <class Iterator>
- TupleWeight(Iterator begin, Iterator end) {
- for (Iterator iter = begin; iter != end; ++iter)
- values_[iter - begin] = *iter;
- }
-
- TupleWeight(const W &w) {
- for (size_t i = 0; i < n; ++i)
- values_[i] = w;
- }
-
- static const TupleWeight<W, n> &Zero() {
- static const TupleWeight<W, n> zero(W::Zero());
- return zero;
- }
-
- static const TupleWeight<W, n> &One() {
- static const TupleWeight<W, n> one(W::One());
- return one;
- }
-
- static const TupleWeight<W, n> &NoWeight() {
- static const TupleWeight<W, n> no_weight(W::NoWeight());
- return no_weight;
- }
-
- static unsigned int Length() {
- return n;
- }
-
- istream &Read(istream &strm) {
- for (size_t i = 0; i < n; ++i)
- values_[i].Read(strm);
- return strm;
- }
-
- ostream &Write(ostream &strm) const {
- for (size_t i = 0; i < n; ++i)
- values_[i].Write(strm);
- return strm;
- }
-
- TupleWeight<W, n> &operator=(const TupleWeight<W, n> &w) {
- for (size_t i = 0; i < n; ++i)
- values_[i] = w.values_[i];
- return *this;
- }
-
- bool Member() const {
- bool member = true;
- for (size_t i = 0; i < n; ++i)
- member = member && values_[i].Member();
- return member;
- }
-
- size_t Hash() const {
- uint64 hash = 0;
- for (size_t i = 0; i < n; ++i)
- hash = 5 * hash + values_[i].Hash();
- return size_t(hash);
- }
-
- TupleWeight<W, n> Quantize(float delta = kDelta) const {
- TupleWeight<W, n> w;
- for (size_t i = 0; i < n; ++i)
- w.values_[i] = values_[i].Quantize(delta);
- return w;
- }
-
- ReverseWeight Reverse() const {
- TupleWeight<W, n> w;
- for (size_t i = 0; i < n; ++i)
- w.values_[i] = values_[i].Reverse();
- return w;
- }
-
- const W& Value(size_t i) const { return values_[i]; }
-
- void SetValue(size_t i, const W &w) { values_[i] = w; }
-
- protected:
- // Reads TupleWeight when there are no parentheses around tuple terms
- inline static istream &ReadNoParen(istream &strm,
- TupleWeight<W, n> &w,
- char separator) {
- int c;
- do {
- c = strm.get();
- } while (isspace(c));
-
- for (size_t i = 0; i < n - 1; ++i) {
- string s;
- if (i)
- c = strm.get();
- while (c != separator) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s += c;
- c = strm.get();
- }
- // read (i+1)-th element
- istringstream sstrm(s);
- W r = W::Zero();
- sstrm >> r;
- w.SetValue(i, r);
- }
-
- // read n-th element
- W r = W::Zero();
- strm >> r;
- w.SetValue(n - 1, r);
-
- return strm;
- }
-
- // Reads TupleWeight when there are parentheses around tuple terms
- inline static istream &ReadWithParen(istream &strm,
- TupleWeight<W, n> &w,
- char separator,
- char open_paren,
- char close_paren) {
- int c;
- do {
- c = strm.get();
- } while (isspace(c));
-
- if (c != open_paren) {
- FSTERROR() << " is fst_weight_parentheses flag set correcty? ";
- strm.clear(std::ios::badbit);
- return strm;
- }
-
- for (size_t i = 0; i < n - 1; ++i) {
- // read (i+1)-th element
- stack<int> parens;
- string s;
- c = strm.get();
- while (c != separator || !parens.empty()) {
- if (c == EOF) {
- strm.clear(std::ios::badbit);
- return strm;
- }
- s += c;
- // if parens encountered before separator, they must be matched
- if (c == open_paren) {
- parens.push(1);
- } else if (c == close_paren) {
- // Fail for mismatched parens
- if (parens.empty()) {
- strm.clear(std::ios::failbit);
- return strm;
- }
- parens.pop();
- }
- c = strm.get();
- }
- istringstream sstrm(s);
- W r = W::Zero();
- sstrm >> r;
- w.SetValue(i, r);
- }
-
- // read n-th element
- string s;
- c = strm.get();
- while (c != EOF) {
- s += c;
- c = strm.get();
- }
- if (s.empty() || *s.rbegin() != close_paren) {
- FSTERROR() << " is fst_weight_parentheses flag set correcty? ";
- strm.clear(std::ios::failbit);
- return strm;
- }
- s.erase(s.size() - 1, 1);
- istringstream sstrm(s);
- W r = W::Zero();
- sstrm >> r;
- w.SetValue(n - 1, r);
-
- return strm;
- }
-
-
- private:
- W values_[n];
-
- friend istream &operator>><W, n>(istream&, TupleWeight<W, n>&);
-};
-
-template <class W, unsigned int n>
-inline bool operator==(const TupleWeight<W, n> &w1,
- const TupleWeight<W, n> &w2) {
- bool equal = true;
- for (size_t i = 0; i < n; ++i)
- equal = equal && (w1.Value(i) == w2.Value(i));
- return equal;
-}
-
-template <class W, unsigned int n>
-inline bool operator!=(const TupleWeight<W, n> &w1,
- const TupleWeight<W, n> &w2) {
- bool not_equal = false;
- for (size_t i = 0; (i < n) && !not_equal; ++i)
- not_equal = not_equal || (w1.Value(i) != w2.Value(i));
- return not_equal;
-}
-
-template <class W, unsigned int n>
-inline bool ApproxEqual(const TupleWeight<W, n> &w1,
- const TupleWeight<W, n> &w2,
- float delta = kDelta) {
- bool approx_equal = true;
- for (size_t i = 0; i < n; ++i)
- approx_equal = approx_equal &&
- ApproxEqual(w1.Value(i), w2.Value(i), delta);
- return approx_equal;
-}
-
-template <class W, unsigned int n>
-inline ostream &operator<<(ostream &strm, const TupleWeight<W, n> &w) {
- if(FLAGS_fst_weight_separator.size() != 1) {
- FSTERROR() << "FLAGS_fst_weight_separator.size() is not equal to 1";
- strm.clear(std::ios::badbit);
- return strm;
- }
- char separator = FLAGS_fst_weight_separator[0];
- bool write_parens = false;
- if (!FLAGS_fst_weight_parentheses.empty()) {
- if (FLAGS_fst_weight_parentheses.size() != 2) {
- FSTERROR() << "FLAGS_fst_weight_parentheses.size() is not equal to 2";
- strm.clear(std::ios::badbit);
- return strm;
- }
- write_parens = true;
- }
-
- if (write_parens)
- strm << FLAGS_fst_weight_parentheses[0];
- for (size_t i = 0; i < n; ++i) {
- if(i)
- strm << separator;
- strm << w.Value(i);
- }
- if (write_parens)
- strm << FLAGS_fst_weight_parentheses[1];
-
- return strm;
-}
-
-template <class W, unsigned int n>
-inline istream &operator>>(istream &strm, TupleWeight<W, n> &w) {
- if(FLAGS_fst_weight_separator.size() != 1) {
- FSTERROR() << "FLAGS_fst_weight_separator.size() is not equal to 1";
- strm.clear(std::ios::badbit);
- return strm;
- }
- char separator = FLAGS_fst_weight_separator[0];
-
- if (!FLAGS_fst_weight_parentheses.empty()) {
- if (FLAGS_fst_weight_parentheses.size() != 2) {
- FSTERROR() << "FLAGS_fst_weight_parentheses.size() is not equal to 2";
- strm.clear(std::ios::badbit);
- return strm;
- }
- return TupleWeight<W, n>::ReadWithParen(
- strm, w, separator, FLAGS_fst_weight_parentheses[0],
- FLAGS_fst_weight_parentheses[1]);
- } else {
- return TupleWeight<W, n>::ReadNoParen(strm, w, separator);
- }
-}
-
-
-
-} // namespace fst
-
-#endif // FST_LIB_TUPLE_WEIGHT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/types.h b/kaldi_io/src/tools/openfst/include/fst/types.h
deleted file mode 100644
index 8c4367a..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/types.h
+++ /dev/null
@@ -1,38 +0,0 @@
-// types.h
-//
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Various type definitions (mostly for Google compatibility).
-
-#include <cstdlib> // for ssize_t
-#include <stdint.h> // *int*_t
-
-#include <fst/compat.h> // for DISALLOW_COPY_AND_ASSIGN
-
-#ifndef FST_LIB_TYPES_H__
-#define FST_LIB_TYPES_H__
-
-typedef int8_t int8;
-typedef int16_t int16;
-typedef int32_t int32;
-typedef int64_t int64;
-
-typedef uint8_t uint8;
-typedef uint16_t uint16;
-typedef uint32_t uint32;
-typedef uint64_t uint64;
-
-#endif // FST_LIB_TYPES_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/union-find.h b/kaldi_io/src/tools/openfst/include/fst/union-find.h
deleted file mode 100644
index c8633e0..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/union-find.h
+++ /dev/null
@@ -1,110 +0,0 @@
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Wojciech Skut)
-//
-// \file Union-Find algorithm for dense sets of non-negative
-// integers. Implemented using disjoint tree forests with rank
-// heuristics and path compression.
-
-#ifndef __fst_union_find_inl_h__
-#define __fst_union_find_inl_h__
-
-#include <stack>
-#include <vector>
-using std::vector;
-#include <fst/types.h>
-
-namespace fst {
-
-// Union-Find algorithm for dense sets of non-negative integers
-// (exact type: T).
-template <class T>
-class UnionFind {
- public:
- // Ctor: creates a disjoint set forest for the range [0;max).
- // 'fail' is a value indicating that an element hasn't been
- // initialized using MakeSet(...). The upper bound of the range
- // can be reset (increased) using MakeSet(...).
- UnionFind(T max, T fail)
- : parent_(max, fail), rank_(max), fail_(fail) { }
-
- // Finds the representative of the set 'item' belongs to.
- // Performs path compression if needed.
- T FindSet(T item) {
- if (item >= parent_.size()
- || item == fail_
- || parent_[item] == fail_) return fail_;
-
- T *p = &parent_[item];
- for (; *p != item; item = *p, p = &parent_[item]) {
- exec_stack_.push(p);
- }
- for (; ! exec_stack_.empty(); exec_stack_.pop()) {
- *exec_stack_.top() = *p;
- }
- return *p;
- }
-
- // Creates the (destructive) union of the sets x and y belong to.
- void Union(T x, T y) {
- Link(FindSet(x), FindSet(y));
- }
-
- // Initialization of an element: creates a singleton set containing
- // 'item'. The range [0;max) is reset if item >= max.
- T MakeSet(T item) {
- if (item >= parent_.size()) {
- // New value in parent_ should be initialized to fail_
- size_t nitem = item > 0 ? 2 * item : 2;
- parent_.resize(nitem, fail_);
- rank_.resize(nitem);
- }
- parent_[item] = item;
- return item;
- }
-
- // Initialization of all elements starting from 0 to max - 1 to distinct sets
- void MakeAllSet(T max) {
- parent_.resize(max);
- for (T item = 0; item < max; ++item) {
- parent_[item] = item;
- }
- }
-
- private:
- vector<T> parent_; // Parent nodes.
- vector<int> rank_; // Rank of an element = min. depth in tree.
- T fail_; // Value indicating lookup failure.
- stack<T*> exec_stack_; // Used for path compression.
-
- // Links trees rooted in 'x' and 'y'.
- void Link(T x, T y) {
- if (x == y) return;
-
- if (rank_[x] > rank_[y]) {
- parent_[y] = x;
- } else {
- parent_[x] = y;
- if (rank_[x] == rank_[y]) {
- ++rank_[y];
- }
- }
- }
- DISALLOW_COPY_AND_ASSIGN(UnionFind);
-};
-
-} // namespace fst
-
-#endif // __fst_union_find_inl_h__
diff --git a/kaldi_io/src/tools/openfst/include/fst/union.h b/kaldi_io/src/tools/openfst/include/fst/union.h
deleted file mode 100644
index a2f97fb..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/union.h
+++ /dev/null
@@ -1,185 +0,0 @@
-// union.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Functions and classes to compute the union of two FSTs.
-
-#ifndef FST_LIB_UNION_H__
-#define FST_LIB_UNION_H__
-
-#include <vector>
-using std::vector;
-#include <algorithm>
-
-#include <fst/mutable-fst.h>
-#include <fst/rational.h>
-
-
-namespace fst {
-
-// Computes the union (sum) of two FSTs. This version writes the
-// union to an output MurableFst. If A transduces string x to y with
-// weight a and B transduces string w to v with weight b, then their
-// union transduces x to y with weight a and w to v with weight b.
-//
-// Complexity:
-// - Time: (V2 + E2)
-// - Space: O(V2 + E2)
-// where Vi = # of states and Ei = # of arcs of the ith FST.
-template <class Arc>
-void Union(MutableFst<Arc> *fst1, const Fst<Arc> &fst2) {
- typedef typename Arc::StateId StateId;
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
-
- // TODO(riley): restore when voice actions issues fixed
- // Check that the symbol table are compatible
- if (!CompatSymbols(fst1->InputSymbols(), fst2.InputSymbols()) ||
- !CompatSymbols(fst1->OutputSymbols(), fst2.OutputSymbols())) {
- LOG(ERROR) << "Union: input/output symbol tables of 1st argument "
- << "do not match input/output symbol tables of 2nd argument";
- // fst1->SetProperties(kError, kError);
- // return;
- }
-
- StateId numstates1 = fst1->NumStates();
- bool initial_acyclic1 = fst1->Properties(kInitialAcyclic, true);
- uint64 props1 = fst1->Properties(kFstProperties, false);
- uint64 props2 = fst2.Properties(kFstProperties, false);
-
- StateId start2 = fst2.Start();
- if (start2 == kNoStateId) {
- if (props2 & kError) fst1->SetProperties(kError, kError);
- return;
- }
-
- if (fst2.Properties(kExpanded, false)) {
- fst1->ReserveStates(
- numstates1 + CountStates(fst2) + (initial_acyclic1 ? 0 : 1));
- }
-
- for (StateIterator< Fst<Arc> > siter(fst2);
- !siter.Done();
- siter.Next()) {
- StateId s1 = fst1->AddState();
- StateId s2 = siter.Value();
- fst1->SetFinal(s1, fst2.Final(s2));
- fst1->ReserveArcs(s1, fst2.NumArcs(s2));
- for (ArcIterator< Fst<Arc> > aiter(fst2, s2);
- !aiter.Done();
- aiter.Next()) {
- Arc arc = aiter.Value();
- arc.nextstate += numstates1;
- fst1->AddArc(s1, arc);
- }
- }
- StateId start1 = fst1->Start();
- if (start1 == kNoStateId) {
- fst1->SetStart(start2);
- fst1->SetProperties(props2, kCopyProperties);
- return;
- }
-
- if (initial_acyclic1) {
- fst1->AddArc(start1, Arc(0, 0, Weight::One(), start2 + numstates1));
- } else {
- StateId nstart1 = fst1->AddState();
- fst1->SetStart(nstart1);
- fst1->AddArc(nstart1, Arc(0, 0, Weight::One(), start1));
- fst1->AddArc(nstart1, Arc(0, 0, Weight::One(), start2 + numstates1));
- }
- fst1->SetProperties(UnionProperties(props1, props2), kFstProperties);
-}
-
-
-// Computes the union of two FSTs; this version modifies its
-// RationalFst argument.
-template<class Arc>
-void Union(RationalFst<Arc> *fst1, const Fst<Arc> &fst2) {
- fst1->GetImpl()->AddUnion(fst2);
-}
-
-
-typedef RationalFstOptions UnionFstOptions;
-
-
-// Computes the union (sum) of two FSTs. This version is a delayed
-// Fst. If A transduces string x to y with weight a and B transduces
-// string w to v with weight b, then their union transduces x to y
-// with weight a and w to v with weight b.
-//
-// Complexity:
-// - Time: O(v1 + e1 + v2 + e2)
-// - Sapce: O(v1 + v2)
-// where vi = # of states visited and ei = # of arcs visited of the
-// ith FST. Constant time and space to visit an input state or arc
-// is assumed and exclusive of caching.
-template <class A>
-class UnionFst : public RationalFst<A> {
- public:
- using ImplToFst< RationalFstImpl<A> >::GetImpl;
-
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- UnionFst(const Fst<A> &fst1, const Fst<A> &fst2) {
- GetImpl()->InitUnion(fst1, fst2);
- }
-
- UnionFst(const Fst<A> &fst1, const Fst<A> &fst2, const UnionFstOptions &opts)
- : RationalFst<A>(opts) {
- GetImpl()->InitUnion(fst1, fst2);
- }
-
- // See Fst<>::Copy() for doc.
- UnionFst(const UnionFst<A> &fst, bool safe = false)
- : RationalFst<A>(fst, safe) {}
-
- // Get a copy of this UnionFst. See Fst<>::Copy() for further doc.
- virtual UnionFst<A> *Copy(bool safe = false) const {
- return new UnionFst<A>(*this, safe);
- }
-};
-
-
-// Specialization for UnionFst.
-template <class A>
-class StateIterator< UnionFst<A> > : public StateIterator< RationalFst<A> > {
- public:
- explicit StateIterator(const UnionFst<A> &fst)
- : StateIterator< RationalFst<A> >(fst) {}
-};
-
-
-// Specialization for UnionFst.
-template <class A>
-class ArcIterator< UnionFst<A> > : public ArcIterator< RationalFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const UnionFst<A> &fst, StateId s)
- : ArcIterator< RationalFst<A> >(fst, s) {}
-};
-
-
-// Useful alias when using StdArc.
-typedef UnionFst<StdArc> StdUnionFst;
-
-} // namespace fst
-
-#endif // FST_LIB_UNION_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/util.h b/kaldi_io/src/tools/openfst/include/fst/util.h
deleted file mode 100644
index 57d7c4b..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/util.h
+++ /dev/null
@@ -1,437 +0,0 @@
-// util.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// FST utility inline definitions.
-
-#ifndef FST_LIB_UTIL_H__
-#define FST_LIB_UTIL_H__
-
-#include <tr1/unordered_map>
-using std::tr1::unordered_map;
-using std::tr1::unordered_multimap;
-#include <tr1/unordered_set>
-using std::tr1::unordered_set;
-using std::tr1::unordered_multiset;
-#include <list>
-#include <map>
-#include <set>
-#include <sstream>
-#include <string>
-#include <vector>
-using std::vector;
-
-
-#include <fst/compat.h>
-#include <fst/types.h>
-
-#include <iostream>
-#include <fstream>
-#include <sstream>
-
-//
-// UTILITY FOR ERROR HANDLING
-//
-
-DECLARE_bool(fst_error_fatal);
-
-#define FSTERROR() (FLAGS_fst_error_fatal ? LOG(FATAL) : LOG(ERROR))
-
-namespace fst {
-
-//
-// UTILITIES FOR TYPE I/O
-//
-
-// Read some types from an input stream.
-
-// Generic case.
-template <typename T>
-inline istream &ReadType(istream &strm, T *t) {
- return t->Read(strm);
-}
-
-// Fixed size, contiguous memory read.
-#define READ_POD_TYPE(T) \
-inline istream &ReadType(istream &strm, T *t) { \
- return strm.read(reinterpret_cast<char *>(t), sizeof(T)); \
-}
-
-READ_POD_TYPE(bool);
-READ_POD_TYPE(char);
-READ_POD_TYPE(signed char);
-READ_POD_TYPE(unsigned char);
-READ_POD_TYPE(short);
-READ_POD_TYPE(unsigned short);
-READ_POD_TYPE(int);
-READ_POD_TYPE(unsigned int);
-READ_POD_TYPE(long);
-READ_POD_TYPE(unsigned long);
-READ_POD_TYPE(long long);
-READ_POD_TYPE(unsigned long long);
-READ_POD_TYPE(float);
-READ_POD_TYPE(double);
-
-// String case.
-inline istream &ReadType(istream &strm, string *s) {
- s->clear();
- int32 ns = 0;
- strm.read(reinterpret_cast<char *>(&ns), sizeof(ns));
- for (int i = 0; i < ns; ++i) {
- char c;
- strm.read(&c, 1);
- *s += c;
- }
- return strm;
-}
-
-// Pair case.
-template <typename S, typename T>
-inline istream &ReadType(istream &strm, pair<S, T> *p) {
- ReadType(strm, &p->first);
- ReadType(strm, &p->second);
- return strm;
-}
-
-template <typename S, typename T>
-inline istream &ReadType(istream &strm, pair<const S, T> *p) {
- ReadType(strm, const_cast<S *>(&p->first));
- ReadType(strm, &p->second);
- return strm;
-}
-
-// General case - no-op.
-template <typename C>
-void StlReserve(C *c, int64 n) {}
-
-// Specialization for vectors.
-template <typename S, typename T>
-void StlReserve(vector<S, T> *c, int64 n) {
- c->reserve(n);
-}
-
-// STL sequence container.
-#define READ_STL_SEQ_TYPE(C) \
-template <typename S, typename T> \
-inline istream &ReadType(istream &strm, C<S, T> *c) { \
- c->clear(); \
- int64 n = 0; \
- strm.read(reinterpret_cast<char *>(&n), sizeof(n)); \
- StlReserve(c, n); \
- for (ssize_t i = 0; i < n; ++i) { \
- typename C<S, T>::value_type value; \
- ReadType(strm, &value); \
- c->insert(c->end(), value); \
- } \
- return strm; \
-}
-
-READ_STL_SEQ_TYPE(vector);
-READ_STL_SEQ_TYPE(list);
-
-// STL associative container.
-#define READ_STL_ASSOC_TYPE(C) \
-template <typename S, typename T, typename U> \
-inline istream &ReadType(istream &strm, C<S, T, U> *c) { \
- c->clear(); \
- int64 n = 0; \
- strm.read(reinterpret_cast<char *>(&n), sizeof(n)); \
- for (ssize_t i = 0; i < n; ++i) { \
- typename C<S, T, U>::value_type value; \
- ReadType(strm, &value); \
- c->insert(value); \
- } \
- return strm; \
-}
-
-READ_STL_ASSOC_TYPE(set);
-READ_STL_ASSOC_TYPE(unordered_set);
-READ_STL_ASSOC_TYPE(map);
-READ_STL_ASSOC_TYPE(unordered_map);
-
-// Write some types to an output stream.
-
-// Generic case.
-template <typename T>
-inline ostream &WriteType(ostream &strm, const T t) {
- t.Write(strm);
- return strm;
-}
-
-// Fixed size, contiguous memory write.
-#define WRITE_POD_TYPE(T) \
-inline ostream &WriteType(ostream &strm, const T t) { \
- return strm.write(reinterpret_cast<const char *>(&t), sizeof(T)); \
-}
-
-WRITE_POD_TYPE(bool);
-WRITE_POD_TYPE(char);
-WRITE_POD_TYPE(signed char);
-WRITE_POD_TYPE(unsigned char);
-WRITE_POD_TYPE(short);
-WRITE_POD_TYPE(unsigned short);
-WRITE_POD_TYPE(int);
-WRITE_POD_TYPE(unsigned int);
-WRITE_POD_TYPE(long);
-WRITE_POD_TYPE(unsigned long);
-WRITE_POD_TYPE(long long);
-WRITE_POD_TYPE(unsigned long long);
-WRITE_POD_TYPE(float);
-WRITE_POD_TYPE(double);
-
-// String case.
-inline ostream &WriteType(ostream &strm, const string &s) {
- int32 ns = s.size();
- strm.write(reinterpret_cast<const char *>(&ns), sizeof(ns));
- return strm.write(s.data(), ns);
-}
-
-// Pair case.
-template <typename S, typename T>
-inline ostream &WriteType(ostream &strm, const pair<S, T> &p) {
- WriteType(strm, p.first);
- WriteType(strm, p.second);
- return strm;
-}
-
-// STL sequence container.
-#define WRITE_STL_SEQ_TYPE(C) \
-template <typename S, typename T> \
-inline ostream &WriteType(ostream &strm, const C<S, T> &c) { \
- int64 n = c.size(); \
- strm.write(reinterpret_cast<char *>(&n), sizeof(n)); \
- for (typename C<S, T>::const_iterator it = c.begin(); \
- it != c.end(); ++it) \
- WriteType(strm, *it); \
- return strm; \
-}
-
-WRITE_STL_SEQ_TYPE(vector);
-WRITE_STL_SEQ_TYPE(list);
-
-// STL associative container.
-#define WRITE_STL_ASSOC_TYPE(C) \
-template <typename S, typename T, typename U> \
-inline ostream &WriteType(ostream &strm, const C<S, T, U> &c) { \
- int64 n = c.size(); \
- strm.write(reinterpret_cast<char *>(&n), sizeof(n)); \
- for (typename C<S, T, U>::const_iterator it = c.begin(); \
- it != c.end(); ++it) \
- WriteType(strm, *it); \
- return strm; \
-}
-
-WRITE_STL_ASSOC_TYPE(set);
-WRITE_STL_ASSOC_TYPE(unordered_set);
-WRITE_STL_ASSOC_TYPE(map);
-WRITE_STL_ASSOC_TYPE(unordered_map);
-
-// Utilities for converting between int64 or Weight and string.
-
-int64 StrToInt64(const string &s, const string &src, size_t nline,
- bool allow_negative, bool *error = 0);
-
-template <typename Weight>
-Weight StrToWeight(const string &s, const string &src, size_t nline) {
- Weight w;
- istringstream strm(s);
- strm >> w;
- if (!strm) {
- FSTERROR() << "StrToWeight: Bad weight = \"" << s
- << "\", source = " << src << ", line = " << nline;
- return Weight::NoWeight();
- }
- return w;
-}
-
-void Int64ToStr(int64 n, string *s);
-
-template <typename Weight>
-void WeightToStr(Weight w, string *s) {
- ostringstream strm;
- strm.precision(9);
- strm << w;
- s->append(strm.str().data(), strm.str().size());
-}
-
-// Utilities for reading/writing label pairs
-
-// Returns true on success
-template <typename Label>
-bool ReadLabelPairs(const string& filename,
- vector<pair<Label, Label> >* pairs,
- bool allow_negative = false) {
- ifstream strm(filename.c_str());
-
- if (!strm) {
- LOG(ERROR) << "ReadLabelPairs: Can't open file: " << filename;
- return false;
- }
-
- const int kLineLen = 8096;
- char line[kLineLen];
- size_t nline = 0;
-
- pairs->clear();
- while (strm.getline(line, kLineLen)) {
- ++nline;
- vector<char *> col;
- SplitToVector(line, "\n\t ", &col, true);
- if (col.size() == 0 || col[0][0] == '\0') // empty line
- continue;
- if (col.size() != 2) {
- LOG(ERROR) << "ReadLabelPairs: Bad number of columns, "
- << "file = " << filename << ", line = " << nline;
- return false;
- }
-
- bool err;
- Label frmlabel = StrToInt64(col[0], filename, nline, allow_negative, &err);
- if (err) return false;
- Label tolabel = StrToInt64(col[1], filename, nline, allow_negative, &err);
- if (err) return false;
- pairs->push_back(make_pair(frmlabel, tolabel));
- }
- return true;
-}
-
-// Returns true on success
-template <typename Label>
-bool WriteLabelPairs(const string& filename,
- const vector<pair<Label, Label> >& pairs) {
- ostream *strm = &cout;
- if (!filename.empty()) {
- strm = new ofstream(filename.c_str());
- if (!*strm) {
- LOG(ERROR) << "WriteLabelPairs: Can't open file: " << filename;
- return false;
- }
- }
-
- for (ssize_t n = 0; n < pairs.size(); ++n)
- *strm << pairs[n].first << "\t" << pairs[n].second << "\n";
-
- if (!*strm) {
- LOG(ERROR) << "WriteLabelPairs: Write failed: "
- << (filename.empty() ? "standard output" : filename);
- return false;
- }
- if (strm != &cout)
- delete strm;
- return true;
-}
-
-// Utilities for converting a type name to a legal C symbol.
-
-void ConvertToLegalCSymbol(string *s);
-
-
-//
-// UTILITIES FOR STREAM I/O
-//
-
-bool AlignInput(istream &strm);
-bool AlignOutput(ostream &strm);
-
-//
-// UTILITIES FOR PROTOCOL BUFFER I/O
-//
-
-
-// An associative container for which testing membership is
-// faster than an STL set if members are restricted to an interval
-// that excludes most non-members. A 'Key' must have ==, !=, and < defined.
-// Element 'NoKey' should be a key that marks an uninitialized key and
-// is otherwise unused. 'Find()' returns an STL const_iterator to the match
-// found, otherwise it equals 'End()'.
-template <class Key, Key NoKey>
-class CompactSet {
-public:
- typedef typename set<Key>::const_iterator const_iterator;
-
- CompactSet()
- : min_key_(NoKey),
- max_key_(NoKey) { }
-
- CompactSet(const CompactSet<Key, NoKey> &compact_set)
- : set_(compact_set.set_),
- min_key_(compact_set.min_key_),
- max_key_(compact_set.max_key_) { }
-
- void Insert(Key key) {
- set_.insert(key);
- if (min_key_ == NoKey || key < min_key_)
- min_key_ = key;
- if (max_key_ == NoKey || max_key_ < key)
- max_key_ = key;
- }
-
- void Erase(Key key) {
- set_.erase(key);
- if (set_.empty()) {
- min_key_ = max_key_ = NoKey;
- } else if (key == min_key_) {
- ++min_key_;
- } else if (key == max_key_) {
- --max_key_;
- }
- }
-
- void Clear() {
- set_.clear();
- min_key_ = max_key_ = NoKey;
- }
-
- const_iterator Find(Key key) const {
- if (min_key_ == NoKey ||
- key < min_key_ || max_key_ < key)
- return set_.end();
- else
- return set_.find(key);
- }
-
- bool Member(Key key) const {
- if (min_key_ == NoKey || key < min_key_ || max_key_ < key) {
- return false; // out of range
- } else if (min_key_ != NoKey && max_key_ + 1 == min_key_ + set_.size()) {
- return true; // dense range
- } else {
- return set_.find(key) != set_.end();
- }
- }
-
- const_iterator Begin() const { return set_.begin(); }
-
- const_iterator End() const { return set_.end(); }
-
- // All stored keys are greater than or equal to this value.
- Key LowerBound() const { return min_key_; }
-
- // All stored keys are less than or equal to this value.
- Key UpperBound() const { return max_key_; }
-
-private:
- set<Key> set_;
- Key min_key_;
- Key max_key_;
-
- void operator=(const CompactSet<Key, NoKey> &); //disallow
-};
-
-} // namespace fst
-
-#endif // FST_LIB_UTIL_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/vector-fst.h b/kaldi_io/src/tools/openfst/include/fst/vector-fst.h
deleted file mode 100644
index 8b80876..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/vector-fst.h
+++ /dev/null
@@ -1,731 +0,0 @@
-// vector-fst.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Simple concrete, mutable FST whose states and arcs are stored in STL
-// vectors.
-
-#ifndef FST_LIB_VECTOR_FST_H__
-#define FST_LIB_VECTOR_FST_H__
-
-#include <string>
-#include <vector>
-using std::vector;
-
-#include <fst/mutable-fst.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-template <class A> class VectorFst;
-template <class F, class G> void Cast(const F &, G *);
-
-
-// States and arcs implemented by STL vectors, templated on the
-// State definition. This does not manage the Fst properties.
-template <class State>
-class VectorFstBaseImpl : public FstImpl<typename State::Arc> {
- public:
- typedef typename State::Arc Arc;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- VectorFstBaseImpl() : start_(kNoStateId) {}
-
- ~VectorFstBaseImpl() {
- for (StateId s = 0; s < states_.size(); ++s)
- delete states_[s];
- }
-
- StateId Start() const { return start_; }
-
- Weight Final(StateId s) const { return states_[s]->final; }
-
- StateId NumStates() const { return states_.size(); }
-
- size_t NumArcs(StateId s) const { return states_[s]->arcs.size(); }
-
- void SetStart(StateId s) { start_ = s; }
-
- void SetFinal(StateId s, Weight w) { states_[s]->final = w; }
-
- StateId AddState() {
- states_.push_back(new State);
- return states_.size() - 1;
- }
-
- StateId AddState(State *state) {
- states_.push_back(state);
- return states_.size() - 1;
- }
-
- void AddArc(StateId s, const Arc &arc) {
- states_[s]->arcs.push_back(arc);
- }
-
- void DeleteStates(const vector<StateId>& dstates) {
- vector<StateId> newid(states_.size(), 0);
- for (size_t i = 0; i < dstates.size(); ++i)
- newid[dstates[i]] = kNoStateId;
- StateId nstates = 0;
- for (StateId s = 0; s < states_.size(); ++s) {
- if (newid[s] != kNoStateId) {
- newid[s] = nstates;
- if (s != nstates)
- states_[nstates] = states_[s];
- ++nstates;
- } else {
- delete states_[s];
- }
- }
- states_.resize(nstates);
- for (StateId s = 0; s < states_.size(); ++s) {
- vector<Arc> &arcs = states_[s]->arcs;
- size_t narcs = 0;
- for (size_t i = 0; i < arcs.size(); ++i) {
- StateId t = newid[arcs[i].nextstate];
- if (t != kNoStateId) {
- arcs[i].nextstate = t;
- if (i != narcs)
- arcs[narcs] = arcs[i];
- ++narcs;
- } else {
- if (arcs[i].ilabel == 0)
- --states_[s]->niepsilons;
- if (arcs[i].olabel == 0)
- --states_[s]->noepsilons;
- }
- }
- arcs.resize(narcs);
- }
- if (Start() != kNoStateId)
- SetStart(newid[Start()]);
- }
-
- void DeleteStates() {
- for (StateId s = 0; s < states_.size(); ++s)
- delete states_[s];
- states_.clear();
- SetStart(kNoStateId);
- }
-
- void DeleteArcs(StateId s, size_t n) {
- states_[s]->arcs.resize(states_[s]->arcs.size() - n);
- }
-
- void DeleteArcs(StateId s) { states_[s]->arcs.clear(); }
-
- State *GetState(StateId s) { return states_[s]; }
-
- const State *GetState(StateId s) const { return states_[s]; }
-
- void SetState(StateId s, State *state) { states_[s] = state; }
-
- void ReserveStates(StateId n) { states_.reserve(n); }
-
- void ReserveArcs(StateId s, size_t n) { states_[s]->arcs.reserve(n); }
-
- // Provide information needed for generic state iterator
- void InitStateIterator(StateIteratorData<Arc> *data) const {
- data->base = 0;
- data->nstates = states_.size();
- }
-
- // Provide information needed for generic arc iterator
- void InitArcIterator(StateId s, ArcIteratorData<Arc> *data) const {
- data->base = 0;
- data->narcs = states_[s]->arcs.size();
- data->arcs = data->narcs > 0 ? &states_[s]->arcs[0] : 0;
- data->ref_count = 0;
- }
-
- private:
- vector<State *> states_; // States represenation.
- StateId start_; // initial state
-
- DISALLOW_COPY_AND_ASSIGN(VectorFstBaseImpl);
-};
-
-// Arcs implemented by an STL vector per state.
-template <class A>
-struct VectorState {
- typedef A Arc;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- VectorState() : final(Weight::Zero()), niepsilons(0), noepsilons(0) {}
-
- Weight final; // Final weight
- vector<A> arcs; // Arcs represenation
- size_t niepsilons; // # of input epsilons
- size_t noepsilons; // # of output epsilons
-};
-
-// This is a VectorFstBaseImpl container that holds VectorState's. It
-// manages Fst properties and the # of input and output epsilons.
-template <class A>
-class VectorFstImpl : public VectorFstBaseImpl< VectorState<A> > {
- public:
- using FstImpl<A>::SetInputSymbols;
- using FstImpl<A>::SetOutputSymbols;
- using FstImpl<A>::SetType;
- using FstImpl<A>::SetProperties;
- using FstImpl<A>::Properties;
-
- using VectorFstBaseImpl<VectorState<A> >::Start;
- using VectorFstBaseImpl<VectorState<A> >::NumStates;
- using VectorFstBaseImpl<VectorState<A> >::GetState;
- using VectorFstBaseImpl<VectorState<A> >::ReserveArcs;
-
- friend class MutableArcIterator< VectorFst<A> >;
-
- typedef VectorFstBaseImpl< VectorState<A> > BaseImpl;
- typedef typename A::Weight Weight;
- typedef typename A::StateId StateId;
-
- VectorFstImpl() {
- SetType("vector");
- SetProperties(kNullProperties | kStaticProperties);
- }
- explicit VectorFstImpl(const Fst<A> &fst);
-
- static VectorFstImpl<A> *Read(istream &strm, const FstReadOptions &opts);
-
- size_t NumInputEpsilons(StateId s) const { return GetState(s)->niepsilons; }
-
- size_t NumOutputEpsilons(StateId s) const { return GetState(s)->noepsilons; }
-
- void SetStart(StateId s) {
- BaseImpl::SetStart(s);
- SetProperties(SetStartProperties(Properties()));
- }
-
- void SetFinal(StateId s, Weight w) {
- Weight ow = BaseImpl::Final(s);
- BaseImpl::SetFinal(s, w);
- SetProperties(SetFinalProperties(Properties(), ow, w));
- }
-
- StateId AddState() {
- StateId s = BaseImpl::AddState();
- SetProperties(AddStateProperties(Properties()));
- return s;
- }
-
- void AddArc(StateId s, const A &arc) {
- VectorState<A> *state = GetState(s);
- if (arc.ilabel == 0) {
- ++state->niepsilons;
- }
- if (arc.olabel == 0) {
- ++state->noepsilons;
- }
-
- const A *parc = state->arcs.empty() ? 0 : &(state->arcs.back());
- SetProperties(AddArcProperties(Properties(), s, arc, parc));
-
- BaseImpl::AddArc(s, arc);
- }
-
- void DeleteStates(const vector<StateId> &dstates) {
- BaseImpl::DeleteStates(dstates);
- SetProperties(DeleteStatesProperties(Properties()));
- }
-
- void DeleteStates() {
- BaseImpl::DeleteStates();
- SetProperties(DeleteAllStatesProperties(Properties(),
- kStaticProperties));
- }
-
- void DeleteArcs(StateId s, size_t n) {
- const vector<A> &arcs = GetState(s)->arcs;
- for (size_t i = 0; i < n; ++i) {
- size_t j = arcs.size() - i - 1;
- if (arcs[j].ilabel == 0)
- --GetState(s)->niepsilons;
- if (arcs[j].olabel == 0)
- --GetState(s)->noepsilons;
- }
- BaseImpl::DeleteArcs(s, n);
- SetProperties(DeleteArcsProperties(Properties()));
- }
-
- void DeleteArcs(StateId s) {
- GetState(s)->niepsilons = 0;
- GetState(s)->noepsilons = 0;
- BaseImpl::DeleteArcs(s);
- SetProperties(DeleteArcsProperties(Properties()));
- }
-
- // Properties always true of this Fst class
- static const uint64 kStaticProperties = kExpanded | kMutable;
-
- private:
- // Current file format version
- static const int kFileVersion = 2;
- // Minimum file format version supported
- static const int kMinFileVersion = 1;
-
- DISALLOW_COPY_AND_ASSIGN(VectorFstImpl);
-};
-
-template <class A> const uint64 VectorFstImpl<A>::kStaticProperties;
-template <class A> const int VectorFstImpl<A>::kFileVersion;
-template <class A> const int VectorFstImpl<A>::kMinFileVersion;
-
-
-template <class A>
-VectorFstImpl<A>::VectorFstImpl(const Fst<A> &fst) {
- SetType("vector");
- SetInputSymbols(fst.InputSymbols());
- SetOutputSymbols(fst.OutputSymbols());
- BaseImpl::SetStart(fst.Start());
- if (fst.Properties(kExpanded, false))
- BaseImpl::ReserveStates(CountStates(fst));
-
- for (StateIterator< Fst<A> > siter(fst);
- !siter.Done();
- siter.Next()) {
- StateId s = siter.Value();
- BaseImpl::AddState();
- BaseImpl::SetFinal(s, fst.Final(s));
- ReserveArcs(s, fst.NumArcs(s));
- for (ArcIterator< Fst<A> > aiter(fst, s);
- !aiter.Done();
- aiter.Next()) {
- const A &arc = aiter.Value();
- BaseImpl::AddArc(s, arc);
- if (arc.ilabel == 0)
- ++GetState(s)->niepsilons;
- if (arc.olabel == 0)
- ++GetState(s)->noepsilons;
- }
- }
- SetProperties(fst.Properties(kCopyProperties, false) | kStaticProperties);
-}
-
-template <class A>
-VectorFstImpl<A> *VectorFstImpl<A>::Read(istream &strm,
- const FstReadOptions &opts) {
- VectorFstImpl<A> *impl = new VectorFstImpl;
- FstHeader hdr;
- if (!impl->ReadHeader(strm, opts, kMinFileVersion, &hdr)) {
- delete impl;
- return 0;
- }
- impl->BaseImpl::SetStart(hdr.Start());
- if (hdr.NumStates() != kNoStateId) {
- impl->ReserveStates(hdr.NumStates());
- }
-
- StateId s = 0;
- for (;hdr.NumStates() == kNoStateId || s < hdr.NumStates(); ++s) {
- typename A::Weight final;
- if (!final.Read(strm)) break;
- impl->BaseImpl::AddState();
- VectorState<A> *state = impl->GetState(s);
- state->final = final;
- int64 narcs;
- ReadType(strm, &narcs);
- if (!strm) {
- LOG(ERROR) << "VectorFst::Read: read failed: " << opts.source;
- delete impl;
- return 0;
- }
- impl->ReserveArcs(s, narcs);
- for (size_t j = 0; j < narcs; ++j) {
- A arc;
- ReadType(strm, &arc.ilabel);
- ReadType(strm, &arc.olabel);
- arc.weight.Read(strm);
- ReadType(strm, &arc.nextstate);
- if (!strm) {
- LOG(ERROR) << "VectorFst::Read: read failed: " << opts.source;
- delete impl;
- return 0;
- }
- impl->BaseImpl::AddArc(s, arc);
- if (arc.ilabel == 0)
- ++state->niepsilons;
- if (arc.olabel == 0)
- ++state->noepsilons;
- }
- }
- if (hdr.NumStates() != kNoStateId && s != hdr.NumStates()) {
- LOG(ERROR) << "VectorFst::Read: unexpected end of file: " << opts.source;
- delete impl;
- return 0;
- }
- return impl;
-}
-
-// Converts a string into a weight.
-template <class W> class WeightFromString {
- public:
- W operator()(const string &s);
-};
-
-// Generic case fails.
-template <class W> inline
-W WeightFromString<W>::operator()(const string &s) {
- FSTERROR() << "VectorFst::Read: Obsolete file format";
- return W::NoWeight();
-}
-
-// TropicalWeight version.
-template <> inline
-TropicalWeight WeightFromString<TropicalWeight>::operator()(const string &s) {
- float f;
- memcpy(&f, s.data(), sizeof(f));
- return TropicalWeight(f);
-}
-
-// LogWeight version.
-template <> inline
-LogWeight WeightFromString<LogWeight>::operator()(const string &s) {
- float f;
- memcpy(&f, s.data(), sizeof(f));
- return LogWeight(f);
-}
-
-// Simple concrete, mutable FST. This class attaches interface to
-// implementation and handles reference counting, delegating most
-// methods to ImplToMutableFst. Supports additional operations:
-// ReserveStates and ReserveArcs (cf. STL vectors).
-template <class A>
-class VectorFst : public ImplToMutableFst< VectorFstImpl<A> > {
- public:
- friend class StateIterator< VectorFst<A> >;
- friend class ArcIterator< VectorFst<A> >;
- friend class MutableArcIterator< VectorFst<A> >;
- template <class F, class G> friend void Cast(const F &, G *);
-
- typedef A Arc;
- typedef typename A::StateId StateId;
- typedef VectorFstImpl<A> Impl;
-
- VectorFst() : ImplToMutableFst<Impl>(new Impl) {}
-
- explicit VectorFst(const Fst<A> &fst)
- : ImplToMutableFst<Impl>(new Impl(fst)) {}
-
- VectorFst(const VectorFst<A> &fst) : ImplToMutableFst<Impl>(fst) {}
-
- // Get a copy of this VectorFst. See Fst<>::Copy() for further doc.
- virtual VectorFst<A> *Copy(bool safe = false) const {
- return new VectorFst<A>(*this);
- }
-
- VectorFst<A> &operator=(const VectorFst<A> &fst) {
- SetImpl(fst.GetImpl(), false);
- return *this;
- }
-
- virtual VectorFst<A> &operator=(const Fst<A> &fst) {
- if (this != &fst) SetImpl(new Impl(fst));
- return *this;
- }
-
- // Read a VectorFst from an input stream; return NULL on error
- static VectorFst<A> *Read(istream &strm, const FstReadOptions &opts) {
- Impl* impl = Impl::Read(strm, opts);
- return impl ? new VectorFst<A>(impl) : 0;
- }
-
- // Read a VectorFst from a file; return NULL on error
- // Empty filename reads from standard input
- static VectorFst<A> *Read(const string &filename) {
- Impl* impl = ImplToExpandedFst<Impl, MutableFst<A> >::Read(filename);
- return impl ? new VectorFst<A>(impl) : 0;
- }
-
- virtual bool Write(ostream &strm, const FstWriteOptions &opts) const {
- return WriteFst(*this, strm, opts);
- }
-
- virtual bool Write(const string &filename) const {
- return Fst<A>::WriteFile(filename);
- }
-
- template <class F>
- static bool WriteFst(const F &fst, ostream &strm,
- const FstWriteOptions &opts);
-
- void ReserveStates(StateId n) {
- MutateCheck();
- GetImpl()->ReserveStates(n);
- }
-
- void ReserveArcs(StateId s, size_t n) {
- MutateCheck();
- GetImpl()->ReserveArcs(s, n);
- }
-
- virtual void InitStateIterator(StateIteratorData<Arc> *data) const {
- GetImpl()->InitStateIterator(data);
- }
-
- virtual void InitArcIterator(StateId s, ArcIteratorData<Arc> *data) const {
- GetImpl()->InitArcIterator(s, data);
- }
-
- virtual inline
- void InitMutableArcIterator(StateId s, MutableArcIteratorData<A> *);
-
- private:
- explicit VectorFst(Impl *impl) : ImplToMutableFst<Impl>(impl) {}
-
- // Makes visible to friends.
- Impl *GetImpl() const { return ImplToFst< Impl, MutableFst<A> >::GetImpl(); }
-
- void SetImpl(Impl *impl, bool own_impl = true) {
- ImplToFst< Impl, MutableFst<A> >::SetImpl(impl, own_impl);
- }
-
- void MutateCheck() { return ImplToMutableFst<Impl>::MutateCheck(); }
-};
-
-// Specialization for VectorFst; see generic version in fst.h
-// for sample usage (but use the VectorFst type!). This version
-// should inline.
-template <class A>
-class StateIterator< VectorFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- explicit StateIterator(const VectorFst<A> &fst)
- : nstates_(fst.GetImpl()->NumStates()), s_(0) {}
-
- bool Done() const { return s_ >= nstates_; }
-
- StateId Value() const { return s_; }
-
- void Next() { ++s_; }
-
- void Reset() { s_ = 0; }
-
- private:
- StateId nstates_;
- StateId s_;
-
- DISALLOW_COPY_AND_ASSIGN(StateIterator);
-};
-
-// Writes Fst to file, will call CountStates so may involve two passes if
-// called from an Fst that is not derived from Expanded.
-template <class A>
-template <class F>
-bool VectorFst<A>::WriteFst(const F &fst, ostream &strm,
- const FstWriteOptions &opts) {
- static const int kFileVersion = 2;
- bool update_header = true;
- FstHeader hdr;
- hdr.SetStart(fst.Start());
- hdr.SetNumStates(kNoStateId);
- size_t start_offset = 0;
- if (fst.Properties(kExpanded, false) || (start_offset = strm.tellp()) != -1) {
- hdr.SetNumStates(CountStates(fst));
- update_header = false;
- }
- uint64 properties = fst.Properties(kCopyProperties, false) |
- VectorFstImpl<A>::kStaticProperties;
- FstImpl<A>::WriteFstHeader(fst, strm, opts, kFileVersion, "vector",
- properties, &hdr);
- StateId num_states = 0;
- for (StateIterator<F> siter(fst); !siter.Done(); siter.Next()) {
- typename A::StateId s = siter.Value();
- fst.Final(s).Write(strm);
- int64 narcs = fst.NumArcs(s);
- WriteType(strm, narcs);
- for (ArcIterator<F> aiter(fst, s); !aiter.Done(); aiter.Next()) {
- const A &arc = aiter.Value();
- WriteType(strm, arc.ilabel);
- WriteType(strm, arc.olabel);
- arc.weight.Write(strm);
- WriteType(strm, arc.nextstate);
- }
- num_states++;
- }
- strm.flush();
- if (!strm) {
- LOG(ERROR) << "VectorFst::Write: write failed: " << opts.source;
- return false;
- }
- if (update_header) {
- hdr.SetNumStates(num_states);
- return FstImpl<A>::UpdateFstHeader(fst, strm, opts, kFileVersion, "vector",
- properties, &hdr, start_offset);
- } else {
- if (num_states != hdr.NumStates()) {
- LOG(ERROR) << "Inconsistent number of states observed during write";
- return false;
- }
- }
- return true;
-}
-
-// Specialization for VectorFst; see generic version in fst.h
-// for sample usage (but use the VectorFst type!). This version
-// should inline.
-template <class A>
-class ArcIterator< VectorFst<A> > {
- public:
- typedef typename A::StateId StateId;
-
- ArcIterator(const VectorFst<A> &fst, StateId s)
- : arcs_(fst.GetImpl()->GetState(s)->arcs), i_(0) {}
-
- bool Done() const { return i_ >= arcs_.size(); }
-
- const A& Value() const { return arcs_[i_]; }
-
- void Next() { ++i_; }
-
- void Reset() { i_ = 0; }
-
- void Seek(size_t a) { i_ = a; }
-
- size_t Position() const { return i_; }
-
- uint32 Flags() const {
- return kArcValueFlags;
- }
-
- void SetFlags(uint32 f, uint32 m) {}
-
- private:
- const vector<A>& arcs_;
- size_t i_;
-
- DISALLOW_COPY_AND_ASSIGN(ArcIterator);
-};
-
-// Specialization for VectorFst; see generic version in fst.h
-// for sample usage (but use the VectorFst type!). This version
-// should inline.
-template <class A>
-class MutableArcIterator< VectorFst<A> >
- : public MutableArcIteratorBase<A> {
- public:
- typedef typename A::StateId StateId;
- typedef typename A::Weight Weight;
-
- MutableArcIterator(VectorFst<A> *fst, StateId s) : i_(0) {
- fst->MutateCheck();
- state_ = fst->GetImpl()->GetState(s);
- properties_ = &fst->GetImpl()->properties_;
- }
-
- bool Done() const { return i_ >= state_->arcs.size(); }
-
- const A& Value() const { return state_->arcs[i_]; }
-
- void Next() { ++i_; }
-
- size_t Position() const { return i_; }
-
- void Reset() { i_ = 0; }
-
- void Seek(size_t a) { i_ = a; }
-
- void SetValue(const A &arc) {
- A& oarc = state_->arcs[i_];
- if (oarc.ilabel != oarc.olabel)
- *properties_ &= ~kNotAcceptor;
- if (oarc.ilabel == 0) {
- --state_->niepsilons;
- *properties_ &= ~kIEpsilons;
- if (oarc.olabel == 0)
- *properties_ &= ~kEpsilons;
- }
- if (oarc.olabel == 0) {
- --state_->noepsilons;
- *properties_ &= ~kOEpsilons;
- }
- if (oarc.weight != Weight::Zero() && oarc.weight != Weight::One())
- *properties_ &= ~kWeighted;
- oarc = arc;
- if (arc.ilabel != arc.olabel) {
- *properties_ |= kNotAcceptor;
- *properties_ &= ~kAcceptor;
- }
- if (arc.ilabel == 0) {
- ++state_->niepsilons;
- *properties_ |= kIEpsilons;
- *properties_ &= ~kNoIEpsilons;
- if (arc.olabel == 0) {
- *properties_ |= kEpsilons;
- *properties_ &= ~kNoEpsilons;
- }
- }
- if (arc.olabel == 0) {
- ++state_->noepsilons;
- *properties_ |= kOEpsilons;
- *properties_ &= ~kNoOEpsilons;
- }
- if (arc.weight != Weight::Zero() && arc.weight != Weight::One()) {
- *properties_ |= kWeighted;
- *properties_ &= ~kUnweighted;
- }
- *properties_ &= kSetArcProperties | kAcceptor | kNotAcceptor |
- kEpsilons | kNoEpsilons | kIEpsilons | kNoIEpsilons |
- kOEpsilons | kNoOEpsilons | kWeighted | kUnweighted;
- }
-
- uint32 Flags() const {
- return kArcValueFlags;
- }
-
- void SetFlags(uint32 f, uint32 m) {}
-
-
- private:
- // This allows base-class virtual access to non-virtual derived-
- // class members of the same name. It makes the derived class more
- // efficient to use but unsafe to further derive.
- virtual bool Done_() const { return Done(); }
- virtual const A& Value_() const { return Value(); }
- virtual void Next_() { Next(); }
- virtual size_t Position_() const { return Position(); }
- virtual void Reset_() { Reset(); }
- virtual void Seek_(size_t a) { Seek(a); }
- virtual void SetValue_(const A &a) { SetValue(a); }
- uint32 Flags_() const { return Flags(); }
- void SetFlags_(uint32 f, uint32 m) { SetFlags(f, m); }
-
- struct VectorState<A> *state_;
- uint64 *properties_;
- size_t i_;
-
- DISALLOW_COPY_AND_ASSIGN(MutableArcIterator);
-};
-
-// Provide information needed for the generic mutable arc iterator
-template <class A> inline
-void VectorFst<A>::InitMutableArcIterator(
- StateId s, MutableArcIteratorData<A> *data) {
- data->base = new MutableArcIterator< VectorFst<A> >(this, s);
-}
-
-// A useful alias when using StdArc.
-typedef VectorFst<StdArc> StdVectorFst;
-
-} // namespace fst
-
-#endif // FST_LIB_VECTOR_FST_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/verify.h b/kaldi_io/src/tools/openfst/include/fst/verify.h
deleted file mode 100644
index 576cfca..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/verify.h
+++ /dev/null
@@ -1,126 +0,0 @@
-// verify.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Function to verify an Fst's contents
-
-#ifndef FST_LIB_VERIFY_H__
-#define FST_LIB_VERIFY_H__
-
-#include <fst/fst.h>
-#include <fst/test-properties.h>
-
-
-namespace fst {
-
-// Verifies that an Fst's contents are sane.
-template<class Arc>
-bool Verify(const Fst<Arc> &fst, bool allow_negative_labels = false) {
- typedef typename Arc::Label Label;
- typedef typename Arc::Weight Weight;
- typedef typename Arc::StateId StateId;
-
- StateId start = fst.Start();
- const SymbolTable *isyms = fst.InputSymbols();
- const SymbolTable *osyms = fst.OutputSymbols();
-
- // Count states
- StateId ns = 0;
- for (StateIterator< Fst<Arc> > siter(fst);
- !siter.Done();
- siter.Next())
- ++ns;
-
- if (start == kNoStateId && ns > 0) {
- LOG(ERROR) << "Verify: Fst start state ID unset";
- return false;
- } else if (start >= ns) {
- LOG(ERROR) << "Verify: Fst start state ID exceeds number of states";
- return false;
- }
-
- for (StateIterator< Fst<Arc> > siter(fst);
- !siter.Done();
- siter.Next()) {
- StateId s = siter.Value();
- size_t na = 0;
- for (ArcIterator< Fst<Arc> > aiter(fst, s);
- !aiter.Done();
- aiter.Next()) {
- const Arc &arc =aiter.Value();
- if (!allow_negative_labels && arc.ilabel < 0) {
- LOG(ERROR) << "Verify: Fst input label ID of arc at position "
- << na << " of state " << s << " is negative";
- return false;
- } else if (isyms && isyms->Find(arc.ilabel) == "") {
- LOG(ERROR) << "Verify: Fst input label ID " << arc.ilabel
- << " of arc at position " << na << " of state " << s
- << " is missing from input symbol table \""
- << isyms->Name() << "\"";
- return false;
- } else if (!allow_negative_labels && arc.olabel < 0) {
- LOG(ERROR) << "Verify: Fst output label ID of arc at position "
- << na << " of state " << s << " is negative";
- return false;
- } else if (osyms && osyms->Find(arc.olabel) == "") {
- LOG(ERROR) << "Verify: Fst output label ID " << arc.olabel
- << " of arc at position " << na << " of state " << s
- << " is missing from output symbol table \""
- << osyms->Name() << "\"";
- return false;
- } else if (!arc.weight.Member() || arc.weight == Weight::Zero()) {
- LOG(ERROR) << "Verify: Fst weight of arc at position "
- << na << " of state " << s << " is invalid";
- return false;
- } else if (arc.nextstate < 0) {
- LOG(ERROR) << "Verify: Fst destination state ID of arc at position "
- << na << " of state " << s << " is negative";
- return false;
- } else if (arc.nextstate >= ns) {
- LOG(ERROR) << "Verify: Fst destination state ID of arc at position "
- << na << " of state " << s
- << " exceeds number of states";
- return false;
- }
- ++na;
- }
- if (!fst.Final(s).Member()) {
- LOG(ERROR) << "Verify: Fst final weight of state " << s << " is invalid";
- return false;
- }
- }
- uint64 fst_props = fst.Properties(kFstProperties, false);
- if (fst_props & kError) {
- LOG(ERROR) << "Verify: Fst error property is set";
- return false;
- }
-
- uint64 known_props;
- uint64 test_props = ComputeProperties(fst, kFstProperties, &known_props,
- false);
- if (!CompatProperties(fst_props, test_props)) {
- LOG(ERROR) << "Verify: stored Fst properties incorrect "
- << "(props1 = stored props, props2 = tested)";
- return false;
- } else {
- return true;
- }
-}
-
-} // namespace fst
-
-#endif // FST_LIB_VERIFY_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/visit.h b/kaldi_io/src/tools/openfst/include/fst/visit.h
deleted file mode 100644
index 5f5059a..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/visit.h
+++ /dev/null
@@ -1,284 +0,0 @@
-// visit.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// Queue-dependent visitation of finite-state transducers. See also
-// dfs-visit.h.
-
-#ifndef FST_LIB_VISIT_H__
-#define FST_LIB_VISIT_H__
-
-
-#include <fst/arcfilter.h>
-#include <fst/mutable-fst.h>
-
-
-namespace fst {
-
-// Visitor Interface - class determines actions taken during a visit.
-// If any of the boolean member functions return false, the visit is
-// aborted by first calling FinishState() on all unfinished (grey)
-// states and then calling FinishVisit().
-//
-// Note this is more general than the visitor interface in
-// dfs-visit.h but lacks some DFS-specific behavior.
-//
-// template <class Arc>
-// class Visitor {
-// public:
-// typedef typename Arc::StateId StateId;
-//
-// Visitor(T *return_data);
-// // Invoked before visit
-// void InitVisit(const Fst<Arc> &fst);
-// // Invoked when state discovered (2nd arg is visitation root)
-// bool InitState(StateId s, StateId root);
-// // Invoked when arc to white/undiscovered state examined
-// bool WhiteArc(StateId s, const Arc &a);
-// // Invoked when arc to grey/unfinished state examined
-// bool GreyArc(StateId s, const Arc &a);
-// // Invoked when arc to black/finished state examined
-// bool BlackArc(StateId s, const Arc &a);
-// // Invoked when state finished.
-// void FinishState(StateId s);
-// // Invoked after visit
-// void FinishVisit();
-// };
-
-// Performs queue-dependent visitation. Visitor class argument
-// determines actions and contains any return data. ArcFilter
-// determines arcs that are considered.
-//
-// Note this is more general than DfsVisit() in dfs-visit.h but lacks
-// some DFS-specific Visitor behavior.
-template <class Arc, class V, class Q, class ArcFilter>
-void Visit(const Fst<Arc> &fst, V *visitor, Q *queue, ArcFilter filter) {
-
- typedef typename Arc::StateId StateId;
- typedef ArcIterator< Fst<Arc> > AIterator;
-
- visitor->InitVisit(fst);
-
- StateId start = fst.Start();
- if (start == kNoStateId) {
- visitor->FinishVisit();
- return;
- }
-
- // An Fst state's visit color
- const unsigned kWhiteState = 0x01; // Undiscovered
- const unsigned kGreyState = 0x02; // Discovered & unfinished
- const unsigned kBlackState = 0x04; // Finished
-
- // We destroy an iterator as soon as possible and mark it so
- const unsigned kArcIterDone = 0x08; // Arc iterator done and destroyed
-
- vector<unsigned char> state_status;
- vector<AIterator *> arc_iterator;
-
- StateId nstates = start + 1; // # of known states in general case
- bool expanded = false;
- if (fst.Properties(kExpanded, false)) { // tests if expanded case, then
- nstates = CountStates(fst); // uses ExpandedFst::NumStates().
- expanded = true;
- }
-
- state_status.resize(nstates, kWhiteState);
- arc_iterator.resize(nstates);
- StateIterator< Fst<Arc> > siter(fst);
-
- // Continues visit while true
- bool visit = true;
-
- // Iterates over trees in visit forest.
- for (StateId root = start; visit && root < nstates;) {
- visit = visitor->InitState(root, root);
- state_status[root] = kGreyState;
- queue->Enqueue(root);
- while (!queue->Empty()) {
- StateId s = queue->Head();
- if (s >= state_status.size()) {
- nstates = s + 1;
- state_status.resize(nstates, kWhiteState);
- arc_iterator.resize(nstates);
- }
- // Creates arc iterator if needed.
- if (arc_iterator[s] == 0 && !(state_status[s] & kArcIterDone) && visit)
- arc_iterator[s] = new AIterator(fst, s);
- // Deletes arc iterator if done.
- AIterator *aiter = arc_iterator[s];
- if ((aiter && aiter->Done()) || !visit) {
- delete aiter;
- arc_iterator[s] = 0;
- state_status[s] |= kArcIterDone;
- }
- // Dequeues state and marks black if done
- if (state_status[s] & kArcIterDone) {
- queue->Dequeue();
- visitor->FinishState(s);
- state_status[s] = kBlackState;
- continue;
- }
-
- const Arc &arc = aiter->Value();
- if (arc.nextstate >= state_status.size()) {
- nstates = arc.nextstate + 1;
- state_status.resize(nstates, kWhiteState);
- arc_iterator.resize(nstates);
- }
- // Visits respective arc types
- if (filter(arc)) {
- // Enqueues destination state and marks grey if white
- if (state_status[arc.nextstate] == kWhiteState) {
- visit = visitor->WhiteArc(s, arc);
- if (!visit) continue;
- visit = visitor->InitState(arc.nextstate, root);
- state_status[arc.nextstate] = kGreyState;
- queue->Enqueue(arc.nextstate);
- } else if (state_status[arc.nextstate] == kBlackState) {
- visit = visitor->BlackArc(s, arc);
- } else {
- visit = visitor->GreyArc(s, arc);
- }
- }
- aiter->Next();
- // Destroys an iterator ASAP for efficiency.
- if (aiter->Done()) {
- delete aiter;
- arc_iterator[s] = 0;
- state_status[s] |= kArcIterDone;
- }
- }
- // Finds next tree root
- for (root = root == start ? 0 : root + 1;
- root < nstates && state_status[root] != kWhiteState;
- ++root) {
- }
-
- // Check for a state beyond the largest known state
- if (!expanded && root == nstates) {
- for (; !siter.Done(); siter.Next()) {
- if (siter.Value() == nstates) {
- ++nstates;
- state_status.push_back(kWhiteState);
- arc_iterator.push_back(0);
- break;
- }
- }
- }
- }
- visitor->FinishVisit();
-}
-
-
-template <class Arc, class V, class Q>
-inline void Visit(const Fst<Arc> &fst, V *visitor, Q* queue) {
- Visit(fst, visitor, queue, AnyArcFilter<Arc>());
-}
-
-// Copies input FST to mutable FST following queue order.
-template <class A>
-class CopyVisitor {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
-
- CopyVisitor(MutableFst<Arc> *ofst) : ifst_(0), ofst_(ofst) {}
-
- void InitVisit(const Fst<A> &ifst) {
- ifst_ = &ifst;
- ofst_->DeleteStates();
- ofst_->SetStart(ifst_->Start());
- }
-
- bool InitState(StateId s, StateId) {
- while (ofst_->NumStates() <= s)
- ofst_->AddState();
- return true;
- }
-
- bool WhiteArc(StateId s, const Arc &arc) {
- ofst_->AddArc(s, arc);
- return true;
- }
-
- bool GreyArc(StateId s, const Arc &arc) {
- ofst_->AddArc(s, arc);
- return true;
- }
-
- bool BlackArc(StateId s, const Arc &arc) {
- ofst_->AddArc(s, arc);
- return true;
- }
-
- void FinishState(StateId s) {
- ofst_->SetFinal(s, ifst_->Final(s));
- }
-
- void FinishVisit() {}
-
- private:
- const Fst<Arc> *ifst_;
- MutableFst<Arc> *ofst_;
-};
-
-
-// Visits input FST up to a state limit following queue order. If
-// 'access_only' is true, aborts on visiting first state not
-// accessible from the initial state.
-template <class A>
-class PartialVisitor {
- public:
- typedef A Arc;
- typedef typename A::StateId StateId;
-
- explicit PartialVisitor(StateId maxvisit, bool access_only = false)
- : maxvisit_(maxvisit),
- access_only_(access_only),
- start_(kNoStateId) {}
-
- void InitVisit(const Fst<A> &ifst) {
- nvisit_ = 0;
- start_ = ifst.Start();
- }
-
- bool InitState(StateId s, StateId root) {
- if (access_only_ && root != start_)
- return false;
- ++nvisit_;
- return nvisit_ <= maxvisit_;
- }
-
- bool WhiteArc(StateId s, const Arc &arc) { return true; }
- bool GreyArc(StateId s, const Arc &arc) { return true; }
- bool BlackArc(StateId s, const Arc &arc) { return true; }
- void FinishState(StateId s) {}
- void FinishVisit() {}
-
- private:
- StateId maxvisit_;
- bool access_only_;
- StateId nvisit_;
- StateId start_;
-
-};
-
-
-} // namespace fst
-
-#endif // FST_LIB_VISIT_H__
diff --git a/kaldi_io/src/tools/openfst/include/fst/weight.h b/kaldi_io/src/tools/openfst/include/fst/weight.h
deleted file mode 100644
index 7eb4bb1..0000000
--- a/kaldi_io/src/tools/openfst/include/fst/weight.h
+++ /dev/null
@@ -1,179 +0,0 @@
-// weight.h
-
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-// http://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// Copyright 2005-2010 Google, Inc.
-// Author: [email protected] (Michael Riley)
-//
-// \file
-// General weight set and associated semiring operation definitions.
-//
-// A semiring is specified by two binary operations Plus and Times and
-// two designated elements Zero and One with the following properties:
-// Plus: associative, commutative, and has Zero as its identity.
-// Times: associative and has identity One, distributes w.r.t. Plus, and
-// has Zero as an annihilator:
-// Times(Zero(), a) == Times(a, Zero()) = Zero().
-//
-// A left semiring distributes on the left; a right semiring is
-// similarly defined.
-//
-// A Weight class must have binary functions =Plus= and =Times= and
-// static member functions =Zero()= and =One()= and these must form
-// (at least) a left or right semiring.
-//
-// In addition, the following should be defined for a Weight:
-// Member: predicate on set membership.
-// NoWeight: static member function that returns an element that is
-// not a set member; used to signal an error.
-// >>: reads textual representation of a weight.
-// <<: prints textual representation of a weight.
-// Read(istream &strm): reads binary representation of a weight.
-// Write(ostream &strm): writes binary representation of a weight.
-// Hash: maps weight to size_t.
-// ApproxEqual: approximate equality (for inexact weights)
-// Quantize: quantizes wrt delta (for inexact weights)
-// Divide: for all a,b,c s.t. Times(a, b) == c
-// --> b' = Divide(c, a, DIVIDE_LEFT) if a left semiring, b'.Member()
-// and Times(a, b') == c
-// --> a' = Divide(c, b, DIVIDE_RIGHT) if a right semiring, a'.Member()
-// and Times(a', b) == c
-// --> b' = Divide(c, a) = Divide(c, a, DIVIDE_ANY) =
-// Divide(c, a, DIVIDE_LEFT) = Divide(c, a, DIVIDE_RIGHT) if a
-// commutative semiring, b'.Member() and Times(a, b') = Times(b', a) = c
-// ReverseWeight: the type of the corresponding reverse weight.
-// Typically the same type as Weight for a (both left and right) semiring.
-// For the left string semiring, it is the right string semiring.
-// Reverse: a mapping from Weight to ReverseWeight s.t.
-// --> Reverse(Reverse(a)) = a
-// --> Reverse(Plus(a, b)) = Plus(Reverse(a), Reverse(b))
-// --> Reverse(Times(a, b)) = Times(Reverse(b), Reverse(a))
-// Typically the identity mapping in a (both left and right) semiring.
-// In the left string semiring, it maps to the reverse string
-// in the right string semiring.
-// Properties: specifies additional properties that hold:
-// LeftSemiring: indicates weights form a left semiring.
-// RightSemiring: indicates weights form a right semiring.
-// Commutative: for all a,b: Times(a,b) == Times(b,a)
-// Idempotent: for all a: Plus(a, a) == a.
-// Path: for all a, b: Plus(a, b) == a or Plus(a, b) == b.
-
-
-#ifndef FST_LIB_WEIGHT_H__
-#define FST_LIB_WEIGHT_H__
-
-#include <cmath>
-#include <cctype>
-#include <iostream>
-#include <sstream>
-
-#include <fst/compat.h>
-
-#include <fst/util.h>
-
-
-namespace fst {
-
-//
-// CONSTANT DEFINITIONS
-//
-
-// A representable float near .001
-const float kDelta = 1.0F/1024.0F;
-
-// For all a,b,c: Times(c, Plus(a,b)) = Plus(Times(c,a), Times(c, b))
-const uint64 kLeftSemiring = 0x0000000000000001ULL;
-
-// For all a,b,c: Times(Plus(a,b), c) = Plus(Times(a,c), Times(b, c))
-const uint64 kRightSemiring = 0x0000000000000002ULL;
-
-const uint64 kSemiring = kLeftSemiring | kRightSemiring;
-
-// For all a,b: Times(a,b) = Times(b,a)
-const uint64 kCommutative = 0x0000000000000004ULL;
-
-// For all a: Plus(a, a) = a
-const uint64 kIdempotent = 0x0000000000000008ULL;
-
-// For all a,b: Plus(a,b) = a or Plus(a,b) = b
-const uint64 kPath = 0x0000000000000010ULL;
-
-
-// Determines direction of division.
-enum DivideType { DIVIDE_LEFT, // left division
- DIVIDE_RIGHT, // right division
- DIVIDE_ANY }; // division in a commutative semiring
-
-// NATURAL ORDER
-//
-// By definition:
-// a <= b iff a + b = a
-// The natural order is a negative partial order iff the semiring is
-// idempotent. It is trivially monotonic for plus. It is left
-// (resp. right) monotonic for times iff the semiring is left
-// (resp. right) distributive. It is a total order iff the semiring
-// has the path property. See Mohri, "Semiring Framework and
-// Algorithms for Shortest-Distance Problems", Journal of Automata,
-// Languages and Combinatorics 7(3):321-350, 2002. We define the
-// strict version of this order below.
-
-template <class W>
-class NaturalLess {
- public:
- typedef W Weight;
-
- NaturalLess() {
- if (!(W::Properties() & kIdempotent)) {
- FSTERROR() << "NaturalLess: Weight type is not idempotent: "
- << W::Type();
- }
- }
-
- bool operator()(const W &w1, const W &w2) const {
- return (Plus(w1, w2) == w1) && w1 != w2;
- }
-};
-
-
-// Power is the iterated product for arbitrary semirings such that
-// Power(w, 0) is One() for the semiring, and
-// Power(w, n) = Times(Power(w, n-1), w)
-
-template <class W>
-W Power(W w, size_t n) {
- W result = W::One();
- for (size_t i = 0; i < n; ++i) {
- result = Times(result, w);
- }
- return result;
-}
-
-// General weight converter - raises error.
-template <class W1, class W2>
-struct WeightConvert {
- W2 operator()(W1 w1) const {
- FSTERROR() << "WeightConvert: can't convert weight from \""
- << W1::Type() << "\" to \"" << W2::Type();
- return W2::NoWeight();
- }
-};
-
-// Specialized weight converter to self.
-template <class W>
-struct WeightConvert<W, W> {
- W operator()(W w) const { return w; }
-};
-
-} // namespace fst
-
-#endif // FST_LIB_WEIGHT_H__