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// 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: riley@google.com (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(kFstPropertie
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