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// 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__
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