info-impl.h
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// See www.openfst.org for extensive documentation on this weighted
// finite-state transducer library.
//
// Class to compute various information about FSTs, a helper class for
// fstinfo.cc.
#ifndef FST_SCRIPT_INFO_IMPL_H_
#define FST_SCRIPT_INFO_IMPL_H_
#include <map>
#include <string>
#include <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<Arc>::NumStates,
// Fst<Arc>::NumArcs, TestProperties, etc.
class FstInfo {
public:
FstInfo() {}
// When info_type is "short" (or "auto" and not an ExpandedFst) then only
// minimal info is computed and can be requested.
template <typename Arc>
FstInfo(const Fst<Arc> &fst, bool test_properties,
const string &arc_filter_type = "any",
const 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),
ilabel_mult_(0.0),
olabel_mult_(0.0),
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),
arc_type_(Arc::Type()) {
using Label = typename Arc::Label;
using StateId = typename Arc::StateId;
using Weight = typename Arc::Weight;
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<Arc>> siter(fst); !siter.Done(); siter.Next()) {
++nstates_;
const auto s = siter.Value();
if (fst.Final(s) != Weight::Zero()) ++nfinal_;
std::map<Label, size_t> ilabel_count;
std::map<Label, size_t> olabel_count;
for (ArcIterator<Fst<Arc>> aiter(fst, s); !aiter.Done(); aiter.Next()) {
const auto &arc = aiter.Value();
++narcs_;
if (arc.ilabel == 0 && arc.olabel == 0) ++nepsilons_;
if (arc.ilabel == 0) ++niepsilons_;
if (arc.olabel == 0) ++noepsilons_;
++ilabel_count[arc.ilabel];
++olabel_count[arc.olabel];
}
for (auto it = ilabel_count.begin(); it != ilabel_count.end(); ++it) {
ilabel_mult_ += it->second * it->second;
}
for (auto it = olabel_count.begin(); it != olabel_count.end(); ++it) {
olabel_mult_ += it->second * it->second;
}
}
if (narcs_ > 0) {
ilabel_mult_ /= narcs_;
olabel_mult_ /= narcs_;
}
{
std::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;
}
}
{
std::vector<StateId> scc;
std::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<Arc>> imatcher(fst, MATCH_INPUT);
input_match_type_ = imatcher.Type(test_properties);
input_lookahead_ = imatcher.Flags() & kInputLookAheadMatcher;
LookAheadMatcher<Fst<Arc>> 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 arc_type_; }
const string &InputSymbols() const { return input_symbols_; }
const string &OutputSymbols() const { return output_symbols_; }
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_;
}
size_t NumArcs() const {
CheckLong();
return narcs_;
}
int64 Start() const {
CheckLong();
return start_;
}
size_t NumFinal() const {
CheckLong();
return nfinal_;
}
size_t NumEpsilons() const {
CheckLong();
return nepsilons_;
}
size_t NumInputEpsilons() const {
CheckLong();
return niepsilons_;
}
size_t NumOutputEpsilons() const {
CheckLong();
return noepsilons_;
}
double InputLabelMultiplicity() const {
CheckLong();
return ilabel_mult_;
}
double OutputLabelMultiplicity() const {
CheckLong();
return olabel_mult_;
}
size_t NumAccessible() const {
CheckLong();
return naccess_;
}
size_t NumCoAccessible() const {
CheckLong();
return ncoaccess_;
}
size_t NumConnected() const {
CheckLong();
return nconnect_;
}
size_t NumCc() const {
CheckLong();
return ncc_;
}
size_t 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 signature";
}
string fst_type_;
string input_symbols_;
string output_symbols_;
int64 nstates_;
size_t narcs_;
int64 start_;
size_t nfinal_;
size_t nepsilons_;
size_t niepsilons_;
size_t noepsilons_;
double ilabel_mult_;
double olabel_mult_;
size_t naccess_;
size_t ncoaccess_;
size_t nconnect_;
size_t ncc_;
size_t nscc_;
MatchType input_match_type_;
MatchType output_match_type_;
bool input_lookahead_;
bool output_lookahead_;
uint64 properties_;
string arc_filter_type_;
bool long_info_;
string arc_type_;
};
void PrintFstInfoImpl(const FstInfo &fstinfo, bool pipe = false);
} // namespace fst
#endif // FST_SCRIPT_INFO_IMPL_H_