// 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: riley@google.com (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 #include #include #include 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 FstPrinter { public: typedef A Arc; typedef typename A::StateId StateId; typedef typename A::Label Label; typedef typename A::Weight Weight; FstPrinter(const Fst &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 > 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 > 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 &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_