// See www.openfst.org for extensive documentation on this weighted // finite-state transducer library. // // Two DFAs are equivalent iff their exit status is zero. #include #include #include #include #include #include #include #include DECLARE_double(delta); DECLARE_bool(random); DECLARE_int32(max_length); DECLARE_int32(npath); DECLARE_int32(seed); DECLARE_string(select); int fstequivalent_main(int argc, char **argv) { namespace s = fst::script; using fst::RandGenOptions; using fst::script::FstClass; string usage = "Two DFAs are equivalent iff the exit status is zero.\n\n" " Usage: "; usage += argv[0]; usage += " in1.fst in2.fst\n"; std::set_new_handler(FailedNewHandler); SET_FLAGS(usage.c_str(), &argc, &argv, true); if (argc != 3) { ShowUsage(); return 1; } const string in1_name = strcmp(argv[1], "-") == 0 ? "" : argv[1]; const string in2_name = strcmp(argv[2], "-") == 0 ? "" : argv[2]; if (in1_name.empty() && in2_name.empty()) { LOG(ERROR) << argv[0] << ": Can't take both inputs from standard input"; return 1; } std::unique_ptr ifst1(FstClass::Read(in1_name)); if (!ifst1) return 1; std::unique_ptr ifst2(FstClass::Read(in2_name)); if (!ifst2) return 1; if (!FLAGS_random) { bool result = s::Equivalent(*ifst1, *ifst2, FLAGS_delta); if (!result) VLOG(1) << "FSTs are not equivalent"; return result ? 0 : 2; } else { s::RandArcSelection ras; if (!s::GetRandArcSelection(FLAGS_select, &ras)) { LOG(ERROR) << argv[0] << ": Unknown or unsupported select type " << FLAGS_select; return 1; } const RandGenOptions opts(ras, FLAGS_max_length); bool result = s::RandEquivalent(*ifst1, *ifst2, FLAGS_npath, FLAGS_delta, FLAGS_seed, opts); if (!result) VLOG(1) << "FSTs are not equivalent"; return result ? 0 : 2; } }