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// Copyright 2005-2024 Google LLC
//
// 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.
//
// See www.openfst.org for extensive documentation on this weighted
// finite-state transducer library.
#ifndef FST_SCRIPT_SHORTEST_DISTANCE_H_
#define FST_SCRIPT_SHORTEST_DISTANCE_H_
#include <cstdint>
#include <memory>
#include <tuple>
#include <type_traits>
#include <vector>
#include <fst/log.h>
#include <fst/arcfilter.h>
#include <fst/fst.h>
#include <fst/queue.h>
#include <fst/shortest-distance.h>
#include <fst/util.h>
#include <fst/weight.h>
#include <fst/script/arcfilter-impl.h>
#include <fst/script/arg-packs.h>
#include <fst/script/fst-class.h>
#include <fst/script/prune.h>
#include <fst/script/script-impl.h>
#include <fst/script/weight-class.h>
namespace fst {namespace script {
struct ShortestDistanceOptions { const QueueType queue_type; const ArcFilterType arc_filter_type; const int64_t source; const float delta;
ShortestDistanceOptions(QueueType queue_type, ArcFilterType arc_filter_type, int64_t source, float delta) : queue_type(queue_type), arc_filter_type(arc_filter_type), source(source), delta(delta) {}};
namespace internal {
// Code to implement switching on queue and arc filter types.
template <class Arc, class Queue, class ArcFilter>struct QueueConstructor { using Weight = typename Arc::Weight;
static std::unique_ptr<Queue> Construct(const Fst<Arc> &, const std::vector<Weight> *) { return std::make_unique<Queue>(); }};
// Specializations to support queues with different constructors.
template <class Arc, class ArcFilter>struct QueueConstructor<Arc, AutoQueue<typename Arc::StateId>, ArcFilter> { using StateId = typename Arc::StateId; using Weight = typename Arc::Weight;
// template<class Arc, class ArcFilter>
static std::unique_ptr<AutoQueue<StateId>> Construct( const Fst<Arc> &fst, const std::vector<Weight> *distance) { return std::make_unique<AutoQueue<StateId>>(fst, distance, ArcFilter()); }};
template <class Arc, class ArcFilter>struct QueueConstructor< Arc, NaturalShortestFirstQueue<typename Arc::StateId, typename Arc::Weight>, ArcFilter> { using StateId = typename Arc::StateId; using Weight = typename Arc::Weight;
static std::unique_ptr<NaturalShortestFirstQueue<StateId, Weight>> Construct( const Fst<Arc> &, const std::vector<Weight> *distance) { return std::make_unique<NaturalShortestFirstQueue<StateId, Weight>>( *distance); }};
template <class Arc, class ArcFilter>struct QueueConstructor<Arc, TopOrderQueue<typename Arc::StateId>, ArcFilter> { using StateId = typename Arc::StateId; using Weight = typename Arc::Weight;
static std::unique_ptr<TopOrderQueue<StateId>> Construct( const Fst<Arc> &fst, const std::vector<Weight> *) { return std::make_unique<TopOrderQueue<StateId>>(fst, ArcFilter()); }};
template <class Arc, class Queue, class ArcFilter>void ShortestDistance(const Fst<Arc> &fst, std::vector<typename Arc::Weight> *distance, const ShortestDistanceOptions &opts) { std::unique_ptr<Queue> queue( QueueConstructor<Arc, Queue, ArcFilter>::Construct(fst, distance)); const fst::ShortestDistanceOptions<Arc, Queue, ArcFilter> sopts( queue.get(), ArcFilter(), opts.source, opts.delta); ShortestDistance(fst, distance, sopts);}
template <class Arc, class Queue>void ShortestDistance(const Fst<Arc> &fst, std::vector<typename Arc::Weight> *distance, const ShortestDistanceOptions &opts) { switch (opts.arc_filter_type) { case ArcFilterType::ANY: { ShortestDistance<Arc, Queue, AnyArcFilter<Arc>>(fst, distance, opts); return; } case ArcFilterType::EPSILON: { ShortestDistance<Arc, Queue, EpsilonArcFilter<Arc>>(fst, distance, opts); return; } case ArcFilterType::INPUT_EPSILON: { ShortestDistance<Arc, Queue, InputEpsilonArcFilter<Arc>>(fst, distance, opts); return; } case ArcFilterType::OUTPUT_EPSILON: { ShortestDistance<Arc, Queue, OutputEpsilonArcFilter<Arc>>(fst, distance, opts); return; } default: { FSTERROR() << "ShortestDistance: Unknown arc filter type: " << static_cast<std::underlying_type_t<ArcFilterType>>( opts.arc_filter_type); distance->clear(); distance->resize(1, Arc::Weight::NoWeight()); return; } }}
} // namespace internal
using FstShortestDistanceArgs1 = std::tuple<const FstClass &, std::vector<WeightClass> *, const ShortestDistanceOptions &>;
template <class Arc>void ShortestDistance(FstShortestDistanceArgs1 *args) { using StateId = typename Arc::StateId; using Weight = typename Arc::Weight; const Fst<Arc> &fst = *std::get<0>(*args).GetFst<Arc>(); const auto &opts = std::get<2>(*args); std::vector<Weight> typed_distance; switch (opts.queue_type) { case AUTO_QUEUE: { internal::ShortestDistance<Arc, AutoQueue<StateId>>(fst, &typed_distance, opts); break; } case FIFO_QUEUE: { internal::ShortestDistance<Arc, FifoQueue<StateId>>(fst, &typed_distance, opts); break; } case LIFO_QUEUE: { internal::ShortestDistance<Arc, LifoQueue<StateId>>(fst, &typed_distance, opts); break; } case SHORTEST_FIRST_QUEUE: { if constexpr (IsIdempotent<Weight>::value) { internal::ShortestDistance<Arc, NaturalShortestFirstQueue<StateId, Weight>>( fst, &typed_distance, opts); } else { FSTERROR() << "ShortestDistance: Bad queue type SHORTEST_FIRST_QUEUE" << " for non-idempotent Weight " << Weight::Type(); } break; } case STATE_ORDER_QUEUE: { internal::ShortestDistance<Arc, StateOrderQueue<StateId>>( fst, &typed_distance, opts); break; } case TOP_ORDER_QUEUE: { internal::ShortestDistance<Arc, TopOrderQueue<StateId>>( fst, &typed_distance, opts); break; } default: { FSTERROR() << "ShortestDistance: Unknown queue type: " << opts.queue_type; typed_distance.clear(); typed_distance.resize(1, Arc::Weight::NoWeight()); break; } } internal::CopyWeights(typed_distance, std::get<1>(*args));}
using FstShortestDistanceArgs2 = std::tuple<const FstClass &, std::vector<WeightClass> *, bool, double>;
template <class Arc>void ShortestDistance(FstShortestDistanceArgs2 *args) { using Weight = typename Arc::Weight; const Fst<Arc> &fst = *std::get<0>(*args).GetFst<Arc>(); std::vector<Weight> typed_distance; ShortestDistance(fst, &typed_distance, std::get<2>(*args), std::get<3>(*args)); internal::CopyWeights(typed_distance, std::get<1>(*args));}
using FstShortestDistanceInnerArgs3 = std::tuple<const FstClass &, double>;
using FstShortestDistanceArgs3 = WithReturnValue<WeightClass, FstShortestDistanceInnerArgs3>;
template <class Arc>void ShortestDistance(FstShortestDistanceArgs3 *args) { const Fst<Arc> &fst = *std::get<0>(args->args).GetFst<Arc>(); args->retval = WeightClass(ShortestDistance(fst, std::get<1>(args->args)));}
void ShortestDistance(const FstClass &fst, std::vector<WeightClass> *distance, const ShortestDistanceOptions &opts);
void ShortestDistance(const FstClass &ifst, std::vector<WeightClass> *distance, bool reverse = false, double delta = fst::kShortestDelta);
WeightClass ShortestDistance(const FstClass &ifst, double delta = fst::kShortestDelta);
} // namespace script
} // namespace fst
#endif // FST_SCRIPT_SHORTEST_DISTANCE_H_
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