// See www.openfst.org for extensive documentation on this weighted
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// finite-state transducer library.
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#ifndef FST_SCRIPT_RMEPSILON_H_
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#define FST_SCRIPT_RMEPSILON_H_
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#include <utility>
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#include <vector>
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#include <fst/queue.h>
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#include <fst/rmepsilon.h>
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#include <fst/script/fst-class.h>
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#include <fst/script/shortest-distance.h>
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#include <fst/script/weight-class.h>
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namespace fst {
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namespace script {
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struct RmEpsilonOptions : public ShortestDistanceOptions {
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const bool connect;
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const WeightClass &weight_threshold;
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const int64 state_threshold;
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RmEpsilonOptions(QueueType queue_type, bool connect,
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const WeightClass &weight_threshold,
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int64 state_threshold = kNoStateId, float delta = kDelta)
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: ShortestDistanceOptions(queue_type, EPSILON_ARC_FILTER, kNoStateId,
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delta),
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connect(connect),
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weight_threshold(weight_threshold),
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state_threshold(state_threshold) {}
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};
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namespace internal {
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// Code to implement switching on queue types.
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template <class Arc, class Queue>
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void RmEpsilon(MutableFst<Arc> *fst,
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std::vector<typename Arc::Weight> *distance,
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const RmEpsilonOptions &opts, Queue *queue) {
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using Weight = typename Arc::Weight;
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const fst::RmEpsilonOptions<Arc, Queue> ropts(
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queue, opts.delta, opts.connect,
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*opts.weight_threshold.GetWeight<Weight>(), opts.state_threshold);
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RmEpsilon(fst, distance, ropts);
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}
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template <class Arc>
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void RmEpsilon(MutableFst<Arc> *fst, const RmEpsilonOptions &opts) {
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using StateId = typename Arc::StateId;
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using Weight = typename Arc::Weight;
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std::vector<Weight> distance;
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switch (opts.queue_type) {
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case AUTO_QUEUE: {
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AutoQueue<StateId> queue(*fst, &distance, EpsilonArcFilter<Arc>());
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RmEpsilon(fst, &distance, opts, &queue);
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return;
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}
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case FIFO_QUEUE: {
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FifoQueue<StateId> queue;
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RmEpsilon(fst, &distance, opts, &queue);
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return;
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}
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case LIFO_QUEUE: {
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LifoQueue<StateId> queue;
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RmEpsilon(fst, &distance, opts, &queue);
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return;
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}
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case SHORTEST_FIRST_QUEUE: {
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NaturalShortestFirstQueue<StateId, Weight> queue(distance);
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RmEpsilon(fst, &distance, opts, &queue);
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return;
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}
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case STATE_ORDER_QUEUE: {
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StateOrderQueue<StateId> queue;
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RmEpsilon(fst, &distance, opts, &queue);
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return;
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}
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case TOP_ORDER_QUEUE: {
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TopOrderQueue<StateId> queue(*fst, EpsilonArcFilter<Arc>());
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internal::RmEpsilon(fst, &distance, opts, &queue);
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return;
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}
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default: {
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FSTERROR() << "RmEpsilon: Unknown queue type: " << opts.queue_type;
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fst->SetProperties(kError, kError);
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return;
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}
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}
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}
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} // namespace internal
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using RmEpsilonArgs = std::pair<MutableFstClass *, const RmEpsilonOptions &>;
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template <class Arc>
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void RmEpsilon(RmEpsilonArgs *args) {
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MutableFst<Arc> *fst = std::get<0>(*args)->GetMutableFst<Arc>();
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const auto &opts = std::get<1>(*args);
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internal::RmEpsilon(fst, opts);
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}
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void RmEpsilon(MutableFstClass *fst, const RmEpsilonOptions &opts);
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} // namespace script
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} // namespace fst
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#endif // FST_SCRIPT_RMEPSILON_H_
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