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297 lines
15 KiB
297 lines
15 KiB
3 years ago
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// lat/determinize-lattice-pruned.h
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// Copyright 2009-2012 Microsoft Corporation
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// 2012-2013 Johns Hopkins University (Author: Daniel Povey)
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// 2014 Guoguo Chen
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// See ../../COPYING for clarification regarding multiple authors
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// THIS CODE IS PROVIDED *AS IS* BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, EITHER EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED
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// WARRANTIES OR CONDITIONS OF TITLE, FITNESS FOR A PARTICULAR PURPOSE,
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// MERCHANTABLITY OR NON-INFRINGEMENT.
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// See the Apache 2 License for the specific language governing permissions and
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// limitations under the License.
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#ifndef KALDI_LAT_DETERMINIZE_LATTICE_PRUNED_H_
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#define KALDI_LAT_DETERMINIZE_LATTICE_PRUNED_H_
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#include <fst/fstlib.h>
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#include <fst/fst-decl.h>
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#include <algorithm>
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#include <map>
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#include <set>
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#include <vector>
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#include "fstext/lattice-weight.h"
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3 years ago
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// #include "hmm/transition-model.h"
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#include "util/options-itf.h"
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3 years ago
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#include "lat/kaldi-lattice.h"
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namespace fst {
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/// \addtogroup fst_extensions
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/// @{
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// For example of usage, see test-determinize-lattice-pruned.cc
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/*
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DeterminizeLatticePruned implements a special form of determinization with
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epsilon removal, optimized for a phase of lattice generation. This algorithm
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also does pruning at the same time-- the combination is more efficient as it
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somtimes prevents us from creating a lot of states that would later be pruned
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away. This allows us to increase the lattice-beam and not have the algorithm
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blow up. Also, because our algorithm processes states in order from those
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that appear on high-scoring paths down to those that appear on low-scoring
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paths, we can easily terminate the algorithm after a certain specified number
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of states or arcs.
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The input is an FST with weight-type BaseWeightType (usually a pair of floats,
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with a lexicographical type of order, such as LatticeWeightTpl<float>).
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Typically this would be a state-level lattice, with input symbols equal to
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words, and output-symbols equal to p.d.f's (so like the inverse of HCLG). Imagine representing this as an
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acceptor of type CompactLatticeWeightTpl<float>, in which the input/output
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symbols are words, and the weights contain the original weights together with
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strings (with zero or one symbol in them) containing the original output labels
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(the p.d.f.'s). We determinize this using acceptor determinization with
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epsilon removal. Remember (from lattice-weight.h) that
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CompactLatticeWeightTpl has a special kind of semiring where we always take
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the string corresponding to the best cost (of type BaseWeightType), and
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discard the other. This corresponds to taking the best output-label sequence
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(of p.d.f.'s) for each input-label sequence (of words). We couldn't use the
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Gallic weight for this, or it would die as soon as it detected that the input
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FST was non-functional. In our case, any acyclic FST (and many cyclic ones)
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can be determinized.
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We assume that there is a function
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Compare(const BaseWeightType &a, const BaseWeightType &b)
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that returns (-1, 0, 1) according to whether (a < b, a == b, a > b) in the
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total order on the BaseWeightType... this information should be the
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same as NaturalLess would give, but it's more efficient to do it this way.
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You can define this for things like TropicalWeight if you need to instantiate
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this class for that weight type.
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We implement this determinization in a special way to make it efficient for
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the types of FSTs that we will apply it to. One issue is that if we
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explicitly represent the strings (in CompactLatticeWeightTpl) as vectors of
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type vector<IntType>, the algorithm takes time quadratic in the length of
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words (in states), because propagating each arc involves copying a whole
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vector (of integers representing p.d.f.'s). Instead we use a hash structure
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where each string is a pointer (Entry*), and uses a hash from (Entry*,
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IntType), to the successor string (and a way to get the latest IntType and the
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ancestor Entry*). [this is the class LatticeStringRepository].
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Another issue is that rather than representing a determinized-state as a
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collection of (state, weight), we represent it in a couple of reduced forms.
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Suppose a determinized-state is a collection of (state, weight) pairs; call
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this the "canonical representation". Note: these collections are always
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normalized to remove any common weight and string part. Define end-states as
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the subset of states that have an arc out of them with a label on, or are
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final. If we represent a determinized-state a the set of just its (end-state,
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weight) pairs, this will be a valid and more compact representation, and will
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lead to a smaller set of determinized states (like early minimization). Call
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this collection of (end-state, weight) pairs the "minimal representation". As
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a mechanism to reduce compute, we can also consider another representation.
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In the determinization algorithm, we start off with a set of (begin-state,
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weight) pairs (where the "begin-states" are initial or have a label on the
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transition into them), and the "canonical representation" consists of the
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epsilon-closure of this set (i.e. follow epsilons). Call this set of
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(begin-state, weight) pairs, appropriately normalized, the "initial
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representation". If two initial representations are the same, the "canonical
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representation" and hence the "minimal representation" will be the same. We
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can use this to reduce compute. Note that if two initial representations are
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different, this does not preclude the other representations from being the same.
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*/
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struct DeterminizeLatticePrunedOptions {
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float delta; // A small offset used to measure equality of weights.
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int max_mem; // If >0, determinization will fail and return false
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// when the algorithm's (approximate) memory consumption crosses this threshold.
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int max_loop; // If >0, can be used to detect non-determinizable input
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// (a case that wouldn't be caught by max_mem).
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int max_states;
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int max_arcs;
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float retry_cutoff;
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DeterminizeLatticePrunedOptions(): delta(kDelta),
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max_mem(-1),
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max_loop(-1),
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max_states(-1),
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max_arcs(-1),
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retry_cutoff(0.5) { }
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void Register (kaldi::OptionsItf *opts) {
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opts->Register("delta", &delta, "Tolerance used in determinization");
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opts->Register("max-mem", &max_mem, "Maximum approximate memory usage in "
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"determinization (real usage might be many times this)");
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opts->Register("max-arcs", &max_arcs, "Maximum number of arcs in "
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"output FST (total, not per state");
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opts->Register("max-states", &max_states, "Maximum number of arcs in output "
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"FST (total, not per state");
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opts->Register("max-loop", &max_loop, "Option used to detect a particular "
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"type of determinization failure, typically due to invalid input "
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"(e.g., negative-cost loops)");
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opts->Register("retry-cutoff", &retry_cutoff, "Controls pruning un-determinized "
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"lattice and retrying determinization: if effective-beam < "
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"retry-cutoff * beam, we prune the raw lattice and retry. Avoids "
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"ever getting empty output for long segments.");
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}
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};
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struct DeterminizeLatticePhonePrunedOptions {
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// delta: a small offset used to measure equality of weights.
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float delta;
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// max_mem: if > 0, determinization will fail and return false when the
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// algorithm's (approximate) memory consumption crosses this threshold.
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int max_mem;
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// phone_determinize: if true, do a first pass determinization on both phones
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// and words.
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bool phone_determinize;
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// word_determinize: if true, do a second pass determinization on words only.
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bool word_determinize;
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// minimize: if true, push and minimize after determinization.
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bool minimize;
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DeterminizeLatticePhonePrunedOptions(): delta(kDelta),
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max_mem(50000000),
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phone_determinize(true),
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word_determinize(true),
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minimize(false) {}
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void Register (kaldi::OptionsItf *opts) {
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opts->Register("delta", &delta, "Tolerance used in determinization");
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opts->Register("max-mem", &max_mem, "Maximum approximate memory usage in "
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"determinization (real usage might be many times this).");
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opts->Register("phone-determinize", &phone_determinize, "If true, do an "
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"initial pass of determinization on both phones and words (see"
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" also --word-determinize)");
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opts->Register("word-determinize", &word_determinize, "If true, do a second "
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"pass of determinization on words only (see also "
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"--phone-determinize)");
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opts->Register("minimize", &minimize, "If true, push and minimize after "
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"determinization.");
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}
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};
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/**
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This function implements the normal version of DeterminizeLattice, in which the
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output strings are represented using sequences of arcs, where all but the
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first one has an epsilon on the input side. It also prunes using the beam
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in the "prune" parameter. The input FST must be topologically sorted in order
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for the algorithm to work. For efficiency it is recommended to sort ilabel as well.
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Returns true on success, and false if it had to terminate the determinization
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earlier than specified by the "prune" beam-- that is, if it terminated because
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of the max_mem, max_loop or max_arcs constraints in the options.
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CAUTION: you may want to use the version below which outputs to CompactLattice.
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*/
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template<class Weight>
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bool DeterminizeLatticePruned(
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const ExpandedFst<ArcTpl<Weight> > &ifst,
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double prune,
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MutableFst<ArcTpl<Weight> > *ofst,
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DeterminizeLatticePrunedOptions opts = DeterminizeLatticePrunedOptions());
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/* This is a version of DeterminizeLattice with a slightly more "natural" output format,
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where the output sequences are encoded using the CompactLatticeArcTpl template
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(i.e. the sequences of output symbols are represented directly as strings The input
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FST must be topologically sorted in order for the algorithm to work. For efficiency
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it is recommended to sort the ilabel for the input FST as well.
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Returns true on normal success, and false if it had to terminate the determinization
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earlier than specified by the "prune" beam-- that is, if it terminated because
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of the max_mem, max_loop or max_arcs constraints in the options.
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CAUTION: if Lattice is the input, you need to Invert() before calling this,
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so words are on the input side.
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*/
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template<class Weight, class IntType>
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bool DeterminizeLatticePruned(
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const ExpandedFst<ArcTpl<Weight> >&ifst,
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double prune,
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MutableFst<ArcTpl<CompactLatticeWeightTpl<Weight, IntType> > > *ofst,
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DeterminizeLatticePrunedOptions opts = DeterminizeLatticePrunedOptions());
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3 years ago
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// /** This function takes in lattices and inserts phones at phone boundaries. It
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// uses the transition model to work out the transition_id to phone map. The
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// returning value is the starting index of the phone label. Typically we pick
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// (maximum_output_label_index + 1) as this value. The inserted phones are then
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// mapped to (returning_value + original_phone_label) in the new lattice. The
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// returning value will be used by DeterminizeLatticeDeletePhones() where it
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// works out the phones according to this value.
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// */
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// template<class Weight>
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// typename ArcTpl<Weight>::Label DeterminizeLatticeInsertPhones(
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// const kaldi::TransitionModel &trans_model,
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// MutableFst<ArcTpl<Weight> > *fst);
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//
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// /** This function takes in lattices and deletes "phones" from them. The "phones"
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// here are actually any label that is larger than first_phone_label because
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// when we insert phones into the lattice, we map the original phone label to
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// (first_phone_label + original_phone_label). It is supposed to be used
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// together with DeterminizeLatticeInsertPhones()
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// */
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// template<class Weight>
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// void DeterminizeLatticeDeletePhones(
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// typename ArcTpl<Weight>::Label first_phone_label,
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// MutableFst<ArcTpl<Weight> > *fst);
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//
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// /** This function is a wrapper of DeterminizeLatticePhonePrunedFirstPass() and
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// DeterminizeLatticePruned(). If --phone-determinize is set to true, it first
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// calls DeterminizeLatticePhonePrunedFirstPass() to do the initial pass of
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// determinization on the phone + word lattices. If --word-determinize is set
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// true, it then does a second pass of determinization on the word lattices by
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// calling DeterminizeLatticePruned(). If both are set to false, then it gives
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// a warning and copying the lattices without determinization.
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//
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// Note: the point of doing first a phone-level determinization pass and then
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// a word-level determinization pass is that it allows us to determinize
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// deeper lattices without "failing early" and returning a too-small lattice
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// due to the max-mem constraint. The result should be the same as word-level
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// determinization in general, but for deeper lattices it is a bit faster,
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// despite the fact that we now have two passes of determinization by default.
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// */
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// template<class Weight, class IntType>
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// bool DeterminizeLatticePhonePruned(
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// const kaldi::TransitionModel &trans_model,
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// const ExpandedFst<ArcTpl<Weight> > &ifst,
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// double prune,
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// MutableFst<ArcTpl<CompactLatticeWeightTpl<Weight, IntType> > > *ofst,
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// DeterminizeLatticePhonePrunedOptions opts
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// = DeterminizeLatticePhonePrunedOptions());
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//
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// /** "Destructive" version of DeterminizeLatticePhonePruned() where the input
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// lattice might be changed.
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// */
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// template<class Weight, class IntType>
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// bool DeterminizeLatticePhonePruned(
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// const kaldi::TransitionModel &trans_model,
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// MutableFst<ArcTpl<Weight> > *ifst,
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// double prune,
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// MutableFst<ArcTpl<CompactLatticeWeightTpl<Weight, IntType> > > *ofst,
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// DeterminizeLatticePhonePrunedOptions opts
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// = DeterminizeLatticePhonePrunedOptions());
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//
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// /** This function is a wrapper of DeterminizeLatticePhonePruned() that works for
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// Lattice type FSTs. It simplifies the calling process by calling
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// TopSort() Invert() and ArcSort() for you.
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// Unlike other determinization routines, the function
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// requires "ifst" to have transition-id's on the input side and words on the
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// output side.
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// This function can be used as the top-level interface to all the determinization
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// code.
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// */
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// bool DeterminizeLatticePhonePrunedWrapper(
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// const kaldi::TransitionModel &trans_model,
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// MutableFst<kaldi::LatticeArc> *ifst,
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// double prune,
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// MutableFst<kaldi::CompactLatticeArc> *ofst,
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// DeterminizeLatticePhonePrunedOptions opts
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// = DeterminizeLatticePhonePrunedOptions());
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3 years ago
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/// @} end "addtogroup fst_extensions"
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} // end namespace fst
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#endif
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