change probs' computation into log scale & add best path decoder

pull/2/head
Yibing Liu 8 years ago
parent ccea7c0150
commit a840f85423

@ -3,8 +3,11 @@
#include <algorithm>
#include <utility>
#include <cmath>
#include <limits>
#include "ctc_beam_search_decoder.h"
typedef float log_prob_type;
template <typename T1, typename T2>
bool pair_comp_first_rev(const std::pair<T1, T2> a, const std::pair<T1, T2> b)
{
@ -17,6 +20,65 @@ bool pair_comp_second_rev(const std::pair<T1, T2> a, const std::pair<T1, T2> b)
return a.second > b.second;
}
template <typename T>
T log_sum_exp(T x, T y)
{
static T num_min = -std::numeric_limits<T>::max();
if (x <= -num_min) return y;
if (y <= -num_min) return x;
T xmax = std::max(x, y);
return std::log(std::exp(x-xmax) + std::exp(y-xmax)) + xmax;
}
std::string ctc_best_path_decoder(std::vector<std::vector<double> > probs_seq,
std::vector<std::string> vocabulary) {
// dimension check
int num_time_steps = probs_seq.size();
for (int i=0; i<num_time_steps; i++) {
if (probs_seq[i].size() != vocabulary.size()+1) {
std::cout<<"The shape of probs_seq does not match"
<<" with the shape of the vocabulary!"<<std::endl;
exit(1);
}
}
int blank_id = vocabulary.size();
std::vector<int> max_idx_vec;
double max_prob = 0.0;
int max_idx = 0;
for (int i=0; i<num_time_steps; i++) {
for (int j=0; j<probs_seq[i].size(); j++) {
if (max_prob < probs_seq[i][j]) {
max_idx = j;
max_prob = probs_seq[i][j];
}
}
max_idx_vec.push_back(max_idx);
std::cout<<max_idx<<",";
max_prob = 0.0;
max_idx = 0;
}
std::cout<<std::endl;
std::vector<int> idx_vec;
for (int i=0; i<max_idx_vec.size(); i++) {
std::cout<<max_idx_vec[i]<<",";
if ((i == 0) || ((i>0) && max_idx_vec[i]!=max_idx_vec[i-1])) {
std::cout<<max_idx_vec[i]<<",";
idx_vec.push_back(max_idx_vec[i]);
}
}
std::string best_path_result;
for (int i=0; i<idx_vec.size(); i++) {
if (idx_vec[i] != blank_id) {
best_path_result += vocabulary[i];
}
}
return best_path_result;
}
std::vector<std::pair<double, std::string> >
ctc_beam_search_decoder(std::vector<std::vector<double> > probs_seq,
int beam_size,
@ -52,30 +114,35 @@ std::vector<std::pair<double, std::string> >
// initialize
// two sets containing selected and candidate prefixes respectively
std::map<std::string, double> prefix_set_prev, prefix_set_next;
std::map<std::string, log_prob_type> prefix_set_prev, prefix_set_next;
// probability of prefixes ending with blank and non-blank
std::map<std::string, double> probs_b_prev, probs_nb_prev;
std::map<std::string, double> probs_b_cur, probs_nb_cur;
prefix_set_prev["\t"] = 1.0;
probs_b_prev["\t"] = 1.0;
probs_nb_prev["\t"] = 0.0;
std::map<std::string, log_prob_type> log_probs_b_prev, log_probs_nb_prev;
std::map<std::string, log_prob_type> log_probs_b_cur, log_probs_nb_cur;
static log_prob_type NUM_MAX = std::numeric_limits<log_prob_type>::max();
prefix_set_prev["\t"] = 0.0;
log_probs_b_prev["\t"] = 0.0;
log_probs_nb_prev["\t"] = -NUM_MAX;
for (int time_step=0; time_step<num_time_steps; time_step++) {
prefix_set_next.clear();
probs_b_cur.clear();
probs_nb_cur.clear();
log_probs_b_cur.clear();
log_probs_nb_cur.clear();
std::vector<double> prob = probs_seq[time_step];
std::vector<std::pair<int, double> > prob_idx;
for (int i=0; i<prob.size(); i++) {
prob_idx.push_back(std::pair<int, double>(i, prob[i]));
}
// pruning of vacobulary
int cutoff_len = prob.size();
if (cutoff_prob < 1.0) {
std::sort(prob_idx.begin(), prob_idx.end(),
std::sort(prob_idx.begin(),
prob_idx.end(),
pair_comp_second_rev<int, double>);
float cum_prob = 0.0;
int cutoff_len = 0;
double cum_prob = 0.0;
cutoff_len = 0;
for (int i=0; i<prob_idx.size(); i++) {
cum_prob += prob_idx[i].second;
cutoff_len += 1;
@ -84,74 +151,110 @@ std::vector<std::pair<double, std::string> >
prob_idx = std::vector<std::pair<int, double> >( prob_idx.begin(),
prob_idx.begin() + cutoff_len);
}
std::vector<std::pair<int, log_prob_type> > log_prob_idx;
for (int i=0; i<cutoff_len; i++) {
log_prob_idx.push_back(std::pair<int, log_prob_type>
(prob_idx[i].first, log(prob_idx[i].second)));
}
// extend prefix
for (std::map<std::string, double>::iterator it = prefix_set_prev.begin();
for (std::map<std::string, log_prob_type>::iterator
it = prefix_set_prev.begin();
it != prefix_set_prev.end(); it++) {
std::string l = it->first;
if( prefix_set_next.find(l) == prefix_set_next.end()) {
probs_b_cur[l] = probs_nb_cur[l] = 0.0;
log_probs_b_cur[l] = log_probs_nb_cur[l] = -NUM_MAX;
}
for (int index=0; index<prob_idx.size(); index++) {
int c = prob_idx[index].first;
double prob_c = prob_idx[index].second;
for (int index=0; index<log_prob_idx.size(); index++) {
int c = log_prob_idx[index].first;
log_prob_type log_prob_c = log_prob_idx[index].second;
log_prob_type log_probs_prev;
if (c == blank_id) {
probs_b_cur[l] += prob_c * (probs_b_prev[l] + probs_nb_prev[l]);
log_probs_prev = log_sum_exp(log_probs_b_prev[l],
log_probs_nb_prev[l]);
log_probs_b_cur[l] = log_sum_exp(log_probs_b_cur[l],
log_prob_c+log_probs_prev);
} else {
std::string last_char = l.substr(l.size()-1, 1);
std::string new_char = vocabulary[c];
std::string l_plus = l + new_char;
if( prefix_set_next.find(l_plus) == prefix_set_next.end()) {
probs_b_cur[l_plus] = probs_nb_cur[l_plus] = 0.0;
log_probs_b_cur[l_plus] = -NUM_MAX;
log_probs_nb_cur[l_plus] = -NUM_MAX;
}
if (last_char == new_char) {
probs_nb_cur[l_plus] += prob_c * probs_b_prev[l];
probs_nb_cur[l] += prob_c * probs_nb_prev[l];
log_probs_nb_cur[l_plus] = log_sum_exp(
log_probs_nb_cur[l_plus],
log_prob_c+log_probs_b_prev[l]
);
log_probs_nb_cur[l] = log_sum_exp(
log_probs_nb_cur[l],
log_prob_c+log_probs_nb_prev[l]
);
} else if (new_char == " ") {
double score = 1.0;
float score = 0.0;
if (ext_scorer != NULL && l.size() > 1) {
score = ext_scorer->get_score(l.substr(1));
score = ext_scorer->get_score(l.substr(1), true);
}
probs_nb_cur[l_plus] += score * prob_c * (
probs_b_prev[l] + probs_nb_prev[l]);
log_probs_prev = log_sum_exp(log_probs_b_prev[l],
log_probs_nb_prev[l]);
log_probs_nb_cur[l_plus] = log_sum_exp(
log_probs_nb_cur[l_plus],
score + log_prob_c + log_probs_prev
);
} else {
probs_nb_cur[l_plus] += prob_c * (
probs_b_prev[l] + probs_nb_prev[l]);
log_probs_prev = log_sum_exp(log_probs_b_prev[l],
log_probs_nb_prev[l]);
log_probs_nb_cur[l_plus] = log_sum_exp(
log_probs_nb_cur[l_plus],
log_prob_c+log_probs_prev
);
}
prefix_set_next[l_plus] = probs_nb_cur[l_plus] + probs_b_cur[l_plus];
prefix_set_next[l_plus] = log_sum_exp(
log_probs_nb_cur[l_plus],
log_probs_b_cur[l_plus]
);
}
}
prefix_set_next[l] = probs_b_cur[l] + probs_nb_cur[l];
prefix_set_next[l] = log_sum_exp(log_probs_b_cur[l],
log_probs_nb_cur[l]);
}
probs_b_prev = probs_b_cur;
probs_nb_prev = probs_nb_cur;
std::vector<std::pair<std::string, double> >
log_probs_b_prev = log_probs_b_cur;
log_probs_nb_prev = log_probs_nb_cur;
std::vector<std::pair<std::string, log_prob_type> >
prefix_vec_next(prefix_set_next.begin(),
prefix_set_next.end());
std::sort(prefix_vec_next.begin(),
prefix_vec_next.end(),
pair_comp_second_rev<std::string, double>);
int k = beam_size<prefix_vec_next.size() ? beam_size:prefix_vec_next.size();
prefix_set_prev = std::map<std::string, double>
(prefix_vec_next.begin(), prefix_vec_next.begin()+k);
pair_comp_second_rev<std::string, log_prob_type>);
int num_prefixes_next = prefix_vec_next.size();
int k = beam_size<num_prefixes_next ? beam_size : num_prefixes_next;
prefix_set_prev = std::map<std::string, log_prob_type> (
prefix_vec_next.begin(),
prefix_vec_next.begin() + k
);
}
// post processing
std::vector<std::pair<double, std::string> > beam_result;
for (std::map<std::string, double>::iterator it = prefix_set_prev.begin();
it != prefix_set_prev.end(); it++) {
if (it->second > 0.0 && it->first.size() > 1) {
double prob = it->second;
for (std::map<std::string, log_prob_type>::iterator
it = prefix_set_prev.begin(); it != prefix_set_prev.end(); it++) {
if (it->second > -NUM_MAX && it->first.size() > 1) {
log_prob_type log_prob = it->second;
std::string sentence = it->first.substr(1);
// scoring the last word
if (ext_scorer != NULL && sentence[sentence.size()-1] != ' ') {
prob = prob * ext_scorer->get_score(sentence);
log_prob = log_prob + ext_scorer->get_score(sentence, true);
}
if (log_prob > -NUM_MAX) {
std::pair<double, std::string> cur_result(log_prob, sentence);
beam_result.push_back(cur_result);
}
double log_prob = log(prob);
beam_result.push_back(std::pair<double, std::string>(log_prob, sentence));
}
}
// sort the result and return

@ -31,5 +31,9 @@ std::vector<std::pair<double, std::string> >
Scorer *ext_scorer=NULL,
bool nproc=false
);
/* CTC Best Path Decoder
*/
std::string ctc_best_path_decoder(std::vector<std::vector<double> > probs_seq,
std::vector<std::string> vocabulary);
#endif // CTC_BEAM_SEARCH_DECODER_H_

@ -89,10 +89,15 @@ void Scorer::reset_params(float alpha, float beta) {
this->_beta = beta;
}
double Scorer::get_score(std::string sentence) {
double Scorer::get_score(std::string sentence, bool log) {
double lm_score = language_model_score(sentence);
int word_cnt = word_count(sentence);
double final_score = pow(10, _alpha*lm_score) * pow(word_cnt, _beta);
double final_score = 0.0;
if (log == false) {
final_score = pow(10, _alpha*lm_score) * pow(word_cnt, _beta);
} else {
final_score = _alpha*lm_score*std::log(10) + _beta*std::log(word_cnt);
}
return final_score;
}

@ -30,7 +30,7 @@ public:
// reset params alpha & beta
void reset_params(float alpha, float beta);
// get the final score
double get_score(std::string);
double get_score(std::string, bool log=false);
};
#endif //SCORER_H_

@ -0,0 +1,22 @@
"""Contains various CTC decoders in SWIG."""
from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
from swig_ctc_beam_search_decoder import ctc_beam_search_decoder as beam_search_decoder
from swig_ctc_beam_search_decoder import ctc_best_path_decoder as best_path__decoder
def ctc_best_path_decoder(probs_seq, vocabulary):
best_path__decoder(probs_seq.to_list(), vocabulary)
def ctc_beam_search_decoder(
probs_seq,
beam_size,
vocabulary,
blank_id,
cutoff_prob=1.0,
ext_scoring_func=None, ):
beam_search_decoder(probs_seq.to_list(), beam_size, vocabulary, blank_id,
cutoff_prob, ext_scoring_func)
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