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#include "target_phrase_extractor.h"
#include <unordered_set>
#include "alignment.h"
#include "data_array.h"
#include "phrase.h"
#include "phrase_builder.h"
#include "rule_extractor_helper.h"
#include "vocabulary.h"
using namespace std;
TargetPhraseExtractor::TargetPhraseExtractor(
shared_ptr<DataArray> target_data_array,
shared_ptr<Alignment> alignment,
shared_ptr<PhraseBuilder> phrase_builder,
shared_ptr<RuleExtractorHelper> helper,
shared_ptr<Vocabulary> vocabulary,
int max_rule_span,
bool require_tight_phrases) :
target_data_array(target_data_array),
alignment(alignment),
phrase_builder(phrase_builder),
helper(helper),
vocabulary(vocabulary),
max_rule_span(max_rule_span),
require_tight_phrases(require_tight_phrases) {}
TargetPhraseExtractor::TargetPhraseExtractor() {}
TargetPhraseExtractor::~TargetPhraseExtractor() {}
vector<pair<Phrase, PhraseAlignment> > TargetPhraseExtractor::ExtractPhrases(
const vector<pair<int, int> >& target_gaps, const vector<int>& target_low,
int target_phrase_low, int target_phrase_high,
const unordered_map<int, int>& source_indexes, int sentence_id) const {
int target_sent_len = target_data_array->GetSentenceLength(sentence_id);
vector<int> target_gap_order = helper->GetGapOrder(target_gaps);
int target_x_low = target_phrase_low, target_x_high = target_phrase_high;
if (!require_tight_phrases) {
while (target_x_low > 0 &&
target_phrase_high - target_x_low < max_rule_span &&
target_low[target_x_low - 1] == -1) {
--target_x_low;
}
while (target_x_high < target_sent_len &&
target_x_high - target_phrase_low < max_rule_span &&
target_low[target_x_high] == -1) {
++target_x_high;
}
}
vector<pair<int, int> > gaps(target_gaps.size());
for (size_t i = 0; i < gaps.size(); ++i) {
gaps[i] = target_gaps[target_gap_order[i]];
if (!require_tight_phrases) {
while (gaps[i].first > target_x_low &&
target_low[gaps[i].first - 1] == -1) {
--gaps[i].first;
}
while (gaps[i].second < target_x_high &&
target_low[gaps[i].second] == -1) {
++gaps[i].second;
}
}
}
vector<pair<int, int> > ranges(2 * gaps.size() + 2);
ranges.front() = make_pair(target_x_low, target_phrase_low);
ranges.back() = make_pair(target_phrase_high, target_x_high);
for (size_t i = 0; i < gaps.size(); ++i) {
int j = target_gap_order[i];
ranges[i * 2 + 1] = make_pair(gaps[i].first, target_gaps[j].first);
ranges[i * 2 + 2] = make_pair(target_gaps[j].second, gaps[i].second);
}
vector<pair<Phrase, PhraseAlignment> > target_phrases;
vector<int> subpatterns(ranges.size());
GeneratePhrases(target_phrases, ranges, 0, subpatterns, target_gap_order,
target_phrase_low, target_phrase_high, source_indexes,
sentence_id);
return target_phrases;
}
void TargetPhraseExtractor::GeneratePhrases(
vector<pair<Phrase, PhraseAlignment> >& target_phrases,
const vector<pair<int, int> >& ranges, int index, vector<int>& subpatterns,
const vector<int>& target_gap_order, int target_phrase_low,
int target_phrase_high, const unordered_map<int, int>& source_indexes,
int sentence_id) const {
if (index >= ranges.size()) {
if (subpatterns.back() - subpatterns.front() > max_rule_span) {
return;
}
vector<int> symbols;
unordered_map<int, int> target_indexes;
int target_sent_start = target_data_array->GetSentenceStart(sentence_id);
for (size_t i = 0; i * 2 < subpatterns.size(); ++i) {
for (size_t j = subpatterns[i * 2]; j < subpatterns[i * 2 + 1]; ++j) {
target_indexes[j] = symbols.size();
string target_word = target_data_array->GetWordAtIndex(
target_sent_start + j);
symbols.push_back(vocabulary->GetTerminalIndex(target_word));
}
if (i < target_gap_order.size()) {
symbols.push_back(vocabulary->GetNonterminalIndex(
target_gap_order[i] + 1));
}
}
vector<pair<int, int> > links = alignment->GetLinks(sentence_id);
vector<pair<int, int> > alignment;
for (pair<int, int> link: links) {
if (target_indexes.count(link.second)) {
alignment.push_back(make_pair(source_indexes.find(link.first)->second,
target_indexes[link.second]));
}
}
Phrase target_phrase = phrase_builder->Build(symbols);
target_phrases.push_back(make_pair(target_phrase, alignment));
return;
}
subpatterns[index] = ranges[index].first;
if (index > 0) {
subpatterns[index] = max(subpatterns[index], subpatterns[index - 1]);
}
while (subpatterns[index] <= ranges[index].second) {
subpatterns[index + 1] = max(subpatterns[index], ranges[index + 1].first);
while (subpatterns[index + 1] <= ranges[index + 1].second) {
GeneratePhrases(target_phrases, ranges, index + 2, subpatterns,
target_gap_order, target_phrase_low, target_phrase_high,
source_indexes, sentence_id);
++subpatterns[index + 1];
}
++subpatterns[index];
}
}
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