mirror of
https://github.com/moses-smt/mosesdecoder.git
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198 lines
6.6 KiB
C++
198 lines
6.6 KiB
C++
/***********************************************************************
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Moses - statistical machine translation system
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Copyright (C) 2006-2012 University of Edinburgh
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This library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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This library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with this library; if not, write to the Free Software
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Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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***********************************************************************/
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#include "Parser.h"
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#include "moses/ChartParser.h"
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#include "moses/ChartTranslationOptionList.h"
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#include "moses/InputType.h"
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#include "moses/NonTerminal.h"
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#include "moses/TranslationModel/RuleTable/UTrieNode.h"
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#include "moses/TranslationModel/RuleTable/UTrie.h"
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#include "moses/StaticData.h"
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#include "ApplicableRuleTrie.h"
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#include "StackLattice.h"
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#include "StackLatticeBuilder.h"
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#include "StackLatticeSearcher.h"
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#include "VarSpanTrieBuilder.h"
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#include <memory>
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#include <vector>
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namespace Moses
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{
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void Scope3Parser::GetChartRuleCollection(
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const InputPath &inputPath,
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size_t last,
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ChartParserCallback &outColl)
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{
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const WordsRange &range = inputPath.GetWordsRange();
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const size_t start = range.GetStartPos();
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const size_t end = range.GetEndPos();
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std::vector<std::pair<const UTrieNode *, const VarSpanNode *> > &pairVec = m_ruleApplications[start][end-start+1];
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MatchCallback matchCB(range, outColl);
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for (std::vector<std::pair<const UTrieNode *, const VarSpanNode *> >::const_iterator p = pairVec.begin(); p != pairVec.end(); ++p) {
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const UTrieNode &ruleNode = *(p->first);
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const VarSpanNode &varSpanNode = *(p->second);
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const UTrieNode::LabelMap &labelMap = ruleNode.GetLabelMap();
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if (varSpanNode.m_rank == 0) { // Purely lexical rule.
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assert(labelMap.size() == 1);
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const TargetPhraseCollection &tpc = labelMap.begin()->second;
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matchCB.m_tpc = &tpc;
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matchCB(m_emptyStackVec);
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} else { // Rule has at least one non-terminal.
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varSpanNode.CalculateRanges(start, end, m_ranges);
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m_latticeBuilder.Build(start, end, ruleNode, varSpanNode, m_ranges,
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*this, m_lattice,
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m_quickCheckTable);
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StackLatticeSearcher<MatchCallback> searcher(m_lattice, m_ranges);
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UTrieNode::LabelMap::const_iterator p = labelMap.begin();
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for (; p != labelMap.end(); ++p) {
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const std::vector<int> &labels = p->first;
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const TargetPhraseCollection &tpc = p->second;
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assert(labels.size() == varSpanNode.m_rank);
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bool failCheck = false;
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for (size_t i = 0; i < varSpanNode.m_rank; ++i) {
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if (!m_quickCheckTable[i][labels[i]]) {
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failCheck = true;
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break;
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}
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}
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if (failCheck) {
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continue;
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}
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matchCB.m_tpc = &tpc;
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searcher.Search(labels, matchCB);
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}
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}
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}
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}
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void Scope3Parser::Init()
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{
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InitRuleApplicationVector();
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// Build a map from Words to index-sets.
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SentenceMap sentMap;
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FillSentenceMap(sentMap);
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// Build a trie containing 'elastic' application contexts
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const UTrieNode &rootNode = m_ruleTable.GetRootNode();
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std::auto_ptr<ApplicableRuleTrie> art(new ApplicableRuleTrie(-1, -1, rootNode));
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art->Extend(rootNode, -1, sentMap, false);
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// Build a trie containing just the non-terminal contexts and insert pointers
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// to its nodes back into the ART trie. Contiguous non-terminal contexts are
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// merged and the number of split points is recorded.
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VarSpanTrieBuilder vstBuilder;
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m_varSpanTrie = vstBuilder.Build(*art);
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// Fill each cell with a list of pointers to relevant ART nodes.
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AddRulesToCells(*art, std::make_pair<int, int>(-1, -1), GetParser().GetSize()-1, 0);
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}
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void Scope3Parser::InitRuleApplicationVector()
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{
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const size_t sourceSize = GetParser().GetSize();
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m_ruleApplications.resize(sourceSize);
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for (size_t start = 0; start < sourceSize; ++start) {
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size_t maxSpan = sourceSize-start+1;
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m_ruleApplications[start].resize(maxSpan+1);
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}
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}
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void Scope3Parser::FillSentenceMap(SentenceMap &sentMap)
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{
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for (size_t i = 0; i < GetParser().GetSize(); ++i) {
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const Word &word = GetParser().GetInputPath(i, i).GetLastWord();
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sentMap[word].push_back(i);
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}
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}
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void Scope3Parser::AddRulesToCells(
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const ApplicableRuleTrie &node,
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std::pair<int, int> start,
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int maxPos,
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int depth)
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{
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if (depth > 0) {
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// Determine the start range for this path if not already known.
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if (start.first == -1 && start.second == -1) {
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assert(depth == 1);
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start.first = std::max(0, node.m_start);
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start.second = node.m_start;
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} else if (start.second < 0) {
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assert(depth > 1);
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if (node.m_start == -1) {
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--start.second; // Record split point
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} else {
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int numSplitPoints = -1 - start.second;
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start.second = node.m_start - (numSplitPoints+1);
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}
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}
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}
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if (node.m_node->HasRules()) {
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assert(depth > 0);
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assert(node.m_vstNode);
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// Determine the end range for this path.
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std::pair<int, int> end;
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if (node.m_end == -1) {
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end.first = (*(node.m_vstNode->m_label))[2];
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end.second = (*(node.m_vstNode->m_label))[3];
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assert(end.first != -1);
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if (end.second == -1) {
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end.second = maxPos;
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}
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} else {
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assert(node.m_start == node.m_end); // Should be a terminal
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end.first = end.second = node.m_start;
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}
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// Add a (rule trie node, VST node) pair for each cell in the range.
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int s2 = start.second;
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if (s2 < 0) {
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int numSplitPoints = -1 - s2;
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s2 = maxPos - numSplitPoints;
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}
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for (int i = start.first; i <= s2; ++i) {
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int e1 = std::max(i+depth-1, end.first);
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for (int j = e1; j <= end.second; ++j) {
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size_t span = j-i+1;
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assert(span >= 1);
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if (m_maxChartSpan && span > m_maxChartSpan) {
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break;
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}
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m_ruleApplications[i][span].push_back(std::make_pair(node.m_node,
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node.m_vstNode));
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}
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}
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}
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for (std::vector<ApplicableRuleTrie*>::const_iterator p = node.m_children.begin(); p != node.m_children.end(); ++p) {
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AddRulesToCells(**p, start, maxPos, depth+1);
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}
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}
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} // namespace Moses
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