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272 lines
10 KiB
C++
272 lines
10 KiB
C++
/***********************************************************************
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Moses - factored phrase-based language decoder
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Copyright (C) 2011 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 "ChartRuleLookupManagerMemoryPerSentence.h"
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#include "DotChartInMemory.h"
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#include "moses/TranslationModel/RuleTable/PhraseDictionaryFuzzyMatch.h"
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#include "moses/InputType.h"
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#include "moses/ChartParserCallback.h"
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#include "moses/StaticData.h"
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#include "moses/NonTerminal.h"
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#include "moses/ChartCellCollection.h"
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#include "moses/ChartParser.h"
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namespace Moses
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{
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ChartRuleLookupManagerMemoryPerSentence::ChartRuleLookupManagerMemoryPerSentence(
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const ChartParser &parser,
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const ChartCellCollectionBase &cellColl,
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const PhraseDictionaryFuzzyMatch &ruleTable)
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: ChartRuleLookupManagerCYKPlus(parser, cellColl)
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, m_ruleTable(ruleTable)
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{
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CHECK(m_dottedRuleColls.size() == 0);
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size_t sourceSize = parser.GetSize();
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m_dottedRuleColls.resize(sourceSize);
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const PhraseDictionaryNodeMemory &rootNode = m_ruleTable.GetRootNode(parser.GetTranslationId());
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for (size_t ind = 0; ind < m_dottedRuleColls.size(); ++ind) {
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#ifdef USE_BOOST_POOL
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DottedRuleInMemory *initDottedRule = m_dottedRulePool.malloc();
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new (initDottedRule) DottedRuleInMemory(rootNode);
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#else
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DottedRuleInMemory *initDottedRule = new DottedRuleInMemory(rootNode);
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#endif
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DottedRuleColl *dottedRuleColl = new DottedRuleColl(sourceSize - ind + 1);
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dottedRuleColl->Add(0, initDottedRule); // init rule. stores the top node in tree
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m_dottedRuleColls[ind] = dottedRuleColl;
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}
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}
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ChartRuleLookupManagerMemoryPerSentence::~ChartRuleLookupManagerMemoryPerSentence()
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{
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RemoveAllInColl(m_dottedRuleColls);
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}
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void ChartRuleLookupManagerMemoryPerSentence::GetChartRuleCollection(
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const WordsRange &range,
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ChartParserCallback &outColl)
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{
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size_t relEndPos = range.GetEndPos() - range.GetStartPos();
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size_t absEndPos = range.GetEndPos();
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// MAIN LOOP. create list of nodes of target phrases
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// get list of all rules that apply to spans at same starting position
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DottedRuleColl &dottedRuleCol = *m_dottedRuleColls[range.GetStartPos()];
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const DottedRuleList &expandableDottedRuleList = dottedRuleCol.GetExpandableDottedRuleList();
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// loop through the rules
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// (note that expandableDottedRuleList can be expanded as the loop runs
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// through calls to ExtendPartialRuleApplication())
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for (size_t ind = 0; ind < expandableDottedRuleList.size(); ++ind) {
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// rule we are about to extend
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const DottedRuleInMemory &prevDottedRule = *expandableDottedRuleList[ind];
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// we will now try to extend it, starting after where it ended
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size_t startPos = prevDottedRule.IsRoot()
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? range.GetStartPos()
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: prevDottedRule.GetWordsRange().GetEndPos() + 1;
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// search for terminal symbol
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// (if only one more word position needs to be covered)
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if (startPos == absEndPos) {
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// look up in rule dictionary, if the current rule can be extended
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// with the source word in the last position
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const ChartCellLabel &sourceWordLabel = GetSourceAt(absEndPos);
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const Word &sourceWord = sourceWordLabel.GetLabel();
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const PhraseDictionaryNodeMemory *node = prevDottedRule.GetLastNode().GetChild(sourceWord);
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// if we found a new rule -> create it and add it to the list
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if (node != NULL) {
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// create the rule
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#ifdef USE_BOOST_POOL
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DottedRuleInMemory *dottedRule = m_dottedRulePool.malloc();
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new (dottedRule) DottedRuleInMemory(*node, sourceWordLabel,
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prevDottedRule);
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#else
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DottedRuleInMemory *dottedRule = new DottedRuleInMemory(*node,
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sourceWordLabel,
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prevDottedRule);
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#endif
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dottedRuleCol.Add(relEndPos+1, dottedRule);
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}
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}
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// search for non-terminals
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size_t endPos, stackInd;
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// span is already complete covered? nothing can be done
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if (startPos > absEndPos)
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continue;
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else if (startPos == range.GetStartPos() && range.GetEndPos() > range.GetStartPos()) {
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// We're at the root of the prefix tree so won't try to cover the full
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// span (i.e. we don't allow non-lexical unary rules). However, we need
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// to match non-unary rules that begin with a non-terminal child, so we
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// do that in two steps: during this iteration we search for non-terminals
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// that cover all but the last source word in the span (there won't
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// already be running nodes for these because that would have required a
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// non-lexical unary rule match for an earlier span). Any matches will
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// result in running nodes being appended to the list and on subsequent
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// iterations (for this same span), we'll extend them to cover the final
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// word.
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endPos = absEndPos - 1;
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stackInd = relEndPos;
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} else {
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endPos = absEndPos;
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stackInd = relEndPos + 1;
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}
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ExtendPartialRuleApplication(prevDottedRule, startPos, endPos, stackInd,
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dottedRuleCol);
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}
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// list of rules that that cover the entire span
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DottedRuleList &rules = dottedRuleCol.Get(relEndPos + 1);
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// look up target sides for the rules
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DottedRuleList::const_iterator iterRule;
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for (iterRule = rules.begin(); iterRule != rules.end(); ++iterRule) {
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const DottedRuleInMemory &dottedRule = **iterRule;
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const PhraseDictionaryNodeMemory &node = dottedRule.GetLastNode();
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// look up target sides
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const TargetPhraseCollection &tpc = node.GetTargetPhraseCollection();
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// add the fully expanded rule (with lexical target side)
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AddCompletedRule(dottedRule, tpc, range, outColl);
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}
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dottedRuleCol.Clear(relEndPos+1);
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}
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// Given a partial rule application ending at startPos-1 and given the sets of
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// source and target non-terminals covering the span [startPos, endPos],
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// determines the full or partial rule applications that can be produced through
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// extending the current rule application by a single non-terminal.
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void ChartRuleLookupManagerMemoryPerSentence::ExtendPartialRuleApplication(
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const DottedRuleInMemory &prevDottedRule,
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size_t startPos,
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size_t endPos,
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size_t stackInd,
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DottedRuleColl & dottedRuleColl)
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{
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// source non-terminal labels for the remainder
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const NonTerminalSet &sourceNonTerms = GetParser().GetInputPath(startPos, endPos).GetNonTerminalSet();
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// target non-terminal labels for the remainder
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const ChartCellLabelSet &targetNonTerms = GetTargetLabelSet(startPos, endPos);
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// note where it was found in the prefix tree of the rule dictionary
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const PhraseDictionaryNodeMemory &node = prevDottedRule.GetLastNode();
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const PhraseDictionaryNodeMemory::NonTerminalMap & nonTermMap =
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node.GetNonTerminalMap();
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const size_t numChildren = nonTermMap.size();
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if (numChildren == 0) {
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return;
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}
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const size_t numSourceNonTerms = sourceNonTerms.size();
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const size_t numTargetNonTerms = targetNonTerms.GetSize();
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const size_t numCombinations = numSourceNonTerms * numTargetNonTerms;
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// We can search by either:
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// 1. Enumerating all possible source-target NT pairs that are valid for
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// the span and then searching for matching children in the node,
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// or
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// 2. Iterating over all the NT children in the node, searching
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// for each source and target NT in the span's sets.
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// We'll do whichever minimises the number of lookups:
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if (numCombinations <= numChildren*2) {
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// loop over possible source non-terminal labels (as found in input tree)
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NonTerminalSet::const_iterator p = sourceNonTerms.begin();
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NonTerminalSet::const_iterator sEnd = sourceNonTerms.end();
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for (; p != sEnd; ++p) {
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const Word & sourceNonTerm = *p;
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// loop over possible target non-terminal labels (as found in chart)
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ChartCellLabelSet::const_iterator q = targetNonTerms.begin();
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ChartCellLabelSet::const_iterator tEnd = targetNonTerms.end();
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for (; q != tEnd; ++q) {
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const ChartCellLabel &cellLabel = q->second;
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// try to match both source and target non-terminal
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const PhraseDictionaryNodeMemory * child =
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node.GetChild(sourceNonTerm, cellLabel.GetLabel());
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// nothing found? then we are done
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if (child == NULL) {
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continue;
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}
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// create new rule
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#ifdef USE_BOOST_POOL
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DottedRuleInMemory *rule = m_dottedRulePool.malloc();
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new (rule) DottedRuleInMemory(*child, cellLabel, prevDottedRule);
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#else
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DottedRuleInMemory *rule = new DottedRuleInMemory(*child, cellLabel,
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prevDottedRule);
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#endif
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dottedRuleColl.Add(stackInd, rule);
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}
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}
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} else {
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// loop over possible expansions of the rule
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PhraseDictionaryNodeMemory::NonTerminalMap::const_iterator p;
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PhraseDictionaryNodeMemory::NonTerminalMap::const_iterator end =
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nonTermMap.end();
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for (p = nonTermMap.begin(); p != end; ++p) {
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// does it match possible source and target non-terminals?
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const PhraseDictionaryNodeMemory::NonTerminalMapKey &key = p->first;
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const Word &sourceNonTerm = key.first;
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if (sourceNonTerms.find(sourceNonTerm) == sourceNonTerms.end()) {
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continue;
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}
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const Word &targetNonTerm = key.second;
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const ChartCellLabel *cellLabel = targetNonTerms.Find(targetNonTerm);
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if (!cellLabel) {
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continue;
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}
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// create new rule
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const PhraseDictionaryNodeMemory &child = p->second;
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#ifdef USE_BOOST_POOL
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DottedRuleInMemory *rule = m_dottedRulePool.malloc();
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new (rule) DottedRuleInMemory(child, *cellLabel, prevDottedRule);
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#else
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DottedRuleInMemory *rule = new DottedRuleInMemory(child, *cellLabel,
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prevDottedRule);
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#endif
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dottedRuleColl.Add(stackInd, rule);
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}
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}
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}
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} // namespace Moses
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