// $Id$ /*********************************************************************** Moses - factored phrase-based, hierarchical and syntactic language decoder Copyright (C) 2009 Hieu Hoang This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA ***********************************************************************/ #include "util/check.hh" #include "PhraseNode.h" #include "OnDiskWrapper.h" #include "TargetPhraseCollection.h" #include "SourcePhrase.h" #include "moses/Util.h" using namespace std; namespace OnDiskPt { size_t PhraseNode::GetNodeSize(size_t numChildren, size_t wordSize, size_t countSize) { size_t ret = sizeof(UINT64) * 2 // num children, value + (wordSize + sizeof(UINT64)) * numChildren // word + ptr to next source node + sizeof(float) * countSize; // count info return ret; } PhraseNode::PhraseNode() : m_value(0) ,m_currChild(NULL) ,m_saved(false) ,m_memLoad(NULL) { } PhraseNode::PhraseNode(UINT64 filePos, OnDiskWrapper &onDiskWrapper) :m_counts(onDiskWrapper.GetNumCounts()) { // load saved node m_filePos = filePos; size_t countSize = onDiskWrapper.GetNumCounts(); std::fstream &file = onDiskWrapper.GetFileSource(); file.seekg(filePos); CHECK(filePos == (UINT64)file.tellg()); file.read((char*) &m_numChildrenLoad, sizeof(UINT64)); size_t memAlloc = GetNodeSize(m_numChildrenLoad, onDiskWrapper.GetSourceWordSize(), countSize); m_memLoad = (char*) malloc(memAlloc); // go to start of node again file.seekg(filePos); CHECK(filePos == (UINT64)file.tellg()); // read everything into memory file.read(m_memLoad, memAlloc); CHECK(filePos + memAlloc == (UINT64)file.tellg()); // get value m_value = ((UINT64*)m_memLoad)[1]; // get counts float *memFloat = (float*) (m_memLoad + sizeof(UINT64) * 2); CHECK(countSize == 1); m_counts[0] = memFloat[0]; m_memLoadLast = m_memLoad + memAlloc; } PhraseNode::~PhraseNode() { free(m_memLoad); //CHECK(m_saved); } float PhraseNode::GetCount(size_t ind) const { return m_counts[ind]; } void PhraseNode::Save(OnDiskWrapper &onDiskWrapper, size_t pos, size_t tableLimit) { CHECK(!m_saved); // save this node m_targetPhraseColl.Sort(tableLimit); m_targetPhraseColl.Save(onDiskWrapper); m_value = m_targetPhraseColl.GetFilePos(); size_t numCounts = onDiskWrapper.GetNumCounts(); size_t memAlloc = GetNodeSize(GetSize(), onDiskWrapper.GetSourceWordSize(), numCounts); char *mem = (char*) malloc(memAlloc); //memset(mem, 0xfe, memAlloc); size_t memUsed = 0; UINT64 *memArray = (UINT64*) mem; memArray[0] = GetSize(); // num of children memArray[1] = m_value; // file pos of corresponding target phrases memUsed += 2 * sizeof(UINT64); // count info float *memFloat = (float*) (mem + memUsed); CHECK(numCounts == 1); memFloat[0] = (m_counts.size() == 0) ? DEFAULT_COUNT : m_counts[0]; // if count = 0, put in very large num to make sure its still used. HACK memUsed += sizeof(float) * numCounts; // recursively save chm_countsildren ChildColl::iterator iter; for (iter = m_children.begin(); iter != m_children.end(); ++iter) { const Word &childWord = iter->first; PhraseNode &childNode = iter->second; // recursive if (!childNode.Saved()) childNode.Save(onDiskWrapper, pos + 1, tableLimit); char *currMem = mem + memUsed; size_t wordMemUsed = childWord.WriteToMemory(currMem); memUsed += wordMemUsed; UINT64 *memArray = (UINT64*) (mem + memUsed); memArray[0] = childNode.GetFilePos(); memUsed += sizeof(UINT64); } // save this node //Moses::DebugMem(mem, memAlloc); CHECK(memUsed == memAlloc); std::fstream &file = onDiskWrapper.GetFileSource(); m_filePos = file.tellp(); file.seekp(0, ios::end); file.write(mem, memUsed); UINT64 endPos = file.tellp(); CHECK(m_filePos + memUsed == endPos); free(mem); m_children.clear(); m_saved = true; } void PhraseNode::AddTargetPhrase(const SourcePhrase &sourcePhrase, TargetPhrase *targetPhrase , OnDiskWrapper &onDiskWrapper, size_t tableLimit , const std::vector &counts, OnDiskPt::PhrasePtr spShort) { AddTargetPhrase(0, sourcePhrase, targetPhrase, onDiskWrapper, tableLimit, counts, spShort); } void PhraseNode::AddTargetPhrase(size_t pos, const SourcePhrase &sourcePhrase , TargetPhrase *targetPhrase, OnDiskWrapper &onDiskWrapper , size_t tableLimit, const std::vector &counts, OnDiskPt::PhrasePtr spShort) { size_t phraseSize = sourcePhrase.GetSize(); if (pos < phraseSize) { const Word &word = sourcePhrase.GetWord(pos); PhraseNode &node = m_children[word]; if (m_currChild != &node) { // new node node.SetPos(pos); if (m_currChild) { m_currChild->Save(onDiskWrapper, pos, tableLimit); } m_currChild = &node; } // keep searching for target phrase node.. node.AddTargetPhrase(pos + 1, sourcePhrase, targetPhrase, onDiskWrapper, tableLimit, counts, spShort); } else { // drilled down to the right node m_counts = counts; targetPhrase->SetSourcePhrase(spShort); m_targetPhraseColl.AddTargetPhrase(targetPhrase); } } const PhraseNode *PhraseNode::GetChild(const Word &wordSought, OnDiskWrapper &onDiskWrapper) const { const PhraseNode *ret = NULL; int l = 0; int r = m_numChildrenLoad - 1; int x; while (r >= l) { x = (l + r) / 2; Word wordFound; UINT64 childFilePos; GetChild(wordFound, childFilePos, x, onDiskWrapper); if (wordSought == wordFound) { ret = new PhraseNode(childFilePos, onDiskWrapper); break; } if (wordSought < wordFound) r = x - 1; else l = x + 1; } return ret; } void PhraseNode::GetChild(Word &wordFound, UINT64 &childFilePos, size_t ind, OnDiskWrapper &onDiskWrapper) const { size_t wordSize = onDiskWrapper.GetSourceWordSize(); size_t childSize = wordSize + sizeof(UINT64); char *currMem = m_memLoad + sizeof(UINT64) * 2 // size & file pos of target phrase coll + sizeof(float) * onDiskWrapper.GetNumCounts() // count info + childSize * ind; size_t memRead = ReadChild(wordFound, childFilePos, currMem); CHECK(memRead == childSize); } size_t PhraseNode::ReadChild(Word &wordFound, UINT64 &childFilePos, const char *mem) const { size_t memRead = wordFound.ReadFromMemory(mem); const char *currMem = mem + memRead; UINT64 *memArray = (UINT64*) (currMem); childFilePos = memArray[0]; memRead += sizeof(UINT64); return memRead; } const TargetPhraseCollection *PhraseNode::GetTargetPhraseCollection(size_t tableLimit, OnDiskWrapper &onDiskWrapper) const { TargetPhraseCollection *ret = new TargetPhraseCollection(); if (m_value > 0) ret->ReadFromFile(tableLimit, m_value, onDiskWrapper); else { } return ret; } std::ostream& operator<<(std::ostream &out, const PhraseNode &node) { out << "node (" << node.GetFilePos() << "," << node.GetValue() << "," << node.m_pos << ")"; return out; } }