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/*
* Copyright (C) 2013, The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
/*
* !!!!! DO NOT EDIT THIS FILE !!!!!
*
* This file was generated from
* suggest/policyimpl/dictionary/structure/v4/ver4_patricia_trie_writing_helper.cpp
*/
#include "suggest/policyimpl/dictionary/structure/backward/v402/ver4_patricia_trie_writing_helper.h"
#include <cstring>
#include <queue>
#include "suggest/policyimpl/dictionary/header/header_policy.h"
#include "suggest/policyimpl/dictionary/structure/backward/v402/bigram/ver4_bigram_list_policy.h"
#include "suggest/policyimpl/dictionary/structure/backward/v402/shortcut/ver4_shortcut_list_policy.h"
#include "suggest/policyimpl/dictionary/structure/backward/v402/ver4_dict_buffers.h"
#include "suggest/policyimpl/dictionary/structure/backward/v402/ver4_dict_constants.h"
#include "suggest/policyimpl/dictionary/structure/backward/v402/ver4_patricia_trie_node_reader.h"
#include "suggest/policyimpl/dictionary/structure/backward/v402/ver4_patricia_trie_node_writer.h"
#include "suggest/policyimpl/dictionary/structure/backward/v402/ver4_pt_node_array_reader.h"
#include "suggest/policyimpl/dictionary/utils/buffer_with_extendable_buffer.h"
#include "suggest/policyimpl/dictionary/utils/file_utils.h"
#include "suggest/policyimpl/dictionary/utils/forgetting_curve_utils.h"
namespace latinime {
namespace backward {
namespace v402 {
bool Ver4PatriciaTrieWritingHelper::writeToDictFile(const char *const dictDirPath,
const EntryCounts &entryCounts) const {
const HeaderPolicy *const headerPolicy = mBuffers->getHeaderPolicy();
BufferWithExtendableBuffer headerBuffer(
BufferWithExtendableBuffer::DEFAULT_MAX_ADDITIONAL_BUFFER_SIZE);
const int extendedRegionSize = headerPolicy->getExtendedRegionSize()
+ mBuffers->getTrieBuffer()->getUsedAdditionalBufferSize();
if (!headerPolicy->fillInAndWriteHeaderToBuffer(false /* updatesLastDecayedTime */,
entryCounts, extendedRegionSize, &headerBuffer)) {
AKLOGE("Cannot write header structure to buffer. "
"updatesLastDecayedTime: %d, unigramCount: %d, bigramCount: %d, "
"extendedRegionSize: %d", false, entryCounts.getNgramCount(NgramType::Unigram),
entryCounts.getNgramCount(NgramType::Bigram), extendedRegionSize);
return false;
}
return mBuffers->flushHeaderAndDictBuffers(dictDirPath, &headerBuffer);
}
bool Ver4PatriciaTrieWritingHelper::writeToDictFileWithGC(const int rootPtNodeArrayPos,
const char *const dictDirPath) {
const HeaderPolicy *const headerPolicy = mBuffers->getHeaderPolicy();
Ver4DictBuffers::Ver4DictBuffersPtr dictBuffers(
Ver4DictBuffers::createVer4DictBuffers(headerPolicy,
Ver4DictConstants::MAX_DICTIONARY_SIZE));
int unigramCount = 0;
int bigramCount = 0;
if (!runGC(rootPtNodeArrayPos, headerPolicy, dictBuffers.get(), &unigramCount, &bigramCount)) {
return false;
}
BufferWithExtendableBuffer headerBuffer(
BufferWithExtendableBuffer::DEFAULT_MAX_ADDITIONAL_BUFFER_SIZE);
MutableEntryCounters entryCounters;
entryCounters.setNgramCount(NgramType::Unigram, unigramCount);
entryCounters.setNgramCount(NgramType::Bigram, bigramCount);
if (!headerPolicy->fillInAndWriteHeaderToBuffer(true /* updatesLastDecayedTime */,
entryCounters.getEntryCounts(), 0 /* extendedRegionSize */, &headerBuffer)) {
return false;
}
return dictBuffers->flushHeaderAndDictBuffers(dictDirPath, &headerBuffer);
}
bool Ver4PatriciaTrieWritingHelper::runGC(const int rootPtNodeArrayPos,
const HeaderPolicy *const headerPolicy, Ver4DictBuffers *const buffersToWrite,
int *const outUnigramCount, int *const outBigramCount) {
Ver4PatriciaTrieNodeReader ptNodeReader(mBuffers->getTrieBuffer(),
mBuffers->getProbabilityDictContent(), headerPolicy);
Ver4PtNodeArrayReader ptNodeArrayReader(mBuffers->getTrieBuffer());
Ver4BigramListPolicy bigramPolicy(mBuffers->getMutableBigramDictContent(),
mBuffers->getTerminalPositionLookupTable(), headerPolicy);
Ver4ShortcutListPolicy shortcutPolicy(mBuffers->getMutableShortcutDictContent(),
mBuffers->getTerminalPositionLookupTable());
Ver4PatriciaTrieNodeWriter ptNodeWriter(mBuffers->getWritableTrieBuffer(),
mBuffers, headerPolicy, &ptNodeReader, &ptNodeArrayReader, &bigramPolicy,
&shortcutPolicy);
DynamicPtReadingHelper readingHelper(&ptNodeReader, &ptNodeArrayReader);
readingHelper.initWithPtNodeArrayPos(rootPtNodeArrayPos);
DynamicPtGcEventListeners
::TraversePolicyToUpdateUnigramProbabilityAndMarkUselessPtNodesAsDeleted
traversePolicyToUpdateUnigramProbabilityAndMarkUselessPtNodesAsDeleted(
&ptNodeWriter);
if (!readingHelper.traverseAllPtNodesInPostorderDepthFirstManner(
&traversePolicyToUpdateUnigramProbabilityAndMarkUselessPtNodesAsDeleted)) {
return false;
}
const int unigramCount = traversePolicyToUpdateUnigramProbabilityAndMarkUselessPtNodesAsDeleted
.getValidUnigramCount();
const int maxUnigramCount = headerPolicy->getMaxNgramCounts().getNgramCount(NgramType::Unigram);
if (headerPolicy->isDecayingDict() && unigramCount > maxUnigramCount) {
if (!truncateUnigrams(&ptNodeReader, &ptNodeWriter, maxUnigramCount)) {
AKLOGE("Cannot remove unigrams. current: %d, max: %d", unigramCount,
maxUnigramCount);
return false;
}
}
readingHelper.initWithPtNodeArrayPos(rootPtNodeArrayPos);
DynamicPtGcEventListeners::TraversePolicyToUpdateBigramProbability
traversePolicyToUpdateBigramProbability(&ptNodeWriter);
if (!readingHelper.traverseAllPtNodesInPostorderDepthFirstManner(
&traversePolicyToUpdateBigramProbability)) {
return false;
}
const int bigramCount = traversePolicyToUpdateBigramProbability.getValidBigramEntryCount();
const int maxBigramCount = headerPolicy->getMaxNgramCounts().getNgramCount(NgramType::Bigram);
if (headerPolicy->isDecayingDict() && bigramCount > maxBigramCount) {
if (!truncateBigrams(maxBigramCount)) {
AKLOGE("Cannot remove bigrams. current: %d, max: %d", bigramCount, maxBigramCount);
return false;
}
}
// Mapping from positions in mBuffer to positions in bufferToWrite.
PtNodeWriter::DictPositionRelocationMap dictPositionRelocationMap;
readingHelper.initWithPtNodeArrayPos(rootPtNodeArrayPos);
Ver4PatriciaTrieNodeWriter ptNodeWriterForNewBuffers(buffersToWrite->getWritableTrieBuffer(),
buffersToWrite, headerPolicy, &ptNodeReader, &ptNodeArrayReader, &bigramPolicy,
&shortcutPolicy);
DynamicPtGcEventListeners::TraversePolicyToPlaceAndWriteValidPtNodesToBuffer
traversePolicyToPlaceAndWriteValidPtNodesToBuffer(&ptNodeWriterForNewBuffers,
buffersToWrite->getWritableTrieBuffer(), &dictPositionRelocationMap);
if (!readingHelper.traverseAllPtNodesInPtNodeArrayLevelPreorderDepthFirstManner(
&traversePolicyToPlaceAndWriteValidPtNodesToBuffer)) {
return false;
}
// Create policy instances for the GCed dictionary.
Ver4PatriciaTrieNodeReader newPtNodeReader(buffersToWrite->getTrieBuffer(),
buffersToWrite->getProbabilityDictContent(), headerPolicy);
Ver4PtNodeArrayReader newPtNodeArrayreader(buffersToWrite->getTrieBuffer());
Ver4BigramListPolicy newBigramPolicy(buffersToWrite->getMutableBigramDictContent(),
buffersToWrite->getTerminalPositionLookupTable(), headerPolicy);
Ver4ShortcutListPolicy newShortcutPolicy(buffersToWrite->getMutableShortcutDictContent(),
buffersToWrite->getTerminalPositionLookupTable());
Ver4PatriciaTrieNodeWriter newPtNodeWriter(buffersToWrite->getWritableTrieBuffer(),
buffersToWrite, headerPolicy, &newPtNodeReader, &newPtNodeArrayreader, &newBigramPolicy,
&newShortcutPolicy);
// Re-assign terminal IDs for valid terminal PtNodes.
TerminalPositionLookupTable::TerminalIdMap terminalIdMap;
if(!buffersToWrite->getMutableTerminalPositionLookupTable()->runGCTerminalIds(
&terminalIdMap)) {
return false;
}
// Run GC for probability dict content.
if (!buffersToWrite->getMutableProbabilityDictContent()->runGC(&terminalIdMap,
mBuffers->getProbabilityDictContent())) {
return false;
}
// Run GC for bigram dict content.
if(!buffersToWrite->getMutableBigramDictContent()->runGC(&terminalIdMap,
mBuffers->getBigramDictContent(), outBigramCount)) {
return false;
}
// Run GC for shortcut dict content.
if(!buffersToWrite->getMutableShortcutDictContent()->runGC(&terminalIdMap,
mBuffers->getShortcutDictContent())) {
return false;
}
DynamicPtReadingHelper newDictReadingHelper(&newPtNodeReader, &newPtNodeArrayreader);
newDictReadingHelper.initWithPtNodeArrayPos(rootPtNodeArrayPos);
DynamicPtGcEventListeners::TraversePolicyToUpdateAllPositionFields
traversePolicyToUpdateAllPositionFields(&newPtNodeWriter, &dictPositionRelocationMap);
if (!newDictReadingHelper.traverseAllPtNodesInPtNodeArrayLevelPreorderDepthFirstManner(
&traversePolicyToUpdateAllPositionFields)) {
return false;
}
newDictReadingHelper.initWithPtNodeArrayPos(rootPtNodeArrayPos);
TraversePolicyToUpdateAllPtNodeFlagsAndTerminalIds
traversePolicyToUpdateAllPtNodeFlagsAndTerminalIds(&newPtNodeWriter, &terminalIdMap);
if (!newDictReadingHelper.traverseAllPtNodesInPostorderDepthFirstManner(
&traversePolicyToUpdateAllPtNodeFlagsAndTerminalIds)) {
return false;
}
*outUnigramCount = traversePolicyToUpdateAllPositionFields.getUnigramCount();
return true;
}
bool Ver4PatriciaTrieWritingHelper::truncateUnigrams(
const Ver4PatriciaTrieNodeReader *const ptNodeReader,
Ver4PatriciaTrieNodeWriter *const ptNodeWriter, const int maxUnigramCount) {
const TerminalPositionLookupTable *const terminalPosLookupTable =
mBuffers->getTerminalPositionLookupTable();
const int nextTerminalId = terminalPosLookupTable->getNextTerminalId();
std::priority_queue<DictProbability, std::vector<DictProbability>, DictProbabilityComparator>
priorityQueue;
for (int i = 0; i < nextTerminalId; ++i) {
const int terminalPos = terminalPosLookupTable->getTerminalPtNodePosition(i);
if (terminalPos == NOT_A_DICT_POS) {
continue;
}
const ProbabilityEntry probabilityEntry =
mBuffers->getProbabilityDictContent()->getProbabilityEntry(i);
const int probability = probabilityEntry.hasHistoricalInfo() ?
ForgettingCurveUtils::decodeProbability(
probabilityEntry.getHistoricalInfo(), mBuffers->getHeaderPolicy()) :
probabilityEntry.getProbability();
priorityQueue.push(DictProbability(terminalPos, probability,
probabilityEntry.getHistoricalInfo()->getTimestamp()));
}
// Delete unigrams.
while (static_cast<int>(priorityQueue.size()) > maxUnigramCount) {
const int ptNodePos = priorityQueue.top().getDictPos();
priorityQueue.pop();
const PtNodeParams ptNodeParams =
ptNodeReader->fetchPtNodeParamsInBufferFromPtNodePos(ptNodePos);
if (ptNodeParams.representsNonWordInfo()) {
continue;
}
if (!ptNodeWriter->markPtNodeAsWillBecomeNonTerminal(&ptNodeParams)) {
AKLOGE("Cannot mark PtNode as willBecomeNonterminal. PtNode pos: %d", ptNodePos);
return false;
}
}
return true;
}
bool Ver4PatriciaTrieWritingHelper::truncateBigrams(const int maxBigramCount) {
const TerminalPositionLookupTable *const terminalPosLookupTable =
mBuffers->getTerminalPositionLookupTable();
const int nextTerminalId = terminalPosLookupTable->getNextTerminalId();
std::priority_queue<DictProbability, std::vector<DictProbability>, DictProbabilityComparator>
priorityQueue;
BigramDictContent *const bigramDictContent = mBuffers->getMutableBigramDictContent();
for (int i = 0; i < nextTerminalId; ++i) {
const int bigramListPos = bigramDictContent->getBigramListHeadPos(i);
if (bigramListPos == NOT_A_DICT_POS) {
continue;
}
bool hasNext = true;
int readingPos = bigramListPos;
while (hasNext) {
const int entryPos = readingPos;
const BigramEntry bigramEntry =
bigramDictContent->getBigramEntryAndAdvancePosition(&readingPos);
hasNext = bigramEntry.hasNext();
if (!bigramEntry.isValid()) {
continue;
}
const int probability = bigramEntry.hasHistoricalInfo() ?
ForgettingCurveUtils::decodeProbability(
bigramEntry.getHistoricalInfo(), mBuffers->getHeaderPolicy()) :
bigramEntry.getProbability();
priorityQueue.push(DictProbability(entryPos, probability,
bigramEntry.getHistoricalInfo()->getTimestamp()));
}
}
// Delete bigrams.
while (static_cast<int>(priorityQueue.size()) > maxBigramCount) {
const int entryPos = priorityQueue.top().getDictPos();
const BigramEntry bigramEntry = bigramDictContent->getBigramEntry(entryPos);
const BigramEntry invalidatedBigramEntry = bigramEntry.getInvalidatedEntry();
if (!bigramDictContent->writeBigramEntry(&invalidatedBigramEntry, entryPos)) {
AKLOGE("Cannot write bigram entry to remove. pos: %d", entryPos);
return false;
}
priorityQueue.pop();
}
return true;
}
bool Ver4PatriciaTrieWritingHelper::TraversePolicyToUpdateAllPtNodeFlagsAndTerminalIds
::onVisitingPtNode(const PtNodeParams *const ptNodeParams) {
if (!ptNodeParams->isTerminal()) {
return true;
}
TerminalPositionLookupTable::TerminalIdMap::const_iterator it =
mTerminalIdMap->find(ptNodeParams->getTerminalId());
if (it == mTerminalIdMap->end()) {
AKLOGE("terminal Id %d is not in the terminal position map. map size: %zd",
ptNodeParams->getTerminalId(), mTerminalIdMap->size());
return false;
}
if (!mPtNodeWriter->updateTerminalId(ptNodeParams, it->second)) {
AKLOGE("Cannot update terminal id. %d -> %d", it->first, it->second);
}
return mPtNodeWriter->updatePtNodeHasBigramsAndShortcutTargetsFlags(ptNodeParams);
}
} // namespace v402
} // namespace backward
} // namespace latinime
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