Check the elapsed time for decaying.
Bug: 6669677 Change-Id: I0401a4c0908c702ce65abfa5e017dd16cb1296f9main
Keisuke Kuroyanagi
parent
3d92954120
commit
67c855ea6f
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@ -37,6 +37,8 @@ class DictionaryHeaderStructurePolicy {
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virtual float getMultiWordCostMultiplier() const = 0;
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virtual int getLastDecayedTime() const = 0;
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virtual void readHeaderValueOrQuestionMark(const char *const key, int *outValue,
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int outValueSize) const = 0;
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@ -360,13 +360,13 @@ int DynamicBigramListPolicy::followBigramLinkAndGetCurrentBigramPtNodePos(
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}
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bool DynamicBigramListPolicy::updateProbabilityForDecay(
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BigramListReadWriteUtils::BigramFlags bigramFlags, const int targetPtNodePos,
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const BigramListReadWriteUtils::BigramFlags bigramFlags, const int targetPtNodePos,
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int *const bigramEntryPos, bool *const outRemoved) const {
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*outRemoved = false;
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if (mIsDecayingDict) {
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// Update bigram probability for decaying.
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const int newProbability = ForgettingCurveUtils::getEncodedProbabilityToSave(
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BigramListReadWriteUtils::getProbabilityFromFlags(bigramFlags));
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BigramListReadWriteUtils::getProbabilityFromFlags(bigramFlags), mHeaderPolicy);
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if (ForgettingCurveUtils::isValidEncodedProbability(newProbability)) {
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// Write new probability.
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const BigramListReadWriteUtils::BigramFlags updatedBigramFlags =
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@ -27,6 +27,7 @@
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namespace latinime {
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class BufferWithExtendableBuffer;
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class DictionaryHeaderStructurePolicy;
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class DictionaryShortcutsStructurePolicy;
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/*
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@ -34,10 +35,12 @@ class DictionaryShortcutsStructurePolicy;
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*/
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class DynamicBigramListPolicy : public DictionaryBigramsStructurePolicy {
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public:
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DynamicBigramListPolicy(BufferWithExtendableBuffer *const buffer,
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DynamicBigramListPolicy(const DictionaryHeaderStructurePolicy *const headerPolicy,
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BufferWithExtendableBuffer *const buffer,
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const DictionaryShortcutsStructurePolicy *const shortcutPolicy,
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const bool isDecayingDict)
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: mBuffer(buffer), mShortcutPolicy(shortcutPolicy), mIsDecayingDict(isDecayingDict) {}
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: mHeaderPolicy(headerPolicy), mBuffer(buffer), mShortcutPolicy(shortcutPolicy),
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mIsDecayingDict(isDecayingDict) {}
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~DynamicBigramListPolicy() {}
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@ -74,6 +77,7 @@ class DynamicBigramListPolicy : public DictionaryBigramsStructurePolicy {
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static const int CONTINUING_BIGRAM_LINK_COUNT_LIMIT;
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static const int BIGRAM_ENTRY_COUNT_IN_A_BIGRAM_LIST_LIMIT;
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const DictionaryHeaderStructurePolicy *const mHeaderPolicy;
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BufferWithExtendableBuffer *const mBuffer;
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const DictionaryShortcutsStructurePolicy *const mShortcutPolicy;
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const bool mIsDecayingDict;
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@ -81,7 +85,7 @@ class DynamicBigramListPolicy : public DictionaryBigramsStructurePolicy {
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// Follow bigram link and return the position of bigram target PtNode that is currently valid.
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int followBigramLinkAndGetCurrentBigramPtNodePos(const int originalBigramPos) const;
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bool updateProbabilityForDecay(BigramListReadWriteUtils::BigramFlags bigramFlags,
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bool updateProbabilityForDecay(const BigramListReadWriteUtils::BigramFlags bigramFlags,
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const int targetPtNodePos, int *const bigramEntryPos, bool *const outRemoved) const;
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};
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} // namespace latinime
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@ -16,6 +16,7 @@
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#include "suggest/policyimpl/dictionary/dynamic_patricia_trie_gc_event_listeners.h"
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#include "suggest/core/policy/dictionary_header_structure_policy.h"
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#include "suggest/policyimpl/dictionary/utils/forgetting_curve_utils.h"
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namespace latinime {
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@ -29,7 +30,8 @@ bool DynamicPatriciaTrieGcEventListeners
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bool isUselessPtNode = !node->isTerminal();
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if (node->isTerminal() && mIsDecayingDict) {
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const int newProbability =
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ForgettingCurveUtils::getEncodedProbabilityToSave(node->getProbability());
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ForgettingCurveUtils::getEncodedProbabilityToSave(node->getProbability(),
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mHeaderPolicy);
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int writingPos = node->getProbabilityFieldPos();
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// Update probability.
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if (!DynamicPatriciaTrieWritingUtils::writeProbabilityAndAdvancePosition(
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@ -29,6 +29,8 @@
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namespace latinime {
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class DictionaryHeaderStructurePolicy;
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class DynamicPatriciaTrieGcEventListeners {
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public:
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// Updates all PtNodes that can be reached from the root. Checks if each PtNode is useless or
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@ -38,10 +40,12 @@ class DynamicPatriciaTrieGcEventListeners {
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: public DynamicPatriciaTrieReadingHelper::TraversingEventListener {
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public:
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TraversePolicyToUpdateUnigramProbabilityAndMarkUselessPtNodesAsDeleted(
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const DictionaryHeaderStructurePolicy *const headerPolicy,
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DynamicPatriciaTrieWritingHelper *const writingHelper,
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BufferWithExtendableBuffer *const buffer, const bool isDecayingDict)
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: mWritingHelper(writingHelper), mBuffer(buffer), mIsDecayingDict(isDecayingDict),
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mValueStack(), mChildrenValue(0), mValidUnigramCount(0) {}
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: mHeaderPolicy(headerPolicy), mWritingHelper(writingHelper), mBuffer(buffer),
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mIsDecayingDict(isDecayingDict), mValueStack(), mChildrenValue(0),
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mValidUnigramCount(0) {}
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~TraversePolicyToUpdateUnigramProbabilityAndMarkUselessPtNodesAsDeleted() {};
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@ -72,9 +76,10 @@ class DynamicPatriciaTrieGcEventListeners {
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DISALLOW_IMPLICIT_CONSTRUCTORS(
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TraversePolicyToUpdateUnigramProbabilityAndMarkUselessPtNodesAsDeleted);
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const DictionaryHeaderStructurePolicy *const mHeaderPolicy;
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DynamicPatriciaTrieWritingHelper *const mWritingHelper;
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BufferWithExtendableBuffer *const mBuffer;
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const int mIsDecayingDict;
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const bool mIsDecayingDict;
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std::vector<int> mValueStack;
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int mChildrenValue;
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int mValidUnigramCount;
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@ -85,7 +90,8 @@ class DynamicPatriciaTrieGcEventListeners {
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class TraversePolicyToUpdateBigramProbability
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: public DynamicPatriciaTrieReadingHelper::TraversingEventListener {
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public:
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TraversePolicyToUpdateBigramProbability(DynamicBigramListPolicy *const bigramPolicy)
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TraversePolicyToUpdateBigramProbability(
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DynamicBigramListPolicy *const bigramPolicy)
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: mBigramPolicy(bigramPolicy), mValidBigramEntryCount(0) {}
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bool onAscend() { return true; }
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@ -42,7 +42,6 @@ const char *const DynamicPatriciaTriePolicy::SET_NEEDS_TO_DECAY_FOR_TESTING_QUER
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const int DynamicPatriciaTriePolicy::MAX_DICT_EXTENDED_REGION_SIZE = 1024 * 1024;
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const int DynamicPatriciaTriePolicy::MIN_DICT_SIZE_TO_REFUSE_DYNAMIC_OPERATIONS =
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DynamicPatriciaTrieWritingHelper::MAX_DICTIONARY_SIZE - 1024;
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const int DynamicPatriciaTriePolicy::DECAY_INTERVAL_FOR_DECAYING_DICTS = 2 * 60 * 60;
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void DynamicPatriciaTriePolicy::createAndGetAllChildNodes(const DicNode *const dicNode,
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DicNodeVector *const childDicNodes) const {
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@ -314,15 +313,15 @@ void DynamicPatriciaTriePolicy::flushWithGC(const char *const filePath) {
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AKLOGI("Warning: flushWithGC() is called for non-updatable dictionary.");
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return;
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}
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const bool runGCwithDecay = needsToDecay();
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DynamicBigramListPolicy bigramListPolicyForGC(&mBufferWithExtendableBuffer,
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&mShortcutListPolicy, runGCwithDecay);
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const bool needsToDecay = mHeaderPolicy.isDecayingDict()
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&& (mNeedsToDecayForTesting || ForgettingCurveUtils::needsToDecay(
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false /* mindsBlockByDecay */, mUnigramCount, mBigramCount, &mHeaderPolicy));
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DynamicBigramListPolicy bigramListPolicyForGC(&mHeaderPolicy, &mBufferWithExtendableBuffer,
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&mShortcutListPolicy, needsToDecay);
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DynamicPatriciaTrieWritingHelper writingHelper(&mBufferWithExtendableBuffer,
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&bigramListPolicyForGC, &mShortcutListPolicy, runGCwithDecay);
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&bigramListPolicyForGC, &mShortcutListPolicy, needsToDecay);
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writingHelper.writeToDictFileWithGC(getRootPosition(), filePath, &mHeaderPolicy);
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if (runGCwithDecay) {
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mNeedsToDecayForTesting = false;
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}
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mNeedsToDecayForTesting = false;
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}
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bool DynamicPatriciaTriePolicy::needsToRunGC(const bool mindsBlockByGC) const {
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@ -344,16 +343,8 @@ bool DynamicPatriciaTriePolicy::needsToRunGC(const bool mindsBlockByGC) const {
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// Needs to reduce dictionary size.
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return true;
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} else if (mHeaderPolicy.isDecayingDict()) {
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if (mUnigramCount >= ForgettingCurveUtils::MAX_UNIGRAM_COUNT) {
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// Unigram count exceeds the limit.
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return true;
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} else if (mBigramCount >= ForgettingCurveUtils::MAX_BIGRAM_COUNT) {
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// Bigram count exceeds the limit.
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return true;
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} else if (mindsBlockByGC && needsToDecay()) {
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// Time to update probabilities for decaying.
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return true;
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}
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return mNeedsToDecayForTesting || ForgettingCurveUtils::needsToDecay(
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mindsBlockByGC, mUnigramCount, mBigramCount, &mHeaderPolicy);
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}
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return false;
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}
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@ -369,9 +360,4 @@ void DynamicPatriciaTriePolicy::getProperty(const char *const query, char *const
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}
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}
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bool DynamicPatriciaTriePolicy::needsToDecay() const {
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return mHeaderPolicy.isDecayingDict() && (mNeedsToDecayForTesting
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|| mHeaderPolicy.getLastDecayedTime() + DECAY_INTERVAL_FOR_DECAYING_DICTS < time(0));
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}
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} // namespace latinime
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@ -37,7 +37,7 @@ class DynamicPatriciaTriePolicy : public DictionaryStructureWithBufferPolicy {
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mBufferWithExtendableBuffer(mBuffer->getBuffer() + mHeaderPolicy.getSize(),
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mBuffer->getBufferSize() - mHeaderPolicy.getSize()),
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mShortcutListPolicy(&mBufferWithExtendableBuffer),
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mBigramListPolicy(&mBufferWithExtendableBuffer, &mShortcutListPolicy,
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mBigramListPolicy(&mHeaderPolicy, &mBufferWithExtendableBuffer, &mShortcutListPolicy,
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mHeaderPolicy.isDecayingDict()),
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mUnigramCount(mHeaderPolicy.getUnigramCount()),
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mBigramCount(mHeaderPolicy.getBigramCount()), mNeedsToDecayForTesting(false) {}
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@ -105,7 +105,6 @@ class DynamicPatriciaTriePolicy : public DictionaryStructureWithBufferPolicy {
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static const char *const SET_NEEDS_TO_DECAY_FOR_TESTING_QUERY;
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static const int MAX_DICT_EXTENDED_REGION_SIZE;
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static const int MIN_DICT_SIZE_TO_REFUSE_DYNAMIC_OPERATIONS;
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static const int DECAY_INTERVAL_FOR_DECAYING_DICTS;
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const MmappedBuffer *const mBuffer;
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const HeaderPolicy mHeaderPolicy;
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@ -115,8 +114,6 @@ class DynamicPatriciaTriePolicy : public DictionaryStructureWithBufferPolicy {
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int mUnigramCount;
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int mBigramCount;
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int mNeedsToDecayForTesting;
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bool needsToDecay() const;
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};
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} // namespace latinime
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#endif // LATINIME_DYNAMIC_PATRICIA_TRIE_POLICY_H
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@ -165,7 +165,10 @@ void DynamicPatriciaTrieWritingHelper::writeToDictFileWithGC(const int rootPtNod
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MAX_DICTIONARY_SIZE);
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int unigramCount = 0;
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int bigramCount = 0;
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if (!runGC(rootPtNodeArrayPos, &newDictBuffer, &unigramCount, &bigramCount)) {
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if (mNeedsToDecay) {
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ForgettingCurveUtils::sTimeKeeper.setCurrentTime();
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}
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if (!runGC(rootPtNodeArrayPos, headerPolicy, &newDictBuffer, &unigramCount, &bigramCount)) {
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return;
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}
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BufferWithExtendableBuffer headerBuffer(0 /* originalBuffer */, 0 /* originalBufferSize */);
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@ -481,14 +484,14 @@ bool DynamicPatriciaTrieWritingHelper::reallocatePtNodeAndAddNewPtNodes(
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}
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bool DynamicPatriciaTrieWritingHelper::runGC(const int rootPtNodeArrayPos,
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BufferWithExtendableBuffer *const bufferToWrite, int *const outUnigramCount,
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int *const outBigramCount) {
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const HeaderPolicy *const headerPolicy, BufferWithExtendableBuffer *const bufferToWrite,
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int *const outUnigramCount, int *const outBigramCount) {
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DynamicPatriciaTrieReadingHelper readingHelper(mBuffer, mBigramPolicy, mShortcutPolicy);
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readingHelper.initWithPtNodeArrayPos(rootPtNodeArrayPos);
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DynamicPatriciaTrieGcEventListeners
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::TraversePolicyToUpdateUnigramProbabilityAndMarkUselessPtNodesAsDeleted
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traversePolicyToUpdateUnigramProbabilityAndMarkUselessPtNodesAsDeleted(
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this, mBuffer, mNeedsToDecay);
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headerPolicy, this, mBuffer, mNeedsToDecay);
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if (!readingHelper.traverseAllPtNodesInPostorderDepthFirstManner(
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&traversePolicyToUpdateUnigramProbabilityAndMarkUselessPtNodesAsDeleted)) {
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return false;
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@ -505,7 +508,6 @@ bool DynamicPatriciaTrieWritingHelper::runGC(const int rootPtNodeArrayPos,
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&traversePolicyToUpdateBigramProbability)) {
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return false;
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}
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if (mNeedsToDecay && traversePolicyToUpdateBigramProbability.getValidBigramEntryCount()
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> ForgettingCurveUtils::MAX_BIGRAM_COUNT_AFTER_GC) {
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// TODO: Remove more bigrams.
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@ -524,7 +526,7 @@ bool DynamicPatriciaTrieWritingHelper::runGC(const int rootPtNodeArrayPos,
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// Create policy instance for the GCed dictionary.
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DynamicShortcutListPolicy newDictShortcutPolicy(bufferToWrite);
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DynamicBigramListPolicy newDictBigramPolicy(bufferToWrite, &newDictShortcutPolicy,
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DynamicBigramListPolicy newDictBigramPolicy(headerPolicy, bufferToWrite, &newDictShortcutPolicy,
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mNeedsToDecay);
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// Create reading helper for the GCed dictionary.
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DynamicPatriciaTrieReadingHelper newDictReadingHelper(bufferToWrite, &newDictBigramPolicy,
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@ -128,8 +128,9 @@ class DynamicPatriciaTrieWritingHelper {
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const int probabilityOfNewPtNode, const int *const newNodeCodePoints,
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const int newNodeCodePointCount);
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bool runGC(const int rootPtNodeArrayPos, BufferWithExtendableBuffer *const bufferToWrite,
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int *const outUnigramCount, int *const outBigramCount);
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bool runGC(const int rootPtNodeArrayPos, const HeaderPolicy *const headerPolicy,
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BufferWithExtendableBuffer *const bufferToWrite, int *const outUnigramCount,
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int *const outBigramCount);
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int getUpdatedProbability(const int originalProbability, const int newProbability);
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};
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@ -15,10 +15,12 @@
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*/
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#include <cmath>
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#include <ctime>
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#include <stdlib.h>
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#include "suggest/policyimpl/dictionary/utils/forgetting_curve_utils.h"
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#include "suggest/core/policy/dictionary_header_structure_policy.h"
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#include "suggest/policyimpl/dictionary/utils/probability_utils.h"
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namespace latinime {
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@ -35,8 +37,14 @@ const int ForgettingCurveUtils::ENCODED_PROBABILITY_STEP = 1;
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// Currently, we try to decay each uni/bigram once every 2 hours. Accordingly, the expected
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// duration of the decay is approximately 66hours.
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const float ForgettingCurveUtils::MIN_PROBABILITY_TO_DECAY = 0.03f;
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const int ForgettingCurveUtils::DECAY_INTERVAL_SECONDS = 2 * 60 * 60;
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const ForgettingCurveUtils::ProbabilityTable ForgettingCurveUtils::sProbabilityTable;
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ForgettingCurveUtils::TimeKeeper ForgettingCurveUtils::sTimeKeeper;
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void ForgettingCurveUtils::TimeKeeper::setCurrentTime() {
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mCurrentTime = time(0);
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}
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/* static */ int ForgettingCurveUtils::getProbability(const int encodedUnigramProbability,
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const int encodedBigramProbability) {
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@ -76,19 +84,44 @@ const ForgettingCurveUtils::ProbabilityTable ForgettingCurveUtils::sProbabilityT
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return encodedProbability >= MIN_VALID_ENCODED_PROBABILITY;
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}
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/* static */ int ForgettingCurveUtils::getEncodedProbabilityToSave(const int encodedProbability) {
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const int currentEncodedProbability = max(min(encodedProbability, MAX_ENCODED_PROBABILITY), 0);
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/* static */ int ForgettingCurveUtils::getEncodedProbabilityToSave(const int encodedProbability,
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const DictionaryHeaderStructurePolicy *const headerPolicy) {
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const int elapsedTime = sTimeKeeper.peekCurrentTime() - headerPolicy->getLastDecayedTime();
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const int decayIterationCount = max(elapsedTime / DECAY_INTERVAL_SECONDS, 1);
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int currentEncodedProbability = max(min(encodedProbability, MAX_ENCODED_PROBABILITY), 0);
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// TODO: Implement the decay in more proper way.
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const float currentRate = static_cast<float>(currentEncodedProbability)
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/ static_cast<float>(MAX_ENCODED_PROBABILITY);
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const float thresholdToDecay = MIN_PROBABILITY_TO_DECAY
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+ (1.0f - MIN_PROBABILITY_TO_DECAY) * (1.0f - currentRate);
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const float randValue = static_cast<float>(rand()) / static_cast<float>(RAND_MAX);
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if (thresholdToDecay < randValue) {
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return max(currentEncodedProbability - ENCODED_PROBABILITY_STEP, 0);
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} else {
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return currentEncodedProbability;
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for (int i = 0; i < decayIterationCount; ++i) {
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const float currentRate = static_cast<float>(currentEncodedProbability)
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/ static_cast<float>(MAX_ENCODED_PROBABILITY);
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const float thresholdToDecay = MIN_PROBABILITY_TO_DECAY
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+ (1.0f - MIN_PROBABILITY_TO_DECAY) * currentRate;
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const float randValue = static_cast<float>(rand()) / static_cast<float>(RAND_MAX);
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if (thresholdToDecay < randValue) {
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currentEncodedProbability = max(currentEncodedProbability - ENCODED_PROBABILITY_STEP,
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0);
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}
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}
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return currentEncodedProbability;
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}
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/* static */ bool ForgettingCurveUtils::needsToDecay(const bool mindsBlockByDecay,
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const int unigramCount, const int bigramCount,
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const DictionaryHeaderStructurePolicy *const headerPolicy) {
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if (unigramCount >= ForgettingCurveUtils::MAX_UNIGRAM_COUNT) {
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// Unigram count exceeds the limit.
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return true;
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} else if (bigramCount >= ForgettingCurveUtils::MAX_BIGRAM_COUNT) {
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// Bigram count exceeds the limit.
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return true;
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}
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if (mindsBlockByDecay) {
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return false;
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}
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if (headerPolicy->getLastDecayedTime() + DECAY_INTERVAL_SECONDS < time(0)) {
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// Time to decay.
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return true;
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}
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return false;
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}
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/* static */ int ForgettingCurveUtils::decodeProbability(const int encodedProbability) {
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@ -23,16 +23,32 @@
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namespace latinime {
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class DictionaryHeaderStructurePolicy;
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// TODO: Check the elapsed time and decrease the probability depending on the time. Time field is
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||||
// required to introduced to each terminal PtNode and bigram entry.
|
||||
// TODO: Quit using bigram probability to indicate the delta.
|
||||
class ForgettingCurveUtils {
|
||||
public:
|
||||
class TimeKeeper {
|
||||
public:
|
||||
TimeKeeper() : mCurrentTime(0) {}
|
||||
void setCurrentTime();
|
||||
int peekCurrentTime() const { return mCurrentTime; };
|
||||
|
||||
private:
|
||||
DISALLOW_COPY_AND_ASSIGN(TimeKeeper);
|
||||
|
||||
int mCurrentTime;
|
||||
};
|
||||
|
||||
static const int MAX_UNIGRAM_COUNT;
|
||||
static const int MAX_UNIGRAM_COUNT_AFTER_GC;
|
||||
static const int MAX_BIGRAM_COUNT;
|
||||
static const int MAX_BIGRAM_COUNT_AFTER_GC;
|
||||
|
||||
static TimeKeeper sTimeKeeper;
|
||||
|
||||
static int getProbability(const int encodedUnigramProbability,
|
||||
const int encodedBigramProbability);
|
||||
|
||||
|
|
@ -41,7 +57,11 @@ class ForgettingCurveUtils {
|
|||
|
||||
static int isValidEncodedProbability(const int encodedProbability);
|
||||
|
||||
static int getEncodedProbabilityToSave(const int encodedProbability);
|
||||
static int getEncodedProbabilityToSave(const int encodedProbability,
|
||||
const DictionaryHeaderStructurePolicy *const headerPolicy);
|
||||
|
||||
static bool needsToDecay(const bool mindsBlockByDecay, const int unigramCount,
|
||||
const int bigramCount, const DictionaryHeaderStructurePolicy *const headerPolicy);
|
||||
|
||||
private:
|
||||
DISALLOW_IMPLICIT_CONSTRUCTORS(ForgettingCurveUtils);
|
||||
|
|
@ -68,6 +88,7 @@ class ForgettingCurveUtils {
|
|||
static const int MIN_VALID_ENCODED_PROBABILITY;
|
||||
static const int ENCODED_PROBABILITY_STEP;
|
||||
static const float MIN_PROBABILITY_TO_DECAY;
|
||||
static const int DECAY_INTERVAL_SECONDS;
|
||||
|
||||
static const ProbabilityTable sProbabilityTable;
|
||||
|
||||
|
|
|
|||
|
|
@ -50,8 +50,8 @@ public class BinaryDictionaryDecayingTests extends AndroidTestCase {
|
|||
}
|
||||
|
||||
private void forcePassingShortTime(final BinaryDictionary binaryDictionary) {
|
||||
// Entries having low probability would be suppressed once in 2 GCs.
|
||||
final int count = 2;
|
||||
// Entries having low probability would be suppressed once in 3 GCs.
|
||||
final int count = 3;
|
||||
for (int i = 0; i < count; i++) {
|
||||
binaryDictionary.getPropertyForTests(SET_NEEDS_TO_DECAY_FOR_TESTING_KEY);
|
||||
binaryDictionary.flushWithGC();
|
||||
|
|
|
|||
Loading…
Reference in New Issue