Use MAX_PROBABILITY for the limit of probabilities.
Bug: 13197276 Change-Id: Ic3f855e566603b395395dff1f860f3d76ecb019cmain
parent
7919a594fc
commit
3d70932857
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@ -31,7 +31,6 @@ const int ForgettingCurveUtils::MAX_BIGRAM_COUNT = 12000;
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const int ForgettingCurveUtils::MAX_BIGRAM_COUNT_AFTER_GC = 10000;
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const int ForgettingCurveUtils::MULTIPLIER_TWO_IN_PROBABILITY_SCALE = 8;
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const int ForgettingCurveUtils::MAX_COMPUTED_PROBABILITY = 127;
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const int ForgettingCurveUtils::DECAY_INTERVAL_SECONDS = 2 * 60 * 60;
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const int ForgettingCurveUtils::MAX_LEVEL = 3;
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@ -83,11 +82,11 @@ const ForgettingCurveUtils::ProbabilityTable ForgettingCurveUtils::sProbabilityT
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if (unigramProbability == NOT_A_PROBABILITY) {
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return NOT_A_PROBABILITY;
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} else if (bigramProbability == NOT_A_PROBABILITY) {
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return min(backoff(unigramProbability), MAX_COMPUTED_PROBABILITY);
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return min(backoff(unigramProbability), MAX_PROBABILITY);
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} else {
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// TODO: Investigate better way to handle bigram probability.
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return min(max(unigramProbability, bigramProbability + MULTIPLIER_TWO_IN_PROBABILITY_SCALE),
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MAX_COMPUTED_PROBABILITY);
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MAX_PROBABILITY);
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}
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}
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@ -153,6 +152,7 @@ const int ForgettingCurveUtils::ProbabilityTable::WEAK_PROBABILITY_TABLE_ID = 0;
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const int ForgettingCurveUtils::ProbabilityTable::MODEST_PROBABILITY_TABLE_ID = 1;
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const int ForgettingCurveUtils::ProbabilityTable::STRONG_PROBABILITY_TABLE_ID = 2;
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const int ForgettingCurveUtils::ProbabilityTable::AGGRESSIVE_PROBABILITY_TABLE_ID = 3;
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const int ForgettingCurveUtils::ProbabilityTable::WEAK_MAX_PROBABILITY = 127;
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const int ForgettingCurveUtils::ProbabilityTable::MODEST_BASE_PROBABILITY = 32;
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const int ForgettingCurveUtils::ProbabilityTable::STRONG_BASE_PROBABILITY = 35;
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const int ForgettingCurveUtils::ProbabilityTable::AGGRESSIVE_BASE_PROBABILITY = 40;
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@ -179,7 +179,7 @@ ForgettingCurveUtils::ProbabilityTable::ProbabilityTable() : mTables() {
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/ static_cast<float>(TIME_STEP_DURATION_IN_SECONDS
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* (MAX_ELAPSED_TIME_STEP_COUNT + 1)));
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mTables[tableId][level][timeStepCount] =
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min(max(static_cast<int>(probability), 1), MAX_COMPUTED_PROBABILITY);
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min(max(static_cast<int>(probability), 1), MAX_PROBABILITY);
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}
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}
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}
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@ -189,7 +189,7 @@ ForgettingCurveUtils::ProbabilityTable::ProbabilityTable() : mTables() {
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const int tableId, const int level) {
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if (tableId == WEAK_PROBABILITY_TABLE_ID) {
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// Max probability is 127.
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return static_cast<float>(MAX_COMPUTED_PROBABILITY / (1 << (MAX_LEVEL - level)));
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return static_cast<float>(WEAK_MAX_PROBABILITY / (1 << (MAX_LEVEL - level)));
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} else if (tableId == MODEST_PROBABILITY_TABLE_ID) {
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// Max probability is 128.
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return static_cast<float>(MODEST_BASE_PROBABILITY * (level + 1));
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@ -73,6 +73,7 @@ class ForgettingCurveUtils {
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static const int STRONG_PROBABILITY_TABLE_ID;
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static const int AGGRESSIVE_PROBABILITY_TABLE_ID;
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static const int WEAK_MAX_PROBABILITY;
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static const int MODEST_BASE_PROBABILITY;
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static const int STRONG_BASE_PROBABILITY;
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static const int AGGRESSIVE_BASE_PROBABILITY;
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@ -83,7 +84,6 @@ class ForgettingCurveUtils {
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};
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static const int MULTIPLIER_TWO_IN_PROBABILITY_SCALE;
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static const int MAX_COMPUTED_PROBABILITY;
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static const int DECAY_INTERVAL_SECONDS;
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static const int MAX_LEVEL;
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