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Move code related to ranking algorithm to the correction state 

Change-Id: I2d9e2db81cf6597ca4e88d7bc6737ab3b52b34b2
main
satok 2011-08-01 19:35:27 +09:00
parent afa5e9af8f
commit 612c6e49c0
4 changed files with 298 additions and 194 deletions
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210
native/src/correction_state.cpp
View File

@ -21,18 +21,26 @@
#define LOG_TAG "LatinIME: correction_state.cpp"
#include "correction_state.h"
#include "proximity_info.h"
namespace latinime {
CorrectionState::CorrectionState() {
CorrectionState::CorrectionState(const int typedLetterMultiplier, const int fullWordMultiplier)
: TYPED_LETTER_MULTIPLIER(typedLetterMultiplier), FULL_WORD_MULTIPLIER(fullWordMultiplier) {
}
void CorrectionState::setCorrectionParams(const ProximityInfo *pi, const int inputLength,
const int skipPos, const int excessivePos, const int transposedPos) {
void CorrectionState::initCorrectionState(const ProximityInfo *pi, const int inputLength) {
mProximityInfo = pi;
mInputLength = inputLength;
}
void CorrectionState::setCorrectionParams(const int skipPos, const int excessivePos,
const int transposedPos, const int spaceProximityPos, const int missingSpacePos) {
mSkipPos = skipPos;
mExcessivePos = excessivePos;
mTransposedPos = transposedPos;
mSpaceProximityPos = spaceProximityPos;
mMissingSpacePos = missingSpacePos;
}
void CorrectionState::checkState() {
@ -46,7 +54,203 @@ void CorrectionState::checkState() {
}
}
int CorrectionState::getFreqForSplitTwoWords(const int firstFreq, const int secondFreq) {
return CorrectionState::RankingAlgorithm::calcFreqForSplitTwoWords(firstFreq, secondFreq, this);
}
int CorrectionState::getFinalFreq(const int inputIndex, const int depth, const int matchWeight,
const int freq, const bool sameLength) {
return CorrectionState::RankingAlgorithm::calculateFinalFreq(inputIndex, depth, matchWeight,
freq, sameLength, this);
}
CorrectionState::~CorrectionState() {
}
/////////////////////////
// static inline utils //
/////////////////////////
static const int TWO_31ST_DIV_255 = S_INT_MAX / 255;
static inline int capped255MultForFullMatchAccentsOrCapitalizationDifference(const int num) {
return (num < TWO_31ST_DIV_255 ? 255 * num : S_INT_MAX);
}
static const int TWO_31ST_DIV_2 = S_INT_MAX / 2;
inline static void multiplyIntCapped(const int multiplier, int *base) {
const int temp = *base;
if (temp != S_INT_MAX) {
// Branch if multiplier == 2 for the optimization
if (multiplier == 2) {
*base = TWO_31ST_DIV_2 >= temp ? temp << 1 : S_INT_MAX;
} else {
const int tempRetval = temp * multiplier;
*base = tempRetval >= temp ? tempRetval : S_INT_MAX;
}
}
}
inline static int powerIntCapped(const int base, const int n) {
if (n == 0) return 1;
if (base == 2) {
return n < 31 ? 1 << n : S_INT_MAX;
} else {
int ret = base;
for (int i = 1; i < n; ++i) multiplyIntCapped(base, &ret);
return ret;
}
}
inline static void multiplyRate(const int rate, int *freq) {
if (*freq != S_INT_MAX) {
if (*freq > 1000000) {
*freq /= 100;
multiplyIntCapped(rate, freq);
} else {
multiplyIntCapped(rate, freq);
*freq /= 100;
}
}
}
//////////////////////
// RankingAlgorithm //
//////////////////////
int CorrectionState::RankingAlgorithm::calculateFinalFreq(const int inputIndex, const int depth,
const int matchCount, const int freq, const bool sameLength,
const CorrectionState* correctionState) {
const int skipPos = correctionState->getSkipPos();
const int excessivePos = correctionState->getExcessivePos();
const int transposedPos = correctionState->getTransposedPos();
const int inputLength = correctionState->mInputLength;
const int typedLetterMultiplier = correctionState->TYPED_LETTER_MULTIPLIER;
const int fullWordMultiplier = correctionState->FULL_WORD_MULTIPLIER;
const ProximityInfo *proximityInfo = correctionState->mProximityInfo;
const int matchWeight = powerIntCapped(typedLetterMultiplier, matchCount);
// TODO: Demote by edit distance
int finalFreq = freq * matchWeight;
if (skipPos >= 0) {
if (inputLength >= 2) {
const int demotionRate = WORDS_WITH_MISSING_CHARACTER_DEMOTION_RATE
* (10 * inputLength - WORDS_WITH_MISSING_CHARACTER_DEMOTION_START_POS_10X)
/ (10 * inputLength
- WORDS_WITH_MISSING_CHARACTER_DEMOTION_START_POS_10X + 10);
if (DEBUG_DICT_FULL) {
LOGI("Demotion rate for missing character is %d.", demotionRate);
}
multiplyRate(demotionRate, &finalFreq);
} else {
finalFreq = 0;
}
}
if (transposedPos >= 0) multiplyRate(
WORDS_WITH_TRANSPOSED_CHARACTERS_DEMOTION_RATE, &finalFreq);
if (excessivePos >= 0) {
multiplyRate(WORDS_WITH_EXCESSIVE_CHARACTER_DEMOTION_RATE, &finalFreq);
if (!proximityInfo->existsAdjacentProximityChars(inputIndex)) {
// If an excessive character is not adjacent to the left char or the right char,
// we will demote this word.
multiplyRate(WORDS_WITH_EXCESSIVE_CHARACTER_OUT_OF_PROXIMITY_DEMOTION_RATE, &finalFreq);
}
}
int lengthFreq = typedLetterMultiplier;
multiplyIntCapped(powerIntCapped(typedLetterMultiplier, depth), &lengthFreq);
if (lengthFreq == matchWeight) {
// Full exact match
if (depth > 1) {
if (DEBUG_DICT) {
LOGI("Found full matched word.");
}
multiplyRate(FULL_MATCHED_WORDS_PROMOTION_RATE, &finalFreq);
}
if (sameLength && transposedPos < 0 && skipPos < 0 && excessivePos < 0) {
finalFreq = capped255MultForFullMatchAccentsOrCapitalizationDifference(finalFreq);
}
} else if (sameLength && transposedPos < 0 && skipPos < 0 && excessivePos < 0 && depth > 0) {
// A word with proximity corrections
if (DEBUG_DICT) {
LOGI("Found one proximity correction.");
}
multiplyIntCapped(typedLetterMultiplier, &finalFreq);
multiplyRate(WORDS_WITH_PROXIMITY_CHARACTER_DEMOTION_RATE, &finalFreq);
}
if (DEBUG_DICT) {
LOGI("calc: %d, %d", depth, sameLength);
}
if (sameLength) multiplyIntCapped(fullWordMultiplier, &finalFreq);
return finalFreq;
}
int CorrectionState::RankingAlgorithm::calcFreqForSplitTwoWords(
const int firstFreq, const int secondFreq, const CorrectionState* correctionState) {
const int spaceProximityPos = correctionState->mSpaceProximityPos;
const int missingSpacePos = correctionState->mMissingSpacePos;
if (DEBUG_DICT) {
int inputCount = 0;
if (spaceProximityPos >= 0) ++inputCount;
if (missingSpacePos >= 0) ++inputCount;
assert(inputCount <= 1);
}
const bool isSpaceProximity = spaceProximityPos >= 0;
const int inputLength = correctionState->mInputLength;
const int firstWordLength = isSpaceProximity ? spaceProximityPos : missingSpacePos;
const int secondWordLength = isSpaceProximity
? (inputLength - spaceProximityPos - 1)
: (inputLength - missingSpacePos);
const int typedLetterMultiplier = correctionState->TYPED_LETTER_MULTIPLIER;
if (firstWordLength == 0 || secondWordLength == 0) {
return 0;
}
const int firstDemotionRate = 100 - 100 / (firstWordLength + 1);
int tempFirstFreq = firstFreq;
multiplyRate(firstDemotionRate, &tempFirstFreq);
const int secondDemotionRate = 100 - 100 / (secondWordLength + 1);
int tempSecondFreq = secondFreq;
multiplyRate(secondDemotionRate, &tempSecondFreq);
const int totalLength = firstWordLength + secondWordLength;
// Promote pairFreq with multiplying by 2, because the word length is the same as the typed
// length.
int totalFreq = tempFirstFreq + tempSecondFreq;
// This is a workaround to try offsetting the not-enough-demotion which will be done in
// calcNormalizedScore in Utils.java.
// In calcNormalizedScore the score will be demoted by (1 - 1 / length)
// but we demoted only (1 - 1 / (length + 1)) so we will additionally adjust freq by
// (1 - 1 / length) / (1 - 1 / (length + 1)) = (1 - 1 / (length * length))
const int normalizedScoreNotEnoughDemotionAdjustment = 100 - 100 / (totalLength * totalLength);
multiplyRate(normalizedScoreNotEnoughDemotionAdjustment, &totalFreq);
// At this moment, totalFreq is calculated by the following formula:
// (firstFreq * (1 - 1 / (firstWordLength + 1)) + secondFreq * (1 - 1 / (secondWordLength + 1)))
// * (1 - 1 / totalLength) / (1 - 1 / (totalLength + 1))
multiplyIntCapped(powerIntCapped(typedLetterMultiplier, totalLength), &totalFreq);
// This is another workaround to offset the demotion which will be done in
// calcNormalizedScore in Utils.java.
// In calcNormalizedScore the score will be demoted by (1 - 1 / length) so we have to promote
// the same amount because we already have adjusted the synthetic freq of this "missing or
// mistyped space" suggestion candidate above in this method.
const int normalizedScoreDemotionRateOffset = (100 + 100 / totalLength);
multiplyRate(normalizedScoreDemotionRateOffset, &totalFreq);
if (isSpaceProximity) {
// A word pair with one space proximity correction
if (DEBUG_DICT) {
LOGI("Found a word pair with space proximity correction.");
}
multiplyIntCapped(typedLetterMultiplier, &totalFreq);
multiplyRate(WORDS_WITH_PROXIMITY_CHARACTER_DEMOTION_RATE, &totalFreq);
}
multiplyRate(WORDS_WITH_MISSING_SPACE_CHARACTER_DEMOTION_RATE, &totalFreq);
return totalFreq;
}
} // namespace latinime

32
native/src/correction_state.h
View File

@ -26,10 +26,12 @@ namespace latinime {
class ProximityInfo;
class CorrectionState {
public:
CorrectionState();
void setCorrectionParams(const ProximityInfo *pi, const int inputLength, const int skipPos,
const int excessivePos, const int transposedPos);
CorrectionState(const int typedLetterMultiplier, const int fullWordMultiplier);
void initCorrectionState(const ProximityInfo *pi, const int inputLength);
void setCorrectionParams(const int skipPos, const int excessivePos, const int transposedPos,
const int spaceProximityPos, const int missingSpacePos);
void checkState();
virtual ~CorrectionState();
int getSkipPos() const {
@ -41,12 +43,36 @@ public:
int getTransposedPos() const {
return mTransposedPos;
}
int getSpaceProximityPos() const {
return mSpaceProximityPos;
}
int getMissingSpacePos() const {
return mMissingSpacePos;
}
int getFreqForSplitTwoWords(const int firstFreq, const int secondFreq);
int getFinalFreq(const int inputIndex, const int depth, const int matchWeight, const int freq,
const bool sameLength);
private:
const int TYPED_LETTER_MULTIPLIER;
const int FULL_WORD_MULTIPLIER;
const ProximityInfo *mProximityInfo;
int mInputLength;
int mSkipPos;
int mExcessivePos;
int mTransposedPos;
int mSpaceProximityPos;
int mMissingSpacePos;
class RankingAlgorithm {
public:
static int calculateFinalFreq(const int inputIndex, const int depth,
const int matchCount, const int freq, const bool sameLength,
const CorrectionState* correctionState);
static int calcFreqForSplitTwoWords(const int firstFreq, const int secondFreq,
const CorrectionState* correctionState);
};
};
} // namespace latinime
#endif // LATINIME_CORRECTION_INFO_H

235
native/src/unigram_dictionary.cpp
View File

@ -48,7 +48,7 @@ UnigramDictionary::UnigramDictionary(const uint8_t* const streamStart, int typed
if (DEBUG_DICT) {
LOGI("UnigramDictionary - constructor");
}
mCorrectionState = new CorrectionState();
mCorrectionState = new CorrectionState(typedLetterMultiplier, fullWordMultiplier);
}
UnigramDictionary::~UnigramDictionary() {
@ -187,6 +187,7 @@ void UnigramDictionary::getWordSuggestions(ProximityInfo *proximityInfo,
PROF_START(0);
initSuggestions(
proximityInfo, xcoordinates, ycoordinates, codes, codesSize, outWords, frequencies);
mCorrectionState->initCorrectionState(mProximityInfo, mInputLength);
if (DEBUG_DICT) assert(codesSize == mInputLength);
const int MAX_DEPTH = min(mInputLength * MAX_DEPTH_MULTIPLIER, MAX_WORD_LENGTH);
@ -242,7 +243,7 @@ void UnigramDictionary::getWordSuggestions(ProximityInfo *proximityInfo,
if (DEBUG_DICT) {
LOGI("--- Suggest missing space characters %d", i);
}
getMissingSpaceWords(mInputLength, i);
getMissingSpaceWords(mInputLength, i, mCorrectionState);
}
}
PROF_END(5);
@ -261,7 +262,7 @@ void UnigramDictionary::getWordSuggestions(ProximityInfo *proximityInfo,
i, x, y, proximityInfo->hasSpaceProximity(x, y));
}
if (proximityInfo->hasSpaceProximity(x, y)) {
getMistypedSpaceWords(mInputLength, i);
getMistypedSpaceWords(mInputLength, i, mCorrectionState);
}
}
}
@ -355,8 +356,8 @@ void UnigramDictionary::getSuggestionCandidates(const int skipPos,
assert(excessivePos < mInputLength);
assert(missingPos < mInputLength);
}
mCorrectionState->setCorrectionParams(mProximityInfo, mInputLength, skipPos, excessivePos,
transposedPos);
mCorrectionState->setCorrectionParams(skipPos, excessivePos, transposedPos,
-1 /* spaceProximityPos */, -1 /* missingSpacePos */);
int rootPosition = ROOT_POS;
// Get the number of children of root, then increment the position
int childCount = Dictionary::getCount(DICT_ROOT, &rootPosition);
@ -364,7 +365,7 @@ void UnigramDictionary::getSuggestionCandidates(const int skipPos,
mStackChildCount[0] = childCount;
mStackTraverseAll[0] = (mInputLength <= 0);
mStackNodeFreq[0] = 1;
mStackMatchCount[0] = 0;
mStackInputIndex[0] = 0;
mStackDiffs[0] = 0;
mStackSiblingPos[0] = rootPosition;
@ -375,7 +376,7 @@ void UnigramDictionary::getSuggestionCandidates(const int skipPos,
if (mStackChildCount[depth] > 0) {
--mStackChildCount[depth];
bool traverseAllNodes = mStackTraverseAll[depth];
int matchWeight = mStackNodeFreq[depth];
int matchCount = mStackMatchCount[depth];
int inputIndex = mStackInputIndex[depth];
int diffs = mStackDiffs[depth];
int siblingPos = mStackSiblingPos[depth];
@ -384,9 +385,9 @@ void UnigramDictionary::getSuggestionCandidates(const int skipPos,
// depth will never be greater than maxDepth because in that case,
// needsToTraverseChildrenNodes should be false
const bool needsToTraverseChildrenNodes = processCurrentNode(siblingPos, outputIndex,
maxDepth, traverseAllNodes, matchWeight, inputIndex, diffs,
maxDepth, traverseAllNodes, matchCount, inputIndex, diffs,
nextLetters, nextLettersSize, mCorrectionState, &childCount,
&firstChildPos, &traverseAllNodes, &matchWeight, &inputIndex, &diffs,
&firstChildPos, &traverseAllNodes, &matchCount, &inputIndex, &diffs,
&siblingPos, &outputIndex);
// Update next sibling pos
mStackSiblingPos[depth] = siblingPos;
@ -395,7 +396,7 @@ void UnigramDictionary::getSuggestionCandidates(const int skipPos,
++depth;
mStackChildCount[depth] = childCount;
mStackTraverseAll[depth] = traverseAllNodes;
mStackNodeFreq[depth] = matchWeight;
mStackMatchCount[depth] = matchCount;
mStackInputIndex[depth] = inputIndex;
mStackDiffs[depth] = diffs;
mStackSiblingPos[depth] = firstChildPos;
@ -408,11 +409,6 @@ void UnigramDictionary::getSuggestionCandidates(const int skipPos,
}
}
static const int TWO_31ST_DIV_255 = S_INT_MAX / 255;
static inline int capped255MultForFullMatchAccentsOrCapitalizationDifference(const int num) {
return (num < TWO_31ST_DIV_255 ? 255 * num : S_INT_MAX);
}
static const int TWO_31ST_DIV_2 = S_INT_MAX / 2;
inline static void multiplyIntCapped(const int multiplier, int *base) {
const int temp = *base;
@ -427,153 +423,18 @@ inline static void multiplyIntCapped(const int multiplier, int *base) {
}
}
inline static int powerIntCapped(const int base, const int n) {
if (base == 2) {
return n < 31 ? 1 << n : S_INT_MAX;
} else {
int ret = base;
for (int i = 1; i < n; ++i) multiplyIntCapped(base, &ret);
return ret;
}
void UnigramDictionary::getMissingSpaceWords(
const int inputLength, const int missingSpacePos, CorrectionState *correctionState) {
correctionState->setCorrectionParams(-1 /* skipPos */, -1 /* excessivePos */,
-1 /* transposedPos */, -1 /* spaceProximityPos */, missingSpacePos);
getSplitTwoWordsSuggestion(inputLength, correctionState);
}
inline static void multiplyRate(const int rate, int *freq) {
if (*freq != S_INT_MAX) {
if (*freq > 1000000) {
*freq /= 100;
multiplyIntCapped(rate, freq);
} else {
multiplyIntCapped(rate, freq);
*freq /= 100;
}
}
}
inline static int calcFreqForSplitTwoWords(
const int typedLetterMultiplier, const int firstWordLength, const int secondWordLength,
const int firstFreq, const int secondFreq, const bool isSpaceProximity) {
if (firstWordLength == 0 || secondWordLength == 0) {
return 0;
}
const int firstDemotionRate = 100 - 100 / (firstWordLength + 1);
int tempFirstFreq = firstFreq;
multiplyRate(firstDemotionRate, &tempFirstFreq);
const int secondDemotionRate = 100 - 100 / (secondWordLength + 1);
int tempSecondFreq = secondFreq;
multiplyRate(secondDemotionRate, &tempSecondFreq);
const int totalLength = firstWordLength + secondWordLength;
// Promote pairFreq with multiplying by 2, because the word length is the same as the typed
// length.
int totalFreq = tempFirstFreq + tempSecondFreq;
// This is a workaround to try offsetting the not-enough-demotion which will be done in
// calcNormalizedScore in Utils.java.
// In calcNormalizedScore the score will be demoted by (1 - 1 / length)
// but we demoted only (1 - 1 / (length + 1)) so we will additionally adjust freq by
// (1 - 1 / length) / (1 - 1 / (length + 1)) = (1 - 1 / (length * length))
const int normalizedScoreNotEnoughDemotionAdjustment = 100 - 100 / (totalLength * totalLength);
multiplyRate(normalizedScoreNotEnoughDemotionAdjustment, &totalFreq);
// At this moment, totalFreq is calculated by the following formula:
// (firstFreq * (1 - 1 / (firstWordLength + 1)) + secondFreq * (1 - 1 / (secondWordLength + 1)))
// * (1 - 1 / totalLength) / (1 - 1 / (totalLength + 1))
multiplyIntCapped(powerIntCapped(typedLetterMultiplier, totalLength), &totalFreq);
// This is another workaround to offset the demotion which will be done in
// calcNormalizedScore in Utils.java.
// In calcNormalizedScore the score will be demoted by (1 - 1 / length) so we have to promote
// the same amount because we already have adjusted the synthetic freq of this "missing or
// mistyped space" suggestion candidate above in this method.
const int normalizedScoreDemotionRateOffset = (100 + 100 / totalLength);
multiplyRate(normalizedScoreDemotionRateOffset, &totalFreq);
if (isSpaceProximity) {
// A word pair with one space proximity correction
if (DEBUG_DICT) {
LOGI("Found a word pair with space proximity correction.");
}
multiplyIntCapped(typedLetterMultiplier, &totalFreq);
multiplyRate(WORDS_WITH_PROXIMITY_CHARACTER_DEMOTION_RATE, &totalFreq);
}
multiplyRate(WORDS_WITH_MISSING_SPACE_CHARACTER_DEMOTION_RATE, &totalFreq);
return totalFreq;
}
bool UnigramDictionary::getMissingSpaceWords(const int inputLength, const int missingSpacePos) {
return getSplitTwoWordsSuggestion(
inputLength, 0, missingSpacePos, missingSpacePos, inputLength - missingSpacePos, false);
}
bool UnigramDictionary::getMistypedSpaceWords(const int inputLength, const int spaceProximityPos) {
return getSplitTwoWordsSuggestion(
inputLength, 0, spaceProximityPos, spaceProximityPos + 1,
inputLength - spaceProximityPos - 1, true);
}
inline int UnigramDictionary::calculateFinalFreq(const int inputIndex, const int depth,
const int matchWeight, const int freq, const bool sameLength,
CorrectionState *correctionState) const {
const int skipPos = correctionState->getSkipPos();
const int excessivePos = correctionState->getExcessivePos();
const int transposedPos = correctionState->getTransposedPos();
// TODO: Demote by edit distance
int finalFreq = freq * matchWeight;
if (skipPos >= 0) {
if (mInputLength >= 2) {
const int demotionRate = WORDS_WITH_MISSING_CHARACTER_DEMOTION_RATE
* (10 * mInputLength - WORDS_WITH_MISSING_CHARACTER_DEMOTION_START_POS_10X)
/ (10 * mInputLength
- WORDS_WITH_MISSING_CHARACTER_DEMOTION_START_POS_10X + 10);
if (DEBUG_DICT_FULL) {
LOGI("Demotion rate for missing character is %d.", demotionRate);
}
multiplyRate(demotionRate, &finalFreq);
} else {
finalFreq = 0;
}
}
if (transposedPos >= 0) multiplyRate(
WORDS_WITH_TRANSPOSED_CHARACTERS_DEMOTION_RATE, &finalFreq);
if (excessivePos >= 0) {
multiplyRate(WORDS_WITH_EXCESSIVE_CHARACTER_DEMOTION_RATE, &finalFreq);
if (!mProximityInfo->existsAdjacentProximityChars(inputIndex)) {
// If an excessive character is not adjacent to the left char or the right char,
// we will demote this word.
multiplyRate(WORDS_WITH_EXCESSIVE_CHARACTER_OUT_OF_PROXIMITY_DEMOTION_RATE, &finalFreq);
}
}
int lengthFreq = TYPED_LETTER_MULTIPLIER;
multiplyIntCapped(powerIntCapped(TYPED_LETTER_MULTIPLIER, depth), &lengthFreq);
if (lengthFreq == matchWeight) {
// Full exact match
if (depth > 1) {
if (DEBUG_DICT) {
LOGI("Found full matched word.");
}
multiplyRate(FULL_MATCHED_WORDS_PROMOTION_RATE, &finalFreq);
}
if (sameLength && transposedPos < 0 && skipPos < 0 && excessivePos < 0) {
finalFreq = capped255MultForFullMatchAccentsOrCapitalizationDifference(finalFreq);
}
} else if (sameLength && transposedPos < 0 && skipPos < 0 && excessivePos < 0 && depth > 0) {
// A word with proximity corrections
if (DEBUG_DICT) {
LOGI("Found one proximity correction.");
}
multiplyIntCapped(TYPED_LETTER_MULTIPLIER, &finalFreq);
multiplyRate(WORDS_WITH_PROXIMITY_CHARACTER_DEMOTION_RATE, &finalFreq);
}
if (DEBUG_DICT) {
LOGI("calc: %d, %d", depth, sameLength);
}
if (sameLength) multiplyIntCapped(FULL_WORD_MULTIPLIER, &finalFreq);
return finalFreq;
void UnigramDictionary::getMistypedSpaceWords(
const int inputLength, const int spaceProximityPos, CorrectionState *correctionState) {
correctionState->setCorrectionParams(-1 /* skipPos */, -1 /* excessivePos */,
-1 /* transposedPos */, spaceProximityPos, -1 /* missingSpacePos */);
getSplitTwoWordsSuggestion(inputLength, correctionState);
}
inline bool UnigramDictionary::needsToSkipCurrentNode(const unsigned short c,
@ -586,7 +447,7 @@ inline bool UnigramDictionary::needsToSkipCurrentNode(const unsigned short c,
inline void UnigramDictionary::onTerminal(unsigned short int* word, const int depth,
const uint8_t* const root, const uint8_t flags, const int pos,
const int inputIndex, const int matchWeight, const int freq, const bool sameLength,
const int inputIndex, const int matchCount, const int freq, const bool sameLength,
int* nextLetters, const int nextLettersSize, CorrectionState *correctionState) {
const int skipPos = correctionState->getSkipPos();
@ -594,8 +455,8 @@ inline void UnigramDictionary::onTerminal(unsigned short int* word, const int de
if (isSameAsTyped) return;
if (depth >= MIN_SUGGEST_DEPTH) {
const int finalFreq = calculateFinalFreq(inputIndex, depth, matchWeight,
freq, sameLength, correctionState);
const int finalFreq = correctionState->getFinalFreq(inputIndex, depth, matchCount,
freq, sameLength);
if (!isSameAsTyped)
addWord(word, depth + 1, finalFreq);
}
@ -605,13 +466,29 @@ inline void UnigramDictionary::onTerminal(unsigned short int* word, const int de
}
}
bool UnigramDictionary::getSplitTwoWordsSuggestion(const int inputLength,
const int firstWordStartPos, const int firstWordLength, const int secondWordStartPos,
const int secondWordLength, const bool isSpaceProximity) {
if (inputLength >= MAX_WORD_LENGTH) return false;
void UnigramDictionary::getSplitTwoWordsSuggestion(
const int inputLength, CorrectionState* correctionState) {
const int spaceProximityPos = correctionState->getSpaceProximityPos();
const int missingSpacePos = correctionState->getMissingSpacePos();
if (DEBUG_DICT) {
int inputCount = 0;
if (spaceProximityPos >= 0) ++inputCount;
if (missingSpacePos >= 0) ++inputCount;
assert(inputCount <= 1);
}
const bool isSpaceProximity = spaceProximityPos >= 0;
const int firstWordStartPos = 0;
const int secondWordStartPos = isSpaceProximity ? (spaceProximityPos + 1) : missingSpacePos;
const int firstWordLength = isSpaceProximity ? spaceProximityPos : missingSpacePos;
const int secondWordLength = isSpaceProximity
? (inputLength - spaceProximityPos - 1)
: (inputLength - missingSpacePos);
if (inputLength >= MAX_WORD_LENGTH) return;
if (0 >= firstWordLength || 0 >= secondWordLength || firstWordStartPos >= secondWordStartPos
|| firstWordStartPos < 0 || secondWordStartPos + secondWordLength > inputLength)
return false;
return;
const int newWordLength = firstWordLength + secondWordLength + 1;
// Allocating variable length array on stack
unsigned short word[newWordLength];
@ -619,7 +496,7 @@ bool UnigramDictionary::getSplitTwoWordsSuggestion(const int inputLength,
if (DEBUG_DICT) {
LOGI("First freq: %d", firstFreq);
}
if (firstFreq <= 0) return false;
if (firstFreq <= 0) return;
for (int i = 0; i < firstWordLength; ++i) {
word[i] = mWord[i];
@ -629,21 +506,19 @@ bool UnigramDictionary::getSplitTwoWordsSuggestion(const int inputLength,
if (DEBUG_DICT) {
LOGI("Second freq: %d", secondFreq);
}
if (secondFreq <= 0) return false;
if (secondFreq <= 0) return;
word[firstWordLength] = SPACE;
for (int i = (firstWordLength + 1); i < newWordLength; ++i) {
word[i] = mWord[i - firstWordLength - 1];
}
int pairFreq = calcFreqForSplitTwoWords(TYPED_LETTER_MULTIPLIER, firstWordLength,
secondWordLength, firstFreq, secondFreq, isSpaceProximity);
const int pairFreq = mCorrectionState->getFreqForSplitTwoWords(firstFreq, secondFreq);
if (DEBUG_DICT) {
LOGI("Split two words: %d, %d, %d, %d, %d", firstFreq, secondFreq, pairFreq, inputLength,
TYPED_LETTER_MULTIPLIER);
LOGI("Split two words: %d, %d, %d, %d", firstFreq, secondFreq, pairFreq, inputLength);
}
addWord(word, newWordLength, pairFreq);
return true;
return;
}
// Wrapper for getMostFrequentWordLikeInner, which matches it to the previous
@ -803,7 +678,7 @@ int UnigramDictionary::getBigramPosition(int pos, unsigned short *word, int offs
// the current node in nextSiblingPosition. Thus, the caller must keep count of the nodes at any
// given level, as output into newCount when traversing this level's parent.
inline bool UnigramDictionary::processCurrentNode(const int initialPos, const int initialDepth,
const int maxDepth, const bool initialTraverseAllNodes, int matchWeight, int inputIndex,
const int maxDepth, const bool initialTraverseAllNodes, int matchCount, int inputIndex,
const int initialDiffs, int *nextLetters, const int nextLettersSize,
CorrectionState *correctionState, int *newCount, int *newChildrenPosition,
bool *newTraverseAllNodes, int *newMatchRate, int *newInputIndex, int *newDiffs,
@ -868,7 +743,7 @@ inline bool UnigramDictionary::processCurrentNode(const int initialPos, const in
// The frequency should be here, because we come here only if this is actually
// a terminal node, and we are on its last char.
const int freq = BinaryFormat::readFrequencyWithoutMovingPointer(DICT_ROOT, pos);
onTerminal(mWord, depth, DICT_ROOT, flags, pos, inputIndex, matchWeight,
onTerminal(mWord, depth, DICT_ROOT, flags, pos, inputIndex, matchCount,
freq, false, nextLetters, nextLettersSize, mCorrectionState);
}
if (!hasChildren) {
@ -913,13 +788,13 @@ inline bool UnigramDictionary::processCurrentNode(const int initialPos, const in
// If inputIndex is greater than mInputLength, that means there is no
// proximity chars. So, we don't need to check proximity.
if (ProximityInfo::SAME_OR_ACCENTED_OR_CAPITALIZED_CHAR == matchedProximityCharId) {
multiplyIntCapped(TYPED_LETTER_MULTIPLIER, &matchWeight);
++matchCount;
}
const bool isSameAsUserTypedLength = mInputLength == inputIndex + 1
|| (excessivePos == mInputLength - 1 && inputIndex == mInputLength - 2);
if (isSameAsUserTypedLength && isTerminal) {
const int freq = BinaryFormat::readFrequencyWithoutMovingPointer(DICT_ROOT, pos);
onTerminal(mWord, depth, DICT_ROOT, flags, pos, inputIndex, matchWeight,
onTerminal(mWord, depth, DICT_ROOT, flags, pos, inputIndex, matchCount,
freq, true, nextLetters, nextLettersSize, mCorrectionState);
}
// This character matched the typed character (enough to traverse the node at least)
@ -975,7 +850,7 @@ inline bool UnigramDictionary::processCurrentNode(const int initialPos, const in
// All the output values that are purely computation by this function are held in local
// variables. Output them to the caller.
*newTraverseAllNodes = traverseAllNodes;
*newMatchRate = matchWeight;
*newMatchRate = matchCount;
*newDiffs = diffs;
*newInputIndex = inputIndex;
*newOutputIndex = depth;

15
native/src/unigram_dictionary.h
View File

@ -74,6 +74,7 @@ public:
virtual ~UnigramDictionary();
private:
void getWordSuggestions(ProximityInfo *proximityInfo, const int *xcoordinates,
const int *ycoordinates, const int *codes, const int codesSize,
unsigned short *outWords, int *frequencies);
@ -89,13 +90,11 @@ private:
const int transposedPos, int *nextLetters, const int nextLettersSize,
const int maxDepth);
bool addWord(unsigned short *word, int length, int frequency);
bool getSplitTwoWordsSuggestion(const int inputLength,
const int firstWordStartPos, const int firstWordLength,
const int secondWordStartPos, const int secondWordLength, const bool isSpaceProximity);
bool getMissingSpaceWords(const int inputLength, const int missingSpacePos);
bool getMistypedSpaceWords(const int inputLength, const int spaceProximityPos);
int calculateFinalFreq(const int inputIndex, const int depth, const int snr,
const int freq, const bool sameLength, CorrectionState *correctionState) const;
void getSplitTwoWordsSuggestion(const int inputLength, CorrectionState *correctionState);
void getMissingSpaceWords(
const int inputLength, const int missingSpacePos, CorrectionState *correctionState);
void getMistypedSpaceWords(
const int inputLength, const int spaceProximityPos, CorrectionState *correctionState);
void onTerminal(unsigned short int* word, const int depth,
const uint8_t* const root, const uint8_t flags, const int pos,
const int inputIndex, const int matchWeight, const int freq, const bool sameLength,
@ -145,7 +144,7 @@ private:
int mStackChildCount[MAX_WORD_LENGTH_INTERNAL];
bool mStackTraverseAll[MAX_WORD_LENGTH_INTERNAL];
int mStackNodeFreq[MAX_WORD_LENGTH_INTERNAL];
int mStackMatchCount[MAX_WORD_LENGTH_INTERNAL];
int mStackInputIndex[MAX_WORD_LENGTH_INTERNAL];
int mStackDiffs[MAX_WORD_LENGTH_INTERNAL];
int mStackSiblingPos[MAX_WORD_LENGTH_INTERNAL];