Do other error correction for the second word of two word correction
result: I4e0b68a12190933f9 Change-Id: I98afce6fe4d5bde97392146d204370ba31a72566main
parent
f9521c6f37
commit
8330b488e9
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@ -269,7 +269,7 @@ bool Correction::needsToPrune() const {
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// TODO: use edit distance here
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return mOutputIndex - 1 >= mMaxDepth || mProximityCount > mMaxEditDistance
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// Allow one char longer word for missing character
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|| (!mDoAutoCompletion && (mOutputIndex + 1 >= mInputLength));
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|| (!mDoAutoCompletion && (mOutputIndex > mInputLength));
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}
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void Correction::addCharToCurrentWord(const int32_t c) {
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@ -555,55 +555,6 @@ Correction::CorrectionType Correction::processCharAndCalcState(
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Correction::~Correction() {
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}
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/////////////////////////
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// static inline utils //
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/////////////////////////
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static const int TWO_31ST_DIV_255 = S_INT_MAX / 255;
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static inline int capped255MultForFullMatchAccentsOrCapitalizationDifference(const int num) {
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return (num < TWO_31ST_DIV_255 ? 255 * num : S_INT_MAX);
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}
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static const int TWO_31ST_DIV_2 = S_INT_MAX / 2;
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inline static void multiplyIntCapped(const int multiplier, int *base) {
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const int temp = *base;
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if (temp != S_INT_MAX) {
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// Branch if multiplier == 2 for the optimization
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if (multiplier == 2) {
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*base = TWO_31ST_DIV_2 >= temp ? temp << 1 : S_INT_MAX;
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} else {
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// TODO: This overflow check gives a wrong answer when, for example,
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// temp = 2^16 + 1 and multiplier = 2^17 + 1.
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// Fix this behavior.
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const int tempRetval = temp * multiplier;
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*base = tempRetval >= temp ? tempRetval : S_INT_MAX;
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}
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}
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}
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inline static int powerIntCapped(const int base, const int n) {
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if (n <= 0) return 1;
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if (base == 2) {
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return n < 31 ? 1 << n : S_INT_MAX;
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} else {
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int ret = base;
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for (int i = 1; i < n; ++i) multiplyIntCapped(base, &ret);
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return ret;
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}
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}
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inline static void multiplyRate(const int rate, int *freq) {
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if (*freq != S_INT_MAX) {
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if (*freq > 1000000) {
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*freq /= 100;
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multiplyIntCapped(rate, freq);
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} else {
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multiplyIntCapped(rate, freq);
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*freq /= 100;
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}
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}
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}
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inline static int getQuoteCount(const unsigned short* word, const int length) {
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int quoteCount = 0;
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for (int i = 0; i < length; ++i) {
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@ -939,7 +890,11 @@ int Correction::RankingAlgorithm::calcFreqForSplitTwoWords(
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multiplyRate(WORDS_WITH_PROXIMITY_CHARACTER_DEMOTION_RATE, &totalFreq);
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}
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if (isSpaceProximity) {
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multiplyRate(WORDS_WITH_MISTYPED_SPACE_DEMOTION_RATE, &totalFreq);
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} else {
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multiplyRate(WORDS_WITH_MISSING_SPACE_CHARACTER_DEMOTION_RATE, &totalFreq);
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}
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if (capitalizedWordDemotion) {
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multiplyRate(TWO_WORDS_CAPITALIZED_DEMOTION_RATE, &totalFreq);
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@ -36,6 +36,55 @@ class Correction {
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NOT_ON_TERMINAL
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} CorrectionType;
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/////////////////////////
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// static inline utils //
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/////////////////////////
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static const int TWO_31ST_DIV_255 = S_INT_MAX / 255;
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static inline int capped255MultForFullMatchAccentsOrCapitalizationDifference(const int num) {
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return (num < TWO_31ST_DIV_255 ? 255 * num : S_INT_MAX);
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}
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static const int TWO_31ST_DIV_2 = S_INT_MAX / 2;
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inline static void multiplyIntCapped(const int multiplier, int *base) {
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const int temp = *base;
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if (temp != S_INT_MAX) {
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// Branch if multiplier == 2 for the optimization
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if (multiplier == 2) {
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*base = TWO_31ST_DIV_2 >= temp ? temp << 1 : S_INT_MAX;
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} else {
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// TODO: This overflow check gives a wrong answer when, for example,
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// temp = 2^16 + 1 and multiplier = 2^17 + 1.
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// Fix this behavior.
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const int tempRetval = temp * multiplier;
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*base = tempRetval >= temp ? tempRetval : S_INT_MAX;
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}
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}
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}
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inline static int powerIntCapped(const int base, const int n) {
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if (n <= 0) return 1;
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if (base == 2) {
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return n < 31 ? 1 << n : S_INT_MAX;
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} else {
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int ret = base;
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for (int i = 1; i < n; ++i) multiplyIntCapped(base, &ret);
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return ret;
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}
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}
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inline static void multiplyRate(const int rate, int *freq) {
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if (*freq != S_INT_MAX) {
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if (*freq > 1000000) {
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*freq /= 100;
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multiplyIntCapped(rate, freq);
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} else {
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multiplyIntCapped(rate, freq);
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*freq /= 100;
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}
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}
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}
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Correction(const int typedLetterMultiplier, const int fullWordMultiplier);
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void initCorrection(
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const ProximityInfo *pi, const int inputLength, const int maxWordLength);
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@ -188,6 +188,7 @@ static void prof_out(void) {
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#define WORDS_WITH_MISSING_CHARACTER_DEMOTION_RATE 80
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#define WORDS_WITH_MISSING_CHARACTER_DEMOTION_START_POS_10X 12
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#define WORDS_WITH_MISSING_SPACE_CHARACTER_DEMOTION_RATE 58
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#define WORDS_WITH_MISTYPED_SPACE_DEMOTION_RATE 50
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#define WORDS_WITH_EXCESSIVE_CHARACTER_DEMOTION_RATE 75
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#define WORDS_WITH_EXCESSIVE_CHARACTER_OUT_OF_PROXIMITY_DEMOTION_RATE 75
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#define WORDS_WITH_TRANSPOSED_CHARACTERS_DEMOTION_RATE 70
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@ -221,6 +222,9 @@ static void prof_out(void) {
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#define MAX_DEPTH_MULTIPLIER 3
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#define FIRST_WORD_INDEX 1
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#define SECOND_WORD_INDEX 2
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// TODO: Reduce this constant if possible; check the maximum number of umlauts in the same German
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// word in the dictionary
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#define DEFAULT_MAX_UMLAUT_SEARCH_DEPTH 5
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@ -159,19 +159,26 @@ int UnigramDictionary::getSuggestions(ProximityInfo *proximityInfo,
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}
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PROF_START(20);
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if (DEBUG_DICT) {
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double ns = queuePool->getMasterQueue()->getHighestNormalizedScore(
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proximityInfo->getPrimaryInputWord(), codesSize, 0, 0, 0);
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ns += 0;
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AKLOGI("Max normalized score = %f", ns);
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}
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const int suggestedWordsCount =
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queuePool->getMasterQueue()->outputSuggestions(frequencies, outWords);
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if (DEBUG_DICT) {
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double ns = queuePool->getMasterQueue()->getHighestNormalizedScore(
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proximityInfo->getPrimaryInputWord(), codesSize, 0, 0, 0);
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ns += 0;
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AKLOGI("Returning %d words", suggestedWordsCount);
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/// Print the returned words
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for (int j = 0; j < suggestedWordsCount; ++j) {
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#ifdef FLAG_DBG
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short unsigned int* w = outWords + j * MAX_WORD_LENGTH;
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char s[MAX_WORD_LENGTH];
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for (int i = 0; i <= MAX_WORD_LENGTH; i++) s[i] = w[i];
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AKLOGI("%s %i", s, frequencies[j]);
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#endif
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}
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}
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PROF_END(20);
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@ -205,6 +212,13 @@ void UnigramDictionary::getWordSuggestions(ProximityInfo *proximityInfo,
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PROF_START(4);
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// Note: This line is intentionally left blank
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bool hasAutoCorrectionCandidate = false;
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WordsPriorityQueue* masterQueue = queuePool->getMasterQueue();
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if (masterQueue->size() > 0) {
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double nsForMaster = masterQueue->getHighestNormalizedScore(
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proximityInfo->getPrimaryInputWord(), inputLength, 0, 0, 0);
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hasAutoCorrectionCandidate = (nsForMaster > START_TWO_WORDS_CORRECTION_THRESHOLD);
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}
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PROF_END(4);
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PROF_START(5);
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@ -216,7 +230,8 @@ void UnigramDictionary::getWordSuggestions(ProximityInfo *proximityInfo,
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AKLOGI("--- Suggest missing space characters %d", i);
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}
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getMissingSpaceWords(proximityInfo, xcoordinates, ycoordinates, codes,
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useFullEditDistance, inputLength, i, correction, queuePool);
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useFullEditDistance, inputLength, i, correction, queuePool,
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hasAutoCorrectionCandidate);
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}
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}
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PROF_END(5);
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@ -236,7 +251,8 @@ void UnigramDictionary::getWordSuggestions(ProximityInfo *proximityInfo,
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}
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if (proximityInfo->hasSpaceProximity(x, y)) {
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getMistypedSpaceWords(proximityInfo, xcoordinates, ycoordinates, codes,
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useFullEditDistance, inputLength, i, correction, queuePool);
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useFullEditDistance, inputLength, i, correction, queuePool,
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hasAutoCorrectionCandidate);
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}
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}
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}
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@ -281,12 +297,12 @@ void UnigramDictionary::getOneWordSuggestions(ProximityInfo *proximityInfo,
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WordsPriorityQueuePool *queuePool) {
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initSuggestions(proximityInfo, xcoordinates, ycoordinates, codes, inputLength, correction);
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getSuggestionCandidates(useFullEditDistance, inputLength, correction, queuePool,
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true /* doAutoCompletion */, DEFAULT_MAX_ERRORS);
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true /* doAutoCompletion */, DEFAULT_MAX_ERRORS, FIRST_WORD_INDEX);
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}
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void UnigramDictionary::getSuggestionCandidates(const bool useFullEditDistance,
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const int inputLength, Correction *correction, WordsPriorityQueuePool *queuePool,
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const bool doAutoCompletion, const int maxErrors) {
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const bool doAutoCompletion, const int maxErrors, const int currentWordIndex) {
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// TODO: Remove setCorrectionParams
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correction->setCorrectionParams(0, 0, 0,
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-1 /* spaceProximityPos */, -1 /* missingSpacePos */, useFullEditDistance,
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@ -305,7 +321,8 @@ void UnigramDictionary::getSuggestionCandidates(const bool useFullEditDistance,
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int firstChildPos;
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const bool needsToTraverseChildrenNodes = processCurrentNode(siblingPos,
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correction, &childCount, &firstChildPos, &siblingPos, queuePool);
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correction, &childCount, &firstChildPos, &siblingPos, queuePool,
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currentWordIndex);
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// Update next sibling pos
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correction->setTreeSiblingPos(outputIndex, siblingPos);
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@ -323,31 +340,32 @@ void UnigramDictionary::getSuggestionCandidates(const bool useFullEditDistance,
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void UnigramDictionary::getMissingSpaceWords(ProximityInfo *proximityInfo, const int *xcoordinates,
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const int *ycoordinates, const int *codes, const bool useFullEditDistance,
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const int inputLength, const int missingSpacePos, Correction *correction,
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WordsPriorityQueuePool* queuePool) {
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WordsPriorityQueuePool* queuePool, const bool hasAutoCorrectionCandidate) {
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getSplitTwoWordsSuggestions(proximityInfo, xcoordinates, ycoordinates, codes,
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useFullEditDistance, inputLength, missingSpacePos, -1/* spaceProximityPos */,
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correction, queuePool);
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correction, queuePool, hasAutoCorrectionCandidate);
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}
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void UnigramDictionary::getMistypedSpaceWords(ProximityInfo *proximityInfo, const int *xcoordinates,
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const int *ycoordinates, const int *codes, const bool useFullEditDistance,
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const int inputLength, const int spaceProximityPos, Correction *correction,
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WordsPriorityQueuePool* queuePool) {
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WordsPriorityQueuePool* queuePool, const bool hasAutoCorrectionCandidate) {
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getSplitTwoWordsSuggestions(proximityInfo, xcoordinates, ycoordinates, codes,
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useFullEditDistance, inputLength, -1 /* missingSpacePos */, spaceProximityPos,
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correction, queuePool);
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correction, queuePool, hasAutoCorrectionCandidate);
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}
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inline void UnigramDictionary::onTerminal(const int freq,
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const TerminalAttributes& terminalAttributes, Correction *correction,
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WordsPriorityQueuePool *queuePool, const bool addToMasterQueue) {
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WordsPriorityQueuePool *queuePool, const bool addToMasterQueue,
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const int currentWordIndex) {
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const int inputIndex = correction->getInputIndex();
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const bool addToSubQueue = inputIndex < SUB_QUEUE_MAX_COUNT;
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int wordLength;
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unsigned short* wordPointer;
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if (addToMasterQueue) {
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if ((currentWordIndex == 1) && addToMasterQueue) {
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WordsPriorityQueue *masterQueue = queuePool->getMasterQueue();
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const int finalFreq = correction->getFinalFreq(freq, &wordPointer, &wordLength);
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if (finalFreq != NOT_A_FREQUENCY) {
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@ -376,9 +394,14 @@ inline void UnigramDictionary::onTerminal(const int freq,
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// We only allow two words + other error correction for words with SUB_QUEUE_MIN_WORD_LENGTH
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// or more length.
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if (inputIndex >= SUB_QUEUE_MIN_WORD_LENGTH && addToSubQueue) {
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// TODO: Check the validity of "inputIndex == wordLength"
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//if (addToSubQueue && inputIndex == wordLength) {
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WordsPriorityQueue *subQueue = queuePool->getSubQueue1(inputIndex);
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WordsPriorityQueue *subQueue;
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if (currentWordIndex == 1) {
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subQueue = queuePool->getSubQueue1(inputIndex);
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} else if (currentWordIndex == 2) {
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subQueue = queuePool->getSubQueue2(inputIndex);
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} else {
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return;
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}
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const int finalFreq = correction->getFinalFreqForSubQueue(freq, &wordPointer, &wordLength,
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inputIndex);
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addWord(wordPointer, wordLength, finalFreq, subQueue);
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@ -388,17 +411,21 @@ inline void UnigramDictionary::onTerminal(const int freq,
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void UnigramDictionary::getSplitTwoWordsSuggestions(ProximityInfo *proximityInfo,
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const int *xcoordinates, const int *ycoordinates, const int *codes,
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const bool useFullEditDistance, const int inputLength, const int missingSpacePos,
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const int spaceProximityPos, Correction *correction, WordsPriorityQueuePool* queuePool) {
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const int spaceProximityPos, Correction *correction, WordsPriorityQueuePool* queuePool,
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const bool hasAutoCorrectionCandidate) {
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if (inputLength >= MAX_WORD_LENGTH) return;
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if (DEBUG_DICT) {
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int inputCount = 0;
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if (spaceProximityPos >= 0) ++inputCount;
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if (missingSpacePos >= 0) ++inputCount;
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assert(inputCount <= 1);
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// MAX_PROXIMITY_CHARS_SIZE in ProximityInfo.java should be 16
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assert(MAX_PROXIMITY_CHARS == 16);
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}
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initSuggestions(proximityInfo, xcoordinates, ycoordinates, codes,
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inputLength, correction);
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WordsPriorityQueue *masterQueue = queuePool->getMasterQueue();
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const bool isSpaceProximity = spaceProximityPos >= 0;
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// First word
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@ -411,26 +438,22 @@ void UnigramDictionary::getSplitTwoWordsSuggestions(ProximityInfo *proximityInfo
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if (firstFreq > 0) {
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firstOutputWordLength = firstInputWordLength;
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firstOutputWord = mWord;
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} else {
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if (masterQueue->size() > 0) {
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double nsForMaster = masterQueue->getHighestNormalizedScore(
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proximityInfo->getPrimaryInputWord(), inputLength, 0, 0, 0);
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if (nsForMaster > START_TWO_WORDS_CORRECTION_THRESHOLD) {
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// Do nothing if the highest suggestion exceeds the threshold.
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return;
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}
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}
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} else if (!hasAutoCorrectionCandidate) {
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WordsPriorityQueue* firstWordQueue = queuePool->getSubQueue1(firstInputWordLength);
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if (firstWordQueue->size() < 1) {
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if (!firstWordQueue || firstWordQueue->size() < 1) {
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return;
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}
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int score = 0;
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const double ns = firstWordQueue->getHighestNormalizedScore(
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proximityInfo->getPrimaryInputWord(), firstInputWordLength,
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&firstOutputWord, &score, &firstOutputWordLength);
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if (DEBUG_DICT) {
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AKLOGI("NS1 = %f, Score = %d", ns, score);
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}
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// Two words correction won't be done if the score of the first word doesn't exceed the
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// threshold.
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if (ns < TWO_WORDS_CORRECTION_WITH_OTHER_ERROR_THRESHOLD) {
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if (ns < TWO_WORDS_CORRECTION_WITH_OTHER_ERROR_THRESHOLD
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|| firstOutputWordLength < SUB_QUEUE_MIN_WORD_LENGTH) {
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return;
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}
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firstFreq = score >> (firstOutputWordLength
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@ -456,14 +479,6 @@ void UnigramDictionary::getSplitTwoWordsSuggestions(ProximityInfo *proximityInfo
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outputWord[firstOutputWordLength] = SPACE;
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outputWordLength = firstOutputWordLength + 1;
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//const int outputWordLength = firstOutputWordLength + secondWordLength + 1;
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// Space proximity preparation
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//WordsPriorityQueue *subQueue = queuePool->getSubQueue1();
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//initSuggestions(proximityInfo, xcoordinates, ycoordinates, codes, firstOutputWordLength,
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//subQueue, correction);
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//getSuggestionCandidates(useFullEditDistance, firstOutputWordLength, correction, subQueue,
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//false, MAX_ERRORS_FOR_TWO_WORDS);
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// Second word
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const int secondInputWordLength = isSpaceProximity
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? (inputLength - spaceProximityPos - 1)
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@ -478,9 +493,42 @@ void UnigramDictionary::getSplitTwoWordsSuggestions(ProximityInfo *proximityInfo
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if (secondFreq > 0) {
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secondOutputWordLength = secondInputWordLength;
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secondOutputWord = mWord;
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} else if (!hasAutoCorrectionCandidate) {
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const int offset = secondInputWordStartPos;
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initSuggestions(proximityInfo, &xcoordinates[offset], &ycoordinates[offset],
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codes + offset * MAX_PROXIMITY_CHARS, secondInputWordLength, correction);
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queuePool->clearSubQueue2();
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getSuggestionCandidates(useFullEditDistance, secondInputWordLength, correction,
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queuePool, false, MAX_ERRORS_FOR_TWO_WORDS, SECOND_WORD_INDEX);
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if (DEBUG_DICT) {
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AKLOGI("Dump second word candidates %d", secondInputWordLength);
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for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
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queuePool->getSubQueue2(i)->dumpTopWord();
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}
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}
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WordsPriorityQueue* secondWordQueue = queuePool->getSubQueue2(secondInputWordLength);
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if (!secondWordQueue || secondWordQueue->size() < 1) {
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return;
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}
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int score = 0;
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const double ns = secondWordQueue->getHighestNormalizedScore(
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proximityInfo->getPrimaryInputWord(), secondInputWordLength,
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&secondOutputWord, &score, &secondOutputWordLength);
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if (DEBUG_DICT) {
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AKLOGI("NS2 = %f, Score = %d", ns, score);
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}
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// Two words correction won't be done if the score of the first word doesn't exceed the
|
||||
// threshold.
|
||||
if (ns < TWO_WORDS_CORRECTION_WITH_OTHER_ERROR_THRESHOLD
|
||||
|| secondOutputWordLength < SUB_QUEUE_MIN_WORD_LENGTH) {
|
||||
return;
|
||||
}
|
||||
secondFreq = score >> (secondOutputWordLength
|
||||
+ TWO_WORDS_PLUS_OTHER_ERROR_CORRECTION_DEMOTION_DIVIDER);
|
||||
}
|
||||
|
||||
if (DEBUG_DICT) {
|
||||
DUMP_WORD(secondOutputWord, secondOutputWordLength);
|
||||
AKLOGI("Second freq: %d", secondFreq);
|
||||
}
|
||||
|
||||
|
@ -742,7 +790,8 @@ int UnigramDictionary::getBigramPosition(int pos, unsigned short *word, int offs
|
|||
// given level, as output into newCount when traversing this level's parent.
|
||||
inline bool UnigramDictionary::processCurrentNode(const int initialPos,
|
||||
Correction *correction, int *newCount,
|
||||
int *newChildrenPosition, int *nextSiblingPosition, WordsPriorityQueuePool *queuePool) {
|
||||
int *newChildrenPosition, int *nextSiblingPosition, WordsPriorityQueuePool *queuePool,
|
||||
const int currentWordIndex) {
|
||||
if (DEBUG_DICT) {
|
||||
correction->checkState();
|
||||
}
|
||||
|
@ -823,7 +872,8 @@ inline bool UnigramDictionary::processCurrentNode(const int initialPos,
|
|||
const int childrenAddressPos = BinaryFormat::skipFrequency(flags, pos);
|
||||
const int attributesPos = BinaryFormat::skipChildrenPosition(flags, childrenAddressPos);
|
||||
TerminalAttributes terminalAttributes(DICT_ROOT, flags, attributesPos);
|
||||
onTerminal(freq, terminalAttributes, correction, queuePool, needsToInvokeOnTerminal);
|
||||
onTerminal(freq, terminalAttributes, correction, queuePool, needsToInvokeOnTerminal,
|
||||
currentWordIndex);
|
||||
|
||||
// If there are more chars in this node, then this virtual node has children.
|
||||
// If we are on the last char, this virtual node has children if this node has.
|
||||
|
|
|
@ -99,11 +99,13 @@ class UnigramDictionary {
|
|||
const int inputLength, Correction *correction, WordsPriorityQueuePool* queuePool);
|
||||
void getSuggestionCandidates(
|
||||
const bool useFullEditDistance, const int inputLength, Correction *correction,
|
||||
WordsPriorityQueuePool* queuePool, const bool doAutoCompletion, const int maxErrors);
|
||||
WordsPriorityQueuePool* queuePool, const bool doAutoCompletion, const int maxErrors,
|
||||
const int currentWordIndex);
|
||||
void getSplitTwoWordsSuggestions(ProximityInfo *proximityInfo,
|
||||
const int *xcoordinates, const int *ycoordinates, const int *codes,
|
||||
const bool useFullEditDistance, const int inputLength, const int spaceProximityPos,
|
||||
const int missingSpacePos, Correction *correction, WordsPriorityQueuePool* queuePool);
|
||||
const int missingSpacePos, Correction *correction, WordsPriorityQueuePool* queuePool,
|
||||
const bool hasAutoCorrectionCandidate);
|
||||
void getSplitTwoWordsSuggestionsOld(ProximityInfo *proximityInfo,
|
||||
const int *xcoordinates, const int *ycoordinates, const int *codes,
|
||||
const bool useFullEditDistance, const int inputLength, const int spaceProximityPos,
|
||||
|
@ -111,18 +113,20 @@ class UnigramDictionary {
|
|||
void getMissingSpaceWords(ProximityInfo *proximityInfo, const int *xcoordinates,
|
||||
const int *ycoordinates, const int *codes, const bool useFullEditDistance,
|
||||
const int inputLength, const int missingSpacePos, Correction *correction,
|
||||
WordsPriorityQueuePool* queuePool);
|
||||
WordsPriorityQueuePool* queuePool, const bool hasAutoCorrectionCandidate);
|
||||
void getMistypedSpaceWords(ProximityInfo *proximityInfo, const int *xcoordinates,
|
||||
const int *ycoordinates, const int *codes, const bool useFullEditDistance,
|
||||
const int inputLength, const int spaceProximityPos, Correction *correction,
|
||||
WordsPriorityQueuePool* queuePool);
|
||||
WordsPriorityQueuePool* queuePool, const bool hasAutoCorrectionCandidate);
|
||||
void onTerminal(const int freq, const TerminalAttributes& terminalAttributes,
|
||||
Correction *correction, WordsPriorityQueuePool *queuePool, const bool addToMasterQueue);
|
||||
Correction *correction, WordsPriorityQueuePool *queuePool, const bool addToMasterQueue,
|
||||
const int currentWordIndex);
|
||||
bool needsToSkipCurrentNode(const unsigned short c,
|
||||
const int inputIndex, const int skipPos, const int depth);
|
||||
// Process a node by considering proximity, missing and excessive character
|
||||
bool processCurrentNode(const int initialPos, Correction *correction, int *newCount,
|
||||
int *newChildPosition, int *nextSiblingPosition, WordsPriorityQueuePool *queuePool);
|
||||
int *newChildPosition, int *nextSiblingPosition, WordsPriorityQueuePool *queuePool,
|
||||
const int currentWordIndex);
|
||||
int getMostFrequentWordLike(const int startInputIndex, const int inputLength,
|
||||
ProximityInfo *proximityInfo, unsigned short *word);
|
||||
int getMostFrequentWordLikeInner(const uint16_t* const inWord, const int length,
|
||||
|
|
|
@ -137,7 +137,7 @@ class WordsPriorityQueue {
|
|||
if (size() <= 0) {
|
||||
return;
|
||||
}
|
||||
DUMP_WORD(mSuggestions.top()->mWord, mSuggestions.top()->mWordLength);
|
||||
DUMP_WORD(mHighestSuggestedWord->mWord, mHighestSuggestedWord->mWordLength);
|
||||
}
|
||||
|
||||
double getHighestNormalizedScore(const unsigned short* before, const int beforeLength,
|
||||
|
|
|
@ -45,15 +45,21 @@ class WordsPriorityQueuePool {
|
|||
|
||||
// TODO: Come up with more generic pool
|
||||
WordsPriorityQueue* getSubQueue1(const int id) {
|
||||
if (id < 0 || id >= SUB_QUEUE_MAX_COUNT) {
|
||||
if (DEBUG_WORDS_PRIORITY_QUEUE) {
|
||||
assert(id >= 0 && id < SUB_QUEUE_MAX_COUNT);
|
||||
assert(false);
|
||||
}
|
||||
return 0;
|
||||
}
|
||||
return mSubQueues1[id];
|
||||
}
|
||||
|
||||
WordsPriorityQueue* getSubQueue2(const int id) {
|
||||
if (id < 0 || id >= SUB_QUEUE_MAX_COUNT) {
|
||||
if (DEBUG_WORDS_PRIORITY_QUEUE) {
|
||||
assert(id >= 0 && id < SUB_QUEUE_MAX_COUNT);
|
||||
assert(false);
|
||||
}
|
||||
return 0;
|
||||
}
|
||||
return mSubQueues2[id];
|
||||
}
|
||||
|
@ -66,6 +72,18 @@ class WordsPriorityQueuePool {
|
|||
}
|
||||
}
|
||||
|
||||
inline void clearSubQueue1() {
|
||||
for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
|
||||
mSubQueues1[i]->clear();
|
||||
}
|
||||
}
|
||||
|
||||
inline void clearSubQueue2() {
|
||||
for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
|
||||
mSubQueues2[i]->clear();
|
||||
}
|
||||
}
|
||||
|
||||
void dumpSubQueue1TopSuggestions() {
|
||||
AKLOGI("DUMP SUBQUEUE1 TOP SUGGESTIONS");
|
||||
for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
|
||||
|
|
Loading…
Reference in New Issue