Implement multi words suggestions step1
Change-Id: I96e8e1b0d9ccc0ed13d53c40300d8c19bcb7af5bmain
parent
38a3ad3e3c
commit
1f6b52e76c
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@ -827,11 +827,6 @@ int Correction::RankingAlgorithm::calcFreqForSplitTwoWords(
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const bool capitalizedWordDemotion =
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const bool capitalizedWordDemotion =
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firstCapitalizedWordDemotion ^ secondCapitalizedWordDemotion;
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firstCapitalizedWordDemotion ^ secondCapitalizedWordDemotion;
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if (DEBUG_DICT_FULL) {
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AKLOGI("Two words: %c, %c, %d",
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word[0], word[firstWordLength + 1], capitalizedWordDemotion);
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}
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if (firstWordLength == 0 || secondWordLength == 0) {
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if (firstWordLength == 0 || secondWordLength == 0) {
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return 0;
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return 0;
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}
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}
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@ -891,6 +886,12 @@ int Correction::RankingAlgorithm::calcFreqForSplitTwoWords(
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multiplyRate(TWO_WORDS_CAPITALIZED_DEMOTION_RATE, &totalFreq);
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multiplyRate(TWO_WORDS_CAPITALIZED_DEMOTION_RATE, &totalFreq);
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}
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}
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if (DEBUG_CORRECTION_FREQ) {
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AKLOGI("Two words (%d, %d) (%d, %d) %d, %d", firstFreq, secondFreq, firstWordLength,
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secondWordLength, capitalizedWordDemotion, totalFreq);
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DUMP_WORD(word, firstWordLength);
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}
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return totalFreq;
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return totalFreq;
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}
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}
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@ -216,15 +216,15 @@ static void prof_out(void) {
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#define SUB_QUEUE_MAX_WORDS 1
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#define SUB_QUEUE_MAX_WORDS 1
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#define SUB_QUEUE_MAX_COUNT 10
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#define SUB_QUEUE_MAX_COUNT 10
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#define SUB_QUEUE_MIN_WORD_LENGTH 4
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#define SUB_QUEUE_MIN_WORD_LENGTH 4
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#define SUB_QUEUE_MAX_WORD_INDEX 2
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#define MULTIPLE_WORDS_SUGGESTION_MAX_WORDS 2
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#define TWO_WORDS_CORRECTION_WITH_OTHER_ERROR_THRESHOLD 0.39
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#define TWO_WORDS_CORRECTION_WITH_OTHER_ERROR_THRESHOLD 0.39
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#define START_TWO_WORDS_CORRECTION_THRESHOLD 0.22
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#define START_TWO_WORDS_CORRECTION_THRESHOLD 0.22
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#define MAX_DEPTH_MULTIPLIER 3
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#define MAX_DEPTH_MULTIPLIER 3
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#define FIRST_WORD_INDEX 1
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#define FIRST_WORD_INDEX 0
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#define SECOND_WORD_INDEX 2
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#define SECOND_WORD_INDEX 1
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// TODO: Reduce this constant if possible; check the maximum number of umlauts in the same German
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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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// word in the dictionary
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@ -224,15 +224,10 @@ void UnigramDictionary::getWordSuggestions(ProximityInfo *proximityInfo,
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// Multiple word suggestions
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// Multiple word suggestions
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if (SUGGEST_MULTIPLE_WORDS
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if (SUGGEST_MULTIPLE_WORDS
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&& inputLength >= MIN_USER_TYPED_LENGTH_FOR_MULTIPLE_WORD_SUGGESTION) {
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&& inputLength >= MIN_USER_TYPED_LENGTH_FOR_MULTIPLE_WORD_SUGGESTION) {
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for (int i = 1; i < inputLength; ++i) {
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if (DEBUG_DICT) {
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AKLOGI("--- Suggest multiple words %d", i);
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}
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getSplitTwoWordsSuggestions(proximityInfo, xcoordinates, ycoordinates, codes,
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getSplitTwoWordsSuggestions(proximityInfo, xcoordinates, ycoordinates, codes,
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useFullEditDistance, inputLength, i, correction, queuePool,
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useFullEditDistance, inputLength, correction, queuePool,
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hasAutoCorrectionCandidate);
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hasAutoCorrectionCandidate);
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}
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}
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}
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PROF_END(5);
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PROF_END(5);
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PROF_START(6);
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PROF_START(6);
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@ -329,7 +324,7 @@ inline void UnigramDictionary::onTerminal(const int freq,
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int wordLength;
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int wordLength;
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unsigned short* wordPointer;
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unsigned short* wordPointer;
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if ((currentWordIndex == 1) && addToMasterQueue) {
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if ((currentWordIndex == FIRST_WORD_INDEX) && addToMasterQueue) {
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WordsPriorityQueue *masterQueue = queuePool->getMasterQueue();
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WordsPriorityQueue *masterQueue = queuePool->getMasterQueue();
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const int finalFreq = correction->getFinalFreq(freq, &wordPointer, &wordLength);
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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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if (finalFreq != NOT_A_FREQUENCY) {
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@ -377,11 +372,8 @@ bool UnigramDictionary::getSubStringSuggestion(
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const int inputWordStartPos, const int inputWordLength,
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const int inputWordStartPos, const int inputWordLength,
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const int outputWordStartPos, const bool isSpaceProximity, int *freqArray,
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const int outputWordStartPos, const bool isSpaceProximity, int *freqArray,
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int*wordLengthArray, unsigned short* outputWord, int *outputWordLength) {
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int*wordLengthArray, unsigned short* outputWord, int *outputWordLength) {
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if (DEBUG_DICT) {
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assert(currentWordIndex >= 1);
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}
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unsigned short* tempOutputWord = 0;
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unsigned short* tempOutputWord = 0;
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int tempOutputWordLength = 0;
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int nextWordLength = 0;
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// TODO: Optimize init suggestion
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// TODO: Optimize init suggestion
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initSuggestions(proximityInfo, xcoordinates, ycoordinates, codes,
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initSuggestions(proximityInfo, xcoordinates, ycoordinates, codes,
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inputLength, correction);
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inputLength, correction);
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@ -389,7 +381,7 @@ bool UnigramDictionary::getSubStringSuggestion(
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int freq = getMostFrequentWordLike(
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int freq = getMostFrequentWordLike(
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inputWordStartPos, inputWordLength, proximityInfo, mWord);
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inputWordStartPos, inputWordLength, proximityInfo, mWord);
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if (freq > 0) {
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if (freq > 0) {
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tempOutputWordLength = inputWordLength;
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nextWordLength = inputWordLength;
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tempOutputWord = mWord;
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tempOutputWord = mWord;
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} else if (!hasAutoCorrectionCandidate) {
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} else if (!hasAutoCorrectionCandidate) {
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if (inputWordStartPos > 0) {
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if (inputWordStartPos > 0) {
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@ -400,7 +392,7 @@ bool UnigramDictionary::getSubStringSuggestion(
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getSuggestionCandidates(useFullEditDistance, inputWordLength, correction,
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getSuggestionCandidates(useFullEditDistance, inputWordLength, correction,
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queuePool, false, MAX_ERRORS_FOR_TWO_WORDS, currentWordIndex);
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queuePool, false, MAX_ERRORS_FOR_TWO_WORDS, currentWordIndex);
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if (DEBUG_DICT) {
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if (DEBUG_DICT) {
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if (currentWordIndex <= SUB_QUEUE_MAX_WORD_INDEX) {
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if (currentWordIndex < MULTIPLE_WORDS_SUGGESTION_MAX_WORDS) {
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AKLOGI("Dump word candidates(%d) %d", currentWordIndex, inputWordLength);
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AKLOGI("Dump word candidates(%d) %d", currentWordIndex, inputWordLength);
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for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
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for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
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queuePool->getSubQueue(currentWordIndex, i)->dumpTopWord();
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queuePool->getSubQueue(currentWordIndex, i)->dumpTopWord();
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@ -415,59 +407,122 @@ bool UnigramDictionary::getSubStringSuggestion(
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int score = 0;
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int score = 0;
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const double ns = queue->getHighestNormalizedScore(
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const double ns = queue->getHighestNormalizedScore(
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proximityInfo->getPrimaryInputWord(), inputWordLength,
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proximityInfo->getPrimaryInputWord(), inputWordLength,
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&tempOutputWord, &score, &tempOutputWordLength);
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&tempOutputWord, &score, &nextWordLength);
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if (DEBUG_DICT) {
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if (DEBUG_DICT) {
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AKLOGI("NS(%d) = %f, Score = %d", currentWordIndex, ns, score);
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AKLOGI("NS(%d) = %f, Score = %d", currentWordIndex, ns, score);
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}
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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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// 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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// 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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|| tempOutputWordLength < SUB_QUEUE_MIN_WORD_LENGTH) {
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|| nextWordLength < SUB_QUEUE_MIN_WORD_LENGTH) {
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return false;
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return false;
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}
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}
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freq = score >> (tempOutputWordLength
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freq = score >> (nextWordLength + TWO_WORDS_PLUS_OTHER_ERROR_CORRECTION_DEMOTION_DIVIDER);
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+ TWO_WORDS_PLUS_OTHER_ERROR_CORRECTION_DEMOTION_DIVIDER);
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}
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}
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if (DEBUG_DICT) {
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if (DEBUG_DICT) {
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AKLOGI("Freq(%d): %d, length: %d, input length: %d, input start: %d"
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AKLOGI("Freq(%d): %d, length: %d, input length: %d, input start: %d (%d)"
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, currentWordIndex, freq, tempOutputWordLength, inputWordLength, inputWordStartPos);
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, currentWordIndex, freq, nextWordLength, inputWordLength, inputWordStartPos,
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wordLengthArray[0]);
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}
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}
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if (freq <= 0 || tempOutputWordLength <= 0
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if (freq <= 0 || nextWordLength <= 0
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|| MAX_WORD_LENGTH <= (outputWordStartPos + tempOutputWordLength)) {
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|| MAX_WORD_LENGTH <= (outputWordStartPos + nextWordLength)) {
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return false;
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return false;
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}
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}
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for (int i = 0; i < tempOutputWordLength; ++i) {
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for (int i = 0; i < nextWordLength; ++i) {
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outputWord[outputWordStartPos + i] = tempOutputWord[i];
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outputWord[outputWordStartPos + i] = tempOutputWord[i];
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}
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}
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// Put output values
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// Put output values
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freqArray[currentWordIndex - 1] = freq;
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freqArray[currentWordIndex] = freq;
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// TODO: put output length instead of input length
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// TODO: put output length instead of input length
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wordLengthArray[currentWordIndex - 1] = inputWordLength;
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wordLengthArray[currentWordIndex] = inputWordLength;
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*outputWordLength = outputWordStartPos + tempOutputWordLength;
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const int tempOutputWordLength = outputWordStartPos + nextWordLength;
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if (outputWordLength) {
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*outputWordLength = tempOutputWordLength;
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}
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if ((inputWordStartPos + inputWordLength) < inputLength) {
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if ((inputWordStartPos + inputWordLength) < inputLength) {
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if (outputWordStartPos + tempOutputWordLength >= MAX_WORD_LENGTH) {
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if (outputWordStartPos + nextWordLength >= MAX_WORD_LENGTH) {
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return false;
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return false;
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}
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}
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outputWord[outputWordStartPos + tempOutputWordLength] = SPACE;
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outputWord[outputWordStartPos + tempOutputWordLength] = SPACE;
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if (outputWordLength) {
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++*outputWordLength;
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++*outputWordLength;
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} else if (currentWordIndex >= 2) {
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}
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} else if (currentWordIndex >= 1) {
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// TODO: Handle 3 or more words
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// TODO: Handle 3 or more words
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const int pairFreq = correction->getFreqForSplitTwoWords(
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const int pairFreq = correction->getFreqForSplitTwoWords(
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freqArray, wordLengthArray, isSpaceProximity, outputWord);
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freqArray, wordLengthArray, isSpaceProximity, outputWord);
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if (DEBUG_DICT) {
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if (DEBUG_DICT) {
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AKLOGI("Split two words: %d, %d, %d, %d", freqArray[0], freqArray[1], pairFreq,
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AKLOGI("Split two words: %d, %d, %d, %d, (%d)", freqArray[0], freqArray[1], pairFreq,
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inputLength);
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inputLength, wordLengthArray[0]);
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}
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}
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addWord(outputWord, *outputWordLength, pairFreq, queuePool->getMasterQueue());
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addWord(outputWord, tempOutputWordLength, pairFreq, queuePool->getMasterQueue());
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}
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}
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return true;
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return true;
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}
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}
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void UnigramDictionary::getMultiWordsSuggestionRec(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,
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Correction *correction, WordsPriorityQueuePool* queuePool,
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const bool hasAutoCorrectionCandidate, const int startInputPos, const int startWordIndex,
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const int outputWordLength, int *freqArray, int* wordLengthArray,
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unsigned short* outputWord) {
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if (startWordIndex >= (MULTIPLE_WORDS_SUGGESTION_MAX_WORDS - 1)) {
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// Return if the last word index
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return;
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}
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for (int i = 1; i < inputLength; ++i) {
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int tempOutputWordLength = 0;
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// First word
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int inputWordStartPos = 0;
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int inputWordLength = i;
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if (DEBUG_CORRECTION_FREQ) {
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AKLOGI("Two words, %d", inputWordLength);
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}
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if (!getSubStringSuggestion(proximityInfo, xcoordinates, ycoordinates, codes,
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useFullEditDistance, correction, queuePool, inputLength, hasAutoCorrectionCandidate,
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FIRST_WORD_INDEX, inputWordStartPos, inputWordLength, 0, true /* not used */,
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freqArray, wordLengthArray, outputWord, &tempOutputWordLength)) {
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continue;
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}
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// Second word
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// Missing space
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inputWordStartPos = i;
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inputWordLength = inputLength - i;
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getSubStringSuggestion(proximityInfo, xcoordinates, ycoordinates, codes,
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useFullEditDistance, correction, queuePool, inputLength, hasAutoCorrectionCandidate,
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SECOND_WORD_INDEX, inputWordStartPos, inputWordLength, tempOutputWordLength,
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false /* missing space */, freqArray, wordLengthArray, outputWord,
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0);
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// Mistyped space
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++inputWordStartPos;
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--inputWordLength;
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if (inputWordLength <= 0) {
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continue;
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}
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const int x = xcoordinates[inputWordStartPos - 1];
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const int y = ycoordinates[inputWordStartPos - 1];
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if (!proximityInfo->hasSpaceProximity(x, y)) {
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continue;
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}
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getSubStringSuggestion(proximityInfo, xcoordinates, ycoordinates, codes,
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useFullEditDistance, correction, queuePool, inputLength, hasAutoCorrectionCandidate,
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SECOND_WORD_INDEX, inputWordStartPos, inputWordLength, tempOutputWordLength,
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true /* mistyped space */, freqArray, wordLengthArray, outputWord,
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0);
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}
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}
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void UnigramDictionary::getSplitTwoWordsSuggestions(ProximityInfo *proximityInfo,
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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 int *xcoordinates, const int *ycoordinates, const int *codes,
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const bool useFullEditDistance, const int inputLength, const int wordDivideIndex,
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const bool useFullEditDistance, const int inputLength,
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Correction *correction, WordsPriorityQueuePool* queuePool,
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Correction *correction, WordsPriorityQueuePool* queuePool,
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const bool hasAutoCorrectionCandidate) {
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const bool hasAutoCorrectionCandidate) {
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if (inputLength >= MAX_WORD_LENGTH) return;
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if (inputLength >= MAX_WORD_LENGTH) return;
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@ -475,51 +530,21 @@ void UnigramDictionary::getSplitTwoWordsSuggestions(ProximityInfo *proximityInfo
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// MAX_PROXIMITY_CHARS_SIZE in ProximityInfo.java should be 16
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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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assert(MAX_PROXIMITY_CHARS == 16);
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}
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}
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if (DEBUG_DICT) {
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AKLOGI("--- Suggest multiple words");
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}
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// Allocating fixed length array on stack
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// Allocating fixed length array on stack
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unsigned short outputWord[MAX_WORD_LENGTH];
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unsigned short outputWord[MAX_WORD_LENGTH];
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int freqArray[SUB_QUEUE_MAX_WORD_INDEX];
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int freqArray[MULTIPLE_WORDS_SUGGESTION_MAX_WORDS];
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int wordLengthArray[SUB_QUEUE_MAX_WORD_INDEX];
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int wordLengthArray[MULTIPLE_WORDS_SUGGESTION_MAX_WORDS];
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int outputWordLength = 0;
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const int outputWordLength = 0;
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const int startInputPos = 0;
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// First word
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const int startWordIndex = 0;
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int inputWordStartPos = 0;
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getMultiWordsSuggestionRec(proximityInfo, xcoordinates, ycoordinates, codes,
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int inputWordLength = wordDivideIndex;
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useFullEditDistance, inputLength, correction, queuePool, hasAutoCorrectionCandidate,
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if (!getSubStringSuggestion(proximityInfo, xcoordinates, ycoordinates, codes,
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startInputPos, startWordIndex, outputWordLength, freqArray, wordLengthArray,
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useFullEditDistance, correction, queuePool, inputLength, hasAutoCorrectionCandidate,
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outputWord);
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FIRST_WORD_INDEX, inputWordStartPos, inputWordLength, 0, true /* not used */,
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freqArray, wordLengthArray, outputWord, &outputWordLength)) {
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return;
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}
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const int tempOutputWordLength = outputWordLength;
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// Second word
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// Missing space
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inputWordStartPos = wordDivideIndex;
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inputWordLength = inputLength - wordDivideIndex;
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getSubStringSuggestion(proximityInfo, xcoordinates, ycoordinates, codes,
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useFullEditDistance, correction, queuePool, inputLength, hasAutoCorrectionCandidate,
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SECOND_WORD_INDEX, inputWordStartPos, inputWordLength, tempOutputWordLength,
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false /* missing space */, freqArray, wordLengthArray, outputWord, &outputWordLength);
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// Mistyped space
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++inputWordStartPos;
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--inputWordLength;
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if (inputWordLength <= 0) {
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return;
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}
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const int x = xcoordinates[inputWordStartPos - 1];
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const int y = ycoordinates[inputWordStartPos - 1];
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if (!proximityInfo->hasSpaceProximity(x, y)) {
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return;
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}
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getSubStringSuggestion(proximityInfo, xcoordinates, ycoordinates, codes,
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useFullEditDistance, correction, queuePool, inputLength, hasAutoCorrectionCandidate,
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SECOND_WORD_INDEX, inputWordStartPos, inputWordLength, tempOutputWordLength,
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|
||||||
true /* mistyped space */, freqArray, wordLengthArray, outputWord, &outputWordLength);
|
|
||||||
}
|
}
|
||||||
|
|
||||||
// Wrapper for getMostFrequentWordLikeInner, which matches it to the previous
|
// Wrapper for getMostFrequentWordLikeInner, which matches it to the previous
|
||||||
|
|
|
@ -103,7 +103,7 @@ class UnigramDictionary {
|
||||||
const int currentWordIndex);
|
const int currentWordIndex);
|
||||||
void getSplitTwoWordsSuggestions(ProximityInfo *proximityInfo,
|
void getSplitTwoWordsSuggestions(ProximityInfo *proximityInfo,
|
||||||
const int *xcoordinates, const int *ycoordinates, const int *codes,
|
const int *xcoordinates, const int *ycoordinates, const int *codes,
|
||||||
const bool useFullEditDistance, const int inputLength, const int wordDivideIndex,
|
const bool useFullEditDistance, const int inputLength,
|
||||||
Correction *correction, WordsPriorityQueuePool* queuePool,
|
Correction *correction, WordsPriorityQueuePool* queuePool,
|
||||||
const bool hasAutoCorrectionCandidate);
|
const bool hasAutoCorrectionCandidate);
|
||||||
void onTerminal(const int freq, const TerminalAttributes& terminalAttributes,
|
void onTerminal(const int freq, const TerminalAttributes& terminalAttributes,
|
||||||
|
@ -127,6 +127,13 @@ class UnigramDictionary {
|
||||||
const int inputWordStartPos, const int inputWordLength,
|
const int inputWordStartPos, const int inputWordLength,
|
||||||
const int outputWordStartPos, const bool isSpaceProximity, int *freqArray,
|
const int outputWordStartPos, const bool isSpaceProximity, int *freqArray,
|
||||||
int *wordLengthArray, unsigned short* outputWord, int *outputWordLength);
|
int *wordLengthArray, unsigned short* outputWord, int *outputWordLength);
|
||||||
|
void getMultiWordsSuggestionRec(ProximityInfo *proximityInfo,
|
||||||
|
const int *xcoordinates, const int *ycoordinates, const int *codes,
|
||||||
|
const bool useFullEditDistance, const int inputLength,
|
||||||
|
Correction *correction, WordsPriorityQueuePool* queuePool,
|
||||||
|
const bool hasAutoCorrectionCandidate, const int startPos, const int startWordIndex,
|
||||||
|
const int outputWordLength, int *freqArray, int* wordLengthArray,
|
||||||
|
unsigned short* outputWord);
|
||||||
|
|
||||||
const uint8_t* const DICT_ROOT;
|
const uint8_t* const DICT_ROOT;
|
||||||
const int MAX_WORD_LENGTH;
|
const int MAX_WORD_LENGTH;
|
||||||
|
|
|
@ -27,11 +27,10 @@ class WordsPriorityQueuePool {
|
||||||
public:
|
public:
|
||||||
WordsPriorityQueuePool(int mainQueueMaxWords, int subQueueMaxWords, int maxWordLength) {
|
WordsPriorityQueuePool(int mainQueueMaxWords, int subQueueMaxWords, int maxWordLength) {
|
||||||
mMasterQueue = new(mMasterQueueBuf) WordsPriorityQueue(mainQueueMaxWords, maxWordLength);
|
mMasterQueue = new(mMasterQueueBuf) WordsPriorityQueue(mainQueueMaxWords, maxWordLength);
|
||||||
for (int i = 0, subQueueBufOffset = 0; i < SUB_QUEUE_MAX_COUNT;
|
for (int i = 0, subQueueBufOffset = 0;
|
||||||
|
i < MULTIPLE_WORDS_SUGGESTION_MAX_WORDS * SUB_QUEUE_MAX_COUNT;
|
||||||
++i, subQueueBufOffset += sizeof(WordsPriorityQueue)) {
|
++i, subQueueBufOffset += sizeof(WordsPriorityQueue)) {
|
||||||
mSubQueues1[i] = new(mSubQueueBuf1 + subQueueBufOffset)
|
mSubQueues[i] = new(mSubQueueBuf + subQueueBufOffset)
|
||||||
WordsPriorityQueue(subQueueMaxWords, maxWordLength);
|
|
||||||
mSubQueues2[i] = new(mSubQueueBuf2 + subQueueBufOffset)
|
|
||||||
WordsPriorityQueue(subQueueMaxWords, maxWordLength);
|
WordsPriorityQueue(subQueueMaxWords, maxWordLength);
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
@ -44,7 +43,7 @@ class WordsPriorityQueuePool {
|
||||||
}
|
}
|
||||||
|
|
||||||
WordsPriorityQueue* getSubQueue(const int wordIndex, const int inputWordLength) {
|
WordsPriorityQueue* getSubQueue(const int wordIndex, const int inputWordLength) {
|
||||||
if (wordIndex > SUB_QUEUE_MAX_WORD_INDEX) {
|
if (wordIndex >= MULTIPLE_WORDS_SUGGESTION_MAX_WORDS) {
|
||||||
return 0;
|
return 0;
|
||||||
}
|
}
|
||||||
if (inputWordLength < 0 || inputWordLength >= SUB_QUEUE_MAX_COUNT) {
|
if (inputWordLength < 0 || inputWordLength >= SUB_QUEUE_MAX_COUNT) {
|
||||||
|
@ -53,30 +52,21 @@ class WordsPriorityQueuePool {
|
||||||
}
|
}
|
||||||
return 0;
|
return 0;
|
||||||
}
|
}
|
||||||
// TODO: Come up with more generic pool
|
return mSubQueues[wordIndex * SUB_QUEUE_MAX_COUNT + inputWordLength];
|
||||||
if (wordIndex == 1) {
|
|
||||||
return mSubQueues1[inputWordLength];
|
|
||||||
} else if (wordIndex == 2) {
|
|
||||||
return mSubQueues2[inputWordLength];
|
|
||||||
} else {
|
|
||||||
return 0;
|
|
||||||
}
|
|
||||||
}
|
}
|
||||||
|
|
||||||
inline void clearAll() {
|
inline void clearAll() {
|
||||||
mMasterQueue->clear();
|
mMasterQueue->clear();
|
||||||
for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
|
for (int i = 0; i < MULTIPLE_WORDS_SUGGESTION_MAX_WORDS; ++i) {
|
||||||
mSubQueues1[i]->clear();
|
clearSubQueue(i);
|
||||||
mSubQueues2[i]->clear();
|
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
inline void clearSubQueue(const int wordIndex) {
|
inline void clearSubQueue(const int wordIndex) {
|
||||||
for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
|
for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
|
||||||
if (wordIndex == 1) {
|
WordsPriorityQueue* queue = getSubQueue(wordIndex, i);
|
||||||
mSubQueues1[i]->clear();
|
if (queue) {
|
||||||
} else if (wordIndex == 2) {
|
queue->clear();
|
||||||
mSubQueues2[i]->clear();
|
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
@ -84,17 +74,16 @@ class WordsPriorityQueuePool {
|
||||||
void dumpSubQueue1TopSuggestions() {
|
void dumpSubQueue1TopSuggestions() {
|
||||||
AKLOGI("DUMP SUBQUEUE1 TOP SUGGESTIONS");
|
AKLOGI("DUMP SUBQUEUE1 TOP SUGGESTIONS");
|
||||||
for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
|
for (int i = 0; i < SUB_QUEUE_MAX_COUNT; ++i) {
|
||||||
mSubQueues1[i]->dumpTopWord();
|
getSubQueue(0, i)->dumpTopWord();
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
private:
|
private:
|
||||||
WordsPriorityQueue* mMasterQueue;
|
WordsPriorityQueue* mMasterQueue;
|
||||||
WordsPriorityQueue* mSubQueues1[SUB_QUEUE_MAX_COUNT];
|
WordsPriorityQueue* mSubQueues[SUB_QUEUE_MAX_COUNT * MULTIPLE_WORDS_SUGGESTION_MAX_WORDS];
|
||||||
WordsPriorityQueue* mSubQueues2[SUB_QUEUE_MAX_COUNT];
|
|
||||||
char mMasterQueueBuf[sizeof(WordsPriorityQueue)];
|
char mMasterQueueBuf[sizeof(WordsPriorityQueue)];
|
||||||
char mSubQueueBuf1[SUB_QUEUE_MAX_COUNT * sizeof(WordsPriorityQueue)];
|
char mSubQueueBuf[MULTIPLE_WORDS_SUGGESTION_MAX_WORDS
|
||||||
char mSubQueueBuf2[SUB_QUEUE_MAX_COUNT * sizeof(WordsPriorityQueue)];
|
* SUB_QUEUE_MAX_COUNT * sizeof(WordsPriorityQueue)];
|
||||||
};
|
};
|
||||||
}
|
}
|
||||||
|
|
||||||
|
|
Loading…
Reference in New Issue