Merge "Suggest words with missing space"
This commit is contained in:
commit
71890a78b0
5 changed files with 164 additions and 84 deletions
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@ -30,8 +30,8 @@ BigramDictionary::BigramDictionary(const unsigned char *dict, int maxWordLength,
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: DICT(dict), MAX_WORD_LENGTH(maxWordLength),
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MAX_ALTERNATIVES(maxAlternatives), IS_LATEST_DICT_VERSION(isLatestDictVersion),
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HAS_BIGRAM(hasBigram), mParentDictionary(parentDictionary) {
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LOGI("BigramDictionary - constructor");
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LOGI("Has Bigram : %d \n", hasBigram);
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if (DEBUG_DICT) LOGI("BigramDictionary - constructor");
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if (DEBUG_DICT) LOGI("Has Bigram : %d \n", hasBigram);
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}
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BigramDictionary::~BigramDictionary() {
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@ -54,7 +54,7 @@ bool BigramDictionary::addWordBigram(unsigned short *word, int length, int frequ
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}
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insertAt++;
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}
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LOGI("Bigram: InsertAt -> %d maxBigrams: %d\n", insertAt, mMaxBigrams);
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if (DEBUG_DICT) LOGI("Bigram: InsertAt -> %d maxBigrams: %d\n", insertAt, mMaxBigrams);
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if (insertAt < mMaxBigrams) {
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memmove((char*) mBigramFreq + (insertAt + 1) * sizeof(mBigramFreq[0]),
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(char*) mBigramFreq + insertAt * sizeof(mBigramFreq[0]),
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@ -107,7 +107,7 @@ int BigramDictionary::getBigrams(unsigned short *prevWord, int prevWordLength, i
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if (HAS_BIGRAM && IS_LATEST_DICT_VERSION) {
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int pos = mParentDictionary->isValidWordRec(
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DICTIONARY_HEADER_SIZE, prevWord, 0, prevWordLength);
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LOGI("Pos -> %d\n", pos);
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if (DEBUG_DICT) LOGI("Pos -> %d\n", pos);
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if (pos < 0) {
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return 0;
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}
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@ -151,7 +151,7 @@ void BigramDictionary::searchForTerminalNode(int addressLookingFor, int frequenc
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}
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pos = followDownBranchAddress; // pos start at count
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int count = DICT[pos] & 0xFF;
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LOGI("count - %d\n",count);
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if (DEBUG_DICT) LOGI("count - %d\n",count);
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pos++;
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for (int i = 0; i < count; i++) {
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// pos at data
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@ -225,7 +225,7 @@ void BigramDictionary::searchForTerminalNode(int addressLookingFor, int frequenc
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}
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depth++;
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if (followDownBranchAddress == 0) {
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LOGI("ERROR!!! Cannot find bigram!!");
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if (DEBUG_DICT) LOGI("ERROR!!! Cannot find bigram!!");
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break;
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}
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}
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@ -31,6 +31,10 @@
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#define DEBUG_SHOW_FOUND_WORD false
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#endif // FLAG_DBG
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#ifndef U_SHORT_MAX
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#define U_SHORT_MAX 1 << 16
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#endif
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// 22-bit address = ~4MB dictionary size limit, which on average would be about 200k-300k words
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#define ADDRESS_MASK 0x3FFFFF
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@ -49,9 +53,9 @@
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#define DICTIONARY_HEADER_SIZE 2
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#define NOT_VALID_WORD -99
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#define SUGGEST_MISSING_CHARACTERS true
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#define SUGGEST_EXCESSIVE_CHARACTERS true
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#define SUGGEST_WORDS_WITH_MISSING_CHARACTER true
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#define SUGGEST_WORDS_WITH_MISSING_SPACE_CHARACTER true
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#define SUGGEST_WORDS_WITH_EXCESSIVE_CHARACTER true
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// This should be greater than or equal to MAX_WORD_LENGTH defined in BinaryDictionary.java
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// This is only used for the size of array. Not to be used in c functions.
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@ -59,6 +63,8 @@
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#define MAX_DEPTH_MULTIPLIER 3
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#define MIN_SUGGEST_DEPTH 2
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#define min(a,b) ((a)<(b)?(a):(b))
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#endif // LATINIME_DEFINES_H
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@ -27,20 +27,21 @@ Dictionary::Dictionary(void *dict, int typedLetterMultiplier, int fullWordMultip
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int maxWordLength, int maxWords, int maxAlternatives)
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: DICT((unsigned char*) dict),
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// Checks whether it has the latest dictionary or the old dictionary
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IS_LATEST_DICT_VERSION((((unsigned char*) dict)[0] & 0xFF) >= DICTIONARY_VERSION_MIN)
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{
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IS_LATEST_DICT_VERSION((((unsigned char*) dict)[0] & 0xFF) >= DICTIONARY_VERSION_MIN) {
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if (DEBUG_DICT) {
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if (MAX_WORD_LENGTH_INTERNAL < maxWordLength) {
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LOGI("Max word length (%d) is greater than %d", maxWordLength, MAX_WORD_LENGTH_INTERNAL);
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}
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LOGI("Max word length (%d) is greater than %d",
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maxWordLength, MAX_WORD_LENGTH_INTERNAL);
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LOGI("IN NATIVE SUGGEST Version: %d \n", (DICT[0] & 0xFF));
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}
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}
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mUnigramDictionary = new UnigramDictionary(DICT, typedLetterMultiplier, fullWordMultiplier,
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maxWordLength, maxWords, maxAlternatives, IS_LATEST_DICT_VERSION);
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mBigramDictionary = new BigramDictionary(DICT, maxWordLength, maxAlternatives,
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IS_LATEST_DICT_VERSION, hasBigram(), this);
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}
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Dictionary::~Dictionary()
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{
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Dictionary::~Dictionary() {
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delete mUnigramDictionary;
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delete mBigramDictionary;
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}
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@ -30,11 +30,12 @@
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namespace latinime {
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UnigramDictionary::UnigramDictionary(const unsigned char *dict, int typedLetterMultiplier,
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int fullWordMultiplier, int maxWordLength, int maxWords, int maxAlternatives,
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int fullWordMultiplier, int maxWordLength, int maxWords, int maxProximityChars,
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const bool isLatestDictVersion)
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: DICT(dict), MAX_WORD_LENGTH(maxWordLength),MAX_WORDS(maxWords),
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MAX_ALTERNATIVES(maxAlternatives), IS_LATEST_DICT_VERSION(isLatestDictVersion),
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TYPED_LETTER_MULTIPLIER(typedLetterMultiplier), FULL_WORD_MULTIPLIER(fullWordMultiplier) {
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MAX_PROXIMITY_CHARS(maxProximityChars), IS_LATEST_DICT_VERSION(isLatestDictVersion),
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TYPED_LETTER_MULTIPLIER(typedLetterMultiplier), FULL_WORD_MULTIPLIER(fullWordMultiplier),
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ROOT_POS(isLatestDictVersion ? DICTIONARY_HEADER_SIZE : 0) {
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LOGI("UnigramDictionary - constructor");
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}
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@ -43,35 +44,37 @@ UnigramDictionary::~UnigramDictionary() {}
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int UnigramDictionary::getSuggestions(int *codes, int codesSize, unsigned short *outWords,
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int *frequencies, int *nextLetters, int nextLettersSize)
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{
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initSuggestions(codes, codesSize, outWords, frequencies);
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getSuggestionCandidates(codesSize, -1, -1, nextLetters, nextLettersSize);
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int suggestedWordsCount = getSuggestionCandidates(codesSize, -1, -1, nextLetters,
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nextLettersSize);
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// If there aren't sufficient suggestions, search for words by allowing wild cards at
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// the different character positions. This feature is not ready for prime-time as we need
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// to figure out the best ranking for such words compared to proximity corrections and
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// completions.
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if (SUGGEST_MISSING_CHARACTERS) {
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// Suggestion with missing character
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if (SUGGEST_WORDS_WITH_MISSING_CHARACTER) {
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for (int i = 0; i < codesSize; ++i) {
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if (DEBUG_DICT) LOGI("--- Suggest missing characters %d", i);
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const int tempCount = getSuggestionCandidates(codesSize, i, -1, NULL, 0);
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if (tempCount > suggestedWordsCount) {
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suggestedWordsCount = tempCount;
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}
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getSuggestionCandidates(codesSize, i, -1, NULL, 0);
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}
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}
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// Suggest excessive characters
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if (SUGGEST_EXCESSIVE_CHARACTERS) {
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// Suggestion with excessive character
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if (SUGGEST_WORDS_WITH_EXCESSIVE_CHARACTER) {
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for (int i = 0; i < codesSize; ++i) {
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if (DEBUG_DICT) LOGI("--- Suggest excessive characters %d", i);
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const int tempCount = getSuggestionCandidates(codesSize, -1, i, NULL, 0);
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if (tempCount > suggestedWordsCount) {
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suggestedWordsCount = tempCount;
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getSuggestionCandidates(codesSize, -1, i, NULL, 0);
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}
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}
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// Suggestions with missing space
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if (SUGGEST_WORDS_WITH_MISSING_SPACE_CHARACTER) {
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for (int i = 1; i < codesSize; ++i) {
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if (DEBUG_DICT) LOGI("--- Suggest missing space characters %d", i);
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getMissingSpaceWords(mInputLength, i);
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}
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}
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// Get the word count
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int suggestedWordsCount = 0;
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while (suggestedWordsCount < MAX_WORDS && mFrequencies[suggestedWordsCount] > 0) {
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suggestedWordsCount++;
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}
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if (DEBUG_DICT) {
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@ -84,6 +87,7 @@ int UnigramDictionary::getSuggestions(int *codes, int codesSize, unsigned short
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}
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LOGI("\n");
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}
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return suggestedWordsCount;
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}
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@ -97,23 +101,6 @@ void UnigramDictionary::initSuggestions(int *codes, int codesSize, unsigned shor
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mMaxEditDistance = mInputLength < 5 ? 2 : mInputLength / 2;
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}
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int UnigramDictionary::getSuggestionCandidates(int inputLength, int skipPos, int excessivePos,
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int *nextLetters, int nextLettersSize) {
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if (DEBUG_DICT) LOGI("getSuggestionCandidates");
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int initialPos = 0;
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if (IS_LATEST_DICT_VERSION) {
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initialPos = DICTIONARY_HEADER_SIZE;
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}
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getWords(initialPos, inputLength, skipPos, excessivePos, nextLetters, nextLettersSize);
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// Get the word count
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int suggestedWordsCount = 0;
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while (suggestedWordsCount < MAX_WORDS && mFrequencies[suggestedWordsCount] > 0) {
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suggestedWordsCount++;
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}
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return suggestedWordsCount;
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}
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void UnigramDictionary::registerNextLetter(
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unsigned short c, int *nextLetters, int nextLettersSize) {
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if (c < nextLettersSize) {
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@ -121,12 +108,13 @@ void UnigramDictionary::registerNextLetter(
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}
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}
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// TODO: We need to optimize addWord by using STL or something
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bool UnigramDictionary::addWord(unsigned short *word, int length, int frequency) {
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word[length] = 0;
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if (DEBUG_DICT) {
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if (DEBUG_DICT && DEBUG_SHOW_FOUND_WORD) {
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char s[length + 1];
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for (int i = 0; i <= length; i++) s[i] = word[i];
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if (DEBUG_SHOW_FOUND_WORD) LOGI("Found word = %s, freq = %d : \n", s, frequency);
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LOGI("Found word = %s, freq = %d", s, frequency);
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}
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if (length > MAX_WORD_LENGTH) {
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if (DEBUG_DICT) LOGI("Exceeded max word length.");
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@ -146,7 +134,7 @@ bool UnigramDictionary::addWord(unsigned short *word, int length, int frequency)
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if (DEBUG_DICT) {
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char s[length + 1];
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for (int i = 0; i <= length; i++) s[i] = word[i];
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LOGI("Added word = %s, freq = %d : \n", s, frequency);
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LOGI("Added word = %s, freq = %d", s, frequency);
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}
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memmove((char*) mFrequencies + (insertAt + 1) * sizeof(mFrequencies[0]),
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(char*) mFrequencies + insertAt * sizeof(mFrequencies[0]),
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@ -160,7 +148,7 @@ bool UnigramDictionary::addWord(unsigned short *word, int length, int frequency)
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*dest++ = *word++;
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}
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*dest = 0; // NULL terminate
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if (DEBUG_DICT) LOGI("Added word at %d\n", insertAt);
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if (DEBUG_DICT) LOGI("Added word at %d", insertAt);
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return true;
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}
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return false;
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@ -187,27 +175,19 @@ bool UnigramDictionary::sameAsTyped(unsigned short *word, int length) {
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if ((unsigned int) *inputCodes != (unsigned int) *word) {
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return false;
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}
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inputCodes += MAX_ALTERNATIVES;
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inputCodes += MAX_PROXIMITY_CHARS;
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word++;
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}
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return true;
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}
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static const char QUOTE = '\'';
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static const char SPACE = ' ';
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// Keep this for comparing spec to new getWords
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void UnigramDictionary::getWordsOld(const int initialPos, const int inputLength, const int skipPos,
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void UnigramDictionary::getSuggestionCandidates(const int inputLength, const int skipPos,
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const int excessivePos, int *nextLetters, const int nextLettersSize) {
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int initialPosition = initialPos;
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const int count = Dictionary::getCount(DICT, &initialPosition);
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getWordsRec(count, initialPosition, 0,
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min(inputLength * MAX_DEPTH_MULTIPLIER, MAX_WORD_LENGTH),
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mInputLength <= 0, 1, 0, 0, skipPos, excessivePos, nextLetters, nextLettersSize);
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}
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void UnigramDictionary::getWords(const int rootPos, const int inputLength, const int skipPos,
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const int excessivePos, int *nextLetters, const int nextLettersSize) {
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int rootPosition = rootPos;
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if (DEBUG_DICT) LOGI("getSuggestionCandidates");
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int rootPosition = ROOT_POS;
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const int MAX_DEPTH = min(inputLength * MAX_DEPTH_MULTIPLIER, MAX_WORD_LENGTH);
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// Get the number of child of root, then increment the position
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int childCount = Dictionary::getCount(DICT, &rootPosition);
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@ -220,6 +200,7 @@ void UnigramDictionary::getWords(const int rootPos, const int inputLength, const
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mStackDiffs[0] = 0;
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mStackSiblingPos[0] = rootPosition;
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// Depth first search
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while (depth >= 0) {
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if (mStackChildCount[depth] > 0) {
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--mStackChildCount[depth];
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@ -235,7 +216,7 @@ void UnigramDictionary::getWords(const int rootPos, const int inputLength, const
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MAX_DEPTH, traverseAllNodes, snr, inputIndex, diffs, skipPos, excessivePos,
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nextLetters, nextLettersSize, &childCount, &firstChildPos, &traverseAllNodes,
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&snr, &inputIndex, &diffs, &siblingPos);
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// Next sibling pos
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// Update next sibling pos
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mStackSiblingPos[depth] = siblingPos;
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if (needsToTraverseChildrenNodes) {
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// Goes to child node
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@ -254,7 +235,48 @@ void UnigramDictionary::getWords(const int rootPos, const int inputLength, const
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}
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}
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// snr : frequency?
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bool UnigramDictionary::getMissingSpaceWords(const int inputLength, const int missingSpacePos) {
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if (missingSpacePos <= 0 || missingSpacePos >= inputLength) return false;
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const int firstFreq = getWordFreq(0, missingSpacePos);
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const int secondFreq = getWordFreq(missingSpacePos, inputLength - missingSpacePos);
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if (DEBUG_DICT) LOGI("First freq: %d, Second freq: %d", firstFreq, secondFreq);
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if (firstFreq <= 0 || secondFreq <= 0) return false;
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int pairFreq = (firstFreq + secondFreq) / 2;
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for (int i = 0; i < inputLength; ++i) pairFreq *= TYPED_LETTER_MULTIPLIER;
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const int newWordLength = inputLength + 1;
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// Allocating variable length array on stack
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unsigned short word[newWordLength];
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int j = 0;
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for (int i = 0; i < missingSpacePos; ++i) {
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// Down-casting
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if (DEBUG_DICT) {
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assert((*(mInputCodes + i * MAX_PROXIMITY_CHARS)) <= U_SHORT_MAX);
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}
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word[i] = (unsigned short) *(mInputCodes + i * MAX_PROXIMITY_CHARS);
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}
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word[missingSpacePos] = SPACE;
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for (int i = (missingSpacePos + 1); i < newWordLength; ++i) {
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// Down-casting
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if (DEBUG_DICT) {
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assert((*(mInputCodes + (i - 1) * MAX_PROXIMITY_CHARS)) <= U_SHORT_MAX);
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}
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word[i] = (unsigned short) *(mInputCodes + (i - 1) * MAX_PROXIMITY_CHARS);
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}
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addWord(word, newWordLength, pairFreq);
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return true;
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}
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// Keep this for comparing spec to new getWords
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void UnigramDictionary::getWordsOld(const int initialPos, const int inputLength, const int skipPos,
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const int excessivePos, int *nextLetters, const int nextLettersSize) {
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int initialPosition = initialPos;
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const int count = Dictionary::getCount(DICT, &initialPosition);
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getWordsRec(count, initialPosition, 0,
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min(inputLength * MAX_DEPTH_MULTIPLIER, MAX_WORD_LENGTH),
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mInputLength <= 0, 1, 0, 0, skipPos, excessivePos, nextLetters, nextLettersSize);
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}
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void UnigramDictionary::getWordsRec(const int childrenCount, const int pos, const int depth,
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const int maxDepth, const bool traverseAllNodes, const int snr, const int inputIndex,
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const int diffs, const int skipPos, const int excessivePos, int *nextLetters,
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@ -287,7 +309,7 @@ void UnigramDictionary::getWordsRec(const int childrenCount, const int pos, cons
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inline void UnigramDictionary::onTerminalWhenUserTypedLengthIsGreaterThanInputLength(
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unsigned short *word, const int inputLength, const int depth, const int snr,
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int *nextLetters, const int nextLettersSize, const int skipPos, const int freq) {
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addWord(word, depth + 1, freq * snr);
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if (depth >= MIN_SUGGEST_DEPTH) addWord(word, depth + 1, freq * snr);
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if (depth >= inputLength && skipPos < 0) {
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registerNextLetter(mWord[mInputLength], nextLetters, nextLettersSize);
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}
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@ -301,13 +323,13 @@ inline void UnigramDictionary::onTerminalWhenUserTypedLengthIsSameAsInputLength(
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// Proximity collection will promote a word of the same length as
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// what user typed.
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if (skipPos < 0) finalFreq *= FULL_WORD_MULTIPLIER;
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addWord(word, depth + 1, finalFreq);
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if (depth >= MIN_SUGGEST_DEPTH) addWord(word, depth + 1, finalFreq);
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}
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}
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inline bool UnigramDictionary::needsToSkipCurrentNode(const unsigned short c,
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const int inputIndex, const int skipPos, const int depth) {
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const unsigned short userTypedChar = (mInputCodes + (inputIndex * MAX_ALTERNATIVES))[0];
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const unsigned short userTypedChar = (mInputCodes + (inputIndex * MAX_PROXIMITY_CHARS))[0];
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// Skip the ' or other letter and continue deeper
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return (c == QUOTE && userTypedChar != QUOTE) || skipPos == depth;
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}
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@ -361,7 +383,7 @@ inline bool UnigramDictionary::processCurrentNode(const int pos, const int depth
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*newDiffs = diffs;
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*newInputIndex = inputIndex;
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} else {
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int *currentChars = mInputCodes + (inputIndex * MAX_ALTERNATIVES);
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int *currentChars = mInputCodes + (inputIndex * MAX_PROXIMITY_CHARS);
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int matchedProximityCharId = getMatchedProximityId(currentChars, c, skipPos);
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if (matchedProximityCharId < 0) return false;
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mWord[depth] = c;
|
||||
|
@ -396,4 +418,48 @@ inline bool UnigramDictionary::processCurrentNode(const int pos, const int depth
|
|||
return needsToTraverseChildrenNodes;
|
||||
}
|
||||
|
||||
inline int UnigramDictionary::getWordFreq(const int startInputIndex, const int inputLength) {
|
||||
int pos = ROOT_POS;
|
||||
int count = Dictionary::getCount(DICT, &pos);
|
||||
int freq = 0;
|
||||
bool terminal = false;
|
||||
|
||||
for (int i = 0; i < inputLength; ++i) {
|
||||
bool needsToTraverseChildrenNodes = processCurrentNodeForExactMatch(pos, count,
|
||||
startInputIndex + i, &pos, &count, &terminal, &freq);
|
||||
if (!needsToTraverseChildrenNodes && (i < inputLength - 1)) {
|
||||
return 0;
|
||||
}
|
||||
}
|
||||
if (terminal) {
|
||||
return freq;
|
||||
} else {
|
||||
return 0;
|
||||
}
|
||||
}
|
||||
|
||||
inline bool UnigramDictionary::processCurrentNodeForExactMatch(const int firstChildPos,
|
||||
const int count, const int inputIndex, int *newChildPosition, int *newCount,
|
||||
bool *newTerminal, int *newFreq) {
|
||||
const int *currentChars = mInputCodes + (inputIndex * MAX_PROXIMITY_CHARS);
|
||||
int pos = firstChildPos;
|
||||
unsigned short c;
|
||||
for (int i = 0; i < count; ++i) {
|
||||
pos = Dictionary::setDictionaryValues(DICT, IS_LATEST_DICT_VERSION, pos, &c,
|
||||
newChildPosition, newTerminal, newFreq);
|
||||
const unsigned int inputC = currentChars[0];
|
||||
const unsigned short lowerC = toLowerCase(c);
|
||||
const bool matched = (inputC == lowerC || inputC == c);
|
||||
const bool hasChild = *newChildPosition != 0;
|
||||
if (matched) {
|
||||
if (hasChild) {
|
||||
*newCount = Dictionary::getCount(DICT, newChildPosition);
|
||||
return true;
|
||||
} else {
|
||||
return false;
|
||||
}
|
||||
}
|
||||
}
|
||||
return false;
|
||||
}
|
||||
} // namespace latinime
|
||||
|
|
|
@ -24,15 +24,15 @@ namespace latinime {
|
|||
class UnigramDictionary {
|
||||
public:
|
||||
UnigramDictionary(const unsigned char *dict, int typedLetterMultipler, int fullWordMultiplier,
|
||||
int maxWordLength, int maxWords, int maxAlternatives, const bool isLatestDictVersion);
|
||||
int maxWordLength, int maxWords, int maxProximityChars, const bool isLatestDictVersion);
|
||||
int getSuggestions(int *codes, int codesSize, unsigned short *outWords, int *frequencies,
|
||||
int *nextLetters, int nextLettersSize);
|
||||
~UnigramDictionary();
|
||||
|
||||
private:
|
||||
void initSuggestions(int *codes, int codesSize, unsigned short *outWords, int *frequencies);
|
||||
int getSuggestionCandidates(int inputLength, int skipPos, int excessivePos, int *nextLetters,
|
||||
int nextLettersSize);
|
||||
void getSuggestionCandidates(const int inputLength, const int skipPos, const int excessivePos,
|
||||
int *nextLetters, const int nextLettersSize);
|
||||
void getVersionNumber();
|
||||
bool checkIfDictVersionIsLatest();
|
||||
int getAddress(int *pos);
|
||||
|
@ -44,8 +44,7 @@ private:
|
|||
void getWordsRec(const int childrenCount, const int pos, const int depth, const int maxDepth,
|
||||
const bool traverseAllNodes, const int snr, const int inputIndex, const int diffs,
|
||||
const int skipPos, const int excessivePos, int *nextLetters, const int nextLettersSize);
|
||||
void getWords(const int rootPos, const int inputLength, const int skipPos,
|
||||
const int excessivePos, int *nextLetters, const int nextLettersSize);
|
||||
bool getMissingSpaceWords(const int inputLength, const int missingSpacePos);
|
||||
// Keep getWordsOld for comparing performance between getWords and getWordsOld
|
||||
void getWordsOld(const int initialPos, const int inputLength, const int skipPos,
|
||||
const int excessivePos, int *nextLetters, const int nextLettersSize);
|
||||
|
@ -58,17 +57,25 @@ private:
|
|||
bool needsToSkipCurrentNode(const unsigned short c,
|
||||
const int inputIndex, const int skipPos, const int depth);
|
||||
int getMatchedProximityId(const int *currentChars, const unsigned short c, const int skipPos);
|
||||
// Process a node by considering proximity, missing and excessive character
|
||||
bool processCurrentNode(const int pos, const int depth,
|
||||
const int maxDepth, const bool traverseAllNodes, const int snr, int inputIndex,
|
||||
const int diffs, const int skipPos, const int excessivePos, int *nextLetters,
|
||||
const int nextLettersSize, int *newCount, int *newChildPosition,
|
||||
bool *newTraverseAllNodes, int *newSnr, int*newInputIndex, int *newDiffs,
|
||||
int *nextSiblingPosition);
|
||||
int getWordFreq(const int startInputIndex, const int inputLength);
|
||||
// Process a node by considering missing space
|
||||
bool processCurrentNodeForExactMatch(const int firstChildPos, const int count,
|
||||
const int inputIndex, int *newChildPosition, int *newCount, bool *newTerminal,
|
||||
int *newFreq);
|
||||
|
||||
const unsigned char *DICT;
|
||||
const int MAX_WORDS;
|
||||
const int MAX_WORD_LENGTH;
|
||||
const int MAX_ALTERNATIVES;
|
||||
const int MAX_PROXIMITY_CHARS;
|
||||
const bool IS_LATEST_DICT_VERSION;
|
||||
const int ROOT_POS;
|
||||
const int TYPED_LETTER_MULTIPLIER;
|
||||
const int FULL_WORD_MULTIPLIER;
|
||||
|
||||
|
|
Loading…
Reference in a new issue