Replace NOT_VALID_WORD with NOT_A_VALID_WORD_POS
Bug: 6669677 Change-Id: If5fb58e8a98b04b767eaaf624cb6a40841b64f54main
parent
0d47f28448
commit
8a7129530b
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@ -292,7 +292,7 @@ static inline void prof_out(void) {
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// of the binary dictionary where a {key,value} string pair scheme is used.
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// of the binary dictionary where a {key,value} string pair scheme is used.
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#define LARGEST_INT_DIGIT_COUNT 11
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#define LARGEST_INT_DIGIT_COUNT 11
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#define NOT_VALID_WORD (-99)
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#define NOT_A_VALID_WORD_POS (-99)
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#define NOT_A_CODE_POINT (-1)
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#define NOT_A_CODE_POINT (-1)
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#define NOT_A_DISTANCE (-1)
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#define NOT_A_DISTANCE (-1)
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#define NOT_A_COORDINATE (-1)
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#define NOT_A_COORDINATE (-1)
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@ -112,7 +112,7 @@ class DicNode {
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mIsUsed = true;
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mIsUsed = true;
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mIsCachedForNextSuggestion = false;
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mIsCachedForNextSuggestion = false;
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mDicNodeProperties.init(
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mDicNodeProperties.init(
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NOT_A_DICT_POS, rootGroupPos, NOT_A_DICT_POS /* attributesPos */,
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NOT_A_VALID_WORD_POS /* pos */, rootGroupPos, NOT_A_DICT_POS /* attributesPos */,
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NOT_A_CODE_POINT /* nodeCodePoint */, NOT_A_PROBABILITY /* probability */,
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NOT_A_CODE_POINT /* nodeCodePoint */, NOT_A_PROBABILITY /* probability */,
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false /* isTerminal */, true /* hasChildren */,
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false /* isTerminal */, true /* hasChildren */,
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false /* isBlacklistedOrNotAWord */, 0 /* depth */, 0 /* terminalDepth */);
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false /* isBlacklistedOrNotAWord */, 0 /* depth */, 0 /* terminalDepth */);
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@ -125,7 +125,7 @@ class DicNode {
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mIsUsed = true;
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mIsUsed = true;
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mIsCachedForNextSuggestion = dicNode->mIsCachedForNextSuggestion;
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mIsCachedForNextSuggestion = dicNode->mIsCachedForNextSuggestion;
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mDicNodeProperties.init(
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mDicNodeProperties.init(
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NOT_A_DICT_POS, rootGroupPos, NOT_A_DICT_POS /* attributesPos */,
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NOT_A_VALID_WORD_POS /* pos */, rootGroupPos, NOT_A_DICT_POS /* attributesPos */,
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NOT_A_CODE_POINT /* nodeCodePoint */, NOT_A_PROBABILITY /* probability */,
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NOT_A_CODE_POINT /* nodeCodePoint */, NOT_A_PROBABILITY /* probability */,
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false /* isTerminal */, true /* hasChildren */,
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false /* isTerminal */, true /* hasChildren */,
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false /* isBlacklistedOrNotAWord */, 0 /* depth */, 0 /* terminalDepth */);
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false /* isBlacklistedOrNotAWord */, 0 /* depth */, 0 /* terminalDepth */);
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@ -231,7 +231,7 @@ class DicNode {
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}
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}
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bool isFirstWord() const {
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bool isFirstWord() const {
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return mDicNodeState.mDicNodeStatePrevWord.getPrevWordNodePos() == NOT_VALID_WORD;
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return mDicNodeState.mDicNodeStatePrevWord.getPrevWordNodePos() == NOT_A_VALID_WORD_POS;
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}
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}
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bool isCompletion(const int inputSize) const {
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bool isCompletion(const int inputSize) const {
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@ -29,7 +29,7 @@ class DicNodeStatePrevWord {
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public:
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public:
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AK_FORCE_INLINE DicNodeStatePrevWord()
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AK_FORCE_INLINE DicNodeStatePrevWord()
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: mPrevWordCount(0), mPrevWordLength(0), mPrevWordStart(0), mPrevWordProbability(0),
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: mPrevWordCount(0), mPrevWordLength(0), mPrevWordStart(0), mPrevWordProbability(0),
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mPrevWordNodePos(0) {
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mPrevWordNodePos(NOT_A_VALID_WORD_POS) {
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memset(mPrevWord, 0, sizeof(mPrevWord));
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memset(mPrevWord, 0, sizeof(mPrevWord));
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memset(mPrevSpacePositions, 0, sizeof(mPrevSpacePositions));
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memset(mPrevSpacePositions, 0, sizeof(mPrevSpacePositions));
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}
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}
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@ -41,7 +41,7 @@ class DicNodeStatePrevWord {
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mPrevWordCount = 0;
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mPrevWordCount = 0;
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mPrevWordStart = 0;
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mPrevWordStart = 0;
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mPrevWordProbability = -1;
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mPrevWordProbability = -1;
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mPrevWordNodePos = NOT_VALID_WORD;
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mPrevWordNodePos = NOT_A_VALID_WORD_POS;
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memset(mPrevSpacePositions, 0, sizeof(mPrevSpacePositions));
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memset(mPrevSpacePositions, 0, sizeof(mPrevSpacePositions));
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}
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}
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@ -179,8 +179,9 @@ namespace latinime {
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const int unigramProbability = node->getProbability();
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const int unigramProbability = node->getProbability();
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const int wordPos = node->getPos();
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const int wordPos = node->getPos();
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const int prevWordPos = node->getPrevWordPos();
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const int prevWordPos = node->getPrevWordPos();
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if (NOT_VALID_WORD == wordPos || NOT_VALID_WORD == prevWordPos) {
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if (NOT_A_VALID_WORD_POS == wordPos || NOT_A_VALID_WORD_POS == prevWordPos) {
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// Note: Normally wordPos comes from the dictionary and should never equal NOT_VALID_WORD.
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// Note: Normally wordPos comes from the dictionary and should never equal
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// NOT_A_VALID_WORD_POS.
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return ProbabilityUtils::backoff(unigramProbability);
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return ProbabilityUtils::backoff(unigramProbability);
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}
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}
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if (multiBigramMap) {
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if (multiBigramMap) {
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@ -153,7 +153,7 @@ int BigramDictionary::getBigramListPositionForWord(const int *prevWord, const in
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if (0 >= prevWordLength) return 0;
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if (0 >= prevWordLength) return 0;
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int pos = mBinaryDictionaryInfo->getStructurePolicy()->getTerminalNodePositionOfWord(
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int pos = mBinaryDictionaryInfo->getStructurePolicy()->getTerminalNodePositionOfWord(
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mBinaryDictionaryInfo, prevWord, prevWordLength, forceLowerCaseSearch);
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mBinaryDictionaryInfo, prevWord, prevWordLength, forceLowerCaseSearch);
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if (NOT_VALID_WORD == pos) return 0;
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if (NOT_A_VALID_WORD_POS == pos) return 0;
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return BinaryFormat::getBigramListPositionForWordPosition(
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return BinaryFormat::getBigramListPositionForWordPosition(
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mBinaryDictionaryInfo->getDictRoot(), pos);
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mBinaryDictionaryInfo->getDictRoot(), pos);
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}
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}
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@ -181,7 +181,7 @@ bool BigramDictionary::isValidBigram(const int *word0, int length0, const int *w
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if (0 == pos) return false;
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if (0 == pos) return false;
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int nextWordPos = mBinaryDictionaryInfo->getStructurePolicy()->getTerminalNodePositionOfWord(
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int nextWordPos = mBinaryDictionaryInfo->getStructurePolicy()->getTerminalNodePositionOfWord(
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mBinaryDictionaryInfo, word1, length1, false /* forceLowerCaseSearch */);
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mBinaryDictionaryInfo, word1, length1, false /* forceLowerCaseSearch */);
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if (NOT_VALID_WORD == nextWordPos) return false;
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if (NOT_A_VALID_WORD_POS == nextWordPos) return false;
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for (BinaryDictionaryBigramsIterator bigramsIt(mBinaryDictionaryInfo, pos);
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for (BinaryDictionaryBigramsIterator bigramsIt(mBinaryDictionaryInfo, pos);
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bigramsIt.hasNext(); /* no-op */) {
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bigramsIt.hasNext(); /* no-op */) {
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@ -255,7 +255,7 @@ inline bool BinaryFormat::hasChildrenInFlags(const uint8_t flags) {
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}
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}
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// This function gets the byte position of the last chargroup of the exact matching word in the
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// This function gets the byte position of the last chargroup of the exact matching word in the
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// dictionary. If no match is found, it returns NOT_VALID_WORD.
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// dictionary. If no match is found, it returns NOT_A_VALID_WORD_POS.
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AK_FORCE_INLINE int BinaryFormat::getTerminalPosition(const uint8_t *const root,
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AK_FORCE_INLINE int BinaryFormat::getTerminalPosition(const uint8_t *const root,
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const int *const inWord, const int length, const bool forceLowerCaseSearch) {
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const int *const inWord, const int length, const bool forceLowerCaseSearch) {
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int pos = 0;
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int pos = 0;
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@ -264,22 +264,22 @@ AK_FORCE_INLINE int BinaryFormat::getTerminalPosition(const uint8_t *const root,
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while (true) {
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while (true) {
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// If we already traversed the tree further than the word is long, there means
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// If we already traversed the tree further than the word is long, there means
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// there was no match (or we would have found it).
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// there was no match (or we would have found it).
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if (wordPos >= length) return NOT_VALID_WORD;
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if (wordPos >= length) return NOT_A_VALID_WORD_POS;
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int charGroupCount = BinaryFormat::getGroupCountAndForwardPointer(root, &pos);
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int charGroupCount = BinaryFormat::getGroupCountAndForwardPointer(root, &pos);
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const int wChar = forceLowerCaseSearch
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const int wChar = forceLowerCaseSearch
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? CharUtils::toLowerCase(inWord[wordPos]) : inWord[wordPos];
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? CharUtils::toLowerCase(inWord[wordPos]) : inWord[wordPos];
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while (true) {
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while (true) {
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// If there are no more character groups in this node, it means we could not
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// If there are no more character groups in this node, it means we could not
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// find a matching character for this depth, therefore there is no match.
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// find a matching character for this depth, therefore there is no match.
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if (0 >= charGroupCount) return NOT_VALID_WORD;
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if (0 >= charGroupCount) return NOT_A_VALID_WORD_POS;
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const int charGroupPos = pos;
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const int charGroupPos = pos;
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const uint8_t flags = BinaryFormat::getFlagsAndForwardPointer(root, &pos);
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const uint8_t flags = BinaryFormat::getFlagsAndForwardPointer(root, &pos);
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int character = BinaryFormat::getCodePointAndForwardPointer(root, &pos);
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int character = BinaryFormat::getCodePointAndForwardPointer(root, &pos);
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if (character == wChar) {
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if (character == wChar) {
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// This is the correct node. Only one character group may start with the same
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// This is the correct node. Only one character group may start with the same
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// char within a node, so either we found our match in this node, or there is
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// char within a node, so either we found our match in this node, or there is
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// no match and we can return NOT_VALID_WORD. So we will check all the characters
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// no match and we can return NOT_A_VALID_WORD_POS. So we will check all the
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// in this character group indeed does match.
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// characters in this character group indeed does match.
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if (FLAG_HAS_MULTIPLE_CHARS & flags) {
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if (FLAG_HAS_MULTIPLE_CHARS & flags) {
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character = BinaryFormat::getCodePointAndForwardPointer(root, &pos);
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character = BinaryFormat::getCodePointAndForwardPointer(root, &pos);
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while (NOT_A_CODE_POINT != character) {
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while (NOT_A_CODE_POINT != character) {
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@ -288,8 +288,8 @@ AK_FORCE_INLINE int BinaryFormat::getTerminalPosition(const uint8_t *const root,
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// character that does not match, as explained above, it means the word is
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// character that does not match, as explained above, it means the word is
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// not in the dictionary (by virtue of this chargroup being the only one to
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// not in the dictionary (by virtue of this chargroup being the only one to
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// match the word on the first character, but not matching the whole word).
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// match the word on the first character, but not matching the whole word).
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if (wordPos >= length) return NOT_VALID_WORD;
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if (wordPos >= length) return NOT_A_VALID_WORD_POS;
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if (inWord[wordPos] != character) return NOT_VALID_WORD;
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if (inWord[wordPos] != character) return NOT_A_VALID_WORD_POS;
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character = BinaryFormat::getCodePointAndForwardPointer(root, &pos);
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character = BinaryFormat::getCodePointAndForwardPointer(root, &pos);
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}
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}
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}
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}
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@ -305,7 +305,7 @@ AK_FORCE_INLINE int BinaryFormat::getTerminalPosition(const uint8_t *const root,
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pos = BinaryFormat::skipProbability(FLAG_IS_TERMINAL, pos);
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pos = BinaryFormat::skipProbability(FLAG_IS_TERMINAL, pos);
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}
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}
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if (FLAG_GROUP_ADDRESS_TYPE_NOADDRESS == (MASK_GROUP_ADDRESS_TYPE & flags)) {
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if (FLAG_GROUP_ADDRESS_TYPE_NOADDRESS == (MASK_GROUP_ADDRESS_TYPE & flags)) {
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return NOT_VALID_WORD;
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return NOT_A_VALID_WORD_POS;
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}
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}
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// We have children and we are still shorter than the word we are searching for, so
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// We have children and we are still shorter than the word we are searching for, so
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// we need to traverse children. Put the pointer on the children position, and
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// we need to traverse children. Put the pointer on the children position, and
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@ -474,7 +474,7 @@ AK_FORCE_INLINE int BinaryFormat::getCodePointsAndProbabilityAndReturnCodePointC
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AK_FORCE_INLINE int BinaryFormat::getBigramListPositionForWordPosition(
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AK_FORCE_INLINE int BinaryFormat::getBigramListPositionForWordPosition(
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const uint8_t *const root, int position) {
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const uint8_t *const root, int position) {
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if (NOT_VALID_WORD == position) return 0;
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if (NOT_A_VALID_WORD_POS == position) return 0;
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const uint8_t flags = getFlagsAndForwardPointer(root, &position);
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const uint8_t flags = getFlagsAndForwardPointer(root, &position);
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if (!(flags & FLAG_HAS_BIGRAMS)) return 0;
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if (!(flags & FLAG_HAS_BIGRAMS)) return 0;
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if (flags & FLAG_HAS_MULTIPLE_CHARS) {
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if (flags & FLAG_HAS_MULTIPLE_CHARS) {
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@ -89,7 +89,7 @@ int Dictionary::getProbability(const int *word, int length) const {
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mBinaryDictionaryInfo.getStructurePolicy();
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mBinaryDictionaryInfo.getStructurePolicy();
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int pos = structurePolicy->getTerminalNodePositionOfWord(&mBinaryDictionaryInfo, word, length,
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int pos = structurePolicy->getTerminalNodePositionOfWord(&mBinaryDictionaryInfo, word, length,
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false /* forceLowerCaseSearch */);
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false /* forceLowerCaseSearch */);
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if (NOT_VALID_WORD == pos) {
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if (NOT_A_VALID_WORD_POS == pos) {
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return NOT_A_PROBABILITY;
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return NOT_A_PROBABILITY;
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}
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}
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return structurePolicy->getUnigramProbability(&mBinaryDictionaryInfo, pos);
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return structurePolicy->getUnigramProbability(&mBinaryDictionaryInfo, pos);
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@ -32,13 +32,13 @@ void DicTraverseSession::init(const Dictionary *const dictionary, const int *pre
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mMultiWordCostMultiplier = binaryDictionaryInfo->getHeader()->getMultiWordCostMultiplier();
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mMultiWordCostMultiplier = binaryDictionaryInfo->getHeader()->getMultiWordCostMultiplier();
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mSuggestOptions = suggestOptions;
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mSuggestOptions = suggestOptions;
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if (!prevWord) {
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if (!prevWord) {
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mPrevWordPos = NOT_VALID_WORD;
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mPrevWordPos = NOT_A_VALID_WORD_POS;
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return;
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return;
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}
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}
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// TODO: merge following similar calls to getTerminalPosition into one case-insensitive call.
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// TODO: merge following similar calls to getTerminalPosition into one case-insensitive call.
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mPrevWordPos = binaryDictionaryInfo->getStructurePolicy()->getTerminalNodePositionOfWord(
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mPrevWordPos = binaryDictionaryInfo->getStructurePolicy()->getTerminalNodePositionOfWord(
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binaryDictionaryInfo, prevWord, prevWordLength, false /* forceLowerCaseSearch */);
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binaryDictionaryInfo, prevWord, prevWordLength, false /* forceLowerCaseSearch */);
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if (mPrevWordPos == NOT_VALID_WORD) {
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if (mPrevWordPos == NOT_A_VALID_WORD_POS) {
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// Check bigrams for lower-cased previous word if original was not found. Useful for
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// Check bigrams for lower-cased previous word if original was not found. Useful for
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// auto-capitalized words like "The [current_word]".
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// auto-capitalized words like "The [current_word]".
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mPrevWordPos = binaryDictionaryInfo->getStructurePolicy()->getTerminalNodePositionOfWord(
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mPrevWordPos = binaryDictionaryInfo->getStructurePolicy()->getTerminalNodePositionOfWord(
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@ -55,7 +55,7 @@ class DicTraverseSession {
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}
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}
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AK_FORCE_INLINE DicTraverseSession(JNIEnv *env, jstring localeStr)
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AK_FORCE_INLINE DicTraverseSession(JNIEnv *env, jstring localeStr)
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: mPrevWordPos(NOT_VALID_WORD), mProximityInfo(0),
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: mPrevWordPos(NOT_A_VALID_WORD_POS), mProximityInfo(0),
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mDictionary(0), mSuggestOptions(0), mDicNodesCache(), mMultiBigramMap(),
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mDictionary(0), mSuggestOptions(0), mDicNodesCache(), mMultiBigramMap(),
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mInputSize(0), mPartiallyCommited(false), mMaxPointerCount(1),
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mInputSize(0), mPartiallyCommited(false), mMaxPointerCount(1),
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mMultiWordCostMultiplier(1.0f) {
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mMultiWordCostMultiplier(1.0f) {
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