am c96b56a5: Merge "Reduce the number of arguments required to initialize dic_node."

* commit 'c96b56a5ec5a9a2cf53ca730d2a90cdd7b36fdd7':
  Reduce the number of arguments required to initialize dic_node.
main
Keisuke Kuroynagi 2013-06-26 20:33:15 -07:00 committed by Android Git Automerger
commit f4cc95e2d5
7 changed files with 83 additions and 129 deletions

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@ -109,12 +109,14 @@ class DicNode {
// TODO: minimize arguments by looking binary_format // TODO: minimize arguments by looking binary_format
// Init for root with prevWordNodePos which is used for bigram // Init for root with prevWordNodePos which is used for bigram
void initAsRoot(const int pos, const int childrenPos, const int childrenCount, void initAsRoot(const int pos, const int childrenPos, const int prevWordNodePos) {
const int prevWordNodePos) {
mIsUsed = true; mIsUsed = true;
mIsCachedForNextSuggestion = false; mIsCachedForNextSuggestion = false;
mDicNodeProperties.init( mDicNodeProperties.init(
pos, 0, childrenPos, 0, 0, 0, childrenCount, 0, 0, false, false, true, 0, 0); pos, 0 /* flags */, childrenPos, 0 /* attributesPos */,
NOT_A_CODE_POINT /* nodeCodePoint */, NOT_A_PROBABILITY /* probability */,
false /* isTerminal */, true /* hasChildren */, 0 /* depth */,
0 /* terminalDepth */);
mDicNodeState.init(prevWordNodePos); mDicNodeState.init(prevWordNodePos);
PROF_NODE_RESET(mProfiler); PROF_NODE_RESET(mProfiler);
} }
@ -130,12 +132,14 @@ class DicNode {
// TODO: minimize arguments by looking binary_format // TODO: minimize arguments by looking binary_format
// Init for root with previous word // Init for root with previous word
void initAsRootWithPreviousWord(DicNode *dicNode, const int pos, const int childrenPos, void initAsRootWithPreviousWord(DicNode *dicNode, const int pos, const int childrenPos) {
const int childrenCount) {
mIsUsed = true; mIsUsed = true;
mIsCachedForNextSuggestion = dicNode->mIsCachedForNextSuggestion; mIsCachedForNextSuggestion = dicNode->mIsCachedForNextSuggestion;
mDicNodeProperties.init( mDicNodeProperties.init(
pos, 0, childrenPos, 0, 0, 0, childrenCount, 0, 0, false, false, true, 0, 0); pos, 0 /* flags */, childrenPos, 0 /* attributesPos */,
NOT_A_CODE_POINT /* nodeCodePoint */, NOT_A_PROBABILITY /* probability */,
false /* isTerminal */, true /* hasChildren */, 0 /* depth */,
0 /* terminalDepth */);
// TODO: Move to dicNodeState? // TODO: Move to dicNodeState?
mDicNodeState.mDicNodeStateOutput.init(); // reset for next word mDicNodeState.mDicNodeStateOutput.init(); // reset for next word
mDicNodeState.mDicNodeStateInput.init( mDicNodeState.mDicNodeStateInput.init(
@ -157,19 +161,18 @@ class DicNode {
// TODO: minimize arguments by looking binary_format // TODO: minimize arguments by looking binary_format
void initAsChild(DicNode *dicNode, const int pos, const uint8_t flags, const int childrenPos, void initAsChild(DicNode *dicNode, const int pos, const uint8_t flags, const int childrenPos,
const int attributesPos, const int siblingPos, const int nodeCodePoint, const int attributesPos, const int probability, const bool isTerminal,
const int childrenCount, const int probability, const int bigramProbability, const bool hasChildren, const uint16_t mergedNodeCodePointCount,
const bool isTerminal, const bool hasMultipleChars, const bool hasChildren, const int *const mergedNodeCodePoints) {
const uint16_t additionalSubwordLength, const int *additionalSubword) {
mIsUsed = true; mIsUsed = true;
uint16_t newDepth = static_cast<uint16_t>(dicNode->getNodeCodePointCount() + 1); uint16_t newDepth = static_cast<uint16_t>(dicNode->getNodeCodePointCount() + 1);
mIsCachedForNextSuggestion = dicNode->mIsCachedForNextSuggestion; mIsCachedForNextSuggestion = dicNode->mIsCachedForNextSuggestion;
const uint16_t newLeavingDepth = static_cast<uint16_t>( const uint16_t newLeavingDepth = static_cast<uint16_t>(
dicNode->mDicNodeProperties.getLeavingDepth() + additionalSubwordLength); dicNode->mDicNodeProperties.getLeavingDepth() + mergedNodeCodePointCount);
mDicNodeProperties.init(pos, flags, childrenPos, attributesPos, siblingPos, nodeCodePoint, mDicNodeProperties.init(pos, flags, childrenPos, attributesPos, mergedNodeCodePoints[0],
childrenCount, probability, bigramProbability, isTerminal, hasMultipleChars, probability, isTerminal, hasChildren, newDepth, newLeavingDepth);
hasChildren, newDepth, newLeavingDepth); mDicNodeState.init(&dicNode->mDicNodeState, mergedNodeCodePointCount,
mDicNodeState.init(&dicNode->mDicNodeState, additionalSubwordLength, additionalSubword); mergedNodeCodePoints);
PROF_NODE_COPY(&dicNode->mProfiler, mProfiler); PROF_NODE_COPY(&dicNode->mProfiler, mProfiler);
} }
@ -193,8 +196,8 @@ class DicNode {
} }
bool isLeavingNode() const { bool isLeavingNode() const {
ASSERT(getNodeCodePointCount() <= getLeavingDepth()); ASSERT(getNodeCodePointCount() <= mDicNodeProperties.getLeavingDepth());
return getNodeCodePointCount() == getLeavingDepth(); return getNodeCodePointCount() == mDicNodeProperties.getLeavingDepth();
} }
AK_FORCE_INLINE bool isFirstLetter() const { AK_FORCE_INLINE bool isFirstLetter() const {
@ -256,12 +259,6 @@ class DicNode {
return mDicNodeProperties.getChildrenPos(); return mDicNodeProperties.getChildrenPos();
} }
// Used in DicNodeUtils
int getChildrenCount() const {
return mDicNodeProperties.getChildrenCount();
}
// Used in DicNodeUtils
int getProbability() const { int getProbability() const {
return mDicNodeProperties.getProbability(); return mDicNodeProperties.getProbability();
} }
@ -280,10 +277,6 @@ class DicNode {
return !(currentDepth > 0 && (currentDepth != 1 || prevWordLen != 1)); return !(currentDepth > 0 && (currentDepth != 1 || prevWordLen != 1));
} }
uint16_t getLeavingDepth() const {
return mDicNodeProperties.getLeavingDepth();
}
bool isTotalInputSizeExceedingLimit() const { bool isTotalInputSizeExceedingLimit() const {
const int prevWordsLen = mDicNodeState.mDicNodeStatePrevWord.getPrevWordLength(); const int prevWordsLen = mDicNodeState.mDicNodeStatePrevWord.getPrevWordLength();
const int currentWordDepth = getNodeCodePointCount(); const int currentWordDepth = getNodeCodePointCount();
@ -370,7 +363,7 @@ class DicNode {
} }
AK_FORCE_INLINE const int *getOutputWordBuf() const { AK_FORCE_INLINE const int *getOutputWordBuf() const {
return mDicNodeState.mDicNodeStateOutput.mWordBuf; return mDicNodeState.mDicNodeStateOutput.mCodePointsBuf;
} }
int getPrevCodePointG(int pointerId) const { int getPrevCodePointG(int pointerId) const {

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@ -27,37 +27,31 @@ namespace latinime {
/** /**
* Node for traversing the lexicon trie. * Node for traversing the lexicon trie.
*/ */
// TODO: Introduce a dictionary node class which has attribute members required to understand the
// dictionary structure.
class DicNodeProperties { class DicNodeProperties {
public: public:
AK_FORCE_INLINE DicNodeProperties() AK_FORCE_INLINE DicNodeProperties()
: mPos(0), mFlags(0), mChildrenPos(0), mAttributesPos(0), mSiblingPos(0), : mPos(0), mFlags(0), mChildrenPos(0), mAttributesPos(0), mProbability(0),
mChildrenCount(0), mProbability(0), mBigramProbability(0), mNodeCodePoint(0), mNodeCodePoint(0), mDepth(0), mLeavingDepth(0), mIsTerminal(false),
mDepth(0), mLeavingDepth(0), mIsTerminal(false), mHasMultipleChars(false), mHasChildren(false) {}
mHasChildren(false) {
}
virtual ~DicNodeProperties() {} virtual ~DicNodeProperties() {}
// Should be called only once per DicNode is initialized. // Should be called only once per DicNode is initialized.
void init(const int pos, const uint8_t flags, const int childrenPos, const int attributesPos, void init(const int pos, const uint8_t flags, const int childrenPos, const int attributesPos,
const int siblingPos, const int nodeCodePoint, const int childrenCount, const int nodeCodePoint, const int probability, const bool isTerminal,
const int probability, const int bigramProbability, const bool isTerminal, const bool hasChildren, const uint16_t depth, const uint16_t leavingDepth) {
const bool hasMultipleChars, const bool hasChildren, const uint16_t depth,
const uint16_t terminalDepth) {
mPos = pos; mPos = pos;
mFlags = flags; mFlags = flags;
mChildrenPos = childrenPos; mChildrenPos = childrenPos;
mAttributesPos = attributesPos; mAttributesPos = attributesPos;
mSiblingPos = siblingPos;
mNodeCodePoint = nodeCodePoint; mNodeCodePoint = nodeCodePoint;
mChildrenCount = childrenCount;
mProbability = probability; mProbability = probability;
mBigramProbability = bigramProbability;
mIsTerminal = isTerminal; mIsTerminal = isTerminal;
mHasMultipleChars = hasMultipleChars;
mHasChildren = hasChildren; mHasChildren = hasChildren;
mDepth = depth; mDepth = depth;
mLeavingDepth = terminalDepth; mLeavingDepth = leavingDepth;
} }
// Init for copy // Init for copy
@ -66,13 +60,9 @@ class DicNodeProperties {
mFlags = nodeProp->mFlags; mFlags = nodeProp->mFlags;
mChildrenPos = nodeProp->mChildrenPos; mChildrenPos = nodeProp->mChildrenPos;
mAttributesPos = nodeProp->mAttributesPos; mAttributesPos = nodeProp->mAttributesPos;
mSiblingPos = nodeProp->mSiblingPos;
mNodeCodePoint = nodeProp->mNodeCodePoint; mNodeCodePoint = nodeProp->mNodeCodePoint;
mChildrenCount = nodeProp->mChildrenCount;
mProbability = nodeProp->mProbability; mProbability = nodeProp->mProbability;
mBigramProbability = nodeProp->mBigramProbability;
mIsTerminal = nodeProp->mIsTerminal; mIsTerminal = nodeProp->mIsTerminal;
mHasMultipleChars = nodeProp->mHasMultipleChars;
mHasChildren = nodeProp->mHasChildren; mHasChildren = nodeProp->mHasChildren;
mDepth = nodeProp->mDepth; mDepth = nodeProp->mDepth;
mLeavingDepth = nodeProp->mLeavingDepth; mLeavingDepth = nodeProp->mLeavingDepth;
@ -84,13 +74,9 @@ class DicNodeProperties {
mFlags = nodeProp->mFlags; mFlags = nodeProp->mFlags;
mChildrenPos = nodeProp->mChildrenPos; mChildrenPos = nodeProp->mChildrenPos;
mAttributesPos = nodeProp->mAttributesPos; mAttributesPos = nodeProp->mAttributesPos;
mSiblingPos = nodeProp->mSiblingPos;
mNodeCodePoint = codePoint; // Overwrite the node char of a passing child mNodeCodePoint = codePoint; // Overwrite the node char of a passing child
mChildrenCount = nodeProp->mChildrenCount;
mProbability = nodeProp->mProbability; mProbability = nodeProp->mProbability;
mBigramProbability = nodeProp->mBigramProbability;
mIsTerminal = nodeProp->mIsTerminal; mIsTerminal = nodeProp->mIsTerminal;
mHasMultipleChars = nodeProp->mHasMultipleChars;
mHasChildren = nodeProp->mHasChildren; mHasChildren = nodeProp->mHasChildren;
mDepth = nodeProp->mDepth + 1; // Increment the depth of a passing child mDepth = nodeProp->mDepth + 1; // Increment the depth of a passing child
mLeavingDepth = nodeProp->mLeavingDepth; mLeavingDepth = nodeProp->mLeavingDepth;
@ -112,10 +98,6 @@ class DicNodeProperties {
return mAttributesPos; return mAttributesPos;
} }
int getChildrenCount() const {
return mChildrenCount;
}
int getProbability() const { int getProbability() const {
return mProbability; return mProbability;
} }
@ -137,12 +119,8 @@ class DicNodeProperties {
return mIsTerminal; return mIsTerminal;
} }
bool hasMultipleChars() const {
return mHasMultipleChars;
}
bool hasChildren() const { bool hasChildren() const {
return mChildrenCount > 0 || mDepth != mLeavingDepth; return mHasChildren || mDepth != mLeavingDepth;
} }
bool hasBlacklistedOrNotAWordFlag() const { bool hasBlacklistedOrNotAWordFlag() const {
@ -153,25 +131,15 @@ class DicNodeProperties {
// Caution!!! // Caution!!!
// Use a default copy constructor and an assign operator because shallow copies are ok // Use a default copy constructor and an assign operator because shallow copies are ok
// for this class // for this class
// Not used
int getSiblingPos() const {
return mSiblingPos;
}
int mPos; int mPos;
uint8_t mFlags; uint8_t mFlags;
int mChildrenPos; int mChildrenPos;
int mAttributesPos; int mAttributesPos;
int mSiblingPos;
int mChildrenCount;
int mProbability; int mProbability;
int mBigramProbability; // not used for now
int mNodeCodePoint; int mNodeCodePoint;
uint16_t mDepth; uint16_t mDepth;
uint16_t mLeavingDepth; uint16_t mLeavingDepth;
bool mIsTerminal; bool mIsTerminal;
bool mHasMultipleChars;
bool mHasChildren; bool mHasChildren;
}; };
} // namespace latinime } // namespace latinime

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@ -55,11 +55,12 @@ class DicNodeState {
mDicNodeStateScoring.init(&src->mDicNodeStateScoring); mDicNodeStateScoring.init(&src->mDicNodeStateScoring);
} }
// Init by copy and adding subword // Init by copy and adding merged node code points.
void init(const DicNodeState *const src, const uint16_t additionalSubwordLength, void init(const DicNodeState *const src, const uint16_t mergedNodeCodePointCount,
const int *const additionalSubword) { const int *const mergedNodeCodePoints) {
init(src); init(src);
mDicNodeStateOutput.addSubword(additionalSubwordLength, additionalSubword); mDicNodeStateOutput.addMergedNodeCodePoints(
mergedNodeCodePointCount, mergedNodeCodePoints);
} }
private: private:

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@ -26,50 +26,52 @@ namespace latinime {
class DicNodeStateOutput { class DicNodeStateOutput {
public: public:
DicNodeStateOutput() : mOutputtedLength(0) { DicNodeStateOutput() : mOutputtedCodePointCount(0) {
init(); init();
} }
virtual ~DicNodeStateOutput() {} virtual ~DicNodeStateOutput() {}
void init() { void init() {
mOutputtedLength = 0; mOutputtedCodePointCount = 0;
mWordBuf[0] = 0; mCodePointsBuf[0] = 0;
} }
void init(const DicNodeStateOutput *const stateOutput) { void init(const DicNodeStateOutput *const stateOutput) {
memcpy(mWordBuf, stateOutput->mWordBuf, memcpy(mCodePointsBuf, stateOutput->mCodePointsBuf,
stateOutput->mOutputtedLength * sizeof(mWordBuf[0])); stateOutput->mOutputtedCodePointCount * sizeof(mCodePointsBuf[0]));
mOutputtedLength = stateOutput->mOutputtedLength; mOutputtedCodePointCount = stateOutput->mOutputtedCodePointCount;
if (mOutputtedLength < MAX_WORD_LENGTH) { if (mOutputtedCodePointCount < MAX_WORD_LENGTH) {
mWordBuf[mOutputtedLength] = 0; mCodePointsBuf[mOutputtedCodePointCount] = 0;
} }
} }
void addSubword(const uint16_t additionalSubwordLength, const int *const additionalSubword) { void addMergedNodeCodePoints(const uint16_t mergedNodeCodePointCount,
if (additionalSubword) { const int *const mergedNodeCodePoints) {
memcpy(&mWordBuf[mOutputtedLength], additionalSubword, if (mergedNodeCodePoints) {
additionalSubwordLength * sizeof(mWordBuf[0])); memcpy(&mCodePointsBuf[mOutputtedCodePointCount], mergedNodeCodePoints,
mOutputtedLength = static_cast<uint16_t>(mOutputtedLength + additionalSubwordLength); mergedNodeCodePointCount * sizeof(mCodePointsBuf[0]));
if (mOutputtedLength < MAX_WORD_LENGTH) { mOutputtedCodePointCount = static_cast<uint16_t>(
mWordBuf[mOutputtedLength] = 0; mOutputtedCodePointCount + mergedNodeCodePointCount);
if (mOutputtedCodePointCount < MAX_WORD_LENGTH) {
mCodePointsBuf[mOutputtedCodePointCount] = 0;
} }
} }
} }
// TODO: Remove // TODO: Remove
int getCodePointAt(const int id) const { int getCodePointAt(const int index) const {
return mWordBuf[id]; return mCodePointsBuf[index];
} }
// TODO: Move to private // TODO: Move to private
int mWordBuf[MAX_WORD_LENGTH]; int mCodePointsBuf[MAX_WORD_LENGTH];
private: private:
// Caution!!! // Caution!!!
// Use a default copy constructor and an assign operator because shallow copies are ok // Use a default copy constructor and an assign operator because shallow copies are ok
// for this class // for this class
uint16_t mOutputtedLength; uint16_t mOutputtedCodePointCount;
}; };
} // namespace latinime } // namespace latinime
#endif // LATINIME_DIC_NODE_STATE_OUTPUT_H #endif // LATINIME_DIC_NODE_STATE_OUTPUT_H

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@ -36,23 +36,17 @@ namespace latinime {
/* static */ void DicNodeUtils::initAsRoot(const BinaryDictionaryInfo *const binaryDictionaryInfo, /* static */ void DicNodeUtils::initAsRoot(const BinaryDictionaryInfo *const binaryDictionaryInfo,
const int prevWordNodePos, DicNode *const newRootNode) { const int prevWordNodePos, DicNode *const newRootNode) {
int curPos = binaryDictionaryInfo->getRootPosition(); const int rootPos = binaryDictionaryInfo->getRootPosition();
const int pos = curPos; const int childrenPos = rootPos;
const int childrenCount = BinaryFormat::getGroupCountAndForwardPointer( newRootNode->initAsRoot(rootPos, childrenPos, prevWordNodePos);
binaryDictionaryInfo->getDictRoot(), &curPos);
const int childrenPos = curPos;
newRootNode->initAsRoot(pos, childrenPos, childrenCount, prevWordNodePos);
} }
/*static */ void DicNodeUtils::initAsRootWithPreviousWord( /*static */ void DicNodeUtils::initAsRootWithPreviousWord(
const BinaryDictionaryInfo *const binaryDictionaryInfo, const BinaryDictionaryInfo *const binaryDictionaryInfo,
DicNode *const prevWordLastNode, DicNode *const newRootNode) { DicNode *const prevWordLastNode, DicNode *const newRootNode) {
int curPos = binaryDictionaryInfo->getRootPosition(); const int rootPos = binaryDictionaryInfo->getRootPosition();
const int pos = curPos; const int childrenPos = rootPos;
const int childrenCount = BinaryFormat::getGroupCountAndForwardPointer( newRootNode->initAsRootWithPreviousWord(prevWordLastNode, rootPos, childrenPos);
binaryDictionaryInfo->getDictRoot(), &curPos);
const int childrenPos = curPos;
newRootNode->initAsRootWithPreviousWord(prevWordLastNode, pos, childrenPos, childrenCount);
} }
/* static */ void DicNodeUtils::initByCopy(DicNode *srcNode, DicNode *destNode) { /* static */ void DicNodeUtils::initByCopy(DicNode *srcNode, DicNode *destNode) {
@ -76,7 +70,7 @@ namespace latinime {
} }
/* static */ int DicNodeUtils::createAndGetLeavingChildNode(DicNode *dicNode, int pos, /* static */ int DicNodeUtils::createAndGetLeavingChildNode(DicNode *dicNode, int pos,
const BinaryDictionaryInfo *const binaryDictionaryInfo, const int terminalDepth, const BinaryDictionaryInfo *const binaryDictionaryInfo,
const ProximityInfoState *pInfoState, const int pointIndex, const bool exactOnly, const ProximityInfoState *pInfoState, const int pointIndex, const bool exactOnly,
const std::vector<int> *const codePointsFilter, const ProximityInfo *const pInfo, const std::vector<int> *const codePointsFilter, const ProximityInfo *const pInfo,
DicNodeVector *childDicNodes) { DicNodeVector *childDicNodes) {
@ -90,11 +84,10 @@ namespace latinime {
int codePoint = BinaryFormat::getCodePointAndForwardPointer( int codePoint = BinaryFormat::getCodePointAndForwardPointer(
binaryDictionaryInfo->getDictRoot(), &pos); binaryDictionaryInfo->getDictRoot(), &pos);
ASSERT(NOT_A_CODE_POINT != codePoint); ASSERT(NOT_A_CODE_POINT != codePoint);
const int nodeCodePoint = codePoint;
// TODO: optimize this // TODO: optimize this
int additionalWordBuf[MAX_WORD_LENGTH]; int mergedNodeCodePoints[MAX_WORD_LENGTH];
uint16_t additionalSubwordLength = 0; uint16_t mergedNodeCodePointCount = 0;
additionalWordBuf[additionalSubwordLength++] = codePoint; mergedNodeCodePoints[mergedNodeCodePointCount++] = codePoint;
do { do {
const int nextCodePoint = hasMultipleChars const int nextCodePoint = hasMultipleChars
@ -102,7 +95,7 @@ namespace latinime {
binaryDictionaryInfo->getDictRoot(), &pos) : NOT_A_CODE_POINT; binaryDictionaryInfo->getDictRoot(), &pos) : NOT_A_CODE_POINT;
const bool isLastChar = (NOT_A_CODE_POINT == nextCodePoint); const bool isLastChar = (NOT_A_CODE_POINT == nextCodePoint);
if (!isLastChar) { if (!isLastChar) {
additionalWordBuf[additionalSubwordLength++] = nextCodePoint; mergedNodeCodePoints[mergedNodeCodePointCount++] = nextCodePoint;
} }
codePoint = nextCodePoint; codePoint = nextCodePoint;
} while (NOT_A_CODE_POINT != codePoint); } while (NOT_A_CODE_POINT != codePoint);
@ -116,17 +109,14 @@ namespace latinime {
const int siblingPos = BinaryFormat::skipChildrenPosAndAttributes( const int siblingPos = BinaryFormat::skipChildrenPosAndAttributes(
binaryDictionaryInfo->getDictRoot(), flags, pos); binaryDictionaryInfo->getDictRoot(), flags, pos);
if (isDicNodeFilteredOut(nodeCodePoint, pInfo, codePointsFilter)) { if (isDicNodeFilteredOut(mergedNodeCodePoints[0], pInfo, codePointsFilter)) {
return siblingPos; return siblingPos;
} }
if (!isMatchedNodeCodePoint(pInfoState, pointIndex, exactOnly, nodeCodePoint)) { if (!isMatchedNodeCodePoint(pInfoState, pointIndex, exactOnly, mergedNodeCodePoints[0])) {
return siblingPos; return siblingPos;
} }
const int childrenCount = hasChildren ? BinaryFormat::getGroupCountAndForwardPointer( childDicNodes->pushLeavingChild(dicNode, nextPos, flags, childrenPos, attributesPos,
binaryDictionaryInfo->getDictRoot(), &childrenPos) : 0; probability, isTerminal, hasChildren, mergedNodeCodePointCount, mergedNodeCodePoints);
childDicNodes->pushLeavingChild(dicNode, nextPos, flags, childrenPos, attributesPos, siblingPos,
nodeCodePoint, childrenCount, probability, -1 /* bigramProbability */, isTerminal,
hasMultipleChars, hasChildren, additionalSubwordLength, additionalWordBuf);
return siblingPos; return siblingPos;
} }
@ -163,13 +153,16 @@ namespace latinime {
const ProximityInfoState *pInfoState, const int pointIndex, const bool exactOnly, const ProximityInfoState *pInfoState, const int pointIndex, const bool exactOnly,
const std::vector<int> *const codePointsFilter, const ProximityInfo *const pInfo, const std::vector<int> *const codePointsFilter, const ProximityInfo *const pInfo,
DicNodeVector *childDicNodes) { DicNodeVector *childDicNodes) {
const int terminalDepth = dicNode->getLeavingDepth(); if (!dicNode->hasChildren()) {
const int childCount = dicNode->getChildrenCount(); return;
}
int nextPos = dicNode->getChildrenPos(); int nextPos = dicNode->getChildrenPos();
const int childCount = BinaryFormat::getGroupCountAndForwardPointer(
binaryDictionaryInfo->getDictRoot(), &nextPos);
for (int i = 0; i < childCount; i++) { for (int i = 0; i < childCount; i++) {
const int filterSize = codePointsFilter ? codePointsFilter->size() : 0; const int filterSize = codePointsFilter ? codePointsFilter->size() : 0;
nextPos = createAndGetLeavingChildNode(dicNode, nextPos, binaryDictionaryInfo, nextPos = createAndGetLeavingChildNode(dicNode, nextPos, binaryDictionaryInfo,
terminalDepth, pInfoState, pointIndex, exactOnly, codePointsFilter, pInfo, pInfoState, pointIndex, exactOnly, codePointsFilter, pInfo,
childDicNodes); childDicNodes);
if (!pInfo && filterSize > 0 && childDicNodes->exceeds(filterSize)) { if (!pInfo && filterSize > 0 && childDicNodes->exceeds(filterSize)) {
// All code points have been found. // All code points have been found.

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@ -72,7 +72,7 @@ class DicNodeUtils {
const std::vector<int> *const codePointsFilter, const std::vector<int> *const codePointsFilter,
const ProximityInfo *const pInfo, DicNodeVector *childDicNodes); const ProximityInfo *const pInfo, DicNodeVector *childDicNodes);
static int createAndGetLeavingChildNode(DicNode *dicNode, int pos, static int createAndGetLeavingChildNode(DicNode *dicNode, int pos,
const BinaryDictionaryInfo *const binaryDictionaryInfo, const int terminalDepth, const BinaryDictionaryInfo *const binaryDictionaryInfo,
const ProximityInfoState *pInfoState, const int pointIndex, const ProximityInfoState *pInfoState, const int pointIndex,
const bool exactOnly, const std::vector<int> *const codePointsFilter, const bool exactOnly, const std::vector<int> *const codePointsFilter,
const ProximityInfo *const pInfo, DicNodeVector *childDicNodes); const ProximityInfo *const pInfo, DicNodeVector *childDicNodes);

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@ -63,16 +63,13 @@ class DicNodeVector {
} }
void pushLeavingChild(DicNode *dicNode, const int pos, const uint8_t flags, void pushLeavingChild(DicNode *dicNode, const int pos, const uint8_t flags,
const int childrenPos, const int attributesPos, const int siblingPos, const int childrenPos, const int attributesPos, const int probability,
const int nodeCodePoint, const int childrenCount, const int probability, const bool isTerminal, const bool hasChildren, const uint16_t mergedNodeCodePointCount,
const int bigramProbability, const bool isTerminal, const bool hasMultipleChars, const int *const mergedNodeCodePoints) {
const bool hasChildren, const uint16_t additionalSubwordLength,
const int *additionalSubword) {
ASSERT(!mLock); ASSERT(!mLock);
mDicNodes.push_back(mEmptyNode); mDicNodes.push_back(mEmptyNode);
mDicNodes.back().initAsChild(dicNode, pos, flags, childrenPos, attributesPos, siblingPos, mDicNodes.back().initAsChild(dicNode, pos, flags, childrenPos, attributesPos, probability,
nodeCodePoint, childrenCount, probability, -1 /* bigramProbability */, isTerminal, isTerminal, hasChildren, mergedNodeCodePointCount, mergedNodeCodePoints);
hasMultipleChars, hasChildren, additionalSubwordLength, additionalSubword);
} }
DicNode *operator[](const int id) { DicNode *operator[](const int id) {