c2fbd7c64d
Also, only apply -Winline with GCC 4.6. There are some copy constructors that GCC 4.7/4.8 fail to inline. Change-Id: I97906045224e89377e8ea6add07a79fa088648af
376 lines
14 KiB
C++
376 lines
14 KiB
C++
/*
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* Copyright (C) 2011 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef LATINIME_CORRECTION_H
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#define LATINIME_CORRECTION_H
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#include <cstring> // for memset()
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#include "correction_state.h"
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#include "defines.h"
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#include "proximity_info_state.h"
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namespace latinime {
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class ProximityInfo;
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class Correction {
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public:
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typedef enum {
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TRAVERSE_ALL_ON_TERMINAL,
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TRAVERSE_ALL_NOT_ON_TERMINAL,
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UNRELATED,
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ON_TERMINAL,
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NOT_ON_TERMINAL
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} CorrectionType;
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Correction()
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: mProximityInfo(0), mUseFullEditDistance(false), mDoAutoCompletion(false),
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mMaxEditDistance(0), mMaxDepth(0), mInputSize(0), mSpaceProximityPos(0),
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mMissingSpacePos(0), mTerminalInputIndex(0), mTerminalOutputIndex(0), mMaxErrors(0),
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mTotalTraverseCount(0), mNeedsToTraverseAllNodes(false), mOutputIndex(0),
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mInputIndex(0), mEquivalentCharCount(0), mProximityCount(0), mExcessiveCount(0),
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mTransposedCount(0), mSkippedCount(0), mTransposedPos(0), mExcessivePos(0),
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mSkipPos(0), mLastCharExceeded(false), mMatching(false), mProximityMatching(false),
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mAdditionalProximityMatching(false), mExceeding(false), mTransposing(false),
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mSkipping(false), mProximityInfoState() {
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memset(mWord, 0, sizeof(mWord));
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memset(mDistances, 0, sizeof(mDistances));
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memset(mEditDistanceTable, 0, sizeof(mEditDistanceTable));
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// NOTE: mCorrectionStates is an array of instances.
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// No need to initialize it explicitly here.
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}
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// Non virtual inline destructor -- never inherit this class
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~Correction() {}
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void resetCorrection();
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void initCorrection(const ProximityInfo *pi, const int inputSize, const int maxDepth);
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void initCorrectionState(const int rootPos, const int childCount, const bool traverseAll);
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// TODO: remove
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void setCorrectionParams(const int skipPos, const int excessivePos, const int transposedPos,
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const int spaceProximityPos, const int missingSpacePos, const bool useFullEditDistance,
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const bool doAutoCompletion, const int maxErrors);
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void checkState() const;
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bool sameAsTyped() const;
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bool initProcessState(const int index);
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int getInputIndex() const;
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bool needsToPrune() const;
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int pushAndGetTotalTraverseCount() {
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return ++mTotalTraverseCount;
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}
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int getFreqForSplitMultipleWords(const int *freqArray, const int *wordLengthArray,
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const int wordCount, const bool isSpaceProximity, const int *word) const;
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int getFinalProbability(const int probability, int **word, int *wordLength);
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int getFinalProbabilityForSubQueue(const int probability, int **word, int *wordLength,
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const int inputSize);
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CorrectionType processCharAndCalcState(const int c, const bool isTerminal);
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/////////////////////////
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// Tree helper methods
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int goDownTree(const int parentIndex, const int childCount, const int firstChildPos);
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inline int getTreeSiblingPos(const int index) const {
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return mCorrectionStates[index].mSiblingPos;
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}
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inline void setTreeSiblingPos(const int index, const int pos) {
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mCorrectionStates[index].mSiblingPos = pos;
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}
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inline int getTreeParentIndex(const int index) const {
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return mCorrectionStates[index].mParentIndex;
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}
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class RankingAlgorithm {
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public:
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static int calculateFinalProbability(const int inputIndex, const int depth,
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const int probability, int *editDistanceTable, const Correction *correction,
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const int inputSize);
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static int calcFreqForSplitMultipleWords(const int *freqArray, const int *wordLengthArray,
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const int wordCount, const Correction *correction, const bool isSpaceProximity,
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const int *word);
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static float calcNormalizedScore(const int *before, const int beforeLength,
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const int *after, const int afterLength, const int score);
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static int editDistance(const int *before, const int beforeLength, const int *after,
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const int afterLength);
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private:
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static const int MAX_INITIAL_SCORE = 255;
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};
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// proximity info state
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void initInputParams(const ProximityInfo *proximityInfo, const int *inputCodes,
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const int inputSize, const int *xCoordinates, const int *yCoordinates) {
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mProximityInfoState.initInputParams(0, static_cast<float>(MAX_VALUE_FOR_WEIGHTING),
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proximityInfo, inputCodes, inputSize, xCoordinates, yCoordinates, 0, 0, false);
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}
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const int *getPrimaryInputWord() const {
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return mProximityInfoState.getPrimaryInputWord();
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}
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int getPrimaryCodePointAt(const int index) const {
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return mProximityInfoState.getPrimaryCodePointAt(index);
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}
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private:
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DISALLOW_COPY_AND_ASSIGN(Correction);
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/////////////////////////
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// static inline utils //
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/////////////////////////
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static const int TWO_31ST_DIV_255 = S_INT_MAX / 255;
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static inline int capped255MultForFullMatchAccentsOrCapitalizationDifference(const int num) {
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return (num < TWO_31ST_DIV_255 ? 255 * num : S_INT_MAX);
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}
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static const int TWO_31ST_DIV_2 = S_INT_MAX / 2;
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AK_FORCE_INLINE static void multiplyIntCapped(const int multiplier, int *base) {
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const int temp = *base;
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if (temp != S_INT_MAX) {
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// Branch if multiplier == 2 for the optimization
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if (multiplier < 0) {
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if (DEBUG_DICT) {
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ASSERT(false);
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}
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AKLOGI("--- Invalid multiplier: %d", multiplier);
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} else if (multiplier == 0) {
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*base = 0;
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} else if (multiplier == 2) {
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*base = TWO_31ST_DIV_2 >= temp ? temp << 1 : S_INT_MAX;
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} else {
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// TODO: This overflow check gives a wrong answer when, for example,
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// temp = 2^16 + 1 and multiplier = 2^17 + 1.
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// Fix this behavior.
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const int tempRetval = temp * multiplier;
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*base = tempRetval >= temp ? tempRetval : S_INT_MAX;
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}
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}
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}
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AK_FORCE_INLINE static int powerIntCapped(const int base, const int n) {
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if (n <= 0) return 1;
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if (base == 2) {
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return n < 31 ? 1 << n : S_INT_MAX;
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}
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int ret = base;
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for (int i = 1; i < n; ++i) multiplyIntCapped(base, &ret);
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return ret;
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}
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AK_FORCE_INLINE static void multiplyRate(const int rate, int *freq) {
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if (*freq != S_INT_MAX) {
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if (*freq > 1000000) {
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*freq /= 100;
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multiplyIntCapped(rate, freq);
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} else {
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multiplyIntCapped(rate, freq);
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*freq /= 100;
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}
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}
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}
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inline int getSpaceProximityPos() const {
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return mSpaceProximityPos;
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}
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inline int getMissingSpacePos() const {
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return mMissingSpacePos;
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}
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inline int getSkipPos() const {
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return mSkipPos;
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}
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inline int getExcessivePos() const {
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return mExcessivePos;
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}
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inline int getTransposedPos() const {
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return mTransposedPos;
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}
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inline void incrementInputIndex();
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inline void incrementOutputIndex();
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inline void startToTraverseAllNodes();
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inline bool isSingleQuote(const int c);
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inline CorrectionType processSkipChar(const int c, const bool isTerminal,
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const bool inputIndexIncremented);
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inline CorrectionType processUnrelatedCorrectionType();
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inline void addCharToCurrentWord(const int c);
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inline int getFinalProbabilityInternal(const int probability, int **word, int *wordLength,
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const int inputSize);
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static const int TYPED_LETTER_MULTIPLIER = 2;
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static const int FULL_WORD_MULTIPLIER = 2;
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const ProximityInfo *mProximityInfo;
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bool mUseFullEditDistance;
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bool mDoAutoCompletion;
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int mMaxEditDistance;
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int mMaxDepth;
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int mInputSize;
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int mSpaceProximityPos;
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int mMissingSpacePos;
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int mTerminalInputIndex;
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int mTerminalOutputIndex;
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int mMaxErrors;
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int mTotalTraverseCount;
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// The following arrays are state buffer.
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int mWord[MAX_WORD_LENGTH];
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int mDistances[MAX_WORD_LENGTH];
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// Edit distance calculation requires a buffer with (N+1)^2 length for the input length N.
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// Caveat: Do not create multiple tables per thread as this table eats up RAM a lot.
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int mEditDistanceTable[(MAX_WORD_LENGTH + 1) * (MAX_WORD_LENGTH + 1)];
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CorrectionState mCorrectionStates[MAX_WORD_LENGTH];
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// The following member variables are being used as cache values of the correction state.
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bool mNeedsToTraverseAllNodes;
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int mOutputIndex;
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int mInputIndex;
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int mEquivalentCharCount;
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int mProximityCount;
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int mExcessiveCount;
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int mTransposedCount;
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int mSkippedCount;
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int mTransposedPos;
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int mExcessivePos;
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int mSkipPos;
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bool mLastCharExceeded;
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bool mMatching;
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bool mProximityMatching;
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bool mAdditionalProximityMatching;
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bool mExceeding;
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bool mTransposing;
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bool mSkipping;
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ProximityInfoState mProximityInfoState;
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};
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inline void Correction::incrementInputIndex() {
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++mInputIndex;
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}
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AK_FORCE_INLINE void Correction::incrementOutputIndex() {
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++mOutputIndex;
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mCorrectionStates[mOutputIndex].mParentIndex = mCorrectionStates[mOutputIndex - 1].mParentIndex;
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mCorrectionStates[mOutputIndex].mChildCount = mCorrectionStates[mOutputIndex - 1].mChildCount;
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mCorrectionStates[mOutputIndex].mSiblingPos = mCorrectionStates[mOutputIndex - 1].mSiblingPos;
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mCorrectionStates[mOutputIndex].mInputIndex = mInputIndex;
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mCorrectionStates[mOutputIndex].mNeedsToTraverseAllNodes = mNeedsToTraverseAllNodes;
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mCorrectionStates[mOutputIndex].mEquivalentCharCount = mEquivalentCharCount;
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mCorrectionStates[mOutputIndex].mProximityCount = mProximityCount;
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mCorrectionStates[mOutputIndex].mTransposedCount = mTransposedCount;
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mCorrectionStates[mOutputIndex].mExcessiveCount = mExcessiveCount;
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mCorrectionStates[mOutputIndex].mSkippedCount = mSkippedCount;
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mCorrectionStates[mOutputIndex].mSkipPos = mSkipPos;
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mCorrectionStates[mOutputIndex].mTransposedPos = mTransposedPos;
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mCorrectionStates[mOutputIndex].mExcessivePos = mExcessivePos;
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mCorrectionStates[mOutputIndex].mLastCharExceeded = mLastCharExceeded;
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mCorrectionStates[mOutputIndex].mMatching = mMatching;
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mCorrectionStates[mOutputIndex].mProximityMatching = mProximityMatching;
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mCorrectionStates[mOutputIndex].mAdditionalProximityMatching = mAdditionalProximityMatching;
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mCorrectionStates[mOutputIndex].mTransposing = mTransposing;
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mCorrectionStates[mOutputIndex].mExceeding = mExceeding;
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mCorrectionStates[mOutputIndex].mSkipping = mSkipping;
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}
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inline void Correction::startToTraverseAllNodes() {
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mNeedsToTraverseAllNodes = true;
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}
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AK_FORCE_INLINE bool Correction::isSingleQuote(const int c) {
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const int userTypedChar = mProximityInfoState.getPrimaryCodePointAt(mInputIndex);
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return (c == KEYCODE_SINGLE_QUOTE && userTypedChar != KEYCODE_SINGLE_QUOTE);
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}
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AK_FORCE_INLINE Correction::CorrectionType Correction::processSkipChar(const int c,
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const bool isTerminal, const bool inputIndexIncremented) {
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addCharToCurrentWord(c);
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mTerminalInputIndex = mInputIndex - (inputIndexIncremented ? 1 : 0);
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mTerminalOutputIndex = mOutputIndex;
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incrementOutputIndex();
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if (mNeedsToTraverseAllNodes && isTerminal) {
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return TRAVERSE_ALL_ON_TERMINAL;
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}
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return TRAVERSE_ALL_NOT_ON_TERMINAL;
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}
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inline Correction::CorrectionType Correction::processUnrelatedCorrectionType() {
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// Needs to set mTerminalInputIndex and mTerminalOutputIndex before returning any CorrectionType
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mTerminalInputIndex = mInputIndex;
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mTerminalOutputIndex = mOutputIndex;
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return UNRELATED;
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}
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AK_FORCE_INLINE static void calcEditDistanceOneStep(int *editDistanceTable, const int *input,
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const int inputSize, const int *output, const int outputLength) {
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// TODO: Make sure that editDistance[0 ~ MAX_WORD_LENGTH] is not touched.
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// Let dp[i][j] be editDistanceTable[i * (inputSize + 1) + j].
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// Assuming that dp[0][0] ... dp[outputLength - 1][inputSize] are already calculated,
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// and calculate dp[ouputLength][0] ... dp[outputLength][inputSize].
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int *const current = editDistanceTable + outputLength * (inputSize + 1);
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const int *const prev = editDistanceTable + (outputLength - 1) * (inputSize + 1);
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const int *const prevprev =
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outputLength >= 2 ? editDistanceTable + (outputLength - 2) * (inputSize + 1) : 0;
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current[0] = outputLength;
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const int co = toBaseLowerCase(output[outputLength - 1]);
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const int prevCO = outputLength >= 2 ? toBaseLowerCase(output[outputLength - 2]) : 0;
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for (int i = 1; i <= inputSize; ++i) {
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const int ci = toBaseLowerCase(input[i - 1]);
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const int cost = (ci == co) ? 0 : 1;
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current[i] = min(current[i - 1] + 1, min(prev[i] + 1, prev[i - 1] + cost));
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if (i >= 2 && prevprev && ci == prevCO && co == toBaseLowerCase(input[i - 2])) {
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current[i] = min(current[i], prevprev[i - 2] + 1);
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}
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}
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}
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AK_FORCE_INLINE void Correction::addCharToCurrentWord(const int c) {
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mWord[mOutputIndex] = c;
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const int *primaryInputWord = mProximityInfoState.getPrimaryInputWord();
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calcEditDistanceOneStep(mEditDistanceTable, primaryInputWord, mInputSize, mWord,
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mOutputIndex + 1);
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}
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inline int Correction::getFinalProbabilityInternal(const int probability, int **word,
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int *wordLength, const int inputSize) {
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const int outputIndex = mTerminalOutputIndex;
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const int inputIndex = mTerminalInputIndex;
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*wordLength = outputIndex + 1;
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*word = mWord;
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int finalProbability= Correction::RankingAlgorithm::calculateFinalProbability(
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inputIndex, outputIndex, probability, mEditDistanceTable, this, inputSize);
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return finalProbability;
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}
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} // namespace latinime
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#endif // LATINIME_CORRECTION_H
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