diff options
Diffstat (limited to 'native/jni/src')
| -rw-r--r-- | native/jni/src/binary_format.h | 2 | ||||
| -rw-r--r-- | native/jni/src/defines.h | 6 | ||||
| -rw-r--r-- | native/jni/src/proximity_info_state.cpp | 85 | ||||
| -rw-r--r-- | native/jni/src/proximity_info_state.h | 25 |
4 files changed, 88 insertions, 30 deletions
diff --git a/native/jni/src/binary_format.h b/native/jni/src/binary_format.h index 86410fb8f..d1e8316de 100644 --- a/native/jni/src/binary_format.h +++ b/native/jni/src/binary_format.h @@ -17,7 +17,7 @@ #ifndef LATINIME_BINARY_FORMAT_H #define LATINIME_BINARY_FORMAT_H -#include <cctype> +#include <cstdlib> #include <limits> #include <map> #include "bloom_filter.h" diff --git a/native/jni/src/defines.h b/native/jni/src/defines.h index c504cecf9..38090275f 100644 --- a/native/jni/src/defines.h +++ b/native/jni/src/defines.h @@ -429,4 +429,10 @@ typedef enum { // Additional proximity char which can differ by language. ADDITIONAL_PROXIMITY_CHAR } ProximityType; + +typedef enum { + NOT_A_DOUBLE_LETTER, + A_DOUBLE_LETTER, + A_STRONG_DOUBLE_LETTER +} DoubleLetterLevel; #endif // LATINIME_DEFINES_H diff --git a/native/jni/src/proximity_info_state.cpp b/native/jni/src/proximity_info_state.cpp index 740e1a24e..a1e20cfeb 100644 --- a/native/jni/src/proximity_info_state.cpp +++ b/native/jni/src/proximity_info_state.cpp @@ -31,6 +31,10 @@ const int ProximityInfoState::NORMALIZED_SQUARED_DISTANCE_SCALING_FACTOR = 1 << NORMALIZED_SQUARED_DISTANCE_SCALING_FACTOR_LOG_2; const float ProximityInfoState::NOT_A_DISTANCE_FLOAT = -1.0f; const int ProximityInfoState::NOT_A_CODE = -1; +const int ProximityInfoState::LOOKUP_RADIUS_PERCENTILE = 50; +const int ProximityInfoState::FIRST_POINT_TIME_OFFSET_MILLIS = 150; +const int ProximityInfoState::STRONG_DOUBLE_LETTER_TIME_MILLIS = 600; +const int ProximityInfoState::MIN_DOUBLE_LETTER_BEELINE_SPEED_PERCENTILE = 5; void ProximityInfoState::initInputParams(const int pointerId, const float maxPointToKeyLength, const ProximityInfo *proximityInfo, const int *const inputCodes, const int inputSize, @@ -105,7 +109,7 @@ void ProximityInfoState::initInputParams(const int pointerId, const float maxPoi mNearKeysVector.clear(); mSearchKeysVector.clear(); mSpeedRates.clear(); - mBeelineSpeedRates.clear(); + mBeelineSpeedPercentiles.clear(); mCharProbabilities.clear(); mDirections.clear(); } @@ -253,9 +257,9 @@ void ProximityInfoState::initInputParams(const int pointerId, const float maxPoi AKLOGI("===== sampled points ====="); for (int i = 0; i < mSampledInputSize; ++i) { if (isGeometric) { - AKLOGI("%d: x = %d, y = %d, time = %d, relative speed = %.4f, beeline speed = %.4f", + AKLOGI("%d: x = %d, y = %d, time = %d, relative speed = %.4f, beeline speed = %d", i, mSampledInputXs[i], mSampledInputYs[i], mTimes[i], mSpeedRates[i], - getBeelineSpeedRate(i)); + getBeelineSpeedPercentile(i)); } sampledX << mSampledInputXs[i]; sampledY << mSampledInputYs[i]; @@ -366,54 +370,65 @@ void ProximityInfoState::refreshSpeedRates(const int inputSize, const int *const } } +static const int MAX_PERCENTILE = 100; void ProximityInfoState::refreshBeelineSpeedRates(const int inputSize, const int *const xCoordinates, const int *const yCoordinates, const int * times) { - mBeelineSpeedRates.resize(mSampledInputSize); + if (DEBUG_SAMPLING_POINTS){ + AKLOGI("--- refresh beeline speed rates"); + } + mBeelineSpeedPercentiles.resize(mSampledInputSize); for (int i = 0; i < mSampledInputSize; ++i) { - mBeelineSpeedRates[i] = calculateBeelineSpeedRate( - i, inputSize, xCoordinates, yCoordinates, times); + mBeelineSpeedPercentiles[i] = static_cast<int>(calculateBeelineSpeedRate( + i, inputSize, xCoordinates, yCoordinates, times) * MAX_PERCENTILE); } } float ProximityInfoState::calculateBeelineSpeedRate( const int id, const int inputSize, const int *const xCoordinates, const int *const yCoordinates, const int * times) const { - static const int MAX_PERCENTILE = 100; - static const int LOOKUP_TIME_PERCENTILE = 30; - static const int LOOKUP_RADIUS_PERCENTILE = 50; - if (mSampledInputSize <= 0 || mAverageSpeed < 0.1f) { + if (mSampledInputSize <= 0 || mAverageSpeed < 0.001f) { + if (DEBUG_SAMPLING_POINTS){ + AKLOGI("--- invalid state: cancel. size = %d, ave = %f", + mSampledInputSize, mAverageSpeed); + } return 1.0f; } const int lookupRadius = mProximityInfo->getMostCommonKeyWidth() * LOOKUP_RADIUS_PERCENTILE / MAX_PERCENTILE; const int x0 = mSampledInputXs[id]; const int y0 = mSampledInputYs[id]; - const int lookupTime = - (mTimes.back() - mTimes.front()) * LOOKUP_TIME_PERCENTILE / MAX_PERCENTILE; - if (lookupTime <= 0) { - return 1.0f; - } + const int actualInputIndex = mInputIndice[id]; int tempTime = 0; int tempBeelineDistance = 0; - int start = mInputIndice[id]; + int start = actualInputIndex; // lookup forward - while (start > 0 && tempTime < lookupTime && tempBeelineDistance < lookupRadius) { + while (start > 0 && tempBeelineDistance < lookupRadius) { tempTime += times[start] - times[start - 1]; --start; tempBeelineDistance = getDistanceInt(x0, y0, xCoordinates[start], yCoordinates[start]); } + // Exclusive unless this is an edge point + if (start > 0 && start < actualInputIndex) { + ++start; + } tempTime= 0; tempBeelineDistance = 0; - int end = mInputIndice[id]; + int end = actualInputIndex; // lookup backward - while (end < static_cast<int>(inputSize - 1) && tempTime < lookupTime - && tempBeelineDistance < lookupRadius) { + while (end < (inputSize - 1) && tempBeelineDistance < lookupRadius) { tempTime += times[end + 1] - times[end]; ++end; - tempBeelineDistance = getDistanceInt(x0, y0, xCoordinates[start], yCoordinates[start]); + tempBeelineDistance = getDistanceInt(x0, y0, xCoordinates[end], yCoordinates[end]); + } + // Exclusive unless this is an edge point + if (end > actualInputIndex && end < (inputSize - 1)) { + --end; } - if (start == end) { + if (start >= end) { + if (DEBUG_DOUBLE_LETTER) { + AKLOGI("--- double letter: start == end %d", start); + } return 1.0f; } @@ -422,11 +437,33 @@ float ProximityInfoState::calculateBeelineSpeedRate( const int x3 = xCoordinates[end]; const int y3 = yCoordinates[end]; const int beelineDistance = getDistanceInt(x2, y2, x3, y3); - const int time = times[end] - times[start]; + int adjustedStartTime = times[start]; + if (start == 0 && actualInputIndex == 0 && inputSize > 1) { + adjustedStartTime += FIRST_POINT_TIME_OFFSET_MILLIS; + } + int adjustedEndTime = times[end]; + if (end == (inputSize - 1) && inputSize > 1) { + adjustedEndTime -= FIRST_POINT_TIME_OFFSET_MILLIS; + } + const int time = adjustedEndTime - adjustedStartTime; if (time <= 0) { return 1.0f; } - return (static_cast<float>(beelineDistance) / static_cast<float>(time)) / mAverageSpeed; + + if (time >= STRONG_DOUBLE_LETTER_TIME_MILLIS){ + return 0.0f; + } + if (DEBUG_DOUBLE_LETTER) { + AKLOGI("--- (%d, %d) double letter: start = %d, end = %d, dist = %d, time = %d, speed = %f," + " ave = %f, val = %f, start time = %d, end time = %d", + id, mInputIndice[id], start, end, beelineDistance, time, + (static_cast<float>(beelineDistance) / static_cast<float>(time)), mAverageSpeed, + ((static_cast<float>(beelineDistance) / static_cast<float>(time)) / mAverageSpeed), + adjustedStartTime, adjustedEndTime); + } + // Offset 1% + // TODO: Detect double letter more smartly + return 0.01f + static_cast<float>(beelineDistance) / static_cast<float>(time) / mAverageSpeed; } bool ProximityInfoState::checkAndReturnIsContinuationPossible(const int inputSize, diff --git a/native/jni/src/proximity_info_state.h b/native/jni/src/proximity_info_state.h index 97281af1c..5f968e17a 100644 --- a/native/jni/src/proximity_info_state.h +++ b/native/jni/src/proximity_info_state.h @@ -39,6 +39,10 @@ class ProximityInfoState { static const int NORMALIZED_SQUARED_DISTANCE_SCALING_FACTOR; static const float NOT_A_DISTANCE_FLOAT; static const int NOT_A_CODE; + static const int LOOKUP_RADIUS_PERCENTILE; + static const int FIRST_POINT_TIME_OFFSET_MILLIS; + static const int STRONG_DOUBLE_LETTER_TIME_MILLIS; + static const int MIN_DOUBLE_LETTER_BEELINE_SPEED_PERCENTILE; ///////////////////////////////////////// // Defined in proximity_info_state.cpp // @@ -56,8 +60,8 @@ class ProximityInfoState { mHasTouchPositionCorrectionData(false), mMostCommonKeyWidthSquare(0), mLocaleStr(), mKeyCount(0), mCellHeight(0), mCellWidth(0), mGridHeight(0), mGridWidth(0), mIsContinuationPossible(false), mSampledInputXs(), mSampledInputYs(), mTimes(), - mInputIndice(), mLengthCache(), mDistanceCache(), mSpeedRates(), - mDirections(), mBeelineSpeedRates(), mCharProbabilities(), mNearKeysVector(), + mInputIndice(), mLengthCache(), mBeelineSpeedPercentiles(), mDistanceCache(), + mSpeedRates(), mDirections(), mCharProbabilities(), mNearKeysVector(), mSearchKeysVector(), mTouchPositionCorrectionEnabled(false), mSampledInputSize(0) { memset(mInputCodes, 0, sizeof(mInputCodes)); memset(mNormalizedSquaredDistances, 0, sizeof(mNormalizedSquaredDistances)); @@ -167,8 +171,19 @@ class ProximityInfoState { return mSpeedRates[index]; } - AK_FORCE_INLINE float getBeelineSpeedRate(const int id) const { - return mBeelineSpeedRates[id]; + AK_FORCE_INLINE int getBeelineSpeedPercentile(const int id) const { + return mBeelineSpeedPercentiles[id]; + } + + AK_FORCE_INLINE DoubleLetterLevel getDoubleLetterLevel(const int id) const { + const int beelineSpeedRate = getBeelineSpeedPercentile(id); + if (beelineSpeedRate == 0) { + return A_STRONG_DOUBLE_LETTER; + } else if (beelineSpeedRate < MIN_DOUBLE_LETTER_BEELINE_SPEED_PERCENTILE) { + return A_DOUBLE_LETTER; + } else { + return NOT_A_DOUBLE_LETTER; + } } float getDirection(const int index) const { @@ -259,10 +274,10 @@ class ProximityInfoState { std::vector<int> mTimes; std::vector<int> mInputIndice; std::vector<int> mLengthCache; + std::vector<int> mBeelineSpeedPercentiles; std::vector<float> mDistanceCache; std::vector<float> mSpeedRates; std::vector<float> mDirections; - std::vector<float> mBeelineSpeedRates; // probabilities of skipping or mapping to a key for each point. std::vector<hash_map_compat<int, float> > mCharProbabilities; // The vector for the key code set which holds nearby keys for each sampled input point |