/* * Copyright (C) 2011 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); you may not * use this file except in compliance with the License. You may obtain a copy of * the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the * License for the specific language governing permissions and limitations under * the License. */ package com.android.inputmethod.keyboard; import android.graphics.Rect; import com.android.inputmethod.keyboard.Keyboard.Params.TouchPositionCorrection; import com.android.inputmethod.latin.JniUtils; import com.android.inputmethod.latin.spellcheck.SpellCheckerProximityInfo; import java.util.Arrays; import java.util.Collections; import java.util.HashMap; import java.util.List; import java.util.Map; import java.util.Set; public class ProximityInfo { public static final int MAX_PROXIMITY_CHARS_SIZE = 16; /** Number of key widths from current touch point to search for nearest keys. */ private static float SEARCH_DISTANCE = 1.2f; private static final Key[] EMPTY_KEY_ARRAY = new Key[0]; private final int mKeyHeight; private final int mGridWidth; private final int mGridHeight; private final int mGridSize; private final int mCellWidth; private final int mCellHeight; // TODO: Find a proper name for mKeyboardMinWidth private final int mKeyboardMinWidth; private final int mKeyboardHeight; private final int mMostCommonKeyWidth; private final Key[][] mGridNeighbors; ProximityInfo(int gridWidth, int gridHeight, int minWidth, int height, int mostCommonKeyWidth, int mostCommonKeyHeight, Set keys, TouchPositionCorrection touchPositionCorrection, Map> additionalProximityChars) { mGridWidth = gridWidth; mGridHeight = gridHeight; mGridSize = mGridWidth * mGridHeight; mCellWidth = (minWidth + mGridWidth - 1) / mGridWidth; mCellHeight = (height + mGridHeight - 1) / mGridHeight; mKeyboardMinWidth = minWidth; mKeyboardHeight = height; mKeyHeight = mostCommonKeyHeight; mMostCommonKeyWidth = mostCommonKeyWidth; mGridNeighbors = new Key[mGridSize][]; if (minWidth == 0 || height == 0) { // No proximity required. Keyboard might be more keys keyboard. return; } computeNearestNeighbors( mostCommonKeyWidth, keys, touchPositionCorrection, additionalProximityChars); } public static ProximityInfo createDummyProximityInfo() { return new ProximityInfo(1, 1, 1, 1, 1, 1, Collections. emptySet(), null, Collections.> emptyMap()); } public static ProximityInfo createSpellCheckerProximityInfo(final int[] proximity) { final ProximityInfo spellCheckerProximityInfo = createDummyProximityInfo(); spellCheckerProximityInfo.mNativeProximityInfo = spellCheckerProximityInfo.setProximityInfoNative( SpellCheckerProximityInfo.ROW_SIZE, 480, 300, 11, 3, (480 / 10), proximity, 0, null, null, null, null, null, null, null, null); return spellCheckerProximityInfo; } private long mNativeProximityInfo; static { JniUtils.loadNativeLibrary(); } private native long setProximityInfoNative(int maxProximityCharsSize, int displayWidth, int displayHeight, int gridWidth, int gridHeight, int mostCommonKeyWidth, int[] proximityCharsArray, int keyCount, int[] keyXCoordinates, int[] keyYCoordinates, int[] keyWidths, int[] keyHeights, int[] keyCharCodes, float[] sweetSpotCenterX, float[] sweetSpotCenterY, float[] sweetSpotRadii); private native void releaseProximityInfoNative(long nativeProximityInfo); private final void setProximityInfo(Key[][] gridNeighborKeys, int keyboardWidth, int keyboardHeight, Set keys, TouchPositionCorrection touchPositionCorrection) { final int[] proximityCharsArray = new int[mGridSize * MAX_PROXIMITY_CHARS_SIZE]; Arrays.fill(proximityCharsArray, KeyDetector.NOT_A_CODE); for (int i = 0; i < mGridSize; ++i) { final int proximityCharsLength = gridNeighborKeys[i].length; for (int j = 0; j < proximityCharsLength; ++j) { proximityCharsArray[i * MAX_PROXIMITY_CHARS_SIZE + j] = gridNeighborKeys[i][j].mCode; } } final int keyCount = keys.size(); final int[] keyXCoordinates = new int[keyCount]; final int[] keyYCoordinates = new int[keyCount]; final int[] keyWidths = new int[keyCount]; final int[] keyHeights = new int[keyCount]; final int[] keyCharCodes = new int[keyCount]; final float[] sweetSpotCenterXs; final float[] sweetSpotCenterYs; final float[] sweetSpotRadii; final boolean calculateSweetSpotParams; if (touchPositionCorrection != null && touchPositionCorrection.isValid()) { sweetSpotCenterXs = new float[keyCount]; sweetSpotCenterYs = new float[keyCount]; sweetSpotRadii = new float[keyCount]; calculateSweetSpotParams = true; int i = 0; for (final Key key : keys) { keyXCoordinates[i] = key.mX; keyYCoordinates[i] = key.mY; keyWidths[i] = key.mWidth; keyHeights[i] = key.mHeight; keyCharCodes[i] = key.mCode; if (calculateSweetSpotParams) { final Rect hitBox = key.mHitBox; final int row = hitBox.top / mKeyHeight; if (row < touchPositionCorrection.mRadii.length) { final float hitBoxCenterX = (hitBox.left + hitBox.right) * 0.5f; final float hitBoxCenterY = (hitBox.top + hitBox.bottom) * 0.5f; final float hitBoxWidth = hitBox.right - hitBox.left; final float hitBoxHeight = hitBox.bottom - hitBox.top; final float x = touchPositionCorrection.mXs[row]; final float y = touchPositionCorrection.mYs[row]; final float radius = touchPositionCorrection.mRadii[row]; sweetSpotCenterXs[i] = hitBoxCenterX + x * hitBoxWidth; sweetSpotCenterYs[i] = hitBoxCenterY + y * hitBoxHeight; sweetSpotRadii[i] = radius * (float) Math.sqrt( hitBoxWidth * hitBoxWidth + hitBoxHeight * hitBoxHeight); } } i++; } } else { sweetSpotCenterXs = sweetSpotCenterYs = sweetSpotRadii = null; calculateSweetSpotParams = false; } mNativeProximityInfo = setProximityInfoNative(MAX_PROXIMITY_CHARS_SIZE, keyboardWidth, keyboardHeight, mGridWidth, mGridHeight, mMostCommonKeyWidth, proximityCharsArray, keyCount, keyXCoordinates, keyYCoordinates, keyWidths, keyHeights, keyCharCodes, sweetSpotCenterXs, sweetSpotCenterYs, sweetSpotRadii); } public long getNativeProximityInfo() { return mNativeProximityInfo; } @Override protected void finalize() throws Throwable { try { if (mNativeProximityInfo != 0) { releaseProximityInfoNative(mNativeProximityInfo); mNativeProximityInfo = 0; } } finally { super.finalize(); } } private void computeNearestNeighbors(int defaultWidth, Set keys, TouchPositionCorrection touchPositionCorrection, Map> additionalProximityChars) { final Map keyCodeMap = new HashMap(); for (final Key key : keys) { keyCodeMap.put(key.mCode, key); } final int thresholdBase = (int) (defaultWidth * SEARCH_DISTANCE); final int threshold = thresholdBase * thresholdBase; // Round-up so we don't have any pixels outside the grid final Key[] neighborKeys = new Key[keys.size()]; final int gridWidth = mGridWidth * mCellWidth; final int gridHeight = mGridHeight * mCellHeight; for (int x = 0; x < gridWidth; x += mCellWidth) { for (int y = 0; y < gridHeight; y += mCellHeight) { final int centerX = x + mCellWidth / 2; final int centerY = y + mCellHeight / 2; int count = 0; for (final Key key : keys) { if (key.isSpacer()) continue; if (key.squaredDistanceToEdge(centerX, centerY) < threshold) { neighborKeys[count++] = key; } } int currentCodesSize = count; for (int i = 0; i < currentCodesSize; ++i) { final int c = neighborKeys[i].mCode; final List additionalChars = additionalProximityChars.get(c); if (additionalChars == null || additionalChars.size() == 0) { continue; } for (int j = 0; j < additionalChars.size(); ++j) { final int additionalChar = additionalChars.get(j); boolean contains = false; for (int k = 0; k < count; ++k) { if(additionalChar == neighborKeys[k].mCode) { contains = true; break; } } if (!contains) { neighborKeys[count++] = keyCodeMap.get(additionalChar); } } } mGridNeighbors[(y / mCellHeight) * mGridWidth + (x / mCellWidth)] = Arrays.copyOfRange(neighborKeys, 0, count); } } setProximityInfo(mGridNeighbors, mKeyboardMinWidth, mKeyboardHeight, keys, touchPositionCorrection); } public Key[] getNearestKeys(int x, int y) { if (mGridNeighbors == null) { return EMPTY_KEY_ARRAY; } if (x >= 0 && x < mKeyboardMinWidth && y >= 0 && y < mKeyboardHeight) { int index = (y / mCellHeight) * mGridWidth + (x / mCellWidth); if (index < mGridSize) { return mGridNeighbors[index]; } } return EMPTY_KEY_ARRAY; } }