/* * Copyright (C) 2010 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.content.res.Resources; import android.content.res.TypedArray; import android.os.SystemClock; import android.util.DisplayMetrics; import android.util.Log; import android.view.MotionEvent; import com.android.inputmethod.accessibility.AccessibilityUtils; import com.android.inputmethod.keyboard.internal.GestureStroke; import com.android.inputmethod.keyboard.internal.GestureStroke.GestureStrokeParams; import com.android.inputmethod.keyboard.internal.GestureStrokeWithPreviewPoints; import com.android.inputmethod.keyboard.internal.GestureStrokeWithPreviewPoints.GestureStrokePreviewParams; import com.android.inputmethod.keyboard.internal.PointerTrackerQueue; import com.android.inputmethod.latin.Constants; import com.android.inputmethod.latin.InputPointers; import com.android.inputmethod.latin.LatinImeLogger; import com.android.inputmethod.latin.R; import com.android.inputmethod.latin.define.ProductionFlag; import com.android.inputmethod.latin.settings.Settings; import com.android.inputmethod.latin.utils.CollectionUtils; import com.android.inputmethod.latin.utils.CoordinateUtils; import com.android.inputmethod.latin.utils.ResourceUtils; import com.android.inputmethod.research.ResearchLogger; import java.util.ArrayList; public final class PointerTracker implements PointerTrackerQueue.Element { private static final String TAG = PointerTracker.class.getSimpleName(); private static final boolean DEBUG_EVENT = false; private static final boolean DEBUG_MOVE_EVENT = false; private static final boolean DEBUG_LISTENER = false; private static boolean DEBUG_MODE = LatinImeLogger.sDBG || DEBUG_EVENT; /** True if {@link PointerTracker}s should handle gesture events. */ private static boolean sShouldHandleGesture = false; private static boolean sMainDictionaryAvailable = false; private static boolean sGestureHandlingEnabledByInputField = false; private static boolean sGestureHandlingEnabledByUser = false; public interface KeyEventHandler { /** * Get KeyDetector object that is used for this PointerTracker. * @return the KeyDetector object that is used for this PointerTracker */ public KeyDetector getKeyDetector(); /** * Get KeyboardActionListener object that is used to register key code and so on. * @return the KeyboardActionListner for this PointerTracke */ public KeyboardActionListener getKeyboardActionListener(); /** * Get DrawingProxy object that is used for this PointerTracker. * @return the DrawingProxy object that is used for this PointerTracker */ public DrawingProxy getDrawingProxy(); /** * Get TimerProxy object that handles key repeat and long press timer event for this * PointerTracker. * @return the TimerProxy object that handles key repeat and long press timer event. */ public TimerProxy getTimerProxy(); } public interface DrawingProxy { public void invalidateKey(Key key); public void showKeyPreview(PointerTracker tracker); public void dismissKeyPreview(PointerTracker tracker); public void showSlidingKeyInputPreview(PointerTracker tracker); public void dismissSlidingKeyInputPreview(); public void showGestureTrail(PointerTracker tracker, boolean showsFloatingPreviewText); } public interface TimerProxy { public void startTypingStateTimer(Key typedKey); public boolean isTypingState(); public void startKeyRepeatTimer(PointerTracker tracker, int repeatCount, int delay); public void startLongPressTimer(PointerTracker tracker, int delay); public void cancelLongPressTimer(); public void startDoubleTapShiftKeyTimer(); public void cancelDoubleTapShiftKeyTimer(); public boolean isInDoubleTapShiftKeyTimeout(); public void cancelKeyTimers(); public void startUpdateBatchInputTimer(PointerTracker tracker); public void cancelUpdateBatchInputTimer(PointerTracker tracker); public void cancelAllUpdateBatchInputTimers(); public static class Adapter implements TimerProxy { @Override public void startTypingStateTimer(Key typedKey) {} @Override public boolean isTypingState() { return false; } @Override public void startKeyRepeatTimer(PointerTracker tracker, int repeatCount, int delay) {} @Override public void startLongPressTimer(PointerTracker tracker, int delay) {} @Override public void cancelLongPressTimer() {} @Override public void startDoubleTapShiftKeyTimer() {} @Override public void cancelDoubleTapShiftKeyTimer() {} @Override public boolean isInDoubleTapShiftKeyTimeout() { return false; } @Override public void cancelKeyTimers() {} @Override public void startUpdateBatchInputTimer(PointerTracker tracker) {} @Override public void cancelUpdateBatchInputTimer(PointerTracker tracker) {} @Override public void cancelAllUpdateBatchInputTimers() {} } } static final class PointerTrackerParams { public final boolean mSlidingKeyInputEnabled; public final int mTouchNoiseThresholdTime; public final int mTouchNoiseThresholdDistance; public final int mSuppressKeyPreviewAfterBatchInputDuration; public final int mKeyRepeatStartTimeout; public final int mKeyRepeatInterval; public final int mLongPressShiftLockTimeout; public static final PointerTrackerParams DEFAULT = new PointerTrackerParams(); private PointerTrackerParams() { mSlidingKeyInputEnabled = false; mTouchNoiseThresholdTime = 0; mTouchNoiseThresholdDistance = 0; mSuppressKeyPreviewAfterBatchInputDuration = 0; mKeyRepeatStartTimeout = 0; mKeyRepeatInterval = 0; mLongPressShiftLockTimeout = 0; } public PointerTrackerParams(final TypedArray mainKeyboardViewAttr) { mSlidingKeyInputEnabled = mainKeyboardViewAttr.getBoolean( R.styleable.MainKeyboardView_slidingKeyInputEnable, false); mTouchNoiseThresholdTime = mainKeyboardViewAttr.getInt( R.styleable.MainKeyboardView_touchNoiseThresholdTime, 0); mTouchNoiseThresholdDistance = mainKeyboardViewAttr.getDimensionPixelSize( R.styleable.MainKeyboardView_touchNoiseThresholdDistance, 0); mSuppressKeyPreviewAfterBatchInputDuration = mainKeyboardViewAttr.getInt( R.styleable.MainKeyboardView_suppressKeyPreviewAfterBatchInputDuration, 0); mKeyRepeatStartTimeout = mainKeyboardViewAttr.getInt( R.styleable.MainKeyboardView_keyRepeatStartTimeout, 0); mKeyRepeatInterval = mainKeyboardViewAttr.getInt( R.styleable.MainKeyboardView_keyRepeatInterval, 0); mLongPressShiftLockTimeout = mainKeyboardViewAttr.getInt( R.styleable.MainKeyboardView_longPressShiftLockTimeout, 0); } } // Parameters for pointer handling. private static PointerTrackerParams sParams; private static GestureStrokeParams sGestureStrokeParams; private static GestureStrokePreviewParams sGesturePreviewParams; private static boolean sNeedsPhantomSuddenMoveEventHack; // Move this threshold to resource. // TODO: Device specific parameter would be better for device specific hack? private static final float PHANTOM_SUDDEN_MOVE_THRESHOLD = 0.25f; // in keyWidth // This hack is applied to certain classes of tablets. // See {@link #needsProximateBogusDownMoveUpEventHack(Resources)}. private static boolean sNeedsProximateBogusDownMoveUpEventHack; private static final ArrayList sTrackers = CollectionUtils.newArrayList(); private static final PointerTrackerQueue sPointerTrackerQueue = new PointerTrackerQueue(); public final int mPointerId; private DrawingProxy mDrawingProxy; private TimerProxy mTimerProxy; private KeyDetector mKeyDetector; private KeyboardActionListener mListener = KeyboardActionListener.EMPTY_LISTENER; private Keyboard mKeyboard; private int mPhantonSuddenMoveThreshold; private final BogusMoveEventDetector mBogusMoveEventDetector = new BogusMoveEventDetector(); private boolean mIsDetectingGesture = false; // per PointerTracker. private static boolean sInGesture = false; private static long sGestureFirstDownTime; private static TimeRecorder sTimeRecorder; private static final InputPointers sAggregratedPointers = new InputPointers( GestureStroke.DEFAULT_CAPACITY); private static int sLastRecognitionPointSize = 0; // synchronized using sAggregratedPointers private static long sLastRecognitionTime = 0; // synchronized using sAggregratedPointers static final class BogusMoveEventDetector { // Move these thresholds to resource. // These thresholds' unit is a diagonal length of a key. private static final float BOGUS_MOVE_ACCUMULATED_DISTANCE_THRESHOLD = 0.53f; private static final float BOGUS_MOVE_RADIUS_THRESHOLD = 1.14f; private int mAccumulatedDistanceThreshold; private int mRadiusThreshold; // Accumulated distance from actual and artificial down keys. /* package */ int mAccumulatedDistanceFromDownKey; private int mActualDownX; private int mActualDownY; public void setKeyboardGeometry(final int keyWidth, final int keyHeight) { final float keyDiagonal = (float)Math.hypot(keyWidth, keyHeight); mAccumulatedDistanceThreshold = (int)( keyDiagonal * BOGUS_MOVE_ACCUMULATED_DISTANCE_THRESHOLD); mRadiusThreshold = (int)(keyDiagonal * BOGUS_MOVE_RADIUS_THRESHOLD); } public void onActualDownEvent(final int x, final int y) { mActualDownX = x; mActualDownY = y; } public void onDownKey() { mAccumulatedDistanceFromDownKey = 0; } public void onMoveKey(final int distance) { mAccumulatedDistanceFromDownKey += distance; } public boolean hasTraveledLongDistance(final int x, final int y) { final int dx = Math.abs(x - mActualDownX); final int dy = Math.abs(y - mActualDownY); // A bogus move event should be a horizontal movement. A vertical movement might be // a sloppy typing and should be ignored. return dx >= dy && mAccumulatedDistanceFromDownKey >= mAccumulatedDistanceThreshold; } /* package */ int getDistanceFromDownEvent(final int x, final int y) { return getDistance(x, y, mActualDownX, mActualDownY); } public boolean isCloseToActualDownEvent(final int x, final int y) { return getDistanceFromDownEvent(x, y) < mRadiusThreshold; } } static final class TimeRecorder { private final int mSuppressKeyPreviewAfterBatchInputDuration; private final int mStaticTimeThresholdAfterFastTyping; // msec private long mLastTypingTime; private long mLastLetterTypingTime; private long mLastBatchInputTime; public TimeRecorder(final PointerTrackerParams pointerTrackerParams, final GestureStrokeParams gestureStrokeParams) { mSuppressKeyPreviewAfterBatchInputDuration = pointerTrackerParams.mSuppressKeyPreviewAfterBatchInputDuration; mStaticTimeThresholdAfterFastTyping = gestureStrokeParams.mStaticTimeThresholdAfterFastTyping; } public boolean isInFastTyping(final long eventTime) { final long elapsedTimeSinceLastLetterTyping = eventTime - mLastLetterTypingTime; return elapsedTimeSinceLastLetterTyping < mStaticTimeThresholdAfterFastTyping; } private boolean wasLastInputTyping() { return mLastTypingTime >= mLastBatchInputTime; } public void onCodeInput(final int code, final long eventTime) { // Record the letter typing time when // 1. Letter keys are typed successively without any batch input in between. // 2. A letter key is typed within the threshold time since the last any key typing. // 3. A non-letter key is typed within the threshold time since the last letter key // typing. if (Character.isLetter(code)) { if (wasLastInputTyping() || eventTime - mLastTypingTime < mStaticTimeThresholdAfterFastTyping) { mLastLetterTypingTime = eventTime; } } else { if (eventTime - mLastLetterTypingTime < mStaticTimeThresholdAfterFastTyping) { // This non-letter typing should be treated as a part of fast typing. mLastLetterTypingTime = eventTime; } } mLastTypingTime = eventTime; } public void onEndBatchInput(final long eventTime) { mLastBatchInputTime = eventTime; } public long getLastLetterTypingTime() { return mLastLetterTypingTime; } public boolean needsToSuppressKeyPreviewPopup(final long eventTime) { return !wasLastInputTyping() && eventTime - mLastBatchInputTime < mSuppressKeyPreviewAfterBatchInputDuration; } } // The position and time at which first down event occurred. private long mDownTime; private int[] mDownCoordinates = CoordinateUtils.newInstance(); private long mUpTime; // The current key where this pointer is. private Key mCurrentKey = null; // The position where the current key was recognized for the first time. private int mKeyX; private int mKeyY; // Last pointer position. private int mLastX; private int mLastY; // true if keyboard layout has been changed. private boolean mKeyboardLayoutHasBeenChanged; // true if this pointer is no longer triggering any action because it has been canceled. private boolean mIsTrackingForActionDisabled; // the more keys panel currently being shown. equals null if no panel is active. private MoreKeysPanel mMoreKeysPanel; private static final int MULTIPLIER_FOR_LONG_PRESS_TIMEOUT_IN_SLIDING_INPUT = 3; // true if this pointer is in a sliding key input. boolean mIsInSlidingKeyInput; // true if this pointer is in a sliding key input from a modifier key, // so that further modifier keys should be ignored. boolean mIsInSlidingKeyInputFromModifier; // true if a sliding key input is allowed. private boolean mIsAllowedSlidingKeyInput; private final GestureStrokeWithPreviewPoints mGestureStrokeWithPreviewPoints; private static final int SMALL_TABLET_SMALLEST_WIDTH = 600; // dp private static final int LARGE_TABLET_SMALLEST_WIDTH = 768; // dp private static boolean needsProximateBogusDownMoveUpEventHack(final Resources res) { // The proximate bogus down move up event hack is needed for a device such like, // 1) is large tablet, or 2) is small tablet and the screen density is less than hdpi. // Though it seems odd to use screen density as criteria of the quality of the touch // screen, the small table that has a less density screen than hdpi most likely has been // made with the touch screen that needs the hack. final int sw = res.getConfiguration().smallestScreenWidthDp; final boolean isLargeTablet = (sw >= LARGE_TABLET_SMALLEST_WIDTH); final boolean isSmallTablet = (sw >= SMALL_TABLET_SMALLEST_WIDTH && sw < LARGE_TABLET_SMALLEST_WIDTH); final int densityDpi = res.getDisplayMetrics().densityDpi; final boolean hasLowDensityScreen = (densityDpi < DisplayMetrics.DENSITY_HIGH); final boolean needsTheHack = isLargeTablet || (isSmallTablet && hasLowDensityScreen); if (DEBUG_MODE) { Log.d(TAG, "needsProximateBogusDownMoveUpEventHack=" + needsTheHack + " smallestScreenWidthDp=" + sw + " densityDpi=" + densityDpi); } return needsTheHack; } public static void init(final Resources res) { sNeedsPhantomSuddenMoveEventHack = Boolean.parseBoolean( ResourceUtils.getDeviceOverrideValue( res, R.array.phantom_sudden_move_event_device_list)); sNeedsProximateBogusDownMoveUpEventHack = needsProximateBogusDownMoveUpEventHack(res); sParams = PointerTrackerParams.DEFAULT; sGestureStrokeParams = GestureStrokeParams.DEFAULT; sGesturePreviewParams = GestureStrokePreviewParams.DEFAULT; sTimeRecorder = new TimeRecorder(sParams, sGestureStrokeParams); } public static void setParameters(final TypedArray mainKeyboardViewAttr) { sParams = new PointerTrackerParams(mainKeyboardViewAttr); sGestureStrokeParams = new GestureStrokeParams(mainKeyboardViewAttr); sGesturePreviewParams = new GestureStrokePreviewParams(mainKeyboardViewAttr); sTimeRecorder = new TimeRecorder(sParams, sGestureStrokeParams); } private static void updateGestureHandlingMode() { sShouldHandleGesture = sMainDictionaryAvailable && sGestureHandlingEnabledByInputField && sGestureHandlingEnabledByUser && !AccessibilityUtils.getInstance().isTouchExplorationEnabled(); } // Note that this method is called from a non-UI thread. public static void setMainDictionaryAvailability(final boolean mainDictionaryAvailable) { sMainDictionaryAvailable = mainDictionaryAvailable; updateGestureHandlingMode(); } public static void setGestureHandlingEnabledByUser(final boolean gestureHandlingEnabledByUser) { sGestureHandlingEnabledByUser = gestureHandlingEnabledByUser; updateGestureHandlingMode(); } public static PointerTracker getPointerTracker(final int id, final KeyEventHandler handler) { final ArrayList trackers = sTrackers; // Create pointer trackers until we can get 'id+1'-th tracker, if needed. for (int i = trackers.size(); i <= id; i++) { final PointerTracker tracker = new PointerTracker(i, handler); trackers.add(tracker); } return trackers.get(id); } public static boolean isAnyInSlidingKeyInput() { return sPointerTrackerQueue.isAnyInSlidingKeyInput(); } public static void cancelAllPointerTrackers() { sPointerTrackerQueue.cancelAllPointerTrackers(); } public static void setKeyboardActionListener(final KeyboardActionListener listener) { final int trackersSize = sTrackers.size(); for (int i = 0; i < trackersSize; ++i) { final PointerTracker tracker = sTrackers.get(i); tracker.mListener = listener; } } public static void setKeyDetector(final KeyDetector keyDetector) { final int trackersSize = sTrackers.size(); for (int i = 0; i < trackersSize; ++i) { final PointerTracker tracker = sTrackers.get(i); tracker.setKeyDetectorInner(keyDetector); // Mark that keyboard layout has been changed. tracker.mKeyboardLayoutHasBeenChanged = true; } final Keyboard keyboard = keyDetector.getKeyboard(); sGestureHandlingEnabledByInputField = !keyboard.mId.passwordInput(); updateGestureHandlingMode(); } public static void setReleasedKeyGraphicsToAllKeys() { final int trackersSize = sTrackers.size(); for (int i = 0; i < trackersSize; ++i) { final PointerTracker tracker = sTrackers.get(i); tracker.setReleasedKeyGraphics(tracker.mCurrentKey); } } public static void dismissAllMoreKeysPanels() { final int trackersSize = sTrackers.size(); for (int i = 0; i < trackersSize; ++i) { final PointerTracker tracker = sTrackers.get(i); if (tracker.isShowingMoreKeysPanel()) { tracker.mMoreKeysPanel.dismissMoreKeysPanel(); tracker.mMoreKeysPanel = null; } } } private PointerTracker(final int id, final KeyEventHandler handler) { if (handler == null) { throw new NullPointerException(); } mPointerId = id; mGestureStrokeWithPreviewPoints = new GestureStrokeWithPreviewPoints( id, sGestureStrokeParams, sGesturePreviewParams); setKeyEventHandler(handler); } private void setKeyEventHandler(final KeyEventHandler handler) { setKeyDetectorInner(handler.getKeyDetector()); mListener = handler.getKeyboardActionListener(); mDrawingProxy = handler.getDrawingProxy(); mTimerProxy = handler.getTimerProxy(); } // Returns true if keyboard has been changed by this callback. private boolean callListenerOnPressAndCheckKeyboardLayoutChange(final Key key, final int repeatCount) { // While gesture input is going on, this method should be a no-operation. But when gesture // input has been canceled, sInGesture and mIsDetectingGesture // are set to false. To keep this method is a no-operation, // mIsTrackingForActionDisabled should also be taken account of. if (sInGesture || mIsDetectingGesture || mIsTrackingForActionDisabled) { return false; } final boolean ignoreModifierKey = mIsInSlidingKeyInput && key.isModifier(); if (DEBUG_LISTENER) { Log.d(TAG, String.format("[%d] onPress : %s%s%s%s", mPointerId, KeyDetector.printableCode(key), ignoreModifierKey ? " ignoreModifier" : "", key.isEnabled() ? "" : " disabled", repeatCount > 0 ? " repeatCount=" + repeatCount : "")); } if (ignoreModifierKey) { return false; } if (key.isEnabled()) { mListener.onPressKey(key.getCode(), repeatCount, getActivePointerTrackerCount() == 1); final boolean keyboardLayoutHasBeenChanged = mKeyboardLayoutHasBeenChanged; mKeyboardLayoutHasBeenChanged = false; mTimerProxy.startTypingStateTimer(key); return keyboardLayoutHasBeenChanged; } return false; } // Note that we need primaryCode argument because the keyboard may in shifted state and the // primaryCode is different from {@link Key#mCode}. private void callListenerOnCodeInput(final Key key, final int primaryCode, final int x, final int y, final long eventTime) { final boolean ignoreModifierKey = mIsInSlidingKeyInput && key.isModifier(); final boolean altersCode = key.altCodeWhileTyping() && mTimerProxy.isTypingState(); final int code = altersCode ? key.getAltCode() : primaryCode; if (DEBUG_LISTENER) { final String output = code == Constants.CODE_OUTPUT_TEXT ? key.getOutputText() : Constants.printableCode(code); Log.d(TAG, String.format("[%d] onCodeInput: %4d %4d %s%s%s", mPointerId, x, y, output, ignoreModifierKey ? " ignoreModifier" : "", altersCode ? " altersCode" : "", key.isEnabled() ? "" : " disabled")); } if (ProductionFlag.USES_DEVELOPMENT_ONLY_DIAGNOSTICS) { ResearchLogger.pointerTracker_callListenerOnCodeInput(key, x, y, ignoreModifierKey, altersCode, code); } if (ignoreModifierKey) { return; } // Even if the key is disabled, it should respond if it is in the altCodeWhileTyping state. if (key.isEnabled() || altersCode) { sTimeRecorder.onCodeInput(code, eventTime); if (code == Constants.CODE_OUTPUT_TEXT) { mListener.onTextInput(key.getOutputText()); } else if (code != Constants.CODE_UNSPECIFIED) { mListener.onCodeInput(code, x, y); } } } // Note that we need primaryCode argument because the keyboard may be in shifted state and the // primaryCode is different from {@link Key#mCode}. private void callListenerOnRelease(final Key key, final int primaryCode, final boolean withSliding) { // See the comment at {@link #callListenerOnPressAndCheckKeyboardLayoutChange(Key}}. if (sInGesture || mIsDetectingGesture || mIsTrackingForActionDisabled) { return; } final boolean ignoreModifierKey = mIsInSlidingKeyInput && key.isModifier(); if (DEBUG_LISTENER) { Log.d(TAG, String.format("[%d] onRelease : %s%s%s%s", mPointerId, Constants.printableCode(primaryCode), withSliding ? " sliding" : "", ignoreModifierKey ? " ignoreModifier" : "", key.isEnabled() ? "": " disabled")); } if (ProductionFlag.USES_DEVELOPMENT_ONLY_DIAGNOSTICS) { ResearchLogger.pointerTracker_callListenerOnRelease(key, primaryCode, withSliding, ignoreModifierKey); } if (ignoreModifierKey) { return; } if (key.isEnabled()) { mListener.onReleaseKey(primaryCode, withSliding); } } private void callListenerOnFinishSlidingInput() { if (DEBUG_LISTENER) { Log.d(TAG, String.format("[%d] onFinishSlidingInput", mPointerId)); } mListener.onFinishSlidingInput(); } private void callListenerOnCancelInput() { if (DEBUG_LISTENER) { Log.d(TAG, String.format("[%d] onCancelInput", mPointerId)); } if (ProductionFlag.USES_DEVELOPMENT_ONLY_DIAGNOSTICS) { ResearchLogger.pointerTracker_callListenerOnCancelInput(); } mListener.onCancelInput(); } private void setKeyDetectorInner(final KeyDetector keyDetector) { final Keyboard keyboard = keyDetector.getKeyboard(); if (keyDetector == mKeyDetector && keyboard == mKeyboard) { return; } mKeyDetector = keyDetector; mKeyboard = keyDetector.getKeyboard(); final int keyWidth = mKeyboard.mMostCommonKeyWidth; final int keyHeight = mKeyboard.mMostCommonKeyHeight; mGestureStrokeWithPreviewPoints.setKeyboardGeometry(keyWidth, mKeyboard.mOccupiedHeight); final Key newKey = mKeyDetector.detectHitKey(mKeyX, mKeyY); if (newKey != mCurrentKey) { if (mDrawingProxy != null) { setReleasedKeyGraphics(mCurrentKey); } // Keep {@link #mCurrentKey} that comes from previous keyboard. } mPhantonSuddenMoveThreshold = (int)(keyWidth * PHANTOM_SUDDEN_MOVE_THRESHOLD); mBogusMoveEventDetector.setKeyboardGeometry(keyWidth, keyHeight); } @Override public boolean isInSlidingKeyInput() { return mIsInSlidingKeyInput; } public Key getKey() { return mCurrentKey; } @Override public boolean isModifier() { return mCurrentKey != null && mCurrentKey.isModifier(); } public Key getKeyOn(final int x, final int y) { return mKeyDetector.detectHitKey(x, y); } private void setReleasedKeyGraphics(final Key key) { mDrawingProxy.dismissKeyPreview(this); if (key == null) { return; } // Even if the key is disabled, update the key release graphics just in case. updateReleaseKeyGraphics(key); if (key.isShift()) { for (final Key shiftKey : mKeyboard.mShiftKeys) { if (shiftKey != key) { updateReleaseKeyGraphics(shiftKey); } } } if (key.altCodeWhileTyping()) { final int altCode = key.getAltCode(); final Key altKey = mKeyboard.getKey(altCode); if (altKey != null) { updateReleaseKeyGraphics(altKey); } for (final Key k : mKeyboard.mAltCodeKeysWhileTyping) { if (k != key && k.getAltCode() == altCode) { updateReleaseKeyGraphics(k); } } } } private static boolean needsToSuppressKeyPreviewPopup(final long eventTime) { if (!sShouldHandleGesture) return false; return sTimeRecorder.needsToSuppressKeyPreviewPopup(eventTime); } private void setPressedKeyGraphics(final Key key, final long eventTime) { if (key == null) { return; } // Even if the key is disabled, it should respond if it is in the altCodeWhileTyping state. final boolean altersCode = key.altCodeWhileTyping() && mTimerProxy.isTypingState(); final boolean needsToUpdateGraphics = key.isEnabled() || altersCode; if (!needsToUpdateGraphics) { return; } if (!key.noKeyPreview() && !sInGesture && !needsToSuppressKeyPreviewPopup(eventTime)) { mDrawingProxy.showKeyPreview(this); } updatePressKeyGraphics(key); if (key.isShift()) { for (final Key shiftKey : mKeyboard.mShiftKeys) { if (shiftKey != key) { updatePressKeyGraphics(shiftKey); } } } if (key.altCodeWhileTyping() && mTimerProxy.isTypingState()) { final int altCode = key.getAltCode(); final Key altKey = mKeyboard.getKey(altCode); if (altKey != null) { updatePressKeyGraphics(altKey); } for (final Key k : mKeyboard.mAltCodeKeysWhileTyping) { if (k != key && k.getAltCode() == altCode) { updatePressKeyGraphics(k); } } } } private void updateReleaseKeyGraphics(final Key key) { key.onReleased(); mDrawingProxy.invalidateKey(key); } private void updatePressKeyGraphics(final Key key) { key.onPressed(); mDrawingProxy.invalidateKey(key); } public GestureStrokeWithPreviewPoints getGestureStrokeWithPreviewPoints() { return mGestureStrokeWithPreviewPoints; } public void getLastCoordinates(final int[] outCoords) { CoordinateUtils.set(outCoords, mLastX, mLastY); } public long getDownTime() { return mDownTime; } public void getDownCoordinates(final int[] outCoords) { CoordinateUtils.copy(outCoords, mDownCoordinates); } private Key onDownKey(final int x, final int y, final long eventTime) { mDownTime = eventTime; CoordinateUtils.set(mDownCoordinates, x, y); mBogusMoveEventDetector.onDownKey(); return onMoveToNewKey(onMoveKeyInternal(x, y), x, y); } static int getDistance(final int x1, final int y1, final int x2, final int y2) { return (int)Math.hypot(x1 - x2, y1 - y2); } private Key onMoveKeyInternal(final int x, final int y) { mBogusMoveEventDetector.onMoveKey(getDistance(x, y, mLastX, mLastY)); mLastX = x; mLastY = y; return mKeyDetector.detectHitKey(x, y); } private Key onMoveKey(final int x, final int y) { return onMoveKeyInternal(x, y); } private Key onMoveToNewKey(final Key newKey, final int x, final int y) { mCurrentKey = newKey; mKeyX = x; mKeyY = y; return newKey; } private static int getActivePointerTrackerCount() { return sPointerTrackerQueue.size(); } private boolean isOldestTrackerInQueue() { return sPointerTrackerQueue.getOldestElement() == this; } private void mayStartBatchInput(final Key key) { if (sInGesture || !mGestureStrokeWithPreviewPoints.isStartOfAGesture()) { return; } if (key == null || !Character.isLetter(key.getCode())) { return; } if (DEBUG_LISTENER) { Log.d(TAG, String.format("[%d] onStartBatchInput", mPointerId)); } sInGesture = true; synchronized (sAggregratedPointers) { sAggregratedPointers.reset(); sLastRecognitionPointSize = 0; sLastRecognitionTime = 0; mListener.onStartBatchInput(); dismissAllMoreKeysPanels(); } mTimerProxy.cancelLongPressTimer(); // A gesture floating preview text will be shown at the oldest pointer/finger on the screen. mDrawingProxy.showGestureTrail( this, isOldestTrackerInQueue() /* showsFloatingPreviewText */); } public void updateBatchInputByTimer(final long eventTime) { final int gestureTime = (int)(eventTime - sGestureFirstDownTime); mGestureStrokeWithPreviewPoints.duplicateLastPointWith(gestureTime); updateBatchInput(eventTime); } private void mayUpdateBatchInput(final long eventTime, final Key key) { if (key != null) { updateBatchInput(eventTime); } if (mIsTrackingForActionDisabled) { return; } // A gesture floating preview text will be shown at the oldest pointer/finger on the screen. mDrawingProxy.showGestureTrail( this, isOldestTrackerInQueue() /* showsFloatingPreviewText */); } private void updateBatchInput(final long eventTime) { synchronized (sAggregratedPointers) { final GestureStroke stroke = mGestureStrokeWithPreviewPoints; stroke.appendIncrementalBatchPoints(sAggregratedPointers); final int size = sAggregratedPointers.getPointerSize(); if (size > sLastRecognitionPointSize && stroke.hasRecognitionTimePast(eventTime, sLastRecognitionTime)) { sLastRecognitionPointSize = size; sLastRecognitionTime = eventTime; if (DEBUG_LISTENER) { Log.d(TAG, String.format("[%d] onUpdateBatchInput: batchPoints=%d", mPointerId, size)); } mTimerProxy.startUpdateBatchInputTimer(this); mListener.onUpdateBatchInput(sAggregratedPointers); } } } private void mayEndBatchInput(final long eventTime) { synchronized (sAggregratedPointers) { mGestureStrokeWithPreviewPoints.appendAllBatchPoints(sAggregratedPointers); if (getActivePointerTrackerCount() == 1) { sInGesture = false; sTimeRecorder.onEndBatchInput(eventTime); mTimerProxy.cancelAllUpdateBatchInputTimers(); if (!mIsTrackingForActionDisabled) { if (DEBUG_LISTENER) { Log.d(TAG, String.format("[%d] onEndBatchInput : batchPoints=%d", mPointerId, sAggregratedPointers.getPointerSize())); } mListener.onEndBatchInput(sAggregratedPointers); } } } if (mIsTrackingForActionDisabled) { return; } // A gesture floating preview text will be shown at the oldest pointer/finger on the screen. mDrawingProxy.showGestureTrail( this, isOldestTrackerInQueue() /* showsFloatingPreviewText */); } private void cancelBatchInput() { cancelAllPointerTrackers(); mIsDetectingGesture = false; if (!sInGesture) { return; } sInGesture = false; if (DEBUG_LISTENER) { Log.d(TAG, String.format("[%d] onCancelBatchInput", mPointerId)); } mListener.onCancelBatchInput(); } public void processMotionEvent(final MotionEvent me, final KeyEventHandler handler) { final int action = me.getActionMasked(); final long eventTime = me.getEventTime(); if (action == MotionEvent.ACTION_MOVE) { final int pointerCount = me.getPointerCount(); for (int index = 0; index < pointerCount; index++) { final int id = me.getPointerId(index); final PointerTracker tracker = getPointerTracker(id, handler); final int x = (int)me.getX(index); final int y = (int)me.getY(index); tracker.onMoveEvent(x, y, eventTime, me); } return; } final int index = me.getActionIndex(); final int x = (int)me.getX(index); final int y = (int)me.getY(index); switch (action) { case MotionEvent.ACTION_DOWN: case MotionEvent.ACTION_POINTER_DOWN: onDownEvent(x, y, eventTime, handler); break; case MotionEvent.ACTION_UP: case MotionEvent.ACTION_POINTER_UP: onUpEvent(x, y, eventTime); break; case MotionEvent.ACTION_CANCEL: onCancelEvent(x, y, eventTime); break; } } private void onDownEvent(final int x, final int y, final long eventTime, final KeyEventHandler handler) { if (DEBUG_EVENT) { printTouchEvent("onDownEvent:", x, y, eventTime); } setKeyEventHandler(handler); // Naive up-to-down noise filter. final long deltaT = eventTime - mUpTime; if (deltaT < sParams.mTouchNoiseThresholdTime) { final int distance = getDistance(x, y, mLastX, mLastY); if (distance < sParams.mTouchNoiseThresholdDistance) { if (DEBUG_MODE) Log.w(TAG, String.format("[%d] onDownEvent:" + " ignore potential noise: time=%d distance=%d", mPointerId, deltaT, distance)); if (ProductionFlag.USES_DEVELOPMENT_ONLY_DIAGNOSTICS) { ResearchLogger.pointerTracker_onDownEvent(deltaT, distance * distance); } cancelTrackingForAction(); return; } } final Key key = getKeyOn(x, y); mBogusMoveEventDetector.onActualDownEvent(x, y); if (key != null && key.isModifier()) { // Before processing a down event of modifier key, all pointers already being // tracked should be released. sPointerTrackerQueue.releaseAllPointers(eventTime); } sPointerTrackerQueue.add(this); onDownEventInternal(x, y, eventTime); if (!sShouldHandleGesture) { return; } // A gesture should start only from a non-modifier key. mIsDetectingGesture = (mKeyboard != null) && mKeyboard.mId.isAlphabetKeyboard() && key != null && !key.isModifier() && !key.isRepeatable(); if (mIsDetectingGesture) { if (getActivePointerTrackerCount() == 1) { sGestureFirstDownTime = eventTime; } mGestureStrokeWithPreviewPoints.onDownEvent(x, y, eventTime, sGestureFirstDownTime, sTimeRecorder.getLastLetterTypingTime()); } } private boolean isShowingMoreKeysPanel() { return (mMoreKeysPanel != null); } private void onDownEventInternal(final int x, final int y, final long eventTime) { Key key = onDownKey(x, y, eventTime); // Sliding key is allowed when 1) enabled by configuration, 2) this pointer starts sliding // from modifier key, or 3) this pointer's KeyDetector always allows sliding input. mIsAllowedSlidingKeyInput = sParams.mSlidingKeyInputEnabled || (key != null && key.isModifier()) || mKeyDetector.alwaysAllowsSlidingInput(); mKeyboardLayoutHasBeenChanged = false; mIsTrackingForActionDisabled = false; resetSlidingKeyInput(); if (key != null) { // This onPress call may have changed keyboard layout. Those cases are detected at // {@link #setKeyboard}. In those cases, we should update key according to the new // keyboard layout. if (callListenerOnPressAndCheckKeyboardLayoutChange(key, 0 /* repeatCount */)) { key = onDownKey(x, y, eventTime); } startRepeatKey(key); startLongPressTimer(key); setPressedKeyGraphics(key, eventTime); } } private void startSlidingKeyInput(final Key key) { if (!mIsInSlidingKeyInput) { mIsInSlidingKeyInputFromModifier = key.isModifier(); } mIsInSlidingKeyInput = true; } private void resetSlidingKeyInput() { mIsInSlidingKeyInput = false; mIsInSlidingKeyInputFromModifier = false; mDrawingProxy.dismissSlidingKeyInputPreview(); } private void onGestureMoveEvent(final int x, final int y, final long eventTime, final boolean isMajorEvent, final Key key) { final int gestureTime = (int)(eventTime - sGestureFirstDownTime); if (mIsDetectingGesture) { final int beforeLength = mGestureStrokeWithPreviewPoints.getLength(); final boolean onValidArea = mGestureStrokeWithPreviewPoints.addPointOnKeyboard( x, y, gestureTime, isMajorEvent); if (mGestureStrokeWithPreviewPoints.getLength() > beforeLength) { mTimerProxy.startUpdateBatchInputTimer(this); } // If the move event goes out from valid batch input area, cancel batch input. if (!onValidArea) { cancelBatchInput(); return; } // If the MoreKeysPanel is showing then do not attempt to enter gesture mode. However, // the gestured touch points are still being recorded in case the panel is dismissed. if (isShowingMoreKeysPanel()) { return; } mayStartBatchInput(key); if (sInGesture) { mayUpdateBatchInput(eventTime, key); } } } private void onMoveEvent(final int x, final int y, final long eventTime, final MotionEvent me) { if (DEBUG_MOVE_EVENT) { printTouchEvent("onMoveEvent:", x, y, eventTime); } if (mIsTrackingForActionDisabled) { return; } if (sShouldHandleGesture && me != null) { // Add historical points to gesture path. final int pointerIndex = me.findPointerIndex(mPointerId); final int historicalSize = me.getHistorySize(); for (int h = 0; h < historicalSize; h++) { final int historicalX = (int)me.getHistoricalX(pointerIndex, h); final int historicalY = (int)me.getHistoricalY(pointerIndex, h); final long historicalTime = me.getHistoricalEventTime(h); onGestureMoveEvent(historicalX, historicalY, historicalTime, false /* isMajorEvent */, null); } } if (isShowingMoreKeysPanel()) { final int translatedX = mMoreKeysPanel.translateX(x); final int translatedY = mMoreKeysPanel.translateY(y); mMoreKeysPanel.onMoveEvent(translatedX, translatedY, mPointerId, eventTime); onMoveKey(x, y); if (mIsInSlidingKeyInputFromModifier) { mDrawingProxy.showSlidingKeyInputPreview(this); } return; } onMoveEventInternal(x, y, eventTime); } private void processSlidingKeyInput(final Key newKey, final int x, final int y, final long eventTime) { // This onPress call may have changed keyboard layout. Those cases are detected // at {@link #setKeyboard}. In those cases, we should update key according // to the new keyboard layout. Key key = newKey; if (callListenerOnPressAndCheckKeyboardLayoutChange(key, 0 /* repeatCount */)) { key = onMoveKey(x, y); } onMoveToNewKey(key, x, y); if (mIsTrackingForActionDisabled) { return; } startLongPressTimer(key); setPressedKeyGraphics(key, eventTime); } private void processPhantomSuddenMoveHack(final Key key, final int x, final int y, final long eventTime, final Key oldKey, final int lastX, final int lastY) { if (DEBUG_MODE) { Log.w(TAG, String.format("[%d] onMoveEvent:" + " phantom sudden move event (distance=%d) is translated to " + "up[%d,%d,%s]/down[%d,%d,%s] events", mPointerId, getDistance(x, y, lastX, lastY), lastX, lastY, Constants.printableCode(oldKey.getCode()), x, y, Constants.printableCode(key.getCode()))); } // TODO: This should be moved to outside of this nested if-clause? if (ProductionFlag.USES_DEVELOPMENT_ONLY_DIAGNOSTICS) { ResearchLogger.pointerTracker_onMoveEvent(x, y, lastX, lastY); } onUpEventInternal(x, y, eventTime); onDownEventInternal(x, y, eventTime); } private void processProximateBogusDownMoveUpEventHack(final Key key, final int x, final int y, final long eventTime, final Key oldKey, final int lastX, final int lastY) { if (DEBUG_MODE) { final float keyDiagonal = (float)Math.hypot( mKeyboard.mMostCommonKeyWidth, mKeyboard.mMostCommonKeyHeight); final float radiusRatio = mBogusMoveEventDetector.getDistanceFromDownEvent(x, y) / keyDiagonal; Log.w(TAG, String.format("[%d] onMoveEvent:" + " bogus down-move-up event (raidus=%.2f key diagonal) is " + " translated to up[%d,%d,%s]/down[%d,%d,%s] events", mPointerId, radiusRatio, lastX, lastY, Constants.printableCode(oldKey.getCode()), x, y, Constants.printableCode(key.getCode()))); } onUpEventInternal(x, y, eventTime); onDownEventInternal(x, y, eventTime); } private void processSildeOutFromOldKey(final Key oldKey) { setReleasedKeyGraphics(oldKey); callListenerOnRelease(oldKey, oldKey.getCode(), true /* withSliding */); startSlidingKeyInput(oldKey); mTimerProxy.cancelKeyTimers(); } private void slideFromOldKeyToNewKey(final Key key, final int x, final int y, final long eventTime, final Key oldKey, final int lastX, final int lastY) { // The pointer has been slid in to the new key from the previous key, we must call // onRelease() first to notify that the previous key has been released, then call // onPress() to notify that the new key is being pressed. processSildeOutFromOldKey(oldKey); startRepeatKey(key); if (mIsAllowedSlidingKeyInput) { processSlidingKeyInput(key, x, y, eventTime); } // HACK: On some devices, quick successive touches may be reported as a sudden move by // touch panel firmware. This hack detects such cases and translates the move event to // successive up and down events. // TODO: Should find a way to balance gesture detection and this hack. else if (sNeedsPhantomSuddenMoveEventHack && getDistance(x, y, lastX, lastY) >= mPhantonSuddenMoveThreshold) { processPhantomSuddenMoveHack(key, x, y, eventTime, oldKey, lastX, lastY); } // HACK: On some devices, quick successive proximate touches may be reported as a bogus // down-move-up event by touch panel firmware. This hack detects such cases and breaks // these events into separate up and down events. else if (sNeedsProximateBogusDownMoveUpEventHack && sTimeRecorder.isInFastTyping(eventTime) && mBogusMoveEventDetector.isCloseToActualDownEvent(x, y)) { processProximateBogusDownMoveUpEventHack(key, x, y, eventTime, oldKey, lastX, lastY); } // HACK: If there are currently multiple touches, register the key even if the finger // slides off the key. This defends against noise from some touch panels when there are // close multiple touches. // Caveat: When in chording input mode with a modifier key, we don't use this hack. else if (getActivePointerTrackerCount() > 1 && !sPointerTrackerQueue.hasModifierKeyOlderThan(this)) { if (DEBUG_MODE) { Log.w(TAG, String.format("[%d] onMoveEvent:" + " detected sliding finger while multi touching", mPointerId)); } onUpEvent(x, y, eventTime); cancelTrackingForAction(); setReleasedKeyGraphics(oldKey); } else { if (!mIsDetectingGesture) { cancelTrackingForAction(); } setReleasedKeyGraphics(oldKey); } } private void slideOutFromOldKey(final Key oldKey, final int x, final int y) { // The pointer has been slid out from the previous key, we must call onRelease() to // notify that the previous key has been released. processSildeOutFromOldKey(oldKey); if (mIsAllowedSlidingKeyInput) { onMoveToNewKey(null, x, y); } else { if (!mIsDetectingGesture) { cancelTrackingForAction(); } } } private void onMoveEventInternal(final int x, final int y, final long eventTime) { final int lastX = mLastX; final int lastY = mLastY; final Key oldKey = mCurrentKey; final Key newKey = onMoveKey(x, y); if (sShouldHandleGesture) { // Register move event on gesture tracker. onGestureMoveEvent(x, y, eventTime, true /* isMajorEvent */, newKey); if (sInGesture) { mCurrentKey = null; setReleasedKeyGraphics(oldKey); return; } } if (newKey != null) { if (oldKey != null && isMajorEnoughMoveToBeOnNewKey(x, y, eventTime, newKey)) { slideFromOldKeyToNewKey(newKey, x, y, eventTime, oldKey, lastX, lastY); } else if (oldKey == null) { // The pointer has been slid in to the new key, but the finger was not on any keys. // In this case, we must call onPress() to notify that the new key is being pressed. processSlidingKeyInput(newKey, x, y, eventTime); } } else { // newKey == null if (oldKey != null && isMajorEnoughMoveToBeOnNewKey(x, y, eventTime, newKey)) { slideOutFromOldKey(oldKey, x, y); } } if (mIsInSlidingKeyInputFromModifier) { mDrawingProxy.showSlidingKeyInputPreview(this); } } private void onUpEvent(final int x, final int y, final long eventTime) { if (DEBUG_EVENT) { printTouchEvent("onUpEvent :", x, y, eventTime); } mTimerProxy.cancelUpdateBatchInputTimer(this); if (!sInGesture) { if (mCurrentKey != null && mCurrentKey.isModifier()) { // Before processing an up event of modifier key, all pointers already being // tracked should be released. sPointerTrackerQueue.releaseAllPointersExcept(this, eventTime); } else { sPointerTrackerQueue.releaseAllPointersOlderThan(this, eventTime); } } onUpEventInternal(x, y, eventTime); sPointerTrackerQueue.remove(this); } // Let this pointer tracker know that one of newer-than-this pointer trackers got an up event. // This pointer tracker needs to keep the key top graphics "pressed", but needs to get a // "virtual" up event. @Override public void onPhantomUpEvent(final long eventTime) { if (DEBUG_EVENT) { printTouchEvent("onPhntEvent:", mLastX, mLastY, eventTime); } if (isShowingMoreKeysPanel()) { return; } onUpEventInternal(mLastX, mLastY, eventTime); cancelTrackingForAction(); } private void onUpEventInternal(final int x, final int y, final long eventTime) { mTimerProxy.cancelKeyTimers(); final boolean isInSlidingKeyInput = mIsInSlidingKeyInput; final boolean isInSlidingKeyInputFromModifier = mIsInSlidingKeyInputFromModifier; resetSlidingKeyInput(); mIsDetectingGesture = false; final Key currentKey = mCurrentKey; mCurrentKey = null; // Release the last pressed key. setReleasedKeyGraphics(currentKey); if (isShowingMoreKeysPanel()) { if (!mIsTrackingForActionDisabled) { final int translatedX = mMoreKeysPanel.translateX(x); final int translatedY = mMoreKeysPanel.translateY(y); mMoreKeysPanel.onUpEvent(translatedX, translatedY, mPointerId, eventTime); } mMoreKeysPanel.dismissMoreKeysPanel(); mMoreKeysPanel = null; return; } if (sInGesture) { if (currentKey != null) { callListenerOnRelease(currentKey, currentKey.getCode(), true /* withSliding */); } mayEndBatchInput(eventTime); return; } if (mIsTrackingForActionDisabled) { return; } if (currentKey != null && currentKey.isRepeatable() && !isInSlidingKeyInput) { // Repeatable key has been registered in {@link #onDownEventInternal(int,int,long)}. return; } detectAndSendKey(currentKey, mKeyX, mKeyY, eventTime); if (isInSlidingKeyInputFromModifier) { callListenerOnFinishSlidingInput(); } } public void onShowMoreKeysPanel(final MoreKeysPanel panel) { setReleasedKeyGraphics(mCurrentKey); final int translatedX = panel.translateX(mLastX); final int translatedY = panel.translateY(mLastY); panel.onDownEvent(translatedX, translatedY, mPointerId, SystemClock.uptimeMillis()); mMoreKeysPanel = panel; } @Override public void cancelTrackingForAction() { if (isShowingMoreKeysPanel()) { return; } mIsTrackingForActionDisabled = true; } public void onLongPressed() { resetSlidingKeyInput(); cancelTrackingForAction(); setReleasedKeyGraphics(mCurrentKey); sPointerTrackerQueue.remove(this); } private void onCancelEvent(final int x, final int y, final long eventTime) { if (DEBUG_EVENT) { printTouchEvent("onCancelEvt:", x, y, eventTime); } cancelBatchInput(); cancelAllPointerTrackers(); sPointerTrackerQueue.releaseAllPointers(eventTime); onCancelEventInternal(); } private void onCancelEventInternal() { mTimerProxy.cancelKeyTimers(); setReleasedKeyGraphics(mCurrentKey); resetSlidingKeyInput(); if (isShowingMoreKeysPanel()) { mMoreKeysPanel.dismissMoreKeysPanel(); mMoreKeysPanel = null; } } private boolean isMajorEnoughMoveToBeOnNewKey(final int x, final int y, final long eventTime, final Key newKey) { if (mKeyDetector == null) { throw new NullPointerException("keyboard and/or key detector not set"); } final Key curKey = mCurrentKey; if (newKey == curKey) { return false; } if (curKey == null /* && newKey != null */) { return true; } // Here curKey points to the different key from newKey. final int keyHysteresisDistanceSquared = mKeyDetector.getKeyHysteresisDistanceSquared( mIsInSlidingKeyInputFromModifier); final int distanceFromKeyEdgeSquared = curKey.squaredDistanceToEdge(x, y); if (distanceFromKeyEdgeSquared >= keyHysteresisDistanceSquared) { if (DEBUG_MODE) { final float distanceToEdgeRatio = (float)Math.sqrt(distanceFromKeyEdgeSquared) / mKeyboard.mMostCommonKeyWidth; Log.d(TAG, String.format("[%d] isMajorEnoughMoveToBeOnNewKey:" +" %.2f key width from key edge", mPointerId, distanceToEdgeRatio)); } return true; } if (sNeedsProximateBogusDownMoveUpEventHack && !mIsAllowedSlidingKeyInput && sTimeRecorder.isInFastTyping(eventTime) && mBogusMoveEventDetector.hasTraveledLongDistance(x, y)) { if (DEBUG_MODE) { final float keyDiagonal = (float)Math.hypot( mKeyboard.mMostCommonKeyWidth, mKeyboard.mMostCommonKeyHeight); final float lengthFromDownRatio = mBogusMoveEventDetector.mAccumulatedDistanceFromDownKey / keyDiagonal; Log.d(TAG, String.format("[%d] isMajorEnoughMoveToBeOnNewKey:" + " %.2f key diagonal from virtual down point", mPointerId, lengthFromDownRatio)); } return true; } return false; } private void startLongPressTimer(final Key key) { if (sInGesture) return; if (key == null) return; if (!key.isLongPressEnabled()) return; // Caveat: Please note that isLongPressEnabled() can be true even if the current key // doesn't have its more keys. (e.g. spacebar, globe key) // We always need to start the long press timer if the key has its more keys regardless of // whether or not we are in the sliding input mode. if (mIsInSlidingKeyInput && key.getMoreKeys() == null) return; final int delay; switch (key.getCode()) { case Constants.CODE_SHIFT: delay = sParams.mLongPressShiftLockTimeout; break; default: final int longpressTimeout = Settings.getInstance().getCurrent().mKeyLongpressTimeout; if (mIsInSlidingKeyInputFromModifier) { // We use longer timeout for sliding finger input started from the modifier key. delay = longpressTimeout * MULTIPLIER_FOR_LONG_PRESS_TIMEOUT_IN_SLIDING_INPUT; } else { delay = longpressTimeout; } break; } mTimerProxy.startLongPressTimer(this, delay); } private void detectAndSendKey(final Key key, final int x, final int y, final long eventTime) { if (key == null) { callListenerOnCancelInput(); return; } final int code = key.getCode(); callListenerOnCodeInput(key, code, x, y, eventTime); callListenerOnRelease(key, code, false /* withSliding */); } private void startRepeatKey(final Key key) { if (sInGesture) return; if (key == null) return; if (!key.isRepeatable()) return; // Don't start key repeat when we are in sliding input mode. if (mIsInSlidingKeyInput) return; detectAndSendKey(key, key.getX(), key.getY(), SystemClock.uptimeMillis()); final int startRepeatCount = 1; mTimerProxy.startKeyRepeatTimer(this, startRepeatCount, sParams.mKeyRepeatStartTimeout); } public void onKeyRepeat(final int code, final int repeatCount) { final Key key = getKey(); if (key == null || key.getCode() != code) { return; } final int nextRepeatCount = repeatCount + 1; mTimerProxy.startKeyRepeatTimer(this, nextRepeatCount, sParams.mKeyRepeatInterval); callListenerOnPressAndCheckKeyboardLayoutChange(key, repeatCount); callListenerOnCodeInput(key, code, mKeyX, mKeyY, SystemClock.uptimeMillis()); } private void printTouchEvent(final String title, final int x, final int y, final long eventTime) { final Key key = mKeyDetector.detectHitKey(x, y); final String code = KeyDetector.printableCode(key); Log.d(TAG, String.format("[%d]%s%s %4d %4d %5d %s", mPointerId, (mIsTrackingForActionDisabled ? "-" : " "), title, x, y, eventTime, code)); } }