LatinIME/java/src/com/android/inputmethod/keyboard/PointerTracker.java

1026 lines
40 KiB
Java
Raw Normal View History

/*
* 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.TypedArray;
import android.os.SystemClock;
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.GestureStrokeWithPreviewTrail;
import com.android.inputmethod.keyboard.internal.PointerTrackerQueue;
import com.android.inputmethod.latin.CollectionUtils;
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.research.ResearchLogger;
import java.util.ArrayList;
public 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;
/** 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;
private static final int MIN_GESTURE_RECOGNITION_TIME = 100; // msec
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 PointerTracker
*/
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 extends MoreKeysPanel.Controller {
public void invalidateKey(Key key);
public void showKeyPreview(PointerTracker tracker);
public void dismissKeyPreview(PointerTracker tracker);
public void showGesturePreviewTrail(PointerTracker tracker);
}
public interface TimerProxy {
public void startTypingStateTimer(Key typedKey);
public boolean isTypingState();
public void startKeyRepeatTimer(PointerTracker tracker);
public void startLongPressTimer(PointerTracker tracker);
public void startLongPressTimer(int code);
public void cancelLongPressTimer();
public void startDoubleTapTimer();
public void cancelDoubleTapTimer();
public boolean isInDoubleTapTimeout();
public void cancelKeyTimers();
public static class Adapter implements TimerProxy {
@Override
public void startTypingStateTimer(Key typedKey) {}
@Override
public boolean isTypingState() { return false; }
@Override
public void startKeyRepeatTimer(PointerTracker tracker) {}
@Override
public void startLongPressTimer(PointerTracker tracker) {}
@Override
public void startLongPressTimer(int code) {}
@Override
public void cancelLongPressTimer() {}
@Override
public void startDoubleTapTimer() {}
@Override
public void cancelDoubleTapTimer() {}
@Override
public boolean isInDoubleTapTimeout() { return false; }
@Override
public void cancelKeyTimers() {}
}
}
static class PointerTrackerParams {
public final boolean mSlidingKeyInputEnabled;
public final int mTouchNoiseThresholdTime;
public final float mTouchNoiseThresholdDistance;
public final int mTouchNoiseThresholdDistanceSquared;
public static final PointerTrackerParams DEFAULT = new PointerTrackerParams();
private PointerTrackerParams() {
mSlidingKeyInputEnabled = false;
mTouchNoiseThresholdTime = 0;
mTouchNoiseThresholdDistance = 0.0f;
mTouchNoiseThresholdDistanceSquared = 0;
}
public PointerTrackerParams(TypedArray mainKeyboardViewAttr) {
mSlidingKeyInputEnabled = mainKeyboardViewAttr.getBoolean(
R.styleable.MainKeyboardView_slidingKeyInputEnable, false);
mTouchNoiseThresholdTime = mainKeyboardViewAttr.getInt(
R.styleable.MainKeyboardView_touchNoiseThresholdTime, 0);
final float touchNouseThresholdDistance = mainKeyboardViewAttr.getDimension(
R.styleable.MainKeyboardView_touchNoiseThresholdDistance, 0);
mTouchNoiseThresholdDistance = touchNouseThresholdDistance;
mTouchNoiseThresholdDistanceSquared =
(int)(touchNouseThresholdDistance * touchNouseThresholdDistance);
}
}
// Parameters for pointer handling.
private static PointerTrackerParams sParams;
private static boolean sNeedsPhantomSuddenMoveEventHack;
private static final ArrayList<PointerTracker> sTrackers = CollectionUtils.newArrayList();
private static PointerTrackerQueue sPointerTrackerQueue;
public final int mPointerId;
private DrawingProxy mDrawingProxy;
private TimerProxy mTimerProxy;
private KeyDetector mKeyDetector;
private KeyboardActionListener mListener = EMPTY_LISTENER;
private Keyboard mKeyboard;
private int mKeyQuarterWidthSquared;
private boolean mIsDetectingGesture = false; // per PointerTracker.
private static boolean sInGesture = false;
private static long sGestureFirstDownTime;
private static final InputPointers sAggregratedPointers = new InputPointers(
GestureStroke.DEFAULT_CAPACITY);
private static int sLastRecognitionPointSize = 0;
private static long sLastRecognitionTime = 0;
// The position and time at which first down event occurred.
private long mDownTime;
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 event is already translated to a key action.
private boolean mKeyAlreadyProcessed;
// true if this pointer has been long-pressed and is showing a more keys panel.
private boolean mIsShowingMoreKeysPanel;
// true if this pointer is in sliding key input
boolean mIsInSlidingKeyInput;
// true if sliding key is allowed.
private boolean mIsAllowedSlidingKeyInput;
// ignore modifier key if true
private boolean mIgnoreModifierKey;
// Empty {@link KeyboardActionListener}
private static final KeyboardActionListener EMPTY_LISTENER =
new KeyboardActionListener.Adapter();
private final GestureStrokeWithPreviewTrail mGestureStrokeWithPreviewTrail;
public static void init(boolean hasDistinctMultitouch,
boolean needsPhantomSuddenMoveEventHack) {
if (hasDistinctMultitouch) {
sPointerTrackerQueue = new PointerTrackerQueue();
} else {
sPointerTrackerQueue = null;
}
sNeedsPhantomSuddenMoveEventHack = needsPhantomSuddenMoveEventHack;
sParams = PointerTrackerParams.DEFAULT;
}
public static void setParameters(final TypedArray mainKeyboardViewAttr) {
sParams = new PointerTrackerParams(mainKeyboardViewAttr);
}
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<PointerTracker> 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 != null ? sPointerTrackerQueue.isAnyInSlidingKeyInput() : false;
}
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);
}
}
private PointerTracker(final int id, final KeyEventHandler handler) {
if (handler == null) {
throw new NullPointerException();
}
mPointerId = id;
mGestureStrokeWithPreviewTrail = new GestureStrokeWithPreviewTrail(id);
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) {
if (sInGesture) {
return false;
}
final boolean ignoreModifierKey = mIgnoreModifierKey && key.isModifier();
if (DEBUG_LISTENER) {
Log.d(TAG, "onPress : " + KeyDetector.printableCode(key)
+ " ignoreModifier=" + ignoreModifierKey
+ " enabled=" + key.isEnabled());
}
if (ignoreModifierKey) {
return false;
}
if (key.isEnabled()) {
mListener.onPressKey(key.mCode);
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 boolean ignoreModifierKey = mIgnoreModifierKey && key.isModifier();
final boolean altersCode = key.altCodeWhileTyping() && mTimerProxy.isTypingState();
final int code = altersCode ? key.getAltCode() : primaryCode;
if (DEBUG_LISTENER) {
Log.d(TAG, "onCodeInput: " + Keyboard.printableCode(code)
+ " text=" + key.getOutputText() + " x=" + x + " y=" + y
+ " ignoreModifier=" + ignoreModifierKey + " altersCode=" + altersCode
+ " enabled=" + key.isEnabled());
}
if (ProductionFlag.IS_EXPERIMENTAL) {
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) {
if (code == Keyboard.CODE_OUTPUT_TEXT) {
mListener.onTextInput(key.getOutputText());
} else if (code != Keyboard.CODE_UNSPECIFIED) {
mListener.onCodeInput(code, x, y);
}
}
}
// Note that we need primaryCode argument because the keyboard may in shifted state and the
// primaryCode is different from {@link Key#mCode}.
private void callListenerOnRelease(final Key key, final int primaryCode,
final boolean withSliding) {
if (sInGesture) {
return;
}
final boolean ignoreModifierKey = mIgnoreModifierKey && key.isModifier();
if (DEBUG_LISTENER) {
Log.d(TAG, "onRelease : " + Keyboard.printableCode(primaryCode)
+ " sliding=" + withSliding + " ignoreModifier=" + ignoreModifierKey
+ " enabled="+ key.isEnabled());
}
if (ProductionFlag.IS_EXPERIMENTAL) {
ResearchLogger.pointerTracker_callListenerOnRelease(key, primaryCode, withSliding,
ignoreModifierKey);
}
if (ignoreModifierKey) {
return;
}
if (key.isEnabled()) {
mListener.onReleaseKey(primaryCode, withSliding);
}
}
private void callListenerOnCancelInput() {
if (DEBUG_LISTENER) {
Log.d(TAG, "onCancelInput");
}
if (ProductionFlag.IS_EXPERIMENTAL) {
ResearchLogger.pointerTracker_callListenerOnCancelInput();
}
mListener.onCancelInput();
}
private void setKeyDetectorInner(final KeyDetector keyDetector) {
mKeyDetector = keyDetector;
mKeyboard = keyDetector.getKeyboard();
mGestureStrokeWithPreviewTrail.setGestureSampleLength(mKeyboard.mMostCommonKeyWidth);
final Key newKey = mKeyDetector.detectHitKey(mKeyX, mKeyY);
if (newKey != mCurrentKey) {
if (mDrawingProxy != null) {
setReleasedKeyGraphics(mCurrentKey);
}
// Keep {@link #mCurrentKey} that comes from previous keyboard.
}
final int keyQuarterWidth = mKeyboard.mMostCommonKeyWidth / 4;
mKeyQuarterWidthSquared = keyQuarterWidth * keyQuarterWidth;
}
@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 void setPressedKeyGraphics(final Key key) {
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) {
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 GestureStrokeWithPreviewTrail getGestureStrokeWithPreviewTrail() {
return mGestureStrokeWithPreviewTrail;
}
public int getLastX() {
return mLastX;
}
public int getLastY() {
return mLastY;
}
public long getDownTime() {
return mDownTime;
}
private Key onDownKey(final int x, final int y, final long eventTime) {
mDownTime = eventTime;
return onMoveToNewKey(onMoveKeyInternal(x, y), x, y);
}
private Key onMoveKeyInternal(final int x, final int y) {
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 == null) ? 1 : sPointerTrackerQueue.size();
}
private void startBatchInput() {
if (DEBUG_LISTENER) {
Log.d(TAG, "onStartBatchInput");
}
sInGesture = true;
mListener.onStartBatchInput();
mDrawingProxy.showGesturePreviewTrail(this);
}
private void updateBatchInput(final long eventTime) {
synchronized (sAggregratedPointers) {
mGestureStrokeWithPreviewTrail.appendIncrementalBatchPoints(sAggregratedPointers);
final int size = sAggregratedPointers.getPointerSize();
if (size > sLastRecognitionPointSize
&& eventTime > sLastRecognitionTime + MIN_GESTURE_RECOGNITION_TIME) {
sLastRecognitionPointSize = size;
sLastRecognitionTime = eventTime;
if (DEBUG_LISTENER) {
Log.d(TAG, "onUpdateBatchInput: batchPoints=" + size);
}
mListener.onUpdateBatchInput(sAggregratedPointers);
}
}
mDrawingProxy.showGesturePreviewTrail(this);
}
private void endBatchInput() {
synchronized (sAggregratedPointers) {
mGestureStrokeWithPreviewTrail.appendAllBatchPoints(sAggregratedPointers);
if (getActivePointerTrackerCount() == 1) {
if (DEBUG_LISTENER) {
Log.d(TAG, "onEndBatchInput: batchPoints="
+ sAggregratedPointers.getPointerSize());
}
sInGesture = false;
mListener.onEndBatchInput(sAggregratedPointers);
clearBatchInputPointsOfAllPointerTrackers();
}
}
mDrawingProxy.showGesturePreviewTrail(this);
}
private static void abortBatchInput() {
clearBatchInputPointsOfAllPointerTrackers();
}
private static void clearBatchInputPointsOfAllPointerTrackers() {
final int trackersSize = sTrackers.size();
for (int i = 0; i < trackersSize; ++i) {
final PointerTracker tracker = sTrackers.get(i);
tracker.mGestureStrokeWithPreviewTrail.reset();
}
sAggregratedPointers.reset();
sLastRecognitionPointSize = 0;
sLastRecognitionTime = 0;
}
public void processMotionEvent(final int action, final int x, final int y, final long eventTime,
final KeyEventHandler handler) {
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_MOVE:
onMoveEvent(x, y, eventTime, null);
break;
case MotionEvent.ACTION_CANCEL:
onCancelEvent(x, y, eventTime);
break;
}
}
public void onDownEvent(final int x, final int y, final long eventTime,
final KeyEventHandler handler) {
if (DEBUG_EVENT) {
printTouchEvent("onDownEvent:", x, y, eventTime);
}
mDrawingProxy = handler.getDrawingProxy();
mTimerProxy = handler.getTimerProxy();
setKeyboardActionListener(handler.getKeyboardActionListener());
setKeyDetectorInner(handler.getKeyDetector());
// Naive up-to-down noise filter.
final long deltaT = eventTime - mUpTime;
if (deltaT < sParams.mTouchNoiseThresholdTime) {
final int dx = x - mLastX;
final int dy = y - mLastY;
final int distanceSquared = (dx * dx + dy * dy);
if (distanceSquared < sParams.mTouchNoiseThresholdDistanceSquared) {
if (DEBUG_MODE)
Log.w(TAG, "onDownEvent: ignore potential noise: time=" + deltaT
+ " distance=" + distanceSquared);
if (ProductionFlag.IS_EXPERIMENTAL) {
ResearchLogger.pointerTracker_onDownEvent(deltaT, distanceSquared);
}
mKeyAlreadyProcessed = true;
return;
}
}
final Key key = getKeyOn(x, y);
final PointerTrackerQueue queue = sPointerTrackerQueue;
if (queue != null) {
if (key != null && key.isModifier()) {
// Before processing a down event of modifier key, all pointers already being
// tracked should be released.
queue.releaseAllPointers(eventTime);
}
queue.add(this);
}
onDownEventInternal(x, y, eventTime);
if (!sShouldHandleGesture) {
return;
}
final int activePointerTrackerCount = getActivePointerTrackerCount();
if (activePointerTrackerCount == 1) {
mIsDetectingGesture = false;
// A gesture should start only from the letter key.
final boolean isAlphabetKeyboard = (mKeyboard != null)
&& mKeyboard.mId.isAlphabetKeyboard();
if (isAlphabetKeyboard && !mIsShowingMoreKeysPanel && key != null
&& Keyboard.isLetterCode(key.mCode)) {
mIsDetectingGesture = true;
sGestureFirstDownTime = eventTime;
mGestureStrokeWithPreviewTrail.addPoint(x, y, 0, false /* isHistorical */);
}
} else if (sInGesture && activePointerTrackerCount > 1) {
mIsDetectingGesture = true;
final int elapsedTimeFromFirstDown = (int)(eventTime - sGestureFirstDownTime);
mGestureStrokeWithPreviewTrail.addPoint(x, y, elapsedTimeFromFirstDown,
false /* isHistorical */);
}
}
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;
mKeyAlreadyProcessed = false;
mIsInSlidingKeyInput = false;
mIgnoreModifierKey = false;
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)) {
key = onDownKey(x, y, eventTime);
}
startRepeatKey(key);
startLongPressTimer(key);
setPressedKeyGraphics(key);
}
}
private void startSlidingKeyInput(final Key key) {
if (!mIsInSlidingKeyInput) {
mIgnoreModifierKey = key.isModifier();
}
mIsInSlidingKeyInput = true;
}
private void onGestureMoveEvent(final int x, final int y, final long eventTime,
final boolean isHistorical, final Key key) {
final int gestureTime = (int)(eventTime - sGestureFirstDownTime);
if (mIsDetectingGesture) {
final GestureStroke stroke = mGestureStrokeWithPreviewTrail;
stroke.addPoint(x, y, gestureTime, isHistorical);
if (!sInGesture && stroke.isStartOfAGesture()) {
startBatchInput();
}
if (sInGesture && key != null) {
updateBatchInput(eventTime);
}
}
}
public void onMoveEvent(final int x, final int y, final long eventTime, final MotionEvent me) {
if (DEBUG_MOVE_EVENT) {
printTouchEvent("onMoveEvent:", x, y, eventTime);
}
if (mKeyAlreadyProcessed) {
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,
true /* isHistorical */, null);
}
}
onMoveEventInternal(x, y, eventTime);
}
private void onMoveEventInternal(final int x, final int y, final long eventTime) {
final int lastX = mLastX;
final int lastY = mLastY;
final Key oldKey = mCurrentKey;
Key key = onMoveKey(x, y);
if (sShouldHandleGesture) {
// Register move event on gesture tracker.
onGestureMoveEvent(x, y, eventTime, false /* isHistorical */, key);
if (sInGesture) {
mIgnoreModifierKey = true;
mTimerProxy.cancelLongPressTimer();
mIsInSlidingKeyInput = true;
mCurrentKey = null;
setReleasedKeyGraphics(oldKey);
return;
}
}
if (key != null) {
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.
// 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)) {
key = onMoveKey(x, y);
}
onMoveToNewKey(key, x, y);
startLongPressTimer(key);
setPressedKeyGraphics(key);
} else if (isMajorEnoughMoveToBeOnNewKey(x, y, key)) {
// 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.
setReleasedKeyGraphics(oldKey);
callListenerOnRelease(oldKey, oldKey.mCode, true);
startSlidingKeyInput(oldKey);
mTimerProxy.cancelKeyTimers();
startRepeatKey(key);
if (mIsAllowedSlidingKeyInput) {
// 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)) {
key = onMoveKey(x, y);
}
onMoveToNewKey(key, x, y);
startLongPressTimer(key);
setPressedKeyGraphics(key);
} else {
// HACK: On some devices, quick successive touches may be translated to sudden
// move by touch panel firmware. This hack detects the case and translates the
// move event to successive up and down events.
final int dx = x - lastX;
final int dy = y - lastY;
final int lastMoveSquared = dx * dx + dy * dy;
// TODO: Should find a way to balance gesture detection and this hack.
if (sNeedsPhantomSuddenMoveEventHack
&& lastMoveSquared >= mKeyQuarterWidthSquared
&& !mIsDetectingGesture) {
if (DEBUG_MODE) {
Log.w(TAG, String.format("onMoveEvent:"
+ " phantom sudden move event is translated to "
+ "up[%d,%d]/down[%d,%d] events", lastX, lastY, x, y));
}
// TODO: This should be moved to outside of this nested if-clause?
if (ProductionFlag.IS_EXPERIMENTAL) {
ResearchLogger.pointerTracker_onMoveEvent(x, y, lastX, lastY);
}
onUpEventInternal();
onDownEventInternal(x, y, eventTime);
} else {
// 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.
if (getActivePointerTrackerCount() > 1 && sPointerTrackerQueue != null
&& !sPointerTrackerQueue.hasModifierKeyOlderThan(this)) {
onUpEventInternal();
}
if (!mIsDetectingGesture) {
mKeyAlreadyProcessed = true;
}
setReleasedKeyGraphics(oldKey);
}
}
}
} else {
if (oldKey != null && isMajorEnoughMoveToBeOnNewKey(x, y, key)) {
// The pointer has been slid out from the previous key, we must call onRelease() to
// notify that the previous key has been released.
setReleasedKeyGraphics(oldKey);
callListenerOnRelease(oldKey, oldKey.mCode, true);
startSlidingKeyInput(oldKey);
mTimerProxy.cancelLongPressTimer();
if (mIsAllowedSlidingKeyInput) {
onMoveToNewKey(key, x, y);
} else {
if (!mIsDetectingGesture) {
mKeyAlreadyProcessed = true;
}
}
}
}
}
public void onUpEvent(final int x, final int y, final long eventTime) {
if (DEBUG_EVENT) {
printTouchEvent("onUpEvent :", x, y, eventTime);
}
final PointerTrackerQueue queue = sPointerTrackerQueue;
if (queue != null) {
if (!sInGesture) {
if (mCurrentKey != null && mCurrentKey.isModifier()) {
// Before processing an up event of modifier key, all pointers already being
// tracked should be released.
queue.releaseAllPointersExcept(this, eventTime);
} else {
queue.releaseAllPointersOlderThan(this, eventTime);
}
}
}
onUpEventInternal();
if (queue != null) {
queue.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:", getLastX(), getLastY(), eventTime);
}
onUpEventInternal();
mKeyAlreadyProcessed = true;
}
private void onUpEventInternal() {
mTimerProxy.cancelKeyTimers();
mIsInSlidingKeyInput = false;
mIsDetectingGesture = false;
final Key currentKey = mCurrentKey;
mCurrentKey = null;
// Release the last pressed key.
setReleasedKeyGraphics(currentKey);
if (mIsShowingMoreKeysPanel) {
mDrawingProxy.dismissMoreKeysPanel();
mIsShowingMoreKeysPanel = false;
}
if (sInGesture) {
if (currentKey != null) {
callListenerOnRelease(currentKey, currentKey.mCode, true);
}
endBatchInput();
return;
}
// This event will be recognized as a regular code input. Clear unused possible batch points
// so they are not mistakenly displayed as preview.
clearBatchInputPointsOfAllPointerTrackers();
if (mKeyAlreadyProcessed) {
return;
}
if (currentKey != null && !currentKey.isRepeatable()) {
detectAndSendKey(currentKey, mKeyX, mKeyY);
}
}
public void onShowMoreKeysPanel(final int x, final int y, final KeyEventHandler handler) {
abortBatchInput();
onLongPressed();
mIsShowingMoreKeysPanel = true;
onDownEvent(x, y, SystemClock.uptimeMillis(), handler);
}
public void onLongPressed() {
mKeyAlreadyProcessed = true;
setReleasedKeyGraphics(mCurrentKey);
final PointerTrackerQueue queue = sPointerTrackerQueue;
if (queue != null) {
queue.remove(this);
}
}
public void onCancelEvent(final int x, final int y, final long eventTime) {
if (DEBUG_EVENT) {
printTouchEvent("onCancelEvt:", x, y, eventTime);
}
final PointerTrackerQueue queue = sPointerTrackerQueue;
if (queue != null) {
queue.releaseAllPointersExcept(this, eventTime);
queue.remove(this);
}
onCancelEventInternal();
}
private void onCancelEventInternal() {
mTimerProxy.cancelKeyTimers();
setReleasedKeyGraphics(mCurrentKey);
mIsInSlidingKeyInput = false;
if (mIsShowingMoreKeysPanel) {
mDrawingProxy.dismissMoreKeysPanel();
mIsShowingMoreKeysPanel = false;
}
}
private void startRepeatKey(final Key key) {
if (key != null && key.isRepeatable() && !sInGesture) {
onRegisterKey(key);
mTimerProxy.startKeyRepeatTimer(this);
}
}
public void onRegisterKey(final Key key) {
if (key != null) {
detectAndSendKey(key, key.mX, key.mY);
mTimerProxy.startTypingStateTimer(key);
}
}
private boolean isMajorEnoughMoveToBeOnNewKey(final int x, final int y, 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;
} else if (curKey != null) {
return curKey.squaredDistanceToEdge(x, y)
>= mKeyDetector.getKeyHysteresisDistanceSquared();
} else {
return true;
}
}
private void startLongPressTimer(final Key key) {
if (key != null && key.isLongPressEnabled() && !sInGesture) {
mTimerProxy.startLongPressTimer(this);
}
}
private void detectAndSendKey(final Key key, final int x, final int y) {
if (key == null) {
callListenerOnCancelInput();
return;
}
final int code = key.mCode;
callListenerOnCodeInput(key, code, x, y);
callListenerOnRelease(key, code, false);
}
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("%s%s[%d] %4d %4d %5d %s", title,
(mKeyAlreadyProcessed ? "-" : " "), mPointerId, x, y, eventTime, code));
}
}