/* * Copyright (C) 2010 Google Inc. * * 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 com.android.inputmethod.keyboard.KeyboardView.UIHandler; import com.android.inputmethod.latin.R; import android.content.res.Resources; import android.util.Log; import android.view.MotionEvent; public class PointerTracker { private static final String TAG = "PointerTracker"; private static final boolean DEBUG = false; private static final boolean DEBUG_MOVE = false; public interface UIProxy { public void invalidateKey(Key key); public void showPreview(int keyIndex, PointerTracker tracker); public boolean hasDistinctMultitouch(); } public final int mPointerId; // Timing constants private final int mDelayBeforeKeyRepeatStart; private final int mLongPressKeyTimeout; private final int mLongPressShiftKeyTimeout; private final int mMultiTapKeyTimeout; // Miscellaneous constants private static final int NOT_A_KEY = KeyDetector.NOT_A_KEY; private static final int[] KEY_DELETE = { Keyboard.CODE_DELETE }; private final UIProxy mProxy; private final UIHandler mHandler; private final KeyDetector mKeyDetector; private KeyboardActionListener mListener; private final boolean mHasDistinctMultitouch; private Keyboard mKeyboard; private Key[] mKeys; private int mKeyHysteresisDistanceSquared = -1; private final KeyState mKeyState; // true if event is already translated to a key action (long press or mini-keyboard) private boolean mKeyAlreadyProcessed; // true if this pointer is repeatable key private boolean mIsRepeatableKey; // For multi-tap private int mLastSentIndex; private int mTapCount; private long mLastTapTime; private boolean mInMultiTap; private final StringBuilder mPreviewLabel = new StringBuilder(1); // pressed key private int mPreviousKey = NOT_A_KEY; // This class keeps track of a key index and a position where this pointer is. private static class KeyState { private final KeyDetector mKeyDetector; // The position and time at which first down event occurred. private int mStartX; private int mStartY; private long mDownTime; // The current key index where this pointer is. private int mKeyIndex = NOT_A_KEY; // The position where mKeyIndex was recognized for the first time. private int mKeyX; private int mKeyY; // Last pointer position. private int mLastX; private int mLastY; public KeyState(KeyDetector keyDetecor) { mKeyDetector = keyDetecor; } public int getKeyIndex() { return mKeyIndex; } public int getKeyX() { return mKeyX; } public int getKeyY() { return mKeyY; } public int getStartX() { return mStartX; } public int getStartY() { return mStartY; } public long getDownTime() { return mDownTime; } public int getLastX() { return mLastX; } public int getLastY() { return mLastY; } public int onDownKey(int x, int y, long eventTime) { mStartX = x; mStartY = y; mDownTime = eventTime; return onMoveToNewKey(onMoveKeyInternal(x, y), x, y); } private int onMoveKeyInternal(int x, int y) { mLastX = x; mLastY = y; return mKeyDetector.getKeyIndexAndNearbyCodes(x, y, null); } public int onMoveKey(int x, int y) { return onMoveKeyInternal(x, y); } public int onMoveToNewKey(int keyIndex, int x, int y) { mKeyIndex = keyIndex; mKeyX = x; mKeyY = y; return keyIndex; } public int onUpKey(int x, int y) { return onMoveKeyInternal(x, y); } public void onSetKeyboard() { mKeyIndex = mKeyDetector.getKeyIndexAndNearbyCodes(mKeyX, mKeyY, null); } } public PointerTracker(int id, UIHandler handler, KeyDetector keyDetector, UIProxy proxy, Resources res) { if (proxy == null || handler == null || keyDetector == null) throw new NullPointerException(); mPointerId = id; mProxy = proxy; mHandler = handler; mKeyDetector = keyDetector; mKeyState = new KeyState(keyDetector); mHasDistinctMultitouch = proxy.hasDistinctMultitouch(); mDelayBeforeKeyRepeatStart = res.getInteger(R.integer.config_delay_before_key_repeat_start); mLongPressKeyTimeout = res.getInteger(R.integer.config_long_press_key_timeout); mLongPressShiftKeyTimeout = res.getInteger(R.integer.config_long_press_shift_key_timeout); mMultiTapKeyTimeout = res.getInteger(R.integer.config_multi_tap_key_timeout); resetMultiTap(); } public void setOnKeyboardActionListener(KeyboardActionListener listener) { mListener = listener; } public void setKeyboard(Keyboard keyboard, Key[] keys, float keyHysteresisDistance) { if (keyboard == null || keys == null || keyHysteresisDistance < 0) throw new IllegalArgumentException(); mKeyboard = keyboard; mKeys = keys; mKeyHysteresisDistanceSquared = (int)(keyHysteresisDistance * keyHysteresisDistance); // Update current key index because keyboard layout has been changed. mKeyState.onSetKeyboard(); } private boolean isValidKeyIndex(int keyIndex) { return keyIndex >= 0 && keyIndex < mKeys.length; } public Key getKey(int keyIndex) { return isValidKeyIndex(keyIndex) ? mKeys[keyIndex] : null; } private boolean isModifierInternal(int keyIndex) { Key key = getKey(keyIndex); if (key == null) return false; int primaryCode = key.mCodes[0]; return primaryCode == Keyboard.CODE_SHIFT || primaryCode == Keyboard.CODE_SWITCH_ALPHA_SYMBOL; } public boolean isModifier() { return isModifierInternal(mKeyState.getKeyIndex()); } public boolean isOnModifierKey(int x, int y) { return isModifierInternal(mKeyDetector.getKeyIndexAndNearbyCodes(x, y, null)); } public boolean isOnShiftKey(int x, int y) { final Key key = getKey(mKeyDetector.getKeyIndexAndNearbyCodes(x, y, null)); return key != null && key.mCodes[0] == Keyboard.CODE_SHIFT; } public boolean isSpaceKey(int keyIndex) { Key key = getKey(keyIndex); return key != null && key.mCodes[0] == Keyboard.CODE_SPACE; } public void releaseKey() { updateKeyGraphics(NOT_A_KEY); } private void updateKeyGraphics(int keyIndex) { int oldKeyIndex = mPreviousKey; mPreviousKey = keyIndex; if (keyIndex != oldKeyIndex) { if (isValidKeyIndex(oldKeyIndex)) { // if new key index is not a key, old key was just released inside of the key. final boolean inside = (keyIndex == NOT_A_KEY); mKeys[oldKeyIndex].onReleased(inside); mProxy.invalidateKey(mKeys[oldKeyIndex]); } if (isValidKeyIndex(keyIndex)) { mKeys[keyIndex].onPressed(); mProxy.invalidateKey(mKeys[keyIndex]); } } } public void setAlreadyProcessed() { mKeyAlreadyProcessed = true; } public void onTouchEvent(int action, int x, int y, long eventTime) { switch (action) { case MotionEvent.ACTION_MOVE: onMoveEvent(x, y, eventTime); break; case MotionEvent.ACTION_DOWN: case MotionEvent.ACTION_POINTER_DOWN: onDownEvent(x, y, eventTime); break; case MotionEvent.ACTION_UP: case MotionEvent.ACTION_POINTER_UP: onUpEvent(x, y, eventTime); break; case MotionEvent.ACTION_CANCEL: onCancelEvent(x, y, eventTime); break; } } public void onDownEvent(int x, int y, long eventTime) { if (DEBUG) debugLog("onDownEvent:", x, y); int keyIndex = mKeyState.onDownKey(x, y, eventTime); mKeyAlreadyProcessed = false; mIsRepeatableKey = false; checkMultiTap(eventTime, keyIndex); if (mListener != null) { if (isValidKeyIndex(keyIndex)) { mListener.onPress(mKeys[keyIndex].mCodes[0]); // This onPress call may have changed keyboard layout and have updated mKeyIndex. // If that's the case, mKeyIndex has been updated in setKeyboard(). keyIndex = mKeyState.getKeyIndex(); } } if (isValidKeyIndex(keyIndex)) { if (mKeys[keyIndex].mRepeatable) { repeatKey(keyIndex); mHandler.startKeyRepeatTimer(mDelayBeforeKeyRepeatStart, keyIndex, this); mIsRepeatableKey = true; } startLongPressTimer(keyIndex); } showKeyPreviewAndUpdateKeyGraphics(keyIndex); } public void onMoveEvent(int x, int y, @SuppressWarnings("unused") long eventTime) { if (DEBUG_MOVE) debugLog("onMoveEvent:", x, y); if (mKeyAlreadyProcessed) return; KeyState keyState = mKeyState; final int keyIndex = keyState.onMoveKey(x, y); final Key oldKey = getKey(keyState.getKeyIndex()); if (isValidKeyIndex(keyIndex)) { if (oldKey == null) { keyState.onMoveToNewKey(keyIndex, x, y); startLongPressTimer(keyIndex); } else if (!isMinorMoveBounce(x, y, keyIndex)) { if (mListener != null) mListener.onRelease(oldKey.mCodes[0]); resetMultiTap(); keyState.onMoveToNewKey(keyIndex, x, y); startLongPressTimer(keyIndex); } } else { if (oldKey != null) { if (mListener != null) mListener.onRelease(oldKey.mCodes[0]); keyState.onMoveToNewKey(keyIndex, x ,y); mHandler.cancelLongPressTimers(); } else if (!isMinorMoveBounce(x, y, keyIndex)) { resetMultiTap(); keyState.onMoveToNewKey(keyIndex, x ,y); mHandler.cancelLongPressTimers(); } } showKeyPreviewAndUpdateKeyGraphics(mKeyState.getKeyIndex()); } public void onUpEvent(int pointX, int pointY, long eventTime) { int x = pointX; int y = pointY; if (DEBUG) debugLog("onUpEvent :", x, y); showKeyPreviewAndUpdateKeyGraphics(NOT_A_KEY); if (mKeyAlreadyProcessed) return; mHandler.cancelKeyTimers(); mHandler.cancelPopupPreview(); int keyIndex = mKeyState.onUpKey(x, y); if (isMinorMoveBounce(x, y, keyIndex)) { // Use previous fixed key index and coordinates. keyIndex = mKeyState.getKeyIndex(); x = mKeyState.getKeyX(); y = mKeyState.getKeyY(); } if (!mIsRepeatableKey) { detectAndSendKey(keyIndex, x, y, eventTime); } if (isValidKeyIndex(keyIndex)) mProxy.invalidateKey(mKeys[keyIndex]); } public void onCancelEvent(int x, int y, @SuppressWarnings("unused") long eventTime) { if (DEBUG) debugLog("onCancelEvt:", x, y); mHandler.cancelKeyTimers(); mHandler.cancelPopupPreview(); showKeyPreviewAndUpdateKeyGraphics(NOT_A_KEY); int keyIndex = mKeyState.getKeyIndex(); if (isValidKeyIndex(keyIndex)) mProxy.invalidateKey(mKeys[keyIndex]); } public void repeatKey(int keyIndex) { Key key = getKey(keyIndex); if (key != null) { // While key is repeating, because there is no need to handle multi-tap key, we can // pass -1 as eventTime argument. detectAndSendKey(keyIndex, key.mX, key.mY, -1); } } public int getLastX() { return mKeyState.getLastX(); } public int getLastY() { return mKeyState.getLastY(); } public long getDownTime() { return mKeyState.getDownTime(); } // These package scope methods are only for debugging purpose. /* package */ int getStartX() { return mKeyState.getStartX(); } /* package */ int getStartY() { return mKeyState.getStartY(); } private boolean isMinorMoveBounce(int x, int y, int newKey) { if (mKeys == null || mKeyHysteresisDistanceSquared < 0) throw new IllegalStateException("keyboard and/or hysteresis not set"); int curKey = mKeyState.getKeyIndex(); if (newKey == curKey) { return true; } else if (isValidKeyIndex(curKey)) { return mKeys[curKey].squaredDistanceToEdge(x, y) < mKeyHysteresisDistanceSquared; } else { return false; } } private void showKeyPreviewAndUpdateKeyGraphics(int keyIndex) { updateKeyGraphics(keyIndex); // The modifier key, such as shift key, should not be shown as preview when multi-touch is // supported. On the other hand, if multi-touch is not supported, the modifier key should // be shown as preview. if (mHasDistinctMultitouch && isModifier()) { mProxy.showPreview(NOT_A_KEY, this); } else { mProxy.showPreview(keyIndex, this); } } private void startLongPressTimer(int keyIndex) { Key key = getKey(keyIndex); if (key.mCodes[0] == Keyboard.CODE_SHIFT) { mHandler.startLongPressShiftTimer(mLongPressShiftKeyTimeout, keyIndex, this); } else { mHandler.startLongPressTimer(mLongPressKeyTimeout, keyIndex, this); } } private void detectAndSendKey(int index, int x, int y, long eventTime) { final KeyboardActionListener listener = mListener; final Key key = getKey(index); if (key == null) { if (listener != null) listener.onCancel(); } else { if (key.mOutputText != null) { if (listener != null) { listener.onText(key.mOutputText); listener.onRelease(NOT_A_KEY); } } else { int code = key.mCodes[0]; //TextEntryState.keyPressedAt(key, x, y); int[] codes = mKeyDetector.newCodeArray(); mKeyDetector.getKeyIndexAndNearbyCodes(x, y, codes); // Multi-tap if (mInMultiTap) { if (mTapCount != -1) { mListener.onKey(Keyboard.CODE_DELETE, KEY_DELETE, x, y); } else { mTapCount = 0; } code = key.mCodes[mTapCount]; } // If keyboard is in manual temporary upper case state and key has manual temporary // shift code, alternate character code should be sent. if (mKeyboard.isManualTemporaryUpperCase() && key.mManualTemporaryUpperCaseCode != 0) { code = key.mManualTemporaryUpperCaseCode; codes[0] = code; } /* * Swap the first and second values in the codes array if the primary code is not * the first value but the second value in the array. This happens when key * debouncing is in effect. */ if (codes.length >= 2 && codes[0] != code && codes[1] == code) { codes[1] = codes[0]; codes[0] = code; } if (listener != null) { listener.onKey(code, codes, x, y); listener.onRelease(code); } } mLastSentIndex = index; mLastTapTime = eventTime; } } /** * Handle multi-tap keys by producing the key label for the current multi-tap state. */ public CharSequence getPreviewText(Key key) { if (mInMultiTap) { // Multi-tap mPreviewLabel.setLength(0); mPreviewLabel.append((char) key.mCodes[mTapCount < 0 ? 0 : mTapCount]); return mPreviewLabel; } else { return key.mLabel; } } private void resetMultiTap() { mLastSentIndex = NOT_A_KEY; mTapCount = 0; mLastTapTime = -1; mInMultiTap = false; } private void checkMultiTap(long eventTime, int keyIndex) { Key key = getKey(keyIndex); if (key == null) return; final boolean isMultiTap = (eventTime < mLastTapTime + mMultiTapKeyTimeout && keyIndex == mLastSentIndex); if (key.mCodes.length > 1) { mInMultiTap = true; if (isMultiTap) { mTapCount = (mTapCount + 1) % key.mCodes.length; return; } else { mTapCount = -1; return; } } if (!isMultiTap) { resetMultiTap(); } } private void debugLog(String title, int x, int y) { int keyIndex = mKeyDetector.getKeyIndexAndNearbyCodes(x, y, null); Key key = getKey(keyIndex); final String code; if (key == null) { code = "----"; } else { int primaryCode = key.mCodes[0]; code = String.format((primaryCode < 0) ? "%4d" : "0x%02x", primaryCode); } Log.d(TAG, String.format("%s%s[%d] %3d,%3d %3d(%s) %s", title, (mKeyAlreadyProcessed ? "-" : " "), mPointerId, x, y, keyIndex, code, (isModifier() ? "modifier" : ""))); } }