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/*
* Copyright (C) 2008-2009 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
*
*
* 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 org.mozilla.vrbrowser.ui.views;
import android.content.Context;
import android.graphics.Bitmap;
import android.graphics.Canvas;
import android.graphics.Paint;
import android.graphics.Paint.Align;
import android.graphics.PorterDuff;
import android.graphics.Rect;
import android.graphics.Typeface;
import android.graphics.drawable.Drawable;
import android.inputmethodservice.Keyboard;
import android.inputmethodservice.Keyboard.Key;
import android.media.AudioManager;
import android.os.Handler;
import android.os.Message;
import android.util.AttributeSet;
import android.util.TypedValue;
import android.view.GestureDetector;
import android.view.Gravity;
import android.view.LayoutInflater;
import android.view.MotionEvent;
import android.view.View;
import android.view.ViewConfiguration;
import android.view.ViewGroup.LayoutParams;
import android.view.accessibility.AccessibilityEvent;
import android.widget.PopupWindow;
import android.widget.TextView;
import androidx.annotation.NonNull;
import org.mozilla.vrbrowser.R;
import org.mozilla.vrbrowser.input.CustomKeyboard;
import java.lang.ref.WeakReference;
import java.lang.reflect.Method;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
/**
* A view that renders a virtual {@link Keyboard}. It handles rendering of keys and
* detecting key presses and touch movements.
*
* @attr ref android.R.styleable#KeyboardView_keyBackground
* @attr ref android.R.styleable#KeyboardView_keyPreviewLayout
* @attr ref android.R.styleable#KeyboardView_keyPreviewOffset
* @attr ref android.R.styleable#KeyboardView_labelTextSize
* @attr ref android.R.styleable#KeyboardView_keyTextSize
* @attr ref android.R.styleable#KeyboardView_keyTextColor
* @attr ref android.R.styleable#KeyboardView_verticalCorrection
* @attr ref android.R.styleable#KeyboardView_popupLayout
*/
public class CustomKeyboardView extends View implements View.OnClickListener {
/**
* Listener for virtual keyboard events.
*/
public interface OnKeyboardActionListener {
/**
* Called when the user presses a key. This is sent before the {@link #onKey} is called.
* For keys that repeat, this is only called once.
* @param primaryCode the unicode of the key being pressed. If the touch is not on a valid
* key, the value will be zero.
*/
void onPress(int primaryCode);
void onLongPress(Key popupKey);
void onMultiTap(Key popupKey);
/**
* Called when the user releases a key. This is sent after the {@link #onKey} is called.
* For keys that repeat, this is only called once.
* @param primaryCode the code of the key that was released
*/
void onRelease(int primaryCode);
/**
* Send a key press to the listener.
* @param primaryCode this is the key that was pressed
* @param keyCodes the codes for all the possible alternative keys
* with the primary code being the first. If the primary key code is
* a single character such as an alphabet or number or symbol, the alternatives
* will include other characters that may be on the same key or adjacent keys.
* These codes are useful to correct for accidental presses of a key adjacent to
* the intended key.
*/
void onKey(int primaryCode, int[] keyCodes, boolean hasPopup);
void onNoKey();
/**
* Sends a sequence of characters to the listener.
* @param text the sequence of characters to be displayed.
*/
void onText(CharSequence text);
/**
* Called when the user quickly moves the finger from right to left.
*/
void swipeLeft();
/**
* Called when the user quickly moves the finger from left to right.
*/
void swipeRight();
/**
* Called when the user quickly moves the finger from up to down.
*/
void swipeDown();
/**
* Called when the user quickly moves the finger from down to up.
*/
void swipeUp();
}
private static final boolean DEBUG = false;
private static final int NOT_A_KEY = -1;
private static final int[] KEY_DELETE = { Keyboard.KEYCODE_DELETE };
private static int[] LONG_PRESSABLE_STATE_SET = { android.R.attr.state_hovered };
private Keyboard mKeyboard;
private int mCurrentKeyIndex = NOT_A_KEY;
private int mLabelTextSize;
private int mKeyTextSize;
private int mKeyTextColor;
private float mShadowRadius;
private int mShadowColor;
private float mBackgroundDimAmount;
private TextView mPreviewText;
private PopupWindow mPreviewPopup;
private int mPreviewTextSizeLarge;
private int mPreviewOffset;
private int mPreviewHeight;
// Working variable
private final int[] mCoordinates = new int[2];
private PopupWindow mPopupKeyboard;
private View mMiniKeyboardContainer;
private CustomKeyboardView mMiniKeyboard;
private boolean mMiniKeyboardOnScreen;
private View mPopupParent;
private int mMiniKeyboardOffsetX;
private int mMiniKeyboardOffsetY;
private Map<Key,View> mMiniKeyboardCache;
private Key[] mKeys;
private OnKeyboardActionListener mKeyboardActionListener;
private static final int MSG_SHOW_PREVIEW = 1;
private static final int MSG_REMOVE_PREVIEW = 2;
private static final int MSG_REPEAT = 3;
private static final int MSG_LONGPRESS = 4;
private static final int DELAY_BEFORE_PREVIEW = 0;
private static final int DELAY_AFTER_PREVIEW = 70;
private static final int DEBOUNCE_TIME = 70;
private final static int[] KEY_STATE_HOVERED = {
android.R.attr.state_hovered,
android.R.attr.state_checkable,
android.R.attr.state_checked
};
private final static int[] KEY_STATE_NORMAL = {
};
private int mVerticalCorrection;
private int mProximityThreshold;
private boolean mPreviewCentered = false;
private boolean mShowPreview = true;
private boolean mShowTouchPoints = true;
private int mPopupPreviewX;
private int mPopupPreviewY;
private int mLastX;
private int mLastY;
private int mStartX;
private int mStartY;
private boolean mProximityCorrectOn;
private Paint mPaint;
private Rect mPadding;
private long mDownTime;
private long mLastMoveTime;
private int mLastKey;
private int mLastCodeX;
private int mLastCodeY;
private int mCurrentKey = NOT_A_KEY;
// Fork
private int[] mHoveredKey = new int[3];
private int[] mPrevHoveredKey = new int[3];
private int mDownKey = NOT_A_KEY;
private long mLastKeyTime;
private long mCurrentKeyTime;
private int[] mKeyIndices = new int[12];
private GestureDetector mGestureDetector;
private int mPopupX;
private int mPopupY;
private int mRepeatKeyIndex = NOT_A_KEY;
private int mPopupLayout;
private boolean mAbortKey;
private Key mInvalidatedKey;
private Rect mClipRegion = new Rect(0, 0, 0, 0);
private boolean mPossiblePoly;
private SwipeTracker mSwipeTracker = new SwipeTracker();
private int mSwipeThreshold;
private boolean mDisambiguateSwipe;
private float mKeyboardHoveredPadding = 0.0f;
private float mKeyboardPressedPadding = 0.0f;
// Variables for dealing with multiple pointers
private int mOldPointerCount = 1;
private float mOldPointerX;
private float mOldPointerY;
private Drawable mKeyBackground;
private Drawable mKeyCapStartBackground = null;
private Drawable mKeyCapEndBackground = null;
private Drawable mKeySingleBackground = null;
private static final int REPEAT_INTERVAL = 50; // ~20 keys per second
private static final int REPEAT_START_DELAY = 400;
private static final int LONGPRESS_TIMEOUT = ViewConfiguration.getLongPressTimeout();
private static int MAX_NEARBY_KEYS = 12;
private int[] mDistances = new int[MAX_NEARBY_KEYS];
// For multi-tap
private int mLastSentIndex;
private int mTapCount;
private long mLastTapTime;
private boolean mInMultiTap;
private static final int MULTITAP_INTERVAL = 250; // milliseconds
private StringBuilder mPreviewLabel = new StringBuilder(1);
/** Whether the keyboard bitmap needs to be redrawn before it's blitted. **/
private boolean mDrawPending;
/** The dirty region in the keyboard bitmap */
private Rect mDirtyRect = new Rect();
/** The keyboard bitmap for faster updates */
private Bitmap mBuffer;
/** Notes if the keyboard just changed, so that we could possibly reallocate the mBuffer. */
private boolean mKeyboardChanged;
/** The canvas for the above mutable keyboard bitmap */
private Canvas mCanvas;
/** The audio manager for accessibility support */
private AudioManager mAudioManager;
/** Whether the requirement of a headset to hear passwords if accessibility is enabled is announced. */
private boolean mHeadsetRequiredToHearPasswordsAnnounced;
// Fork
private Drawable mFeaturedKeyBackground;
private HashSet<Integer> mFeaturedKeyCodes = new HashSet<>();
private int mSelectedForegroundColor;
private int mForegroundColor;
private Handler mHandler;
private static class MessageHandler extends Handler {
private WeakReference<CustomKeyboardView> mView;
public MessageHandler(@NonNull CustomKeyboardView view) {
mView = new WeakReference<>(view);
}
@Override
public void handleMessage(Message msg) {
if (mView.get() != null) {
switch (msg.what) {
case MSG_SHOW_PREVIEW:
mView.get().showKey(msg.arg1);
break;
case MSG_REMOVE_PREVIEW:
mView.get().getPreviewText().setVisibility(INVISIBLE);
break;
case MSG_REPEAT:
if (mView.get().repeatKey()) {
Message repeat = Message.obtain(this, MSG_REPEAT);
sendMessageDelayed(repeat, REPEAT_INTERVAL);
}
break;
case MSG_LONGPRESS:
mView.get().openPopupIfRequired((MotionEvent) msg.obj);
break;
}
}
}
}
public CustomKeyboardView(Context context, AttributeSet attrs) {
this(context, attrs, 0);
}
public CustomKeyboardView(Context context, AttributeSet attrs, int defStyleAttr) {
this(context, attrs, defStyleAttr, 0);
}
public CustomKeyboardView(Context context, AttributeSet attrs, int defStyleAttr, int defStyleRes) {
super(context, attrs, defStyleAttr, defStyleRes);
LayoutInflater inflate =
(LayoutInflater) context
.getSystemService(Context.LAYOUT_INFLATER_SERVICE);
int previewLayout = 0;
int keyTextSize = 0;
mKeyBackground = context.getDrawable(R.drawable.keyboard_key_background);
mKeyCapStartBackground = context.getDrawable(R.drawable.keyboard_key_background);
mVerticalCorrection = 0;
previewLayout = 0;
mPreviewOffset = 0;
mPreviewHeight = 80;
mKeyTextSize = context.getResources().getDimensionPixelSize(R.dimen.keyboard_key_text_size);
mKeyTextColor = 0xFFFFFFFF;
mLabelTextSize = context.getResources().getDimensionPixelSize(R.dimen.keyboard_key_longtext_size);
mPopupLayout = R.layout.keyboard;
mShadowColor = 0;
mShadowRadius = 0;
mBackgroundDimAmount = 0.5f;
clearHover();
mPreviewPopup = new PopupWindow(context);
if (previewLayout != 0) {
mPreviewText = (TextView) inflate.inflate(previewLayout, null);
mPreviewTextSizeLarge = (int) mPreviewText.getTextSize();
mPreviewPopup.setContentView(mPreviewText);
mPreviewPopup.setBackgroundDrawable(null);
} else {
mShowPreview = false;
}
mPreviewPopup.setTouchable(false);
mPopupKeyboard = new PopupWindow(context);
mPopupKeyboard.setBackgroundDrawable(null);
//mPopupKeyboard.setClippingEnabled(false);
mPopupParent = this;
//mPredicting = true;
mPaint = new Paint();
mPaint.setAntiAlias(true);
mPaint.setTextSize(keyTextSize);
mPaint.setTextAlign(Align.CENTER);
mPaint.setAlpha(255);
mPaint.setTypeface(Typeface.create("sans-serif",Typeface.NORMAL));
mPadding = new Rect(0, 0, 0, 0);
mMiniKeyboardCache = new HashMap<>();
mKeyBackground.getPadding(mPadding);
mKeyboardHoveredPadding = getResources().getDimensionPixelSize(R.dimen.keyboard_key_hovered_padding);
mKeyboardPressedPadding = getResources().getDimensionPixelSize(R.dimen.keyboard_key_pressed_padding);
mSwipeThreshold = (int) (500 * getResources().getDisplayMetrics().density);
mDisambiguateSwipe = false;
mAudioManager = (AudioManager) context.getSystemService(Context.AUDIO_SERVICE);
resetMultiTap();
mForegroundColor = context.getColor(R.color.asphalt);
mSelectedForegroundColor = context.getColor(R.color.fog);
}
@Override
protected void onAttachedToWindow() {
super.onAttachedToWindow();
initGestureDetector();
if (mHandler == null) {
mHandler = new MessageHandler(this);
}
}
public void setKeyBackground(Drawable resId) {
mKeyBackground = resId;
}
public void setKeyCapStartBackground(Drawable resId) {
mKeyCapStartBackground = resId;
}
public void setKeySingleStartBackground(Drawable resId) {
mKeySingleBackground = resId;
}
public void setKeyCapEndBackground(Drawable resId) {
mKeyCapEndBackground = resId;
}
public void setKeyTextColor(int color) {
mKeyTextColor = color;
}
public void setSelectedForegroundColor(int color) {
mSelectedForegroundColor = color;
}
public void setForegroundColor(int color) {
mForegroundColor = color;
}
public void setKeyboardHoveredPadding(int padding) {
mKeyboardHoveredPadding = padding;
}
public void setKeyboardPressedPadding(int padding) {
mKeyboardPressedPadding = padding;
}
private void initGestureDetector() {
if (mGestureDetector == null) {
mGestureDetector = new GestureDetector(getContext(), new GestureDetector.SimpleOnGestureListener() {
@Override
public boolean onFling(MotionEvent me1, MotionEvent me2,
float velocityX, float velocityY) {
if (mPossiblePoly) return false;
final float absX = Math.abs(velocityX);
final float absY = Math.abs(velocityY);
float deltaX = me2.getX() - me1.getX();
float deltaY = me2.getY() - me1.getY();
int travelX = getWidth() / 2; // Half the keyboard width
int travelY = getHeight() / 2; // Half the keyboard height
mSwipeTracker.computeCurrentVelocity(1000);
final float endingVelocityX = mSwipeTracker.getXVelocity();
final float endingVelocityY = mSwipeTracker.getYVelocity();
boolean sendDownKey = false;
if (velocityX > mSwipeThreshold && absY < absX && deltaX > travelX) {
if (mDisambiguateSwipe && endingVelocityX < velocityX / 4) {
sendDownKey = true;
} else {
swipeRight();
return true;
}
} else if (velocityX < -mSwipeThreshold && absY < absX && deltaX < -travelX) {
if (mDisambiguateSwipe && endingVelocityX > velocityX / 4) {
sendDownKey = true;
} else {
swipeLeft();
return true;
}
} else if (velocityY < -mSwipeThreshold && absX < absY && deltaY < -travelY) {
if (mDisambiguateSwipe && endingVelocityY > velocityY / 4) {
sendDownKey = true;
} else {
swipeUp();
return true;
}
} else if (velocityY > mSwipeThreshold && absX < absY / 2 && deltaY > travelY) {
if (mDisambiguateSwipe && endingVelocityY < velocityY / 4) {
sendDownKey = true;
} else {
swipeDown();
return true;
}
}
if (sendDownKey) {
detectAndSendKey(mDownKey, mStartX, mStartY, me1.getEventTime());
}
return false;
}
});
mGestureDetector.setIsLongpressEnabled(false);
}
}
public void setOnKeyboardActionListener(OnKeyboardActionListener listener) {
mKeyboardActionListener = listener;
}
/**
* Returns the {@link android.inputmethodservice.KeyboardView.OnKeyboardActionListener} object.
* @return the listener attached to this keyboard
*/
protected OnKeyboardActionListener getOnKeyboardActionListener() {
return mKeyboardActionListener;
}
/**
* Attaches a keyboard to this view. The keyboard can be switched at any time and the
* view will re-layout itself to accommodate the keyboard.
* @see Keyboard
* @see #getKeyboard()
* @param keyboard the keyboard to display in this view
*/
public void setKeyboard(Keyboard keyboard) {
if (mKeyboard != null) {
showPreview(NOT_A_KEY);
}
// Remove any pending messages
removeMessages();
mKeyboard = keyboard;
List<Key> keys = mKeyboard.getKeys();
mKeys = keys.toArray(new Key[keys.size()]);
requestLayout();
// Hint to reallocate the buffer if the size changed
mKeyboardChanged = true;
invalidateAllKeys();
computeProximityThreshold(keyboard);
mMiniKeyboardCache.clear(); // Not really necessary to do every time, but will free up views
// Switching to a different keyboard should abort any pending keys so that the key up
// doesn't get delivered to the old or new keyboard
mAbortKey = true; // Until the next ACTION_DOWN
}
/**
* Returns the current keyboard being displayed by this view.
* @return the currently attached keyboard
* @see #setKeyboard(Keyboard)
*/
public Keyboard getKeyboard() {
return mKeyboard;
}
/**
* Sets the state of the shift key of the keyboard, if any.
* @param shifted whether or not to enable the state of the shift key
* @return true if the shift key state changed, false if there was no change
* @see android.inputmethodservice.KeyboardView#isShifted()
*/
public boolean setShifted(boolean shifted) {
if (mKeyboard != null) {
mKeyboard.setShifted(shifted);
// The whole keyboard probably needs to be redrawn
invalidateAllKeys();
return true;
}
return false;
}
/**
* Returns the state of the shift key of the keyboard, if any.
* @return true if the shift is in a pressed state, false otherwise. If there is
* no shift key on the keyboard or there is no keyboard attached, it returns false.
* @see android.inputmethodservice.KeyboardView#setShifted(boolean)
*/
public boolean isShifted() {
if (mKeyboard != null) {
return mKeyboard.isShifted();
}
return false;
}
/**
* Enables or disables the key feedback popup. This is a popup that shows a magnified
* version of the depressed key. By default the preview is enabled.
* @param previewEnabled whether or not to enable the key feedback popup
* @see #isPreviewEnabled()
*/
public void setPreviewEnabled(boolean previewEnabled) {
mShowPreview = previewEnabled;
}
/**
* Returns the enabled state of the key feedback popup.
* @return whether or not the key feedback popup is enabled
* @see #setPreviewEnabled(boolean)
*/
public boolean isPreviewEnabled() {
return mShowPreview;
}
public void setVerticalCorrection(int verticalOffset) {
}
public void setPopupParent(View v) {
mPopupParent = v;
}
public void setPopupOffset(int x, int y) {
mMiniKeyboardOffsetX = x;
mMiniKeyboardOffsetY = y;
if (mPreviewPopup.isShowing()) {
mPreviewPopup.dismiss();
}
}
/**
* When enabled, calls to {@link android.inputmethodservice.KeyboardView.OnKeyboardActionListener#onKey} will include key
* codes for adjacent keys. When disabled, only the primary key code will be
* reported.
* @param enabled whether or not the proximity correction is enabled
*/
public void setProximityCorrectionEnabled(boolean enabled) {
mProximityCorrectOn = enabled;
}
/**
* Returns true if proximity correction is enabled.
*/
public boolean isProximityCorrectionEnabled() {
return mProximityCorrectOn;
}
/**
* Popup keyboard close button clicked.
* @hide
*/
public void onClick(View v) {
dismissPopupKeyboard();
}
private CharSequence adjustCase(CharSequence label) {
if (mKeyboard.isShifted() && label != null && label.length() > 0 && label.length() < 3
&& Character.isLowerCase(label.charAt(0))) {
label = label.toString().toUpperCase();
}
return label;
}
@Override
public void onMeasure(int widthMeasureSpec, int heightMeasureSpec) {
// Round up a little
if (mKeyboard == null) {
setMeasuredDimension(getPaddingLeft() + getPaddingRight(), getPaddingTop() + getPaddingBottom());
} else {
int width = mKeyboard.getMinWidth() + getPaddingLeft() + getPaddingRight();
if (MeasureSpec.getSize(widthMeasureSpec) < width + 10) {
width = MeasureSpec.getSize(widthMeasureSpec);
}
setMeasuredDimension(width, mKeyboard.getHeight() + getPaddingTop() + getPaddingBottom());
}
}
/**
* Compute the average distance between adjacent keys (horizontally and vertically)
* and square it to get the proximity threshold. We use a square here and in computing
* the touch distance from a key's center to avoid taking a square root.
* @param keyboard
*/
private void computeProximityThreshold(Keyboard keyboard) {
if (keyboard == null) return;
final Key[] keys = mKeys;
if (keys == null) return;
int length = keys.length;
int dimensionSum = 0;
for (int i = 0; i < length; i++) {
Key key = keys[i];
dimensionSum += Math.min(key.width, key.height) + key.gap;
}
if (dimensionSum < 0 || length == 0) return;
mProximityThreshold = (int) (dimensionSum * 1.4f / length);
mProximityThreshold *= mProximityThreshold; // Square it
}
private Method mResizeMethod;
@Override
public void onSizeChanged(int w, int h, int oldw, int oldh) {
super.onSizeChanged(w, h, oldw, oldh);
if (mKeyboard != null) {
if (mResizeMethod == null) {
try {
mResizeMethod = Keyboard.class.getDeclaredMethod("resize", int.class, int.class);
}
catch (Exception ex) {
ex.printStackTrace();
}
}
if (mResizeMethod != null) {
try {
mResizeMethod.setAccessible(true);
mResizeMethod.invoke(mKeyboard, w, h);
}
catch (Exception ex) {
ex.printStackTrace();
}
}
}
// Release the buffer, if any and it will be reallocated on the next draw
mBuffer = null;
}
@Override
public void onDraw(Canvas canvas) {
super.onDraw(canvas);
if (mDrawPending || mBuffer == null || mKeyboardChanged) {
onBufferDraw();
}
canvas.drawBitmap(mBuffer, 0, 0, null);
}
private void onBufferDraw() {
if (mBuffer == null || mKeyboardChanged) {
if (mBuffer == null || mKeyboardChanged &&
(mBuffer.getWidth() != getWidth() || mBuffer.getHeight() != getHeight())) {
// Make sure our bitmap is at least 1x1
final int width = Math.max(1, getWidth());
final int height = Math.max(1, getHeight());
mBuffer = Bitmap.createBitmap(width, height, Bitmap.Config.ARGB_8888);
mCanvas = new Canvas(mBuffer);
}
invalidateAllKeys();
mKeyboardChanged = false;
}
final Canvas canvas = mCanvas;
mCanvas.save();
canvas.clipRect(mDirtyRect);
if (mKeyboard == null) return;
final Paint paint = mPaint;
final Rect clipRegion = mClipRegion;
final Rect padding = mPadding;
final int kbdPaddingLeft = getPaddingLeft();
final int kbdPaddingTop = getPaddingTop();
final Key[] keys = mKeys;
final Key invalidKey = mInvalidatedKey;
paint.setColor(mKeyTextColor);
boolean drawSingleKey = false;
if (invalidKey != null && canvas.getClipBounds(clipRegion)) {
// Is clipRegion completely contained within the invalidated key?
if (invalidKey.x + kbdPaddingLeft - 1 <= clipRegion.left &&
invalidKey.y + kbdPaddingTop - 1 <= clipRegion.top &&
invalidKey.x + invalidKey.width + kbdPaddingLeft + 1 >= clipRegion.right &&
invalidKey.y + invalidKey.height + kbdPaddingTop + 1 >= clipRegion.bottom) {
drawSingleKey = true;
}
}
canvas.drawColor(0x00000000, PorterDuff.Mode.CLEAR);
final int keyCount = keys.length;
for (int i = 0; i < keyCount; i++) {
final Key key = keys[i];
if (drawSingleKey && invalidKey != key) {
continue;
}
boolean stateHovered = false;
boolean statePressed = false;
int[] drawableState = key.getCurrentDrawableState();
if (((CustomKeyboard)mKeyboard).isKeyEnabled(i)) {
if (isKeyHovered(i) && !key.pressed) {
// Fork: implement hovered key
drawableState = KEY_STATE_HOVERED;
}
for (int state : drawableState) {
if (state == android.R.attr.state_hovered) {
stateHovered = true;
} else if (state == android.R.attr.state_pressed) {
statePressed = true;
}
}
} else {
drawableState = KEY_STATE_NORMAL;
}
Drawable keyBackground = mKeyBackground;
int columns = ((CustomKeyboard)mKeyboard).getMaxColumns();
if (mFeaturedKeyBackground != null && mFeaturedKeyCodes.contains(key.codes[0])) {
keyBackground = mFeaturedKeyBackground;
} else if ((i == columns && i == keyCount - 1) && mKeySingleBackground != null) {
keyBackground = mKeySingleBackground;
} else if ((i == 0 || i == columns) && mKeyCapStartBackground != null) {
keyBackground = mKeyCapStartBackground;
} else if ((i == keyCount - 1 || i == columns - 1)&& mKeyCapEndBackground != null) {
keyBackground = mKeyCapEndBackground;
}
keyBackground.setState(drawableState);
// Switch the character to uppercase if shift is pressed
String label = key.label == null ? null : adjustCase(key.label).toString();
final Rect bounds = keyBackground.getBounds();
if (key.width != bounds.right ||
key.height != bounds.bottom) {
keyBackground.setBounds(0, 0, key.width, key.height);
}
canvas.translate(key.x + kbdPaddingLeft, key.y + kbdPaddingTop);
keyBackground.draw(canvas);
// Get the button state related padding
float statePadding = 0.0f;
if (stateHovered) {
statePadding = -mKeyboardHoveredPadding;
} else if (statePressed) {
statePadding = mKeyboardPressedPadding;
}
int targetColor = mKeyTextColor;
if (stateHovered) {
targetColor = mForegroundColor;
} else if (statePressed) {
targetColor = mSelectedForegroundColor;
}
if (label != null) {
float descent;
// For characters, use large font. For labels like "Done", use small font.
if (label.length() > 1 && key.codes.length < 2) {
paint.setTextSize(mLabelTextSize);
paint.setTypeface(Typeface.DEFAULT_BOLD);
descent = mLabelTextSize * 0.1f;
} else {
paint.setTextSize(mKeyTextSize);
paint.setTypeface(Typeface.DEFAULT);
descent = paint.descent();
}
paint.setColor(targetColor);
// Draw a drop shadow for the text
paint.setShadowLayer(mShadowRadius, 0, 0, mShadowColor);
// Draw the text
canvas.drawText(label,
(key.width - padding.left - padding.right) / 2.0f
+ padding.left + statePadding,
(key.height - padding.top - padding.bottom) / 2.0f
+ (paint.getTextSize() / 2) - descent + padding.top + statePadding,
paint);
// Turn off drop shadow
paint.setShadowLayer(0, 0, 0, 0);
} else if (key.icon != null) {
final float drawableX = (key.width - padding.left - padding.right - key.icon.getIntrinsicWidth()) / 2.0f
+ padding.left + statePadding;
final float drawableY = (key.height - padding.top - padding.bottom - key.icon.getIntrinsicHeight()) / 2.0f
+ padding.top + statePadding;
canvas.translate(drawableX, drawableY);
key.icon.setColorFilter(targetColor, PorterDuff.Mode.MULTIPLY);
key.icon.setBounds(0, 0, key.icon.getIntrinsicWidth(), key.icon.getIntrinsicHeight());
key.icon.draw(canvas);
canvas.translate(-drawableX, -drawableY);
}
canvas.translate(-key.x - kbdPaddingLeft, -key.y - kbdPaddingTop);
}
mInvalidatedKey = null;
// Overlay a dark rectangle to dim the keyboard
if (mMiniKeyboardOnScreen) {
paint.setColor((int) (mBackgroundDimAmount * 0xFF) << 24);
canvas.drawRect(0, 0, getWidth(), getHeight(), paint);
}
if (DEBUG && mShowTouchPoints) {
paint.setAlpha(128);
paint.setColor(0xFFFF0000);
canvas.drawCircle(mStartX, mStartY, 3, paint);
canvas.drawLine(mStartX, mStartY, mLastX, mLastY, paint);
paint.setColor(0xFF0000FF);
canvas.drawCircle(mLastX, mLastY, 3, paint);
paint.setColor(0xFF00FF00);
canvas.drawCircle((mStartX + mLastX) / 2, (mStartY + mLastY) / 2, 2, paint);
}
mCanvas.restore();
mDrawPending = false;
mDirtyRect.setEmpty();
}
/**
* We use our own Key.isInside implementation {@link Keyboard#isInside} as that one assumes that the
* motion event is inside the key if it is an edge key.
*/
public boolean isInside(Key key, int x, int y) {
if ((x >= key.x) && (x < key.x + key.width) && (y >= key.y) && (y < key.y + key.height)) {
return true;
} else {
return false;
}
}
private int getKeyIndices(int x, int y, int[] allKeys) {
final Key[] keys = mKeys;
int primaryIndex = NOT_A_KEY;
int closestKey = NOT_A_KEY;
int closestKeyDist = mProximityThreshold + 1;
java.util.Arrays.fill(mDistances, Integer.MAX_VALUE);
int [] nearestKeyIndices = mKeyboard.getNearestKeys(x, y);
final int keyCount = nearestKeyIndices.length;
for (int i = 0; i < keyCount; i++) {
final Key key = keys[nearestKeyIndices[i]];
int dist = 0;
boolean isInside = isInside(key, x,y);
if (isInside) {
primaryIndex = nearestKeyIndices[i];
}
if (((mProximityCorrectOn
&& (dist = key.squaredDistanceFrom(x, y)) < mProximityThreshold)
|| isInside)
&& key.codes[0] > 32) {
// Find insertion point
final int nCodes = key.codes.length;
if (dist < closestKeyDist) {
closestKeyDist = dist;
closestKey = nearestKeyIndices[i];
}
if (allKeys == null) continue;
for (int j = 0; j < mDistances.length; j++) {
if (mDistances[j] > dist) {
// Make space for nCodes codes
System.arraycopy(mDistances, j, mDistances, j + nCodes,
mDistances.length - j - nCodes);
System.arraycopy(allKeys, j, allKeys, j + nCodes,
allKeys.length - j - nCodes);
for (int c = 0; c < nCodes; c++) {
allKeys[j + c] = key.codes[c];
mDistances[j + c] = dist;
}
break;
}
}
}
}
if (primaryIndex == NOT_A_KEY) {
primaryIndex = closestKey;
}
return primaryIndex;
}
private void detectAndSendKey(int index, int x, int y, long eventTime) {
if (index != NOT_A_KEY && index < mKeys.length) {
final Key key = mKeys[index];
if (key.text != null && (key.popupCharacters == null || key.popupCharacters.length() == 0)) {
if (mKeyboardActionListener != null) {
mKeyboardActionListener.onText(key.text);
mKeyboardActionListener.onRelease(NOT_A_KEY);
}
} else {
int code = key.codes[0];
boolean hasPopup = key.popupCharacters != null && key.popupCharacters.length() > 0;
//TextEntryState.keyPressedAt(key, x, y);
int[] codes = new int[MAX_NEARBY_KEYS];
Arrays.fill(codes, NOT_A_KEY);
getKeyIndices(x, y, codes);
// Multi-tap
if (mInMultiTap) {
if (mTapCount != -1 && mKeyboardActionListener != null) {
if (code != CustomKeyboard.KEYCODE_SHIFT) {
mKeyboardActionListener.onKey(Keyboard.KEYCODE_DELETE, KEY_DELETE, hasPopup);
}
} else {
mTapCount = 0;
}
code = key.codes[mTapCount];
if (mKeyboardActionListener != null) {
mKeyboardActionListener.onMultiTap(key);
}
}
if (mKeyboardActionListener != null) {
mKeyboardActionListener.onKey(code, codes, hasPopup);
mKeyboardActionListener.onRelease(code);
}
}
mLastSentIndex = index;
mLastTapTime = eventTime;
} else {
if (mKeyboardActionListener != null) {
mKeyboardActionListener.onNoKey();
}
}
}
private TextView getPreviewText() {
return mPreviewText;
}
/**
* Handle multi-tap keys by producing the key label for the current multi-tap state.
*/
private CharSequence getPreviewText(Key key) {
if (mInMultiTap) {
// Multi-tap
mPreviewLabel.setLength(0);
mPreviewLabel.append((char) key.codes[mTapCount < 0 ? 0 : mTapCount]);
return adjustCase(mPreviewLabel);
} else {
return adjustCase(key.label);
}
}
private void showPreview(int keyIndex) {
int oldKeyIndex = mCurrentKeyIndex;
final PopupWindow previewPopup = mPreviewPopup;
mCurrentKeyIndex = keyIndex;
// Release the old key and press the new key
final Key[] keys = mKeys;
if (oldKeyIndex != mCurrentKeyIndex) {
if (oldKeyIndex != NOT_A_KEY && keys.length > oldKeyIndex) {
Key oldKey = keys[oldKeyIndex];
oldKey.onReleased(mCurrentKeyIndex == NOT_A_KEY);
invalidateKey(oldKeyIndex);
final int keyCode = oldKey.codes[0];
sendAccessibilityEventForUnicodeCharacter(AccessibilityEvent.TYPE_VIEW_HOVER_EXIT,
keyCode);
// TODO: We need to implement AccessibilityNodeProvider for this view.
sendAccessibilityEventForUnicodeCharacter(
AccessibilityEvent.TYPE_VIEW_ACCESSIBILITY_FOCUS_CLEARED, keyCode);
}
if (mCurrentKeyIndex != NOT_A_KEY && keys.length > mCurrentKeyIndex) {
Key newKey = keys[mCurrentKeyIndex];
newKey.onPressed();
invalidateKey(mCurrentKeyIndex);
final int keyCode = newKey.codes[0];
sendAccessibilityEventForUnicodeCharacter(AccessibilityEvent.TYPE_VIEW_HOVER_ENTER,
keyCode);
// TODO: We need to implement AccessibilityNodeProvider for this view.
sendAccessibilityEventForUnicodeCharacter(
AccessibilityEvent.TYPE_VIEW_ACCESSIBILITY_FOCUSED, keyCode);
}
}
// If key changed and preview is on ...
if (oldKeyIndex != mCurrentKeyIndex && mShowPreview) {
mHandler.removeMessages(MSG_SHOW_PREVIEW);
if (previewPopup.isShowing()) {
if (keyIndex == NOT_A_KEY) {
mHandler.sendMessageDelayed(mHandler
.obtainMessage(MSG_REMOVE_PREVIEW),
DELAY_AFTER_PREVIEW);
}
}
if (keyIndex != NOT_A_KEY) {
if (previewPopup.isShowing() && mPreviewText.getVisibility() == VISIBLE) {
// Show right away, if it's already visible and finger is moving around
showKey(keyIndex);
} else {
mHandler.sendMessageDelayed(
mHandler.obtainMessage(MSG_SHOW_PREVIEW, keyIndex, 0),
DELAY_BEFORE_PREVIEW);
}
}
}
}
private void showKey(final int keyIndex) {
final PopupWindow previewPopup = mPreviewPopup;
final Key[] keys = mKeys;
if (keyIndex < 0 || keyIndex >= mKeys.length) return;
Key key = keys[keyIndex];
if (key.icon != null) {
mPreviewText.setCompoundDrawables(null, null, null,
key.iconPreview != null ? key.iconPreview : key.icon);
mPreviewText.setText(null);
} else {
mPreviewText.setCompoundDrawables(null, null, null, null);
mPreviewText.setText(getPreviewText(key));
if (key.label.length() > 1 && key.codes.length < 2) {
mPreviewText.setTextSize(TypedValue.COMPLEX_UNIT_PX, mKeyTextSize);
mPreviewText.setTypeface(Typeface.DEFAULT_BOLD);
} else {
mPreviewText.setTextSize(TypedValue.COMPLEX_UNIT_PX, mPreviewTextSizeLarge);
mPreviewText.setTypeface(Typeface.DEFAULT);
}
}
mPreviewText.measure(MeasureSpec.makeMeasureSpec(0, MeasureSpec.UNSPECIFIED),
MeasureSpec.makeMeasureSpec(0, MeasureSpec.UNSPECIFIED));
int popupWidth = Math.max(mPreviewText.getMeasuredWidth(), key.width
+ mPreviewText.getPaddingLeft() + mPreviewText.getPaddingRight());
final int popupHeight = mPreviewHeight;
LayoutParams lp = mPreviewText.getLayoutParams();
if (lp != null) {
lp.width = popupWidth;
lp.height = popupHeight;
}
if (!mPreviewCentered) {
mPopupPreviewX = key.x - mPreviewText.getPaddingLeft() + getPaddingLeft();
mPopupPreviewY = key.y - popupHeight + mPreviewOffset;
} else {
// TODO: Fix this if centering is brought back
mPopupPreviewX = 160 - mPreviewText.getMeasuredWidth() / 2;
mPopupPreviewY = - mPreviewText.getMeasuredHeight();
}
mHandler.removeMessages(MSG_REMOVE_PREVIEW);
getLocationInWindow(mCoordinates);
mCoordinates[0] += mMiniKeyboardOffsetX; // Offset may be zero
mCoordinates[1] += mMiniKeyboardOffsetY; // Offset may be zero
// Set the preview background state
mPreviewText.getBackground().setState(
key.popupResId != 0 ? LONG_PRESSABLE_STATE_SET : EMPTY_STATE_SET);
mPopupPreviewX += mCoordinates[0];
mPopupPreviewY += mCoordinates[1];
// If the popup cannot be shown above the key, put it on the side
getLocationOnScreen(mCoordinates);
if (mPopupPreviewY + mCoordinates[1] < 0) {
// If the key you're pressing is on the left side of the keyboard, show the popup on
// the right, offset by enough to see at least one key to the left/right.
if (key.x + key.width <= getWidth() / 2) {
mPopupPreviewX += (int) (key.width * 2.5);
} else {
mPopupPreviewX -= (int) (key.width * 2.5);
}
mPopupPreviewY += popupHeight;
}
if (previewPopup.isShowing()) {
previewPopup.update(mPopupPreviewX, mPopupPreviewY,
popupWidth, popupHeight);
} else {
previewPopup.setWidth(popupWidth);
previewPopup.setHeight(popupHeight);
previewPopup.showAtLocation(mPopupParent, Gravity.NO_GRAVITY,
mPopupPreviewX, mPopupPreviewY);
}
mPreviewText.setVisibility(VISIBLE);
}
private void sendAccessibilityEventForUnicodeCharacter(int eventType, int code) {
// TODO: We need to implement AccessibilityNodeProvider for this view.
}
/**
* Requests a redraw of the entire keyboard. Calling {@link #invalidate} is not sufficient
* because the keyboard renders the keys to an off-screen buffer and an invalidate() only
* draws the cached buffer.
* @see #invalidateKey(int)
*/
public void invalidateAllKeys() {
clearHover();
mDirtyRect.union(0, 0, getWidth(), getHeight());
mDrawPending = true;
invalidate();
}
/**
* Invalidates a key so that it will be redrawn on the next repaint. Use this method if only
* one key is changing it's content. Any changes that affect the position or size of the key
* may not be honored.
* @param keyIndex the index of the key in the attached {@link Keyboard}.
* @see #invalidateAllKeys
*/
public void invalidateKey(int keyIndex) {
if (mKeys == null) return;
if (keyIndex < 0 || keyIndex >= mKeys.length) {
return;
}
final Key key = mKeys[keyIndex];
mInvalidatedKey = key;
mDirtyRect.union(key.x + getPaddingLeft(), key.y + getPaddingTop(),
key.x + key.width + getPaddingLeft(), key.y + key.height + getPaddingTop());
onBufferDraw();
invalidate(key.x + getPaddingLeft(), key.y + getPaddingTop(),
key.x + key.width + getPaddingLeft(), key.y + key.height + getPaddingTop());
}
private boolean openPopupIfRequired(MotionEvent me) {
// Check if we have a popup layout specified first.
if (mPopupLayout == 0) {
return false;
}
if (mCurrentKey < 0 || mCurrentKey >= mKeys.length) {
return false;
}
Key popupKey = mKeys[mCurrentKey];
boolean result = onLongPress(popupKey);
if (result) {
mAbortKey = true;
showPreview(NOT_A_KEY);
}
return result;
}
/**
* Called when a key is long pressed. By default this will open any popup keyboard associated
* with this key through the attributes popupLayout and popupCharacters.
* @param popupKey the key that was long pressed
* @return true if the long press is handled, false otherwise. Subclasses should call the
* method on the base class if the subclass doesn't wish to handle the call.
*/
protected boolean onLongPress(Key popupKey) {
if (mKeyboardActionListener != null) {
mKeyboardActionListener.onLongPress(popupKey);
}
return false;
}
@Override
public boolean onTouchEvent(MotionEvent me) {
// Convert multi-pointer up/down events to single up/down events to
// deal with the typical multi-pointer behavior of two-thumb typing
final int pointerCount = me.getPointerCount();
final int action = me.getAction();
boolean result = false;
final long now = me.getEventTime();
if (pointerCount != mOldPointerCount) {
if (pointerCount == 1) {
// Send a down event for the latest pointer
MotionEvent down = MotionEvent.obtain(now, now, MotionEvent.ACTION_DOWN,
me.getX(), me.getY(), me.getMetaState());
result = onModifiedTouchEvent(down, false);
down.recycle();
// If it's an up action, then deliver the up as well.
if (action == MotionEvent.ACTION_UP) {
result = onModifiedTouchEvent(me, true);
}
} else {
// Send an up event for the last pointer
MotionEvent up = MotionEvent.obtain(now, now, MotionEvent.ACTION_UP,
mOldPointerX, mOldPointerY, me.getMetaState());
result = onModifiedTouchEvent(up, true);
up.recycle();
}
} else {
if (pointerCount == 1) {
result = onModifiedTouchEvent(me, false);
mOldPointerX = me.getX();
mOldPointerY = me.getY();
} else {
// Don't do anything when 2 pointers are down and moving.
result = true;
}
}
mOldPointerCount = pointerCount;
return result;
}
// Fork: Implement keyboard hover events
@Override
public boolean onHoverEvent(MotionEvent event) {
boolean result = super.onHoverEvent(event);
int keyIndex = NOT_A_KEY;
if (event.getAction() != MotionEvent.ACTION_HOVER_EXIT) {
int touchX = (int) event.getX() - getPaddingLeft();
int touchY = (int) event.getY() - getPaddingTop();
if (touchY >= -mVerticalCorrection) {
touchY += mVerticalCorrection;
}
keyIndex = getKeyIndices(touchX, touchY, null);
}
mPrevHoveredKey[event.getDeviceId()] = mHoveredKey[event.getDeviceId()];
mHoveredKey[event.getDeviceId()] = keyIndex;
int prevHovered = mPrevHoveredKey[event.getDeviceId()];
int currentHovered = mHoveredKey[event.getDeviceId()];
if (currentHovered != NOT_A_KEY && prevHovered != currentHovered) {
invalidateKey(currentHovered);
}
if (prevHovered != NOT_A_KEY && prevHovered != currentHovered) {
invalidateKey(prevHovered);
}
return result;
}
@Override
public void setHovered(boolean hovered) {
if (!hovered) {
boolean hasChanged = false;
for (int i=0; i<mHoveredKey.length; i++) {
hasChanged |= mPrevHoveredKey[i] != mHoveredKey[i];
}
if (hasChanged) {
clearHover();
invalidateAllKeys();
}
}
super.setHovered(hovered);
}
@Override
public boolean isHovered() {
boolean isHovered = false;
for (int value : mHoveredKey) {
isHovered |= value != NOT_A_KEY;
}
return isHovered;
}
private boolean isKeyHovered(int keyIndex) {
boolean isHovered = false;
for (int value : mHoveredKey) {
isHovered |= value == keyIndex;
}
return isHovered;
}
private void clearHover() {
Arrays.fill(mHoveredKey, NOT_A_KEY);
Arrays.fill(mPrevHoveredKey, NOT_A_KEY);
}
public void setFeaturedKeyBackground(int resId, int[] keyCodes) {
mFeaturedKeyBackground = getResources().getDrawable(resId, getContext().getTheme());
mFeaturedKeyCodes.clear();
for (int value: keyCodes) {
mFeaturedKeyCodes.add(value);
}
}
private boolean onModifiedTouchEvent(MotionEvent me, boolean possiblePoly) {
int touchX = (int) me.getX() - getPaddingLeft();
int touchY = (int) me.getY() - getPaddingTop();
if (touchY >= -mVerticalCorrection) {
touchY += mVerticalCorrection;
}
final int action = me.getAction();
final long eventTime = me.getEventTime();
int keyIndex = getKeyIndices(touchX, touchY, null);
mPossiblePoly = possiblePoly;
if (keyIndex != NOT_A_KEY && !((CustomKeyboard)mKeyboard).isKeyEnabled(keyIndex)) {
return true;
}
// Track the last few movements to look for spurious swipes.
if (action == MotionEvent.ACTION_DOWN) mSwipeTracker.clear();
mSwipeTracker.addMovement(me);
// Ignore all motion events until a DOWN.
if (mAbortKey && action != MotionEvent.ACTION_DOWN && action != MotionEvent.ACTION_CANCEL) {
return true;
}
if (mGestureDetector.onTouchEvent(me)) {
showPreview(NOT_A_KEY);
mHandler.removeMessages(MSG_REPEAT);
mHandler.removeMessages(MSG_LONGPRESS);
return true;
}
// Needs to be called after the gesture detector gets a turn, as it may have
// displayed the mini keyboard
if (mMiniKeyboardOnScreen && action != MotionEvent.ACTION_CANCEL) {
return true;
}
switch (action) {
case MotionEvent.ACTION_DOWN:
mAbortKey = false;
mStartX = touchX;
mStartY = touchY;
mLastCodeX = touchX;
mLastCodeY = touchY;
mLastKeyTime = 0;
mCurrentKeyTime = 0;
mLastKey = NOT_A_KEY;
mCurrentKey = keyIndex;
mDownKey = keyIndex;
mDownTime = me.getEventTime();
mLastMoveTime = mDownTime;
checkMultiTap(eventTime, keyIndex);
if (mKeyboardActionListener != null) {
mKeyboardActionListener.onPress(keyIndex != NOT_A_KEY ? mKeys[keyIndex].codes[0] : 0);
}
if (mCurrentKey >= 0 && mKeys[mCurrentKey].repeatable) {
mRepeatKeyIndex = mCurrentKey;
Message msg = mHandler.obtainMessage(MSG_REPEAT);
mHandler.sendMessageDelayed(msg, REPEAT_START_DELAY);
repeatKey();
// Delivering the key could have caused an abort
if (mAbortKey) {
mRepeatKeyIndex = NOT_A_KEY;
break;
}
}
if (mCurrentKey != NOT_A_KEY) {
Message msg = mHandler.obtainMessage(MSG_LONGPRESS, me);
mHandler.sendMessageDelayed(msg, LONGPRESS_TIMEOUT);
}
showPreview(keyIndex);
break;
case MotionEvent.ACTION_MOVE:
boolean continueLongPress = false;
if (keyIndex != NOT_A_KEY) {
if (mCurrentKey == NOT_A_KEY) {
mCurrentKey = keyIndex;
mCurrentKeyTime = eventTime - mDownTime;
} else {
if (keyIndex == mCurrentKey) {
mCurrentKeyTime += eventTime - mLastMoveTime;
continueLongPress = true;
} else if (mRepeatKeyIndex == NOT_A_KEY) {
resetMultiTap();
mLastKey = mDownKey;
mLastCodeX = mLastX;
mLastCodeY = mLastY;
mLastKeyTime = mCurrentKeyTime + eventTime - mLastMoveTime;
mCurrentKey = mDownKey;
mCurrentKeyTime = 0;
}
}
}
if (!continueLongPress) {
// Cancel old longpress
mHandler.removeMessages(MSG_LONGPRESS);
// Start new longpress if key has changed
if (keyIndex != NOT_A_KEY) {
Message msg = mHandler.obtainMessage(MSG_LONGPRESS, me);
mHandler.sendMessageDelayed(msg, LONGPRESS_TIMEOUT);
}
}
showPreview(mCurrentKey);
mLastMoveTime = eventTime;
break;
case MotionEvent.ACTION_UP:
removeMessages();
if (keyIndex == mCurrentKey) {
mCurrentKeyTime += eventTime - mLastMoveTime;
} else {
resetMultiTap();
mLastKey = mCurrentKey;
mLastKeyTime = mCurrentKeyTime + eventTime - mLastMoveTime;
mCurrentKey = keyIndex;
mCurrentKeyTime = 0;
}
if (mCurrentKeyTime < mLastKeyTime && mCurrentKeyTime < DEBOUNCE_TIME
&& mLastKey != NOT_A_KEY) {
mCurrentKey = mLastKey;
touchX = mLastCodeX;
touchY = mLastCodeY;
}
showPreview(NOT_A_KEY);
Arrays.fill(mKeyIndices, NOT_A_KEY);
// If we're not on a repeating key (which sends on a DOWN event)
if (mRepeatKeyIndex == NOT_A_KEY && !mMiniKeyboardOnScreen && !mAbortKey) {
detectAndSendKey(mDownKey, touchX, touchY, eventTime);
}
invalidateKey(keyIndex);
mRepeatKeyIndex = NOT_A_KEY;
break;
case MotionEvent.ACTION_CANCEL:
removeMessages();
dismissPopupKeyboard();
mAbortKey = true;
showPreview(NOT_A_KEY);
invalidateKey(mCurrentKey);
break;
}
mLastX = touchX;
mLastY = touchY;
return true;
}
private boolean repeatKey() {
Key key = mKeys[mRepeatKeyIndex];
detectAndSendKey(mCurrentKey, key.x, key.y, mLastTapTime);
return true;
}
protected void swipeRight() {
if (mKeyboardActionListener != null) {
mKeyboardActionListener.swipeRight();
}
}
protected void swipeLeft() {
if (mKeyboardActionListener != null) {
mKeyboardActionListener.swipeLeft();
}
}
protected void swipeUp() {
if (mKeyboardActionListener != null) {
mKeyboardActionListener.swipeUp();
}
}
protected void swipeDown() {
if (mKeyboardActionListener != null) {
mKeyboardActionListener.swipeDown();
}
}
public void closing() {
if (mPreviewPopup.isShowing()) {
mPreviewPopup.dismiss();
}
removeMessages();
dismissPopupKeyboard();
mBuffer = null;
mCanvas = null;
mMiniKeyboardCache.clear();
}
private void removeMessages() {
if (mHandler != null) {
mHandler.removeMessages(MSG_REPEAT);
mHandler.removeMessages(MSG_LONGPRESS);
mHandler.removeMessages(MSG_SHOW_PREVIEW);
}
}
@Override
public void onDetachedFromWindow() {
super.onDetachedFromWindow();
closing();
}
private void dismissPopupKeyboard() {
if (mPopupKeyboard.isShowing()) {
mPopupKeyboard.dismiss();
mMiniKeyboardOnScreen = false;
invalidateAllKeys();
}
}
public boolean handleBack() {
if (mPopupKeyboard.isShowing()) {
dismissPopupKeyboard();
return true;
}
return false;
}
private void resetMultiTap() {
mLastSentIndex = NOT_A_KEY;
mTapCount = 0;
mLastTapTime = -1;
mInMultiTap = false;
}
private void checkMultiTap(long eventTime, int keyIndex) {
if (keyIndex == NOT_A_KEY) return;
Key key = mKeys[keyIndex];
if (key.codes.length > 1) {
mInMultiTap = true;
if (eventTime < mLastTapTime + MULTITAP_INTERVAL
&& keyIndex == mLastSentIndex) {
mTapCount = (mTapCount + 1) % key.codes.length;
return;
} else {
mTapCount = -1;
return;
}
} else if (key.codes[0] == CustomKeyboard.KEYCODE_SHIFT) {
if (eventTime < mLastTapTime + MULTITAP_INTERVAL
&& keyIndex == mLastSentIndex) {
mInMultiTap = true;
}
}
if (eventTime > mLastTapTime + MULTITAP_INTERVAL || keyIndex != mLastSentIndex) {
resetMultiTap();
}
}
private static class SwipeTracker {
static final int NUM_PAST = 4;
static final int LONGEST_PAST_TIME = 200;
final float[] mPastX = new float[NUM_PAST];
final float[] mPastY = new float[NUM_PAST];
final long[] mPastTime = new long[NUM_PAST];
float mYVelocity;
float mXVelocity;
public void clear() {
mPastTime[0] = 0;
}
void addMovement(MotionEvent ev) {
long time = ev.getEventTime();
final int N = ev.getHistorySize();
for (int i=0; i<N; i++) {
addPoint(ev.getHistoricalX(i), ev.getHistoricalY(i),
ev.getHistoricalEventTime(i));
}
addPoint(ev.getX(), ev.getY(), time);
}
private void addPoint(float x, float y, long time) {
int drop = -1;
int i;
final long[] pastTime = mPastTime;
for (i=0; i<NUM_PAST; i++) {
if (pastTime[i] == 0) {
break;
} else if (pastTime[i] < time-LONGEST_PAST_TIME) {
drop = i;
}
}
if (i == NUM_PAST && drop < 0) {
drop = 0;
}
if (drop == i) drop--;
final float[] pastX = mPastX;
final float[] pastY = mPastY;
if (drop >= 0) {
final int start = drop+1;
final int count = NUM_PAST-drop-1;
System.arraycopy(pastX, start, pastX, 0, count);
System.arraycopy(pastY, start, pastY, 0, count);
System.arraycopy(pastTime, start, pastTime, 0, count);
i -= (drop+1);
}
pastX[i] = x;
pastY[i] = y;
pastTime[i] = time;
i++;
if (i < NUM_PAST) {
pastTime[i] = 0;
}
}
void computeCurrentVelocity(int units) {
computeCurrentVelocity(units, Float.MAX_VALUE);
}
void computeCurrentVelocity(int units, float maxVelocity) {
final float[] pastX = mPastX;
final float[] pastY = mPastY;
final long[] pastTime = mPastTime;
final float oldestX = pastX[0];
final float oldestY = pastY[0];
final long oldestTime = pastTime[0];
float accumX = 0;
float accumY = 0;
int N=0;
while (N < NUM_PAST) {
if (pastTime[N] == 0) {
break;
}
N++;
}
for (int i=1; i < N; i++) {
final int dur = (int)(pastTime[i] - oldestTime);
if (dur == 0) continue;
float dist = pastX[i] - oldestX;
float vel = (dist/dur) * units; // pixels/frame.
if (accumX == 0) accumX = vel;
else accumX = (accumX + vel) * .5f;
dist = pastY[i] - oldestY;
vel = (dist/dur) * units; // pixels/frame.
if (accumY == 0) accumY = vel;
else accumY = (accumY + vel) * .5f;
}
mXVelocity = accumX < 0.0f ? Math.max(accumX, -maxVelocity)
: Math.min(accumX, maxVelocity);
mYVelocity = accumY < 0.0f ? Math.max(accumY, -maxVelocity)
: Math.min(accumY, maxVelocity);
}
float getXVelocity() {
return mXVelocity;
}
float getYVelocity() {
return mYVelocity;
}
}
}