/*
* Copyright (C) 2007 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.internal.widget;
import android.animation.Animator;
import android.animation.AnimatorListenerAdapter;
import android.animation.ValueAnimator;
import android.content.Context;
import android.content.res.TypedArray;
import android.graphics.Canvas;
import android.graphics.Paint;
import android.graphics.Path;
import android.graphics.Rect;
import android.os.Debug;
import android.os.Parcel;
import android.os.Parcelable;
import android.os.SystemClock;
import android.util.AttributeSet;
import android.view.HapticFeedbackConstants;
import android.view.MotionEvent;
import android.view.View;
import android.view.accessibility.AccessibilityManager;
import android.view.animation.AnimationUtils;
import android.view.animation.Interpolator;
import com.android.internal.R;
import java.util.ArrayList;
import java.util.List;
/**
* Displays and detects the user's unlock attempt, which is a drag of a finger
* across 9 regions of the screen.
*
* Is also capable of displaying a static pattern in "in progress", "wrong" or
* "correct" states.
*/
public class LockPatternView extends View {
// Aspect to use when rendering this view
private static final int ASPECT_SQUARE = 0; // View will be the minimum of width/height
private static final int ASPECT_LOCK_WIDTH = 1; // Fixed width; height will be minimum of (w,h)
private static final int ASPECT_LOCK_HEIGHT = 2; // Fixed height; width will be minimum of (w,h)
private static final boolean PROFILE_DRAWING = false;
private final CellState[][] mCellStates;
private final int mDotSize;
private final int mDotSizeActivated;
private final int mPathWidth;
private boolean mDrawingProfilingStarted = false;
private Paint mPaint = new Paint();
private Paint mPathPaint = new Paint();
/**
* How many milliseconds we spend animating each circle of a lock pattern
* if the animating mode is set. The entire animation should take this
* constant * the length of the pattern to complete.
*/
private static final int MILLIS_PER_CIRCLE_ANIMATING = 700;
/**
* This can be used to avoid updating the display for very small motions or noisy panels.
* It didn't seem to have much impact on the devices tested, so currently set to 0.
*/
private static final float DRAG_THRESHHOLD = 0.0f;
private OnPatternListener mOnPatternListener;
private ArrayList<Cell> mPattern = new ArrayList<Cell>(9);
/**
* Lookup table for the circles of the pattern we are currently drawing.
* This will be the cells of the complete pattern unless we are animating,
* in which case we use this to hold the cells we are drawing for the in
* progress animation.
*/
private boolean[][] mPatternDrawLookup = new boolean[3][3];
/**
* the in progress point:
* - during interaction: where the user's finger is
* - during animation: the current tip of the animating line
*/
private float mInProgressX = -1;
private float mInProgressY = -1;
private long mAnimatingPeriodStart;
private DisplayMode mPatternDisplayMode = DisplayMode.Correct;
private boolean mInputEnabled = true;
private boolean mInStealthMode = false;
private boolean mEnableHapticFeedback = true;
private boolean mPatternInProgress = false;
private float mHitFactor = 0.6f;
private float mSquareWidth;
private float mSquareHeight;
private final Path mCurrentPath = new Path();
private final Rect mInvalidate = new Rect();
private final Rect mTmpInvalidateRect = new Rect();
private int mAspect;
private int mRegularColor;
private int mErrorColor;
private int mSuccessColor;
private Interpolator mFastOutSlowInInterpolator;
private Interpolator mLinearOutSlowInInterpolator;
/**
* Represents a cell in the 3 X 3 matrix of the unlock pattern view.
*/
public static class Cell {
int row;
int column;
// keep # objects limited to 9
static Cell[][] sCells = new Cell[3][3];
static {
for (int i = 0; i < 3; i++) {
for (int j = 0; j < 3; j++) {
sCells[i][j] = new Cell(i, j);
}
}
}
/**
* @param row The row of the cell.
* @param column The column of the cell.
*/
private Cell(int row, int column) {
checkRange(row, column);
this.row = row;
this.column = column;
}
public int getRow() {
return row;
}
public int getColumn() {
return column;
}
/**
* @param row The row of the cell.
* @param column The column of the cell.
*/
public static synchronized Cell of(int row, int column) {
checkRange(row, column);
return sCells[row][column];
}
private static void checkRange(int row, int column) {
if (row < 0 || row > 2) {
throw new IllegalArgumentException("row must be in range 0-2");
}
if (column < 0 || column > 2) {
throw new IllegalArgumentException("column must be in range 0-2");
}
}
public String toString() {
return "(row=" + row + ",clmn=" + column + ")";
}
}
public static class CellState {
public float scale = 1.0f;
public float translateY = 0.0f;
public float alpha = 1.0f;
public float size;
public float lineEndX = Float.MIN_VALUE;
public float lineEndY = Float.MIN_VALUE;
public ValueAnimator lineAnimator;
}
/**
* How to display the current pattern.
*/
public enum DisplayMode {
/**
* The pattern drawn is correct (i.e draw it in a friendly color)
*/
Correct,
/**
* Animate the pattern (for demo, and help).
*/
Animate,
/**
* The pattern is wrong (i.e draw a foreboding color)
*/
Wrong
}
/**
* The call back interface for detecting patterns entered by the user.
*/
public static interface OnPatternListener {
/**
* A new pattern has begun.
*/
void onPatternStart();
/**
* The pattern was cleared.
*/
void onPatternCleared();
/**
* The user extended the pattern currently being drawn by one cell.
* @param pattern The pattern with newly added cell.
*/
void onPatternCellAdded(List<Cell> pattern);
/**
* A pattern was detected from the user.
* @param pattern The pattern.
*/
void onPatternDetected(List<Cell> pattern);
}
public LockPatternView(Context context) {
this(context, null);
}
public LockPatternView(Context context, AttributeSet attrs) {
super(context, attrs);
TypedArray a = context.obtainStyledAttributes(attrs, R.styleable.LockPatternView);
final String aspect = a.getString(R.styleable.LockPatternView_aspect);
if ("square".equals(aspect)) {
mAspect = ASPECT_SQUARE;
} else if ("lock_width".equals(aspect)) {
mAspect = ASPECT_LOCK_WIDTH;
} else if ("lock_height".equals(aspect)) {
mAspect = ASPECT_LOCK_HEIGHT;
} else {
mAspect = ASPECT_SQUARE;
}
setClickable(true);
mPathPaint.setAntiAlias(true);
mPathPaint.setDither(true);
mRegularColor = getResources().getColor(R.color.lock_pattern_view_regular_color);
mErrorColor = getResources().getColor(R.color.lock_pattern_view_error_color);
mSuccessColor = getResources().getColor(R.color.lock_pattern_view_success_color);
mRegularColor = a.getColor(R.styleable.LockPatternView_regularColor, mRegularColor);
mErrorColor = a.getColor(R.styleable.LockPatternView_errorColor, mErrorColor);
mSuccessColor = a.getColor(R.styleable.LockPatternView_successColor, mSuccessColor);
int pathColor = a.getColor(R.styleable.LockPatternView_pathColor, mRegularColor);
mPathPaint.setColor(pathColor);
mPathPaint.setStyle(Paint.Style.STROKE);
mPathPaint.setStrokeJoin(Paint.Join.ROUND);
mPathPaint.setStrokeCap(Paint.Cap.ROUND);
mPathWidth = getResources().getDimensionPixelSize(R.dimen.lock_pattern_dot_line_width);
mPathPaint.setStrokeWidth(mPathWidth);
mDotSize = getResources().getDimensionPixelSize(R.dimen.lock_pattern_dot_size);
mDotSizeActivated = getResources().getDimensionPixelSize(
R.dimen.lock_pattern_dot_size_activated);
mPaint.setAntiAlias(true);
mPaint.setDither(true);
mCellStates = new CellState[3][3];
for (int i = 0; i < 3; i++) {
for (int j = 0; j < 3; j++) {
mCellStates[i][j] = new CellState();
mCellStates[i][j].size = mDotSize;
}
}
mFastOutSlowInInterpolator =
AnimationUtils.loadInterpolator(context, android.R.interpolator.fast_out_slow_in);
mLinearOutSlowInInterpolator =
AnimationUtils.loadInterpolator(context, android.R.interpolator.linear_out_slow_in);
}
public CellState[][] getCellStates() {
return mCellStates;
}
/**
* @return Whether the view is in stealth mode.
*/
public boolean isInStealthMode() {
return mInStealthMode;
}
/**
* @return Whether the view has tactile feedback enabled.
*/
public boolean isTactileFeedbackEnabled() {
return mEnableHapticFeedback;
}
/**
* Set whether the view is in stealth mode. If true, there will be no
* visible feedback as the user enters the pattern.
*
* @param inStealthMode Whether in stealth mode.
*/
public void setInStealthMode(boolean inStealthMode) {
mInStealthMode = inStealthMode;
}
/**
* Set whether the view will use tactile feedback. If true, there will be
* tactile feedback as the user enters the pattern.
*
* @param tactileFeedbackEnabled Whether tactile feedback is enabled
*/
public void setTactileFeedbackEnabled(boolean tactileFeedbackEnabled) {
mEnableHapticFeedback = tactileFeedbackEnabled;
}
/**
* Set the call back for pattern detection.
* @param onPatternListener The call back.
*/
public void setOnPatternListener(
OnPatternListener onPatternListener) {
mOnPatternListener = onPatternListener;
}
/**
* Set the pattern explicitely (rather than waiting for the user to input
* a pattern).
* @param displayMode How to display the pattern.
* @param pattern The pattern.
*/
public void setPattern(DisplayMode displayMode, List<Cell> pattern) {
mPattern.clear();
mPattern.addAll(pattern);
clearPatternDrawLookup();
for (Cell cell : pattern) {
mPatternDrawLookup[cell.getRow()][cell.getColumn()] = true;
}
setDisplayMode(displayMode);
}
/**
* Set the display mode of the current pattern. This can be useful, for
* instance, after detecting a pattern to tell this view whether change the
* in progress result to correct or wrong.
* @param displayMode The display mode.
*/
public void setDisplayMode(DisplayMode displayMode) {
mPatternDisplayMode = displayMode;
if (displayMode == DisplayMode.Animate) {
if (mPattern.size() == 0) {
throw new IllegalStateException("you must have a pattern to "
+ "animate if you want to set the display mode to animate");
}
mAnimatingPeriodStart = SystemClock.elapsedRealtime();
final Cell first = mPattern.get(0);
mInProgressX = getCenterXForColumn(first.getColumn());
mInProgressY = getCenterYForRow(first.getRow());
clearPatternDrawLookup();
}
invalidate();
}
private void notifyCellAdded() {
sendAccessEvent(R.string.lockscreen_access_pattern_cell_added);
if (mOnPatternListener != null) {
mOnPatternListener.onPatternCellAdded(mPattern);
}
}
private void notifyPatternStarted() {
sendAccessEvent(R.string.lockscreen_access_pattern_start);
if (mOnPatternListener != null) {
mOnPatternListener.onPatternStart();
}
}
private void notifyPatternDetected() {
sendAccessEvent(R.string.lockscreen_access_pattern_detected);
if (mOnPatternListener != null) {
mOnPatternListener.onPatternDetected(mPattern);
}
}
private void notifyPatternCleared() {
sendAccessEvent(R.string.lockscreen_access_pattern_cleared);
if (mOnPatternListener != null) {
mOnPatternListener.onPatternCleared();
}
}
/**
* Clear the pattern.
*/
public void clearPattern() {
resetPattern();
}
/**
* Reset all pattern state.
*/
private void resetPattern() {
mPattern.clear();
clearPatternDrawLookup();
mPatternDisplayMode = DisplayMode.Correct;
invalidate();
}
/**
* Clear the pattern lookup table.
*/
private void clearPatternDrawLookup() {
for (int i = 0; i < 3; i++) {
for (int j = 0; j < 3; j++) {
mPatternDrawLookup[i][j] = false;
}
}
}
/**
* Disable input (for instance when displaying a message that will
* timeout so user doesn't get view into messy state).
*/
public void disableInput() {
mInputEnabled = false;
}
/**
* Enable input.
*/
public void enableInput() {
mInputEnabled = true;
}
@Override
protected void onSizeChanged(int w, int h, int oldw, int oldh) {
final int width = w - mPaddingLeft - mPaddingRight;
mSquareWidth = width / 3.0f;
final int height = h - mPaddingTop - mPaddingBottom;
mSquareHeight = height / 3.0f;
}
private int resolveMeasured(int measureSpec, int desired)
{
int result = 0;
int specSize = MeasureSpec.getSize(measureSpec);
switch (MeasureSpec.getMode(measureSpec)) {
case MeasureSpec.UNSPECIFIED:
result = desired;
break;
case MeasureSpec.AT_MOST:
result = Math.max(specSize, desired);
break;
case MeasureSpec.EXACTLY:
default:
result = specSize;
}
return result;
}
@Override
protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) {
final int minimumWidth = getSuggestedMinimumWidth();
final int minimumHeight = getSuggestedMinimumHeight();
int viewWidth = resolveMeasured(widthMeasureSpec, minimumWidth);
int viewHeight = resolveMeasured(heightMeasureSpec, minimumHeight);
switch (mAspect) {
case ASPECT_SQUARE:
viewWidth = viewHeight = Math.min(viewWidth, viewHeight);
break;
case ASPECT_LOCK_WIDTH:
viewHeight = Math.min(viewWidth, viewHeight);
break;
case ASPECT_LOCK_HEIGHT:
viewWidth = Math.min(viewWidth, viewHeight);
break;
}
// Log.v(TAG, "LockPatternView dimensions: " + viewWidth + "x" + viewHeight);
setMeasuredDimension(viewWidth, viewHeight);
}
/**
* Determines whether the point x, y will add a new point to the current
* pattern (in addition to finding the cell, also makes heuristic choices
* such as filling in gaps based on current pattern).
* @param x The x coordinate.
* @param y The y coordinate.
*/
private Cell detectAndAddHit(float x, float y) {
final Cell cell = checkForNewHit(x, y);
if (cell != null) {
// check for gaps in existing pattern
Cell fillInGapCell = null;
final ArrayList<Cell> pattern = mPattern;
if (!pattern.isEmpty()) {
final Cell lastCell = pattern.get(pattern.size() - 1);
int dRow = cell.row - lastCell.row;
int dColumn = cell.column - lastCell.column;
int fillInRow = lastCell.row;
int fillInColumn = lastCell.column;
if (Math.abs(dRow) == 2 && Math.abs(dColumn) != 1) {
fillInRow = lastCell.row + ((dRow > 0) ? 1 : -1);
}
if (Math.abs(dColumn) == 2 && Math.abs(dRow) != 1) {
fillInColumn = lastCell.column + ((dColumn > 0) ? 1 : -1);
}
fillInGapCell = Cell.of(fillInRow, fillInColumn);
}
if (fillInGapCell != null &&
!mPatternDrawLookup[fillInGapCell.row][fillInGapCell.column]) {
addCellToPattern(fillInGapCell);
}
addCellToPattern(cell);
if (mEnableHapticFeedback) {
performHapticFeedback(HapticFeedbackConstants.VIRTUAL_KEY,
HapticFeedbackConstants.FLAG_IGNORE_VIEW_SETTING
| HapticFeedbackConstants.FLAG_IGNORE_GLOBAL_SETTING);
}
return cell;
}
return null;
}
private void addCellToPattern(Cell newCell) {
mPatternDrawLookup[newCell.getRow()][newCell.getColumn()] = true;
mPattern.add(newCell);
if (!mInStealthMode) {
startCellActivatedAnimation(newCell);
}
notifyCellAdded();
}
private void startCellActivatedAnimation(Cell cell) {
final CellState cellState = mCellStates[cell.row][cell.column];
startSizeAnimation(mDotSize, mDotSizeActivated, 96, mLinearOutSlowInInterpolator,
cellState, new Runnable() {
@Override
public void run() {
startSizeAnimation(mDotSizeActivated, mDotSize, 192, mFastOutSlowInInterpolator,
cellState, null);
}
});
startLineEndAnimation(cellState, mInProgressX, mInProgressY,
getCenterXForColumn(cell.column), getCenterYForRow(cell.row));
}
private void startLineEndAnimation(final CellState state,
final float startX, final float startY, final float targetX, final float targetY) {
ValueAnimator valueAnimator = ValueAnimator.ofFloat(0, 1);
valueAnimator.addUpdateListener(new ValueAnimator.AnimatorUpdateListener() {
@Override
public void onAnimationUpdate(ValueAnimator animation) {
float t = (float) animation.getAnimatedValue();
state.lineEndX = (1 - t) * startX + t * targetX;
state.lineEndY = (1 - t) * startY + t * targetY;
invalidate();
}
});
valueAnimator.addListener(new AnimatorListenerAdapter() {
@Override
public void onAnimationEnd(Animator animation) {
state.lineAnimator = null;
}
});
valueAnimator.setInterpolator(mFastOutSlowInInterpolator);
valueAnimator.setDuration(100);
valueAnimator.start();
state.lineAnimator = valueAnimator;
}
private void startSizeAnimation(float start, float end, long duration, Interpolator interpolator,
final CellState state, final Runnable endRunnable) {
ValueAnimator valueAnimator = ValueAnimator.ofFloat(start, end);
valueAnimator.addUpdateListener(new ValueAnimator.AnimatorUpdateListener() {
@Override
public void onAnimationUpdate(ValueAnimator animation) {
state.size = (float) animation.getAnimatedValue();
invalidate();
}
});
if (endRunnable != null) {
valueAnimator.addListener(new AnimatorListenerAdapter() {
@Override
public void onAnimationEnd(Animator animation) {
endRunnable.run();
}
});
}
valueAnimator.setInterpolator(interpolator);
valueAnimator.setDuration(duration);
valueAnimator.start();
}
// helper method to find which cell a point maps to
private Cell checkForNewHit(float x, float y) {
final int rowHit = getRowHit(y);
if (rowHit < 0) {
return null;
}
final int columnHit = getColumnHit(x);
if (columnHit < 0) {
return null;
}
if (mPatternDrawLookup[rowHit][columnHit]) {
return null;
}
return Cell.of(rowHit, columnHit);
}
/**
* Helper method to find the row that y falls into.
* @param y The y coordinate
* @return The row that y falls in, or -1 if it falls in no row.
*/
private int getRowHit(float y) {
final float squareHeight = mSquareHeight;
float hitSize = squareHeight * mHitFactor;
float offset = mPaddingTop + (squareHeight - hitSize) / 2f;
for (int i = 0; i < 3; i++) {
final float hitTop = offset + squareHeight * i;
if (y >= hitTop && y <= hitTop + hitSize) {
return i;
}
}
return -1;
}
/**
* Helper method to find the column x fallis into.
* @param x The x coordinate.
* @return The column that x falls in, or -1 if it falls in no column.
*/
private int getColumnHit(float x) {
final float squareWidth = mSquareWidth;
float hitSize = squareWidth * mHitFactor;
float offset = mPaddingLeft + (squareWidth - hitSize) / 2f;
for (int i = 0; i < 3; i++) {
final float hitLeft = offset + squareWidth * i;
if (x >= hitLeft && x <= hitLeft + hitSize) {
return i;
}
}
return -1;
}
@Override
public boolean onHoverEvent(MotionEvent event) {
if (AccessibilityManager.getInstance(mContext).isTouchExplorationEnabled()) {
final int action = event.getAction();
switch (action) {
case MotionEvent.ACTION_HOVER_ENTER:
event.setAction(MotionEvent.ACTION_DOWN);
break;
case MotionEvent.ACTION_HOVER_MOVE:
event.setAction(MotionEvent.ACTION_MOVE);
break;
case MotionEvent.ACTION_HOVER_EXIT:
event.setAction(MotionEvent.ACTION_UP);
break;
}
onTouchEvent(event);
event.setAction(action);
}
return super.onHoverEvent(event);
}
@Override
public boolean onTouchEvent(MotionEvent event) {
if (!mInputEnabled || !isEnabled()) {
return false;
}
switch(event.getAction()) {
case MotionEvent.ACTION_DOWN:
handleActionDown(event);
return true;
case MotionEvent.ACTION_UP:
handleActionUp(event);
return true;
case MotionEvent.ACTION_MOVE:
handleActionMove(event);
return true;
case MotionEvent.ACTION_CANCEL:
if (mPatternInProgress) {
mPatternInProgress = false;
resetPattern();
notifyPatternCleared();
}
if (PROFILE_DRAWING) {
if (mDrawingProfilingStarted) {
Debug.stopMethodTracing();
mDrawingProfilingStarted = false;
}
}
return true;
}
return false;
}
private void handleActionMove(MotionEvent event) {
// Handle all recent motion events so we don't skip any cells even when the device
// is busy...
final float radius = mPathWidth;
final int historySize = event.getHistorySize();
mTmpInvalidateRect.setEmpty();
boolean invalidateNow = false;
for (int i = 0; i < historySize + 1; i++) {
final float x = i < historySize ? event.getHistoricalX(i) : event.getX();
final float y = i < historySize ? event.getHistoricalY(i) : event.getY();
Cell hitCell = detectAndAddHit(x, y);
final int patternSize = mPattern.size();
if (hitCell != null && patternSize == 1) {
mPatternInProgress = true;
notifyPatternStarted();
}
// note current x and y for rubber banding of in progress patterns
final float dx = Math.abs(x - mInProgressX);
final float dy = Math.abs(y - mInProgressY);
if (dx > DRAG_THRESHHOLD || dy > DRAG_THRESHHOLD) {
invalidateNow = true;
}
if (mPatternInProgress && patternSize > 0) {
final ArrayList<Cell> pattern = mPattern;
final Cell lastCell = pattern.get(patternSize - 1);
float lastCellCenterX = getCenterXForColumn(lastCell.column);
float lastCellCenterY = getCenterYForRow(lastCell.row);
// Adjust for drawn segment from last cell to (x,y). Radius accounts for line width.
float left = Math.min(lastCellCenterX, x) - radius;
float right = Math.max(lastCellCenterX, x) + radius;
float top = Math.min(lastCellCenterY, y) - radius;
float bottom = Math.max(lastCellCenterY, y) + radius;
// Invalidate between the pattern's new cell and the pattern's previous cell
if (hitCell != null) {
final float width = mSquareWidth * 0.5f;
final float height = mSquareHeight * 0.5f;
final float hitCellCenterX = getCenterXForColumn(hitCell.column);
final float hitCellCenterY = getCenterYForRow(hitCell.row);
left = Math.min(hitCellCenterX - width, left);
right = Math.max(hitCellCenterX + width, right);
top = Math.min(hitCellCenterY - height, top);
bottom = Math.max(hitCellCenterY + height, bottom);
}
// Invalidate between the pattern's last cell and the previous location
mTmpInvalidateRect.union(Math.round(left), Math.round(top),
Math.round(right), Math.round(bottom));
}
}
mInProgressX = event.getX();
mInProgressY = event.getY();
// To save updates, we only invalidate if the user moved beyond a certain amount.
if (invalidateNow) {
mInvalidate.union(mTmpInvalidateRect);
invalidate(mInvalidate);
mInvalidate.set(mTmpInvalidateRect);
}
}
private void sendAccessEvent(int resId) {
announceForAccessibility(mContext.getString(resId));
}
private void handleActionUp(MotionEvent event) {
// report pattern detected
if (!mPattern.isEmpty()) {
mPatternInProgress = false;
cancelLineAnimations();
notifyPatternDetected();
invalidate();
}
if (PROFILE_DRAWING) {
if (mDrawingProfilingStarted) {
Debug.stopMethodTracing();
mDrawingProfilingStarted = false;
}
}
}
private void cancelLineAnimations() {
for (int i = 0; i < 3; i++) {
for (int j = 0; j < 3; j++) {
CellState state = mCellStates[i][j];
if (state.lineAnimator != null) {
state.lineAnimator.cancel();
state.lineEndX = Float.MIN_VALUE;
state.lineEndY = Float.MIN_VALUE;
}
}
}
}
private void handleActionDown(MotionEvent event) {
resetPattern();
final float x = event.getX();
final float y = event.getY();
final Cell hitCell = detectAndAddHit(x, y);
if (hitCell != null) {
mPatternInProgress = true;
mPatternDisplayMode = DisplayMode.Correct;
notifyPatternStarted();
} else if (mPatternInProgress) {
mPatternInProgress = false;
notifyPatternCleared();
}
if (hitCell != null) {
final float startX = getCenterXForColumn(hitCell.column);
final float startY = getCenterYForRow(hitCell.row);
final float widthOffset = mSquareWidth / 2f;
final float heightOffset = mSquareHeight / 2f;
invalidate((int) (startX - widthOffset), (int) (startY - heightOffset),
(int) (startX + widthOffset), (int) (startY + heightOffset));
}
mInProgressX = x;
mInProgressY = y;
if (PROFILE_DRAWING) {
if (!mDrawingProfilingStarted) {
Debug.startMethodTracing("LockPatternDrawing");
mDrawingProfilingStarted = true;
}
}
}
private float getCenterXForColumn(int column) {
return mPaddingLeft + column * mSquareWidth + mSquareWidth / 2f;
}
private float getCenterYForRow(int row) {
return mPaddingTop + row * mSquareHeight + mSquareHeight / 2f;
}
@Override
protected void onDraw(Canvas canvas) {
final ArrayList<Cell> pattern = mPattern;
final int count = pattern.size();
final boolean[][] drawLookup = mPatternDrawLookup;
if (mPatternDisplayMode == DisplayMode.Animate) {
// figure out which circles to draw
// + 1 so we pause on complete pattern
final int oneCycle = (count + 1) * MILLIS_PER_CIRCLE_ANIMATING;
final int spotInCycle = (int) (SystemClock.elapsedRealtime() -
mAnimatingPeriodStart) % oneCycle;
final int numCircles = spotInCycle / MILLIS_PER_CIRCLE_ANIMATING;
clearPatternDrawLookup();
for (int i = 0; i < numCircles; i++) {
final Cell cell = pattern.get(i);
drawLookup[cell.getRow()][cell.getColumn()] = true;
}
// figure out in progress portion of ghosting line
final boolean needToUpdateInProgressPoint = numCircles > 0
&& numCircles < count;
if (needToUpdateInProgressPoint) {
final float percentageOfNextCircle =
((float) (spotInCycle % MILLIS_PER_CIRCLE_ANIMATING)) /
MILLIS_PER_CIRCLE_ANIMATING;
final Cell currentCell = pattern.get(numCircles - 1);
final float centerX = getCenterXForColumn(currentCell.column);
final float centerY = getCenterYForRow(currentCell.row);
final Cell nextCell = pattern.get(numCircles);
final float dx = percentageOfNextCircle *
(getCenterXForColumn(nextCell.column) - centerX);
final float dy = percentageOfNextCircle *
(getCenterYForRow(nextCell.row) - centerY);
mInProgressX = centerX + dx;
mInProgressY = centerY + dy;
}
// TODO: Infinite loop here...
invalidate();
}
final Path currentPath = mCurrentPath;
currentPath.rewind();
// draw the circles
for (int i = 0; i < 3; i++) {
float centerY = getCenterYForRow(i);
for (int j = 0; j < 3; j++) {
CellState cellState = mCellStates[i][j];
float centerX = getCenterXForColumn(j);
float size = cellState.size * cellState.scale;
float translationY = cellState.translateY;
drawCircle(canvas, (int) centerX, (int) centerY + translationY,
size, drawLookup[i][j], cellState.alpha);
}
}
// TODO: the path should be created and cached every time we hit-detect a cell
// only the last segment of the path should be computed here
// draw the path of the pattern (unless we are in stealth mode)
final boolean drawPath = !mInStealthMode;
if (drawPath) {
mPathPaint.setColor(getCurrentColor(true /* partOfPattern */));
boolean anyCircles = false;
float lastX = 0f;
float lastY = 0f;
for (int i = 0; i < count; i++) {
Cell cell = pattern.get(i);
// only draw the part of the pattern stored in
// the lookup table (this is only different in the case
// of animation).
if (!drawLookup[cell.row][cell.column]) {
break;
}
anyCircles = true;
float centerX = getCenterXForColumn(cell.column);
float centerY = getCenterYForRow(cell.row);
if (i != 0) {
CellState state = mCellStates[cell.row][cell.column];
currentPath.rewind();
currentPath.moveTo(lastX, lastY);
if (state.lineEndX != Float.MIN_VALUE && state.lineEndY != Float.MIN_VALUE) {
currentPath.lineTo(state.lineEndX, state.lineEndY);
} else {
currentPath.lineTo(centerX, centerY);
}
canvas.drawPath(currentPath, mPathPaint);
}
lastX = centerX;
lastY = centerY;
}
// draw last in progress section
if ((mPatternInProgress || mPatternDisplayMode == DisplayMode.Animate)
&& anyCircles) {
currentPath.rewind();
currentPath.moveTo(lastX, lastY);
currentPath.lineTo(mInProgressX, mInProgressY);
mPathPaint.setAlpha((int) (calculateLastSegmentAlpha(
mInProgressX, mInProgressY, lastX, lastY) * 255f));
canvas.drawPath(currentPath, mPathPaint);
}
}
}
private float calculateLastSegmentAlpha(float x, float y, float lastX, float lastY) {
float diffX = x - lastX;
float diffY = y - lastY;
float dist = (float) Math.sqrt(diffX*diffX + diffY*diffY);
float frac = dist/mSquareWidth;
return Math.min(1f, Math.max(0f, (frac - 0.3f) * 4f));
}
private int getCurrentColor(boolean partOfPattern) {
if (!partOfPattern || mInStealthMode || mPatternInProgress) {
// unselected circle
return mRegularColor;
} else if (mPatternDisplayMode == DisplayMode.Wrong) {
// the pattern is wrong
return mErrorColor;
} else if (mPatternDisplayMode == DisplayMode.Correct ||
mPatternDisplayMode == DisplayMode.Animate) {
return mSuccessColor;
} else {
throw new IllegalStateException("unknown display mode " + mPatternDisplayMode);
}
}
/**
* @param partOfPattern Whether this circle is part of the pattern.
*/
private void drawCircle(Canvas canvas, float centerX, float centerY, float size,
boolean partOfPattern, float alpha) {
mPaint.setColor(getCurrentColor(partOfPattern));
mPaint.setAlpha((int) (alpha * 255));
canvas.drawCircle(centerX, centerY, size/2, mPaint);
}
@Override
protected Parcelable onSaveInstanceState() {
Parcelable superState = super.onSaveInstanceState();
return new SavedState(superState,
LockPatternUtils.patternToString(mPattern),
mPatternDisplayMode.ordinal(),
mInputEnabled, mInStealthMode, mEnableHapticFeedback);
}
@Override
protected void onRestoreInstanceState(Parcelable state) {
final SavedState ss = (SavedState) state;
super.onRestoreInstanceState(ss.getSuperState());
setPattern(
DisplayMode.Correct,
LockPatternUtils.stringToPattern(ss.getSerializedPattern()));
mPatternDisplayMode = DisplayMode.values()[ss.getDisplayMode()];
mInputEnabled = ss.isInputEnabled();
mInStealthMode = ss.isInStealthMode();
mEnableHapticFeedback = ss.isTactileFeedbackEnabled();
}
/**
* The parecelable for saving and restoring a lock pattern view.
*/
private static class SavedState extends BaseSavedState {
private final String mSerializedPattern;
private final int mDisplayMode;
private final boolean mInputEnabled;
private final boolean mInStealthMode;
private final boolean mTactileFeedbackEnabled;
/**
* Constructor called from {@link LockPatternView#onSaveInstanceState()}
*/
private SavedState(Parcelable superState, String serializedPattern, int displayMode,
boolean inputEnabled, boolean inStealthMode, boolean tactileFeedbackEnabled) {
super(superState);
mSerializedPattern = serializedPattern;
mDisplayMode = displayMode;
mInputEnabled = inputEnabled;
mInStealthMode = inStealthMode;
mTactileFeedbackEnabled = tactileFeedbackEnabled;
}
/**
* Constructor called from {@link #CREATOR}
*/
private SavedState(Parcel in) {
super(in);
mSerializedPattern = in.readString();
mDisplayMode = in.readInt();
mInputEnabled = (Boolean) in.readValue(null);
mInStealthMode = (Boolean) in.readValue(null);
mTactileFeedbackEnabled = (Boolean) in.readValue(null);
}
public String getSerializedPattern() {
return mSerializedPattern;
}
public int getDisplayMode() {
return mDisplayMode;
}
public boolean isInputEnabled() {
return mInputEnabled;
}
public boolean isInStealthMode() {
return mInStealthMode;
}
public boolean isTactileFeedbackEnabled(){
return mTactileFeedbackEnabled;
}
@Override
public void writeToParcel(Parcel dest, int flags) {
super.writeToParcel(dest, flags);
dest.writeString(mSerializedPattern);
dest.writeInt(mDisplayMode);
dest.writeValue(mInputEnabled);
dest.writeValue(mInStealthMode);
dest.writeValue(mTactileFeedbackEnabled);
}
public static final Parcelable.Creator<SavedState> CREATOR =
new Creator<SavedState>() {
public SavedState createFromParcel(Parcel in) {
return new SavedState(in);
}
public SavedState[] newArray(int size) {
return new SavedState[size];
}
};
}
}
|
