Java tutorial
/* * Copyright (c) 2016 Zhang Hai <Dreaming.in.Code.ZH@Gmail.com> * All Rights Reserved. */ /* * From com.android.internal.widget.LockPatternView at d2def946390505077766e34b6df4a529b25fdc23, * adapted by Zhang Hai. */ package com.android.nobug.view.pattern; import android.animation.Animator; import android.animation.AnimatorListenerAdapter; import android.animation.ValueAnimator; import android.annotation.SuppressLint; import android.content.Context; import android.content.res.Resources; import android.content.res.TypedArray; import android.graphics.Canvas; import android.graphics.Paint; import android.graphics.Path; import android.graphics.Rect; import android.media.AudioManager; import android.os.Bundle; import android.os.Debug; import android.os.Parcel; import android.os.Parcelable; import android.os.SystemClock; import android.provider.Settings; import android.support.v4.view.ViewCompat; import android.support.v4.view.accessibility.AccessibilityNodeInfoCompat; import android.support.v4.view.accessibility.AccessibilityNodeInfoCompat.AccessibilityActionCompat; import android.support.v4.view.animation.FastOutSlowInInterpolator; import android.support.v4.view.animation.LinearOutSlowInInterpolator; import android.support.v4.widget.ExploreByTouchHelper; import android.util.AttributeSet; import android.util.Log; import android.view.MotionEvent; import android.view.View; import android.view.accessibility.AccessibilityEvent; import android.view.accessibility.AccessibilityManager; import android.view.animation.Interpolator; import com.android.kreators.tortoise.R; import java.util.ArrayList; import java.util.HashMap; import java.util.List; /* * 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. */ /** * Displays and detects the user's unlock attempt, which is a drag of a finger * across regions of the screen. * * Is also capable of displaying a static pattern in "in progress", "wrong" or * "correct" states. */ @SuppressWarnings("unused") public class PatternView extends View { public static final int PATTERN_SIZE_DEFAULT = 3; // 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 Cell[][] mCells; private static final boolean PROFILE_DRAWING = false; private CellState[][] mCellStates; private final int mDotSize; private final int mDotSizeActivated; private final int mPathWidth; private boolean mDrawingProfilingStarted = false; private final Paint mPaint = new Paint(); private final 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_THRESHOLD = 0.0f; public static final int VIRTUAL_BASE_VIEW_ID = 1; public static final boolean DEBUG_A11Y = false; private static final String TAG = "LockPatternView"; private OnPatternListener mOnPatternListener; private ArrayList<Cell> mPattern; /** * 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; /** * 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 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 mRowCount; private int mColumnCount; private int mAspect; private int mRegularColor; private int mErrorColor; private int mSuccessColor; private final Interpolator mFastOutSlowInInterpolator; private final Interpolator mLinearOutSlowInInterpolator; private PatternExploreByTouchHelper mExploreByTouchHelper; private AccessibilityManager mAccessibilityManager; private AudioManager mAudioManager; /** * Represents a cell in the matrix of the unlock pattern view. */ public static final class Cell { final int row; final int column; /** * @param row The row of the cell. * @param column The column of the cell. */ private Cell(int row, int column) { this.row = row; this.column = column; } public int getRow() { return row; } public int getColumn() { return column; } public static Cell of(int row, int column) { return new Cell(row, column); } @Override public String toString() { return "(row=" + row + ",clmn=" + column + ")"; } } public static class CellState { int row; int col; float radius; float translationY; float alpha = 1f; 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 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 PatternView(Context context) { this(context, null); } public PatternView(Context context, AttributeSet attrs) { this(context, attrs, R.attr.patternViewStyle); } public PatternView(Context context, AttributeSet attrs, int defStyleAttr) { super(context, attrs, defStyleAttr); TypedArray a = context.obtainStyledAttributes(attrs, R.styleable.PatternView, defStyleAttr, 0); mRowCount = a.getInteger(R.styleable.PatternView_rowCount, PATTERN_SIZE_DEFAULT); mColumnCount = a.getInteger(R.styleable.PatternView_columnCount, PATTERN_SIZE_DEFAULT); final String aspect = a.getString(R.styleable.PatternView_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 = a.getColor(R.styleable.PatternView_regularColor, mRegularColor); mErrorColor = a.getColor(R.styleable.PatternView_errorColor, mErrorColor); mSuccessColor = a.getColor(R.styleable.PatternView_successColor, mSuccessColor); a.recycle(); mPathPaint.setStyle(Paint.Style.STROKE); mPathPaint.setStrokeJoin(Paint.Join.ROUND); mPathPaint.setStrokeCap(Paint.Cap.ROUND); mPathWidth = getResources().getDimensionPixelSize(R.dimen.pl_pattern_dot_line_width); mPathPaint.setStrokeWidth(mPathWidth); mDotSize = getResources().getDimensionPixelSize(R.dimen.pl_pattern_dot_size); mDotSizeActivated = getResources().getDimensionPixelSize(R.dimen.pl_pattern_dot_size_activated); mPaint.setAntiAlias(true); mPaint.setDither(true); updatePatternSize(); mFastOutSlowInInterpolator = new FastOutSlowInInterpolator(); mLinearOutSlowInInterpolator = new LinearOutSlowInInterpolator(); mExploreByTouchHelper = new PatternExploreByTouchHelper(this); ViewCompat.setAccessibilityDelegate(this, mExploreByTouchHelper); mAccessibilityManager = (AccessibilityManager) getContext().getSystemService(Context.ACCESSIBILITY_SERVICE); mAudioManager = (AudioManager) getContext().getSystemService(Context.AUDIO_SERVICE); } public int getPatternRowCount() { return mRowCount; } public int getPatternColumnCount() { return mColumnCount; } public void setPatternSize(int rowCount, int columnCount) { if (mRowCount == rowCount && mColumnCount == columnCount) { return; } mRowCount = rowCount; mColumnCount = columnCount; updatePatternSize(); } private void updatePatternSize() { mCells = new Cell[mRowCount][mColumnCount]; for (int i = 0; i < mRowCount; i++) { for (int j = 0; j < mColumnCount; j++) { mCells[i][j] = Cell.of(i, j); } } mCellStates = new CellState[mRowCount][mColumnCount]; for (int i = 0; i < mRowCount; i++) { for (int j = 0; j < mColumnCount; j++) { mCellStates[i][j] = new CellState(); mCellStates[i][j].radius = mDotSize / 2; mCellStates[i][j].row = i; mCellStates[i][j].col = j; } } mPattern = new ArrayList<>(mRowCount * mColumnCount); mPatternDrawLookup = new boolean[mRowCount][mColumnCount]; } private void checkRange(int row, int column) { if (row < 0 || row >= mRowCount) { throw new IllegalArgumentException("row must be in range 0-" + (mRowCount - 1)); } if (column < 0 || column >= mColumnCount) { throw new IllegalArgumentException("column must be in range 0-" + (mColumnCount - 1)); } } public Cell getCellAt(int row, int column) { checkRange(row, column); return mCells[row][column]; } public CellState[][] getCellStates() { return mCellStates; } /** * @return Whether the view is in stealth mode. */ public boolean isInStealthMode() { return mInStealthMode; } /** * 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 the call back for pattern detection. * @param onPatternListener The call back. */ public void setOnPatternListener(OnPatternListener onPatternListener) { mOnPatternListener = onPatternListener; } /** * Set the pattern explicitly (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) { for (Cell cell : pattern) { checkRange(cell.getRow(), cell.getColumn()); } mPattern.clear(); mPattern.addAll(pattern); clearPatternDrawLookup(); for (Cell cell : pattern) { mPatternDrawLookup[cell.getRow()][cell.getColumn()] = true; } setDisplayMode(displayMode); } /** * Get the display mode of the current pattern. */ public DisplayMode getDisplayMode() { return mPatternDisplayMode; } /** * 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(); } public void startCellStateAnimation(CellState cellState, float startAlpha, float endAlpha, float startTranslationY, float endTranslationY, float startScale, float endScale, long delay, long duration, Interpolator interpolator, Runnable finishRunnable) { startCellStateAnimationSw(cellState, startAlpha, endAlpha, startTranslationY, endTranslationY, startScale, endScale, delay, duration, interpolator, finishRunnable); } private void startCellStateAnimationSw(final CellState cellState, final float startAlpha, final float endAlpha, final float startTranslationY, final float endTranslationY, final float startScale, final float endScale, long delay, long duration, Interpolator interpolator, final Runnable finishRunnable) { cellState.alpha = startAlpha; cellState.translationY = startTranslationY; cellState.radius = mDotSize / 2 * startScale; ValueAnimator animator = ValueAnimator.ofFloat(0f, 1f); animator.setDuration(duration); animator.setStartDelay(delay); animator.setInterpolator(interpolator); animator.addUpdateListener(new ValueAnimator.AnimatorUpdateListener() { @Override public void onAnimationUpdate(ValueAnimator animation) { float t = (float) animation.getAnimatedValue(); cellState.alpha = (1 - t) * startAlpha + t * endAlpha; cellState.translationY = (1 - t) * startTranslationY + t * endTranslationY; cellState.radius = mDotSize / 2 * ((1 - t) * startScale + t * endScale); invalidate(); } }); animator.addListener(new AnimatorListenerAdapter() { @Override public void onAnimationEnd(Animator animation) { if (finishRunnable != null) { finishRunnable.run(); } } }); animator.start(); } private void notifyCellAdded() { // sendAccessEvent(R.string.lockscreen_access_pattern_cell_added); if (mOnPatternListener != null) { mOnPatternListener.onPatternCellAdded(mPattern); } // Disable used cells for accessibility as they get added if (DEBUG_A11Y) Log.v(TAG, "ivnalidating root because cell was added."); mExploreByTouchHelper.invalidateRoot(); } private void notifyPatternStarted() { sendAccessEvent(R.string.pl_access_pattern_start); if (mOnPatternListener != null) { mOnPatternListener.onPatternStart(); } } private void notifyPatternDetected() { sendAccessEvent(R.string.pl_access_pattern_detected); if (mOnPatternListener != null) { mOnPatternListener.onPatternDetected(mPattern); } } private void notifyPatternCleared() { sendAccessEvent(R.string.pl_access_pattern_cleared); if (mOnPatternListener != null) { mOnPatternListener.onPatternCleared(); } } /** * Clear the pattern. */ public void clearPattern() { resetPattern(); } @Override protected boolean dispatchHoverEvent(MotionEvent event) { // Dispatch to onHoverEvent first so mPatternInProgress is up to date when the // helper gets the event. boolean handled = super.dispatchHoverEvent(event); handled |= mExploreByTouchHelper.dispatchHoverEvent(event); return handled; } /** * 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 < mRowCount; i++) { for (int j = 0; j < mColumnCount; j++) { mPatternDrawLookup[i][j] = false; } } } /** * Enable or disable input. (for instance when displaying a message that will timeout so user * doesn't get view into messy state). */ public void setInputEnabled(boolean enabled) { mInputEnabled = enabled; } @Override protected void onSizeChanged(int w, int h, int oldw, int oldh) { final int width = w - getPaddingLeft() - getPaddingRight(); mSquareWidth = (float) width / mRowCount; if (DEBUG_A11Y) Log.v(TAG, "onSizeChanged(" + w + "," + h + ")"); final int height = h - getPaddingTop() - getPaddingBottom(); mSquareHeight = (float) height / mColumnCount; mExploreByTouchHelper.invalidateRoot(); } private int resolveMeasured(int measureSpec, int desired) { int result; 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 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 dGcd = gcd(Math.abs(dRow), Math.abs(dColumn)); if (dGcd > 0) { int fillInRow = lastCell.row; int fillInColumn = lastCell.column; int fillInRowStep = dRow / dGcd; int fillInColumnStep = dColumn / dGcd; for (int i = 1; i < dGcd; ++i) { fillInRow += fillInRowStep; fillInColumn += fillInColumnStep; if (!mPatternDrawLookup[fillInRow][fillInColumn]) { Cell fillInGapCell = getCellAt(fillInRow, fillInColumn); addCellToPattern(fillInGapCell); } } } } addCellToPattern(cell); return cell; } return null; } // From // https://github.com/google/guava/blob/c462d69329709f72a17a64cb229d15e76e72199c/guava/src/com/google/common/math/IntMath.java /** * Returns the greatest common divisor of {@code a, b}. Returns {@code 0} if * {@code a == 0 && b == 0}. * * @throws IllegalArgumentException if {@code a < 0} or {@code b < 0} */ private static int gcd(int a, int b) { /* * The reason we require both arguments to be >= 0 is because otherwise, what do you return * on gcd(0, Integer.MIN_VALUE)? BigInteger.gcd would return positive 2^31, but positive * 2^31 isn't an int. */ //checkNonNegative("a", a); if (a < 0) { throw new IllegalArgumentException("a (" + a + ") must be >= 0"); } //checkNonNegative("b", b); if (b < 0) { throw new IllegalArgumentException("b (" + b + ") must be >= 0"); } if (a == 0) { // 0 % b == 0, so b divides a, but the converse doesn't hold. // BigInteger.gcd is consistent with this decision. return b; } else if (b == 0) { return a; // similar logic } /* * Uses the binary GCD algorithm; see http://en.wikipedia.org/wiki/Binary_GCD_algorithm. * This is >40% faster than the Euclidean algorithm in benchmarks. */ int aTwos = Integer.numberOfTrailingZeros(a); a >>= aTwos; // divide out all 2s int bTwos = Integer.numberOfTrailingZeros(b); b >>= bTwos; // divide out all 2s while (a != b) { // both a, b are odd // The key to the binary GCD algorithm is as follows: // Both a and b are odd. Assume a > b; then gcd(a - b, b) = gcd(a, b). // But in gcd(a - b, b), a - b is even and b is odd, so we can divide out powers of two. // We bend over backwards to avoid branching, adapting a technique from // http://graphics.stanford.edu/~seander/bithacks.html#IntegerMinOrMax int delta = a - b; // can't overflow, since a and b are nonnegative int minDeltaOrZero = delta & (delta >> (Integer.SIZE - 1)); // equivalent to Math.min(delta, 0) a = delta - minDeltaOrZero - minDeltaOrZero; // sets a to Math.abs(a - b) // a is now nonnegative and even b += minDeltaOrZero; // sets b to min(old a, b) a >>= Integer.numberOfTrailingZeros(a); // divide out all 2s, since 2 doesn't divide b } return a << Math.min(aTwos, bTwos); } 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]; startRadiusAnimation(mDotSize / 2, mDotSizeActivated / 2, 96, mLinearOutSlowInInterpolator, cellState, new Runnable() { @Override public void run() { startRadiusAnimation(mDotSizeActivated / 2, mDotSize / 2, 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 startRadiusAnimation(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.radius = (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 getCellAt(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 = getPaddingTop() + (squareHeight - hitSize) / 2f; for (int i = 0; i < mRowCount; 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 = getPaddingLeft() + (squareWidth - hitSize) / 2f; for (int i = 0; i < mColumnCount; i++) { final float hitLeft = offset + squareWidth * i; if (x >= hitLeft && x <= hitLeft + hitSize) { return i; } } return -1; } @Override public boolean onHoverEvent(MotionEvent event) { if (mAccessibilityManager.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(); return true; case MotionEvent.ACTION_MOVE: handleActionMove(event); return true; case MotionEvent.ACTION_CANCEL: if (mPatternInProgress) { setPatternInProgress(false); resetPattern(); notifyPatternCleared(); } if (PROFILE_DRAWING) { if (mDrawingProfilingStarted) { Debug.stopMethodTracing(); mDrawingProfilingStarted = false; } } return true; } return false; } private void setPatternInProgress(boolean progress) { mPatternInProgress = progress; mExploreByTouchHelper.invalidateRoot(); } 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) { setPatternInProgress(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_THRESHOLD || dy > DRAG_THRESHOLD) { 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) { ViewAccessibilityCompat.announceForAccessibility(this, getContext().getString(resId)); } private void handleActionUp() { // report pattern detected if (!mPattern.isEmpty()) { setPatternInProgress(false); cancelLineAnimations(); notifyPatternDetected(); invalidate(); } if (PROFILE_DRAWING) { if (mDrawingProfilingStarted) { Debug.stopMethodTracing(); mDrawingProfilingStarted = false; } } } private void cancelLineAnimations() { for (int i = 0; i < mRowCount; i++) { for (int j = 0; j < mColumnCount; 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) { setPatternInProgress(true); mPatternDisplayMode = DisplayMode.Correct; notifyPatternStarted(); } else if (mPatternInProgress) { setPatternInProgress(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 getPaddingLeft() + column * mSquareWidth + mSquareWidth / 2f; } private float getCenterYForRow(int row) { return getPaddingTop() + 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 < mRowCount; i++) { float centerY = getCenterYForRow(i); for (int j = 0; j < mColumnCount; j++) { CellState cellState = mCellStates[i][j]; float centerX = getCenterXForColumn(j); float translationY = cellState.translationY; drawCircle(canvas, (int) centerX, (int) centerY + translationY, cellState.radius, 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 */)); // Anyway other drawing sets their own alpha ignoring the original; And in this way we // can use ?colorControlNormal better. mPathPaint.setAlpha(255); 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 radius, boolean partOfPattern, float alpha) { mPaint.setColor(getCurrentColor(partOfPattern)); mPaint.setAlpha((int) (alpha * 255)); canvas.drawCircle(centerX, centerY, radius, mPaint); } @Override @SuppressWarnings("deprecation") protected Parcelable onSaveInstanceState() { Parcelable superState = super.onSaveInstanceState(); return new SavedState(superState, mRowCount, mColumnCount, PatternUtils.patternToString(mPattern, mColumnCount), mPatternDisplayMode.ordinal(), mInputEnabled, mInStealthMode); } @Override protected void onRestoreInstanceState(Parcelable state) { final SavedState ss = (SavedState) state; super.onRestoreInstanceState(ss.getSuperState()); setPatternSize(ss.getRowCount(), ss.getColumnCount()); setPattern(DisplayMode.Correct, PatternUtils.stringToPattern(ss.getSerializedPattern(), ss.getColumnCount())); mPatternDisplayMode = DisplayMode.values()[ss.getDisplayMode()]; mInputEnabled = ss.isInputEnabled(); mInStealthMode = ss.isInStealthMode(); } /** * The parcelable for saving and restoring a lock pattern view. */ private static class SavedState extends BaseSavedState { private final int mRowCount; private final int mColumnCount; private final String mSerializedPattern; private final int mDisplayMode; private final boolean mInputEnabled; private final boolean mInStealthMode; /** * Constructor called from {@link} */ private SavedState(Parcelable superState, int rowCount, int columnCount, String serializedPattern, int displayMode, boolean inputEnabled, boolean inStealthMode) { super(superState); mRowCount = rowCount; mColumnCount = columnCount; mSerializedPattern = serializedPattern; mDisplayMode = displayMode; mInputEnabled = inputEnabled; mInStealthMode = inStealthMode; } /** * Constructor called from {@link #CREATOR} */ private SavedState(Parcel in) { super(in); mRowCount = in.readInt(); mColumnCount = in.readInt(); mSerializedPattern = in.readString(); mDisplayMode = in.readInt(); mInputEnabled = (Boolean) in.readValue(null); mInStealthMode = (Boolean) in.readValue(null); } public int getRowCount() { return mRowCount; } public int getColumnCount() { return mColumnCount; } public String getSerializedPattern() { return mSerializedPattern; } public int getDisplayMode() { return mDisplayMode; } public boolean isInputEnabled() { return mInputEnabled; } public boolean isInStealthMode() { return mInStealthMode; } @Override public void writeToParcel(Parcel dest, int flags) { super.writeToParcel(dest, flags); dest.writeInt(mRowCount); dest.writeInt(mColumnCount); dest.writeString(mSerializedPattern); dest.writeInt(mDisplayMode); dest.writeValue(mInputEnabled); dest.writeValue(mInStealthMode); } @SuppressWarnings({ "unused", "hiding" }) // Found using reflection public static final Creator<SavedState> CREATOR = new Creator<SavedState>() { @Override public SavedState createFromParcel(Parcel in) { return new SavedState(in); } @Override public SavedState[] newArray(int size) { return new SavedState[size]; } }; } private final class PatternExploreByTouchHelper extends ExploreByTouchHelper { private Rect mTempRect = new Rect(); private HashMap<Integer, VirtualViewContainer> mItems = new HashMap<>(); class VirtualViewContainer { public VirtualViewContainer(CharSequence description) { this.description = description; } CharSequence description; } public PatternExploreByTouchHelper(View forView) { super(forView); } @Override protected int getVirtualViewAt(float x, float y) { // This must use the same hit logic for the screen to ensure consistency whether // accessibility is on or off. return getVirtualViewIdForHit(x, y); } @Override protected void getVisibleVirtualViews(List<Integer> virtualViewIds) { if (DEBUG_A11Y) Log.v(TAG, "getVisibleVirtualViews(len=" + virtualViewIds.size() + ")"); if (!mPatternInProgress) { return; } for (int i = VIRTUAL_BASE_VIEW_ID; i < VIRTUAL_BASE_VIEW_ID + mRowCount * mColumnCount; i++) { if (!mItems.containsKey(i)) { VirtualViewContainer item = new VirtualViewContainer(getTextForVirtualView(i)); mItems.put(i, item); } // Add all views. As views are added to the pattern, we remove them // from notification by making them non-clickable below. virtualViewIds.add(i); } } @Override protected void onPopulateEventForVirtualView(int virtualViewId, AccessibilityEvent event) { if (DEBUG_A11Y) Log.v(TAG, "onPopulateEventForVirtualView(" + virtualViewId + ")"); // Announce this view if (mItems.containsKey(virtualViewId)) { CharSequence contentDescription = mItems.get(virtualViewId).description; event.getText().add(contentDescription); } } @Override public void onPopulateAccessibilityEvent(View host, AccessibilityEvent event) { super.onPopulateAccessibilityEvent(host, event); if (!mPatternInProgress) { CharSequence contentDescription = getContext().getText(R.string.pl_access_pattern_area); event.setContentDescription(contentDescription); } } @Override protected void onPopulateNodeForVirtualView(int virtualViewId, AccessibilityNodeInfoCompat node) { if (DEBUG_A11Y) Log.v(TAG, "onPopulateNodeForVirtualView(view=" + virtualViewId + ")"); // Node and event text and content descriptions are usually // identical, so we'll use the exact same string as before. node.setText(getTextForVirtualView(virtualViewId)); node.setContentDescription(getTextForVirtualView(virtualViewId)); if (mPatternInProgress) { node.setFocusable(true); if (isClickable(virtualViewId)) { // Mark this node of interest by making it clickable. node.addAction(AccessibilityActionCompat.ACTION_CLICK); node.setClickable(isClickable(virtualViewId)); } } // Compute bounds for this object final Rect bounds = getBoundsForVirtualView(virtualViewId); if (DEBUG_A11Y) Log.v(TAG, "bounds:" + bounds.toString()); node.setBoundsInParent(bounds); } private boolean isClickable(int virtualViewId) { // Dots are clickable if they're not part of the current pattern. if (virtualViewId != ExploreByTouchHelper.INVALID_ID) { int row = (virtualViewId - VIRTUAL_BASE_VIEW_ID) / mColumnCount; int col = (virtualViewId - VIRTUAL_BASE_VIEW_ID) % mColumnCount; return !mPatternDrawLookup[row][col]; } return false; } @Override protected boolean onPerformActionForVirtualView(int virtualViewId, int action, Bundle arguments) { if (DEBUG_A11Y) Log.v(TAG, "onPerformActionForVirtualView(id=" + virtualViewId + ", action=" + action); switch (action) { case AccessibilityNodeInfoCompat.ACTION_CLICK: // Click handling should be consistent with // onTouchEvent(). This ensures that the view works the // same whether accessibility is turned on or off. return onItemClicked(virtualViewId); default: if (DEBUG_A11Y) Log.v(TAG, "*** action not handled in " + "onPerformActionForVirtualView(viewId=" + virtualViewId + "action=" + action + ")"); } return false; } boolean onItemClicked(int index) { if (DEBUG_A11Y) Log.v(TAG, "onItemClicked(" + index + ")"); // Since the item's checked state is exposed to accessibility // services through its AccessibilityNodeInfo, we need to invalidate // the item's virtual view. At some point in the future, the // framework will obtain an updated version of the virtual view. invalidateVirtualView(index); // We need to let the framework know what type of event // happened. Accessibility services may use this event to provide // appropriate feedback to the user. sendEventForVirtualView(index, AccessibilityEvent.TYPE_VIEW_CLICKED); return true; } private Rect getBoundsForVirtualView(int virtualViewId) { int ordinal = virtualViewId - VIRTUAL_BASE_VIEW_ID; final Rect bounds = mTempRect; final int row = ordinal / mColumnCount; final int col = ordinal % mColumnCount; float centerX = getCenterXForColumn(col); float centerY = getCenterYForRow(row); float cellheight = mSquareHeight * mHitFactor * 0.5f; float cellwidth = mSquareWidth * mHitFactor * 0.5f; bounds.left = (int) (centerX - cellwidth); bounds.right = (int) (centerX + cellwidth); bounds.top = (int) (centerY - cellheight); bounds.bottom = (int) (centerY + cellheight); return bounds; } private boolean shouldSpeakPassword() { // HACK: Settings.Secure.getIntForUser() is hidden, so we can only use // Settings.Secure.getInt() instead. //final boolean speakPassword = Settings.Secure.getIntForUser( // getContext().getContentResolver(), // Settings.Secure.ACCESSIBILITY_SPEAK_PASSWORD, 0, // UserHandle.USER_CURRENT_OR_SELF) != 0; // Settings.Secure.getInt() will return the supplied default value 0 if not found, so it // is OK to use the Settings.Secure.ACCESSIBILITY_SPEAK_PASSWORD from future. @SuppressLint("InlinedApi") final boolean speakPassword = Settings.Secure.getInt(getContext().getContentResolver(), Settings.Secure.ACCESSIBILITY_SPEAK_PASSWORD, 0) != 0; @SuppressWarnings("deprecation") final boolean hasHeadphones = mAudioManager != null && (mAudioManager.isWiredHeadsetOn() || mAudioManager.isBluetoothA2dpOn()); return speakPassword || hasHeadphones; } private CharSequence getTextForVirtualView(int virtualViewId) { final Resources res = getResources(); return shouldSpeakPassword() ? res.getString(R.string.pl_access_pattern_cell_added_verbose, virtualViewId) : res.getString(R.string.pl_access_pattern_cell_added); } /** * Helper method to find which cell a point maps to * * if there's no hit. * @param x touch position x * @param y touch position y * @return VIRTUAL_BASE_VIEW_ID+id or 0 if no view was hit */ private int getVirtualViewIdForHit(float x, float y) { final int rowHit = getRowHit(y); if (rowHit < 0) { return ExploreByTouchHelper.INVALID_ID; } final int columnHit = getColumnHit(x); if (columnHit < 0) { return ExploreByTouchHelper.INVALID_ID; } boolean dotAvailable = mPatternDrawLookup[rowHit][columnHit]; int dotId = (rowHit * mColumnCount + columnHit) + VIRTUAL_BASE_VIEW_ID; int view = dotAvailable ? dotId : ExploreByTouchHelper.INVALID_ID; if (DEBUG_A11Y) Log.v(TAG, "getVirtualViewIdForHit(" + x + "," + y + ") => " + view + "avail =" + dotAvailable); return view; } } }