/* Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.widget; import java.lang.ref.WeakReference; import android.animation.ObjectAnimator; import android.animation.PropertyValuesHolder; import android.content.Context; import android.content.res.TypedArray; import android.graphics.Bitmap; import android.graphics.BlurMaskFilter; import android.graphics.Canvas; import android.graphics.Matrix; import android.graphics.Paint; import android.graphics.PorterDuff; import android.graphics.PorterDuffXfermode; import android.graphics.Rect; import android.graphics.RectF; import android.graphics.Region; import android.graphics.TableMaskFilter; import android.os.Bundle; import android.util.AttributeSet; import android.util.Log; import android.view.InputDevice; import android.view.MotionEvent; import android.view.VelocityTracker; import android.view.View; import android.view.ViewConfiguration; import android.view.ViewGroup; import android.view.accessibility.AccessibilityEvent; import android.view.accessibility.AccessibilityNodeInfo; import android.view.animation.LinearInterpolator; import android.widget.RemoteViews.RemoteView; @RemoteView /** * A view that displays its children in a stack and allows users to discretely swipe * through the children. */ public class StackView extends AdapterViewAnimator { private final String TAG = "StackView"; /** * Default animation parameters */ private static final int DEFAULT_ANIMATION_DURATION = 400; private static final int MINIMUM_ANIMATION_DURATION = 50; private static final int STACK_RELAYOUT_DURATION = 100; /** * Parameters effecting the perspective visuals */ private static final float PERSPECTIVE_SHIFT_FACTOR_Y = 0.1f; private static final float PERSPECTIVE_SHIFT_FACTOR_X = 0.1f; private float mPerspectiveShiftX; private float mPerspectiveShiftY; private float mNewPerspectiveShiftX; private float mNewPerspectiveShiftY; @SuppressWarnings({"FieldCanBeLocal"}) private static final float PERSPECTIVE_SCALE_FACTOR = 0f; /** * Represent the two possible stack modes, one where items slide up, and the other * where items slide down. The perspective is also inverted between these two modes. */ private static final int ITEMS_SLIDE_UP = 0; private static final int ITEMS_SLIDE_DOWN = 1; /** * These specify the different gesture states */ private static final int GESTURE_NONE = 0; private static final int GESTURE_SLIDE_UP = 1; private static final int GESTURE_SLIDE_DOWN = 2; /** * Specifies how far you need to swipe (up or down) before it * will be consider a completed gesture when you lift your finger */ private static final float SWIPE_THRESHOLD_RATIO = 0.2f; /** * Specifies the total distance, relative to the size of the stack, * that views will be slid, either up or down */ private static final float SLIDE_UP_RATIO = 0.7f; /** * Sentinel value for no current active pointer. * Used by {@link #mActivePointerId}. */ private static final int INVALID_POINTER = -1; /** * Number of active views in the stack. One fewer view is actually visible, as one is hidden. */ private static final int NUM_ACTIVE_VIEWS = 5; private static final int FRAME_PADDING = 4; private final Rect mTouchRect = new Rect(); private static final int MIN_TIME_BETWEEN_INTERACTION_AND_AUTOADVANCE = 5000; private static final long MIN_TIME_BETWEEN_SCROLLS = 100; /** * These variables are all related to the current state of touch interaction * with the stack */ private float mInitialY; private float mInitialX; private int mActivePointerId; private int mYVelocity = 0; private int mSwipeGestureType = GESTURE_NONE; private int mSlideAmount; private int mSwipeThreshold; private int mTouchSlop; private int mMaximumVelocity; private VelocityTracker mVelocityTracker; private boolean mTransitionIsSetup = false; private int mResOutColor; private int mClickColor; private static HolographicHelper sHolographicHelper; private ImageView mHighlight; private ImageView mClickFeedback; private boolean mClickFeedbackIsValid = false; private StackSlider mStackSlider; private boolean mFirstLayoutHappened = false; private long mLastInteractionTime = 0; private long mLastScrollTime; private int mStackMode; private int mFramePadding; private final Rect stackInvalidateRect = new Rect(); /** * {@inheritDoc} */ public StackView(Context context) { this(context, null); } /** * {@inheritDoc} */ public StackView(Context context, AttributeSet attrs) { this(context, attrs, com.android.internal.R.attr.stackViewStyle); } /** * {@inheritDoc} */ public StackView(Context context, AttributeSet attrs, int defStyleAttr) { super(context, attrs, defStyleAttr); TypedArray a = context.obtainStyledAttributes(attrs, com.android.internal.R.styleable.StackView, defStyleAttr, 0); mResOutColor = a.getColor( com.android.internal.R.styleable.StackView_resOutColor, 0); mClickColor = a.getColor( com.android.internal.R.styleable.StackView_clickColor, 0); a.recycle(); initStackView(); } private void initStackView() { configureViewAnimator(NUM_ACTIVE_VIEWS, 1); setStaticTransformationsEnabled(true); final ViewConfiguration configuration = ViewConfiguration.get(getContext()); mTouchSlop = configuration.getScaledTouchSlop(); mMaximumVelocity = configuration.getScaledMaximumFlingVelocity(); mActivePointerId = INVALID_POINTER; mHighlight = new ImageView(getContext()); mHighlight.setLayoutParams(new LayoutParams(mHighlight)); addViewInLayout(mHighlight, -1, new LayoutParams(mHighlight)); mClickFeedback = new ImageView(getContext()); mClickFeedback.setLayoutParams(new LayoutParams(mClickFeedback)); addViewInLayout(mClickFeedback, -1, new LayoutParams(mClickFeedback)); mClickFeedback.setVisibility(INVISIBLE); mStackSlider = new StackSlider(); if (sHolographicHelper == null) { sHolographicHelper = new HolographicHelper(mContext); } setClipChildren(false); setClipToPadding(false); // This sets the form of the StackView, which is currently to have the perspective-shifted // views above the active view, and have items slide down when sliding out. The opposite is // available by using ITEMS_SLIDE_UP. mStackMode = ITEMS_SLIDE_DOWN; // This is a flag to indicate the the stack is loading for the first time mWhichChild = -1; // Adjust the frame padding based on the density, since the highlight changes based // on the density final float density = mContext.getResources().getDisplayMetrics().density; mFramePadding = (int) Math.ceil(density * FRAME_PADDING); } /** * Animate the views between different relative indexes within the {@link AdapterViewAnimator} */ void transformViewForTransition(int fromIndex, int toIndex, final View view, boolean animate) { if (!animate) { ((StackFrame) view).cancelSliderAnimator(); view.setRotationX(0f); LayoutParams lp = (LayoutParams) view.getLayoutParams(); lp.setVerticalOffset(0); lp.setHorizontalOffset(0); } if (fromIndex == -1 && toIndex == getNumActiveViews() -1) { transformViewAtIndex(toIndex, view, false); view.setVisibility(VISIBLE); view.setAlpha(1.0f); } else if (fromIndex == 0 && toIndex == 1) { // Slide item in ((StackFrame) view).cancelSliderAnimator(); view.setVisibility(VISIBLE); int duration = Math.round(mStackSlider.getDurationForNeutralPosition(mYVelocity)); StackSlider animationSlider = new StackSlider(mStackSlider); animationSlider.setView(view); if (animate) { PropertyValuesHolder slideInY = PropertyValuesHolder.ofFloat("YProgress", 0.0f); PropertyValuesHolder slideInX = PropertyValuesHolder.ofFloat("XProgress", 0.0f); ObjectAnimator slideIn = ObjectAnimator.ofPropertyValuesHolder(animationSlider, slideInX, slideInY); slideIn.setDuration(duration); slideIn.setInterpolator(new LinearInterpolator()); ((StackFrame) view).setSliderAnimator(slideIn); slideIn.start(); } else { animationSlider.setYProgress(0f); animationSlider.setXProgress(0f); } } else if (fromIndex == 1 && toIndex == 0) { // Slide item out ((StackFrame) view).cancelSliderAnimator(); int duration = Math.round(mStackSlider.getDurationForOffscreenPosition(mYVelocity)); StackSlider animationSlider = new StackSlider(mStackSlider); animationSlider.setView(view); if (animate) { PropertyValuesHolder slideOutY = PropertyValuesHolder.ofFloat("YProgress", 1.0f); PropertyValuesHolder slideOutX = PropertyValuesHolder.ofFloat("XProgress", 0.0f); ObjectAnimator slideOut = ObjectAnimator.ofPropertyValuesHolder(animationSlider, slideOutX, slideOutY); slideOut.setDuration(duration); slideOut.setInterpolator(new LinearInterpolator()); ((StackFrame) view).setSliderAnimator(slideOut); slideOut.start(); } else { animationSlider.setYProgress(1.0f); animationSlider.setXProgress(0f); } } else if (toIndex == 0) { // Make sure this view that is "waiting in the wings" is invisible view.setAlpha(0.0f); view.setVisibility(INVISIBLE); } else if ((fromIndex == 0 || fromIndex == 1) && toIndex > 1) { view.setVisibility(VISIBLE); view.setAlpha(1.0f); view.setRotationX(0f); LayoutParams lp = (LayoutParams) view.getLayoutParams(); lp.setVerticalOffset(0); lp.setHorizontalOffset(0); } else if (fromIndex == -1) { view.setAlpha(1.0f); view.setVisibility(VISIBLE); } else if (toIndex == -1) { if (animate) { postDelayed(new Runnable() { public void run() { view.setAlpha(0); } }, STACK_RELAYOUT_DURATION); } else { view.setAlpha(0f); } } // Implement the faked perspective if (toIndex != -1) { transformViewAtIndex(toIndex, view, animate); } } private void transformViewAtIndex(int index, final View view, boolean animate) { final float maxPerspectiveShiftY = mPerspectiveShiftY; final float maxPerspectiveShiftX = mPerspectiveShiftX; if (mStackMode == ITEMS_SLIDE_DOWN) { index = mMaxNumActiveViews - index - 1; if (index == mMaxNumActiveViews - 1) index--; } else { index--; if (index < 0) index++; } float r = (index * 1.0f) / (mMaxNumActiveViews - 2); final float scale = 1 - PERSPECTIVE_SCALE_FACTOR * (1 - r); float perspectiveTranslationY = r * maxPerspectiveShiftY; float scaleShiftCorrectionY = (scale - 1) * (getMeasuredHeight() * (1 - PERSPECTIVE_SHIFT_FACTOR_Y) / 2.0f); final float transY = perspectiveTranslationY + scaleShiftCorrectionY; float perspectiveTranslationX = (1 - r) * maxPerspectiveShiftX; float scaleShiftCorrectionX = (1 - scale) * (getMeasuredWidth() * (1 - PERSPECTIVE_SHIFT_FACTOR_X) / 2.0f); final float transX = perspectiveTranslationX + scaleShiftCorrectionX; // If this view is currently being animated for a certain position, we need to cancel // this animation so as not to interfere with the new transformation. if (view instanceof StackFrame) { ((StackFrame) view).cancelTransformAnimator(); } if (animate) { PropertyValuesHolder translationX = PropertyValuesHolder.ofFloat("translationX", transX); PropertyValuesHolder translationY = PropertyValuesHolder.ofFloat("translationY", transY); PropertyValuesHolder scalePropX = PropertyValuesHolder.ofFloat("scaleX", scale); PropertyValuesHolder scalePropY = PropertyValuesHolder.ofFloat("scaleY", scale); ObjectAnimator oa = ObjectAnimator.ofPropertyValuesHolder(view, scalePropX, scalePropY, translationY, translationX); oa.setDuration(STACK_RELAYOUT_DURATION); if (view instanceof StackFrame) { ((StackFrame) view).setTransformAnimator(oa); } oa.start(); } else { view.setTranslationX(transX); view.setTranslationY(transY); view.setScaleX(scale); view.setScaleY(scale); } } private void setupStackSlider(View v, int mode) { mStackSlider.setMode(mode); if (v != null) { mHighlight.setImageBitmap(sHolographicHelper.createResOutline(v, mResOutColor)); mHighlight.setRotation(v.getRotation()); mHighlight.setTranslationY(v.getTranslationY()); mHighlight.setTranslationX(v.getTranslationX()); mHighlight.bringToFront(); v.bringToFront(); mStackSlider.setView(v); v.setVisibility(VISIBLE); } } /** * {@inheritDoc} */ @Override @android.view.RemotableViewMethod public void showNext() { if (mSwipeGestureType != GESTURE_NONE) return; if (!mTransitionIsSetup) { View v = getViewAtRelativeIndex(1); if (v != null) { setupStackSlider(v, StackSlider.NORMAL_MODE); mStackSlider.setYProgress(0); mStackSlider.setXProgress(0); } } super.showNext(); } /** * {@inheritDoc} */ @Override @android.view.RemotableViewMethod public void showPrevious() { if (mSwipeGestureType != GESTURE_NONE) return; if (!mTransitionIsSetup) { View v = getViewAtRelativeIndex(0); if (v != null) { setupStackSlider(v, StackSlider.NORMAL_MODE); mStackSlider.setYProgress(1); mStackSlider.setXProgress(0); } } super.showPrevious(); } @Override void showOnly(int childIndex, boolean animate) { super.showOnly(childIndex, animate); // Here we need to make sure that the z-order of the children is correct for (int i = mCurrentWindowEnd; i >= mCurrentWindowStart; i--) { int index = modulo(i, getWindowSize()); ViewAndMetaData vm = mViewsMap.get(index); if (vm != null) { View v = mViewsMap.get(index).view; if (v != null) v.bringToFront(); } } if (mHighlight != null) { mHighlight.bringToFront(); } mTransitionIsSetup = false; mClickFeedbackIsValid = false; } void updateClickFeedback() { if (!mClickFeedbackIsValid) { View v = getViewAtRelativeIndex(1); if (v != null) { mClickFeedback.setImageBitmap( sHolographicHelper.createClickOutline(v, mClickColor)); mClickFeedback.setTranslationX(v.getTranslationX()); mClickFeedback.setTranslationY(v.getTranslationY()); } mClickFeedbackIsValid = true; } } @Override void showTapFeedback(View v) { updateClickFeedback(); mClickFeedback.setVisibility(VISIBLE); mClickFeedback.bringToFront(); invalidate(); } @Override void hideTapFeedback(View v) { mClickFeedback.setVisibility(INVISIBLE); invalidate(); } private void updateChildTransforms() { for (int i = 0; i < getNumActiveViews(); i++) { View v = getViewAtRelativeIndex(i); if (v != null) { transformViewAtIndex(i, v, false); } } } private static class StackFrame extends FrameLayout { WeakReference transformAnimator; WeakReference sliderAnimator; public StackFrame(Context context) { super(context); } void setTransformAnimator(ObjectAnimator oa) { transformAnimator = new WeakReference(oa); } void setSliderAnimator(ObjectAnimator oa) { sliderAnimator = new WeakReference(oa); } boolean cancelTransformAnimator() { if (transformAnimator != null) { ObjectAnimator oa = transformAnimator.get(); if (oa != null) { oa.cancel(); return true; } } return false; } boolean cancelSliderAnimator() { if (sliderAnimator != null) { ObjectAnimator oa = sliderAnimator.get(); if (oa != null) { oa.cancel(); return true; } } return false; } } @Override FrameLayout getFrameForChild() { StackFrame fl = new StackFrame(mContext); fl.setPadding(mFramePadding, mFramePadding, mFramePadding, mFramePadding); return fl; } /** * Apply any necessary tranforms for the child that is being added. */ void applyTransformForChildAtIndex(View child, int relativeIndex) { } @Override protected void dispatchDraw(Canvas canvas) { boolean expandClipRegion = false; canvas.getClipBounds(stackInvalidateRect); final int childCount = getChildCount(); for (int i = 0; i < childCount; i++) { final View child = getChildAt(i); LayoutParams lp = (LayoutParams) child.getLayoutParams(); if ((lp.horizontalOffset == 0 && lp.verticalOffset == 0) || child.getAlpha() == 0f || child.getVisibility() != VISIBLE) { lp.resetInvalidateRect(); } Rect childInvalidateRect = lp.getInvalidateRect(); if (!childInvalidateRect.isEmpty()) { expandClipRegion = true; stackInvalidateRect.union(childInvalidateRect); } } // We only expand the clip bounds if necessary. if (expandClipRegion) { canvas.save(Canvas.CLIP_SAVE_FLAG); canvas.clipRect(stackInvalidateRect, Region.Op.UNION); super.dispatchDraw(canvas); canvas.restore(); } else { super.dispatchDraw(canvas); } } private void onLayout() { if (!mFirstLayoutHappened) { mFirstLayoutHappened = true; updateChildTransforms(); } final int newSlideAmount = Math.round(SLIDE_UP_RATIO * getMeasuredHeight()); if (mSlideAmount != newSlideAmount) { mSlideAmount = newSlideAmount; mSwipeThreshold = Math.round(SWIPE_THRESHOLD_RATIO * newSlideAmount); } if (Float.compare(mPerspectiveShiftY, mNewPerspectiveShiftY) != 0 || Float.compare(mPerspectiveShiftX, mNewPerspectiveShiftX) != 0) { mPerspectiveShiftY = mNewPerspectiveShiftY; mPerspectiveShiftX = mNewPerspectiveShiftX; updateChildTransforms(); } } @Override public boolean onGenericMotionEvent(MotionEvent event) { if ((event.getSource() & InputDevice.SOURCE_CLASS_POINTER) != 0) { switch (event.getAction()) { case MotionEvent.ACTION_SCROLL: { final float vscroll = event.getAxisValue(MotionEvent.AXIS_VSCROLL); if (vscroll < 0) { pacedScroll(false); return true; } else if (vscroll > 0) { pacedScroll(true); return true; } } } } return super.onGenericMotionEvent(event); } // This ensures that the frequency of stack flips caused by scrolls is capped private void pacedScroll(boolean up) { long timeSinceLastScroll = System.currentTimeMillis() - mLastScrollTime; if (timeSinceLastScroll > MIN_TIME_BETWEEN_SCROLLS) { if (up) { showPrevious(); } else { showNext(); } mLastScrollTime = System.currentTimeMillis(); } } /** * {@inheritDoc} */ @Override public boolean onInterceptTouchEvent(MotionEvent ev) { int action = ev.getAction(); switch(action & MotionEvent.ACTION_MASK) { case MotionEvent.ACTION_DOWN: { if (mActivePointerId == INVALID_POINTER) { mInitialX = ev.getX(); mInitialY = ev.getY(); mActivePointerId = ev.getPointerId(0); } break; } case MotionEvent.ACTION_MOVE: { int pointerIndex = ev.findPointerIndex(mActivePointerId); if (pointerIndex == INVALID_POINTER) { // no data for our primary pointer, this shouldn't happen, log it Log.d(TAG, "Error: No data for our primary pointer."); return false; } float newY = ev.getY(pointerIndex); float deltaY = newY - mInitialY; beginGestureIfNeeded(deltaY); break; } case MotionEvent.ACTION_POINTER_UP: { onSecondaryPointerUp(ev); break; } case MotionEvent.ACTION_UP: case MotionEvent.ACTION_CANCEL: { mActivePointerId = INVALID_POINTER; mSwipeGestureType = GESTURE_NONE; } } return mSwipeGestureType != GESTURE_NONE; } private void beginGestureIfNeeded(float deltaY) { if ((int) Math.abs(deltaY) > mTouchSlop && mSwipeGestureType == GESTURE_NONE) { final int swipeGestureType = deltaY < 0 ? GESTURE_SLIDE_UP : GESTURE_SLIDE_DOWN; cancelLongPress(); requestDisallowInterceptTouchEvent(true); if (mAdapter == null) return; final int adapterCount = getCount(); int activeIndex; if (mStackMode == ITEMS_SLIDE_UP) { activeIndex = (swipeGestureType == GESTURE_SLIDE_DOWN) ? 0 : 1; } else { activeIndex = (swipeGestureType == GESTURE_SLIDE_DOWN) ? 1 : 0; } boolean endOfStack = mLoopViews && adapterCount == 1 && ((mStackMode == ITEMS_SLIDE_UP && swipeGestureType == GESTURE_SLIDE_UP) || (mStackMode == ITEMS_SLIDE_DOWN && swipeGestureType == GESTURE_SLIDE_DOWN)); boolean beginningOfStack = mLoopViews && adapterCount == 1 && ((mStackMode == ITEMS_SLIDE_DOWN && swipeGestureType == GESTURE_SLIDE_UP) || (mStackMode == ITEMS_SLIDE_UP && swipeGestureType == GESTURE_SLIDE_DOWN)); int stackMode; if (mLoopViews && !beginningOfStack && !endOfStack) { stackMode = StackSlider.NORMAL_MODE; } else if (mCurrentWindowStartUnbounded + activeIndex == -1 || beginningOfStack) { activeIndex++; stackMode = StackSlider.BEGINNING_OF_STACK_MODE; } else if (mCurrentWindowStartUnbounded + activeIndex == adapterCount - 1 || endOfStack) { stackMode = StackSlider.END_OF_STACK_MODE; } else { stackMode = StackSlider.NORMAL_MODE; } mTransitionIsSetup = stackMode == StackSlider.NORMAL_MODE; View v = getViewAtRelativeIndex(activeIndex); if (v == null) return; setupStackSlider(v, stackMode); // We only register this gesture if we've made it this far without a problem mSwipeGestureType = swipeGestureType; cancelHandleClick(); } } /** * {@inheritDoc} */ @Override public boolean onTouchEvent(MotionEvent ev) { super.onTouchEvent(ev); int action = ev.getAction(); int pointerIndex = ev.findPointerIndex(mActivePointerId); if (pointerIndex == INVALID_POINTER) { // no data for our primary pointer, this shouldn't happen, log it Log.d(TAG, "Error: No data for our primary pointer."); return false; } float newY = ev.getY(pointerIndex); float newX = ev.getX(pointerIndex); float deltaY = newY - mInitialY; float deltaX = newX - mInitialX; if (mVelocityTracker == null) { mVelocityTracker = VelocityTracker.obtain(); } mVelocityTracker.addMovement(ev); switch (action & MotionEvent.ACTION_MASK) { case MotionEvent.ACTION_MOVE: { beginGestureIfNeeded(deltaY); float rx = deltaX / (mSlideAmount * 1.0f); if (mSwipeGestureType == GESTURE_SLIDE_DOWN) { float r = (deltaY - mTouchSlop * 1.0f) / mSlideAmount * 1.0f; if (mStackMode == ITEMS_SLIDE_DOWN) r = 1 - r; mStackSlider.setYProgress(1 - r); mStackSlider.setXProgress(rx); return true; } else if (mSwipeGestureType == GESTURE_SLIDE_UP) { float r = -(deltaY + mTouchSlop * 1.0f) / mSlideAmount * 1.0f; if (mStackMode == ITEMS_SLIDE_DOWN) r = 1 - r; mStackSlider.setYProgress(r); mStackSlider.setXProgress(rx); return true; } break; } case MotionEvent.ACTION_UP: { handlePointerUp(ev); break; } case MotionEvent.ACTION_POINTER_UP: { onSecondaryPointerUp(ev); break; } case MotionEvent.ACTION_CANCEL: { mActivePointerId = INVALID_POINTER; mSwipeGestureType = GESTURE_NONE; break; } } return true; } private void onSecondaryPointerUp(MotionEvent ev) { final int activePointerIndex = ev.getActionIndex(); final int pointerId = ev.getPointerId(activePointerIndex); if (pointerId == mActivePointerId) { int activeViewIndex = (mSwipeGestureType == GESTURE_SLIDE_DOWN) ? 0 : 1; View v = getViewAtRelativeIndex(activeViewIndex); if (v == null) return; // Our primary pointer has gone up -- let's see if we can find // another pointer on the view. If so, then we should replace // our primary pointer with this new pointer and adjust things // so that the view doesn't jump for (int index = 0; index < ev.getPointerCount(); index++) { if (index != activePointerIndex) { float x = ev.getX(index); float y = ev.getY(index); mTouchRect.set(v.getLeft(), v.getTop(), v.getRight(), v.getBottom()); if (mTouchRect.contains(Math.round(x), Math.round(y))) { float oldX = ev.getX(activePointerIndex); float oldY = ev.getY(activePointerIndex); // adjust our frame of reference to avoid a jump mInitialY += (y - oldY); mInitialX += (x - oldX); mActivePointerId = ev.getPointerId(index); if (mVelocityTracker != null) { mVelocityTracker.clear(); } // ok, we're good, we found a new pointer which is touching the active view return; } } } // if we made it this far, it means we didn't find a satisfactory new pointer :(, // so end the gesture handlePointerUp(ev); } } private void handlePointerUp(MotionEvent ev) { int pointerIndex = ev.findPointerIndex(mActivePointerId); float newY = ev.getY(pointerIndex); int deltaY = (int) (newY - mInitialY); mLastInteractionTime = System.currentTimeMillis(); if (mVelocityTracker != null) { mVelocityTracker.computeCurrentVelocity(1000, mMaximumVelocity); mYVelocity = (int) mVelocityTracker.getYVelocity(mActivePointerId); } if (mVelocityTracker != null) { mVelocityTracker.recycle(); mVelocityTracker = null; } if (deltaY > mSwipeThreshold && mSwipeGestureType == GESTURE_SLIDE_DOWN && mStackSlider.mMode == StackSlider.NORMAL_MODE) { // We reset the gesture variable, because otherwise we will ignore showPrevious() / // showNext(); mSwipeGestureType = GESTURE_NONE; // Swipe threshold exceeded, swipe down if (mStackMode == ITEMS_SLIDE_UP) { showPrevious(); } else { showNext(); } mHighlight.bringToFront(); } else if (deltaY < -mSwipeThreshold && mSwipeGestureType == GESTURE_SLIDE_UP && mStackSlider.mMode == StackSlider.NORMAL_MODE) { // We reset the gesture variable, because otherwise we will ignore showPrevious() / // showNext(); mSwipeGestureType = GESTURE_NONE; // Swipe threshold exceeded, swipe up if (mStackMode == ITEMS_SLIDE_UP) { showNext(); } else { showPrevious(); } mHighlight.bringToFront(); } else if (mSwipeGestureType == GESTURE_SLIDE_UP ) { // Didn't swipe up far enough, snap back down int duration; float finalYProgress = (mStackMode == ITEMS_SLIDE_DOWN) ? 1 : 0; if (mStackMode == ITEMS_SLIDE_UP || mStackSlider.mMode != StackSlider.NORMAL_MODE) { duration = Math.round(mStackSlider.getDurationForNeutralPosition()); } else { duration = Math.round(mStackSlider.getDurationForOffscreenPosition()); } StackSlider animationSlider = new StackSlider(mStackSlider); PropertyValuesHolder snapBackY = PropertyValuesHolder.ofFloat("YProgress", finalYProgress); PropertyValuesHolder snapBackX = PropertyValuesHolder.ofFloat("XProgress", 0.0f); ObjectAnimator pa = ObjectAnimator.ofPropertyValuesHolder(animationSlider, snapBackX, snapBackY); pa.setDuration(duration); pa.setInterpolator(new LinearInterpolator()); pa.start(); } else if (mSwipeGestureType == GESTURE_SLIDE_DOWN) { // Didn't swipe down far enough, snap back up float finalYProgress = (mStackMode == ITEMS_SLIDE_DOWN) ? 0 : 1; int duration; if (mStackMode == ITEMS_SLIDE_DOWN || mStackSlider.mMode != StackSlider.NORMAL_MODE) { duration = Math.round(mStackSlider.getDurationForNeutralPosition()); } else { duration = Math.round(mStackSlider.getDurationForOffscreenPosition()); } StackSlider animationSlider = new StackSlider(mStackSlider); PropertyValuesHolder snapBackY = PropertyValuesHolder.ofFloat("YProgress",finalYProgress); PropertyValuesHolder snapBackX = PropertyValuesHolder.ofFloat("XProgress", 0.0f); ObjectAnimator pa = ObjectAnimator.ofPropertyValuesHolder(animationSlider, snapBackX, snapBackY); pa.setDuration(duration); pa.start(); } mActivePointerId = INVALID_POINTER; mSwipeGestureType = GESTURE_NONE; } private class StackSlider { View mView; float mYProgress; float mXProgress; static final int NORMAL_MODE = 0; static final int BEGINNING_OF_STACK_MODE = 1; static final int END_OF_STACK_MODE = 2; int mMode = NORMAL_MODE; public StackSlider() { } public StackSlider(StackSlider copy) { mView = copy.mView; mYProgress = copy.mYProgress; mXProgress = copy.mXProgress; mMode = copy.mMode; } private float cubic(float r) { return (float) (Math.pow(2 * r - 1, 3) + 1) / 2.0f; } private float highlightAlphaInterpolator(float r) { float pivot = 0.4f; if (r < pivot) { return 0.85f * cubic(r / pivot); } else { return 0.85f * cubic(1 - (r - pivot) / (1 - pivot)); } } private float viewAlphaInterpolator(float r) { float pivot = 0.3f; if (r > pivot) { return (r - pivot) / (1 - pivot); } else { return 0; } } private float rotationInterpolator(float r) { float pivot = 0.2f; if (r < pivot) { return 0; } else { return (r - pivot) / (1 - pivot); } } void setView(View v) { mView = v; } public void setYProgress(float r) { // enforce r between 0 and 1 r = Math.min(1.0f, r); r = Math.max(0, r); mYProgress = r; if (mView == null) return; final LayoutParams viewLp = (LayoutParams) mView.getLayoutParams(); final LayoutParams highlightLp = (LayoutParams) mHighlight.getLayoutParams(); int stackDirection = (mStackMode == ITEMS_SLIDE_UP) ? 1 : -1; // We need to prevent any clipping issues which may arise by setting a layer type. // This doesn't come for free however, so we only want to enable it when required. if (Float.compare(0f, mYProgress) != 0 && Float.compare(1.0f, mYProgress) != 0) { if (mView.getLayerType() == LAYER_TYPE_NONE) { mView.setLayerType(LAYER_TYPE_HARDWARE, null); } } else { if (mView.getLayerType() != LAYER_TYPE_NONE) { mView.setLayerType(LAYER_TYPE_NONE, null); } } switch (mMode) { case NORMAL_MODE: viewLp.setVerticalOffset(Math.round(-r * stackDirection * mSlideAmount)); highlightLp.setVerticalOffset(Math.round(-r * stackDirection * mSlideAmount)); mHighlight.setAlpha(highlightAlphaInterpolator(r)); float alpha = viewAlphaInterpolator(1 - r); // We make sure that views which can't be seen (have 0 alpha) are also invisible // so that they don't interfere with click events. if (mView.getAlpha() == 0 && alpha != 0 && mView.getVisibility() != VISIBLE) { mView.setVisibility(VISIBLE); } else if (alpha == 0 && mView.getAlpha() != 0 && mView.getVisibility() == VISIBLE) { mView.setVisibility(INVISIBLE); } mView.setAlpha(alpha); mView.setRotationX(stackDirection * 90.0f * rotationInterpolator(r)); mHighlight.setRotationX(stackDirection * 90.0f * rotationInterpolator(r)); break; case END_OF_STACK_MODE: r = r * 0.2f; viewLp.setVerticalOffset(Math.round(-stackDirection * r * mSlideAmount)); highlightLp.setVerticalOffset(Math.round(-stackDirection * r * mSlideAmount)); mHighlight.setAlpha(highlightAlphaInterpolator(r)); break; case BEGINNING_OF_STACK_MODE: r = (1-r) * 0.2f; viewLp.setVerticalOffset(Math.round(stackDirection * r * mSlideAmount)); highlightLp.setVerticalOffset(Math.round(stackDirection * r * mSlideAmount)); mHighlight.setAlpha(highlightAlphaInterpolator(r)); break; } } public void setXProgress(float r) { // enforce r between 0 and 1 r = Math.min(2.0f, r); r = Math.max(-2.0f, r); mXProgress = r; if (mView == null) return; final LayoutParams viewLp = (LayoutParams) mView.getLayoutParams(); final LayoutParams highlightLp = (LayoutParams) mHighlight.getLayoutParams(); r *= 0.2f; viewLp.setHorizontalOffset(Math.round(r * mSlideAmount)); highlightLp.setHorizontalOffset(Math.round(r * mSlideAmount)); } void setMode(int mode) { mMode = mode; } float getDurationForNeutralPosition() { return getDuration(false, 0); } float getDurationForOffscreenPosition() { return getDuration(true, 0); } float getDurationForNeutralPosition(float velocity) { return getDuration(false, velocity); } float getDurationForOffscreenPosition(float velocity) { return getDuration(true, velocity); } private float getDuration(boolean invert, float velocity) { if (mView != null) { final LayoutParams viewLp = (LayoutParams) mView.getLayoutParams(); float d = (float) Math.sqrt(Math.pow(viewLp.horizontalOffset, 2) + Math.pow(viewLp.verticalOffset, 2)); float maxd = (float) Math.sqrt(Math.pow(mSlideAmount, 2) + Math.pow(0.4f * mSlideAmount, 2)); if (velocity == 0) { return (invert ? (1 - d / maxd) : d / maxd) * DEFAULT_ANIMATION_DURATION; } else { float duration = invert ? d / Math.abs(velocity) : (maxd - d) / Math.abs(velocity); if (duration < MINIMUM_ANIMATION_DURATION || duration > DEFAULT_ANIMATION_DURATION) { return getDuration(invert, 0); } else { return duration; } } } return 0; } // Used for animations @SuppressWarnings({"UnusedDeclaration"}) public float getYProgress() { return mYProgress; } // Used for animations @SuppressWarnings({"UnusedDeclaration"}) public float getXProgress() { return mXProgress; } } LayoutParams createOrReuseLayoutParams(View v) { final ViewGroup.LayoutParams currentLp = v.getLayoutParams(); if (currentLp instanceof LayoutParams) { LayoutParams lp = (LayoutParams) currentLp; lp.setHorizontalOffset(0); lp.setVerticalOffset(0); lp.width = 0; lp.width = 0; return lp; } return new LayoutParams(v); } @Override protected void onLayout(boolean changed, int left, int top, int right, int bottom) { checkForAndHandleDataChanged(); final int childCount = getChildCount(); for (int i = 0; i < childCount; i++) { final View child = getChildAt(i); int childRight = mPaddingLeft + child.getMeasuredWidth(); int childBottom = mPaddingTop + child.getMeasuredHeight(); LayoutParams lp = (LayoutParams) child.getLayoutParams(); child.layout(mPaddingLeft + lp.horizontalOffset, mPaddingTop + lp.verticalOffset, childRight + lp.horizontalOffset, childBottom + lp.verticalOffset); } onLayout(); } @Override public void advance() { long timeSinceLastInteraction = System.currentTimeMillis() - mLastInteractionTime; if (mAdapter == null) return; final int adapterCount = getCount(); if (adapterCount == 1 && mLoopViews) return; if (mSwipeGestureType == GESTURE_NONE && timeSinceLastInteraction > MIN_TIME_BETWEEN_INTERACTION_AND_AUTOADVANCE) { showNext(); } } private void measureChildren() { final int count = getChildCount(); final int measuredWidth = getMeasuredWidth(); final int measuredHeight = getMeasuredHeight(); final int childWidth = Math.round(measuredWidth*(1-PERSPECTIVE_SHIFT_FACTOR_X)) - mPaddingLeft - mPaddingRight; final int childHeight = Math.round(measuredHeight*(1-PERSPECTIVE_SHIFT_FACTOR_Y)) - mPaddingTop - mPaddingBottom; int maxWidth = 0; int maxHeight = 0; for (int i = 0; i < count; i++) { final View child = getChildAt(i); child.measure(MeasureSpec.makeMeasureSpec(childWidth, MeasureSpec.AT_MOST), MeasureSpec.makeMeasureSpec(childHeight, MeasureSpec.AT_MOST)); if (child != mHighlight && child != mClickFeedback) { final int childMeasuredWidth = child.getMeasuredWidth(); final int childMeasuredHeight = child.getMeasuredHeight(); if (childMeasuredWidth > maxWidth) { maxWidth = childMeasuredWidth; } if (childMeasuredHeight > maxHeight) { maxHeight = childMeasuredHeight; } } } mNewPerspectiveShiftX = PERSPECTIVE_SHIFT_FACTOR_X * measuredWidth; mNewPerspectiveShiftY = PERSPECTIVE_SHIFT_FACTOR_Y * measuredHeight; // If we have extra space, we try and spread the items out if (maxWidth > 0 && count > 0 && maxWidth < childWidth) { mNewPerspectiveShiftX = measuredWidth - maxWidth; } if (maxHeight > 0 && count > 0 && maxHeight < childHeight) { mNewPerspectiveShiftY = measuredHeight - maxHeight; } } @Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { int widthSpecSize = MeasureSpec.getSize(widthMeasureSpec); int heightSpecSize = MeasureSpec.getSize(heightMeasureSpec); final int widthSpecMode = MeasureSpec.getMode(widthMeasureSpec); final int heightSpecMode = MeasureSpec.getMode(heightMeasureSpec); boolean haveChildRefSize = (mReferenceChildWidth != -1 && mReferenceChildHeight != -1); // We need to deal with the case where our parent hasn't told us how // big we should be. In this case we should float factorY = 1/(1 - PERSPECTIVE_SHIFT_FACTOR_Y); if (heightSpecMode == MeasureSpec.UNSPECIFIED) { heightSpecSize = haveChildRefSize ? Math.round(mReferenceChildHeight * (1 + factorY)) + mPaddingTop + mPaddingBottom : 0; } else if (heightSpecMode == MeasureSpec.AT_MOST) { if (haveChildRefSize) { int height = Math.round(mReferenceChildHeight * (1 + factorY)) + mPaddingTop + mPaddingBottom; if (height <= heightSpecSize) { heightSpecSize = height; } else { heightSpecSize |= MEASURED_STATE_TOO_SMALL; } } else { heightSpecSize = 0; } } float factorX = 1/(1 - PERSPECTIVE_SHIFT_FACTOR_X); if (widthSpecMode == MeasureSpec.UNSPECIFIED) { widthSpecSize = haveChildRefSize ? Math.round(mReferenceChildWidth * (1 + factorX)) + mPaddingLeft + mPaddingRight : 0; } else if (heightSpecMode == MeasureSpec.AT_MOST) { if (haveChildRefSize) { int width = mReferenceChildWidth + mPaddingLeft + mPaddingRight; if (width <= widthSpecSize) { widthSpecSize = width; } else { widthSpecSize |= MEASURED_STATE_TOO_SMALL; } } else { widthSpecSize = 0; } } setMeasuredDimension(widthSpecSize, heightSpecSize); measureChildren(); } @Override public void onInitializeAccessibilityEvent(AccessibilityEvent event) { super.onInitializeAccessibilityEvent(event); event.setClassName(StackView.class.getName()); } @Override public void onInitializeAccessibilityNodeInfo(AccessibilityNodeInfo info) { super.onInitializeAccessibilityNodeInfo(info); info.setClassName(StackView.class.getName()); info.setScrollable(getChildCount() > 1); if (isEnabled()) { if (getDisplayedChild() < getChildCount() - 1) { info.addAction(AccessibilityNodeInfo.ACTION_SCROLL_FORWARD); } if (getDisplayedChild() > 0) { info.addAction(AccessibilityNodeInfo.ACTION_SCROLL_BACKWARD); } } } @Override public boolean performAccessibilityAction(int action, Bundle arguments) { if (super.performAccessibilityAction(action, arguments)) { return true; } if (!isEnabled()) { return false; } switch (action) { case AccessibilityNodeInfo.ACTION_SCROLL_FORWARD: { if (getDisplayedChild() < getChildCount() - 1) { showNext(); return true; } } return false; case AccessibilityNodeInfo.ACTION_SCROLL_BACKWARD: { if (getDisplayedChild() > 0) { showPrevious(); return true; } } return false; } return false; } class LayoutParams extends ViewGroup.LayoutParams { int horizontalOffset; int verticalOffset; View mView; private final Rect parentRect = new Rect(); private final Rect invalidateRect = new Rect(); private final RectF invalidateRectf = new RectF(); private final Rect globalInvalidateRect = new Rect(); LayoutParams(View view) { super(0, 0); width = 0; height = 0; horizontalOffset = 0; verticalOffset = 0; mView = view; } LayoutParams(Context c, AttributeSet attrs) { super(c, attrs); horizontalOffset = 0; verticalOffset = 0; width = 0; height = 0; } void invalidateGlobalRegion(View v, Rect r) { // We need to make a new rect here, so as not to modify the one passed globalInvalidateRect.set(r); globalInvalidateRect.union(0, 0, getWidth(), getHeight()); View p = v; if (!(v.getParent() != null && v.getParent() instanceof View)) return; boolean firstPass = true; parentRect.set(0, 0, 0, 0); while (p.getParent() != null && p.getParent() instanceof View && !parentRect.contains(globalInvalidateRect)) { if (!firstPass) { globalInvalidateRect.offset(p.getLeft() - p.getScrollX(), p.getTop() - p.getScrollY()); } firstPass = false; p = (View) p.getParent(); parentRect.set(p.getScrollX(), p.getScrollY(), p.getWidth() + p.getScrollX(), p.getHeight() + p.getScrollY()); p.invalidate(globalInvalidateRect.left, globalInvalidateRect.top, globalInvalidateRect.right, globalInvalidateRect.bottom); } p.invalidate(globalInvalidateRect.left, globalInvalidateRect.top, globalInvalidateRect.right, globalInvalidateRect.bottom); } Rect getInvalidateRect() { return invalidateRect; } void resetInvalidateRect() { invalidateRect.set(0, 0, 0, 0); } // This is public so that ObjectAnimator can access it public void setVerticalOffset(int newVerticalOffset) { setOffsets(horizontalOffset, newVerticalOffset); } public void setHorizontalOffset(int newHorizontalOffset) { setOffsets(newHorizontalOffset, verticalOffset); } public void setOffsets(int newHorizontalOffset, int newVerticalOffset) { int horizontalOffsetDelta = newHorizontalOffset - horizontalOffset; horizontalOffset = newHorizontalOffset; int verticalOffsetDelta = newVerticalOffset - verticalOffset; verticalOffset = newVerticalOffset; if (mView != null) { mView.requestLayout(); int left = Math.min(mView.getLeft() + horizontalOffsetDelta, mView.getLeft()); int right = Math.max(mView.getRight() + horizontalOffsetDelta, mView.getRight()); int top = Math.min(mView.getTop() + verticalOffsetDelta, mView.getTop()); int bottom = Math.max(mView.getBottom() + verticalOffsetDelta, mView.getBottom()); invalidateRectf.set(left, top, right, bottom); float xoffset = -invalidateRectf.left; float yoffset = -invalidateRectf.top; invalidateRectf.offset(xoffset, yoffset); mView.getMatrix().mapRect(invalidateRectf); invalidateRectf.offset(-xoffset, -yoffset); invalidateRect.set((int) Math.floor(invalidateRectf.left), (int) Math.floor(invalidateRectf.top), (int) Math.ceil(invalidateRectf.right), (int) Math.ceil(invalidateRectf.bottom)); invalidateGlobalRegion(mView, invalidateRect); } } } private static class HolographicHelper { private final Paint mHolographicPaint = new Paint(); private final Paint mErasePaint = new Paint(); private final Paint mBlurPaint = new Paint(); private static final int RES_OUT = 0; private static final int CLICK_FEEDBACK = 1; private float mDensity; private BlurMaskFilter mSmallBlurMaskFilter; private BlurMaskFilter mLargeBlurMaskFilter; private final Canvas mCanvas = new Canvas(); private final Canvas mMaskCanvas = new Canvas(); private final int[] mTmpXY = new int[2]; private final Matrix mIdentityMatrix = new Matrix(); HolographicHelper(Context context) { mDensity = context.getResources().getDisplayMetrics().density; mHolographicPaint.setFilterBitmap(true); mHolographicPaint.setMaskFilter(TableMaskFilter.CreateClipTable(0, 30)); mErasePaint.setXfermode(new PorterDuffXfermode(PorterDuff.Mode.DST_OUT)); mErasePaint.setFilterBitmap(true); mSmallBlurMaskFilter = new BlurMaskFilter(2 * mDensity, BlurMaskFilter.Blur.NORMAL); mLargeBlurMaskFilter = new BlurMaskFilter(4 * mDensity, BlurMaskFilter.Blur.NORMAL); } Bitmap createClickOutline(View v, int color) { return createOutline(v, CLICK_FEEDBACK, color); } Bitmap createResOutline(View v, int color) { return createOutline(v, RES_OUT, color); } Bitmap createOutline(View v, int type, int color) { mHolographicPaint.setColor(color); if (type == RES_OUT) { mBlurPaint.setMaskFilter(mSmallBlurMaskFilter); } else if (type == CLICK_FEEDBACK) { mBlurPaint.setMaskFilter(mLargeBlurMaskFilter); } if (v.getMeasuredWidth() == 0 || v.getMeasuredHeight() == 0) { return null; } Bitmap bitmap = Bitmap.createBitmap(v.getMeasuredWidth(), v.getMeasuredHeight(), Bitmap.Config.ARGB_8888); mCanvas.setBitmap(bitmap); float rotationX = v.getRotationX(); float rotation = v.getRotation(); float translationY = v.getTranslationY(); float translationX = v.getTranslationX(); v.setRotationX(0); v.setRotation(0); v.setTranslationY(0); v.setTranslationX(0); v.draw(mCanvas); v.setRotationX(rotationX); v.setRotation(rotation); v.setTranslationY(translationY); v.setTranslationX(translationX); drawOutline(mCanvas, bitmap); mCanvas.setBitmap(null); return bitmap; } void drawOutline(Canvas dest, Bitmap src) { final int[] xy = mTmpXY; Bitmap mask = src.extractAlpha(mBlurPaint, xy); mMaskCanvas.setBitmap(mask); mMaskCanvas.drawBitmap(src, -xy[0], -xy[1], mErasePaint); dest.drawColor(0, PorterDuff.Mode.CLEAR); dest.setMatrix(mIdentityMatrix); dest.drawBitmap(mask, xy[0], xy[1], mHolographicPaint); mMaskCanvas.setBitmap(null); mask.recycle(); } } }