/* * Copyright (C) 2014 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.app; import android.content.Context; import android.graphics.Matrix; import android.graphics.Rect; import android.graphics.RectF; import android.os.Bundle; import android.os.Handler; import android.os.Parcelable; import android.os.ResultReceiver; import android.transition.Transition; import android.transition.TransitionSet; import android.util.ArrayMap; import android.view.GhostView; import android.view.View; import android.view.ViewGroup; import android.view.ViewGroupOverlay; import android.view.ViewParent; import android.view.ViewRootImpl; import android.view.ViewTreeObserver; import android.view.Window; import android.widget.ImageView; import java.util.ArrayList; import java.util.Collection; /** * Base class for ExitTransitionCoordinator and EnterTransitionCoordinator, classes * that manage activity transitions and the communications coordinating them between * Activities. The ExitTransitionCoordinator is created in the * ActivityOptions#makeSceneTransitionAnimation. The EnterTransitionCoordinator * is created by ActivityOptions#createEnterActivityTransition by Activity when the window is * attached. * * Typical startActivity goes like this: * 1) ExitTransitionCoordinator created with ActivityOptions#makeSceneTransitionAnimation * 2) Activity#startActivity called and that calls startExit() through * ActivityOptions#dispatchStartExit * - Exit transition starts by setting transitioning Views to INVISIBLE * 3) Launched Activity starts, creating an EnterTransitionCoordinator. * - The Window is made translucent * - The Window background alpha is set to 0 * - The transitioning views are made INVISIBLE * - MSG_SET_LISTENER is sent back to the ExitTransitionCoordinator. * 4) The shared element transition completes. * - MSG_TAKE_SHARED_ELEMENTS is sent to the EnterTransitionCoordinator * 5) The MSG_TAKE_SHARED_ELEMENTS is received by the EnterTransitionCoordinator. * - Shared elements are made VISIBLE * - Shared elements positions and size are set to match the end state of the calling * Activity. * - The shared element transition is started * - If the window allows overlapping transitions, the views transition is started by setting * the entering Views to VISIBLE and the background alpha is animated to opaque. * - MSG_HIDE_SHARED_ELEMENTS is sent to the ExitTransitionCoordinator * 6) MSG_HIDE_SHARED_ELEMENTS is received by the ExitTransitionCoordinator * - The shared elements are made INVISIBLE * 7) The exit transition completes in the calling Activity. * - MSG_EXIT_TRANSITION_COMPLETE is sent to the EnterTransitionCoordinator. * 8) The MSG_EXIT_TRANSITION_COMPLETE is received by the EnterTransitionCoordinator. * - If the window doesn't allow overlapping enter transitions, the enter transition is started * by setting entering views to VISIBLE and the background is animated to opaque. * 9) The background opacity animation completes. * - The window is made opaque * 10) The calling Activity gets an onStop() call * - onActivityStopped() is called and all exited Views are made VISIBLE. * * Typical finishAfterTransition goes like this: * 1) finishAfterTransition() creates an ExitTransitionCoordinator and calls startExit() * - The Window start transitioning to Translucent with a new ActivityOptions. * - If no background exists, a black background is substituted * - The shared elements in the scene are matched against those shared elements * that were sent by comparing the names. * - The exit transition is started by setting Views to INVISIBLE. * 2) The ActivityOptions is received by the Activity and an EnterTransitionCoordinator is created. * - All transitioning views are made VISIBLE to reverse what was done when onActivityStopped() * was called * 3) The Window is made translucent and a callback is received * - The background alpha is animated to 0 * 4) The background alpha animation completes * 5) The shared element transition completes * - After both 4 & 5 complete, MSG_TAKE_SHARED_ELEMENTS is sent to the * EnterTransitionCoordinator * 6) MSG_TAKE_SHARED_ELEMENTS is received by EnterTransitionCoordinator * - Shared elements are made VISIBLE * - Shared elements positions and size are set to match the end state of the calling * Activity. * - The shared element transition is started * - If the window allows overlapping transitions, the views transition is started by setting * the entering Views to VISIBLE. * - MSG_HIDE_SHARED_ELEMENTS is sent to the ExitTransitionCoordinator * 7) MSG_HIDE_SHARED_ELEMENTS is received by the ExitTransitionCoordinator * - The shared elements are made INVISIBLE * 8) The exit transition completes in the finishing Activity. * - MSG_EXIT_TRANSITION_COMPLETE is sent to the EnterTransitionCoordinator. * - finish() is called on the exiting Activity * 9) The MSG_EXIT_TRANSITION_COMPLETE is received by the EnterTransitionCoordinator. * - If the window doesn't allow overlapping enter transitions, the enter transition is started * by setting entering views to VISIBLE. */ abstract class ActivityTransitionCoordinator extends ResultReceiver { private static final String TAG = "ActivityTransitionCoordinator"; /** * For Activity transitions, the called Activity's listener to receive calls * when transitions complete. */ static final String KEY_REMOTE_RECEIVER = "android:remoteReceiver"; protected static final String KEY_SCREEN_LEFT = "shared_element:screenLeft"; protected static final String KEY_SCREEN_TOP = "shared_element:screenTop"; protected static final String KEY_SCREEN_RIGHT = "shared_element:screenRight"; protected static final String KEY_SCREEN_BOTTOM= "shared_element:screenBottom"; protected static final String KEY_TRANSLATION_Z = "shared_element:translationZ"; protected static final String KEY_SNAPSHOT = "shared_element:bitmap"; protected static final String KEY_SCALE_TYPE = "shared_element:scaleType"; protected static final String KEY_IMAGE_MATRIX = "shared_element:imageMatrix"; protected static final String KEY_ELEVATION = "shared_element:elevation"; protected static final ImageView.ScaleType[] SCALE_TYPE_VALUES = ImageView.ScaleType.values(); /** * Sent by the exiting coordinator (either EnterTransitionCoordinator * or ExitTransitionCoordinator) after the shared elements have * become stationary (shared element transition completes). This tells * the remote coordinator to take control of the shared elements and * that animations may begin. The remote Activity won't start entering * until this message is received, but may wait for * MSG_EXIT_TRANSITION_COMPLETE if allowOverlappingTransitions() is true. */ public static final int MSG_SET_REMOTE_RECEIVER = 100; /** * Sent by the entering coordinator to tell the exiting coordinator * to hide its shared elements after it has started its shared * element transition. This is temporary until the * interlock of shared elements is figured out. */ public static final int MSG_HIDE_SHARED_ELEMENTS = 101; /** * Sent by the exiting coordinator (either EnterTransitionCoordinator * or ExitTransitionCoordinator) after the shared elements have * become stationary (shared element transition completes). This tells * the remote coordinator to take control of the shared elements and * that animations may begin. The remote Activity won't start entering * until this message is received, but may wait for * MSG_EXIT_TRANSITION_COMPLETE if allowOverlappingTransitions() is true. */ public static final int MSG_TAKE_SHARED_ELEMENTS = 103; /** * Sent by the exiting coordinator (either * EnterTransitionCoordinator or ExitTransitionCoordinator) after * the exiting Views have finished leaving the scene. This will * be ignored if allowOverlappingTransitions() is true on the * remote coordinator. If it is false, it will trigger the enter * transition to start. */ public static final int MSG_EXIT_TRANSITION_COMPLETE = 104; /** * Sent by Activity#startActivity to begin the exit transition. */ public static final int MSG_START_EXIT_TRANSITION = 105; /** * It took too long for a message from the entering Activity, so we canceled the transition. */ public static final int MSG_CANCEL = 106; /** * When returning, this is the destination location for the shared element. */ public static final int MSG_SHARED_ELEMENT_DESTINATION = 107; private Window mWindow; final protected ArrayList<String> mAllSharedElementNames; final protected ArrayList<View> mSharedElements = new ArrayList<View>(); final protected ArrayList<String> mSharedElementNames = new ArrayList<String>(); protected ArrayList<View> mTransitioningViews = new ArrayList<View>(); protected SharedElementCallback mListener; protected ResultReceiver mResultReceiver; final private FixedEpicenterCallback mEpicenterCallback = new FixedEpicenterCallback(); final protected boolean mIsReturning; private Runnable mPendingTransition; private boolean mIsStartingTransition; private ArrayList<GhostViewListeners> mGhostViewListeners = new ArrayList<GhostViewListeners>(); private ArrayMap<View, Float> mOriginalAlphas = new ArrayMap<View, Float>(); private ArrayList<Matrix> mSharedElementParentMatrices; private boolean mSharedElementTransitionComplete; private boolean mViewsTransitionComplete; public ActivityTransitionCoordinator(Window window, ArrayList<String> allSharedElementNames, SharedElementCallback listener, boolean isReturning) { super(new Handler()); mWindow = window; mListener = listener; mAllSharedElementNames = allSharedElementNames; mIsReturning = isReturning; } protected void viewsReady(ArrayMap<String, View> sharedElements) { sharedElements.retainAll(mAllSharedElementNames); if (mListener != null) { mListener.onMapSharedElements(mAllSharedElementNames, sharedElements); } setSharedElements(sharedElements); if (getViewsTransition() != null && mTransitioningViews != null) { ViewGroup decorView = getDecor(); if (decorView != null) { decorView.captureTransitioningViews(mTransitioningViews); } mTransitioningViews.removeAll(mSharedElements); } setEpicenter(); } /** * Iterates over the shared elements and adds them to the members in order. * Shared elements that are nested in other shared elements are placed after the * elements that they are nested in. This means that layout ordering can be done * from first to last. * * @param sharedElements The map of transition names to shared elements to set into * the member fields. */ private void setSharedElements(ArrayMap<String, View> sharedElements) { boolean isFirstRun = true; while (!sharedElements.isEmpty()) { final int numSharedElements = sharedElements.size(); for (int i = numSharedElements - 1; i >= 0; i--) { final View view = sharedElements.valueAt(i); final String name = sharedElements.keyAt(i); if (isFirstRun && (view == null || !view.isAttachedToWindow() || name == null)) { sharedElements.removeAt(i); } else if (!isNested(view, sharedElements)) { mSharedElementNames.add(name); mSharedElements.add(view); sharedElements.removeAt(i); } } isFirstRun = false; } } /** * Returns true when view is nested in any of the values of sharedElements. */ private static boolean isNested(View view, ArrayMap<String, View> sharedElements) { ViewParent parent = view.getParent(); boolean isNested = false; while (parent instanceof View) { View parentView = (View) parent; if (sharedElements.containsValue(parentView)) { isNested = true; break; } parent = parentView.getParent(); } return isNested; } protected void stripOffscreenViews() { if (mTransitioningViews == null) { return; } Rect r = new Rect(); for (int i = mTransitioningViews.size() - 1; i >= 0; i--) { View view = mTransitioningViews.get(i); if (!view.getGlobalVisibleRect(r)) { mTransitioningViews.remove(i); showView(view, true); } } } protected Window getWindow() { return mWindow; } public ViewGroup getDecor() { return (mWindow == null) ? null : (ViewGroup) mWindow.getDecorView(); } /** * Sets the transition epicenter to the position of the first shared element. */ protected void setEpicenter() { View epicenter = null; if (!mAllSharedElementNames.isEmpty() && !mSharedElementNames.isEmpty()) { int index = mSharedElementNames.indexOf(mAllSharedElementNames.get(0)); if (index >= 0) { epicenter = mSharedElements.get(index); } } setEpicenter(epicenter); } private void setEpicenter(View view) { if (view == null) { mEpicenterCallback.setEpicenter(null); } else { Rect epicenter = new Rect(); view.getBoundsOnScreen(epicenter); mEpicenterCallback.setEpicenter(epicenter); } } public ArrayList<String> getAcceptedNames() { return mSharedElementNames; } public ArrayList<String> getMappedNames() { ArrayList<String> names = new ArrayList<String>(mSharedElements.size()); for (int i = 0; i < mSharedElements.size(); i++) { names.add(mSharedElements.get(i).getTransitionName()); } return names; } public ArrayList<View> copyMappedViews() { return new ArrayList<View>(mSharedElements); } public ArrayList<String> getAllSharedElementNames() { return mAllSharedElementNames; } protected Transition setTargets(Transition transition, boolean add) { if (transition == null || (add && (mTransitioningViews == null || mTransitioningViews.isEmpty()))) { return null; } // Add the targets to a set containing transition so that transition // remains unaffected. We don't want to modify the targets of transition itself. TransitionSet set = new TransitionSet(); if (mTransitioningViews != null) { for (int i = mTransitioningViews.size() - 1; i >= 0; i--) { View view = mTransitioningViews.get(i); if (add) { set.addTarget(view); } else { set.excludeTarget(view, true); } } } // By adding the transition after addTarget, we prevent addTarget from // affecting transition. set.addTransition(transition); if (!add && mTransitioningViews != null && !mTransitioningViews.isEmpty()) { // Allow children of excluded transitioning views, but not the views themselves set = new TransitionSet().addTransition(set); } return set; } protected Transition configureTransition(Transition transition, boolean includeTransitioningViews) { if (transition != null) { transition = transition.clone(); transition.setEpicenterCallback(mEpicenterCallback); transition = setTargets(transition, includeTransitioningViews); } return transition; } protected static Transition mergeTransitions(Transition transition1, Transition transition2) { if (transition1 == null) { return transition2; } else if (transition2 == null) { return transition1; } else { TransitionSet transitionSet = new TransitionSet(); transitionSet.addTransition(transition1); transitionSet.addTransition(transition2); return transitionSet; } } protected ArrayMap<String, View> mapSharedElements(ArrayList<String> accepted, ArrayList<View> localViews) { ArrayMap<String, View> sharedElements = new ArrayMap<String, View>(); if (accepted != null) { for (int i = 0; i < accepted.size(); i++) { sharedElements.put(accepted.get(i), localViews.get(i)); } } else { ViewGroup decorView = getDecor(); if (decorView != null) { decorView.findNamedViews(sharedElements); } } return sharedElements; } protected void setResultReceiver(ResultReceiver resultReceiver) { mResultReceiver = resultReceiver; } protected abstract Transition getViewsTransition(); private void setSharedElementState(View view, String name, Bundle transitionArgs, Matrix tempMatrix, RectF tempRect, int[] decorLoc) { Bundle sharedElementBundle = transitionArgs.getBundle(name); if (sharedElementBundle == null) { return; } if (view instanceof ImageView) { int scaleTypeInt = sharedElementBundle.getInt(KEY_SCALE_TYPE, -1); if (scaleTypeInt >= 0) { ImageView imageView = (ImageView) view; ImageView.ScaleType scaleType = SCALE_TYPE_VALUES[scaleTypeInt]; imageView.setScaleType(scaleType); if (scaleType == ImageView.ScaleType.MATRIX) { float[] matrixValues = sharedElementBundle.getFloatArray(KEY_IMAGE_MATRIX); tempMatrix.setValues(matrixValues); imageView.setImageMatrix(tempMatrix); } } } float z = sharedElementBundle.getFloat(KEY_TRANSLATION_Z); view.setTranslationZ(z); float elevation = sharedElementBundle.getFloat(KEY_ELEVATION); view.setElevation(elevation); float left = sharedElementBundle.getFloat(KEY_SCREEN_LEFT); float top = sharedElementBundle.getFloat(KEY_SCREEN_TOP); float right = sharedElementBundle.getFloat(KEY_SCREEN_RIGHT); float bottom = sharedElementBundle.getFloat(KEY_SCREEN_BOTTOM); if (decorLoc != null) { left -= decorLoc[0]; top -= decorLoc[1]; right -= decorLoc[0]; bottom -= decorLoc[1]; } else { // Find the location in the view's parent getSharedElementParentMatrix(view, tempMatrix); tempRect.set(left, top, right, bottom); tempMatrix.mapRect(tempRect); float leftInParent = tempRect.left; float topInParent = tempRect.top; // Find the size of the view view.getInverseMatrix().mapRect(tempRect); float width = tempRect.width(); float height = tempRect.height(); // Now determine the offset due to view transform: view.setLeft(0); view.setTop(0); view.setRight(Math.round(width)); view.setBottom(Math.round(height)); tempRect.set(0, 0, width, height); view.getMatrix().mapRect(tempRect); left = leftInParent - tempRect.left; top = topInParent - tempRect.top; right = left + width; bottom = top + height; } int x = Math.round(left); int y = Math.round(top); int width = Math.round(right) - x; int height = Math.round(bottom) - y; int widthSpec = View.MeasureSpec.makeMeasureSpec(width, View.MeasureSpec.EXACTLY); int heightSpec = View.MeasureSpec.makeMeasureSpec(height, View.MeasureSpec.EXACTLY); view.measure(widthSpec, heightSpec); view.layout(x, y, x + width, y + height); } private void setSharedElementMatrices() { int numSharedElements = mSharedElements.size(); if (numSharedElements > 0) { mSharedElementParentMatrices = new ArrayList<Matrix>(numSharedElements); } for (int i = 0; i < numSharedElements; i++) { View view = mSharedElements.get(i); // Find the location in the view's parent ViewGroup parent = (ViewGroup) view.getParent(); Matrix matrix = new Matrix(); parent.transformMatrixToLocal(matrix); matrix.postTranslate(parent.getScrollX(), parent.getScrollY()); mSharedElementParentMatrices.add(matrix); } } private void getSharedElementParentMatrix(View view, Matrix matrix) { final int index = mSharedElementParentMatrices == null ? -1 : mSharedElements.indexOf(view); if (index < 0) { matrix.reset(); ViewParent viewParent = view.getParent(); if (viewParent instanceof ViewGroup) { // Find the location in the view's parent ViewGroup parent = (ViewGroup) viewParent; parent.transformMatrixToLocal(matrix); matrix.postTranslate(parent.getScrollX(), parent.getScrollY()); } } else { // The indices of mSharedElementParentMatrices matches the // mSharedElement matrices. Matrix parentMatrix = mSharedElementParentMatrices.get(index); matrix.set(parentMatrix); } } protected ArrayList<SharedElementOriginalState> setSharedElementState( Bundle sharedElementState, final ArrayList<View> snapshots) { ArrayList<SharedElementOriginalState> originalImageState = new ArrayList<SharedElementOriginalState>(); if (sharedElementState != null) { Matrix tempMatrix = new Matrix(); RectF tempRect = new RectF(); final int numSharedElements = mSharedElements.size(); for (int i = 0; i < numSharedElements; i++) { View sharedElement = mSharedElements.get(i); String name = mSharedElementNames.get(i); SharedElementOriginalState originalState = getOldSharedElementState(sharedElement, name, sharedElementState); originalImageState.add(originalState); setSharedElementState(sharedElement, name, sharedElementState, tempMatrix, tempRect, null); } } if (mListener != null) { mListener.onSharedElementStart(mSharedElementNames, mSharedElements, snapshots); } return originalImageState; } protected void notifySharedElementEnd(ArrayList<View> snapshots) { if (mListener != null) { mListener.onSharedElementEnd(mSharedElementNames, mSharedElements, snapshots); } } protected void scheduleSetSharedElementEnd(final ArrayList<View> snapshots) { final View decorView = getDecor(); if (decorView != null) { decorView.getViewTreeObserver().addOnPreDrawListener( new ViewTreeObserver.OnPreDrawListener() { @Override public boolean onPreDraw() { decorView.getViewTreeObserver().removeOnPreDrawListener(this); notifySharedElementEnd(snapshots); return true; } } ); } } private static SharedElementOriginalState getOldSharedElementState(View view, String name, Bundle transitionArgs) { SharedElementOriginalState state = new SharedElementOriginalState(); state.mLeft = view.getLeft(); state.mTop = view.getTop(); state.mRight = view.getRight(); state.mBottom = view.getBottom(); state.mMeasuredWidth = view.getMeasuredWidth(); state.mMeasuredHeight = view.getMeasuredHeight(); state.mTranslationZ = view.getTranslationZ(); state.mElevation = view.getElevation(); if (!(view instanceof ImageView)) { return state; } Bundle bundle = transitionArgs.getBundle(name); if (bundle == null) { return state; } int scaleTypeInt = bundle.getInt(KEY_SCALE_TYPE, -1); if (scaleTypeInt < 0) { return state; } ImageView imageView = (ImageView) view; state.mScaleType = imageView.getScaleType(); if (state.mScaleType == ImageView.ScaleType.MATRIX) { state.mMatrix = new Matrix(imageView.getImageMatrix()); } return state; } protected ArrayList<View> createSnapshots(Bundle state, Collection<String> names) { int numSharedElements = names.size(); ArrayList<View> snapshots = new ArrayList<View>(numSharedElements); if (numSharedElements == 0) { return snapshots; } Context context = getWindow().getContext(); int[] decorLoc = new int[2]; ViewGroup decorView = getDecor(); if (decorView != null) { decorView.getLocationOnScreen(decorLoc); } Matrix tempMatrix = new Matrix(); for (String name: names) { Bundle sharedElementBundle = state.getBundle(name); View snapshot = null; if (sharedElementBundle != null) { Parcelable parcelable = sharedElementBundle.getParcelable(KEY_SNAPSHOT); if (parcelable != null && mListener != null) { snapshot = mListener.onCreateSnapshotView(context, parcelable); } if (snapshot != null) { setSharedElementState(snapshot, name, state, tempMatrix, null, decorLoc); } } // Even null snapshots are added so they remain in the same order as shared elements. snapshots.add(snapshot); } return snapshots; } protected static void setOriginalSharedElementState(ArrayList<View> sharedElements, ArrayList<SharedElementOriginalState> originalState) { for (int i = 0; i < originalState.size(); i++) { View view = sharedElements.get(i); SharedElementOriginalState state = originalState.get(i); if (view instanceof ImageView && state.mScaleType != null) { ImageView imageView = (ImageView) view; imageView.setScaleType(state.mScaleType); if (state.mScaleType == ImageView.ScaleType.MATRIX) { imageView.setImageMatrix(state.mMatrix); } } view.setElevation(state.mElevation); view.setTranslationZ(state.mTranslationZ); int widthSpec = View.MeasureSpec.makeMeasureSpec(state.mMeasuredWidth, View.MeasureSpec.EXACTLY); int heightSpec = View.MeasureSpec.makeMeasureSpec(state.mMeasuredHeight, View.MeasureSpec.EXACTLY); view.measure(widthSpec, heightSpec); view.layout(state.mLeft, state.mTop, state.mRight, state.mBottom); } } protected Bundle captureSharedElementState() { Bundle bundle = new Bundle(); RectF tempBounds = new RectF(); Matrix tempMatrix = new Matrix(); for (int i = 0; i < mSharedElements.size(); i++) { View sharedElement = mSharedElements.get(i); String name = mSharedElementNames.get(i); captureSharedElementState(sharedElement, name, bundle, tempMatrix, tempBounds); } return bundle; } protected void clearState() { // Clear the state so that we can't hold any references accidentally and leak memory. mWindow = null; mSharedElements.clear(); mTransitioningViews = null; mOriginalAlphas.clear(); mResultReceiver = null; mPendingTransition = null; mListener = null; mSharedElementParentMatrices = null; } protected long getFadeDuration() { return getWindow().getTransitionBackgroundFadeDuration(); } protected void hideViews(ArrayList<View> views) { int count = views.size(); for (int i = 0; i < count; i++) { View view = views.get(i); if (!mOriginalAlphas.containsKey(view)) { mOriginalAlphas.put(view, view.getAlpha()); } view.setAlpha(0f); } } protected void showViews(ArrayList<View> views, boolean setTransitionAlpha) { int count = views.size(); for (int i = 0; i < count; i++) { showView(views.get(i), setTransitionAlpha); } } private void showView(View view, boolean setTransitionAlpha) { Float alpha = mOriginalAlphas.remove(view); if (alpha != null) { view.setAlpha(alpha); } if (setTransitionAlpha) { view.setTransitionAlpha(1f); } } /** * Captures placement information for Views with a shared element name for * Activity Transitions. * * @param view The View to capture the placement information for. * @param name The shared element name in the target Activity to apply the placement * information for. * @param transitionArgs Bundle to store shared element placement information. * @param tempBounds A temporary Rect for capturing the current location of views. */ protected void captureSharedElementState(View view, String name, Bundle transitionArgs, Matrix tempMatrix, RectF tempBounds) { Bundle sharedElementBundle = new Bundle(); tempMatrix.reset(); view.transformMatrixToGlobal(tempMatrix); tempBounds.set(0, 0, view.getWidth(), view.getHeight()); tempMatrix.mapRect(tempBounds); sharedElementBundle.putFloat(KEY_SCREEN_LEFT, tempBounds.left); sharedElementBundle.putFloat(KEY_SCREEN_RIGHT, tempBounds.right); sharedElementBundle.putFloat(KEY_SCREEN_TOP, tempBounds.top); sharedElementBundle.putFloat(KEY_SCREEN_BOTTOM, tempBounds.bottom); sharedElementBundle.putFloat(KEY_TRANSLATION_Z, view.getTranslationZ()); sharedElementBundle.putFloat(KEY_ELEVATION, view.getElevation()); Parcelable bitmap = null; if (mListener != null) { bitmap = mListener.onCaptureSharedElementSnapshot(view, tempMatrix, tempBounds); } if (bitmap != null) { sharedElementBundle.putParcelable(KEY_SNAPSHOT, bitmap); } if (view instanceof ImageView) { ImageView imageView = (ImageView) view; int scaleTypeInt = scaleTypeToInt(imageView.getScaleType()); sharedElementBundle.putInt(KEY_SCALE_TYPE, scaleTypeInt); if (imageView.getScaleType() == ImageView.ScaleType.MATRIX) { float[] matrix = new float[9]; imageView.getImageMatrix().getValues(matrix); sharedElementBundle.putFloatArray(KEY_IMAGE_MATRIX, matrix); } } transitionArgs.putBundle(name, sharedElementBundle); } protected void startTransition(Runnable runnable) { if (mIsStartingTransition) { mPendingTransition = runnable; } else { mIsStartingTransition = true; runnable.run(); } } protected void transitionStarted() { mIsStartingTransition = false; } /** * Cancels any pending transitions and returns true if there is a transition is in * the middle of starting. */ protected boolean cancelPendingTransitions() { mPendingTransition = null; return mIsStartingTransition; } protected void moveSharedElementsToOverlay() { if (mWindow == null || !mWindow.getSharedElementsUseOverlay()) { return; } setSharedElementMatrices(); int numSharedElements = mSharedElements.size(); ViewGroup decor = getDecor(); if (decor != null) { boolean moveWithParent = moveSharedElementWithParent(); Matrix tempMatrix = new Matrix(); for (int i = 0; i < numSharedElements; i++) { View view = mSharedElements.get(i); tempMatrix.reset(); mSharedElementParentMatrices.get(i).invert(tempMatrix); GhostView.addGhost(view, decor, tempMatrix); ViewGroup parent = (ViewGroup) view.getParent(); if (moveWithParent && !isInTransitionGroup(parent, decor)) { GhostViewListeners listener = new GhostViewListeners(view, parent, decor); parent.getViewTreeObserver().addOnPreDrawListener(listener); mGhostViewListeners.add(listener); } } } } protected boolean moveSharedElementWithParent() { return true; } public static boolean isInTransitionGroup(ViewParent viewParent, ViewGroup decor) { if (viewParent == decor || !(viewParent instanceof ViewGroup)) { return false; } ViewGroup parent = (ViewGroup) viewParent; if (parent.isTransitionGroup()) { return true; } else { return isInTransitionGroup(parent.getParent(), decor); } } protected void moveSharedElementsFromOverlay() { int numListeners = mGhostViewListeners.size(); for (int i = 0; i < numListeners; i++) { GhostViewListeners listener = mGhostViewListeners.get(i); ViewGroup parent = (ViewGroup) listener.getView().getParent(); parent.getViewTreeObserver().removeOnPreDrawListener(listener); } mGhostViewListeners.clear(); if (mWindow == null || !mWindow.getSharedElementsUseOverlay()) { return; } ViewGroup decor = getDecor(); if (decor != null) { ViewGroupOverlay overlay = decor.getOverlay(); int count = mSharedElements.size(); for (int i = 0; i < count; i++) { View sharedElement = mSharedElements.get(i); GhostView.removeGhost(sharedElement); } } } protected void setGhostVisibility(int visibility) { int numSharedElements = mSharedElements.size(); for (int i = 0; i < numSharedElements; i++) { GhostView ghostView = GhostView.getGhost(mSharedElements.get(i)); if (ghostView != null) { ghostView.setVisibility(visibility); } } } protected void scheduleGhostVisibilityChange(final int visibility) { final View decorView = getDecor(); if (decorView != null) { decorView.getViewTreeObserver() .addOnPreDrawListener(new ViewTreeObserver.OnPreDrawListener() { @Override public boolean onPreDraw() { decorView.getViewTreeObserver().removeOnPreDrawListener(this); setGhostVisibility(visibility); return true; } }); } } protected boolean isViewsTransitionComplete() { return mViewsTransitionComplete; } protected void viewsTransitionComplete() { mViewsTransitionComplete = true; startInputWhenTransitionsComplete(); } protected void sharedElementTransitionComplete() { mSharedElementTransitionComplete = true; startInputWhenTransitionsComplete(); } private void startInputWhenTransitionsComplete() { if (mViewsTransitionComplete && mSharedElementTransitionComplete) { final View decor = getDecor(); if (decor != null) { final ViewRootImpl viewRoot = decor.getViewRootImpl(); viewRoot.setPausedForTransition(false); } onTransitionsComplete(); } } protected void pauseInput() { final View decor = getDecor(); final ViewRootImpl viewRoot = decor == null ? null : decor.getViewRootImpl(); if (viewRoot != null) { viewRoot.setPausedForTransition(true); } } protected void onTransitionsComplete() {} protected class ContinueTransitionListener extends Transition.TransitionListenerAdapter { @Override public void onTransitionStart(Transition transition) { mIsStartingTransition = false; Runnable pending = mPendingTransition; mPendingTransition = null; if (pending != null) { startTransition(pending); } } } private static int scaleTypeToInt(ImageView.ScaleType scaleType) { for (int i = 0; i < SCALE_TYPE_VALUES.length; i++) { if (scaleType == SCALE_TYPE_VALUES[i]) { return i; } } return -1; } private static class FixedEpicenterCallback extends Transition.EpicenterCallback { private Rect mEpicenter; public void setEpicenter(Rect epicenter) { mEpicenter = epicenter; } @Override public Rect onGetEpicenter(Transition transition) { return mEpicenter; } } private static class GhostViewListeners implements ViewTreeObserver.OnPreDrawListener { private View mView; private ViewGroup mDecor; private View mParent; private Matrix mMatrix = new Matrix(); public GhostViewListeners(View view, View parent, ViewGroup decor) { mView = view; mParent = parent; mDecor = decor; } public View getView() { return mView; } @Override public boolean onPreDraw() { GhostView ghostView = GhostView.getGhost(mView); if (ghostView == null) { mParent.getViewTreeObserver().removeOnPreDrawListener(this); } else { GhostView.calculateMatrix(mView, mDecor, mMatrix); ghostView.setMatrix(mMatrix); } return true; } } static class SharedElementOriginalState { int mLeft; int mTop; int mRight; int mBottom; int mMeasuredWidth; int mMeasuredHeight; ImageView.ScaleType mScaleType; Matrix mMatrix; float mTranslationZ; float mElevation; } }