Merge "Add ability to filter remote animation adapter by activity type" into pi-dev

package android.view;

import static android.app.WindowConfiguration.ACTIVITY_TYPE_UNDEFINED;

import android.annotation.Nullable;

import android.app.WindowConfiguration;

import android.app.WindowConfiguration.ActivityType;

import android.os.Parcel;

import android.os.Parcelable;

import android.util.ArrayMap;

import android.util.ArraySet;

import android.util.SparseArray;

import android.view.WindowManager.TransitionType;

 */

public class RemoteAnimationDefinition implements Parcelable {

    private final SparseArray<RemoteAnimationAdapter> mTransitionAnimationMap;

    private final SparseArray<RemoteAnimationAdapterEntry> mTransitionAnimationMap;

    public RemoteAnimationDefinition() {

        mTransitionAnimationMap = new SparseArray<>();

     * Registers a remote animation for a specific transition.

     *

     * @param transition The transition type. Must be one of WindowManager.TRANSIT_* values.

     * @param activityTypeFilter The remote animation only runs if an activity with type of this

     *                           parameter is involved in the transition.

     * @param adapter The adapter that described how to run the remote animation.

     */

    public void addRemoteAnimation(@TransitionType int transition,

            @ActivityType int activityTypeFilter, RemoteAnimationAdapter adapter) {

        mTransitionAnimationMap.put(transition,

                new RemoteAnimationAdapterEntry(adapter, activityTypeFilter));

    }

    /**

     * Registers a remote animation for a specific transition without defining an activity type

     * filter.

     *

     * @param transition The transition type. Must be one of WindowManager.TRANSIT_* values.

     * @param adapter The adapter that described how to run the remote animation.

     */

    public void addRemoteAnimation(@TransitionType int transition, RemoteAnimationAdapter adapter) {

        mTransitionAnimationMap.put(transition, adapter);

        addRemoteAnimation(transition, ACTIVITY_TYPE_UNDEFINED, adapter);

    }

    /**

     * Checks whether a remote animation for specific transition is defined.

     *

     * @param transition The transition type. Must be one of WindowManager.TRANSIT_* values.

     * @param activityTypes The set of activity types of activities that are involved in the

     *                      transition. Will be used for filtering.

     * @return Whether this definition has defined a remote animation for the specified transition.

     */

    public boolean hasTransition(@TransitionType int transition) {

        return mTransitionAnimationMap.get(transition) != null;

    public boolean hasTransition(@TransitionType int transition, ArraySet<Integer> activityTypes) {

        return getAdapter(transition, activityTypes) != null;

    }

    /**

     * Retrieves the remote animation for a specific transition.

     *

     * @param transition The transition type. Must be one of WindowManager.TRANSIT_* values.

     * @param activityTypes The set of activity types of activities that are involved in the

     *                      transition. Will be used for filtering.

     * @return The remote animation adapter for the specified transition.

     */

    public @Nullable RemoteAnimationAdapter getAdapter(@TransitionType int transition) {

        return mTransitionAnimationMap.get(transition);

    public @Nullable RemoteAnimationAdapter getAdapter(@TransitionType int transition,

            ArraySet<Integer> activityTypes) {

        final RemoteAnimationAdapterEntry entry = mTransitionAnimationMap.get(transition);

        if (entry == null) {

            return null;

        }

        if (entry.activityTypeFilter == ACTIVITY_TYPE_UNDEFINED

                || activityTypes.contains(entry.activityTypeFilter)) {

            return entry.adapter;

        } else {

            return null;

        }

    }

    public RemoteAnimationDefinition(Parcel in) {

        mTransitionAnimationMap = in.readSparseArray(null /* loader */);

        final int size = in.readInt();

        mTransitionAnimationMap = new SparseArray<>(size);

        for (int i = 0; i < size; i++) {

            final int transition = in.readInt();

            final RemoteAnimationAdapterEntry entry = in.readTypedObject(

                    RemoteAnimationAdapterEntry.CREATOR);

            mTransitionAnimationMap.put(transition, entry);

        }

    }

    /**

     */

    public void setCallingPid(int pid) {

        for (int i = mTransitionAnimationMap.size() - 1; i >= 0; i--) {

            mTransitionAnimationMap.valueAt(i).setCallingPid(pid);

            mTransitionAnimationMap.valueAt(i).adapter.setCallingPid(pid);

        }

    }

    @Override

    public void writeToParcel(Parcel dest, int flags) {

        dest.writeSparseArray((SparseArray) mTransitionAnimationMap);

        final int size = mTransitionAnimationMap.size();

        dest.writeInt(size);

        for (int i = 0; i < size; i++) {

            dest.writeInt(mTransitionAnimationMap.keyAt(i));

            dest.writeTypedObject(mTransitionAnimationMap.valueAt(i), flags);

        }

    }

    public static final Creator<RemoteAnimationDefinition> CREATOR =

            return new RemoteAnimationDefinition[size];

        }

    };

    private static class RemoteAnimationAdapterEntry implements Parcelable {

        final RemoteAnimationAdapter adapter;

        /**

         * Only run the transition if one of the activities matches the filter.

         * {@link WindowConfiguration.ACTIVITY_TYPE_UNDEFINED} means no filter

         */

        @ActivityType final int activityTypeFilter;

        RemoteAnimationAdapterEntry(RemoteAnimationAdapter adapter, int activityTypeFilter) {

            this.adapter = adapter;

            this.activityTypeFilter = activityTypeFilter;

        }

        private RemoteAnimationAdapterEntry(Parcel in) {

            adapter = in.readParcelable(RemoteAnimationAdapter.class.getClassLoader());

            activityTypeFilter = in.readInt();

        }

        @Override

        public void writeToParcel(Parcel dest, int flags) {

            dest.writeParcelable(adapter, flags);

            dest.writeInt(activityTypeFilter);

        }

        @Override

        public int describeContents() {

            return 0;

        }

        private static final Creator<RemoteAnimationAdapterEntry> CREATOR

                = new Creator<RemoteAnimationAdapterEntry>() {

            @Override

            public RemoteAnimationAdapterEntry createFromParcel(Parcel in) {

                return new RemoteAnimationAdapterEntry(in);

            }

            @Override

            public RemoteAnimationAdapterEntry[] newArray(int size) {

                return new RemoteAnimationAdapterEntry[size];

            }

        };

    }

}

        mWrapped.addRemoteAnimation(transition, adapter.getWrapped());

    }

    public void addRemoteAnimation(int transition, int activityTypeFilter,

            RemoteAnimationAdapterCompat adapter) {

        mWrapped.addRemoteAnimation(transition, activityTypeFilter, adapter.getWrapped());

    }

    RemoteAnimationDefinition getWrapped() {

        return mWrapped;

    }

import static android.view.Display.DEFAULT_DISPLAY;

import android.app.WindowConfiguration;

import android.graphics.Rect;

import android.os.Handler;

import android.os.RemoteException;

    public static final int TRANSIT_KEYGUARD_OCCLUDE = WindowManager.TRANSIT_KEYGUARD_OCCLUDE;

    public static final int TRANSIT_KEYGUARD_UNOCCLUDE = WindowManager.TRANSIT_KEYGUARD_UNOCCLUDE;

    public static final int ACTIVITY_TYPE_STANDARD = WindowConfiguration.ACTIVITY_TYPE_STANDARD;

    private static final WindowManagerWrapper sInstance = new WindowManagerWrapper();

    public static WindowManagerWrapper getInstance() {

import static com.android.server.wm.WindowManagerService.LAYOUT_REPEAT_THRESHOLD;

import static com.android.server.wm.WindowManagerService.UPDATE_FOCUS_PLACING_SURFACES;

import android.app.WindowConfiguration;

import android.os.Debug;

import android.os.Trace;

import android.util.ArraySet;

        // what will control the animation theme. If all closing windows are obscured, then there is

        // no need to do an animation. This is the case, for example, when this transition is being

        // done behind a dream window.

        final ArraySet<Integer> activityTypes = collectActivityTypes(mService.mOpeningApps,

                mService.mClosingApps);

        final AppWindowToken animLpToken = mService.mPolicy.allowAppAnimationsLw()

                ? findAnimLayoutParamsToken(transit)

                ? findAnimLayoutParamsToken(transit, activityTypes)

                : null;

        final LayoutParams animLp = getAnimLp(animLpToken);

        overrideWithRemoteAnimationIfSet(animLpToken, transit);

        overrideWithRemoteAnimationIfSet(animLpToken, transit, activityTypes);

        final boolean voiceInteraction = containsVoiceInteraction(mService.mOpeningApps)

                || containsVoiceInteraction(mService.mOpeningApps);

     * Overrides the pending transition with the remote animation defined for the transition in the

     * set of defined remote animations in the app window token.

     */

    private void overrideWithRemoteAnimationIfSet(AppWindowToken animLpToken, int transit) {

    private void overrideWithRemoteAnimationIfSet(AppWindowToken animLpToken, int transit,

            ArraySet<Integer> activityTypes) {

        if (animLpToken == null) {

            return;

        }

        final RemoteAnimationDefinition definition = animLpToken.getRemoteAnimationDefinition();

        if (definition != null) {

            final RemoteAnimationAdapter adapter = definition.getAdapter(transit);

            final RemoteAnimationAdapter adapter = definition.getAdapter(transit, activityTypes);

            if (adapter != null) {

                mService.mAppTransition.overridePendingAppTransitionRemote(adapter);

            }

    /**

     * @return The window token that determines the animation theme.

     */

    private AppWindowToken findAnimLayoutParamsToken(@TransitionType int transit) {

    private AppWindowToken findAnimLayoutParamsToken(@TransitionType int transit,

            ArraySet<Integer> activityTypes) {

        AppWindowToken result;

        // Remote animations always win, but fullscreen tokens override non-fullscreen tokens.

        result = lookForHighestTokenWithFilter(mService.mClosingApps, mService.mOpeningApps,

                w -> w.getRemoteAnimationDefinition() != null

                        && w.getRemoteAnimationDefinition().hasTransition(transit));

                        && w.getRemoteAnimationDefinition().hasTransition(transit, activityTypes));

        if (result != null) {

            return result;

        }

                w -> w.findMainWindow() != null);

    }

    /**

     * @return The set of {@link WindowConfiguration.ActivityType}s contained in the set of apps in

     *         {@code array1} and {@code array2}.

     */

    private ArraySet<Integer> collectActivityTypes(ArraySet<AppWindowToken> array1,

            ArraySet<AppWindowToken> array2) {

        final ArraySet<Integer> result = new ArraySet<>();

        for (int i = array1.size() - 1; i >= 0; i--) {

            result.add(array1.valueAt(i).getActivityType());

        }

        for (int i = array2.size() - 1; i >= 0; i--) {

            result.add(array2.valueAt(i).getActivityType());

        }

        return result;

    }

    private AppWindowToken lookForHighestTokenWithFilter(ArraySet<AppWindowToken> array1,

            ArraySet<AppWindowToken> array2, Predicate<AppWindowToken> filter) {

        final int array1count = array1.size();

        int bestPrefixOrderIndex = Integer.MIN_VALUE;

        AppWindowToken bestToken = null;

        for (int i = 0; i < count; i++) {

            final AppWindowToken wtoken;

            if (i < array1count) {

                wtoken = array1.valueAt(i);

            } else {

                wtoken = array2.valueAt(i - array1count);

            }

            final AppWindowToken wtoken = i < array1count

                    ? array1.valueAt(i)

                    : array2.valueAt(i - array1count);

            final int prefixOrderIndex = wtoken.getPrefixOrderIndex();

            if (filter.test(wtoken) && prefixOrderIndex > bestPrefixOrderIndex) {

                bestPrefixOrderIndex = prefixOrderIndex;