/* * Copyright (C) 2007 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.widget; import android.annotation.ColorInt; import android.annotation.DimenRes; import android.app.ActivityManager.StackId; import android.app.ActivityOptions; import android.app.ActivityThread; import android.app.Application; import android.app.PendingIntent; import android.app.RemoteInput; import android.appwidget.AppWidgetHostView; import android.content.Context; import android.content.ContextWrapper; import android.content.Intent; import android.content.IntentSender; import android.content.pm.ApplicationInfo; import android.content.pm.PackageManager.NameNotFoundException; import android.content.res.ColorStateList; import android.content.res.Configuration; import android.content.res.Resources; import android.content.res.TypedArray; import android.graphics.Bitmap; import android.graphics.PorterDuff; import android.graphics.Rect; import android.graphics.drawable.Drawable; import android.graphics.drawable.Icon; import android.net.Uri; import android.os.AsyncTask; import android.os.Binder; import android.os.Build; import android.os.Bundle; import android.os.CancellationSignal; import android.os.Parcel; import android.os.Parcelable; import android.os.Process; import android.os.StrictMode; import android.os.UserHandle; import android.text.TextUtils; import android.util.ArrayMap; import android.util.Log; import android.view.LayoutInflater; import android.view.LayoutInflater.Filter; import android.view.RemotableViewMethod; import android.view.View; import android.view.View.OnClickListener; import android.view.ViewGroup; import android.view.ViewStub; import android.widget.AdapterView.OnItemClickListener; import com.android.internal.R; import com.android.internal.util.Preconditions; import libcore.util.Objects; import java.lang.annotation.ElementType; import java.lang.annotation.Retention; import java.lang.annotation.RetentionPolicy; import java.lang.annotation.Target; import java.lang.reflect.Method; import java.util.ArrayList; import java.util.HashMap; import java.util.concurrent.Executor; /** * A class that describes a view hierarchy that can be displayed in * another process. The hierarchy is inflated from a layout resource * file, and this class provides some basic operations for modifying * the content of the inflated hierarchy. */ public class RemoteViews implements Parcelable, Filter { private static final String LOG_TAG = "RemoteViews"; /** * The intent extra that contains the appWidgetId. * @hide */ static final String EXTRA_REMOTEADAPTER_APPWIDGET_ID = "remoteAdapterAppWidgetId"; /** * Maximum depth of nested views calls from {@link #addView(int, RemoteViews)} and * {@link #RemoteViews(RemoteViews, RemoteViews)}. */ private static final int MAX_NESTED_VIEWS = 10; /** * Application that hosts the remote views. * * @hide */ private ApplicationInfo mApplication; /** * The resource ID of the layout file. (Added to the parcel) */ private final int mLayoutId; /** * An array of actions to perform on the view tree once it has been * inflated */ private ArrayList mActions; /** * A class to keep track of memory usage by this RemoteViews */ private MemoryUsageCounter mMemoryUsageCounter; /** * Maps bitmaps to unique indicies to avoid Bitmap duplication. */ private BitmapCache mBitmapCache; /** * Indicates whether or not this RemoteViews object is contained as a child of any other * RemoteViews. */ private boolean mIsRoot = true; /** * Constants to whether or not this RemoteViews is composed of a landscape and portrait * RemoteViews. */ private static final int MODE_NORMAL = 0; private static final int MODE_HAS_LANDSCAPE_AND_PORTRAIT = 1; /** * Used in conjunction with the special constructor * {@link #RemoteViews(RemoteViews, RemoteViews)} to keep track of the landscape and portrait * RemoteViews. */ private RemoteViews mLandscape = null; private RemoteViews mPortrait = null; /** * This flag indicates whether this RemoteViews object is being created from a * RemoteViewsService for use as a child of a widget collection. This flag is used * to determine whether or not certain features are available, in particular, * setting on click extras and setting on click pending intents. The former is enabled, * and the latter disabled when this flag is true. */ private boolean mIsWidgetCollectionChild = false; private static final OnClickHandler DEFAULT_ON_CLICK_HANDLER = new OnClickHandler(); private static final Object[] sMethodsLock = new Object[0]; private static final ArrayMap, ArrayMap>, Method>> sMethods = new ArrayMap, ArrayMap>, Method>>(); private static final ArrayMap sAsyncMethods = new ArrayMap<>(); private static final ThreadLocal sInvokeArgsTls = new ThreadLocal() { @Override protected Object[] initialValue() { return new Object[1]; } }; /** * @hide */ public void setRemoteInputs(int viewId, RemoteInput[] remoteInputs) { mActions.add(new SetRemoteInputsAction(viewId, remoteInputs)); } /** * Handle with care! */ static class MutablePair { F first; S second; MutablePair(F first, S second) { this.first = first; this.second = second; } @Override public boolean equals(Object o) { if (!(o instanceof MutablePair)) { return false; } MutablePair p = (MutablePair) o; return Objects.equal(p.first, first) && Objects.equal(p.second, second); } @Override public int hashCode() { return (first == null ? 0 : first.hashCode()) ^ (second == null ? 0 : second.hashCode()); } } /** * This pair is used to perform lookups in sMethods without causing allocations. */ private final MutablePair> mPair = new MutablePair>(null, null); /** * This annotation indicates that a subclass of View is allowed to be used * with the {@link RemoteViews} mechanism. */ @Target({ ElementType.TYPE }) @Retention(RetentionPolicy.RUNTIME) public @interface RemoteView { } /** * Exception to send when something goes wrong executing an action * */ public static class ActionException extends RuntimeException { public ActionException(Exception ex) { super(ex); } public ActionException(String message) { super(message); } } /** @hide */ public static class OnClickHandler { private int mEnterAnimationId; public boolean onClickHandler(View view, PendingIntent pendingIntent, Intent fillInIntent) { return onClickHandler(view, pendingIntent, fillInIntent, StackId.INVALID_STACK_ID); } public boolean onClickHandler(View view, PendingIntent pendingIntent, Intent fillInIntent, int launchStackId) { try { // TODO: Unregister this handler if PendingIntent.FLAG_ONE_SHOT? Context context = view.getContext(); ActivityOptions opts; if (mEnterAnimationId != 0) { opts = ActivityOptions.makeCustomAnimation(context, mEnterAnimationId, 0); } else { opts = ActivityOptions.makeBasic(); } if (launchStackId != StackId.INVALID_STACK_ID) { opts.setLaunchStackId(launchStackId); } context.startIntentSender( pendingIntent.getIntentSender(), fillInIntent, Intent.FLAG_ACTIVITY_NEW_TASK, Intent.FLAG_ACTIVITY_NEW_TASK, 0, opts.toBundle()); } catch (IntentSender.SendIntentException e) { android.util.Log.e(LOG_TAG, "Cannot send pending intent: ", e); return false; } catch (Exception e) { android.util.Log.e(LOG_TAG, "Cannot send pending intent due to " + "unknown exception: ", e); return false; } return true; } public void setEnterAnimationId(int enterAnimationId) { mEnterAnimationId = enterAnimationId; } } /** * Base class for all actions that can be performed on an * inflated view. * * SUBCLASSES MUST BE IMMUTABLE SO CLONE WORKS!!!!! */ private abstract static class Action implements Parcelable { public abstract void apply(View root, ViewGroup rootParent, OnClickHandler handler) throws ActionException; public static final int MERGE_REPLACE = 0; public static final int MERGE_APPEND = 1; public static final int MERGE_IGNORE = 2; public int describeContents() { return 0; } /** * Overridden by each class to report on it's own memory usage */ public void updateMemoryUsageEstimate(MemoryUsageCounter counter) { // We currently only calculate Bitmap memory usage, so by default, // don't do anything here } public void setBitmapCache(BitmapCache bitmapCache) { // Do nothing } public int mergeBehavior() { return MERGE_REPLACE; } public abstract String getActionName(); public String getUniqueKey() { return (getActionName() + viewId); } /** * This is called on the background thread. It should perform any non-ui computations * and return the final action which will run on the UI thread. * Override this if some of the tasks can be performed async. */ public Action initActionAsync(ViewTree root, ViewGroup rootParent, OnClickHandler handler) { return this; } public boolean prefersAsyncApply() { return false; } /** * Overridden by subclasses which have (or inherit) an ApplicationInfo instance * as member variable */ public boolean hasSameAppInfo(ApplicationInfo parentInfo) { return true; } int viewId; } /** * Action class used during async inflation of RemoteViews. Subclasses are not parcelable. */ private static abstract class RuntimeAction extends Action { @Override public final String getActionName() { return "RuntimeAction"; } @Override public final void writeToParcel(Parcel dest, int flags) { throw new UnsupportedOperationException(); } } // Constant used during async execution. It is not parcelable. private static final Action ACTION_NOOP = new RuntimeAction() { @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { } }; /** * Merges the passed RemoteViews actions with this RemoteViews actions according to * action-specific merge rules. * * @param newRv * * @hide */ public void mergeRemoteViews(RemoteViews newRv) { if (newRv == null) return; // We first copy the new RemoteViews, as the process of merging modifies the way the actions // reference the bitmap cache. We don't want to modify the object as it may need to // be merged and applied multiple times. RemoteViews copy = newRv.clone(); HashMap map = new HashMap(); if (mActions == null) { mActions = new ArrayList(); } int count = mActions.size(); for (int i = 0; i < count; i++) { Action a = mActions.get(i); map.put(a.getUniqueKey(), a); } ArrayList newActions = copy.mActions; if (newActions == null) return; count = newActions.size(); for (int i = 0; i < count; i++) { Action a = newActions.get(i); String key = newActions.get(i).getUniqueKey(); int mergeBehavior = newActions.get(i).mergeBehavior(); if (map.containsKey(key) && mergeBehavior == Action.MERGE_REPLACE) { mActions.remove(map.get(key)); map.remove(key); } // If the merge behavior is ignore, we don't bother keeping the extra action if (mergeBehavior == Action.MERGE_REPLACE || mergeBehavior == Action.MERGE_APPEND) { mActions.add(a); } } // Because pruning can remove the need for bitmaps, we reconstruct the bitmap cache mBitmapCache = new BitmapCache(); setBitmapCache(mBitmapCache); recalculateMemoryUsage(); } private static class RemoteViewsContextWrapper extends ContextWrapper { private final Context mContextForResources; RemoteViewsContextWrapper(Context context, Context contextForResources) { super(context); mContextForResources = contextForResources; } @Override public Resources getResources() { return mContextForResources.getResources(); } @Override public Resources.Theme getTheme() { return mContextForResources.getTheme(); } @Override public String getPackageName() { return mContextForResources.getPackageName(); } } private class SetEmptyView extends Action { int viewId; int emptyViewId; public final static int TAG = 6; SetEmptyView(int viewId, int emptyViewId) { this.viewId = viewId; this.emptyViewId = emptyViewId; } SetEmptyView(Parcel in) { this.viewId = in.readInt(); this.emptyViewId = in.readInt(); } public void writeToParcel(Parcel out, int flags) { out.writeInt(TAG); out.writeInt(this.viewId); out.writeInt(this.emptyViewId); } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final View view = root.findViewById(viewId); if (!(view instanceof AdapterView)) return; AdapterView adapterView = (AdapterView) view; final View emptyView = root.findViewById(emptyViewId); if (emptyView == null) return; adapterView.setEmptyView(emptyView); } public String getActionName() { return "SetEmptyView"; } } private class SetOnClickFillInIntent extends Action { public SetOnClickFillInIntent(int id, Intent fillInIntent) { this.viewId = id; this.fillInIntent = fillInIntent; } public SetOnClickFillInIntent(Parcel parcel) { viewId = parcel.readInt(); fillInIntent = Intent.CREATOR.createFromParcel(parcel); } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); fillInIntent.writeToParcel(dest, 0 /* no flags */); } @Override public void apply(View root, ViewGroup rootParent, final OnClickHandler handler) { final View target = root.findViewById(viewId); if (target == null) return; if (!mIsWidgetCollectionChild) { Log.e(LOG_TAG, "The method setOnClickFillInIntent is available " + "only from RemoteViewsFactory (ie. on collection items)."); return; } if (target == root) { target.setTagInternal(com.android.internal.R.id.fillInIntent, fillInIntent); } else if (fillInIntent != null) { OnClickListener listener = new OnClickListener() { public void onClick(View v) { // Insure that this view is a child of an AdapterView View parent = (View) v.getParent(); // Break the for loop on the first encounter of: // 1) an AdapterView, // 2) an AppWidgetHostView that is not a RemoteViewsFrameLayout, or // 3) a null parent. // 2) and 3) are unexpected and catch the case where a child is not // correctly parented in an AdapterView. while (parent != null && !(parent instanceof AdapterView) && !((parent instanceof AppWidgetHostView) && !(parent instanceof RemoteViewsAdapter.RemoteViewsFrameLayout))) { parent = (View) parent.getParent(); } if (!(parent instanceof AdapterView)) { // Somehow they've managed to get this far without having // and AdapterView as a parent. Log.e(LOG_TAG, "Collection item doesn't have AdapterView parent"); return; } // Insure that a template pending intent has been set on an ancestor if (!(parent.getTag() instanceof PendingIntent)) { Log.e(LOG_TAG, "Attempting setOnClickFillInIntent without" + " calling setPendingIntentTemplate on parent."); return; } PendingIntent pendingIntent = (PendingIntent) parent.getTag(); final Rect rect = getSourceBounds(v); fillInIntent.setSourceBounds(rect); handler.onClickHandler(v, pendingIntent, fillInIntent); } }; target.setOnClickListener(listener); } } public String getActionName() { return "SetOnClickFillInIntent"; } Intent fillInIntent; public final static int TAG = 9; } private class SetPendingIntentTemplate extends Action { public SetPendingIntentTemplate(int id, PendingIntent pendingIntentTemplate) { this.viewId = id; this.pendingIntentTemplate = pendingIntentTemplate; } public SetPendingIntentTemplate(Parcel parcel) { viewId = parcel.readInt(); pendingIntentTemplate = PendingIntent.readPendingIntentOrNullFromParcel(parcel); } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); pendingIntentTemplate.writeToParcel(dest, 0 /* no flags */); } @Override public void apply(View root, ViewGroup rootParent, final OnClickHandler handler) { final View target = root.findViewById(viewId); if (target == null) return; // If the view isn't an AdapterView, setting a PendingIntent template doesn't make sense if (target instanceof AdapterView) { AdapterView av = (AdapterView) target; // The PendingIntent template is stored in the view's tag. OnItemClickListener listener = new OnItemClickListener() { public void onItemClick(AdapterView parent, View view, int position, long id) { // The view should be a frame layout if (view instanceof ViewGroup) { ViewGroup vg = (ViewGroup) view; // AdapterViews contain their children in a frame // so we need to go one layer deeper here. if (parent instanceof AdapterViewAnimator) { vg = (ViewGroup) vg.getChildAt(0); } if (vg == null) return; Intent fillInIntent = null; int childCount = vg.getChildCount(); for (int i = 0; i < childCount; i++) { Object tag = vg.getChildAt(i).getTag(com.android.internal.R.id.fillInIntent); if (tag instanceof Intent) { fillInIntent = (Intent) tag; break; } } if (fillInIntent == null) return; final Rect rect = getSourceBounds(view); final Intent intent = new Intent(); intent.setSourceBounds(rect); handler.onClickHandler(view, pendingIntentTemplate, fillInIntent); } } }; av.setOnItemClickListener(listener); av.setTag(pendingIntentTemplate); } else { Log.e(LOG_TAG, "Cannot setPendingIntentTemplate on a view which is not" + "an AdapterView (id: " + viewId + ")"); return; } } public String getActionName() { return "SetPendingIntentTemplate"; } PendingIntent pendingIntentTemplate; public final static int TAG = 8; } private class SetRemoteViewsAdapterList extends Action { public SetRemoteViewsAdapterList(int id, ArrayList list, int viewTypeCount) { this.viewId = id; this.list = list; this.viewTypeCount = viewTypeCount; } public SetRemoteViewsAdapterList(Parcel parcel) { viewId = parcel.readInt(); viewTypeCount = parcel.readInt(); int count = parcel.readInt(); list = new ArrayList(); for (int i = 0; i < count; i++) { RemoteViews rv = RemoteViews.CREATOR.createFromParcel(parcel); list.add(rv); } } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); dest.writeInt(viewTypeCount); if (list == null || list.size() == 0) { dest.writeInt(0); } else { int count = list.size(); dest.writeInt(count); for (int i = 0; i < count; i++) { RemoteViews rv = list.get(i); rv.writeToParcel(dest, flags); } } } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final View target = root.findViewById(viewId); if (target == null) return; // Ensure that we are applying to an AppWidget root if (!(rootParent instanceof AppWidgetHostView)) { Log.e(LOG_TAG, "SetRemoteViewsAdapterIntent action can only be used for " + "AppWidgets (root id: " + viewId + ")"); return; } // Ensure that we are calling setRemoteAdapter on an AdapterView that supports it if (!(target instanceof AbsListView) && !(target instanceof AdapterViewAnimator)) { Log.e(LOG_TAG, "Cannot setRemoteViewsAdapter on a view which is not " + "an AbsListView or AdapterViewAnimator (id: " + viewId + ")"); return; } if (target instanceof AbsListView) { AbsListView v = (AbsListView) target; Adapter a = v.getAdapter(); if (a instanceof RemoteViewsListAdapter && viewTypeCount <= a.getViewTypeCount()) { ((RemoteViewsListAdapter) a).setViewsList(list); } else { v.setAdapter(new RemoteViewsListAdapter(v.getContext(), list, viewTypeCount)); } } else if (target instanceof AdapterViewAnimator) { AdapterViewAnimator v = (AdapterViewAnimator) target; Adapter a = v.getAdapter(); if (a instanceof RemoteViewsListAdapter && viewTypeCount <= a.getViewTypeCount()) { ((RemoteViewsListAdapter) a).setViewsList(list); } else { v.setAdapter(new RemoteViewsListAdapter(v.getContext(), list, viewTypeCount)); } } } public String getActionName() { return "SetRemoteViewsAdapterList"; } int viewTypeCount; ArrayList list; public final static int TAG = 15; } private class SetRemoteViewsAdapterIntent extends Action { public SetRemoteViewsAdapterIntent(int id, Intent intent) { this.viewId = id; this.intent = intent; } public SetRemoteViewsAdapterIntent(Parcel parcel) { viewId = parcel.readInt(); intent = Intent.CREATOR.createFromParcel(parcel); } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); intent.writeToParcel(dest, flags); } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final View target = root.findViewById(viewId); if (target == null) return; // Ensure that we are applying to an AppWidget root if (!(rootParent instanceof AppWidgetHostView)) { Log.e(LOG_TAG, "SetRemoteViewsAdapterIntent action can only be used for " + "AppWidgets (root id: " + viewId + ")"); return; } // Ensure that we are calling setRemoteAdapter on an AdapterView that supports it if (!(target instanceof AbsListView) && !(target instanceof AdapterViewAnimator)) { Log.e(LOG_TAG, "Cannot setRemoteViewsAdapter on a view which is not " + "an AbsListView or AdapterViewAnimator (id: " + viewId + ")"); return; } // Embed the AppWidget Id for use in RemoteViewsAdapter when connecting to the intent // RemoteViewsService AppWidgetHostView host = (AppWidgetHostView) rootParent; intent.putExtra(EXTRA_REMOTEADAPTER_APPWIDGET_ID, host.getAppWidgetId()); if (target instanceof AbsListView) { AbsListView v = (AbsListView) target; v.setRemoteViewsAdapter(intent, isAsync); v.setRemoteViewsOnClickHandler(handler); } else if (target instanceof AdapterViewAnimator) { AdapterViewAnimator v = (AdapterViewAnimator) target; v.setRemoteViewsAdapter(intent, isAsync); v.setRemoteViewsOnClickHandler(handler); } } @Override public Action initActionAsync(ViewTree root, ViewGroup rootParent, OnClickHandler handler) { SetRemoteViewsAdapterIntent copy = new SetRemoteViewsAdapterIntent(viewId, intent); copy.isAsync = true; return copy; } public String getActionName() { return "SetRemoteViewsAdapterIntent"; } Intent intent; boolean isAsync = false; public final static int TAG = 10; } /** * Equivalent to calling * {@link android.view.View#setOnClickListener(android.view.View.OnClickListener)} * to launch the provided {@link PendingIntent}. */ private class SetOnClickPendingIntent extends Action { public SetOnClickPendingIntent(int id, PendingIntent pendingIntent) { this.viewId = id; this.pendingIntent = pendingIntent; } public SetOnClickPendingIntent(Parcel parcel) { viewId = parcel.readInt(); // We check a flag to determine if the parcel contains a PendingIntent. if (parcel.readInt() != 0) { pendingIntent = PendingIntent.readPendingIntentOrNullFromParcel(parcel); } } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); // We use a flag to indicate whether the parcel contains a valid object. dest.writeInt(pendingIntent != null ? 1 : 0); if (pendingIntent != null) { pendingIntent.writeToParcel(dest, 0 /* no flags */); } } @Override public void apply(View root, ViewGroup rootParent, final OnClickHandler handler) { final View target = root.findViewById(viewId); if (target == null) return; // If the view is an AdapterView, setting a PendingIntent on click doesn't make much // sense, do they mean to set a PendingIntent template for the AdapterView's children? if (mIsWidgetCollectionChild) { Log.w(LOG_TAG, "Cannot setOnClickPendingIntent for collection item " + "(id: " + viewId + ")"); ApplicationInfo appInfo = root.getContext().getApplicationInfo(); // We let this slide for HC and ICS so as to not break compatibility. It should have // been disabled from the outset, but was left open by accident. if (appInfo != null && appInfo.targetSdkVersion >= Build.VERSION_CODES.JELLY_BEAN) { return; } } // If the pendingIntent is null, we clear the onClickListener OnClickListener listener = null; if (pendingIntent != null) { listener = new OnClickListener() { public void onClick(View v) { // Find target view location in screen coordinates and // fill into PendingIntent before sending. final Rect rect = getSourceBounds(v); final Intent intent = new Intent(); intent.setSourceBounds(rect); handler.onClickHandler(v, pendingIntent, intent); } }; } target.setOnClickListener(listener); } public String getActionName() { return "SetOnClickPendingIntent"; } PendingIntent pendingIntent; public final static int TAG = 1; } private static Rect getSourceBounds(View v) { final float appScale = v.getContext().getResources() .getCompatibilityInfo().applicationScale; final int[] pos = new int[2]; v.getLocationOnScreen(pos); final Rect rect = new Rect(); rect.left = (int) (pos[0] * appScale + 0.5f); rect.top = (int) (pos[1] * appScale + 0.5f); rect.right = (int) ((pos[0] + v.getWidth()) * appScale + 0.5f); rect.bottom = (int) ((pos[1] + v.getHeight()) * appScale + 0.5f); return rect; } private Method getMethod(View view, String methodName, Class paramType) { Method method; Class klass = view.getClass(); synchronized (sMethodsLock) { ArrayMap>, Method> methods = sMethods.get(klass); if (methods == null) { methods = new ArrayMap>, Method>(); sMethods.put(klass, methods); } mPair.first = methodName; mPair.second = paramType; method = methods.get(mPair); if (method == null) { try { if (paramType == null) { method = klass.getMethod(methodName); } else { method = klass.getMethod(methodName, paramType); } } catch (NoSuchMethodException ex) { throw new ActionException("view: " + klass.getName() + " doesn't have method: " + methodName + getParameters(paramType)); } if (!method.isAnnotationPresent(RemotableViewMethod.class)) { throw new ActionException("view: " + klass.getName() + " can't use method with RemoteViews: " + methodName + getParameters(paramType)); } methods.put(new MutablePair>(methodName, paramType), method); } } return method; } /** * @return the async implementation of the provided method. */ private Method getAsyncMethod(Method method) { synchronized (sAsyncMethods) { int valueIndex = sAsyncMethods.indexOfKey(method); if (valueIndex >= 0) { return sAsyncMethods.valueAt(valueIndex); } RemotableViewMethod annotation = method.getAnnotation(RemotableViewMethod.class); Method asyncMethod = null; if (!annotation.asyncImpl().isEmpty()) { try { asyncMethod = method.getDeclaringClass() .getMethod(annotation.asyncImpl(), method.getParameterTypes()); if (!asyncMethod.getReturnType().equals(Runnable.class)) { throw new ActionException("Async implementation for " + method.getName() + " does not return a Runnable"); } } catch (NoSuchMethodException ex) { throw new ActionException("Async implementation declared but not defined for " + method.getName()); } } sAsyncMethods.put(method, asyncMethod); return asyncMethod; } } private static String getParameters(Class paramType) { if (paramType == null) return "()"; return "(" + paramType + ")"; } private static Object[] wrapArg(Object value) { Object[] args = sInvokeArgsTls.get(); args[0] = value; return args; } /** * Equivalent to calling a combination of {@link Drawable#setAlpha(int)}, * {@link Drawable#setColorFilter(int, android.graphics.PorterDuff.Mode)}, * and/or {@link Drawable#setLevel(int)} on the {@link Drawable} of a given view. *

* These operations will be performed on the {@link Drawable} returned by the * target {@link View#getBackground()} by default. If targetBackground is false, * we assume the target is an {@link ImageView} and try applying the operations * to {@link ImageView#getDrawable()}. *

* You can omit specific calls by marking their values with null or -1. */ private class SetDrawableParameters extends Action { public SetDrawableParameters(int id, boolean targetBackground, int alpha, int colorFilter, PorterDuff.Mode mode, int level) { this.viewId = id; this.targetBackground = targetBackground; this.alpha = alpha; this.colorFilter = colorFilter; this.filterMode = mode; this.level = level; } public SetDrawableParameters(Parcel parcel) { viewId = parcel.readInt(); targetBackground = parcel.readInt() != 0; alpha = parcel.readInt(); colorFilter = parcel.readInt(); boolean hasMode = parcel.readInt() != 0; if (hasMode) { filterMode = PorterDuff.Mode.valueOf(parcel.readString()); } else { filterMode = null; } level = parcel.readInt(); } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); dest.writeInt(targetBackground ? 1 : 0); dest.writeInt(alpha); dest.writeInt(colorFilter); if (filterMode != null) { dest.writeInt(1); dest.writeString(filterMode.toString()); } else { dest.writeInt(0); } dest.writeInt(level); } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final View target = root.findViewById(viewId); if (target == null) return; // Pick the correct drawable to modify for this view Drawable targetDrawable = null; if (targetBackground) { targetDrawable = target.getBackground(); } else if (target instanceof ImageView) { ImageView imageView = (ImageView) target; targetDrawable = imageView.getDrawable(); } if (targetDrawable != null) { // Perform modifications only if values are set correctly if (alpha != -1) { targetDrawable.mutate().setAlpha(alpha); } if (filterMode != null) { targetDrawable.mutate().setColorFilter(colorFilter, filterMode); } if (level != -1) { targetDrawable.mutate().setLevel(level); } } } public String getActionName() { return "SetDrawableParameters"; } boolean targetBackground; int alpha; int colorFilter; PorterDuff.Mode filterMode; int level; public final static int TAG = 3; } private final class ReflectionActionWithoutParams extends Action { final String methodName; public final static int TAG = 5; ReflectionActionWithoutParams(int viewId, String methodName) { this.viewId = viewId; this.methodName = methodName; } ReflectionActionWithoutParams(Parcel in) { this.viewId = in.readInt(); this.methodName = in.readString(); } public void writeToParcel(Parcel out, int flags) { out.writeInt(TAG); out.writeInt(this.viewId); out.writeString(this.methodName); } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final View view = root.findViewById(viewId); if (view == null) return; try { getMethod(view, this.methodName, null).invoke(view); } catch (ActionException e) { throw e; } catch (Exception ex) { throw new ActionException(ex); } } public int mergeBehavior() { // we don't need to build up showNext or showPrevious calls if (methodName.equals("showNext") || methodName.equals("showPrevious")) { return MERGE_IGNORE; } else { return MERGE_REPLACE; } } public String getActionName() { return "ReflectionActionWithoutParams"; } } private static class BitmapCache { ArrayList mBitmaps; public BitmapCache() { mBitmaps = new ArrayList(); } public BitmapCache(Parcel source) { int count = source.readInt(); mBitmaps = new ArrayList(); for (int i = 0; i < count; i++) { Bitmap b = Bitmap.CREATOR.createFromParcel(source); mBitmaps.add(b); } } public int getBitmapId(Bitmap b) { if (b == null) { return -1; } else { if (mBitmaps.contains(b)) { return mBitmaps.indexOf(b); } else { mBitmaps.add(b); return (mBitmaps.size() - 1); } } } public Bitmap getBitmapForId(int id) { if (id == -1 || id >= mBitmaps.size()) { return null; } else { return mBitmaps.get(id); } } public void writeBitmapsToParcel(Parcel dest, int flags) { int count = mBitmaps.size(); dest.writeInt(count); for (int i = 0; i < count; i++) { mBitmaps.get(i).writeToParcel(dest, flags); } } public void assimilate(BitmapCache bitmapCache) { ArrayList bitmapsToBeAdded = bitmapCache.mBitmaps; int count = bitmapsToBeAdded.size(); for (int i = 0; i < count; i++) { Bitmap b = bitmapsToBeAdded.get(i); if (!mBitmaps.contains(b)) { mBitmaps.add(b); } } } public void addBitmapMemory(MemoryUsageCounter memoryCounter) { for (int i = 0; i < mBitmaps.size(); i++) { memoryCounter.addBitmapMemory(mBitmaps.get(i)); } } @Override protected BitmapCache clone() { BitmapCache bitmapCache = new BitmapCache(); bitmapCache.mBitmaps.addAll(mBitmaps); return bitmapCache; } } private class BitmapReflectionAction extends Action { int bitmapId; Bitmap bitmap; String methodName; BitmapReflectionAction(int viewId, String methodName, Bitmap bitmap) { this.bitmap = bitmap; this.viewId = viewId; this.methodName = methodName; bitmapId = mBitmapCache.getBitmapId(bitmap); } BitmapReflectionAction(Parcel in) { viewId = in.readInt(); methodName = in.readString(); bitmapId = in.readInt(); bitmap = mBitmapCache.getBitmapForId(bitmapId); } @Override public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); dest.writeString(methodName); dest.writeInt(bitmapId); } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) throws ActionException { ReflectionAction ra = new ReflectionAction(viewId, methodName, ReflectionAction.BITMAP, bitmap); ra.apply(root, rootParent, handler); } @Override public void setBitmapCache(BitmapCache bitmapCache) { bitmapId = bitmapCache.getBitmapId(bitmap); } public String getActionName() { return "BitmapReflectionAction"; } public final static int TAG = 12; } /** * Base class for the reflection actions. */ private final class ReflectionAction extends Action { static final int TAG = 2; static final int BOOLEAN = 1; static final int BYTE = 2; static final int SHORT = 3; static final int INT = 4; static final int LONG = 5; static final int FLOAT = 6; static final int DOUBLE = 7; static final int CHAR = 8; static final int STRING = 9; static final int CHAR_SEQUENCE = 10; static final int URI = 11; // BITMAP actions are never stored in the list of actions. They are only used locally // to implement BitmapReflectionAction, which eliminates duplicates using BitmapCache. static final int BITMAP = 12; static final int BUNDLE = 13; static final int INTENT = 14; static final int COLOR_STATE_LIST = 15; static final int ICON = 16; String methodName; int type; Object value; ReflectionAction(int viewId, String methodName, int type, Object value) { this.viewId = viewId; this.methodName = methodName; this.type = type; this.value = value; } ReflectionAction(Parcel in) { this.viewId = in.readInt(); this.methodName = in.readString(); this.type = in.readInt(); //noinspection ConstantIfStatement if (false) { Log.d(LOG_TAG, "read viewId=0x" + Integer.toHexString(this.viewId) + " methodName=" + this.methodName + " type=" + this.type); } // For some values that may have been null, we first check a flag to see if they were // written to the parcel. switch (this.type) { case BOOLEAN: this.value = in.readInt() != 0; break; case BYTE: this.value = in.readByte(); break; case SHORT: this.value = (short)in.readInt(); break; case INT: this.value = in.readInt(); break; case LONG: this.value = in.readLong(); break; case FLOAT: this.value = in.readFloat(); break; case DOUBLE: this.value = in.readDouble(); break; case CHAR: this.value = (char)in.readInt(); break; case STRING: this.value = in.readString(); break; case CHAR_SEQUENCE: this.value = TextUtils.CHAR_SEQUENCE_CREATOR.createFromParcel(in); break; case URI: if (in.readInt() != 0) { this.value = Uri.CREATOR.createFromParcel(in); } break; case BITMAP: if (in.readInt() != 0) { this.value = Bitmap.CREATOR.createFromParcel(in); } break; case BUNDLE: this.value = in.readBundle(); break; case INTENT: if (in.readInt() != 0) { this.value = Intent.CREATOR.createFromParcel(in); } break; case COLOR_STATE_LIST: if (in.readInt() != 0) { this.value = ColorStateList.CREATOR.createFromParcel(in); } break; case ICON: if (in.readInt() != 0) { this.value = Icon.CREATOR.createFromParcel(in); } default: break; } } public void writeToParcel(Parcel out, int flags) { out.writeInt(TAG); out.writeInt(this.viewId); out.writeString(this.methodName); out.writeInt(this.type); //noinspection ConstantIfStatement if (false) { Log.d(LOG_TAG, "write viewId=0x" + Integer.toHexString(this.viewId) + " methodName=" + this.methodName + " type=" + this.type); } // For some values which are null, we record an integer flag to indicate whether // we have written a valid value to the parcel. switch (this.type) { case BOOLEAN: out.writeInt((Boolean) this.value ? 1 : 0); break; case BYTE: out.writeByte((Byte) this.value); break; case SHORT: out.writeInt((Short) this.value); break; case INT: out.writeInt((Integer) this.value); break; case LONG: out.writeLong((Long) this.value); break; case FLOAT: out.writeFloat((Float) this.value); break; case DOUBLE: out.writeDouble((Double) this.value); break; case CHAR: out.writeInt((int)((Character)this.value).charValue()); break; case STRING: out.writeString((String)this.value); break; case CHAR_SEQUENCE: TextUtils.writeToParcel((CharSequence)this.value, out, flags); break; case URI: out.writeInt(this.value != null ? 1 : 0); if (this.value != null) { ((Uri)this.value).writeToParcel(out, flags); } break; case BITMAP: out.writeInt(this.value != null ? 1 : 0); if (this.value != null) { ((Bitmap)this.value).writeToParcel(out, flags); } break; case BUNDLE: out.writeBundle((Bundle) this.value); break; case INTENT: out.writeInt(this.value != null ? 1 : 0); if (this.value != null) { ((Intent)this.value).writeToParcel(out, flags); } break; case COLOR_STATE_LIST: out.writeInt(this.value != null ? 1 : 0); if (this.value != null) { ((ColorStateList)this.value).writeToParcel(out, flags); } break; case ICON: out.writeInt(this.value != null ? 1 : 0); if (this.value != null) { ((Icon)this.value).writeToParcel(out, flags); } break; default: break; } } private Class getParameterType() { switch (this.type) { case BOOLEAN: return boolean.class; case BYTE: return byte.class; case SHORT: return short.class; case INT: return int.class; case LONG: return long.class; case FLOAT: return float.class; case DOUBLE: return double.class; case CHAR: return char.class; case STRING: return String.class; case CHAR_SEQUENCE: return CharSequence.class; case URI: return Uri.class; case BITMAP: return Bitmap.class; case BUNDLE: return Bundle.class; case INTENT: return Intent.class; case COLOR_STATE_LIST: return ColorStateList.class; case ICON: return Icon.class; default: return null; } } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final View view = root.findViewById(viewId); if (view == null) return; Class param = getParameterType(); if (param == null) { throw new ActionException("bad type: " + this.type); } try { getMethod(view, this.methodName, param).invoke(view, wrapArg(this.value)); } catch (ActionException e) { throw e; } catch (Exception ex) { throw new ActionException(ex); } } @Override public Action initActionAsync(ViewTree root, ViewGroup rootParent, OnClickHandler handler) { final View view = root.findViewById(viewId); if (view == null) return ACTION_NOOP; Class param = getParameterType(); if (param == null) { throw new ActionException("bad type: " + this.type); } try { Method method = getMethod(view, this.methodName, param); Method asyncMethod = getAsyncMethod(method); if (asyncMethod != null) { Runnable endAction = (Runnable) asyncMethod.invoke(view, wrapArg(this.value)); if (endAction == null) { return ACTION_NOOP; } else { // Special case view stub if (endAction instanceof ViewStub.ViewReplaceRunnable) { root.createTree(); // Replace child tree root.findViewTreeById(viewId).replaceView( ((ViewStub.ViewReplaceRunnable) endAction).view); } return new RunnableAction(endAction); } } } catch (ActionException e) { throw e; } catch (Exception ex) { throw new ActionException(ex); } return this; } public int mergeBehavior() { // smoothScrollBy is cumulative, everything else overwites. if (methodName.equals("smoothScrollBy")) { return MERGE_APPEND; } else { return MERGE_REPLACE; } } public String getActionName() { // Each type of reflection action corresponds to a setter, so each should be seen as // unique from the standpoint of merging. return "ReflectionAction" + this.methodName + this.type; } @Override public boolean prefersAsyncApply() { return this.type == URI || this.type == ICON; } } /** * This is only used for async execution of actions and it not parcelable. */ private static final class RunnableAction extends RuntimeAction { private final Runnable mRunnable; RunnableAction(Runnable r) { mRunnable = r; } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { mRunnable.run(); } } private void configureRemoteViewsAsChild(RemoteViews rv) { mBitmapCache.assimilate(rv.mBitmapCache); rv.setBitmapCache(mBitmapCache); rv.setNotRoot(); } void setNotRoot() { mIsRoot = false; } /** * Equivalent to calling {@link ViewGroup#addView(View)} after inflating the * given {@link RemoteViews}, or calling {@link ViewGroup#removeAllViews()} * when null. This allows users to build "nested" {@link RemoteViews}. */ private class ViewGroupAction extends Action { public ViewGroupAction(int viewId, RemoteViews nestedViews) { this.viewId = viewId; this.nestedViews = nestedViews; if (nestedViews != null) { configureRemoteViewsAsChild(nestedViews); } } ViewGroupAction(Parcel parcel, BitmapCache bitmapCache, ApplicationInfo info, int depth) { viewId = parcel.readInt(); boolean nestedViewsNull = parcel.readInt() == 0; if (!nestedViewsNull) { nestedViews = new RemoteViews(parcel, bitmapCache, info, depth); } else { nestedViews = null; } } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); if (nestedViews != null) { dest.writeInt(1); nestedViews.writeToParcel(dest, flags); } else { // signifies null dest.writeInt(0); } } @Override public boolean hasSameAppInfo(ApplicationInfo parentInfo) { return nestedViews != null && nestedViews.mApplication.packageName.equals(parentInfo.packageName) && nestedViews.mApplication.uid == parentInfo.uid; } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final Context context = root.getContext(); final ViewGroup target = root.findViewById(viewId); if (target == null) return; if (nestedViews != null) { // Inflate nested views and add as children target.addView(nestedViews.apply(context, target, handler)); } else { // Clear all children when nested views omitted target.removeAllViews(); } } @Override public Action initActionAsync(ViewTree root, ViewGroup rootParent, OnClickHandler handler) { // In the async implementation, update the view tree so that subsequent calls to // findViewById return the currect view. root.createTree(); ViewTree target = root.findViewTreeById(viewId); if ((target == null) || !(target.mRoot instanceof ViewGroup)) { return ACTION_NOOP; } final ViewGroup targetVg = (ViewGroup) target.mRoot; if (nestedViews == null) { // Clear all children when nested views omitted target.mChildren = null; return new RuntimeAction() { @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) throws ActionException { targetVg.removeAllViews(); } }; } else { // Inflate nested views and perform all the async tasks for the child remoteView. final Context context = root.mRoot.getContext(); final AsyncApplyTask task = nestedViews.getAsyncApplyTask( context, targetVg, null, handler); final ViewTree tree = task.doInBackground(); if (tree == null) { throw new ActionException(task.mError); } // Update the global view tree, so that next call to findViewTreeById // goes through the subtree as well. target.addChild(tree); return new RuntimeAction() { @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) throws ActionException { task.onPostExecute(tree); targetVg.addView(task.mResult); } }; } } @Override public void updateMemoryUsageEstimate(MemoryUsageCounter counter) { if (nestedViews != null) { counter.increment(nestedViews.estimateMemoryUsage()); } } @Override public void setBitmapCache(BitmapCache bitmapCache) { if (nestedViews != null) { nestedViews.setBitmapCache(bitmapCache); } } public String getActionName() { return "ViewGroupAction" + (nestedViews == null ? "Remove" : "Add"); } public int mergeBehavior() { return MERGE_APPEND; } @Override public boolean prefersAsyncApply() { return nestedViews != null && nestedViews.prefersAsyncApply(); } RemoteViews nestedViews; public final static int TAG = 4; } /** * Helper action to set compound drawables on a TextView. Supports relative * (s/t/e/b) or cardinal (l/t/r/b) arrangement. */ private class TextViewDrawableAction extends Action { public TextViewDrawableAction(int viewId, boolean isRelative, int d1, int d2, int d3, int d4) { this.viewId = viewId; this.isRelative = isRelative; this.useIcons = false; this.d1 = d1; this.d2 = d2; this.d3 = d3; this.d4 = d4; } public TextViewDrawableAction(int viewId, boolean isRelative, Icon i1, Icon i2, Icon i3, Icon i4) { this.viewId = viewId; this.isRelative = isRelative; this.useIcons = true; this.i1 = i1; this.i2 = i2; this.i3 = i3; this.i4 = i4; } public TextViewDrawableAction(Parcel parcel) { viewId = parcel.readInt(); isRelative = (parcel.readInt() != 0); useIcons = (parcel.readInt() != 0); if (useIcons) { if (parcel.readInt() != 0) { i1 = Icon.CREATOR.createFromParcel(parcel); } if (parcel.readInt() != 0) { i2 = Icon.CREATOR.createFromParcel(parcel); } if (parcel.readInt() != 0) { i3 = Icon.CREATOR.createFromParcel(parcel); } if (parcel.readInt() != 0) { i4 = Icon.CREATOR.createFromParcel(parcel); } } else { d1 = parcel.readInt(); d2 = parcel.readInt(); d3 = parcel.readInt(); d4 = parcel.readInt(); } } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); dest.writeInt(isRelative ? 1 : 0); dest.writeInt(useIcons ? 1 : 0); if (useIcons) { if (i1 != null) { dest.writeInt(1); i1.writeToParcel(dest, 0); } else { dest.writeInt(0); } if (i2 != null) { dest.writeInt(1); i2.writeToParcel(dest, 0); } else { dest.writeInt(0); } if (i3 != null) { dest.writeInt(1); i3.writeToParcel(dest, 0); } else { dest.writeInt(0); } if (i4 != null) { dest.writeInt(1); i4.writeToParcel(dest, 0); } else { dest.writeInt(0); } } else { dest.writeInt(d1); dest.writeInt(d2); dest.writeInt(d3); dest.writeInt(d4); } } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final TextView target = root.findViewById(viewId); if (target == null) return; if (drawablesLoaded) { if (isRelative) { target.setCompoundDrawablesRelativeWithIntrinsicBounds(id1, id2, id3, id4); } else { target.setCompoundDrawablesWithIntrinsicBounds(id1, id2, id3, id4); } } else if (useIcons) { final Context ctx = target.getContext(); final Drawable id1 = i1 == null ? null : i1.loadDrawable(ctx); final Drawable id2 = i2 == null ? null : i2.loadDrawable(ctx); final Drawable id3 = i3 == null ? null : i3.loadDrawable(ctx); final Drawable id4 = i4 == null ? null : i4.loadDrawable(ctx); if (isRelative) { target.setCompoundDrawablesRelativeWithIntrinsicBounds(id1, id2, id3, id4); } else { target.setCompoundDrawablesWithIntrinsicBounds(id1, id2, id3, id4); } } else { if (isRelative) { target.setCompoundDrawablesRelativeWithIntrinsicBounds(d1, d2, d3, d4); } else { target.setCompoundDrawablesWithIntrinsicBounds(d1, d2, d3, d4); } } } @Override public Action initActionAsync(ViewTree root, ViewGroup rootParent, OnClickHandler handler) { final TextView target = root.findViewById(viewId); if (target == null) return ACTION_NOOP; TextViewDrawableAction copy = useIcons ? new TextViewDrawableAction(viewId, isRelative, i1, i2, i3, i4) : new TextViewDrawableAction(viewId, isRelative, d1, d2, d3, d4); // Load the drawables on the background thread. copy.drawablesLoaded = true; final Context ctx = target.getContext(); if (useIcons) { copy.id1 = i1 == null ? null : i1.loadDrawable(ctx); copy.id2 = i2 == null ? null : i2.loadDrawable(ctx); copy.id3 = i3 == null ? null : i3.loadDrawable(ctx); copy.id4 = i4 == null ? null : i4.loadDrawable(ctx); } else { copy.id1 = d1 == 0 ? null : ctx.getDrawable(d1); copy.id2 = d2 == 0 ? null : ctx.getDrawable(d2); copy.id3 = d3 == 0 ? null : ctx.getDrawable(d3); copy.id4 = d4 == 0 ? null : ctx.getDrawable(d4); } return copy; } @Override public boolean prefersAsyncApply() { return useIcons; } public String getActionName() { return "TextViewDrawableAction"; } boolean isRelative = false; boolean useIcons = false; int d1, d2, d3, d4; Icon i1, i2, i3, i4; boolean drawablesLoaded = false; Drawable id1, id2, id3, id4; public final static int TAG = 11; } /** * Helper action to set text size on a TextView in any supported units. */ private class TextViewSizeAction extends Action { public TextViewSizeAction(int viewId, int units, float size) { this.viewId = viewId; this.units = units; this.size = size; } public TextViewSizeAction(Parcel parcel) { viewId = parcel.readInt(); units = parcel.readInt(); size = parcel.readFloat(); } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); dest.writeInt(units); dest.writeFloat(size); } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final TextView target = root.findViewById(viewId); if (target == null) return; target.setTextSize(units, size); } public String getActionName() { return "TextViewSizeAction"; } int units; float size; public final static int TAG = 13; } /** * Helper action to set padding on a View. */ private class ViewPaddingAction extends Action { public ViewPaddingAction(int viewId, int left, int top, int right, int bottom) { this.viewId = viewId; this.left = left; this.top = top; this.right = right; this.bottom = bottom; } public ViewPaddingAction(Parcel parcel) { viewId = parcel.readInt(); left = parcel.readInt(); top = parcel.readInt(); right = parcel.readInt(); bottom = parcel.readInt(); } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); dest.writeInt(left); dest.writeInt(top); dest.writeInt(right); dest.writeInt(bottom); } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final View target = root.findViewById(viewId); if (target == null) return; target.setPadding(left, top, right, bottom); } public String getActionName() { return "ViewPaddingAction"; } int left, top, right, bottom; public final static int TAG = 14; } /** * Helper action to set layout params on a View. */ private static class LayoutParamAction extends Action { /** Set marginEnd */ public static final int LAYOUT_MARGIN_END_DIMEN = 1; /** Set width */ public static final int LAYOUT_WIDTH = 2; public static final int LAYOUT_MARGIN_BOTTOM_DIMEN = 3; /** * @param viewId ID of the view alter * @param property which layout parameter to alter * @param value new value of the layout parameter */ public LayoutParamAction(int viewId, int property, int value) { this.viewId = viewId; this.property = property; this.value = value; } public LayoutParamAction(Parcel parcel) { viewId = parcel.readInt(); property = parcel.readInt(); value = parcel.readInt(); } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); dest.writeInt(property); dest.writeInt(value); } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final View target = root.findViewById(viewId); if (target == null) { return; } ViewGroup.LayoutParams layoutParams = target.getLayoutParams(); if (layoutParams == null) { return; } switch (property) { case LAYOUT_MARGIN_END_DIMEN: if (layoutParams instanceof ViewGroup.MarginLayoutParams) { int resolved = resolveDimenPixelOffset(target, value); ((ViewGroup.MarginLayoutParams) layoutParams).setMarginEnd(resolved); target.setLayoutParams(layoutParams); } break; case LAYOUT_MARGIN_BOTTOM_DIMEN: if (layoutParams instanceof ViewGroup.MarginLayoutParams) { int resolved = resolveDimenPixelOffset(target, value); ((ViewGroup.MarginLayoutParams) layoutParams).bottomMargin = resolved; target.setLayoutParams(layoutParams); } break; case LAYOUT_WIDTH: layoutParams.width = value; target.setLayoutParams(layoutParams); break; default: throw new IllegalArgumentException("Unknown property " + property); } } private static int resolveDimenPixelOffset(View target, int value) { if (value == 0) { return 0; } return target.getContext().getResources().getDimensionPixelOffset(value); } public String getActionName() { return "LayoutParamAction" + property + "."; } int property; int value; public final static int TAG = 19; } /** * Helper action to set a color filter on a compound drawable on a TextView. Supports relative * (s/t/e/b) or cardinal (l/t/r/b) arrangement. */ private class TextViewDrawableColorFilterAction extends Action { public TextViewDrawableColorFilterAction(int viewId, boolean isRelative, int index, int color, PorterDuff.Mode mode) { this.viewId = viewId; this.isRelative = isRelative; this.index = index; this.color = color; this.mode = mode; } public TextViewDrawableColorFilterAction(Parcel parcel) { viewId = parcel.readInt(); isRelative = (parcel.readInt() != 0); index = parcel.readInt(); color = parcel.readInt(); mode = readPorterDuffMode(parcel); } private PorterDuff.Mode readPorterDuffMode(Parcel parcel) { int mode = parcel.readInt(); if (mode >= 0 && mode < PorterDuff.Mode.values().length) { return PorterDuff.Mode.values()[mode]; } else { return PorterDuff.Mode.CLEAR; } } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); dest.writeInt(isRelative ? 1 : 0); dest.writeInt(index); dest.writeInt(color); dest.writeInt(mode.ordinal()); } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final TextView target = root.findViewById(viewId); if (target == null) return; Drawable[] drawables = isRelative ? target.getCompoundDrawablesRelative() : target.getCompoundDrawables(); if (index < 0 || index >= 4) { throw new IllegalStateException("index must be in range [0, 3]."); } Drawable d = drawables[index]; if (d != null) { d.mutate(); d.setColorFilter(color, mode); } } public String getActionName() { return "TextViewDrawableColorFilterAction"; } final boolean isRelative; final int index; final int color; final PorterDuff.Mode mode; public final static int TAG = 17; } /** * Helper action to add a view tag with RemoteInputs. */ private class SetRemoteInputsAction extends Action { public SetRemoteInputsAction(int viewId, RemoteInput[] remoteInputs) { this.viewId = viewId; this.remoteInputs = remoteInputs; } public SetRemoteInputsAction(Parcel parcel) { viewId = parcel.readInt(); remoteInputs = parcel.createTypedArray(RemoteInput.CREATOR); } public void writeToParcel(Parcel dest, int flags) { dest.writeInt(TAG); dest.writeInt(viewId); dest.writeTypedArray(remoteInputs, flags); } @Override public void apply(View root, ViewGroup rootParent, OnClickHandler handler) { final TextView target = (TextView) root.findViewById(viewId); if (target == null) return; target.setTagInternal(R.id.remote_input_tag, remoteInputs); } public String getActionName() { return "SetRemoteInputsAction"; } final Parcelable[] remoteInputs; public final static int TAG = 18; } /** * Simple class used to keep track of memory usage in a RemoteViews. * */ private class MemoryUsageCounter { public void clear() { mMemoryUsage = 0; } public void increment(int numBytes) { mMemoryUsage += numBytes; } public int getMemoryUsage() { return mMemoryUsage; } public void addBitmapMemory(Bitmap b) { increment(b.getAllocationByteCount()); } int mMemoryUsage; } /** * Create a new RemoteViews object that will display the views contained * in the specified layout file. * * @param packageName Name of the package that contains the layout resource * @param layoutId The id of the layout resource */ public RemoteViews(String packageName, int layoutId) { this(getApplicationInfo(packageName, UserHandle.myUserId()), layoutId); } /** * Create a new RemoteViews object that will display the views contained * in the specified layout file. * * @param packageName Name of the package that contains the layout resource. * @param userId The user under which the package is running. * @param layoutId The id of the layout resource. * * @hide */ public RemoteViews(String packageName, int userId, int layoutId) { this(getApplicationInfo(packageName, userId), layoutId); } /** * Create a new RemoteViews object that will display the views contained * in the specified layout file. * * @param application The application whose content is shown by the views. * @param layoutId The id of the layout resource. * * @hide */ protected RemoteViews(ApplicationInfo application, int layoutId) { mApplication = application; mLayoutId = layoutId; mBitmapCache = new BitmapCache(); // setup the memory usage statistics mMemoryUsageCounter = new MemoryUsageCounter(); recalculateMemoryUsage(); } private boolean hasLandscapeAndPortraitLayouts() { return (mLandscape != null) && (mPortrait != null); } /** * Create a new RemoteViews object that will inflate as the specified * landspace or portrait RemoteViews, depending on the current configuration. * * @param landscape The RemoteViews to inflate in landscape configuration * @param portrait The RemoteViews to inflate in portrait configuration */ public RemoteViews(RemoteViews landscape, RemoteViews portrait) { if (landscape == null || portrait == null) { throw new RuntimeException("Both RemoteViews must be non-null"); } if (landscape.mApplication.uid != portrait.mApplication.uid || !landscape.mApplication.packageName.equals(portrait.mApplication.packageName)) { throw new RuntimeException("Both RemoteViews must share the same package and user"); } mApplication = portrait.mApplication; mLayoutId = portrait.getLayoutId(); mLandscape = landscape; mPortrait = portrait; // setup the memory usage statistics mMemoryUsageCounter = new MemoryUsageCounter(); mBitmapCache = new BitmapCache(); configureRemoteViewsAsChild(landscape); configureRemoteViewsAsChild(portrait); recalculateMemoryUsage(); } /** * Reads a RemoteViews object from a parcel. * * @param parcel */ public RemoteViews(Parcel parcel) { this(parcel, null, null, 0); } private RemoteViews(Parcel parcel, BitmapCache bitmapCache, ApplicationInfo info, int depth) { if (depth > MAX_NESTED_VIEWS && (UserHandle.getAppId(Binder.getCallingUid()) != Process.SYSTEM_UID)) { throw new IllegalArgumentException("Too many nested views."); } depth++; int mode = parcel.readInt(); // We only store a bitmap cache in the root of the RemoteViews. if (bitmapCache == null) { mBitmapCache = new BitmapCache(parcel); } else { setBitmapCache(bitmapCache); setNotRoot(); } if (mode == MODE_NORMAL) { mApplication = parcel.readInt() == 0 ? info : ApplicationInfo.CREATOR.createFromParcel(parcel); mLayoutId = parcel.readInt(); mIsWidgetCollectionChild = parcel.readInt() == 1; int count = parcel.readInt(); if (count > 0) { mActions = new ArrayList(count); for (int i=0; i(); } mActions.add(a); // update the memory usage stats a.updateMemoryUsageEstimate(mMemoryUsageCounter); } /** * Equivalent to calling {@link ViewGroup#addView(View)} after inflating the * given {@link RemoteViews}. This allows users to build "nested" * {@link RemoteViews}. In cases where consumers of {@link RemoteViews} may * recycle layouts, use {@link #removeAllViews(int)} to clear any existing * children. * * @param viewId The id of the parent {@link ViewGroup} to add child into. * @param nestedView {@link RemoteViews} that describes the child. */ public void addView(int viewId, RemoteViews nestedView) { addAction(new ViewGroupAction(viewId, nestedView)); } /** * Equivalent to calling {@link ViewGroup#removeAllViews()}. * * @param viewId The id of the parent {@link ViewGroup} to remove all * children from. */ public void removeAllViews(int viewId) { addAction(new ViewGroupAction(viewId, null)); } /** * Equivalent to calling {@link AdapterViewAnimator#showNext()} * * @param viewId The id of the view on which to call {@link AdapterViewAnimator#showNext()} */ public void showNext(int viewId) { addAction(new ReflectionActionWithoutParams(viewId, "showNext")); } /** * Equivalent to calling {@link AdapterViewAnimator#showPrevious()} * * @param viewId The id of the view on which to call {@link AdapterViewAnimator#showPrevious()} */ public void showPrevious(int viewId) { addAction(new ReflectionActionWithoutParams(viewId, "showPrevious")); } /** * Equivalent to calling {@link AdapterViewAnimator#setDisplayedChild(int)} * * @param viewId The id of the view on which to call * {@link AdapterViewAnimator#setDisplayedChild(int)} */ public void setDisplayedChild(int viewId, int childIndex) { setInt(viewId, "setDisplayedChild", childIndex); } /** * Equivalent to calling {@link View#setVisibility(int)} * * @param viewId The id of the view whose visibility should change * @param visibility The new visibility for the view */ public void setViewVisibility(int viewId, int visibility) { setInt(viewId, "setVisibility", visibility); } /** * Equivalent to calling {@link TextView#setText(CharSequence)} * * @param viewId The id of the view whose text should change * @param text The new text for the view */ public void setTextViewText(int viewId, CharSequence text) { setCharSequence(viewId, "setText", text); } /** * Equivalent to calling {@link TextView#setTextSize(int, float)} * * @param viewId The id of the view whose text size should change * @param units The units of size (e.g. COMPLEX_UNIT_SP) * @param size The size of the text */ public void setTextViewTextSize(int viewId, int units, float size) { addAction(new TextViewSizeAction(viewId, units, size)); } /** * Equivalent to calling * {@link TextView#setCompoundDrawablesWithIntrinsicBounds(int, int, int, int)}. * * @param viewId The id of the view whose text should change * @param left The id of a drawable to place to the left of the text, or 0 * @param top The id of a drawable to place above the text, or 0 * @param right The id of a drawable to place to the right of the text, or 0 * @param bottom The id of a drawable to place below the text, or 0 */ public void setTextViewCompoundDrawables(int viewId, int left, int top, int right, int bottom) { addAction(new TextViewDrawableAction(viewId, false, left, top, right, bottom)); } /** * Equivalent to calling {@link * TextView#setCompoundDrawablesRelativeWithIntrinsicBounds(int, int, int, int)}. * * @param viewId The id of the view whose text should change * @param start The id of a drawable to place before the text (relative to the * layout direction), or 0 * @param top The id of a drawable to place above the text, or 0 * @param end The id of a drawable to place after the text, or 0 * @param bottom The id of a drawable to place below the text, or 0 */ public void setTextViewCompoundDrawablesRelative(int viewId, int start, int top, int end, int bottom) { addAction(new TextViewDrawableAction(viewId, true, start, top, end, bottom)); } /** * Equivalent to applying a color filter on one of the drawables in * {@link android.widget.TextView#getCompoundDrawablesRelative()}. * * @param viewId The id of the view whose text should change. * @param index The index of the drawable in the array of * {@link android.widget.TextView#getCompoundDrawablesRelative()} to set the color * filter on. Must be in [0, 3]. * @param color The color of the color filter. See * {@link Drawable#setColorFilter(int, android.graphics.PorterDuff.Mode)}. * @param mode The mode of the color filter. See * {@link Drawable#setColorFilter(int, android.graphics.PorterDuff.Mode)}. * @hide */ public void setTextViewCompoundDrawablesRelativeColorFilter(int viewId, int index, int color, PorterDuff.Mode mode) { if (index < 0 || index >= 4) { throw new IllegalArgumentException("index must be in range [0, 3]."); } addAction(new TextViewDrawableColorFilterAction(viewId, true, index, color, mode)); } /** * Equivalent to calling {@link * TextView#setCompoundDrawablesWithIntrinsicBounds(Drawable, Drawable, Drawable, Drawable)} * using the drawables yielded by {@link Icon#loadDrawable(Context)}. * * @param viewId The id of the view whose text should change * @param left an Icon to place to the left of the text, or 0 * @param top an Icon to place above the text, or 0 * @param right an Icon to place to the right of the text, or 0 * @param bottom an Icon to place below the text, or 0 * * @hide */ public void setTextViewCompoundDrawables(int viewId, Icon left, Icon top, Icon right, Icon bottom) { addAction(new TextViewDrawableAction(viewId, false, left, top, right, bottom)); } /** * Equivalent to calling {@link * TextView#setCompoundDrawablesRelativeWithIntrinsicBounds(Drawable, Drawable, Drawable, Drawable)} * using the drawables yielded by {@link Icon#loadDrawable(Context)}. * * @param viewId The id of the view whose text should change * @param start an Icon to place before the text (relative to the * layout direction), or 0 * @param top an Icon to place above the text, or 0 * @param end an Icon to place after the text, or 0 * @param bottom an Icon to place below the text, or 0 * * @hide */ public void setTextViewCompoundDrawablesRelative(int viewId, Icon start, Icon top, Icon end, Icon bottom) { addAction(new TextViewDrawableAction(viewId, true, start, top, end, bottom)); } /** * Equivalent to calling {@link ImageView#setImageResource(int)} * * @param viewId The id of the view whose drawable should change * @param srcId The new resource id for the drawable */ public void setImageViewResource(int viewId, int srcId) { setInt(viewId, "setImageResource", srcId); } /** * Equivalent to calling {@link ImageView#setImageURI(Uri)} * * @param viewId The id of the view whose drawable should change * @param uri The Uri for the image */ public void setImageViewUri(int viewId, Uri uri) { setUri(viewId, "setImageURI", uri); } /** * Equivalent to calling {@link ImageView#setImageBitmap(Bitmap)} * * @param viewId The id of the view whose bitmap should change * @param bitmap The new Bitmap for the drawable */ public void setImageViewBitmap(int viewId, Bitmap bitmap) { setBitmap(viewId, "setImageBitmap", bitmap); } /** * Equivalent to calling {@link ImageView#setImageIcon(Icon)} * * @param viewId The id of the view whose bitmap should change * @param icon The new Icon for the ImageView */ public void setImageViewIcon(int viewId, Icon icon) { setIcon(viewId, "setImageIcon", icon); } /** * Equivalent to calling {@link AdapterView#setEmptyView(View)} * * @param viewId The id of the view on which to set the empty view * @param emptyViewId The view id of the empty view */ public void setEmptyView(int viewId, int emptyViewId) { addAction(new SetEmptyView(viewId, emptyViewId)); } /** * Equivalent to calling {@link Chronometer#setBase Chronometer.setBase}, * {@link Chronometer#setFormat Chronometer.setFormat}, * and {@link Chronometer#start Chronometer.start()} or * {@link Chronometer#stop Chronometer.stop()}. * * @param viewId The id of the {@link Chronometer} to change * @param base The time at which the timer would have read 0:00. This * time should be based off of * {@link android.os.SystemClock#elapsedRealtime SystemClock.elapsedRealtime()}. * @param format The Chronometer format string, or null to * simply display the timer value. * @param started True if you want the clock to be started, false if not. * * @see #setChronometerCountDown(int, boolean) */ public void setChronometer(int viewId, long base, String format, boolean started) { setLong(viewId, "setBase", base); setString(viewId, "setFormat", format); setBoolean(viewId, "setStarted", started); } /** * Equivalent to calling {@link Chronometer#setCountDown(boolean) Chronometer.setCountDown} on * the chronometer with the given viewId. * * @param viewId The id of the {@link Chronometer} to change * @param isCountDown True if you want the chronometer to count down to base instead of * counting up. */ public void setChronometerCountDown(int viewId, boolean isCountDown) { setBoolean(viewId, "setCountDown", isCountDown); } /** * Equivalent to calling {@link ProgressBar#setMax ProgressBar.setMax}, * {@link ProgressBar#setProgress ProgressBar.setProgress}, and * {@link ProgressBar#setIndeterminate ProgressBar.setIndeterminate} * * If indeterminate is true, then the values for max and progress are ignored. * * @param viewId The id of the {@link ProgressBar} to change * @param max The 100% value for the progress bar * @param progress The current value of the progress bar. * @param indeterminate True if the progress bar is indeterminate, * false if not. */ public void setProgressBar(int viewId, int max, int progress, boolean indeterminate) { setBoolean(viewId, "setIndeterminate", indeterminate); if (!indeterminate) { setInt(viewId, "setMax", max); setInt(viewId, "setProgress", progress); } } /** * Equivalent to calling * {@link android.view.View#setOnClickListener(android.view.View.OnClickListener)} * to launch the provided {@link PendingIntent}. * * When setting the on-click action of items within collections (eg. {@link ListView}, * {@link StackView} etc.), this method will not work. Instead, use {@link * RemoteViews#setPendingIntentTemplate(int, PendingIntent)} in conjunction with * {@link RemoteViews#setOnClickFillInIntent(int, Intent)}. * * @param viewId The id of the view that will trigger the {@link PendingIntent} when clicked * @param pendingIntent The {@link PendingIntent} to send when user clicks */ public void setOnClickPendingIntent(int viewId, PendingIntent pendingIntent) { addAction(new SetOnClickPendingIntent(viewId, pendingIntent)); } /** * When using collections (eg. {@link ListView}, {@link StackView} etc.) in widgets, it is very * costly to set PendingIntents on the individual items, and is hence not permitted. Instead * this method should be used to set a single PendingIntent template on the collection, and * individual items can differentiate their on-click behavior using * {@link RemoteViews#setOnClickFillInIntent(int, Intent)}. * * @param viewId The id of the collection who's children will use this PendingIntent template * when clicked * @param pendingIntentTemplate The {@link PendingIntent} to be combined with extras specified * by a child of viewId and executed when that child is clicked */ public void setPendingIntentTemplate(int viewId, PendingIntent pendingIntentTemplate) { addAction(new SetPendingIntentTemplate(viewId, pendingIntentTemplate)); } /** * When using collections (eg. {@link ListView}, {@link StackView} etc.) in widgets, it is very * costly to set PendingIntents on the individual items, and is hence not permitted. Instead * a single PendingIntent template can be set on the collection, see {@link * RemoteViews#setPendingIntentTemplate(int, PendingIntent)}, and the individual on-click * action of a given item can be distinguished by setting a fillInIntent on that item. The * fillInIntent is then combined with the PendingIntent template in order to determine the final * intent which will be executed when the item is clicked. This works as follows: any fields * which are left blank in the PendingIntent template, but are provided by the fillInIntent * will be overwritten, and the resulting PendingIntent will be used. The rest * of the PendingIntent template will then be filled in with the associated fields that are * set in fillInIntent. See {@link Intent#fillIn(Intent, int)} for more details. * * @param viewId The id of the view on which to set the fillInIntent * @param fillInIntent The intent which will be combined with the parent's PendingIntent * in order to determine the on-click behavior of the view specified by viewId */ public void setOnClickFillInIntent(int viewId, Intent fillInIntent) { addAction(new SetOnClickFillInIntent(viewId, fillInIntent)); } /** * @hide * Equivalent to calling a combination of {@link Drawable#setAlpha(int)}, * {@link Drawable#setColorFilter(int, android.graphics.PorterDuff.Mode)}, * and/or {@link Drawable#setLevel(int)} on the {@link Drawable} of a given * view. *

* You can omit specific calls by marking their values with null or -1. * * @param viewId The id of the view that contains the target * {@link Drawable} * @param targetBackground If true, apply these parameters to the * {@link Drawable} returned by * {@link android.view.View#getBackground()}. Otherwise, assume * the target view is an {@link ImageView} and apply them to * {@link ImageView#getDrawable()}. * @param alpha Specify an alpha value for the drawable, or -1 to leave * unchanged. * @param colorFilter Specify a color for a * {@link android.graphics.ColorFilter} for this drawable. This will be ignored if * {@code mode} is {@code null}. * @param mode Specify a PorterDuff mode for this drawable, or null to leave * unchanged. * @param level Specify the level for the drawable, or -1 to leave * unchanged. */ public void setDrawableParameters(int viewId, boolean targetBackground, int alpha, int colorFilter, PorterDuff.Mode mode, int level) { addAction(new SetDrawableParameters(viewId, targetBackground, alpha, colorFilter, mode, level)); } /** * @hide * Equivalent to calling {@link android.widget.ProgressBar#setProgressTintList}. * * @param viewId The id of the view whose tint should change * @param tint the tint to apply, may be {@code null} to clear tint */ public void setProgressTintList(int viewId, ColorStateList tint) { addAction(new ReflectionAction(viewId, "setProgressTintList", ReflectionAction.COLOR_STATE_LIST, tint)); } /** * @hide * Equivalent to calling {@link android.widget.ProgressBar#setProgressBackgroundTintList}. * * @param viewId The id of the view whose tint should change * @param tint the tint to apply, may be {@code null} to clear tint */ public void setProgressBackgroundTintList(int viewId, ColorStateList tint) { addAction(new ReflectionAction(viewId, "setProgressBackgroundTintList", ReflectionAction.COLOR_STATE_LIST, tint)); } /** * @hide * Equivalent to calling {@link android.widget.ProgressBar#setIndeterminateTintList}. * * @param viewId The id of the view whose tint should change * @param tint the tint to apply, may be {@code null} to clear tint */ public void setProgressIndeterminateTintList(int viewId, ColorStateList tint) { addAction(new ReflectionAction(viewId, "setIndeterminateTintList", ReflectionAction.COLOR_STATE_LIST, tint)); } /** * Equivalent to calling {@link android.widget.TextView#setTextColor(int)}. * * @param viewId The id of the view whose text color should change * @param color Sets the text color for all the states (normal, selected, * focused) to be this color. */ public void setTextColor(int viewId, @ColorInt int color) { setInt(viewId, "setTextColor", color); } /** * @hide * Equivalent to calling {@link android.widget.TextView#setTextColor(ColorStateList)}. * * @param viewId The id of the view whose text color should change * @param colors the text colors to set */ public void setTextColor(int viewId, @ColorInt ColorStateList colors) { addAction(new ReflectionAction(viewId, "setTextColor", ReflectionAction.COLOR_STATE_LIST, colors)); } /** * Equivalent to calling {@link android.widget.AbsListView#setRemoteViewsAdapter(Intent)}. * * @param appWidgetId The id of the app widget which contains the specified view. (This * parameter is ignored in this deprecated method) * @param viewId The id of the {@link AdapterView} * @param intent The intent of the service which will be * providing data to the RemoteViewsAdapter * @deprecated This method has been deprecated. See * {@link android.widget.RemoteViews#setRemoteAdapter(int, Intent)} */ @Deprecated public void setRemoteAdapter(int appWidgetId, int viewId, Intent intent) { setRemoteAdapter(viewId, intent); } /** * Equivalent to calling {@link android.widget.AbsListView#setRemoteViewsAdapter(Intent)}. * Can only be used for App Widgets. * * @param viewId The id of the {@link AdapterView} * @param intent The intent of the service which will be * providing data to the RemoteViewsAdapter */ public void setRemoteAdapter(int viewId, Intent intent) { addAction(new SetRemoteViewsAdapterIntent(viewId, intent)); } /** * Creates a simple Adapter for the viewId specified. The viewId must point to an AdapterView, * ie. {@link ListView}, {@link GridView}, {@link StackView} or {@link AdapterViewAnimator}. * This is a simpler but less flexible approach to populating collection widgets. Its use is * encouraged for most scenarios, as long as the total memory within the list of RemoteViews * is relatively small (ie. doesn't contain large or numerous Bitmaps, see {@link * RemoteViews#setImageViewBitmap}). In the case of numerous images, the use of API is still * possible by setting image URIs instead of Bitmaps, see {@link RemoteViews#setImageViewUri}. * * This API is supported in the compatibility library for previous API levels, see * RemoteViewsCompat. * * @param viewId The id of the {@link AdapterView} * @param list The list of RemoteViews which will populate the view specified by viewId. * @param viewTypeCount The maximum number of unique layout id's used to construct the list of * RemoteViews. This count cannot change during the life-cycle of a given widget, so this * parameter should account for the maximum possible number of types that may appear in the * See {@link Adapter#getViewTypeCount()}. * * @hide */ public void setRemoteAdapter(int viewId, ArrayList list, int viewTypeCount) { addAction(new SetRemoteViewsAdapterList(viewId, list, viewTypeCount)); } /** * Equivalent to calling {@link ListView#smoothScrollToPosition(int)}. * * @param viewId The id of the view to change * @param position Scroll to this adapter position */ public void setScrollPosition(int viewId, int position) { setInt(viewId, "smoothScrollToPosition", position); } /** * Equivalent to calling {@link ListView#smoothScrollByOffset(int)}. * * @param viewId The id of the view to change * @param offset Scroll by this adapter position offset */ public void setRelativeScrollPosition(int viewId, int offset) { setInt(viewId, "smoothScrollByOffset", offset); } /** * Equivalent to calling {@link android.view.View#setPadding(int, int, int, int)}. * * @param viewId The id of the view to change * @param left the left padding in pixels * @param top the top padding in pixels * @param right the right padding in pixels * @param bottom the bottom padding in pixels */ public void setViewPadding(int viewId, int left, int top, int right, int bottom) { addAction(new ViewPaddingAction(viewId, left, top, right, bottom)); } /** * @hide * Equivalent to calling {@link android.view.ViewGroup.MarginLayoutParams#setMarginEnd(int)}. * Only works if the {@link View#getLayoutParams()} supports margins. * Hidden for now since we don't want to support this for all different layout margins yet. * * @param viewId The id of the view to change * @param endMarginDimen a dimen resource to read the margin from or 0 to clear the margin. */ public void setViewLayoutMarginEndDimen(int viewId, @DimenRes int endMarginDimen) { addAction(new LayoutParamAction(viewId, LayoutParamAction.LAYOUT_MARGIN_END_DIMEN, endMarginDimen)); } /** * Equivalent to setting {@link android.view.ViewGroup.MarginLayoutParams#bottomMargin}. * * @param bottomMarginDimen a dimen resource to read the margin from or 0 to clear the margin. * @hide */ public void setViewLayoutMarginBottomDimen(int viewId, @DimenRes int bottomMarginDimen) { addAction(new LayoutParamAction(viewId, LayoutParamAction.LAYOUT_MARGIN_BOTTOM_DIMEN, bottomMarginDimen)); } /** * Equivalent to setting {@link android.view.ViewGroup.LayoutParams#width}. * * @param layoutWidth one of 0, MATCH_PARENT or WRAP_CONTENT. Other sizes are not allowed * because they behave poorly when the density changes. * @hide */ public void setViewLayoutWidth(int viewId, int layoutWidth) { if (layoutWidth != 0 && layoutWidth != ViewGroup.LayoutParams.MATCH_PARENT && layoutWidth != ViewGroup.LayoutParams.WRAP_CONTENT) { throw new IllegalArgumentException("Only supports 0, WRAP_CONTENT and MATCH_PARENT"); } mActions.add(new LayoutParamAction(viewId, LayoutParamAction.LAYOUT_WIDTH, layoutWidth)); } /** * Call a method taking one boolean on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setBoolean(int viewId, String methodName, boolean value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.BOOLEAN, value)); } /** * Call a method taking one byte on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setByte(int viewId, String methodName, byte value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.BYTE, value)); } /** * Call a method taking one short on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setShort(int viewId, String methodName, short value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.SHORT, value)); } /** * Call a method taking one int on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setInt(int viewId, String methodName, int value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.INT, value)); } /** * Call a method taking one long on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setLong(int viewId, String methodName, long value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.LONG, value)); } /** * Call a method taking one float on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setFloat(int viewId, String methodName, float value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.FLOAT, value)); } /** * Call a method taking one double on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setDouble(int viewId, String methodName, double value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.DOUBLE, value)); } /** * Call a method taking one char on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setChar(int viewId, String methodName, char value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.CHAR, value)); } /** * Call a method taking one String on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setString(int viewId, String methodName, String value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.STRING, value)); } /** * Call a method taking one CharSequence on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setCharSequence(int viewId, String methodName, CharSequence value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.CHAR_SEQUENCE, value)); } /** * Call a method taking one Uri on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setUri(int viewId, String methodName, Uri value) { if (value != null) { // Resolve any filesystem path before sending remotely value = value.getCanonicalUri(); if (StrictMode.vmFileUriExposureEnabled()) { value.checkFileUriExposed("RemoteViews.setUri()"); } } addAction(new ReflectionAction(viewId, methodName, ReflectionAction.URI, value)); } /** * Call a method taking one Bitmap on a view in the layout for this RemoteViews. * @more *

The bitmap will be flattened into the parcel if this object is * sent across processes, so it may end up using a lot of memory, and may be fairly slow.

* * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setBitmap(int viewId, String methodName, Bitmap value) { addAction(new BitmapReflectionAction(viewId, methodName, value)); } /** * Call a method taking one Bundle on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The value to pass to the method. */ public void setBundle(int viewId, String methodName, Bundle value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.BUNDLE, value)); } /** * Call a method taking one Intent on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The {@link android.content.Intent} to pass the method. */ public void setIntent(int viewId, String methodName, Intent value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.INTENT, value)); } /** * Call a method taking one Icon on a view in the layout for this RemoteViews. * * @param viewId The id of the view on which to call the method. * @param methodName The name of the method to call. * @param value The {@link android.graphics.drawable.Icon} to pass the method. */ public void setIcon(int viewId, String methodName, Icon value) { addAction(new ReflectionAction(viewId, methodName, ReflectionAction.ICON, value)); } /** * Equivalent to calling View.setContentDescription(CharSequence). * * @param viewId The id of the view whose content description should change. * @param contentDescription The new content description for the view. */ public void setContentDescription(int viewId, CharSequence contentDescription) { setCharSequence(viewId, "setContentDescription", contentDescription); } /** * Equivalent to calling {@link android.view.View#setAccessibilityTraversalBefore(int)}. * * @param viewId The id of the view whose before view in accessibility traversal to set. * @param nextId The id of the next in the accessibility traversal. **/ public void setAccessibilityTraversalBefore(int viewId, int nextId) { setInt(viewId, "setAccessibilityTraversalBefore", nextId); } /** * Equivalent to calling {@link android.view.View#setAccessibilityTraversalAfter(int)}. * * @param viewId The id of the view whose after view in accessibility traversal to set. * @param nextId The id of the next in the accessibility traversal. **/ public void setAccessibilityTraversalAfter(int viewId, int nextId) { setInt(viewId, "setAccessibilityTraversalAfter", nextId); } /** * Equivalent to calling {@link View#setLabelFor(int)}. * * @param viewId The id of the view whose property to set. * @param labeledId The id of a view for which this view serves as a label. */ public void setLabelFor(int viewId, int labeledId) { setInt(viewId, "setLabelFor", labeledId); } private RemoteViews getRemoteViewsToApply(Context context) { if (hasLandscapeAndPortraitLayouts()) { int orientation = context.getResources().getConfiguration().orientation; if (orientation == Configuration.ORIENTATION_LANDSCAPE) { return mLandscape; } else { return mPortrait; } } return this; } /** * Inflates the view hierarchy represented by this object and applies * all of the actions. * *

Caller beware: this may throw * * @param context Default context to use * @param parent Parent that the resulting view hierarchy will be attached to. This method * does not attach the hierarchy. The caller should do so when appropriate. * @return The inflated view hierarchy */ public View apply(Context context, ViewGroup parent) { return apply(context, parent, null); } /** @hide */ public View apply(Context context, ViewGroup parent, OnClickHandler handler) { RemoteViews rvToApply = getRemoteViewsToApply(context); View result = inflateView(context, rvToApply, parent); loadTransitionOverride(context, handler); rvToApply.performApply(result, parent, handler); return result; } private View inflateView(Context context, RemoteViews rv, ViewGroup parent) { // RemoteViews may be built by an application installed in another // user. So build a context that loads resources from that user but // still returns the current users userId so settings like data / time formats // are loaded without requiring cross user persmissions. final Context contextForResources = getContextForResources(context); Context inflationContext = new RemoteViewsContextWrapper(context, contextForResources); LayoutInflater inflater = (LayoutInflater) context.getSystemService(Context.LAYOUT_INFLATER_SERVICE); // Clone inflater so we load resources from correct context and // we don't add a filter to the static version returned by getSystemService. inflater = inflater.cloneInContext(inflationContext); inflater.setFilter(this); View v = inflater.inflate(rv.getLayoutId(), parent, false); v.setTagInternal(R.id.widget_frame, rv.getLayoutId()); return v; } private static void loadTransitionOverride(Context context, RemoteViews.OnClickHandler handler) { if (handler != null && context.getResources().getBoolean( com.android.internal.R.bool.config_overrideRemoteViewsActivityTransition)) { TypedArray windowStyle = context.getTheme().obtainStyledAttributes( com.android.internal.R.styleable.Window); int windowAnimations = windowStyle.getResourceId( com.android.internal.R.styleable.Window_windowAnimationStyle, 0); TypedArray windowAnimationStyle = context.obtainStyledAttributes( windowAnimations, com.android.internal.R.styleable.WindowAnimation); handler.setEnterAnimationId(windowAnimationStyle.getResourceId( com.android.internal.R.styleable. WindowAnimation_activityOpenRemoteViewsEnterAnimation, 0)); windowStyle.recycle(); windowAnimationStyle.recycle(); } } /** * Implement this interface to receive a callback when * {@link #applyAsync} or {@link #reapplyAsync} is finished. * @hide */ public interface OnViewAppliedListener { void onViewApplied(View v); void onError(Exception e); } /** * Applies the views asynchronously, moving as much of the task on the background * thread as possible. * * @see #apply(Context, ViewGroup) * @param context Default context to use * @param parent Parent that the resulting view hierarchy will be attached to. This method * does not attach the hierarchy. The caller should do so when appropriate. * @param listener the callback to run when all actions have been applied. May be null. * @param executor The executor to use. If null {@link AsyncTask#THREAD_POOL_EXECUTOR} is used. * @return CancellationSignal * @hide */ public CancellationSignal applyAsync( Context context, ViewGroup parent, Executor executor, OnViewAppliedListener listener) { return applyAsync(context, parent, executor, listener, null); } private CancellationSignal startTaskOnExecutor(AsyncApplyTask task, Executor executor) { CancellationSignal cancelSignal = new CancellationSignal(); cancelSignal.setOnCancelListener(task); task.executeOnExecutor(executor == null ? AsyncTask.THREAD_POOL_EXECUTOR : executor); return cancelSignal; } /** @hide */ public CancellationSignal applyAsync(Context context, ViewGroup parent, Executor executor, OnViewAppliedListener listener, OnClickHandler handler) { return startTaskOnExecutor(getAsyncApplyTask(context, parent, listener, handler), executor); } private AsyncApplyTask getAsyncApplyTask(Context context, ViewGroup parent, OnViewAppliedListener listener, OnClickHandler handler) { return new AsyncApplyTask(getRemoteViewsToApply(context), parent, context, listener, handler, null); } private class AsyncApplyTask extends AsyncTask implements CancellationSignal.OnCancelListener { final RemoteViews mRV; final ViewGroup mParent; final Context mContext; final OnViewAppliedListener mListener; final OnClickHandler mHandler; private View mResult; private ViewTree mTree; private Action[] mActions; private Exception mError; private AsyncApplyTask( RemoteViews rv, ViewGroup parent, Context context, OnViewAppliedListener listener, OnClickHandler handler, View result) { mRV = rv; mParent = parent; mContext = context; mListener = listener; mHandler = handler; mResult = result; loadTransitionOverride(context, handler); } @Override protected ViewTree doInBackground(Void... params) { try { if (mResult == null) { mResult = inflateView(mContext, mRV, mParent); } mTree = new ViewTree(mResult); if (mRV.mActions != null) { int count = mRV.mActions.size(); mActions = new Action[count]; for (int i = 0; i < count && !isCancelled(); i++) { // TODO: check if isCancelled in nested views. mActions[i] = mRV.mActions.get(i).initActionAsync(mTree, mParent, mHandler); } } else { mActions = null; } return mTree; } catch (Exception e) { mError = e; return null; } } @Override protected void onPostExecute(ViewTree viewTree) { if (mError == null) { try { if (mActions != null) { OnClickHandler handler = mHandler == null ? DEFAULT_ON_CLICK_HANDLER : mHandler; for (Action a : mActions) { a.apply(viewTree.mRoot, mParent, handler); } } } catch (Exception e) { mError = e; } } if (mListener != null) { if (mError != null) { mListener.onError(mError); } else { mListener.onViewApplied(viewTree.mRoot); } } else if (mError != null) { if (mError instanceof ActionException) { throw (ActionException) mError; } else { throw new ActionException(mError); } } } @Override public void onCancel() { cancel(true); } } /** * Applies all of the actions to the provided view. * *

Caller beware: this may throw * * @param v The view to apply the actions to. This should be the result of * the {@link #apply(Context,ViewGroup)} call. */ public void reapply(Context context, View v) { reapply(context, v, null); } /** @hide */ public void reapply(Context context, View v, OnClickHandler handler) { RemoteViews rvToApply = getRemoteViewsToApply(context); // In the case that a view has this RemoteViews applied in one orientation, is persisted // across orientation change, and has the RemoteViews re-applied in the new orientation, // we throw an exception, since the layouts may be completely unrelated. if (hasLandscapeAndPortraitLayouts()) { if ((Integer) v.getTag(R.id.widget_frame) != rvToApply.getLayoutId()) { throw new RuntimeException("Attempting to re-apply RemoteViews to a view that" + " that does not share the same root layout id."); } } rvToApply.performApply(v, (ViewGroup) v.getParent(), handler); } /** * Applies all the actions to the provided view, moving as much of the task on the background * thread as possible. * * @see #reapply(Context, View) * @param context Default context to use * @param v The view to apply the actions to. This should be the result of * the {@link #apply(Context,ViewGroup)} call. * @param listener the callback to run when all actions have been applied. May be null. * @param executor The executor to use. If null {@link AsyncTask#THREAD_POOL_EXECUTOR} is used * @return CancellationSignal * @hide */ public CancellationSignal reapplyAsync( Context context, View v, Executor executor, OnViewAppliedListener listener) { return reapplyAsync(context, v, executor, listener, null); } /** @hide */ public CancellationSignal reapplyAsync(Context context, View v, Executor executor, OnViewAppliedListener listener, OnClickHandler handler) { RemoteViews rvToApply = getRemoteViewsToApply(context); // In the case that a view has this RemoteViews applied in one orientation, is persisted // across orientation change, and has the RemoteViews re-applied in the new orientation, // we throw an exception, since the layouts may be completely unrelated. if (hasLandscapeAndPortraitLayouts()) { if ((Integer) v.getTag(R.id.widget_frame) != rvToApply.getLayoutId()) { throw new RuntimeException("Attempting to re-apply RemoteViews to a view that" + " that does not share the same root layout id."); } } return startTaskOnExecutor(new AsyncApplyTask(rvToApply, (ViewGroup) v.getParent(), context, listener, handler, v), executor); } private void performApply(View v, ViewGroup parent, OnClickHandler handler) { if (mActions != null) { handler = handler == null ? DEFAULT_ON_CLICK_HANDLER : handler; final int count = mActions.size(); for (int i = 0; i < count; i++) { Action a = mActions.get(i); a.apply(v, parent, handler); } } } /** * Returns true if the RemoteViews contains potentially costly operations and should be * applied asynchronously. * * @hide */ public boolean prefersAsyncApply() { if (mActions != null) { final int count = mActions.size(); for (int i = 0; i < count; i++) { if (mActions.get(i).prefersAsyncApply()) { return true; } } } return false; } private Context getContextForResources(Context context) { if (mApplication != null) { if (context.getUserId() == UserHandle.getUserId(mApplication.uid) && context.getPackageName().equals(mApplication.packageName)) { return context; } try { return context.createApplicationContext(mApplication, Context.CONTEXT_RESTRICTED); } catch (NameNotFoundException e) { Log.e(LOG_TAG, "Package name " + mApplication.packageName + " not found"); } } return context; } /** * Returns the number of actions in this RemoteViews. Can be used as a sequence number. * * @hide */ public int getSequenceNumber() { return (mActions == null) ? 0 : mActions.size(); } /* (non-Javadoc) * Used to restrict the views which can be inflated * * @see android.view.LayoutInflater.Filter#onLoadClass(java.lang.Class) */ public boolean onLoadClass(Class clazz) { return clazz.isAnnotationPresent(RemoteView.class); } public int describeContents() { return 0; } public void writeToParcel(Parcel dest, int flags) { if (!hasLandscapeAndPortraitLayouts()) { dest.writeInt(MODE_NORMAL); // We only write the bitmap cache if we are the root RemoteViews, as this cache // is shared by all children. if (mIsRoot) { mBitmapCache.writeBitmapsToParcel(dest, flags); } if (!mIsRoot && (flags & PARCELABLE_ELIDE_DUPLICATES) != 0) { dest.writeInt(0); } else { dest.writeInt(1); mApplication.writeToParcel(dest, flags); } dest.writeInt(mLayoutId); dest.writeInt(mIsWidgetCollectionChild ? 1 : 0); int count; if (mActions != null) { count = mActions.size(); } else { count = 0; } dest.writeInt(count); for (int i=0; i CREATOR = new Parcelable.Creator() { public RemoteViews createFromParcel(Parcel parcel) { return new RemoteViews(parcel); } public RemoteViews[] newArray(int size) { return new RemoteViews[size]; } }; /** * A representation of the view hierarchy. Only views which have a valid ID are added * and can be searched. */ private static class ViewTree { private View mRoot; private ArrayList mChildren; private ViewTree(View root) { mRoot = root; } public void createTree() { if (mChildren != null) { return; } mChildren = new ArrayList<>(); if (mRoot instanceof ViewGroup) { ViewGroup vg = (ViewGroup) mRoot; int count = vg.getChildCount(); for (int i = 0; i < count; i++) { addViewChild(vg.getChildAt(i)); } } } public ViewTree findViewTreeById(int id) { if (mRoot.getId() == id) { return this; } if (mChildren == null) { return null; } for (ViewTree tree : mChildren) { ViewTree result = tree.findViewTreeById(id); if (result != null) { return result; } } return null; } public void replaceView(View v) { mRoot = v; mChildren = null; createTree(); } public T findViewById(int id) { if (mChildren == null) { return mRoot.findViewById(id); } ViewTree tree = findViewTreeById(id); return tree == null ? null : (T) tree.mRoot; } public void addChild(ViewTree child) { if (mChildren == null) { mChildren = new ArrayList<>(); } child.createTree(); mChildren.add(child); } private void addViewChild(View v) { // ViewTree only contains Views which can be found using findViewById. // If isRootNamespace is true, this view is skipped. // @see ViewGroup#findViewTraversal(int) if (v.isRootNamespace()) { return; } final ViewTree target; // If the view has a valid id, i.e., if can be found using findViewById, add it to the // tree, otherwise skip this view and add its children instead. if (v.getId() != 0) { ViewTree tree = new ViewTree(v); mChildren.add(tree); target = tree; } else { target = this; } if (v instanceof ViewGroup) { if (target.mChildren == null) { target.mChildren = new ArrayList<>(); ViewGroup vg = (ViewGroup) v; int count = vg.getChildCount(); for (int i = 0; i < count; i++) { target.addViewChild(vg.getChildAt(i)); } } } } } }