/* * Copyright (C) 2011 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 com.android.launcher3; import android.animation.AnimatorSet; import android.animation.ValueAnimator; import android.appwidget.AppWidgetHostView; import android.appwidget.AppWidgetManager; import android.appwidget.AppWidgetProviderInfo; import android.content.ComponentName; import android.content.Context; import android.content.pm.PackageManager; import android.content.pm.ResolveInfo; import android.content.res.Resources; import android.content.res.TypedArray; import android.graphics.Bitmap; import android.graphics.Point; import android.graphics.Rect; import android.graphics.drawable.Drawable; import android.os.AsyncTask; import android.os.Build; import android.os.Bundle; import android.os.Process; import android.provider.Settings; import android.util.AttributeSet; import android.util.Log; import android.view.Gravity; import android.view.KeyEvent; import android.view.LayoutInflater; import android.view.View; import android.view.ViewGroup; import android.view.animation.AccelerateInterpolator; import android.widget.GridLayout; import android.widget.ImageView; import android.widget.Toast; import com.android.launcher3.DropTarget.DragObject; import com.android.launcher3.compat.AppWidgetManagerCompat; import com.android.launcher3.settings.SettingsProvider; import java.util.ArrayList; import java.util.Collections; import java.util.Comparator; import java.util.Iterator; import java.util.List; /** * A simple callback interface which also provides the results of the task. */ interface AsyncTaskCallback { void run(AppsCustomizeAsyncTask task, AsyncTaskPageData data); } /** * The data needed to perform either of the custom AsyncTasks. */ class AsyncTaskPageData { enum Type { LoadWidgetPreviewData } AsyncTaskPageData(int p, ArrayList l, int cw, int ch, AsyncTaskCallback bgR, AsyncTaskCallback postR, WidgetPreviewLoader w) { page = p; items = l; generatedImages = new ArrayList(); maxImageWidth = cw; maxImageHeight = ch; doInBackgroundCallback = bgR; postExecuteCallback = postR; widgetPreviewLoader = w; } void cleanup(boolean cancelled) { // Clean up any references to source/generated bitmaps if (generatedImages != null) { if (cancelled) { for (int i = 0; i < generatedImages.size(); i++) { widgetPreviewLoader.recycleBitmap(items.get(i), generatedImages.get(i)); } } generatedImages.clear(); } } int page; ArrayList items; ArrayList sourceImages; ArrayList generatedImages; int maxImageWidth; int maxImageHeight; AsyncTaskCallback doInBackgroundCallback; AsyncTaskCallback postExecuteCallback; WidgetPreviewLoader widgetPreviewLoader; } /** * A generic template for an async task used in AppsCustomize. */ class AppsCustomizeAsyncTask extends AsyncTask { AppsCustomizeAsyncTask(int p, AsyncTaskPageData.Type ty) { page = p; threadPriority = Process.THREAD_PRIORITY_DEFAULT; dataType = ty; } @Override protected AsyncTaskPageData doInBackground(AsyncTaskPageData... params) { if (params.length != 1) return null; // Load each of the widget previews in the background params[0].doInBackgroundCallback.run(this, params[0]); return params[0]; } @Override protected void onPostExecute(AsyncTaskPageData result) { // All the widget previews are loaded, so we can just callback to inflate the page result.postExecuteCallback.run(this, result); } void setThreadPriority(int p) { threadPriority = p; } void syncThreadPriority() { Process.setThreadPriority(threadPriority); } // The page that this async task is associated with AsyncTaskPageData.Type dataType; int page; int threadPriority; } /** * The Apps/Customize page that displays all the applications, widgets, and shortcuts. */ public class AppsCustomizePagedView extends PagedViewWithDraggableItems implements View.OnClickListener, View.OnKeyListener, DragSource, PagedViewWidget.ShortPressListener, LauncherTransitionable { static final String TAG = "AppsCustomizePagedView"; private static Rect sTmpRect = new Rect(); /** * The different content types that this paged view can show. */ public enum ContentType { Applications, Widgets } private ContentType mContentType = ContentType.Applications; /** * The different sort modes than can be used to order items. */ public enum SortMode { Title(0), LaunchCount(1), InstallTime(2); private final int mValue; private SortMode(int value) { mValue = value; } public int getValue() { return mValue; } public static SortMode getModeForValue(int value) { switch (value) { case 1: return LaunchCount; case 2: return InstallTime; default : return Title; } } } private SortMode mSortMode = SortMode.Title; private int mFilterApps = FILTER_APPS_SYSTEM_FLAG | FILTER_APPS_DOWNLOADED_FLAG; private static final int FILTER_APPS_SYSTEM_FLAG = 1; private static final int FILTER_APPS_DOWNLOADED_FLAG = 2; // Refs private Launcher mLauncher; private DragController mDragController; private final LayoutInflater mLayoutInflater; private final PackageManager mPackageManager; // Save and Restore private int mSaveInstanceStateItemIndex = -1; // Content private ArrayList mApps; private ArrayList mWidgets; private ArrayList mFilteredApps; private ArrayList mFilteredWidgets; private ArrayList mProtectedApps; private ArrayList mProtectedPackages; // Cling private boolean mHasShownAllAppsCling; private int mClingFocusedX; private int mClingFocusedY; // Caching private IconCache mIconCache; // Dimens private int mContentWidth, mContentHeight; private int mWidgetCountX, mWidgetCountY; private PagedViewCellLayout mWidgetSpacingLayout; private int mNumAppsPages; private int mNumWidgetPages; private Rect mAllAppsPadding = new Rect(); // Animation states enum State { NORMAL, OVERVIEW}; private State mState = State.NORMAL; private boolean mIsSwitchingState = false; // Animation values private float mNewScale; private float[] mOldBackgroundAlphas; private float[] mOldAlphas; private float[] mNewBackgroundAlphas; private float[] mNewAlphas; // Relating to the scroll and overscroll effects private static float TRANSITION_MAX_ROTATION = 22; private static final float ALPHA_CUTOFF_THRESHOLD = 0.01f; private boolean mOverscrollTransformsSet; private float mLastOverscrollPivotX; public static boolean DISABLE_ALL_APPS = false; // Previews & outlines ArrayList mRunningTasks; private static final int sPageSleepDelay = 200; private Runnable mInflateWidgetRunnable = null; private Runnable mBindWidgetRunnable = null; static final int WIDGET_NO_CLEANUP_REQUIRED = -1; static final int WIDGET_PRELOAD_PENDING = 0; static final int WIDGET_BOUND = 1; static final int WIDGET_INFLATED = 2; int mWidgetCleanupState = WIDGET_NO_CLEANUP_REQUIRED; int mWidgetLoadingId = -1; PendingAddWidgetInfo mCreateWidgetInfo = null; private boolean mDraggingWidget = false; boolean mPageBackgroundsVisible = true; private Toast mWidgetInstructionToast; // Deferral of loading widget previews during launcher transitions private boolean mInTransition; private ArrayList mDeferredSyncWidgetPageItems = new ArrayList(); private ArrayList mDeferredPrepareLoadWidgetPreviewsTasks = new ArrayList(); WidgetPreviewLoader mWidgetPreviewLoader; private boolean mInBulkBind; private boolean mNeedToUpdatePageCountsAndInvalidateData; private int mMode = 0; // For fix location function private static final String PRE_PACKAGE_NAME = "com.android.launcher.res"; private static final String PRE_CLASS_IDENTIFIER = "pre_install_class"; private static final String CT_CLASS_IDENTIFIER = "ct_install_class"; private static final String CT_FIRSTPAGE_IDENTIFIER = "ct_firstpage_app"; // Set first two pages for CT apps private static final int CT_CUSTOMIZED_PAGE_COUNT = 2; private boolean mPreInstallConfig = false; private ArrayList mPreClassArray = new ArrayList (); private ArrayList mCTClassArray = new ArrayList (); private ArrayList mCTFirstPageArray = new ArrayList (); private ArrayList mPreAppList = new ArrayList(); private ArrayList ctApps = new ArrayList(); private ArrayList ctFirstPageApps = new ArrayList(); private final Comparator PREAPP_CT_COMPARATOR = new Comparator() { public final int compare(AppInfo a, AppInfo b) { int indexA = getIndexOfComponent(mPreClassArray, a.componentName); int indexB = getIndexOfComponent(mPreClassArray, b.componentName); return indexA < indexB ? -1 : 1; } }; private final Comparator APP_CT_COMPARATOR = new Comparator() { public final int compare(AppInfo a, AppInfo b) { int indexA = getIndexOfComponent(mCTClassArray, a.componentName); int indexB = getIndexOfComponent(mCTClassArray, b.componentName); return indexA < indexB ? -1 : 1; } }; private final Comparator APP_CT_FIRSTPAGE_COMPARATOR = new Comparator() { public final int compare(AppInfo a, AppInfo b) { int indexA = getIndexOfComponent(mCTFirstPageArray, a.componentName); int indexB = getIndexOfComponent(mCTFirstPageArray, b.componentName); return indexA < indexB ? -1 : 1; } }; public AppsCustomizePagedView(Context context, AttributeSet attrs) { super(context, attrs); mLayoutInflater = LayoutInflater.from(context); mPackageManager = context.getPackageManager(); mApps = new ArrayList(); mFilteredApps = new ArrayList(); mWidgets = new ArrayList(); mFilteredWidgets = new ArrayList(); mIconCache = (LauncherAppState.getInstance()).getIconCache(); mRunningTasks = new ArrayList(); // Save the default widget preview background TypedArray a = context.obtainStyledAttributes(attrs, R.styleable.AppsCustomizePagedView, 0, 0); mWidgetCountX = a.getInt(R.styleable.AppsCustomizePagedView_widgetCountX, 2); mWidgetCountY = a.getInt(R.styleable.AppsCustomizePagedView_widgetCountY, 2); a.recycle(); mWidgetSpacingLayout = new PagedViewCellLayout(getContext()); // The padding on the non-matched dimension for the default widget preview icons // (top + bottom) mFadeInAdjacentScreens = false; TransitionEffect.setFromString(this, SettingsProvider.getString(context, SettingsProvider.SETTINGS_UI_DRAWER_SCROLLING_TRANSITION_EFFECT, R.string.preferences_interface_drawer_scrolling_transition_effect)); // Unless otherwise specified this view is important for accessibility. if (getImportantForAccessibility() == View.IMPORTANT_FOR_ACCESSIBILITY_AUTO) { setImportantForAccessibility(View.IMPORTANT_FOR_ACCESSIBILITY_YES); } setSinglePageInViewport(); updateProtectedAppsList(context); configClassArray(context, mPreClassArray, PRE_CLASS_IDENTIFIER, true); if (LauncherApplication.SHOW_CTAPP_FEATURE) { configClassArray(context, mCTClassArray, CT_CLASS_IDENTIFIER, false); configClassArray(context, mCTFirstPageArray, CT_FIRSTPAGE_IDENTIFIER, false); } } @Override protected void init() { super.init(); mCenterPagesVertically = false; Context context = getContext(); Resources r = context.getResources(); mCameraDistance = (int) CAMERA_DISTANCE;//r.getInteger(R.integer.config_cameraDistance); setDragSlopeThreshold(r.getInteger(R.integer.config_appsCustomizeDragSlopeThreshold)/100f); } public void onFinishInflate() { super.onFinishInflate(); LauncherAppState app = LauncherAppState.getInstance(); DeviceProfile grid = app.getDynamicGrid().getDeviceProfile(); setPadding(grid.edgeMarginPx, 2 * grid.edgeMarginPx, grid.edgeMarginPx, 2 * grid.edgeMarginPx); } void setAllAppsPadding(Rect r) { mAllAppsPadding.set(r); } void setWidgetsPageIndicatorPadding(int pageIndicatorHeight) { setPadding(getPaddingLeft(), getPaddingTop(), getPaddingRight(), pageIndicatorHeight); } WidgetPreviewLoader getWidgetPreviewLoader() { if (mWidgetPreviewLoader == null) { mWidgetPreviewLoader = new WidgetPreviewLoader(mLauncher); } return mWidgetPreviewLoader; } /** Returns the item index of the center item on this page so that we can restore to this * item index when we rotate. */ private int getMiddleComponentIndexOnCurrentPage() { int i = -1; if (getPageCount() > 0) { int currentPage = getCurrentPage(); if (mContentType == ContentType.Applications) { AppsCustomizeCellLayout layout = (AppsCustomizeCellLayout) getPageAt(currentPage); ShortcutAndWidgetContainer childrenLayout = layout.getShortcutsAndWidgets(); int numItemsPerPage = mCellCountX * mCellCountY; int childCount = childrenLayout.getChildCount(); if (childCount > 0) { i = (currentPage * numItemsPerPage) + (childCount / 2); } } else if (mContentType == ContentType.Widgets) { int numApps = mFilteredApps.size(); PagedViewGridLayout layout = (PagedViewGridLayout) getPageAt(currentPage); int numItemsPerPage = mWidgetCountX * mWidgetCountY; int childCount = layout.getChildCount(); if (childCount > 0) { i = numApps + (currentPage * numItemsPerPage) + (childCount / 2); } } else { throw new RuntimeException("Invalid ContentType"); } } return i; } /** Get the index of the item to restore to if we need to restore the current page. */ int getSaveInstanceStateIndex() { if (mSaveInstanceStateItemIndex == -1) { mSaveInstanceStateItemIndex = getMiddleComponentIndexOnCurrentPage(); } return mSaveInstanceStateItemIndex; } /** Returns the page in the current orientation which is expected to contain the specified * item index. */ int getPageForComponent(int index) { if (index < 0) return 0; if (index < mFilteredApps.size()) { int numItemsPerPage = mCellCountX * mCellCountY; return (index / numItemsPerPage); } else { int numItemsPerPage = mWidgetCountX * mWidgetCountY; return (index - mFilteredApps.size()) / numItemsPerPage; } } /** Restores the page for an item at the specified index */ void restorePageForIndex(int index) { if (index < 0) return; mSaveInstanceStateItemIndex = index; } private void updatePageCounts() { mNumWidgetPages = (int) Math.ceil((float) mFilteredWidgets.size() / (float) (mWidgetCountX * mWidgetCountY)); mNumAppsPages = (int) Math.ceil((float) mFilteredApps.size() / (mCellCountX * mCellCountY)); if(LauncherApplication.SHOW_CTAPP_FEATURE){ mNumAppsPages = mNumAppsPages + 2; //for ct } } protected void onDataReady(int width, int height) { // Now that the data is ready, we can calculate the content width, the number of cells to // use for each page updateGridSize(); // Force a measure to update recalculate the gaps mContentWidth = getMeasuredWidth() - getPaddingLeft() - getPaddingRight(); mContentHeight = getMeasuredHeight() - getPaddingTop() - getPaddingBottom(); int widthSpec = MeasureSpec.makeMeasureSpec(mContentWidth, MeasureSpec.AT_MOST); int heightSpec = MeasureSpec.makeMeasureSpec(mContentHeight, MeasureSpec.AT_MOST); mWidgetSpacingLayout.measure(widthSpec, heightSpec); final boolean hostIsTransitioning = getTabHost().isInTransition(); int page = getPageForComponent(mSaveInstanceStateItemIndex); invalidatePageData(Math.max(0, page), hostIsTransitioning); } public void updateGridSize() { if (!isDataReady()) { return; } LauncherAppState app = LauncherAppState.getInstance(); DeviceProfile grid = app.getDynamicGrid().getDeviceProfile(); mCellCountX = (int) grid.allAppsNumCols; mCellCountY = (int) grid.allAppsNumRows; updatePageCounts(); } protected void onLayout(boolean changed, int l, int t, int r, int b) { super.onLayout(changed, l, t, r, b); if (!isDataReady()) { if ((LauncherAppState.isDisableAllApps() || !mFilteredApps.isEmpty()) && !mFilteredWidgets.isEmpty()) { post(new Runnable() { // This code triggers requestLayout so must be posted outside of the // layout pass. public void run() { boolean attached = true; if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.KITKAT) { attached = isAttachedToWindow(); } if (attached) { setDataIsReady(); onDataReady(getMeasuredWidth(), getMeasuredHeight()); } } }); } } } public void onPackagesUpdated(ArrayList widgetsAndShortcuts) { LauncherAppState app = LauncherAppState.getInstance(); DeviceProfile grid = app.getDynamicGrid().getDeviceProfile(); // Get the list of widgets and shortcuts mWidgets.clear(); for (Object o : widgetsAndShortcuts) { if (o instanceof AppWidgetProviderInfo) { AppWidgetProviderInfo widget = (AppWidgetProviderInfo) o; if (!app.shouldShowAppOrWidgetProvider(widget.provider)) { continue; } if (widget.minWidth > 0 && widget.minHeight > 0) { // Ensure that all widgets we show can be added on a workspace of this size int[] spanXY = Launcher.getSpanForWidget(mLauncher, widget); int[] minSpanXY = Launcher.getMinSpanForWidget(mLauncher, widget); int minSpanX = Math.min(spanXY[0], minSpanXY[0]); int minSpanY = Math.min(spanXY[1], minSpanXY[1]); if (minSpanX <= (int) grid.numColumns && minSpanY <= (int) grid.numRows) { mWidgets.add(widget); } else { Log.e(TAG, "Widget " + widget.provider + " can not fit on this device (" + widget.minWidth + ", " + widget.minHeight + ")"); } } else { Log.e(TAG, "Widget " + widget.provider + " has invalid dimensions (" + widget.minWidth + ", " + widget.minHeight + ")"); } } else { // just add shortcuts mWidgets.add(o); } } filterWidgets(); } public void setBulkBind(boolean bulkBind) { if (bulkBind) { mInBulkBind = true; } else { mInBulkBind = false; if (mNeedToUpdatePageCountsAndInvalidateData) { updatePageCountsAndInvalidateData(); } } } private void updatePageCountsAndInvalidateData() { if (mInBulkBind) { mNeedToUpdatePageCountsAndInvalidateData = true; } else { updatePageCounts(); invalidateOnDataChange(); mNeedToUpdatePageCountsAndInvalidateData = false; } } @Override public void onClick(View v) { // When we have exited all apps or are in transition, disregard clicks if (!mLauncher.isAllAppsVisible() || mLauncher.getWorkspace().isSwitchingState() || !(v instanceof PagedViewWidget)) return; // Let the user know that they have to long press to add a widget if (mWidgetInstructionToast != null) { mWidgetInstructionToast.cancel(); } mWidgetInstructionToast = Toast.makeText(getContext(),R.string.long_press_widget_to_add, Toast.LENGTH_SHORT); mWidgetInstructionToast.show(); // Create a little animation to show that the widget can move float offsetY = getResources().getDimensionPixelSize(R.dimen.dragViewOffsetY); final ImageView p = (ImageView) v.findViewById(R.id.widget_preview); AnimatorSet bounce = LauncherAnimUtils.createAnimatorSet(); ValueAnimator tyuAnim = LauncherAnimUtils.ofFloat(p, "translationY", offsetY); tyuAnim.setDuration(125); ValueAnimator tydAnim = LauncherAnimUtils.ofFloat(p, "translationY", 0f); tydAnim.setDuration(100); bounce.play(tyuAnim).before(tydAnim); bounce.setInterpolator(new AccelerateInterpolator()); bounce.start(); } public boolean onKey(View v, int keyCode, KeyEvent event) { return FocusHelper.handleAppsCustomizeKeyEvent(v, keyCode, event); } /* * PagedViewWithDraggableItems implementation */ @Override protected void determineDraggingStart(android.view.MotionEvent ev) { // Disable dragging by pulling an app down for now. } private void beginDraggingApplication(View v) { mLauncher.getWorkspace().beginDragShared(v, this); } static Bundle getDefaultOptionsForWidget(Launcher launcher, PendingAddWidgetInfo info) { Bundle options = null; if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.JELLY_BEAN_MR1) { AppWidgetResizeFrame.getWidgetSizeRanges(launcher, info.spanX, info.spanY, sTmpRect); Rect padding = AppWidgetHostView.getDefaultPaddingForWidget(launcher, info.componentName, null); float density = launcher.getResources().getDisplayMetrics().density; int xPaddingDips = (int) ((padding.left + padding.right) / density); int yPaddingDips = (int) ((padding.top + padding.bottom) / density); options = new Bundle(); options.putInt(AppWidgetManager.OPTION_APPWIDGET_MIN_WIDTH, sTmpRect.left - xPaddingDips); options.putInt(AppWidgetManager.OPTION_APPWIDGET_MIN_HEIGHT, sTmpRect.top - yPaddingDips); options.putInt(AppWidgetManager.OPTION_APPWIDGET_MAX_WIDTH, sTmpRect.right - xPaddingDips); options.putInt(AppWidgetManager.OPTION_APPWIDGET_MAX_HEIGHT, sTmpRect.bottom - yPaddingDips); } return options; } private void preloadWidget(final PendingAddWidgetInfo info) { final AppWidgetProviderInfo pInfo = info.info; final Bundle options = getDefaultOptionsForWidget(mLauncher, info); if (pInfo.configure != null) { info.bindOptions = options; return; } mWidgetCleanupState = WIDGET_PRELOAD_PENDING; mBindWidgetRunnable = new Runnable() { @Override public void run() { mWidgetLoadingId = mLauncher.getAppWidgetHost().allocateAppWidgetId(); if(AppWidgetManagerCompat.getInstance(mLauncher).bindAppWidgetIdIfAllowed( mWidgetLoadingId, pInfo, options)) { mWidgetCleanupState = WIDGET_BOUND; } } }; post(mBindWidgetRunnable); mInflateWidgetRunnable = new Runnable() { @Override public void run() { if (mWidgetCleanupState != WIDGET_BOUND) { return; } AppWidgetHostView hostView = mLauncher. getAppWidgetHost().createView(getContext(), mWidgetLoadingId, pInfo); info.boundWidget = hostView; mWidgetCleanupState = WIDGET_INFLATED; hostView.setVisibility(INVISIBLE); int[] unScaledSize = mLauncher.getWorkspace().estimateItemSize(info.spanX, info.spanY, info, false); // We want the first widget layout to be the correct size. This will be important // for width size reporting to the AppWidgetManager. DragLayer.LayoutParams lp = new DragLayer.LayoutParams(unScaledSize[0], unScaledSize[1]); lp.x = lp.y = 0; lp.customPosition = true; hostView.setLayoutParams(lp); mLauncher.getDragLayer().addView(hostView); } }; post(mInflateWidgetRunnable); } @Override public void onShortPress(View v) { // We are anticipating a long press, and we use this time to load bind and instantiate // the widget. This will need to be cleaned up if it turns out no long press occurs. if (mCreateWidgetInfo != null) { // Just in case the cleanup process wasn't properly executed. This shouldn't happen. cleanupWidgetPreloading(false); } mCreateWidgetInfo = new PendingAddWidgetInfo((PendingAddWidgetInfo) v.getTag()); preloadWidget(mCreateWidgetInfo); } private void cleanupWidgetPreloading(boolean widgetWasAdded) { if (!widgetWasAdded) { // If the widget was not added, we may need to do further cleanup. PendingAddWidgetInfo info = mCreateWidgetInfo; mCreateWidgetInfo = null; if (mWidgetCleanupState == WIDGET_PRELOAD_PENDING) { // We never did any preloading, so just remove pending callbacks to do so removeCallbacks(mBindWidgetRunnable); removeCallbacks(mInflateWidgetRunnable); } else if (mWidgetCleanupState == WIDGET_BOUND) { // Delete the widget id which was allocated if (mWidgetLoadingId != -1) { mLauncher.getAppWidgetHost().deleteAppWidgetId(mWidgetLoadingId); } // We never got around to inflating the widget, so remove the callback to do so. removeCallbacks(mInflateWidgetRunnable); } else if (mWidgetCleanupState == WIDGET_INFLATED) { // Delete the widget id which was allocated if (mWidgetLoadingId != -1) { mLauncher.getAppWidgetHost().deleteAppWidgetId(mWidgetLoadingId); } // The widget was inflated and added to the DragLayer -- remove it. AppWidgetHostView widget = info.boundWidget; mLauncher.getDragLayer().removeView(widget); } } mWidgetCleanupState = WIDGET_NO_CLEANUP_REQUIRED; mWidgetLoadingId = -1; mCreateWidgetInfo = null; PagedViewWidget.resetShortPressTarget(); } @Override public void cleanUpShortPress(View v) { if (!mDraggingWidget) { cleanupWidgetPreloading(false); } } private boolean beginDraggingWidget(View v) { mDraggingWidget = true; // Get the widget preview as the drag representation ImageView image = (ImageView) v.findViewById(R.id.widget_preview); PendingAddItemInfo createItemInfo = (PendingAddItemInfo) v.getTag(); // If the ImageView doesn't have a drawable yet, the widget preview hasn't been loaded and // we abort the drag. if (image.getDrawable() == null) { mDraggingWidget = false; return false; } // Compose the drag image Bitmap preview; Bitmap outline; float scale = 1f; Point previewPadding = null; if (createItemInfo instanceof PendingAddWidgetInfo) { // This can happen in some weird cases involving multi-touch. We can't start dragging // the widget if this is null, so we break out. if (mCreateWidgetInfo == null) { return false; } PendingAddWidgetInfo createWidgetInfo = mCreateWidgetInfo; createItemInfo = createWidgetInfo; int spanX = createItemInfo.spanX; int spanY = createItemInfo.spanY; int[] size = mLauncher.getWorkspace().estimateItemSize(spanX, spanY, createWidgetInfo, true); FastBitmapDrawable previewDrawable = (FastBitmapDrawable) image.getDrawable(); float minScale = 1.25f; int maxWidth, maxHeight; maxWidth = Math.min((int) (previewDrawable.getIntrinsicWidth() * minScale), size[0]); maxHeight = Math.min((int) (previewDrawable.getIntrinsicHeight() * minScale), size[1]); int[] previewSizeBeforeScale = new int[1]; preview = getWidgetPreviewLoader().generateWidgetPreview(createWidgetInfo.info, spanX, spanY, maxWidth, maxHeight, null, previewSizeBeforeScale); // Compare the size of the drag preview to the preview in the AppsCustomize tray int previewWidthInAppsCustomize = Math.min(previewSizeBeforeScale[0], getWidgetPreviewLoader().maxWidthForWidgetPreview(spanX)); scale = previewWidthInAppsCustomize / (float) preview.getWidth(); // The bitmap in the AppsCustomize tray is always the the same size, so there // might be extra pixels around the preview itself - this accounts for that if (previewWidthInAppsCustomize < previewDrawable.getIntrinsicWidth()) { int padding = (previewDrawable.getIntrinsicWidth() - previewWidthInAppsCustomize) / 2; previewPadding = new Point(padding, 0); } } else { PendingAddShortcutInfo createShortcutInfo = (PendingAddShortcutInfo) v.getTag(); Drawable icon = mIconCache.getFullResIcon(createShortcutInfo.shortcutActivityInfo); preview = Utilities.createIconBitmap(icon, mLauncher); createItemInfo.spanX = createItemInfo.spanY = 1; } // Don't clip alpha values for the drag outline if we're using the default widget preview boolean clipAlpha = !(createItemInfo instanceof PendingAddWidgetInfo && (((PendingAddWidgetInfo) createItemInfo).previewImage == 0)); // Save the preview for the outline generation, then dim the preview outline = Bitmap.createScaledBitmap(preview, preview.getWidth(), preview.getHeight(), false); // Start the drag mLauncher.lockScreenOrientation(); mLauncher.getWorkspace().onDragStartedWithItem(createItemInfo, outline, clipAlpha); mDragController.startDrag(image, preview, this, createItemInfo, DragController.DRAG_ACTION_COPY, previewPadding, scale); outline.recycle(); preview.recycle(); return true; } @Override protected boolean beginDragging(final View v) { if (!super.beginDragging(v)) return false; if (v instanceof BubbleTextView) { beginDraggingApplication(v); } else if (v instanceof PagedViewWidget) { if (!beginDraggingWidget(v)) { return false; } } // We delay entering spring-loaded mode slightly to make sure the UI // thready is free of any work. postDelayed(new Runnable() { @Override public void run() { // We don't enter spring-loaded mode if the drag has been cancelled if (mLauncher.getDragController().isDragging()) { // Go into spring loaded mode (must happen before we startDrag()) mLauncher.enterSpringLoadedDragMode(); } } }, 150); return true; } /** * Clean up after dragging. * * @param target where the item was dragged to (can be null if the item was flung) */ private void endDragging(View target, boolean isFlingToDelete, boolean success) { if (isFlingToDelete || !success || (target != mLauncher.getWorkspace() && !(target instanceof DeleteDropTarget) && !(target instanceof Folder))) { // Exit spring loaded mode if we have not successfully dropped or have not handled the // drop in Workspace mLauncher.exitSpringLoadedDragMode(); mLauncher.unlockScreenOrientation(false); } else { mLauncher.unlockScreenOrientation(false); } } @Override public View getContent() { if (getChildCount() > 0) { return getChildAt(0); } return null; } @Override public void onLauncherTransitionPrepare(Launcher l, boolean animated, boolean toWorkspace) { mInTransition = true; if (toWorkspace) { cancelAllTasks(); } } @Override public void onLauncherTransitionStart(Launcher l, boolean animated, boolean toWorkspace) { } @Override public void onLauncherTransitionStep(Launcher l, float t) { } @Override public void onLauncherTransitionEnd(Launcher l, boolean animated, boolean toWorkspace) { mInTransition = false; for (AsyncTaskPageData d : mDeferredSyncWidgetPageItems) { onSyncWidgetPageItems(d, false); } mDeferredSyncWidgetPageItems.clear(); for (Runnable r : mDeferredPrepareLoadWidgetPreviewsTasks) { r.run(); } mDeferredPrepareLoadWidgetPreviewsTasks.clear(); mForceDrawAllChildrenNextFrame = !toWorkspace; } @Override public void onDropCompleted(View target, DragObject d, boolean isFlingToDelete, boolean success) { // Return early and wait for onFlingToDeleteCompleted if this was the result of a fling if (isFlingToDelete) return; endDragging(target, false, success); // Display an error message if the drag failed due to there not being enough space on the // target layout we were dropping on. if (!success) { boolean showOutOfSpaceMessage = false; if (target instanceof Workspace) { int currentScreen = mLauncher.getCurrentWorkspaceScreen(); Workspace workspace = (Workspace) target; CellLayout layout = (CellLayout) workspace.getChildAt(currentScreen); ItemInfo itemInfo = (ItemInfo) d.dragInfo; if (layout != null) { layout.calculateSpans(itemInfo); showOutOfSpaceMessage = !layout.findCellForSpan(null, itemInfo.spanX, itemInfo.spanY); } } if (showOutOfSpaceMessage) { mLauncher.showOutOfSpaceMessage(false); } d.deferDragViewCleanupPostAnimation = false; } cleanupWidgetPreloading(success); mDraggingWidget = false; } @Override public void onFlingToDeleteCompleted() { // We just dismiss the drag when we fling, so cleanup here endDragging(null, true, true); cleanupWidgetPreloading(false); mDraggingWidget = false; } @Override public boolean supportsFlingToDelete() { return true; } @Override public boolean supportsAppInfoDropTarget() { return true; } @Override public boolean supportsDeleteDropTarget() { return false; } @Override public float getIntrinsicIconScaleFactor() { LauncherAppState app = LauncherAppState.getInstance(); DeviceProfile grid = app.getDynamicGrid().getDeviceProfile(); return (float) grid.allAppsIconSizePx / grid.iconSizePx; } @Override protected void onDetachedFromWindow() { super.onDetachedFromWindow(); cancelAllTasks(); } public void clearAllWidgetPages() { cancelAllTasks(); int count = getChildCount(); for (int i = 0; i < count; i++) { View v = getPageAt(i); if (v instanceof PagedViewGridLayout) { ((PagedViewGridLayout) v).removeAllViewsOnPage(); mDirtyPageContent.set(i, true); } } } private void cancelAllTasks() { // Clean up all the async tasks Iterator iter = mRunningTasks.iterator(); while (iter.hasNext()) { AppsCustomizeAsyncTask task = (AppsCustomizeAsyncTask) iter.next(); task.cancel(false); iter.remove(); mDirtyPageContent.set(task.page, true); // We've already preallocated the views for the data to load into, so clear them as well View v = getPageAt(task.page); if (v instanceof PagedViewGridLayout) { ((PagedViewGridLayout) v).removeAllViewsOnPage(); } } mDeferredSyncWidgetPageItems.clear(); mDeferredPrepareLoadWidgetPreviewsTasks.clear(); } public void setContentType(ContentType type) { // Widgets appear to be cleared every time you leave, always force invalidate for them if (mContentType != type || type == ContentType.Widgets) { int page = (mContentType != type) ? 0 : getCurrentPage(); mContentType = type; invalidatePageData(page, true); } } public ContentType getContentType() { return mContentType; } protected void snapToPage(int whichPage, int delta, int duration) { super.snapToPage(whichPage, delta, duration); // Update the thread priorities given the direction lookahead Iterator iter = mRunningTasks.iterator(); while (iter.hasNext()) { AppsCustomizeAsyncTask task = (AppsCustomizeAsyncTask) iter.next(); int pageIndex = task.page; if ((mNextPage > mCurrentPage && pageIndex >= mCurrentPage) || (mNextPage < mCurrentPage && pageIndex <= mCurrentPage)) { task.setThreadPriority(getThreadPriorityForPage(pageIndex)); } else { task.setThreadPriority(Process.THREAD_PRIORITY_LOWEST); } } } /* * Apps PagedView implementation */ private void setVisibilityOnChildren(ViewGroup layout, int visibility) { int childCount = layout.getChildCount(); for (int i = 0; i < childCount; ++i) { layout.getChildAt(i).setVisibility(visibility); } } private void setupPage(AppsCustomizeCellLayout layout) { layout.setGridSize(mCellCountX, mCellCountY); // Note: We force a measure here to get around the fact that when we do layout calculations // immediately after syncing, we don't have a proper width. That said, we already know the // expected page width, so we can actually optimize by hiding all the TextView-based // children that are expensive to measure, and let that happen naturally later. setVisibilityOnChildren(layout, View.GONE); int widthSpec = MeasureSpec.makeMeasureSpec(mContentWidth, MeasureSpec.AT_MOST); int heightSpec = MeasureSpec.makeMeasureSpec(mContentHeight, MeasureSpec.AT_MOST); layout.measure(widthSpec, heightSpec); Drawable bg = getContext().getResources().getDrawable(R.drawable.quantum_panel); if (bg != null) { bg.setAlpha(mPageBackgroundsVisible ? 255: 0); layout.setBackground(bg); } setVisibilityOnChildren(layout, View.VISIBLE); } public void setPageBackgroundsVisible(boolean visible) { mPageBackgroundsVisible = visible; int childCount = getChildCount(); for (int i = 0; i < childCount; ++i) { Drawable bg = getChildAt(i).getBackground(); if (bg != null) { bg.setAlpha(visible ? 255 : 0); } } } public void syncAppsPageItems(int page, boolean immediate) { // ensure that we have the right number of items on the pages final boolean isRtl = isLayoutRtl(); int numCells = mCellCountX * mCellCountY; AppsCustomizeCellLayout layout = (AppsCustomizeCellLayout) getPageAt(page); //set page 1 & 2 to CT's app boolean isCTFlag = LauncherApplication.SHOW_CTAPP_FEATURE && (page < CT_CUSTOMIZED_PAGE_COUNT); int startIndex = isCTFlag ? 0 : ((LauncherApplication.SHOW_CTAPP_FEATURE && page >= CT_CUSTOMIZED_PAGE_COUNT) ? (page - CT_CUSTOMIZED_PAGE_COUNT) * numCells : page * numCells); int ctEndIndex = (page == 0) ? Math.min(startIndex + numCells, ctFirstPageApps.size()) : Math.min(startIndex + numCells, ctApps.size()); int defEndIndex = Math.min(startIndex + numCells, mFilteredApps.size()); int endIndex = isCTFlag ? ctEndIndex : defEndIndex ; layout.removeAllViewsOnPage(); ArrayList items = new ArrayList(); ArrayList images = new ArrayList(); boolean hideIconLabels = SettingsProvider.getBoolean(mLauncher, SettingsProvider.SETTINGS_UI_DRAWER_HIDE_ICON_LABELS, R.bool.preferences_interface_drawer_hide_icon_labels_default); for (int i = startIndex; i < endIndex; ++i) { AppInfo info = isCTFlag ? ((page == 0) ? ctFirstPageApps.get(i) : ctApps.get(i)) : mFilteredApps.get(i); BubbleTextView icon = (BubbleTextView) mLayoutInflater.inflate( R.layout.apps_customize_application, layout, false); icon.applyFromApplicationInfo(info); icon.setTextVisibility(!hideIconLabels); icon.setOnClickListener(mLauncher); icon.setOnLongClickListener(this); icon.setOnTouchListener(this); icon.setOnKeyListener(this); icon.setOnFocusChangeListener(layout.mFocusHandlerView); int index = i - startIndex; int x = index % mCellCountX; int y = index / mCellCountX; if (isRtl) { x = mCellCountX - x - 1; } layout.addViewToCellLayout(icon, -1, i, new CellLayout.LayoutParams(x,y, 1,1), false); items.add(info); images.add(info.iconBitmap); } enableHwLayersOnVisiblePages(); } /** * A helper to return the priority for loading of the specified widget page. */ private int getWidgetPageLoadPriority(int page) { // If we are snapping to another page, use that index as the target page index int toPage = mCurrentPage; if (mNextPage > -1) { toPage = mNextPage; } // We use the distance from the target page as an initial guess of priority, but if there // are no pages of higher priority than the page specified, then bump up the priority of // the specified page. Iterator iter = mRunningTasks.iterator(); int minPageDiff = Integer.MAX_VALUE; while (iter.hasNext()) { AppsCustomizeAsyncTask task = (AppsCustomizeAsyncTask) iter.next(); minPageDiff = Math.abs(task.page - toPage); } int rawPageDiff = Math.abs(page - toPage); return rawPageDiff - Math.min(rawPageDiff, minPageDiff); } /** * Return the appropriate thread priority for loading for a given page (we give the current * page much higher priority) */ private int getThreadPriorityForPage(int page) { // TODO-APPS_CUSTOMIZE: detect number of cores and set thread priorities accordingly below int pageDiff = getWidgetPageLoadPriority(page); if (pageDiff <= 0) { return Process.THREAD_PRIORITY_LESS_FAVORABLE; } else if (pageDiff <= 1) { return Process.THREAD_PRIORITY_LOWEST; } else { return Process.THREAD_PRIORITY_LOWEST; } } private int getSleepForPage(int page) { int pageDiff = getWidgetPageLoadPriority(page); return Math.max(0, pageDiff * sPageSleepDelay); } /** * Creates and executes a new AsyncTask to load a page of widget previews. */ private void prepareLoadWidgetPreviewsTask(int page, ArrayList widgets, int cellWidth, int cellHeight, int cellCountX) { // Prune all tasks that are no longer needed Iterator iter = mRunningTasks.iterator(); while (iter.hasNext()) { AppsCustomizeAsyncTask task = (AppsCustomizeAsyncTask) iter.next(); int taskPage = task.page; if (taskPage < getAssociatedLowerPageBound(mCurrentPage) || taskPage > getAssociatedUpperPageBound(mCurrentPage)) { task.cancel(false); iter.remove(); } else { task.setThreadPriority(getThreadPriorityForPage(taskPage)); } } // We introduce a slight delay to order the loading of side pages so that we don't thrash final int sleepMs = getSleepForPage(page); AsyncTaskPageData pageData = new AsyncTaskPageData(page, widgets, cellWidth, cellHeight, new AsyncTaskCallback() { @Override public void run(AppsCustomizeAsyncTask task, AsyncTaskPageData data) { try { try { Thread.sleep(sleepMs); } catch (Exception e) {} loadWidgetPreviewsInBackground(task, data); } finally { if (task.isCancelled()) { data.cleanup(true); } } } }, new AsyncTaskCallback() { @Override public void run(AppsCustomizeAsyncTask task, AsyncTaskPageData data) { mRunningTasks.remove(task); if (task.isCancelled()) return; // do cleanup inside onSyncWidgetPageItems onSyncWidgetPageItems(data, false); } }, getWidgetPreviewLoader()); // Ensure that the task is appropriately prioritized and runs in parallel AppsCustomizeAsyncTask t = new AppsCustomizeAsyncTask(page, AsyncTaskPageData.Type.LoadWidgetPreviewData); t.setThreadPriority(getThreadPriorityForPage(page)); t.executeOnExecutor(AsyncTask.THREAD_POOL_EXECUTOR, pageData); mRunningTasks.add(t); } /* * Widgets PagedView implementation */ private void setupPage(PagedViewGridLayout layout) { // Note: We force a measure here to get around the fact that when we do layout calculations // immediately after syncing, we don't have a proper width. int widthSpec = MeasureSpec.makeMeasureSpec(mContentWidth, MeasureSpec.AT_MOST); int heightSpec = MeasureSpec.makeMeasureSpec(mContentHeight, MeasureSpec.AT_MOST); Drawable bg = getContext().getResources().getDrawable(R.drawable.quantum_panel_dark); if (bg != null) { bg.setAlpha(mPageBackgroundsVisible ? 255 : 0); layout.setBackground(bg); } layout.measure(widthSpec, heightSpec); } public void syncWidgetPageItems(final int page, final boolean immediate) { int numItemsPerPage = mWidgetCountX * mWidgetCountY; final PagedViewGridLayout layout = (PagedViewGridLayout) getPageAt(page); // Calculate the dimensions of each cell we are giving to each widget final ArrayList items = new ArrayList(); int contentWidth = mContentWidth - layout.getPaddingLeft() - layout.getPaddingRight(); final int cellWidth = contentWidth / mWidgetCountX; int contentHeight = mContentHeight - layout.getPaddingTop() - layout.getPaddingBottom(); final int cellHeight = contentHeight / mWidgetCountY; // Prepare the set of widgets to load previews for in the background int offset = page * numItemsPerPage; int size = Math.min(offset + numItemsPerPage, mFilteredWidgets.size()); for (int i = offset; i < size; ++i) { items.add(mFilteredWidgets.get(i)); } // Prepopulate the pages with the other widget info, and fill in the previews later layout.setColumnCount(layout.getCellCountX()); for (int i = 0; i < items.size(); ++i) { Object rawInfo = items.get(i); PendingAddItemInfo createItemInfo = null; PagedViewWidget widget = (PagedViewWidget) mLayoutInflater.inflate( R.layout.apps_customize_widget, layout, false); if (rawInfo instanceof AppWidgetProviderInfo) { // Fill in the widget information AppWidgetProviderInfo info = (AppWidgetProviderInfo) rawInfo; createItemInfo = new PendingAddWidgetInfo(info, null, null); // Determine the widget spans and min resize spans. int[] spanXY = Launcher.getSpanForWidget(mLauncher, info); createItemInfo.spanX = spanXY[0]; createItemInfo.spanY = spanXY[1]; int[] minSpanXY = Launcher.getMinSpanForWidget(mLauncher, info); createItemInfo.minSpanX = minSpanXY[0]; createItemInfo.minSpanY = minSpanXY[1]; widget.applyFromAppWidgetProviderInfo(info, -1, spanXY, getWidgetPreviewLoader()); widget.setTag(createItemInfo); widget.setShortPressListener(this); } else if (rawInfo instanceof ResolveInfo) { // Fill in the shortcuts information ResolveInfo info = (ResolveInfo) rawInfo; createItemInfo = new PendingAddShortcutInfo(info.activityInfo); createItemInfo.itemType = LauncherSettings.Favorites.ITEM_TYPE_SHORTCUT; createItemInfo.componentName = new ComponentName(info.activityInfo.packageName, info.activityInfo.name); widget.applyFromResolveInfo(mPackageManager, info, getWidgetPreviewLoader()); widget.setTag(createItemInfo); } widget.setOnClickListener(this); widget.setOnLongClickListener(this); widget.setOnTouchListener(this); widget.setOnKeyListener(this); // Layout each widget int ix = i % mWidgetCountX; int iy = i / mWidgetCountX; if (ix > 0) { View border = widget.findViewById(R.id.left_border); border.setVisibility(View.VISIBLE); } if (ix < mWidgetCountX - 1) { View border = widget.findViewById(R.id.right_border); border.setVisibility(View.VISIBLE); } GridLayout.LayoutParams lp = new GridLayout.LayoutParams( GridLayout.spec(iy, GridLayout.START), GridLayout.spec(ix, GridLayout.TOP)); lp.width = cellWidth; lp.height = cellHeight; lp.setGravity(Gravity.TOP | Gravity.START); layout.addView(widget, lp); } // wait until a call on onLayout to start loading, because // PagedViewWidget.getPreviewSize() will return 0 if it hasn't been laid out // TODO: can we do a measure/layout immediately? layout.setOnLayoutListener(new Runnable() { public void run() { // Load the widget previews int maxPreviewWidth = cellWidth; int maxPreviewHeight = cellHeight; if (layout.getChildCount() > 0) { PagedViewWidget w = (PagedViewWidget) layout.getChildAt(0); int[] maxSize = w.getPreviewSize(); maxPreviewWidth = maxSize[0]; maxPreviewHeight = maxSize[1]; } getWidgetPreviewLoader().setPreviewSize( maxPreviewWidth, maxPreviewHeight, mWidgetSpacingLayout); if (immediate) { AsyncTaskPageData data = new AsyncTaskPageData(page, items, maxPreviewWidth, maxPreviewHeight, null, null, getWidgetPreviewLoader()); loadWidgetPreviewsInBackground(null, data); onSyncWidgetPageItems(data, immediate); } else { if (mInTransition) { mDeferredPrepareLoadWidgetPreviewsTasks.add(this); } else { prepareLoadWidgetPreviewsTask(page, items, maxPreviewWidth, maxPreviewHeight, mWidgetCountX); } } layout.setOnLayoutListener(null); } }); } private void loadWidgetPreviewsInBackground(AppsCustomizeAsyncTask task, AsyncTaskPageData data) { // loadWidgetPreviewsInBackground can be called without a task to load a set of widget // previews synchronously if (task != null) { // Ensure that this task starts running at the correct priority task.syncThreadPriority(); } // Load each of the widget/shortcut previews ArrayList items = data.items; ArrayList images = data.generatedImages; int count = items.size(); for (int i = 0; i < count; ++i) { if (task != null) { // Ensure we haven't been cancelled yet if (task.isCancelled()) break; // Before work on each item, ensure that this task is running at the correct // priority task.syncThreadPriority(); } images.add(getWidgetPreviewLoader().getPreview(items.get(i))); } } private void onSyncWidgetPageItems(AsyncTaskPageData data, boolean immediatelySyncItems) { if (!immediatelySyncItems && mInTransition) { mDeferredSyncWidgetPageItems.add(data); return; } try { int page = data.page; PagedViewGridLayout layout = (PagedViewGridLayout) getPageAt(page); ArrayList items = data.items; int count = items.size(); for (int i = 0; i < count; ++i) { PagedViewWidget widget = (PagedViewWidget) layout.getChildAt(i); if (widget != null) { Bitmap preview = data.generatedImages.get(i); widget.applyPreview(new FastBitmapDrawable(preview), i); } } enableHwLayersOnVisiblePages(); // Update all thread priorities Iterator iter = mRunningTasks.iterator(); while (iter.hasNext()) { AppsCustomizeAsyncTask task = (AppsCustomizeAsyncTask) iter.next(); int pageIndex = task.page; task.setThreadPriority(getThreadPriorityForPage(pageIndex)); } } finally { data.cleanup(false); } } @Override public void syncPages() { disablePagedViewAnimations(); removeAllViews(); cancelAllTasks(); Context context = getContext(); if (mContentType == ContentType.Applications) { for (int i = 0; i < mNumAppsPages; ++i) { AppsCustomizeCellLayout layout = new AppsCustomizeCellLayout(context); setupPage(layout); addView(layout, new PagedView.LayoutParams(LayoutParams.MATCH_PARENT, LayoutParams.MATCH_PARENT)); } } else if (mContentType == ContentType.Widgets) { for (int j = 0; j < mNumWidgetPages; ++j) { PagedViewGridLayout layout = new PagedViewGridLayout(context, mWidgetCountX, mWidgetCountY); setupPage(layout); addView(layout, new PagedView.LayoutParams(LayoutParams.MATCH_PARENT, LayoutParams.MATCH_PARENT)); } } else { throw new RuntimeException("Invalid ContentType"); } enablePagedViewAnimations(); } @Override public void syncPageItems(int page, boolean immediate) { if (mContentType == ContentType.Widgets) { syncWidgetPageItems(page, immediate); } else { syncAppsPageItems(page, immediate); } } // We want our pages to be z-ordered such that the further a page is to the left, the higher // it is in the z-order. This is important to insure touch events are handled correctly. View getPageAt(int index) { return getChildAt(indexToPage(index)); } @Override protected int indexToPage(int index) { return getChildCount() - index - 1; } // In apps customize, we have a scrolling effect which emulates pulling cards off of a stack. @Override protected void screenScrolled(int screenCenter) { final boolean isRtl = isLayoutRtl(); mUseTransitionEffect = !mIsSwitchingState; super.screenScrolled(screenCenter); enableHwLayersOnVisiblePages(); boolean isInOverscroll = mOverScrollX < 0 || mOverScrollX > mMaxScrollX; if (isInOverscroll) { int index = 0; float pivotX = 0f; final float leftBiasedPivot = 0.35f; final float rightBiasedPivot = 0.65f; final int lowerIndex = 0; final int upperIndex = getChildCount() - 1; final boolean isLeftPage = mOverScrollX < 0; index = (!isRtl && isLeftPage) || (isRtl && !isLeftPage) ? lowerIndex : upperIndex; pivotX = isLeftPage ? rightBiasedPivot : leftBiasedPivot; View v = getPageAt(index); if (!mOverscrollTransformsSet || Float.compare(mLastOverscrollPivotX, pivotX) != 0) { mOverscrollTransformsSet = true; mLastOverscrollPivotX = pivotX; v.setCameraDistance(mDensity * mCameraDistance); v.setPivotX(v.getMeasuredWidth() * pivotX); } float scrollProgress = getScrollProgress(screenCenter, v, index); float rotation = -TRANSITION_MAX_ROTATION * scrollProgress; v.setRotationY(rotation); } else { if (mOverscrollTransformsSet) { mOverscrollTransformsSet = false; View v0 = getPageAt(mCurrentPage); v0.setRotationY(0); v0.setCameraDistance(mDensity * mCameraDistance); v0.setPivotX(v0.getMeasuredWidth() / 2); v0.setPivotY(v0.getMeasuredHeight() / 2); } } } private void enableHwLayersOnVisiblePages() { final int screenCount = getChildCount(); getVisiblePages(mTempVisiblePagesRange); int leftScreen = mTempVisiblePagesRange[0]; int rightScreen = mTempVisiblePagesRange[1]; int forceDrawScreen = -1; if (leftScreen == rightScreen) { // make sure we're caching at least two pages always if (rightScreen < screenCount - 1) { rightScreen++; forceDrawScreen = rightScreen; } else if (leftScreen > 0) { leftScreen--; forceDrawScreen = leftScreen; } } else { forceDrawScreen = leftScreen + 1; } for (int i = 0; i < screenCount; i++) { final View layout = (View) getPageAt(i); if (!(leftScreen <= i && i <= rightScreen && (i == forceDrawScreen || shouldDrawChild(layout)))) { layout.setLayerType(LAYER_TYPE_NONE, null); } } } protected void overScroll(float amount) { dampedOverScroll(amount); } /** * Used by the parent to get the content width to set the tab bar to * @return */ public int getPageContentWidth() { return mContentWidth; } @Override protected void onPageEndMoving() { super.onPageEndMoving(); mForceDrawAllChildrenNextFrame = true; // We reset the save index when we change pages so that it will be recalculated on next // rotation mSaveInstanceStateItemIndex = -1; } private void onTransitionPrepare() { mIsSwitchingState = true; // Invalidate here to ensure that the pages are rendered during the state change transition. invalidate(); enableHwLayersOnVisiblePages(); } private void onTransitionEnd() { mIsSwitchingState = false; } public Comparator getComparatorForSortMode() { switch (mSortMode) { case Title: return LauncherModel.getAppNameComparator(); case LaunchCount: return LauncherModel.getAppLaunchCountComparator(mLauncher.getStats()); case InstallTime: return LauncherModel.APP_INSTALL_TIME_COMPARATOR; } return LauncherModel.getAppNameComparator(); } public void setSortMode(SortMode sortMode) { if (mSortMode == sortMode) return; mSortMode = sortMode; sortApps(); } public void sortApps() { Collections.sort(mFilteredApps, getComparatorForSortMode()); if (mContentType == ContentType.Applications) { for (int i = 0; i < getChildCount(); i++) { syncAppsPageItems(i, true); } } } public SortMode getSortMode() { return mSortMode; } /* * AllAppsView implementation */ public void setup(Launcher launcher, DragController dragController) { mLauncher = launcher; mDragController = dragController; int sortMode = SettingsProvider.getIntCustomDefault(mLauncher, SettingsProvider.SETTINGS_UI_DRAWER_SORT_MODE, -1); if (sortMode != -1) { setSortMode(SortMode.getModeForValue(sortMode)); } } /** * We should call thise method whenever the core data changes (mApps, mWidgets) so that we can * appropriately determine when to invalidate the PagedView page data. In cases where the data * has yet to be set, we can requestLayout() and wait for onDataReady() to be called in the * next onMeasure() pass, which will trigger an invalidatePageData() itself. */ private void invalidateOnDataChange() { if (!isDataReady()) { // The next layout pass will trigger data-ready if both widgets and apps are set, so // request a layout to trigger the page data when ready. requestLayout(); } else { cancelAllTasks(); invalidatePageData(); } } public void setShowSystemApps(boolean show) { if (show) { mFilterApps |= FILTER_APPS_SYSTEM_FLAG; } else { mFilterApps &= ~FILTER_APPS_DOWNLOADED_FLAG; } } public boolean getShowSystemApps() { return (mFilterApps & FILTER_APPS_SYSTEM_FLAG) != 0; } public boolean getShowDownloadedApps() { return (mFilterApps & FILTER_APPS_DOWNLOADED_FLAG) != 0; } public void setApps(ArrayList list) { if (!LauncherAppState.isDisableAllApps()) { mApps = list; if (mPreInstallConfig) { configPreInstallAppInfos(); removePreInstallApps(); } if (mPreInstallConfig) { addPreInstallApps(); } sortByCustomization(); filterAppsWithoutInvalidate(); updatePageCountsAndInvalidateData(); } } private boolean appStringEqualsComponentName(String appString, ComponentName componentName) { String packageName = ""; String className = ""; if (appString.contains("/")) { String[] parts = appString.split("/"); packageName = parts[0]; if (parts.length > 1) { className = parts[1]; } return packageName.equals(componentName.getPackageName()) && componentName.getClassName().equals(className); } else { // There is no separator, the whole input string is the class name. return componentName.getClassName().equals(appString); } } /** * Check if the given AppInfo exists in the given list of predetermined apps. * * The supported syntax for the strings in appList is one of: * * com.example.package/com.example.package.Activity * * or just the Activity name: * * com.example.package.Activity. * * * If the package name is supplied, the ComponentName instance must match * both the package name and the class name. Otherise, only the class name must match. */ private boolean appListContainsInfo(ArrayList appList, ComponentName componentName) { return getIndexOfComponent(appList, componentName) != -1; } private int getIndexOfComponent(ArrayList appList, ComponentName componentName) { int index = 0; for (String appString : appList) { boolean wasFound = appStringEqualsComponentName(appString, componentName); if (wasFound) { return index; } index++; } // No match return -1; } private void addAppsWithoutInvalidate(ArrayList list) { // We add it in place, in alphabetical order int count = list.size(); final int INVALID_INDEX = -1; for (int i = 0; i < count; ++i) { AppInfo info = list.get(i); if (appListContainsInfo(mCTFirstPageArray, info.componentName)) { //for CT first page int index = Collections.binarySearch(ctFirstPageApps, info, APP_CT_FIRSTPAGE_COMPARATOR); if (index < 0) { ctFirstPageApps.add(-(index + 1), info); } } else if (appListContainsInfo(mCTClassArray, info.componentName)) { int index = Collections.binarySearch(ctApps, info, APP_CT_COMPARATOR); if (index < 0){ ctApps.add(-(index + 1), info); } } else { int index = Collections.binarySearch(mApps, info, getComparatorForSortMode()); if (index < 0) { mApps.add(-(index + 1), info); } } } } public void addApps(ArrayList list) { if (!LauncherAppState.isDisableAllApps()) { //remove appinfo if list contains preinstallapk ArrayList preList = new ArrayList(); for(int i = 0; i< list.size(); i++){ AppInfo info = list.get(i); if (appListContainsInfo(mPreClassArray, info.componentName)) { preList.add(info); } } mPreAppList.addAll(preList); list.removeAll(preList); Collections.sort(mPreAppList, PREAPP_CT_COMPARATOR); if (mPreInstallConfig) { removePreInstallApps(); } addAppsWithoutInvalidate(list); if (mPreInstallConfig) { addPreInstallApps(); } filterAppsWithoutInvalidate(); updatePageCountsAndInvalidateData(); } } private int findAppByComponent(List list, AppInfo item) { ComponentName removeComponent = item.intent.getComponent(); int length = list.size(); for (int i = 0; i < length; ++i) { AppInfo info = list.get(i); if (info.user.equals(item.user) && info.intent.getComponent().equals(removeComponent)) { return i; } } return -1; } private void removeAppsWithoutInvalidate(ArrayList list) { // loop through all the apps and remove apps that have the same component int length = list.size(); final int INVALID_INDEX = -1; for (int i = 0; i < length; ++i) { AppInfo info = list.get(i); if(ctFirstPageApps.contains(info)) { //for CT first page int removeCTFirstPageIndex = findAppByComponent(ctFirstPageApps, info); if (removeCTFirstPageIndex > INVALID_INDEX) { ctFirstPageApps.remove(removeCTFirstPageIndex); } } else if(ctApps.contains(info)){ //for CT int removeCTIndex = findAppByComponent(ctApps, info); if (removeCTIndex > INVALID_INDEX) { ctApps.remove(removeCTIndex); } } else { int removeIndex = findAppByComponent(mApps, info); if (removeIndex > INVALID_INDEX) { mApps.remove(removeIndex); } } } } public void removeApps(ArrayList appInfos) { if (!LauncherAppState.isDisableAllApps()) { removeAppsWithoutInvalidate(appInfos); filterAppsWithoutInvalidate(); updatePageCountsAndInvalidateData(); } } public void updateApps(ArrayList list) { // We remove and re-add the updated applications list because it's properties may have // changed (ie. the title), and this will ensure that the items will be in their proper // place in the list. if (!LauncherAppState.isDisableAllApps()) { removeAppsWithoutInvalidate(list); if (mPreInstallConfig) { removePreInstallApps(); } addAppsWithoutInvalidate(list); if (mPreInstallConfig) { addPreInstallApps(); } filterAppsWithoutInvalidate(); updatePageCountsAndInvalidateData(); } } public void filterAppsWithoutInvalidate() { updateProtectedAppsList(mLauncher); mFilteredApps = new ArrayList(mApps); Iterator iterator = mFilteredApps.iterator(); while (iterator.hasNext()) { AppInfo appInfo = iterator.next(); boolean system = (appInfo.flags & AppInfo.DOWNLOADED_FLAG) == 0; if (mProtectedApps.contains(appInfo.componentName) || (system && !getShowSystemApps()) || (!system && !getShowDownloadedApps())) { iterator.remove(); } } Collections.sort(mFilteredApps, getComparatorForSortMode()); } public void filterApps() { filterAppsWithoutInvalidate(); updatePageCountsAndInvalidateData(); } public void filterWidgetsWithoutInvalidate() { updateProtectedAppsList(mLauncher); mFilteredWidgets = new ArrayList(mWidgets); Iterator iterator = mFilteredWidgets.iterator(); while (iterator.hasNext()) { Object o = iterator.next(); String packageName; if (o instanceof AppWidgetProviderInfo) { AppWidgetProviderInfo widgetInfo = (AppWidgetProviderInfo) o; if (widgetInfo.provider == null) { continue; } packageName = widgetInfo.provider.getPackageName(); } else if (o instanceof ResolveInfo) { ResolveInfo shortcut = (ResolveInfo) o; packageName = shortcut.activityInfo.applicationInfo.packageName; } else { Log.w(TAG, "Unknown class in widgets list: " + o.getClass()); continue; } int flags; try { flags = AppInfo.initFlags(mPackageManager.getPackageInfo(packageName, 0)); } catch (PackageManager.NameNotFoundException e) { flags = 0; } boolean system = (flags & AppInfo.DOWNLOADED_FLAG) == 0; if (mProtectedPackages.contains(packageName) || (system && !getShowSystemApps()) || (!system && !getShowDownloadedApps())) { iterator.remove(); } } } public void filterWidgets() { filterWidgetsWithoutInvalidate(); updatePageCountsAndInvalidateData(); } private void updateProtectedAppsList(Context context) { String protectedComponents = Settings.Secure.getString(context.getContentResolver(), LauncherModel.SETTINGS_PROTECTED_COMPONENTS); protectedComponents = protectedComponents == null ? "" : protectedComponents; String [] flattened = protectedComponents.split("\\|"); mProtectedApps = new ArrayList(flattened.length); mProtectedPackages = new ArrayList(flattened.length); for (String flat : flattened) { ComponentName cmp = ComponentName.unflattenFromString(flat); if (cmp != null) { mProtectedApps.add(cmp); mProtectedPackages.add(cmp.getPackageName()); } } } private ArrayList getPackageNameFromAppInfo(ArrayList list) { if (list == null) return null; ArrayList packagesNames = new ArrayList(); int size = list.size(); for (int i = 0; i < size; i++) { packagesNames.add(list.get(i).componentName.getPackageName()); } return packagesNames; } public void reset() { // If we have reset, then we should not continue to restore the previous state mSaveInstanceStateItemIndex = -1; if (mContentType != ContentType.Applications) { setContentType(ContentType.Applications); } if (mCurrentPage != 0) { invalidatePageData(0); } } private AppsCustomizeTabHost getTabHost() { return (AppsCustomizeTabHost) mLauncher.findViewById(R.id.apps_customize_pane); } public void dumpState() { // TODO: Dump information related to current list of Applications, Widgets, etc. AppInfo.dumpApplicationInfoList(TAG, "mApps", mApps); dumpAppWidgetProviderInfoList(TAG, "mWidgets", mWidgets); } private void dumpAppWidgetProviderInfoList(String tag, String label, ArrayList list) { Log.d(tag, label + " size=" + list.size()); for (Object i: list) { if (i instanceof AppWidgetProviderInfo) { AppWidgetProviderInfo info = (AppWidgetProviderInfo) i; Log.d(tag, " label=\"" + info.label + "\" previewImage=" + info.previewImage + " resizeMode=" + info.resizeMode + " configure=" + info.configure + " initialLayout=" + info.initialLayout + " minWidth=" + info.minWidth + " minHeight=" + info.minHeight); } else if (i instanceof ResolveInfo) { ResolveInfo info = (ResolveInfo) i; Log.d(tag, " label=\"" + info.loadLabel(mPackageManager) + "\" icon=" + info.icon); } } } public void surrender() { // TODO: If we are in the middle of any process (ie. for holographic outlines, etc) we // should stop this now. // Stop all background tasks cancelAllTasks(); } /* * We load an extra page on each side to prevent flashes from scrolling and loading of the * widget previews in the background with the AsyncTasks. */ final static int sLookBehindPageCount = 2; final static int sLookAheadPageCount = 2; protected int getAssociatedLowerPageBound(int page) { final int count = getChildCount(); int windowSize = Math.min(count, sLookBehindPageCount + sLookAheadPageCount + 1); int windowMinIndex = Math.max(Math.min(page - sLookBehindPageCount, count - windowSize), 0); return windowMinIndex; } protected int getAssociatedUpperPageBound(int page) { final int count = getChildCount(); int windowSize = Math.min(count, sLookBehindPageCount + sLookAheadPageCount + 1); int windowMaxIndex = Math.min(Math.max(page + sLookAheadPageCount, windowSize - 1), count - 1); return windowMaxIndex; } protected String getCurrentPageDescription() { int page = (mNextPage != INVALID_PAGE) ? mNextPage : mCurrentPage; int stringId = R.string.default_scroll_format; int count = 0; if (mContentType == ContentType.Applications) { stringId = R.string.apps_customize_apps_scroll_format; count = mNumAppsPages; } else if (mContentType == ContentType.Widgets) { stringId = R.string.apps_customize_widgets_scroll_format; count = mNumWidgetPages; } else { throw new RuntimeException("Invalid ContentType"); } return String.format(getContext().getString(stringId), page + 1, count); } private void configClassArray(Context context, ArrayList arrayList, String arrayName, boolean isPreInstallClass) { Context prePackageContext = null; try { prePackageContext = context.createPackageContext(PRE_PACKAGE_NAME, Context.CONTEXT_IGNORE_SECURITY); } catch (Exception e) { Log.e(TAG, "Create Res Apk Failed"); } if (prePackageContext != null) { final int resId = prePackageContext.getResources().getIdentifier( arrayName, "array", PRE_PACKAGE_NAME); if (resId == 0) { return; } final String[] preApps = prePackageContext.getResources().getStringArray(resId); int size = preApps.length; if(isPreInstallClass){ mPreInstallConfig = true; } arrayList.clear(); for (int i=0; i -1){ ctApps.add(info); } int firstPageIndex = getIndexOfComponent(mCTFirstPageArray, componentName); if(firstPageIndex > -1){ ctFirstPageApps.add(info); } } mApps.removeAll(ctApps); Collections.sort(ctApps, APP_CT_COMPARATOR); mApps.removeAll(ctFirstPageApps); Collections.sort(ctFirstPageApps, APP_CT_FIRSTPAGE_COMPARATOR); } } }