/* * Copyright (C) 2008 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.launcher2; import android.animation.Animator; import android.animation.Animator.AnimatorListener; import android.animation.AnimatorListenerAdapter; import android.animation.AnimatorSet; import android.animation.ObjectAnimator; import android.animation.TimeInterpolator; import android.animation.ValueAnimator; import android.animation.ValueAnimator.AnimatorUpdateListener; import android.app.AlertDialog; import android.app.WallpaperManager; import android.appwidget.AppWidgetManager; import android.appwidget.AppWidgetProviderInfo; import android.content.ClipData; import android.content.ClipDescription; import android.content.ComponentName; import android.content.Context; import android.content.Intent; import android.content.res.Resources; import android.content.res.TypedArray; import android.graphics.Bitmap; import android.graphics.Camera; import android.graphics.Canvas; import android.graphics.Matrix; import android.graphics.Paint; import android.graphics.PorterDuff; import android.graphics.Rect; import android.graphics.RectF; import android.graphics.Region.Op; import android.graphics.drawable.Drawable; import android.os.IBinder; import android.os.Parcelable; import android.util.AttributeSet; import android.util.DisplayMetrics; import android.util.Log; import android.util.Pair; import android.view.Display; import android.view.DragEvent; import android.view.MotionEvent; import android.view.View; import android.view.ViewGroup; import android.view.animation.DecelerateInterpolator; import android.widget.ImageView; import android.widget.TextView; import android.widget.Toast; import com.android.launcher.R; import com.android.launcher2.FolderIcon.FolderRingAnimator; import com.android.launcher2.InstallWidgetReceiver.WidgetMimeTypeHandlerData; import java.util.ArrayList; import java.util.HashSet; import java.util.List; /** * The workspace is a wide area with a wallpaper and a finite number of pages. * Each page contains a number of icons, folders or widgets the user can * interact with. A workspace is meant to be used with a fixed width only. */ public class Workspace extends SmoothPagedView implements DropTarget, DragSource, DragScroller, View.OnTouchListener, DragController.DragListener { @SuppressWarnings({"UnusedDeclaration"}) private static final String TAG = "Launcher.Workspace"; // Y rotation to apply to the workspace screens private static final float WORKSPACE_ROTATION = 12.5f; private static final float WORKSPACE_OVERSCROLL_ROTATION = 24f; private static final int CHILDREN_OUTLINE_FADE_OUT_DELAY = 0; private static final int CHILDREN_OUTLINE_FADE_OUT_DURATION = 375; private static final int CHILDREN_OUTLINE_FADE_IN_DURATION = 100; private static final int BACKGROUND_FADE_OUT_DURATION = 350; private static final int ADJACENT_SCREEN_DROP_DURATION = 300; // These animators are used to fade the children's outlines private ObjectAnimator mChildrenOutlineFadeInAnimation; private ObjectAnimator mChildrenOutlineFadeOutAnimation; private float mChildrenOutlineAlpha = 0; // These properties refer to the background protection gradient used for AllApps and Customize private ValueAnimator mBackgroundFadeInAnimation; private ValueAnimator mBackgroundFadeOutAnimation; private Drawable mBackground; boolean mDrawBackground = true; private float mBackgroundAlpha = 0; private float mOverScrollMaxBackgroundAlpha = 0.0f; private int mOverScrollPageIndex = -1; private AnimatorSet mDividerAnimator; private float mWallpaperScrollRatio = 1.0f; private final WallpaperManager mWallpaperManager; private IBinder mWindowToken; private int mDefaultPage; /** * CellInfo for the cell that is currently being dragged */ private CellLayout.CellInfo mDragInfo; /** * Target drop area calculated during last acceptDrop call. */ private int[] mTargetCell = new int[2]; /** * The CellLayout that is currently being dragged over */ private CellLayout mDragTargetLayout = null; private Launcher mLauncher; private IconCache mIconCache; private DragController mDragController; // These are temporary variables to prevent having to allocate a new object just to // return an (x, y) value from helper functions. Do NOT use them to maintain other state. private int[] mTempCell = new int[2]; private int[] mTempEstimate = new int[2]; private float[] mDragViewVisualCenter = new float[2]; private float[] mTempDragCoordinates = new float[2]; private float[] mTempCellLayoutCenterCoordinates = new float[2]; private float[] mTempDragBottomRightCoordinates = new float[2]; private Matrix mTempInverseMatrix = new Matrix(); private SpringLoadedDragController mSpringLoadedDragController; private float mSpringLoadedShrinkFactor; private static final int DEFAULT_CELL_COUNT_X = 4; private static final int DEFAULT_CELL_COUNT_Y = 4; // State variable that indicates whether the pages are small (ie when you're // in all apps or customize mode) enum State { NORMAL, SPRING_LOADED, SMALL }; private State mState = State.NORMAL; private boolean mIsSwitchingState = false; private boolean mSwitchStateAfterFirstLayout = false; private State mStateAfterFirstLayout; private AnimatorSet mAnimator; private AnimatorListener mChangeStateAnimationListener; boolean mAnimatingViewIntoPlace = false; boolean mIsDragOccuring = false; boolean mChildrenLayersEnabled = true; /** Is the user is dragging an item near the edge of a page? */ private boolean mInScrollArea = false; private final HolographicOutlineHelper mOutlineHelper = new HolographicOutlineHelper(); private Bitmap mDragOutline = null; private final Rect mTempRect = new Rect(); private final int[] mTempXY = new int[2]; private int mDragViewMultiplyColor; // Paint used to draw external drop outline private final Paint mExternalDragOutlinePaint = new Paint(); // Camera and Matrix used to determine the final position of a neighboring CellLayout private final Matrix mMatrix = new Matrix(); private final Camera mCamera = new Camera(); private final float mTempFloat2[] = new float[2]; enum WallpaperVerticalOffset { TOP, MIDDLE, BOTTOM }; int mWallpaperWidth; int mWallpaperHeight; WallpaperOffsetInterpolator mWallpaperOffset; boolean mUpdateWallpaperOffsetImmediately = false; private Runnable mDelayedResizeRunnable; // Variables relating to the creation of user folders by hovering shortcuts over shortcuts private static final int FOLDER_CREATION_TIMEOUT = 250; private final Alarm mFolderCreationAlarm = new Alarm(); private FolderRingAnimator mDragFolderRingAnimator = null; private View mLastDragOverView = null; private boolean mCreateUserFolderOnDrop = false; // Variables relating to touch disambiguation (scrolling workspace vs. scrolling a widget) private float mXDown; private float mYDown; final static float START_DAMPING_TOUCH_SLOP_ANGLE = (float) Math.PI / 6; final static float MAX_SWIPE_ANGLE = (float) Math.PI / 3; final static float TOUCH_SLOP_DAMPING_FACTOR = 4; // These variables are used for storing the initial and final values during workspace animations private int mSavedScrollX; private float mSavedRotationY; private float mSavedTranslationX; private float mCurrentScaleX; private float mCurrentScaleY; private float mCurrentRotationY; private float mCurrentTranslationX; private float mCurrentTranslationY; private float[] mOldTranslationXs; private float[] mOldTranslationYs; private float[] mOldScaleXs; private float[] mOldScaleYs; private float[] mOldBackgroundAlphas; private float[] mOldBackgroundAlphaMultipliers; private float[] mOldAlphas; private float[] mOldRotationYs; private float[] mNewTranslationXs; private float[] mNewTranslationYs; private float[] mNewScaleXs; private float[] mNewScaleYs; private float[] mNewBackgroundAlphas; private float[] mNewBackgroundAlphaMultipliers; private float[] mNewAlphas; private float[] mNewRotationYs; private float mTransitionProgress; /** * Used to inflate the Workspace from XML. * * @param context The application's context. * @param attrs The attributes set containing the Workspace's customization values. */ public Workspace(Context context, AttributeSet attrs) { this(context, attrs, 0); } /** * Used to inflate the Workspace from XML. * * @param context The application's context. * @param attrs The attributes set containing the Workspace's customization values. * @param defStyle Unused. */ public Workspace(Context context, AttributeSet attrs, int defStyle) { super(context, attrs, defStyle); mContentIsRefreshable = false; // With workspace, data is available straight from the get-go setDataIsReady(); mFadeInAdjacentScreens = getResources().getBoolean(R.bool.config_workspaceFadeAdjacentScreens); mWallpaperManager = WallpaperManager.getInstance(context); int cellCountX = DEFAULT_CELL_COUNT_X; int cellCountY = DEFAULT_CELL_COUNT_Y; TypedArray a = context.obtainStyledAttributes(attrs, R.styleable.Workspace, defStyle, 0); final Resources res = context.getResources(); if (LauncherApplication.isScreenLarge()) { // Determine number of rows/columns dynamically // TODO: This code currently fails on tablets with an aspect ratio < 1.3. // Around that ratio we should make cells the same size in portrait and // landscape TypedArray actionBarSizeTypedArray = context.obtainStyledAttributes(new int[] { android.R.attr.actionBarSize }); final float actionBarHeight = actionBarSizeTypedArray.getDimension(0, 0f); final float systemBarHeight = res.getDimension(R.dimen.status_bar_height); final float smallestScreenDim = res.getConfiguration().smallestScreenWidthDp; cellCountX = 1; while (CellLayout.widthInPortrait(res, cellCountX + 1) <= smallestScreenDim) { cellCountX++; } cellCountY = 1; while (actionBarHeight + CellLayout.heightInLandscape(res, cellCountY + 1) <= smallestScreenDim - systemBarHeight) { cellCountY++; } } mSpringLoadedShrinkFactor = res.getInteger(R.integer.config_workspaceSpringLoadShrinkPercentage) / 100.0f; mDragViewMultiplyColor = res.getColor(R.color.drag_view_multiply_color); // if the value is manually specified, use that instead cellCountX = a.getInt(R.styleable.Workspace_cellCountX, cellCountX); cellCountY = a.getInt(R.styleable.Workspace_cellCountY, cellCountY); mDefaultPage = a.getInt(R.styleable.Workspace_defaultScreen, 1); a.recycle(); LauncherModel.updateWorkspaceLayoutCells(cellCountX, cellCountY); setHapticFeedbackEnabled(false); initWorkspace(); // Disable multitouch across the workspace/all apps/customize tray setMotionEventSplittingEnabled(true); } public void onDragStart(DragSource source, Object info, int dragAction) { mIsDragOccuring = true; updateChildrenLayersEnabled(); mLauncher.lockScreenOrientation(); } public void onDragEnd() { mIsDragOccuring = false; updateChildrenLayersEnabled(); mLauncher.unlockScreenOrientation(); } /** * Initializes various states for this workspace. */ protected void initWorkspace() { Context context = getContext(); mCurrentPage = mDefaultPage; Launcher.setScreen(mCurrentPage); LauncherApplication app = (LauncherApplication)context.getApplicationContext(); mIconCache = app.getIconCache(); mExternalDragOutlinePaint.setAntiAlias(true); setWillNotDraw(false); setChildrenDrawnWithCacheEnabled(true); try { final Resources res = getResources(); mBackground = res.getDrawable(R.drawable.apps_customize_bg); } catch (Resources.NotFoundException e) { // In this case, we will skip drawing background protection } mChangeStateAnimationListener = new AnimatorListenerAdapter() { @Override public void onAnimationStart(Animator animation) { mIsSwitchingState = true; } @Override public void onAnimationEnd(Animator animation) { mIsSwitchingState = false; mWallpaperOffset.setOverrideHorizontalCatchupConstant(false); mAnimator = null; updateChildrenLayersEnabled(); } }; mSnapVelocity = 600; mWallpaperOffset = new WallpaperOffsetInterpolator(); } @Override protected int getScrollMode() { return SmoothPagedView.X_LARGE_MODE; } @Override protected void onViewAdded(View child) { super.onViewAdded(child); if (!(child instanceof CellLayout)) { throw new IllegalArgumentException("A Workspace can only have CellLayout children."); } CellLayout cl = ((CellLayout) child); cl.setOnInterceptTouchListener(this); cl.setClickable(true); cl.enableHardwareLayers(); } /** * @return The open folder on the current screen, or null if there is none */ Folder getOpenFolder() { DragLayer dragLayer = mLauncher.getDragLayer(); int count = dragLayer.getChildCount(); for (int i = 0; i < count; i++) { View child = dragLayer.getChildAt(i); if (child instanceof Folder) { Folder folder = (Folder) child; if (folder.getInfo().opened) return folder; } } return null; } boolean isTouchActive() { return mTouchState != TOUCH_STATE_REST; } /** * Adds the specified child in the specified screen. The position and dimension of * the child are defined by x, y, spanX and spanY. * * @param child The child to add in one of the workspace's screens. * @param screen The screen in which to add the child. * @param x The X position of the child in the screen's grid. * @param y The Y position of the child in the screen's grid. * @param spanX The number of cells spanned horizontally by the child. * @param spanY The number of cells spanned vertically by the child. */ void addInScreen(View child, long container, int screen, int x, int y, int spanX, int spanY) { addInScreen(child, container, screen, x, y, spanX, spanY, false); } /** * Adds the specified child in the specified screen. The position and dimension of * the child are defined by x, y, spanX and spanY. * * @param child The child to add in one of the workspace's screens. * @param screen The screen in which to add the child. * @param x The X position of the child in the screen's grid. * @param y The Y position of the child in the screen's grid. * @param spanX The number of cells spanned horizontally by the child. * @param spanY The number of cells spanned vertically by the child. * @param insert When true, the child is inserted at the beginning of the children list. */ void addInScreen(View child, long container, int screen, int x, int y, int spanX, int spanY, boolean insert) { if (container == LauncherSettings.Favorites.CONTAINER_DESKTOP) { if (screen < 0 || screen >= getChildCount()) { Log.e(TAG, "The screen must be >= 0 and < " + getChildCount() + " (was " + screen + "); skipping child"); return; } } final CellLayout layout; if (container == LauncherSettings.Favorites.CONTAINER_HOTSEAT) { layout = mLauncher.getHotseat().getLayout(); child.setOnKeyListener(null); // Hide folder title in the hotseat if (child instanceof FolderIcon) { ((FolderIcon) child).setTextVisible(false); } if (screen < 0) { screen = mLauncher.getHotseat().getOrderInHotseat(x, y); } else { // Note: We do this to ensure that the hotseat is always laid out in the orientation // of the hotseat in order regardless of which orientation they were added x = mLauncher.getHotseat().getCellXFromOrder(screen); y = mLauncher.getHotseat().getCellYFromOrder(screen); } } else { // Show folder title if not in the hotseat if (child instanceof FolderIcon) { ((FolderIcon) child).setTextVisible(true); } layout = (CellLayout) getChildAt(screen); child.setOnKeyListener(new BubbleTextViewKeyEventListener()); } CellLayout.LayoutParams lp = (CellLayout.LayoutParams) child.getLayoutParams(); if (lp == null) { lp = new CellLayout.LayoutParams(x, y, spanX, spanY); } else { lp.cellX = x; lp.cellY = y; lp.cellHSpan = spanX; lp.cellVSpan = spanY; } if (spanX < 0 && spanY < 0) { lp.isLockedToGrid = false; } // Get the canonical child id to uniquely represent this view in this screen int childId = LauncherModel.getCellLayoutChildId(container, screen, x, y, spanX, spanY); boolean markCellsAsOccupied = !(child instanceof Folder); if (!layout.addViewToCellLayout(child, insert ? 0 : -1, childId, lp, markCellsAsOccupied)) { // TODO: This branch occurs when the workspace is adding views // outside of the defined grid // maybe we should be deleting these items from the LauncherModel? Log.w(TAG, "Failed to add to item at (" + lp.cellX + "," + lp.cellY + ") to CellLayout"); } if (!(child instanceof Folder)) { child.setHapticFeedbackEnabled(false); child.setOnLongClickListener(mLongClickListener); } if (child instanceof DropTarget) { mDragController.addDropTarget((DropTarget) child); } } /** * Check if the point (x, y) hits a given page. */ private boolean hitsPage(int index, float x, float y) { final View page = getChildAt(index); if (page != null) { float[] localXY = { x, y }; mapPointFromSelfToChild(page, localXY); return (localXY[0] >= 0 && localXY[0] < page.getWidth() && localXY[1] >= 0 && localXY[1] < page.getHeight()); } return false; } @Override protected boolean hitsPreviousPage(float x, float y) { // mNextPage is set to INVALID_PAGE whenever we are stationary. // Calculating "next page" this way ensures that you scroll to whatever page you tap on final int current = (mNextPage == INVALID_PAGE) ? mCurrentPage : mNextPage; return hitsPage(current - 1, x, y); } @Override protected boolean hitsNextPage(float x, float y) { // mNextPage is set to INVALID_PAGE whenever we are stationary. // Calculating "next page" this way ensures that you scroll to whatever page you tap on final int current = (mNextPage == INVALID_PAGE) ? mCurrentPage : mNextPage; return hitsPage(current + 1, x, y); } /** * Called directly from a CellLayout (not by the framework), after we've been added as a * listener via setOnInterceptTouchEventListener(). This allows us to tell the CellLayout * that it should intercept touch events, which is not something that is normally supported. */ @Override public boolean onTouch(View v, MotionEvent event) { return (isSmall() || mIsSwitchingState); } public boolean isSwitchingState() { return mIsSwitchingState; } protected void onWindowVisibilityChanged (int visibility) { mLauncher.onWindowVisibilityChanged(visibility); } @Override public boolean dispatchUnhandledMove(View focused, int direction) { if (isSmall() || mIsSwitchingState) { // when the home screens are shrunken, shouldn't allow side-scrolling return false; } return super.dispatchUnhandledMove(focused, direction); } @Override public boolean onInterceptTouchEvent(MotionEvent ev) { switch (ev.getAction() & MotionEvent.ACTION_MASK) { case MotionEvent.ACTION_DOWN: mXDown = ev.getX(); mYDown = ev.getY(); break; case MotionEvent.ACTION_POINTER_UP: case MotionEvent.ACTION_UP: if (mTouchState == TOUCH_STATE_REST) { final CellLayout currentPage = (CellLayout) getChildAt(mCurrentPage); if (!currentPage.lastDownOnOccupiedCell()) { onWallpaperTap(ev); } } } return super.onInterceptTouchEvent(ev); } @Override protected void determineScrollingStart(MotionEvent ev) { if (!isSmall() && !mIsSwitchingState) { float deltaX = Math.abs(ev.getX() - mXDown); float deltaY = Math.abs(ev.getY() - mYDown); if (Float.compare(deltaX, 0f) == 0) return; float slope = deltaY / deltaX; float theta = (float) Math.atan(slope); if (deltaX > mTouchSlop || deltaY > mTouchSlop) { cancelCurrentPageLongPress(); } if (theta > MAX_SWIPE_ANGLE) { // Above MAX_SWIPE_ANGLE, we don't want to ever start scrolling the workspace return; } else if (theta > START_DAMPING_TOUCH_SLOP_ANGLE) { // Above START_DAMPING_TOUCH_SLOP_ANGLE and below MAX_SWIPE_ANGLE, we want to // increase the touch slop to make it harder to begin scrolling the workspace. This // results in vertically scrolling widgets to more easily. The higher the angle, the // more we increase touch slop. theta -= START_DAMPING_TOUCH_SLOP_ANGLE; float extraRatio = (float) Math.sqrt((theta / (MAX_SWIPE_ANGLE - START_DAMPING_TOUCH_SLOP_ANGLE))); super.determineScrollingStart(ev, 1 + TOUCH_SLOP_DAMPING_FACTOR * extraRatio); } else { // Below START_DAMPING_TOUCH_SLOP_ANGLE, we don't do anything special super.determineScrollingStart(ev); } } } @Override protected boolean isScrollingIndicatorEnabled() { return mState != State.SPRING_LOADED; } protected void onPageBeginMoving() { super.onPageBeginMoving(); if (isHardwareAccelerated()) { updateChildrenLayersEnabled(); } else { if (mNextPage != INVALID_PAGE) { // we're snapping to a particular screen enableChildrenCache(mCurrentPage, mNextPage); } else { // this is when user is actively dragging a particular screen, they might // swipe it either left or right (but we won't advance by more than one screen) enableChildrenCache(mCurrentPage - 1, mCurrentPage + 1); } } // Only show page outlines as we pan if we are on large screen if (LauncherApplication.isScreenLarge()) { showOutlines(); } } protected void onPageEndMoving() { super.onPageEndMoving(); if (isHardwareAccelerated()) { updateChildrenLayersEnabled(); } else { clearChildrenCache(); } // Hide the outlines, as long as we're not dragging if (!mDragController.dragging()) { // Only hide page outlines as we pan if we are on large screen if (LauncherApplication.isScreenLarge()) { hideOutlines(); } } mOverScrollMaxBackgroundAlpha = 0.0f; mOverScrollPageIndex = -1; if (mDelayedResizeRunnable != null) { mDelayedResizeRunnable.run(); mDelayedResizeRunnable = null; } } @Override protected void notifyPageSwitchListener() { super.notifyPageSwitchListener(); Launcher.setScreen(mCurrentPage); }; // As a ratio of screen height, the total distance we want the parallax effect to span // vertically private float wallpaperTravelToScreenHeightRatio(int width, int height) { return 1.1f; } // As a ratio of screen height, the total distance we want the parallax effect to span // horizontally private float wallpaperTravelToScreenWidthRatio(int width, int height) { float aspectRatio = width / (float) height; // At an aspect ratio of 16/10, the wallpaper parallax effect should span 1.5 * screen width // At an aspect ratio of 10/16, the wallpaper parallax effect should span 1.2 * screen width // We will use these two data points to extrapolate how much the wallpaper parallax effect // to span (ie travel) at any aspect ratio: final float ASPECT_RATIO_LANDSCAPE = 16/10f; final float ASPECT_RATIO_PORTRAIT = 10/16f; final float WALLPAPER_WIDTH_TO_SCREEN_RATIO_LANDSCAPE = 1.5f; final float WALLPAPER_WIDTH_TO_SCREEN_RATIO_PORTRAIT = 1.2f; // To find out the desired width at different aspect ratios, we use the following two // formulas, where the coefficient on x is the aspect ratio (width/height): // (16/10)x + y = 1.5 // (10/16)x + y = 1.2 // We solve for x and y and end up with a final formula: final float x = (WALLPAPER_WIDTH_TO_SCREEN_RATIO_LANDSCAPE - WALLPAPER_WIDTH_TO_SCREEN_RATIO_PORTRAIT) / (ASPECT_RATIO_LANDSCAPE - ASPECT_RATIO_PORTRAIT); final float y = WALLPAPER_WIDTH_TO_SCREEN_RATIO_PORTRAIT - x * ASPECT_RATIO_PORTRAIT; return x * aspectRatio + y; } // The range of scroll values for Workspace private int getScrollRange() { return getChildOffset(getChildCount() - 1) - getChildOffset(0); } protected void setWallpaperDimension() { Display display = mLauncher.getWindowManager().getDefaultDisplay(); DisplayMetrics displayMetrics = new DisplayMetrics(); display.getRealMetrics(displayMetrics); final int maxDim = Math.max(displayMetrics.widthPixels, displayMetrics.heightPixels); final int minDim = Math.min(displayMetrics.widthPixels, displayMetrics.heightPixels); // We need to ensure that there is enough extra space in the wallpaper for the intended // parallax effects mWallpaperWidth = (int) (maxDim * wallpaperTravelToScreenWidthRatio(maxDim, minDim)); mWallpaperHeight = (int)(maxDim * wallpaperTravelToScreenHeightRatio(maxDim, minDim)); new Thread("setWallpaperDimension") { public void run() { mWallpaperManager.suggestDesiredDimensions(mWallpaperWidth, mWallpaperHeight); } }.start(); } public void setVerticalWallpaperOffset(float offset) { mWallpaperOffset.setFinalY(offset); } public float getVerticalWallpaperOffset() { return mWallpaperOffset.getCurrY(); } public void setHorizontalWallpaperOffset(float offset) { mWallpaperOffset.setFinalX(offset); } public float getHorizontalWallpaperOffset() { return mWallpaperOffset.getCurrX(); } private float wallpaperOffsetForCurrentScroll() { Display display = mLauncher.getWindowManager().getDefaultDisplay(); final boolean isStaticWallpaper = (mWallpaperManager.getWallpaperInfo() == null); // The wallpaper travel width is how far, from left to right, the wallpaper will move // at this orientation (for example, in portrait mode we don't move all the way to the // edges of the wallpaper, or otherwise the parallax effect would be too strong) int wallpaperTravelWidth = (int) (display.getWidth() * wallpaperTravelToScreenWidthRatio(display.getWidth(), display.getHeight())); if (!isStaticWallpaper) { wallpaperTravelWidth = mWallpaperWidth; } // Set wallpaper offset steps (1 / (number of screens - 1)) // We have 3 vertical offset states (centered, and then top/bottom aligned // for all apps/customize) mWallpaperManager.setWallpaperOffsetSteps(1.0f / (getChildCount() - 1), 1.0f / (3 - 1)); // For the purposes of computing the scrollRange and overScrollOffset, we ignore // assume that mLayoutScale is 1. This means that when we're in spring-loaded mode, // there's no discrepancy between the wallpaper offset for a given page. float layoutScale = mLayoutScale; mLayoutScale = 1f; int scrollRange = getScrollRange(); float scrollProgressOffset = 0; // Account for over scroll: you only see the absolute edge of the wallpaper if // you over scroll as far as you can in landscape mode. Only do this for static wallpapers // because live wallpapers (and probably 3rd party wallpaper providers) rely on the offset // being even intervals from 0 to 1 (eg [0, 0.25, 0.5, 0.75, 1]) if (isStaticWallpaper) { int overScrollOffset = (int) (maxOverScroll() * display.getWidth()); scrollProgressOffset += overScrollOffset / (float) getScrollRange(); scrollRange += 2 * overScrollOffset; } // Again, we adjust the wallpaper offset to be consistent between values of mLayoutScale boolean overScrollWallpaper = LauncherApplication.isScreenLarge(); float adjustedScrollX = overScrollWallpaper ? mScrollX : Math.max(0, Math.min(mScrollX, mMaxScrollX)); adjustedScrollX *= mWallpaperScrollRatio; mLayoutScale = layoutScale; float scrollProgress = adjustedScrollX / (float) scrollRange + scrollProgressOffset; float offsetInDips = wallpaperTravelWidth * scrollProgress + (mWallpaperWidth - wallpaperTravelWidth) / 2; // center it float offset = offsetInDips / (float) mWallpaperWidth; return offset; } private void syncWallpaperOffsetWithScroll() { final boolean enableWallpaperEffects = isHardwareAccelerated(); if (enableWallpaperEffects) { mWallpaperOffset.setFinalX(wallpaperOffsetForCurrentScroll()); } } public void updateWallpaperOffsetImmediately() { mUpdateWallpaperOffsetImmediately = true; } private void updateWallpaperOffsets() { boolean updateNow = false; boolean keepUpdating = true; if (mUpdateWallpaperOffsetImmediately) { updateNow = true; keepUpdating = false; mWallpaperOffset.jumpToFinal(); mUpdateWallpaperOffsetImmediately = false; } else { updateNow = keepUpdating = mWallpaperOffset.computeScrollOffset(); } if (updateNow) { if (mWindowToken != null) { mWallpaperManager.setWallpaperOffsets(mWindowToken, mWallpaperOffset.getCurrX(), mWallpaperOffset.getCurrY()); } } if (keepUpdating) { fastInvalidate(); } } @Override protected void updateCurrentPageScroll() { super.updateCurrentPageScroll(); computeWallpaperScrollRatio(mCurrentPage); } @Override protected void snapToPage(int whichPage) { super.snapToPage(whichPage); computeWallpaperScrollRatio(whichPage); } private void computeWallpaperScrollRatio(int page) { // Here, we determine what the desired scroll would be with and without a layout scale, // and compute a ratio between the two. This allows us to adjust the wallpaper offset // as though there is no layout scale. float layoutScale = mLayoutScale; int scaled = getChildOffset(page) - getRelativeChildOffset(page); mLayoutScale = 1.0f; float unscaled = getChildOffset(page) - getRelativeChildOffset(page); mLayoutScale = layoutScale; if (scaled > 0) { mWallpaperScrollRatio = (1.0f * unscaled) / scaled; } else { mWallpaperScrollRatio = 1f; } } class WallpaperOffsetInterpolator { float mFinalHorizontalWallpaperOffset = 0.0f; float mFinalVerticalWallpaperOffset = 0.5f; float mHorizontalWallpaperOffset = 0.0f; float mVerticalWallpaperOffset = 0.5f; long mLastWallpaperOffsetUpdateTime; boolean mIsMovingFast; boolean mOverrideHorizontalCatchupConstant; float mHorizontalCatchupConstant = 0.35f; float mVerticalCatchupConstant = 0.35f; public WallpaperOffsetInterpolator() { } public void setOverrideHorizontalCatchupConstant(boolean override) { mOverrideHorizontalCatchupConstant = override; } public void setHorizontalCatchupConstant(float f) { mHorizontalCatchupConstant = f; } public void setVerticalCatchupConstant(float f) { mVerticalCatchupConstant = f; } public boolean computeScrollOffset() { if (Float.compare(mHorizontalWallpaperOffset, mFinalHorizontalWallpaperOffset) == 0 && Float.compare(mVerticalWallpaperOffset, mFinalVerticalWallpaperOffset) == 0) { mIsMovingFast = false; return false; } Display display = mLauncher.getWindowManager().getDefaultDisplay(); boolean isLandscape = display.getWidth() > display.getHeight(); long currentTime = System.currentTimeMillis(); long timeSinceLastUpdate = currentTime - mLastWallpaperOffsetUpdateTime; timeSinceLastUpdate = Math.min((long) (1000/30f), timeSinceLastUpdate); timeSinceLastUpdate = Math.max(1L, timeSinceLastUpdate); float xdiff = Math.abs(mFinalHorizontalWallpaperOffset - mHorizontalWallpaperOffset); if (!mIsMovingFast && xdiff > 0.07) { mIsMovingFast = true; } float fractionToCatchUpIn1MsHorizontal; if (mOverrideHorizontalCatchupConstant) { fractionToCatchUpIn1MsHorizontal = mHorizontalCatchupConstant; } else if (mIsMovingFast) { fractionToCatchUpIn1MsHorizontal = isLandscape ? 0.5f : 0.75f; } else { // slow fractionToCatchUpIn1MsHorizontal = isLandscape ? 0.27f : 0.5f; } float fractionToCatchUpIn1MsVertical = mVerticalCatchupConstant; fractionToCatchUpIn1MsHorizontal /= 33f; fractionToCatchUpIn1MsVertical /= 33f; final float UPDATE_THRESHOLD = 0.00001f; float hOffsetDelta = mFinalHorizontalWallpaperOffset - mHorizontalWallpaperOffset; float vOffsetDelta = mFinalVerticalWallpaperOffset - mVerticalWallpaperOffset; boolean jumpToFinalValue = Math.abs(hOffsetDelta) < UPDATE_THRESHOLD && Math.abs(vOffsetDelta) < UPDATE_THRESHOLD; if (jumpToFinalValue) { mHorizontalWallpaperOffset = mFinalHorizontalWallpaperOffset; mVerticalWallpaperOffset = mFinalVerticalWallpaperOffset; } else { float percentToCatchUpVertical = Math.min(1.0f, timeSinceLastUpdate * fractionToCatchUpIn1MsVertical); float percentToCatchUpHorizontal = Math.min(1.0f, timeSinceLastUpdate * fractionToCatchUpIn1MsHorizontal); mHorizontalWallpaperOffset += percentToCatchUpHorizontal * hOffsetDelta; mVerticalWallpaperOffset += percentToCatchUpVertical * vOffsetDelta; } mLastWallpaperOffsetUpdateTime = System.currentTimeMillis(); return true; } public float getCurrX() { return mHorizontalWallpaperOffset; } public float getFinalX() { return mFinalHorizontalWallpaperOffset; } public float getCurrY() { return mVerticalWallpaperOffset; } public float getFinalY() { return mFinalVerticalWallpaperOffset; } public void setFinalX(float x) { mFinalHorizontalWallpaperOffset = Math.max(0f, Math.min(x, 1.0f)); } public void setFinalY(float y) { mFinalVerticalWallpaperOffset = Math.max(0f, Math.min(y, 1.0f)); } public void jumpToFinal() { mHorizontalWallpaperOffset = mFinalHorizontalWallpaperOffset; mVerticalWallpaperOffset = mFinalVerticalWallpaperOffset; } } @Override public void computeScroll() { super.computeScroll(); syncWallpaperOffsetWithScroll(); } void showOutlines() { if (!isSmall() && !mIsSwitchingState) { if (mChildrenOutlineFadeOutAnimation != null) mChildrenOutlineFadeOutAnimation.cancel(); if (mChildrenOutlineFadeInAnimation != null) mChildrenOutlineFadeInAnimation.cancel(); mChildrenOutlineFadeInAnimation = ObjectAnimator.ofFloat(this, "childrenOutlineAlpha", 1.0f); mChildrenOutlineFadeInAnimation.setDuration(CHILDREN_OUTLINE_FADE_IN_DURATION); mChildrenOutlineFadeInAnimation.start(); } } void hideOutlines() { if (!isSmall() && !mIsSwitchingState) { if (mChildrenOutlineFadeInAnimation != null) mChildrenOutlineFadeInAnimation.cancel(); if (mChildrenOutlineFadeOutAnimation != null) mChildrenOutlineFadeOutAnimation.cancel(); mChildrenOutlineFadeOutAnimation = ObjectAnimator.ofFloat(this, "childrenOutlineAlpha", 0.0f); mChildrenOutlineFadeOutAnimation.setDuration(CHILDREN_OUTLINE_FADE_OUT_DURATION); mChildrenOutlineFadeOutAnimation.setStartDelay(CHILDREN_OUTLINE_FADE_OUT_DELAY); mChildrenOutlineFadeOutAnimation.start(); } } public void showOutlinesTemporarily() { if (!mIsPageMoving && !isTouchActive()) { snapToPage(mCurrentPage); } } public void setChildrenOutlineAlpha(float alpha) { mChildrenOutlineAlpha = alpha; for (int i = 0; i < getChildCount(); i++) { CellLayout cl = (CellLayout) getChildAt(i); cl.setBackgroundAlpha(alpha); } } public float getChildrenOutlineAlpha() { return mChildrenOutlineAlpha; } void disableBackground() { mDrawBackground = false; } void enableBackground() { mDrawBackground = true; } private void animateBackgroundGradient(float finalAlpha, boolean animated) { if (mBackground == null) return; if (mBackgroundFadeInAnimation != null) { mBackgroundFadeInAnimation.cancel(); mBackgroundFadeInAnimation = null; } if (mBackgroundFadeOutAnimation != null) { mBackgroundFadeOutAnimation.cancel(); mBackgroundFadeOutAnimation = null; } float startAlpha = getBackgroundAlpha(); if (finalAlpha != startAlpha) { if (animated) { mBackgroundFadeOutAnimation = ValueAnimator.ofFloat(startAlpha, finalAlpha); mBackgroundFadeOutAnimation.addUpdateListener(new AnimatorUpdateListener() { public void onAnimationUpdate(ValueAnimator animation) { setBackgroundAlpha(((Float) animation.getAnimatedValue()).floatValue()); } }); mBackgroundFadeOutAnimation.setInterpolator(new DecelerateInterpolator(1.5f)); mBackgroundFadeOutAnimation.setDuration(BACKGROUND_FADE_OUT_DURATION); mBackgroundFadeOutAnimation.start(); } else { setBackgroundAlpha(finalAlpha); } } } public void setBackgroundAlpha(float alpha) { if (alpha != mBackgroundAlpha) { mBackgroundAlpha = alpha; invalidate(); } } public float getBackgroundAlpha() { return mBackgroundAlpha; } /** * Due to 3D transformations, if two CellLayouts are theoretically touching each other, * on the xy plane, when one is rotated along the y-axis, the gap between them is perceived * as being larger. This method computes what offset the rotated view should be translated * in order to minimize this perceived gap. * @param degrees Angle of the view * @param width Width of the view * @param height Height of the view * @return Offset to be used in a View.setTranslationX() call */ private float getOffsetXForRotation(float degrees, int width, int height) { mMatrix.reset(); mCamera.save(); mCamera.rotateY(Math.abs(degrees)); mCamera.getMatrix(mMatrix); mCamera.restore(); mMatrix.preTranslate(-width * 0.5f, -height * 0.5f); mMatrix.postTranslate(width * 0.5f, height * 0.5f); mTempFloat2[0] = width; mTempFloat2[1] = height; mMatrix.mapPoints(mTempFloat2); return (width - mTempFloat2[0]) * (degrees > 0.0f ? 1.0f : -1.0f); } float backgroundAlphaInterpolator(float r) { float pivotA = 0.1f; float pivotB = 0.4f; if (r < pivotA) { return 0; } else if (r > pivotB) { return 1.0f; } else { return (r - pivotA)/(pivotB - pivotA); } } float overScrollBackgroundAlphaInterpolator(float r) { float threshold = 0.08f; if (r > mOverScrollMaxBackgroundAlpha) { mOverScrollMaxBackgroundAlpha = r; } else if (r < mOverScrollMaxBackgroundAlpha) { r = mOverScrollMaxBackgroundAlpha; } return Math.min(r / threshold, 1.0f); } private void screenScrolledLargeUI(int screenCenter) { for (int i = 0; i < getChildCount(); i++) { CellLayout cl = (CellLayout) getChildAt(i); if (cl != null) { float scrollProgress = getScrollProgress(screenCenter, cl, i); float rotation = WORKSPACE_ROTATION * scrollProgress; float translationX = getOffsetXForRotation(rotation, cl.getWidth(), cl.getHeight()); // If the current page (i) is being over scrolled, we use a different // set of rules for setting the background alpha multiplier. if ((mScrollX < 0 && i == 0) || (mScrollX > mMaxScrollX && i == getChildCount() -1 )) { cl.setBackgroundAlphaMultiplier( overScrollBackgroundAlphaInterpolator(Math.abs(scrollProgress))); mOverScrollPageIndex = i; } else if (mOverScrollPageIndex != i) { cl.setBackgroundAlphaMultiplier( backgroundAlphaInterpolator(Math.abs(scrollProgress))); } cl.setTranslationX(translationX); cl.setRotationY(rotation); } } } private void resetCellLayoutTransforms(CellLayout cl, boolean left) { cl.setTranslationX(0); cl.setRotationY(0); cl.setOverScrollAmount(0, left); cl.setPivotX(cl.getMeasuredWidth() / 2); cl.setPivotY(cl.getMeasuredHeight() / 2); } private void screenScrolledStandardUI(int screenCenter) { if (mScrollX < 0 || mScrollX > mMaxScrollX) { int index = mScrollX < 0 ? 0 : getChildCount() - 1; CellLayout cl = (CellLayout) getChildAt(index); float scrollProgress = getScrollProgress(screenCenter, cl, index); cl.setOverScrollAmount(Math.abs(scrollProgress), index == 0); float translationX = index == 0 ? mScrollX : - (mMaxScrollX - mScrollX); float rotation = - WORKSPACE_OVERSCROLL_ROTATION * scrollProgress; cl.setCameraDistance(mDensity * 6500); cl.setPivotX(cl.getMeasuredWidth() * (index == 0 ? 0.75f : 0.25f)); cl.setTranslationX(translationX); cl.setRotationY(rotation); } else { resetCellLayoutTransforms((CellLayout) getChildAt(0), true); resetCellLayoutTransforms((CellLayout) getChildAt(getChildCount() - 1), false); } } @Override protected void screenScrolled(int screenCenter) { super.screenScrolled(screenCenter); if (LauncherApplication.isScreenLarge()) { screenScrolledLargeUI(screenCenter); } else { screenScrolledStandardUI(screenCenter); } } @Override protected void overScroll(float amount) { if (LauncherApplication.isScreenLarge()) { dampedOverScroll(amount); } else { acceleratedOverScroll(amount); } } protected void onAttachedToWindow() { super.onAttachedToWindow(); mWindowToken = getWindowToken(); computeScroll(); mDragController.setWindowToken(mWindowToken); } protected void onDetachedFromWindow() { mWindowToken = null; } @Override protected void onLayout(boolean changed, int left, int top, int right, int bottom) { if (mFirstLayout && mCurrentPage >= 0 && mCurrentPage < getChildCount()) { mUpdateWallpaperOffsetImmediately = true; } super.onLayout(changed, left, top, right, bottom); // if shrinkToBottom() is called on initialization, it has to be deferred // until after the first call to onLayout so that it has the correct width if (mSwitchStateAfterFirstLayout) { mSwitchStateAfterFirstLayout = false; // shrink can trigger a synchronous onLayout call, so we // post this to avoid a stack overflow / tangled onLayout calls post(new Runnable() { public void run() { changeState(mStateAfterFirstLayout, false); } }); } } @Override protected void onDraw(Canvas canvas) { updateWallpaperOffsets(); // Draw the background gradient if necessary if (mBackground != null && mBackgroundAlpha > 0.0f && mDrawBackground) { int alpha = (int) (mBackgroundAlpha * 255); mBackground.setAlpha(alpha); mBackground.setBounds(mScrollX, 0, mScrollX + getMeasuredWidth(), getMeasuredHeight()); mBackground.draw(canvas); } super.onDraw(canvas); } @Override protected void dispatchDraw(Canvas canvas) { super.dispatchDraw(canvas); if (mInScrollArea && !LauncherApplication.isScreenLarge()) { final int width = getWidth(); final int height = getHeight(); final int pageHeight = getChildAt(0).getHeight(); // This determines the height of the glowing edge: 90% of the page height final int padding = (int) ((height - pageHeight) * 0.5f + pageHeight * 0.1f); final CellLayout leftPage = (CellLayout) getChildAt(mCurrentPage - 1); final CellLayout rightPage = (CellLayout) getChildAt(mCurrentPage + 1); if (leftPage != null && leftPage.getIsDragOverlapping()) { final Drawable d = getResources().getDrawable(R.drawable.page_hover_left_holo); d.setBounds(mScrollX, padding, mScrollX + d.getIntrinsicWidth(), height - padding); d.draw(canvas); } else if (rightPage != null && rightPage.getIsDragOverlapping()) { final Drawable d = getResources().getDrawable(R.drawable.page_hover_right_holo); d.setBounds(mScrollX + width - d.getIntrinsicWidth(), padding, mScrollX + width, height - padding); d.draw(canvas); } } } @Override protected boolean onRequestFocusInDescendants(int direction, Rect previouslyFocusedRect) { if (!mLauncher.isAllAppsVisible()) { final Folder openFolder = getOpenFolder(); if (openFolder != null) { return openFolder.requestFocus(direction, previouslyFocusedRect); } else { return super.onRequestFocusInDescendants(direction, previouslyFocusedRect); } } return false; } @Override public int getDescendantFocusability() { if (isSmall()) { return ViewGroup.FOCUS_BLOCK_DESCENDANTS; } return super.getDescendantFocusability(); } @Override public void addFocusables(ArrayList views, int direction, int focusableMode) { if (!mLauncher.isAllAppsVisible()) { final Folder openFolder = getOpenFolder(); if (openFolder != null) { openFolder.addFocusables(views, direction); } else { super.addFocusables(views, direction, focusableMode); } } } public boolean isSmall() { return mState == State.SMALL || mState == State.SPRING_LOADED; } void enableChildrenCache(int fromPage, int toPage) { if (fromPage > toPage) { final int temp = fromPage; fromPage = toPage; toPage = temp; } final int screenCount = getChildCount(); fromPage = Math.max(fromPage, 0); toPage = Math.min(toPage, screenCount - 1); for (int i = fromPage; i <= toPage; i++) { final CellLayout layout = (CellLayout) getChildAt(i); layout.setChildrenDrawnWithCacheEnabled(true); layout.setChildrenDrawingCacheEnabled(true); } } void clearChildrenCache() { final int screenCount = getChildCount(); for (int i = 0; i < screenCount; i++) { final CellLayout layout = (CellLayout) getChildAt(i); layout.setChildrenDrawnWithCacheEnabled(false); // In software mode, we don't want the items to continue to be drawn into bitmaps if (!isHardwareAccelerated()) { layout.setChildrenDrawingCacheEnabled(false); } } } private void updateChildrenLayersEnabled() { boolean small = isSmall() || mIsSwitchingState; boolean dragging = mAnimatingViewIntoPlace || mIsDragOccuring; boolean enableChildrenLayers = small || dragging || isPageMoving(); if (enableChildrenLayers != mChildrenLayersEnabled) { mChildrenLayersEnabled = enableChildrenLayers; for (int i = 0; i < getPageCount(); i++) { ((ViewGroup)getChildAt(i)).setChildrenLayersEnabled(enableChildrenLayers); } } } protected void onWallpaperTap(MotionEvent ev) { final int[] position = mTempCell; getLocationOnScreen(position); int pointerIndex = ev.getActionIndex(); position[0] += (int) ev.getX(pointerIndex); position[1] += (int) ev.getY(pointerIndex); mWallpaperManager.sendWallpaperCommand(getWindowToken(), ev.getAction() == MotionEvent.ACTION_UP ? WallpaperManager.COMMAND_TAP : WallpaperManager.COMMAND_SECONDARY_TAP, position[0], position[1], 0, null); } @Override protected void updateAdjacentPagesAlpha() { if (!isSmall()) { super.updateAdjacentPagesAlpha(); } } /* * This interpolator emulates the rate at which the perceived scale of an object changes * as its distance from a camera increases. When this interpolator is applied to a scale * animation on a view, it evokes the sense that the object is shrinking due to moving away * from the camera. */ static class ZInterpolator implements TimeInterpolator { private float focalLength; public ZInterpolator(float foc) { focalLength = foc; } public float getInterpolation(float input) { return (1.0f - focalLength / (focalLength + input)) / (1.0f - focalLength / (focalLength + 1.0f)); } } /* * The exact reverse of ZInterpolator. */ static class InverseZInterpolator implements TimeInterpolator { private ZInterpolator zInterpolator; public InverseZInterpolator(float foc) { zInterpolator = new ZInterpolator(foc); } public float getInterpolation(float input) { return 1 - zInterpolator.getInterpolation(1 - input); } } /* * ZInterpolator compounded with an ease-out. */ static class ZoomOutInterpolator implements TimeInterpolator { private final ZInterpolator zInterpolator = new ZInterpolator(0.2f); private final DecelerateInterpolator decelerate = new DecelerateInterpolator(1.8f); public float getInterpolation(float input) { return decelerate.getInterpolation(zInterpolator.getInterpolation(input)); } } /* * InvereZInterpolator compounded with an ease-out. */ static class ZoomInInterpolator implements TimeInterpolator { private final InverseZInterpolator inverseZInterpolator = new InverseZInterpolator(0.35f); private final DecelerateInterpolator decelerate = new DecelerateInterpolator(3.0f); public float getInterpolation(float input) { return decelerate.getInterpolation(inverseZInterpolator.getInterpolation(input)); } } private final ZoomInInterpolator mZoomInInterpolator = new ZoomInInterpolator(); /* * * We call these methods (onDragStartedWithItemSpans/onDragStartedWithSize) whenever we * start a drag in Launcher, regardless of whether the drag has ever entered the Workspace * * These methods mark the appropriate pages as accepting drops (which alters their visual * appearance). * */ public void onDragStartedWithItem(View v) { final Canvas canvas = new Canvas(); // We need to add extra padding to the bitmap to make room for the glow effect final int bitmapPadding = HolographicOutlineHelper.MAX_OUTER_BLUR_RADIUS; // The outline is used to visualize where the item will land if dropped mDragOutline = createDragOutline(v, canvas, bitmapPadding); } public void onDragStartedWithItemSpans(int spanX, int spanY, Bitmap b) { final Canvas canvas = new Canvas(); // We need to add extra padding to the bitmap to make room for the glow effect final int bitmapPadding = HolographicOutlineHelper.MAX_OUTER_BLUR_RADIUS; CellLayout cl = (CellLayout) getChildAt(0); int[] size = cl.cellSpansToSize(spanX, spanY); // The outline is used to visualize where the item will land if dropped mDragOutline = createDragOutline(b, canvas, bitmapPadding, size[0], size[1]); } // we call this method whenever a drag and drop in Launcher finishes, even if Workspace was // never dragged over public void onDragStopped(boolean success) { // In the success case, DragController has already called onDragExit() if (!success) { doDragExit(null); } } public void exitWidgetResizeMode() { DragLayer dragLayer = mLauncher.getDragLayer(); dragLayer.clearAllResizeFrames(); } private void initAnimationArrays() { final int childCount = getChildCount(); if (mOldTranslationXs != null) return; mOldTranslationXs = new float[childCount]; mOldTranslationYs = new float[childCount]; mOldScaleXs = new float[childCount]; mOldScaleYs = new float[childCount]; mOldBackgroundAlphas = new float[childCount]; mOldBackgroundAlphaMultipliers = new float[childCount]; mOldAlphas = new float[childCount]; mOldRotationYs = new float[childCount]; mNewTranslationXs = new float[childCount]; mNewTranslationYs = new float[childCount]; mNewScaleXs = new float[childCount]; mNewScaleYs = new float[childCount]; mNewBackgroundAlphas = new float[childCount]; mNewBackgroundAlphaMultipliers = new float[childCount]; mNewAlphas = new float[childCount]; mNewRotationYs = new float[childCount]; } public void changeState(State shrinkState) { changeState(shrinkState, true); } void changeState(final State state, boolean animated) { if (mFirstLayout) { // (mFirstLayout == "first layout has not happened yet") // cancel any pending shrinks that were set earlier mSwitchStateAfterFirstLayout = false; mStateAfterFirstLayout = state; return; } if (mAnimator != null) { mAnimator.cancel(); } // Stop any scrolling, move to the current page right away setCurrentPage((mNextPage != INVALID_PAGE) ? mNextPage : mCurrentPage); float finalScaleFactor = 1.0f; float finalBackgroundAlpha = 0.0f; boolean normalState = false; State oldState = mState; mState = state; boolean zoomIn = true; if (state != State.NORMAL) { finalScaleFactor = mSpringLoadedShrinkFactor - (state == State.SMALL ? 0.1f : 0); finalBackgroundAlpha = 1.0f; if (oldState == State.NORMAL && state == State.SMALL) { zoomIn = false; if (animated) { hideScrollingIndicator(true); } setLayoutScale(finalScaleFactor); updateChildrenLayersEnabled(); } else { setLayoutScale(finalScaleFactor); } } else { setLayoutScale(1.0f); normalState = true; } float translationX = 0; float translationY = 0; mAnimator = new AnimatorSet(); final int screenCount = getChildCount(); initAnimationArrays(); final int duration = zoomIn ? getResources().getInteger(R.integer.config_workspaceUnshrinkTime) : getResources().getInteger(R.integer.config_appsCustomizeWorkspaceShrinkTime); for (int i = 0; i < screenCount; i++) { final CellLayout cl = (CellLayout)getChildAt(i); float finalAlphaValue = 0f; float rotation = 0f; // Set the final alpha depending on whether we are fading side pages. On phone ui, // we don't do any of the rotation, or the fading alpha in portrait. See the // ctor and screenScrolled(). if (mFadeInAdjacentScreens && normalState) { finalAlphaValue = (i == mCurrentPage) ? 1f : 0f; } else { finalAlphaValue = 1f; } if (LauncherApplication.isScreenLarge()) { if (i < mCurrentPage) { rotation = WORKSPACE_ROTATION; } else if (i > mCurrentPage) { rotation = -WORKSPACE_ROTATION; } } float finalAlphaMultiplierValue = 1f; // If the screen is not xlarge, then don't rotate the CellLayouts // NOTE: If we don't update the side pages alpha, then we should not hide the side // pages. see unshrink(). if (LauncherApplication.isScreenLarge()) { translationX = getOffsetXForRotation(rotation, cl.getWidth(), cl.getHeight()); } mOldAlphas[i] = cl.getAlpha(); mNewAlphas[i] = finalAlphaValue; if (animated) { mOldTranslationXs[i] = cl.getTranslationX(); mOldTranslationYs[i] = cl.getTranslationY(); mOldScaleXs[i] = cl.getScaleX(); mOldScaleYs[i] = cl.getScaleY(); mOldBackgroundAlphas[i] = cl.getBackgroundAlpha(); mOldBackgroundAlphaMultipliers[i] = cl.getBackgroundAlphaMultiplier(); mOldRotationYs[i] = cl.getRotationY(); mNewTranslationXs[i] = translationX; mNewTranslationYs[i] = translationY; mNewScaleXs[i] = finalScaleFactor; mNewScaleYs[i] = finalScaleFactor; mNewBackgroundAlphas[i] = finalBackgroundAlpha; mNewBackgroundAlphaMultipliers[i] = finalAlphaMultiplierValue; mNewRotationYs[i] = rotation; } else { cl.setTranslationX(translationX); cl.setTranslationY(translationY); cl.setScaleX(finalScaleFactor); cl.setScaleY(finalScaleFactor); cl.setBackgroundAlpha(0.0f); cl.setBackgroundAlphaMultiplier(finalAlphaMultiplierValue); cl.setAlpha(finalAlphaValue); cl.setRotationY(rotation); mChangeStateAnimationListener.onAnimationEnd(null); } } if (animated) { ValueAnimator animWithInterpolator = ValueAnimator.ofFloat(0f, 1f).setDuration(duration); if (zoomIn) { animWithInterpolator.setInterpolator(mZoomInInterpolator); } animWithInterpolator.addUpdateListener(new LauncherAnimatorUpdateListener() { public void onAnimationUpdate(float a, float b) { mTransitionProgress = b; if (b == 0f) { // an optimization, but not required return; } invalidate(); for (int i = 0; i < screenCount; i++) { final CellLayout cl = (CellLayout) getChildAt(i); cl.fastInvalidate(); cl.setFastTranslationX(a * mOldTranslationXs[i] + b * mNewTranslationXs[i]); cl.setFastTranslationY(a * mOldTranslationYs[i] + b * mNewTranslationYs[i]); cl.setFastScaleX(a * mOldScaleXs[i] + b * mNewScaleXs[i]); cl.setFastScaleY(a * mOldScaleYs[i] + b * mNewScaleYs[i]); cl.setFastBackgroundAlpha( a * mOldBackgroundAlphas[i] + b * mNewBackgroundAlphas[i]); cl.setBackgroundAlphaMultiplier(a * mOldBackgroundAlphaMultipliers[i] + b * mNewBackgroundAlphaMultipliers[i]); cl.setFastAlpha(a * mOldAlphas[i] + b * mNewAlphas[i]); } } }); ValueAnimator rotationAnim = ValueAnimator.ofFloat(0f, 1f).setDuration(duration); rotationAnim.setInterpolator(new DecelerateInterpolator(2.0f)); rotationAnim.addUpdateListener(new LauncherAnimatorUpdateListener() { public void onAnimationUpdate(float a, float b) { if (b == 0f) { // an optimization, but not required return; } for (int i = 0; i < screenCount; i++) { final CellLayout cl = (CellLayout) getChildAt(i); cl.setFastRotationY(a * mOldRotationYs[i] + b * mNewRotationYs[i]); } } }); mAnimator.playTogether(animWithInterpolator, rotationAnim); // If we call this when we're not animated, onAnimationEnd is never called on // the listener; make sure we only use the listener when we're actually animating mAnimator.addListener(mChangeStateAnimationListener); mAnimator.start(); } if (state == State.SPRING_LOADED) { // Right now we're covered by Apps Customize // Show the background gradient immediately, so the gradient will // be showing once AppsCustomize disappears animateBackgroundGradient(getResources().getInteger( R.integer.config_appsCustomizeSpringLoadedBgAlpha) / 100f, false); } else { // Fade the background gradient away animateBackgroundGradient(0f, true); } } /** * Draw the View v into the given Canvas. * * @param v the view to draw * @param destCanvas the canvas to draw on * @param padding the horizontal and vertical padding to use when drawing */ private void drawDragView(View v, Canvas destCanvas, int padding, boolean pruneToDrawable) { final Rect clipRect = mTempRect; v.getDrawingRect(clipRect); boolean textVisible = false; destCanvas.save(); if (v instanceof TextView && pruneToDrawable) { Drawable d = ((TextView) v).getCompoundDrawables()[1]; clipRect.set(0, 0, d.getIntrinsicWidth() + padding, d.getIntrinsicHeight() + padding); destCanvas.translate(padding / 2, padding / 2); d.draw(destCanvas); } else { if (v instanceof FolderIcon) { // For FolderIcons the text can bleed into the icon area, and so we need to // hide the text completely (which can't be achieved by clipping). if (((FolderIcon) v).getTextVisible()) { ((FolderIcon) v).setTextVisible(false); textVisible = true; } } else if (v instanceof BubbleTextView) { final BubbleTextView tv = (BubbleTextView) v; clipRect.bottom = tv.getExtendedPaddingTop() - (int) BubbleTextView.PADDING_V + tv.getLayout().getLineTop(0); } else if (v instanceof TextView) { final TextView tv = (TextView) v; clipRect.bottom = tv.getExtendedPaddingTop() - tv.getCompoundDrawablePadding() + tv.getLayout().getLineTop(0); } destCanvas.translate(-v.getScrollX() + padding / 2, -v.getScrollY() + padding / 2); destCanvas.clipRect(clipRect, Op.REPLACE); v.draw(destCanvas); // Restore text visibility of FolderIcon if necessary if (textVisible) { ((FolderIcon) v).setTextVisible(true); } } destCanvas.restore(); } /** * Returns a new bitmap to show when the given View is being dragged around. * Responsibility for the bitmap is transferred to the caller. */ public Bitmap createDragBitmap(View v, Canvas canvas, int padding) { final int outlineColor = getResources().getColor(android.R.color.holo_blue_light); Bitmap b; if (v instanceof TextView) { Drawable d = ((TextView) v).getCompoundDrawables()[1]; b = Bitmap.createBitmap(d.getIntrinsicWidth() + padding, d.getIntrinsicHeight() + padding, Bitmap.Config.ARGB_8888); } else { b = Bitmap.createBitmap( v.getWidth() + padding, v.getHeight() + padding, Bitmap.Config.ARGB_8888); } canvas.setBitmap(b); drawDragView(v, canvas, padding, true); mOutlineHelper.applyOuterBlur(b, canvas, outlineColor); canvas.drawColor(mDragViewMultiplyColor, PorterDuff.Mode.MULTIPLY); canvas.setBitmap(null); return b; } /** * Returns a new bitmap to be used as the object outline, e.g. to visualize the drop location. * Responsibility for the bitmap is transferred to the caller. */ private Bitmap createDragOutline(View v, Canvas canvas, int padding) { final int outlineColor = getResources().getColor(android.R.color.holo_blue_light); final Bitmap b = Bitmap.createBitmap( v.getWidth() + padding, v.getHeight() + padding, Bitmap.Config.ARGB_8888); canvas.setBitmap(b); drawDragView(v, canvas, padding, false); mOutlineHelper.applyMediumExpensiveOutlineWithBlur(b, canvas, outlineColor, outlineColor); canvas.setBitmap(null); return b; } /** * Returns a new bitmap to be used as the object outline, e.g. to visualize the drop location. * Responsibility for the bitmap is transferred to the caller. */ private Bitmap createDragOutline(Bitmap orig, Canvas canvas, int padding, int w, int h) { final int outlineColor = getResources().getColor(android.R.color.holo_blue_light); final Bitmap b = Bitmap.createBitmap(w, h, Bitmap.Config.ARGB_8888); canvas.setBitmap(b); Rect src = new Rect(0, 0, orig.getWidth(), orig.getHeight()); float scaleFactor = Math.min((w - padding) / (float) orig.getWidth(), (h - padding) / (float) orig.getHeight()); int scaledWidth = (int) (scaleFactor * orig.getWidth()); int scaledHeight = (int) (scaleFactor * orig.getHeight()); Rect dst = new Rect(0, 0, scaledWidth, scaledHeight); // center the image dst.offset((w - scaledWidth) / 2, (h - scaledHeight) / 2); Paint p = new Paint(); p.setFilterBitmap(true); canvas.drawBitmap(orig, src, dst, p); mOutlineHelper.applyMediumExpensiveOutlineWithBlur(b, canvas, outlineColor, outlineColor); canvas.setBitmap(null); return b; } /** * Creates a drag outline to represent a drop (that we don't have the actual information for * yet). May be changed in the future to alter the drop outline slightly depending on the * clip description mime data. */ private Bitmap createExternalDragOutline(Canvas canvas, int padding) { Resources r = getResources(); final int outlineColor = r.getColor(android.R.color.holo_blue_light); final int iconWidth = r.getDimensionPixelSize(R.dimen.workspace_cell_width); final int iconHeight = r.getDimensionPixelSize(R.dimen.workspace_cell_height); final int rectRadius = r.getDimensionPixelSize(R.dimen.external_drop_icon_rect_radius); final int inset = (int) (Math.min(iconWidth, iconHeight) * 0.2f); final Bitmap b = Bitmap.createBitmap( iconWidth + padding, iconHeight + padding, Bitmap.Config.ARGB_8888); canvas.setBitmap(b); canvas.drawRoundRect(new RectF(inset, inset, iconWidth - inset, iconHeight - inset), rectRadius, rectRadius, mExternalDragOutlinePaint); mOutlineHelper.applyMediumExpensiveOutlineWithBlur(b, canvas, outlineColor, outlineColor); canvas.setBitmap(null); return b; } void startDrag(CellLayout.CellInfo cellInfo) { View child = cellInfo.cell; // Make sure the drag was started by a long press as opposed to a long click. if (!child.isInTouchMode()) { return; } mDragInfo = cellInfo; child.setVisibility(GONE); child.clearFocus(); child.setPressed(false); final Canvas canvas = new Canvas(); // We need to add extra padding to the bitmap to make room for the glow effect final int bitmapPadding = HolographicOutlineHelper.MAX_OUTER_BLUR_RADIUS; // The outline is used to visualize where the item will land if dropped mDragOutline = createDragOutline(child, canvas, bitmapPadding); beginDragShared(child, this); } public void beginDragShared(View child, DragSource source) { // We need to add extra padding to the bitmap to make room for the glow effect final int bitmapPadding = HolographicOutlineHelper.MAX_OUTER_BLUR_RADIUS; // The drag bitmap follows the touch point around on the screen final Bitmap b = createDragBitmap(child, new Canvas(), bitmapPadding); final int bmpWidth = b.getWidth(); mLauncher.getDragLayer().getLocationInDragLayer(child, mTempXY); final int dragLayerX = (int) mTempXY[0] + (child.getWidth() - bmpWidth) / 2; int dragLayerY = mTempXY[1] - bitmapPadding / 2; Rect dragRect = null; if (child instanceof BubbleTextView) { int iconSize = getResources().getDimensionPixelSize(R.dimen.app_icon_size); int top = child.getPaddingTop(); int left = (bmpWidth - iconSize) / 2; int right = left + iconSize; int bottom = top + iconSize; dragLayerY += top; dragRect = new Rect(left, top, right, bottom); } else if (child instanceof FolderIcon) { int previewSize = getResources().getDimensionPixelSize(R.dimen.folder_preview_size); dragRect = new Rect(0, 0, child.getWidth(), previewSize); } mDragController.startDrag(b, dragLayerX, dragLayerY, source, child.getTag(), DragController.DRAG_ACTION_MOVE, dragRect); b.recycle(); } void addApplicationShortcut(ShortcutInfo info, CellLayout target, long container, int screen, int cellX, int cellY, boolean insertAtFirst, int intersectX, int intersectY) { View view = mLauncher.createShortcut(R.layout.application, target, (ShortcutInfo) info); final int[] cellXY = new int[2]; target.findCellForSpanThatIntersects(cellXY, 1, 1, intersectX, intersectY); addInScreen(view, container, screen, cellXY[0], cellXY[1], 1, 1, insertAtFirst); LauncherModel.addOrMoveItemInDatabase(mLauncher, info, container, screen, cellXY[0], cellXY[1]); } public boolean transitionStateShouldAllowDrop() { return (!isSwitchingState() || mTransitionProgress > 0.5f); } /** * {@inheritDoc} */ public boolean acceptDrop(DragObject d) { // If it's an external drop (e.g. from All Apps), check if it should be accepted if (d.dragSource != this) { // Don't accept the drop if we're not over a screen at time of drop if (mDragTargetLayout == null) { return false; } if (!transitionStateShouldAllowDrop()) return false; mDragViewVisualCenter = getDragViewVisualCenter(d.x, d.y, d.xOffset, d.yOffset, d.dragView, mDragViewVisualCenter); // We want the point to be mapped to the dragTarget. if (mLauncher.isHotseatLayout(mDragTargetLayout)) { mapPointFromSelfToSibling(mLauncher.getHotseat(), mDragViewVisualCenter); } else { mapPointFromSelfToChild(mDragTargetLayout, mDragViewVisualCenter, null); } int spanX = 1; int spanY = 1; View ignoreView = null; if (mDragInfo != null) { final CellLayout.CellInfo dragCellInfo = mDragInfo; spanX = dragCellInfo.spanX; spanY = dragCellInfo.spanY; ignoreView = dragCellInfo.cell; } else { final ItemInfo dragInfo = (ItemInfo) d.dragInfo; spanX = dragInfo.spanX; spanY = dragInfo.spanY; } mTargetCell = findNearestArea((int) mDragViewVisualCenter[0], (int) mDragViewVisualCenter[1], spanX, spanY, mDragTargetLayout, mTargetCell); if (willCreateUserFolder((ItemInfo) d.dragInfo, mDragTargetLayout, mTargetCell, true)) { return true; } if (willAddToExistingUserFolder((ItemInfo) d.dragInfo, mDragTargetLayout, mTargetCell)) { return true; } // Don't accept the drop if there's no room for the item if (!mDragTargetLayout.findCellForSpanIgnoring(null, spanX, spanY, ignoreView)) { mLauncher.showOutOfSpaceMessage(); return false; } } return true; } boolean willCreateUserFolder(ItemInfo info, CellLayout target, int[] targetCell, boolean considerTimeout) { View dropOverView = target.getChildAt(targetCell[0], targetCell[1]); boolean hasntMoved = false; if (mDragInfo != null) { CellLayout cellParent = getParentCellLayoutForView(mDragInfo.cell); hasntMoved = (mDragInfo.cellX == targetCell[0] && mDragInfo.cellY == targetCell[1]) && (cellParent == target); } if (dropOverView == null || hasntMoved || (considerTimeout && !mCreateUserFolderOnDrop)) { return false; } boolean aboveShortcut = (dropOverView.getTag() instanceof ShortcutInfo); boolean willBecomeShortcut = (info.itemType == LauncherSettings.Favorites.ITEM_TYPE_APPLICATION || info.itemType == LauncherSettings.Favorites.ITEM_TYPE_SHORTCUT); return (aboveShortcut && willBecomeShortcut); } boolean willAddToExistingUserFolder(Object dragInfo, CellLayout target, int[] targetCell) { View dropOverView = target.getChildAt(targetCell[0], targetCell[1]); if (dropOverView instanceof FolderIcon) { FolderIcon fi = (FolderIcon) dropOverView; if (fi.acceptDrop(dragInfo)) { return true; } } return false; } boolean createUserFolderIfNecessary(View newView, long container, CellLayout target, int[] targetCell, boolean external, DragView dragView, Runnable postAnimationRunnable) { View v = target.getChildAt(targetCell[0], targetCell[1]); boolean hasntMoved = false; if (mDragInfo != null) { CellLayout cellParent = getParentCellLayoutForView(mDragInfo.cell); hasntMoved = (mDragInfo.cellX == targetCell[0] && mDragInfo.cellY == targetCell[1]) && (cellParent == target); } if (v == null || hasntMoved || !mCreateUserFolderOnDrop) return false; mCreateUserFolderOnDrop = false; final int screen = (targetCell == null) ? mDragInfo.screen : indexOfChild(target); boolean aboveShortcut = (v.getTag() instanceof ShortcutInfo); boolean willBecomeShortcut = (newView.getTag() instanceof ShortcutInfo); if (aboveShortcut && willBecomeShortcut) { ShortcutInfo sourceInfo = (ShortcutInfo) newView.getTag(); ShortcutInfo destInfo = (ShortcutInfo) v.getTag(); // if the drag started here, we need to remove it from the workspace if (!external) { getParentCellLayoutForView(mDragInfo.cell).removeView(mDragInfo.cell); } Rect folderLocation = new Rect(); float scale = mLauncher.getDragLayer().getDescendantRectRelativeToSelf(v, folderLocation); target.removeView(v); FolderIcon fi = mLauncher.addFolder(target, container, screen, targetCell[0], targetCell[1]); destInfo.cellX = -1; destInfo.cellY = -1; sourceInfo.cellX = -1; sourceInfo.cellY = -1; // If the dragView is null, we can't animate boolean animate = dragView != null; if (animate) { fi.performCreateAnimation(destInfo, v, sourceInfo, dragView, folderLocation, scale, postAnimationRunnable); } else { fi.addItem(destInfo); fi.addItem(sourceInfo); } return true; } return false; } boolean addToExistingFolderIfNecessary(View newView, CellLayout target, int[] targetCell, DragObject d, boolean external) { View dropOverView = target.getChildAt(targetCell[0], targetCell[1]); if (dropOverView instanceof FolderIcon) { FolderIcon fi = (FolderIcon) dropOverView; if (fi.acceptDrop(d.dragInfo)) { fi.onDrop(d); // if the drag started here, we need to remove it from the workspace if (!external) { getParentCellLayoutForView(mDragInfo.cell).removeView(mDragInfo.cell); } return true; } } return false; } public void onDrop(DragObject d) { mDragViewVisualCenter = getDragViewVisualCenter(d.x, d.y, d.xOffset, d.yOffset, d.dragView, mDragViewVisualCenter); // We want the point to be mapped to the dragTarget. if (mDragTargetLayout != null) { if (mLauncher.isHotseatLayout(mDragTargetLayout)) { mapPointFromSelfToSibling(mLauncher.getHotseat(), mDragViewVisualCenter); } else { mapPointFromSelfToChild(mDragTargetLayout, mDragViewVisualCenter, null); } } CellLayout dropTargetLayout = mDragTargetLayout; int snapScreen = -1; if (d.dragSource != this) { final int[] touchXY = new int[] { (int) mDragViewVisualCenter[0], (int) mDragViewVisualCenter[1] }; onDropExternal(touchXY, d.dragInfo, dropTargetLayout, false, d); } else if (mDragInfo != null) { final View cell = mDragInfo.cell; if (dropTargetLayout != null) { // Move internally boolean hasMovedLayouts = (getParentCellLayoutForView(cell) != dropTargetLayout); boolean hasMovedIntoHotseat = mLauncher.isHotseatLayout(dropTargetLayout); long container = hasMovedIntoHotseat ? LauncherSettings.Favorites.CONTAINER_HOTSEAT : LauncherSettings.Favorites.CONTAINER_DESKTOP; int screen = (mTargetCell[0] < 0) ? mDragInfo.screen : indexOfChild(dropTargetLayout); int spanX = mDragInfo != null ? mDragInfo.spanX : 1; int spanY = mDragInfo != null ? mDragInfo.spanY : 1; // First we find the cell nearest to point at which the item is // dropped, without any consideration to whether there is an item there. mTargetCell = findNearestArea((int) mDragViewVisualCenter[0], (int) mDragViewVisualCenter[1], spanX, spanY, dropTargetLayout, mTargetCell); // If the item being dropped is a shortcut and the nearest drop // cell also contains a shortcut, then create a folder with the two shortcuts. if (!mInScrollArea && createUserFolderIfNecessary(cell, container, dropTargetLayout, mTargetCell, false, d.dragView, null)) { return; } if (addToExistingFolderIfNecessary(cell, dropTargetLayout, mTargetCell, d, false)) { return; } // Aside from the special case where we're dropping a shortcut onto a shortcut, // we need to find the nearest cell location that is vacant mTargetCell = findNearestVacantArea((int) mDragViewVisualCenter[0], (int) mDragViewVisualCenter[1], mDragInfo.spanX, mDragInfo.spanY, cell, dropTargetLayout, mTargetCell); if (mCurrentPage != screen && !hasMovedIntoHotseat) { snapScreen = screen; snapToPage(screen); } if (mTargetCell[0] >= 0 && mTargetCell[1] >= 0) { if (hasMovedLayouts) { // Reparent the view getParentCellLayoutForView(cell).removeView(cell); addInScreen(cell, container, screen, mTargetCell[0], mTargetCell[1], mDragInfo.spanX, mDragInfo.spanY); } // update the item's position after drop final ItemInfo info = (ItemInfo) cell.getTag(); CellLayout.LayoutParams lp = (CellLayout.LayoutParams) cell.getLayoutParams(); dropTargetLayout.onMove(cell, mTargetCell[0], mTargetCell[1]); lp.cellX = mTargetCell[0]; lp.cellY = mTargetCell[1]; cell.setId(LauncherModel.getCellLayoutChildId(container, mDragInfo.screen, mTargetCell[0], mTargetCell[1], mDragInfo.spanX, mDragInfo.spanY)); if (container != LauncherSettings.Favorites.CONTAINER_HOTSEAT && cell instanceof LauncherAppWidgetHostView) { final CellLayout cellLayout = dropTargetLayout; // We post this call so that the widget has a chance to be placed // in its final location final LauncherAppWidgetHostView hostView = (LauncherAppWidgetHostView) cell; AppWidgetProviderInfo pinfo = hostView.getAppWidgetInfo(); if (pinfo.resizeMode != AppWidgetProviderInfo.RESIZE_NONE) { final Runnable resizeRunnable = new Runnable() { public void run() { DragLayer dragLayer = mLauncher.getDragLayer(); dragLayer.addResizeFrame(info, hostView, cellLayout); } }; post(new Runnable() { public void run() { if (!isPageMoving()) { resizeRunnable.run(); } else { mDelayedResizeRunnable = resizeRunnable; } } }); } } LauncherModel.moveItemInDatabase(mLauncher, info, container, screen, lp.cellX, lp.cellY); } } final CellLayout parent = (CellLayout) cell.getParent().getParent(); // Prepare it to be animated into its new position // This must be called after the view has been re-parented final Runnable disableHardwareLayersRunnable = new Runnable() { @Override public void run() { mAnimatingViewIntoPlace = false; updateChildrenLayersEnabled(); } }; mAnimatingViewIntoPlace = true; if (d.dragView.hasDrawn()) { int duration = snapScreen < 0 ? -1 : ADJACENT_SCREEN_DROP_DURATION; setFinalScrollForPageChange(snapScreen); mLauncher.getDragLayer().animateViewIntoPosition(d.dragView, cell, duration, disableHardwareLayersRunnable); resetFinalScrollForPageChange(snapScreen); } else { cell.setVisibility(VISIBLE); } parent.onDropChild(cell); } } public void setFinalScrollForPageChange(int screen) { if (screen >= 0) { mSavedScrollX = getScrollX(); CellLayout cl = (CellLayout) getChildAt(screen); mSavedTranslationX = cl.getTranslationX(); mSavedRotationY = cl.getRotationY(); final int newX = getChildOffset(screen) - getRelativeChildOffset(screen); setScrollX(newX); cl.setTranslationX(0f); cl.setRotationY(0f); } } public void resetFinalScrollForPageChange(int screen) { if (screen >= 0) { CellLayout cl = (CellLayout) getChildAt(screen); setScrollX(mSavedScrollX); cl.setTranslationX(mSavedTranslationX); cl.setRotationY(mSavedRotationY); } } public void getViewLocationRelativeToSelf(View v, int[] location) { getLocationInWindow(location); int x = location[0]; int y = location[1]; v.getLocationInWindow(location); int vX = location[0]; int vY = location[1]; location[0] = vX - x; location[1] = vY - y; } public void onDragEnter(DragObject d) { if (mDragTargetLayout != null) { mDragTargetLayout.setIsDragOverlapping(false); mDragTargetLayout.onDragExit(); } mDragTargetLayout = getCurrentDropLayout(); mDragTargetLayout.setIsDragOverlapping(true); mDragTargetLayout.onDragEnter(); // Because we don't have space in the Phone UI (the CellLayouts run to the edge) we // don't need to show the outlines if (LauncherApplication.isScreenLarge()) { showOutlines(); } } private void doDragExit(DragObject d) { // Clean up folders cleanupFolderCreation(d); // Reset the scroll area and previous drag target onResetScrollArea(); if (mDragTargetLayout != null) { mDragTargetLayout.setIsDragOverlapping(false); mDragTargetLayout.onDragExit(); } mLastDragOverView = null; if (!mIsPageMoving) { hideOutlines(); } } public void onDragExit(DragObject d) { doDragExit(d); } public DropTarget getDropTargetDelegate(DragObject d) { return null; } /** * Tests to see if the drop will be accepted by Launcher, and if so, includes additional data * in the returned structure related to the widgets that match the drop (or a null list if it is * a shortcut drop). If the drop is not accepted then a null structure is returned. */ private Pair> validateDrag(DragEvent event) { final LauncherModel model = mLauncher.getModel(); final ClipDescription desc = event.getClipDescription(); final int mimeTypeCount = desc.getMimeTypeCount(); for (int i = 0; i < mimeTypeCount; ++i) { final String mimeType = desc.getMimeType(i); if (mimeType.equals(InstallShortcutReceiver.SHORTCUT_MIMETYPE)) { return new Pair>(i, null); } else { final List widgets = model.resolveWidgetsForMimeType(mContext, mimeType); if (widgets.size() > 0) { return new Pair>(i, widgets); } } } return null; } /** * Global drag and drop handler */ @Override public boolean onDragEvent(DragEvent event) { final ClipDescription desc = event.getClipDescription(); final CellLayout layout = (CellLayout) getChildAt(mCurrentPage); final int[] pos = new int[2]; layout.getLocationOnScreen(pos); // We need to offset the drag coordinates to layout coordinate space final int x = (int) event.getX() - pos[0]; final int y = (int) event.getY() - pos[1]; switch (event.getAction()) { case DragEvent.ACTION_DRAG_STARTED: { // Validate this drag Pair> test = validateDrag(event); if (test != null) { boolean isShortcut = (test.second == null); if (isShortcut) { // Check if we have enough space on this screen to add a new shortcut if (!layout.findCellForSpan(pos, 1, 1)) { mLauncher.showOutOfSpaceMessage(); return false; } } } else { // Show error message if we couldn't accept any of the items Toast.makeText(mContext, mContext.getString(R.string.external_drop_widget_error), Toast.LENGTH_SHORT).show(); return false; } // Create the drag outline // We need to add extra padding to the bitmap to make room for the glow effect final Canvas canvas = new Canvas(); final int bitmapPadding = HolographicOutlineHelper.MAX_OUTER_BLUR_RADIUS; mDragOutline = createExternalDragOutline(canvas, bitmapPadding); // Show the current page outlines to indicate that we can accept this drop showOutlines(); layout.setIsDragOccuring(true); layout.onDragEnter(); layout.visualizeDropLocation(null, mDragOutline, x, y, 1, 1); return true; } case DragEvent.ACTION_DRAG_LOCATION: // Visualize the drop location layout.visualizeDropLocation(null, mDragOutline, x, y, 1, 1); return true; case DragEvent.ACTION_DROP: { // Try and add any shortcuts final LauncherModel model = mLauncher.getModel(); final ClipData data = event.getClipData(); // We assume that the mime types are ordered in descending importance of // representation. So we enumerate the list of mime types and alert the // user if any widgets can handle the drop. Only the most preferred // representation will be handled. pos[0] = x; pos[1] = y; Pair> test = validateDrag(event); if (test != null) { final int index = test.first; final List widgets = test.second; final boolean isShortcut = (widgets == null); final String mimeType = desc.getMimeType(index); if (isShortcut) { final Intent intent = data.getItemAt(index).getIntent(); Object info = model.infoFromShortcutIntent(mContext, intent, data.getIcon()); onDropExternal(new int[] { x, y }, info, layout, false); } else { if (widgets.size() == 1) { // If there is only one item, then go ahead and add and configure // that widget final AppWidgetProviderInfo widgetInfo = widgets.get(0).widgetInfo; final PendingAddWidgetInfo createInfo = new PendingAddWidgetInfo(widgetInfo, mimeType, data); mLauncher.addAppWidgetFromDrop(createInfo, LauncherSettings.Favorites.CONTAINER_DESKTOP, mCurrentPage, null, pos); } else { // Show the widget picker dialog if there is more than one widget // that can handle this data type final InstallWidgetReceiver.WidgetListAdapter adapter = new InstallWidgetReceiver.WidgetListAdapter(mLauncher, mimeType, data, widgets, layout, mCurrentPage, pos); final AlertDialog.Builder builder = new AlertDialog.Builder(mContext); builder.setAdapter(adapter, adapter); builder.setCancelable(true); builder.setTitle(mContext.getString( R.string.external_drop_widget_pick_title)); builder.setIcon(R.drawable.ic_no_applications); builder.show(); } } } return true; } case DragEvent.ACTION_DRAG_ENDED: // Hide the page outlines after the drop layout.setIsDragOccuring(false); layout.onDragExit(); hideOutlines(); return true; } return super.onDragEvent(event); } /* * * Convert the 2D coordinate xy from the parent View's coordinate space to this CellLayout's * coordinate space. The argument xy is modified with the return result. * */ void mapPointFromSelfToChild(View v, float[] xy) { mapPointFromSelfToChild(v, xy, null); } /* * * Convert the 2D coordinate xy from the parent View's coordinate space to this CellLayout's * coordinate space. The argument xy is modified with the return result. * * if cachedInverseMatrix is not null, this method will just use that matrix instead of * computing it itself; we use this to avoid redundant matrix inversions in * findMatchingPageForDragOver * */ void mapPointFromSelfToChild(View v, float[] xy, Matrix cachedInverseMatrix) { if (cachedInverseMatrix == null) { v.getMatrix().invert(mTempInverseMatrix); cachedInverseMatrix = mTempInverseMatrix; } xy[0] = xy[0] + mScrollX - v.getLeft(); xy[1] = xy[1] + mScrollY - v.getTop(); cachedInverseMatrix.mapPoints(xy); } /* * Maps a point from the Workspace's coordinate system to another sibling view's. (Workspace * covers the full screen) */ void mapPointFromSelfToSibling(View v, float[] xy) { xy[0] = xy[0] - v.getLeft(); xy[1] = xy[1] - v.getTop(); } /* * * Convert the 2D coordinate xy from this CellLayout's coordinate space to * the parent View's coordinate space. The argument xy is modified with the return result. * */ void mapPointFromChildToSelf(View v, float[] xy) { v.getMatrix().mapPoints(xy); xy[0] -= (mScrollX - v.getLeft()); xy[1] -= (mScrollY - v.getTop()); } static private float squaredDistance(float[] point1, float[] point2) { float distanceX = point1[0] - point2[0]; float distanceY = point2[1] - point2[1]; return distanceX * distanceX + distanceY * distanceY; } /* * * Returns true if the passed CellLayout cl overlaps with dragView * */ boolean overlaps(CellLayout cl, DragView dragView, int dragViewX, int dragViewY, Matrix cachedInverseMatrix) { // Transform the coordinates of the item being dragged to the CellLayout's coordinates final float[] draggedItemTopLeft = mTempDragCoordinates; draggedItemTopLeft[0] = dragViewX; draggedItemTopLeft[1] = dragViewY; final float[] draggedItemBottomRight = mTempDragBottomRightCoordinates; draggedItemBottomRight[0] = draggedItemTopLeft[0] + dragView.getDragRegionWidth(); draggedItemBottomRight[1] = draggedItemTopLeft[1] + dragView.getDragRegionHeight(); // Transform the dragged item's top left coordinates // to the CellLayout's local coordinates mapPointFromSelfToChild(cl, draggedItemTopLeft, cachedInverseMatrix); float overlapRegionLeft = Math.max(0f, draggedItemTopLeft[0]); float overlapRegionTop = Math.max(0f, draggedItemTopLeft[1]); if (overlapRegionLeft <= cl.getWidth() && overlapRegionTop >= 0) { // Transform the dragged item's bottom right coordinates // to the CellLayout's local coordinates mapPointFromSelfToChild(cl, draggedItemBottomRight, cachedInverseMatrix); float overlapRegionRight = Math.min(cl.getWidth(), draggedItemBottomRight[0]); float overlapRegionBottom = Math.min(cl.getHeight(), draggedItemBottomRight[1]); if (overlapRegionRight >= 0 && overlapRegionBottom <= cl.getHeight()) { float overlap = (overlapRegionRight - overlapRegionLeft) * (overlapRegionBottom - overlapRegionTop); if (overlap > 0) { return true; } } } return false; } /* * * This method returns the CellLayout that is currently being dragged to. In order to drag * to a CellLayout, either the touch point must be directly over the CellLayout, or as a second * strategy, we see if the dragView is overlapping any CellLayout and choose the closest one * * Return null if no CellLayout is currently being dragged over * */ private CellLayout findMatchingPageForDragOver( DragView dragView, float originX, float originY, boolean exact) { // We loop through all the screens (ie CellLayouts) and see which ones overlap // with the item being dragged and then choose the one that's closest to the touch point final int screenCount = getChildCount(); CellLayout bestMatchingScreen = null; float smallestDistSoFar = Float.MAX_VALUE; for (int i = 0; i < screenCount; i++) { CellLayout cl = (CellLayout) getChildAt(i); final float[] touchXy = {originX, originY}; // Transform the touch coordinates to the CellLayout's local coordinates // If the touch point is within the bounds of the cell layout, we can return immediately cl.getMatrix().invert(mTempInverseMatrix); mapPointFromSelfToChild(cl, touchXy, mTempInverseMatrix); if (touchXy[0] >= 0 && touchXy[0] <= cl.getWidth() && touchXy[1] >= 0 && touchXy[1] <= cl.getHeight()) { return cl; } if (!exact && overlaps(cl, dragView, (int) originX, (int) originY, mTempInverseMatrix)) { // Get the center of the cell layout in screen coordinates final float[] cellLayoutCenter = mTempCellLayoutCenterCoordinates; cellLayoutCenter[0] = cl.getWidth()/2; cellLayoutCenter[1] = cl.getHeight()/2; mapPointFromChildToSelf(cl, cellLayoutCenter); touchXy[0] = originX; touchXy[1] = originY; // Calculate the distance between the center of the CellLayout // and the touch point float dist = squaredDistance(touchXy, cellLayoutCenter); if (dist < smallestDistSoFar) { smallestDistSoFar = dist; bestMatchingScreen = cl; } } } return bestMatchingScreen; } // This is used to compute the visual center of the dragView. This point is then // used to visualize drop locations and determine where to drop an item. The idea is that // the visual center represents the user's interpretation of where the item is, and hence // is the appropriate point to use when determining drop location. private float[] getDragViewVisualCenter(int x, int y, int xOffset, int yOffset, DragView dragView, float[] recycle) { float res[]; if (recycle == null) { res = new float[2]; } else { res = recycle; } // First off, the drag view has been shifted in a way that is not represented in the // x and y values or the x/yOffsets. Here we account for that shift. x += getResources().getDimensionPixelSize(R.dimen.dragViewOffsetX); y += getResources().getDimensionPixelSize(R.dimen.dragViewOffsetY); // These represent the visual top and left of drag view if a dragRect was provided. // If a dragRect was not provided, then they correspond to the actual view left and // top, as the dragRect is in that case taken to be the entire dragView. // R.dimen.dragViewOffsetY. int left = x - xOffset; int top = y - yOffset; // In order to find the visual center, we shift by half the dragRect res[0] = left + dragView.getDragRegion().width() / 2; res[1] = top + dragView.getDragRegion().height() / 2; return res; } private boolean isDragWidget(DragObject d) { return (d.dragInfo instanceof LauncherAppWidgetInfo || d.dragInfo instanceof PendingAddWidgetInfo); } private boolean isExternalDragWidget(DragObject d) { return d.dragSource != this && isDragWidget(d); } public void onDragOver(DragObject d) { // Skip drag over events while we are dragging over side pages if (mInScrollArea) return; if (mIsSwitchingState) return; Rect r = new Rect(); CellLayout layout = null; ItemInfo item = (ItemInfo) d.dragInfo; // Ensure that we have proper spans for the item that we are dropping if (item.spanX < 0 || item.spanY < 0) throw new RuntimeException("Improper spans found"); mDragViewVisualCenter = getDragViewVisualCenter(d.x, d.y, d.xOffset, d.yOffset, d.dragView, mDragViewVisualCenter); // Identify whether we have dragged over a side page if (isSmall()) { if (mLauncher.getHotseat() != null && !isExternalDragWidget(d)) { mLauncher.getHotseat().getHitRect(r); if (r.contains(d.x, d.y)) { layout = mLauncher.getHotseat().getLayout(); } } if (layout == null) { layout = findMatchingPageForDragOver(d.dragView, d.x, d.y, true); } if (layout != mDragTargetLayout) { // Cancel all intermediate folder states cleanupFolderCreation(d); if (mDragTargetLayout != null) { mDragTargetLayout.setIsDragOverlapping(false); mDragTargetLayout.onDragExit(); } mDragTargetLayout = layout; if (mDragTargetLayout != null) { mDragTargetLayout.setIsDragOverlapping(true); mDragTargetLayout.onDragEnter(); } else { mLastDragOverView = null; } boolean isInSpringLoadedMode = (mState == State.SPRING_LOADED); if (isInSpringLoadedMode) { if (mLauncher.isHotseatLayout(layout)) { mSpringLoadedDragController.cancel(); } else { mSpringLoadedDragController.setAlarm(mDragTargetLayout); } } } } else { // Test to see if we are over the hotseat otherwise just use the current page if (mLauncher.getHotseat() != null && !isDragWidget(d)) { mLauncher.getHotseat().getHitRect(r); if (r.contains(d.x, d.y)) { layout = mLauncher.getHotseat().getLayout(); } } if (layout == null) { layout = getCurrentDropLayout(); } if (layout != mDragTargetLayout) { if (mDragTargetLayout != null) { mDragTargetLayout.setIsDragOverlapping(false); mDragTargetLayout.onDragExit(); } mDragTargetLayout = layout; mDragTargetLayout.setIsDragOverlapping(true); mDragTargetLayout.onDragEnter(); } } // Handle the drag over if (mDragTargetLayout != null) { final View child = (mDragInfo == null) ? null : mDragInfo.cell; // We want the point to be mapped to the dragTarget. if (mLauncher.isHotseatLayout(mDragTargetLayout)) { mapPointFromSelfToSibling(mLauncher.getHotseat(), mDragViewVisualCenter); } else { mapPointFromSelfToChild(mDragTargetLayout, mDragViewVisualCenter, null); } ItemInfo info = (ItemInfo) d.dragInfo; mTargetCell = findNearestArea((int) mDragViewVisualCenter[0], (int) mDragViewVisualCenter[1], 1, 1, mDragTargetLayout, mTargetCell); final View dragOverView = mDragTargetLayout.getChildAt(mTargetCell[0], mTargetCell[1]); boolean userFolderPending = willCreateUserFolder(info, mDragTargetLayout, mTargetCell, false); boolean isOverFolder = dragOverView instanceof FolderIcon; if (dragOverView != mLastDragOverView) { cancelFolderCreation(); if (mLastDragOverView != null && mLastDragOverView instanceof FolderIcon) { ((FolderIcon) mLastDragOverView).onDragExit(d.dragInfo); } } if (userFolderPending && dragOverView != mLastDragOverView) { mFolderCreationAlarm.setOnAlarmListener(new FolderCreationAlarmListener(mDragTargetLayout, mTargetCell[0], mTargetCell[1])); mFolderCreationAlarm.setAlarm(FOLDER_CREATION_TIMEOUT); } if (dragOverView != mLastDragOverView && isOverFolder) { ((FolderIcon) dragOverView).onDragEnter(d.dragInfo); if (mDragTargetLayout != null) { mDragTargetLayout.clearDragOutlines(); } } mLastDragOverView = dragOverView; if (!mCreateUserFolderOnDrop && !isOverFolder) { mDragTargetLayout.visualizeDropLocation(child, mDragOutline, (int) mDragViewVisualCenter[0], (int) mDragViewVisualCenter[1], item.spanX, item.spanY); } } } private void cleanupFolderCreation(DragObject d) { if (mDragFolderRingAnimator != null && mCreateUserFolderOnDrop) { mDragFolderRingAnimator.animateToNaturalState(); } if (mLastDragOverView != null && mLastDragOverView instanceof FolderIcon) { if (d != null) { ((FolderIcon) mLastDragOverView).onDragExit(d.dragInfo); } } mFolderCreationAlarm.cancelAlarm(); } private void cancelFolderCreation() { if (mDragFolderRingAnimator != null && mCreateUserFolderOnDrop) { mDragFolderRingAnimator.animateToNaturalState(); } mCreateUserFolderOnDrop = false; mFolderCreationAlarm.cancelAlarm(); } class FolderCreationAlarmListener implements OnAlarmListener { CellLayout layout; int cellX; int cellY; public FolderCreationAlarmListener(CellLayout layout, int cellX, int cellY) { this.layout = layout; this.cellX = cellX; this.cellY = cellY; } public void onAlarm(Alarm alarm) { if (mDragFolderRingAnimator == null) { mDragFolderRingAnimator = new FolderRingAnimator(mLauncher, null); } mDragFolderRingAnimator.setCell(cellX, cellY); mDragFolderRingAnimator.setCellLayout(layout); mDragFolderRingAnimator.animateToAcceptState(); layout.showFolderAccept(mDragFolderRingAnimator); layout.clearDragOutlines(); mCreateUserFolderOnDrop = true; } } @Override public void getHitRect(Rect outRect) { // We want the workspace to have the whole area of the display (it will find the correct // cell layout to drop to in the existing drag/drop logic. final Display d = mLauncher.getWindowManager().getDefaultDisplay(); outRect.set(0, 0, d.getWidth(), d.getHeight()); } /** * Add the item specified by dragInfo to the given layout. * @return true if successful */ public boolean addExternalItemToScreen(ItemInfo dragInfo, CellLayout layout) { if (layout.findCellForSpan(mTempEstimate, dragInfo.spanX, dragInfo.spanY)) { onDropExternal(dragInfo.dropPos, (ItemInfo) dragInfo, (CellLayout) layout, false); return true; } mLauncher.showOutOfSpaceMessage(); return false; } private void onDropExternal(int[] touchXY, Object dragInfo, CellLayout cellLayout, boolean insertAtFirst) { onDropExternal(touchXY, dragInfo, cellLayout, insertAtFirst, null); } /** * Drop an item that didn't originate on one of the workspace screens. * It may have come from Launcher (e.g. from all apps or customize), or it may have * come from another app altogether. * * NOTE: This can also be called when we are outside of a drag event, when we want * to add an item to one of the workspace screens. */ private void onDropExternal(final int[] touchXY, final Object dragInfo, final CellLayout cellLayout, boolean insertAtFirst, DragObject d) { final Runnable exitSpringLoadedRunnable = new Runnable() { @Override public void run() { mLauncher.exitSpringLoadedDragModeDelayed(true, false); } }; ItemInfo info = (ItemInfo) dragInfo; int spanX = info.spanX; int spanY = info.spanY; if (mDragInfo != null) { spanX = mDragInfo.spanX; spanY = mDragInfo.spanY; } final long container = mLauncher.isHotseatLayout(cellLayout) ? LauncherSettings.Favorites.CONTAINER_HOTSEAT : LauncherSettings.Favorites.CONTAINER_DESKTOP; final int screen = indexOfChild(cellLayout); if (!mLauncher.isHotseatLayout(cellLayout) && screen != mCurrentPage && mState != State.SPRING_LOADED) { snapToPage(screen); } if (info instanceof PendingAddItemInfo) { final PendingAddItemInfo pendingInfo = (PendingAddItemInfo) dragInfo; boolean findNearestVacantCell = true; if (pendingInfo.itemType == LauncherSettings.Favorites.ITEM_TYPE_SHORTCUT) { mTargetCell = findNearestArea((int) touchXY[0], (int) touchXY[1], spanX, spanY, cellLayout, mTargetCell); if (willCreateUserFolder((ItemInfo) d.dragInfo, mDragTargetLayout, mTargetCell, true) || willAddToExistingUserFolder((ItemInfo) d.dragInfo, mDragTargetLayout, mTargetCell)) { findNearestVacantCell = false; } } if (findNearestVacantCell) { mTargetCell = findNearestVacantArea(touchXY[0], touchXY[1], spanX, spanY, null, cellLayout, mTargetCell); } Runnable onAnimationCompleteRunnable = new Runnable() { @Override public void run() { // When dragging and dropping from customization tray, we deal with creating // widgets/shortcuts/folders in a slightly different way switch (pendingInfo.itemType) { case LauncherSettings.Favorites.ITEM_TYPE_APPWIDGET: mLauncher.addAppWidgetFromDrop((PendingAddWidgetInfo) pendingInfo, container, screen, mTargetCell, null); break; case LauncherSettings.Favorites.ITEM_TYPE_SHORTCUT: mLauncher.processShortcutFromDrop(pendingInfo.componentName, container, screen, mTargetCell, null); break; default: throw new IllegalStateException("Unknown item type: " + pendingInfo.itemType); } cellLayout.onDragExit(); } }; // Now we animate the dragView, (ie. the widget or shortcut preview) into its final // location and size on the home screen. int loc[] = new int[2]; cellLayout.cellToPoint(mTargetCell[0], mTargetCell[1], loc); RectF r = new RectF(); cellLayout.cellToRect(mTargetCell[0], mTargetCell[1], spanX, spanY, r); setFinalTransitionTransform(cellLayout); float cellLayoutScale = mLauncher.getDragLayer().getDescendantCoordRelativeToSelf(cellLayout, loc); resetTransitionTransform(cellLayout); float dragViewScale = r.width() / d.dragView.getMeasuredWidth(); // The animation will scale the dragView about its center, so we need to center about // the final location. loc[0] -= (d.dragView.getMeasuredWidth() - cellLayoutScale * r.width()) / 2; loc[1] -= (d.dragView.getMeasuredHeight() - cellLayoutScale * r.height()) / 2; mLauncher.getDragLayer().animateViewIntoPosition(d.dragView, loc, dragViewScale * cellLayoutScale, onAnimationCompleteRunnable); } else { // This is for other drag/drop cases, like dragging from All Apps View view = null; switch (info.itemType) { case LauncherSettings.Favorites.ITEM_TYPE_APPLICATION: case LauncherSettings.Favorites.ITEM_TYPE_SHORTCUT: if (info.container == NO_ID && info instanceof ApplicationInfo) { // Came from all apps -- make a copy info = new ShortcutInfo((ApplicationInfo) info); } view = mLauncher.createShortcut(R.layout.application, cellLayout, (ShortcutInfo) info); break; case LauncherSettings.Favorites.ITEM_TYPE_FOLDER: view = FolderIcon.fromXml(R.layout.folder_icon, mLauncher, cellLayout, (FolderInfo) info, mIconCache); break; default: throw new IllegalStateException("Unknown item type: " + info.itemType); } // First we find the cell nearest to point at which the item is // dropped, without any consideration to whether there is an item there. if (touchXY != null) { mTargetCell = findNearestArea((int) touchXY[0], (int) touchXY[1], spanX, spanY, cellLayout, mTargetCell); d.postAnimationRunnable = exitSpringLoadedRunnable; if (createUserFolderIfNecessary(view, container, cellLayout, mTargetCell, true, d.dragView, d.postAnimationRunnable)) { return; } if (addToExistingFolderIfNecessary(view, cellLayout, mTargetCell, d, true)) { return; } } if (touchXY != null) { // when dragging and dropping, just find the closest free spot mTargetCell = findNearestVacantArea(touchXY[0], touchXY[1], 1, 1, null, cellLayout, mTargetCell); } else { cellLayout.findCellForSpan(mTargetCell, 1, 1); } addInScreen(view, container, screen, mTargetCell[0], mTargetCell[1], info.spanX, info.spanY, insertAtFirst); cellLayout.onDropChild(view); cellLayout.animateDrop(); CellLayout.LayoutParams lp = (CellLayout.LayoutParams) view.getLayoutParams(); cellLayout.getChildrenLayout().measureChild(view); LauncherModel.addOrMoveItemInDatabase(mLauncher, info, container, screen, lp.cellX, lp.cellY); if (d.dragView != null) { // We wrap the animation call in the temporary set and reset of the current // cellLayout to its final transform -- this means we animate the drag view to // the correct final location. setFinalTransitionTransform(cellLayout); mLauncher.getDragLayer().animateViewIntoPosition(d.dragView, view, exitSpringLoadedRunnable); resetTransitionTransform(cellLayout); } } } public void setFinalTransitionTransform(CellLayout layout) { if (isSwitchingState()) { int index = indexOfChild(layout); mCurrentScaleX = layout.getScaleX(); mCurrentScaleY = layout.getScaleY(); mCurrentTranslationX = layout.getTranslationX(); mCurrentTranslationY = layout.getTranslationY(); mCurrentRotationY = layout.getRotationY(); layout.setScaleX(mNewScaleXs[index]); layout.setScaleY(mNewScaleYs[index]); layout.setTranslationX(mNewTranslationXs[index]); layout.setTranslationY(mNewTranslationYs[index]); layout.setRotationY(mNewRotationYs[index]); } } public void resetTransitionTransform(CellLayout layout) { if (isSwitchingState()) { mCurrentScaleX = layout.getScaleX(); mCurrentScaleY = layout.getScaleY(); mCurrentTranslationX = layout.getTranslationX(); mCurrentTranslationY = layout.getTranslationY(); mCurrentRotationY = layout.getRotationY(); layout.setScaleX(mCurrentScaleX); layout.setScaleY(mCurrentScaleY); layout.setTranslationX(mCurrentTranslationX); layout.setTranslationY(mCurrentTranslationY); layout.setRotationY(mCurrentRotationY); } } /** * Return the current {@link CellLayout}, correctly picking the destination * screen while a scroll is in progress. */ public CellLayout getCurrentDropLayout() { return (CellLayout) getChildAt(mNextPage == INVALID_PAGE ? mCurrentPage : mNextPage); } /** * Return the current CellInfo describing our current drag; this method exists * so that Launcher can sync this object with the correct info when the activity is created/ * destroyed * */ public CellLayout.CellInfo getDragInfo() { return mDragInfo; } /** * Calculate the nearest cell where the given object would be dropped. * * pixelX and pixelY should be in the coordinate system of layout */ private int[] findNearestVacantArea(int pixelX, int pixelY, int spanX, int spanY, View ignoreView, CellLayout layout, int[] recycle) { return layout.findNearestVacantArea( pixelX, pixelY, spanX, spanY, ignoreView, recycle); } /** * Calculate the nearest cell where the given object would be dropped. * * pixelX and pixelY should be in the coordinate system of layout */ private int[] findNearestArea(int pixelX, int pixelY, int spanX, int spanY, CellLayout layout, int[] recycle) { return layout.findNearestArea( pixelX, pixelY, spanX, spanY, recycle); } void setup(Launcher launcher, DragController dragController) { mLauncher = launcher; mSpringLoadedDragController = new SpringLoadedDragController(mLauncher); mDragController = dragController; // hardware layers on children are enabled on startup, but should be disabled until // needed updateChildrenLayersEnabled(); setWallpaperDimension(); } /** * Called at the end of a drag which originated on the workspace. */ public void onDropCompleted(View target, DragObject d, boolean success) { if (success) { if (target != this) { if (mDragInfo != null) { getParentCellLayoutForView(mDragInfo.cell).removeView(mDragInfo.cell); if (mDragInfo.cell instanceof DropTarget) { mDragController.removeDropTarget((DropTarget) mDragInfo.cell); } } } } else if (mDragInfo != null) { // NOTE: When 'success' is true, onDragExit is called by the DragController before // calling onDropCompleted(). We call it ourselves here, but maybe this should be // moved into DragController.cancelDrag(). doDragExit(null); CellLayout cellLayout; if (mLauncher.isHotseatLayout(target)) { cellLayout = mLauncher.getHotseat().getLayout(); } else { cellLayout = (CellLayout) getChildAt(mDragInfo.screen); } cellLayout.onDropChild(mDragInfo.cell); } mDragOutline = null; mDragInfo = null; } public boolean isDropEnabled() { return true; } @Override protected void onRestoreInstanceState(Parcelable state) { super.onRestoreInstanceState(state); Launcher.setScreen(mCurrentPage); } @Override public void scrollLeft() { if (!isSmall() && !mIsSwitchingState) { super.scrollLeft(); } Folder openFolder = getOpenFolder(); if (openFolder != null) { openFolder.completeDragExit(); } } @Override public void scrollRight() { if (!isSmall() && !mIsSwitchingState) { super.scrollRight(); } Folder openFolder = getOpenFolder(); if (openFolder != null) { openFolder.completeDragExit(); } } @Override public void onEnterScrollArea(int x, int y, int direction) { // Ignore the scroll area if we are dragging over the hot seat if (mLauncher.getHotseat() != null) { Rect r = new Rect(); mLauncher.getHotseat().getHitRect(r); if (r.contains(x, y)) { return; } } if (!isSmall() && !mIsSwitchingState) { mInScrollArea = true; final int page = mCurrentPage + (direction == DragController.SCROLL_LEFT ? -1 : 1); final CellLayout layout = (CellLayout) getChildAt(page); cancelFolderCreation(); if (layout != null) { // Exit the current layout and mark the overlapping layout if (mDragTargetLayout != null) { mDragTargetLayout.setIsDragOverlapping(false); mDragTargetLayout.onDragExit(); } mDragTargetLayout = layout; mDragTargetLayout.setIsDragOverlapping(true); // Workspace is responsible for drawing the edge glow on adjacent pages, // so we need to redraw the workspace when this may have changed. invalidate(); } } } @Override public void onExitScrollArea() { if (mInScrollArea) { if (mDragTargetLayout != null) { // Unmark the overlapping layout and re-enter the current layout mDragTargetLayout.setIsDragOverlapping(false); mDragTargetLayout = getCurrentDropLayout(); mDragTargetLayout.onDragEnter(); // Workspace is responsible for drawing the edge glow on adjacent pages, // so we need to redraw the workspace when this may have changed. invalidate(); } mInScrollArea = false; } } private void onResetScrollArea() { if (mDragTargetLayout != null) { // Unmark the overlapping layout mDragTargetLayout.setIsDragOverlapping(false); // Workspace is responsible for drawing the edge glow on adjacent pages, // so we need to redraw the workspace when this may have changed. invalidate(); } mInScrollArea = false; } /** * Returns a specific CellLayout */ CellLayout getParentCellLayoutForView(View v) { ArrayList layouts = getWorkspaceAndHotseatCellLayouts(); for (CellLayout layout : layouts) { if (layout.getChildrenLayout().indexOfChild(v) > -1) { return layout; } } return null; } /** * Returns a list of all the CellLayouts in the workspace. */ ArrayList getWorkspaceAndHotseatCellLayouts() { ArrayList layouts = new ArrayList(); int screenCount = getChildCount(); for (int screen = 0; screen < screenCount; screen++) { layouts.add(((CellLayout) getChildAt(screen))); } if (mLauncher.getHotseat() != null) { layouts.add(mLauncher.getHotseat().getLayout()); } return layouts; } /** * We should only use this to search for specific children. Do not use this method to modify * CellLayoutChildren directly. */ ArrayList getWorkspaceAndHotseatCellLayoutChildren() { ArrayList childrenLayouts = new ArrayList(); int screenCount = getChildCount(); for (int screen = 0; screen < screenCount; screen++) { childrenLayouts.add(((CellLayout) getChildAt(screen)).getChildrenLayout()); } if (mLauncher.getHotseat() != null) { childrenLayouts.add(mLauncher.getHotseat().getLayout().getChildrenLayout()); } return childrenLayouts; } public Folder getFolderForTag(Object tag) { ArrayList childrenLayouts = getWorkspaceAndHotseatCellLayoutChildren(); for (CellLayoutChildren layout: childrenLayouts) { int count = layout.getChildCount(); for (int i = 0; i < count; i++) { View child = layout.getChildAt(i); if (child instanceof Folder) { Folder f = (Folder) child; if (f.getInfo() == tag && f.getInfo().opened) { return f; } } } } return null; } public View getViewForTag(Object tag) { ArrayList childrenLayouts = getWorkspaceAndHotseatCellLayoutChildren(); for (CellLayoutChildren layout: childrenLayouts) { int count = layout.getChildCount(); for (int i = 0; i < count; i++) { View child = layout.getChildAt(i); if (child.getTag() == tag) { return child; } } } return null; } void clearDropTargets() { ArrayList childrenLayouts = getWorkspaceAndHotseatCellLayoutChildren(); for (CellLayoutChildren layout: childrenLayouts) { int childCount = layout.getChildCount(); for (int j = 0; j < childCount; j++) { View v = layout.getChildAt(j); if (v instanceof DropTarget) { mDragController.removeDropTarget((DropTarget) v); } } } } void removeItems(final ArrayList apps) { final AppWidgetManager widgets = AppWidgetManager.getInstance(getContext()); final HashSet packageNames = new HashSet(); final int appCount = apps.size(); for (int i = 0; i < appCount; i++) { packageNames.add(apps.get(i).componentName.getPackageName()); } ArrayList cellLayouts = getWorkspaceAndHotseatCellLayouts(); for (final CellLayout layoutParent: cellLayouts) { final ViewGroup layout = layoutParent.getChildrenLayout(); // Avoid ANRs by treating each screen separately post(new Runnable() { public void run() { final ArrayList childrenToRemove = new ArrayList(); childrenToRemove.clear(); int childCount = layout.getChildCount(); for (int j = 0; j < childCount; j++) { final View view = layout.getChildAt(j); Object tag = view.getTag(); if (tag instanceof ShortcutInfo) { final ShortcutInfo info = (ShortcutInfo) tag; final Intent intent = info.intent; final ComponentName name = intent.getComponent(); if (Intent.ACTION_MAIN.equals(intent.getAction()) && name != null) { for (String packageName: packageNames) { if (packageName.equals(name.getPackageName())) { LauncherModel.deleteItemFromDatabase(mLauncher, info); childrenToRemove.add(view); } } } } else if (tag instanceof FolderInfo) { final FolderInfo info = (FolderInfo) tag; final ArrayList contents = info.contents; final int contentsCount = contents.size(); final ArrayList appsToRemoveFromFolder = new ArrayList(); for (int k = 0; k < contentsCount; k++) { final ShortcutInfo appInfo = contents.get(k); final Intent intent = appInfo.intent; final ComponentName name = intent.getComponent(); if (Intent.ACTION_MAIN.equals(intent.getAction()) && name != null) { for (String packageName: packageNames) { if (packageName.equals(name.getPackageName())) { appsToRemoveFromFolder.add(appInfo); } } } } for (ShortcutInfo item: appsToRemoveFromFolder) { info.remove(item); LauncherModel.deleteItemFromDatabase(mLauncher, item); } } else if (tag instanceof LauncherAppWidgetInfo) { final LauncherAppWidgetInfo info = (LauncherAppWidgetInfo) tag; final AppWidgetProviderInfo provider = widgets.getAppWidgetInfo(info.appWidgetId); if (provider != null) { for (String packageName: packageNames) { if (packageName.equals(provider.provider.getPackageName())) { LauncherModel.deleteItemFromDatabase(mLauncher, info); childrenToRemove.add(view); } } } } } childCount = childrenToRemove.size(); for (int j = 0; j < childCount; j++) { View child = childrenToRemove.get(j); // Note: We can not remove the view directly from CellLayoutChildren as this // does not re-mark the spaces as unoccupied. layoutParent.removeViewInLayout(child); if (child instanceof DropTarget) { mDragController.removeDropTarget((DropTarget)child); } } if (childCount > 0) { layout.requestLayout(); layout.invalidate(); } } }); } } void updateShortcuts(ArrayList apps) { ArrayList childrenLayouts = getWorkspaceAndHotseatCellLayoutChildren(); for (CellLayoutChildren layout: childrenLayouts) { int childCount = layout.getChildCount(); for (int j = 0; j < childCount; j++) { final View view = layout.getChildAt(j); Object tag = view.getTag(); if (tag instanceof ShortcutInfo) { ShortcutInfo info = (ShortcutInfo)tag; // We need to check for ACTION_MAIN otherwise getComponent() might // return null for some shortcuts (for instance, for shortcuts to // web pages.) final Intent intent = info.intent; final ComponentName name = intent.getComponent(); if (info.itemType == LauncherSettings.Favorites.ITEM_TYPE_APPLICATION && Intent.ACTION_MAIN.equals(intent.getAction()) && name != null) { final int appCount = apps.size(); for (int k = 0; k < appCount; k++) { ApplicationInfo app = apps.get(k); if (app.componentName.equals(name)) { info.setIcon(mIconCache.getIcon(info.intent)); ((TextView)view).setCompoundDrawablesWithIntrinsicBounds(null, new FastBitmapDrawable(info.getIcon(mIconCache)), null, null); } } } } } } } void moveToDefaultScreen(boolean animate) { if (!isSmall()) { if (animate) { snapToPage(mDefaultPage); } else { setCurrentPage(mDefaultPage); } } getChildAt(mDefaultPage).requestFocus(); } @Override public void syncPages() { } @Override public void syncPageItems(int page, boolean immediate) { } @Override protected String getCurrentPageDescription() { int page = (mNextPage != INVALID_PAGE) ? mNextPage : mCurrentPage; return String.format(mContext.getString(R.string.workspace_scroll_format), page + 1, getChildCount()); } public void getLocationInDragLayer(int[] loc) { mLauncher.getDragLayer().getLocationInDragLayer(this, loc); } /** * Return true because we want the scrolling indicator to stretch to fit the space. */ protected boolean hasElasticScrollIndicator() { return true; } void showDockDivider(boolean immediately) { final ViewGroup parent = (ViewGroup) getParent(); final View qsbDivider = (ImageView) (parent.findViewById(R.id.qsb_divider)); final View dockDivider = (ImageView) (parent.findViewById(R.id.dock_divider)); if (qsbDivider != null && dockDivider != null) { qsbDivider.setVisibility(View.VISIBLE); dockDivider.setVisibility(View.VISIBLE); if (mDividerAnimator != null) { mDividerAnimator.cancel(); mDividerAnimator = null; } if (immediately) { qsbDivider.setAlpha(1f); dockDivider.setAlpha(1f); } else { mDividerAnimator = new AnimatorSet(); mDividerAnimator.playTogether(ObjectAnimator.ofFloat(qsbDivider, "alpha", 1f), ObjectAnimator.ofFloat(dockDivider, "alpha", 1f)); mDividerAnimator.setDuration(sScrollIndicatorFadeInDuration); mDividerAnimator.start(); } } } void hideDockDivider(boolean immediately) { final ViewGroup parent = (ViewGroup) getParent(); final View qsbDivider = (ImageView) (parent.findViewById(R.id.qsb_divider)); final View dockDivider = (ImageView) (parent.findViewById(R.id.dock_divider)); if (qsbDivider != null && dockDivider != null) { if (mDividerAnimator != null) { mDividerAnimator.cancel(); mDividerAnimator = null; } if (immediately) { qsbDivider.setVisibility(View.GONE); dockDivider.setVisibility(View.GONE); qsbDivider.setAlpha(0f); dockDivider.setAlpha(0f); } else { mDividerAnimator = new AnimatorSet(); mDividerAnimator.playTogether(ObjectAnimator.ofFloat(qsbDivider, "alpha", 0f), ObjectAnimator.ofFloat(dockDivider, "alpha", 0f)); mDividerAnimator.addListener(new AnimatorListenerAdapter() { private boolean cancelled = false; @Override public void onAnimationCancel(android.animation.Animator animation) { cancelled = true; } @Override public void onAnimationEnd(android.animation.Animator animation) { if (!cancelled) { qsbDivider.setVisibility(View.GONE); dockDivider.setVisibility(View.GONE); } } }); mDividerAnimator.setDuration(sScrollIndicatorFadeOutDuration); mDividerAnimator.start(); } } } }