package com.android.launcher3.model; import android.content.ComponentName; import android.content.ContentProviderOperation; import android.content.ContentValues; import android.content.Context; import android.content.Intent; import android.content.SharedPreferences; import android.content.pm.PackageInfo; import android.content.pm.PackageManager; import android.database.Cursor; import android.graphics.Point; import android.net.Uri; import android.text.TextUtils; import android.util.Log; import com.android.launcher3.InvariantDeviceProfile; import com.android.launcher3.ItemInfo; import com.android.launcher3.LauncherAppState; import com.android.launcher3.LauncherAppWidgetProviderInfo; import com.android.launcher3.LauncherModel; import com.android.launcher3.LauncherProvider; import com.android.launcher3.LauncherSettings; import com.android.launcher3.LauncherSettings.Favorites; import com.android.launcher3.Utilities; import com.android.launcher3.Workspace; import com.android.launcher3.compat.AppWidgetManagerCompat; import com.android.launcher3.compat.PackageInstallerCompat; import com.android.launcher3.config.FeatureFlags; import com.android.launcher3.util.GridOccupancy; import com.android.launcher3.util.LongArrayMap; import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.HashSet; import java.util.Locale; /** * This class takes care of shrinking the workspace (by maximum of one row and one column), as a * result of restoring from a larger device or device density change. */ public class GridSizeMigrationTask { public static boolean ENABLED = Utilities.ATLEAST_NOUGAT; private static final String TAG = "GridSizeMigrationTask"; private static final boolean DEBUG = true; private static final String KEY_MIGRATION_SRC_WORKSPACE_SIZE = "migration_src_workspace_size"; private static final String KEY_MIGRATION_SRC_HOTSEAT_COUNT = "migration_src_hotseat_count"; // These are carefully selected weights for various item types (Math.random?), to allow for // the least absurd migration experience. private static final float WT_SHORTCUT = 1; private static final float WT_APPLICATION = 0.8f; private static final float WT_WIDGET_MIN = 2; private static final float WT_WIDGET_FACTOR = 0.6f; private static final float WT_FOLDER_FACTOR = 0.5f; private final Context mContext; private final InvariantDeviceProfile mIdp; private final HashMap mWidgetMinSize = new HashMap<>(); private final ContentValues mTempValues = new ContentValues(); protected final ArrayList mEntryToRemove = new ArrayList<>(); private final ArrayList mUpdateOperations = new ArrayList<>(); protected final ArrayList mCarryOver = new ArrayList<>(); private final HashSet mValidPackages; private final int mSrcX, mSrcY; private final int mTrgX, mTrgY; private final boolean mShouldRemoveX, mShouldRemoveY; private final int mSrcHotseatSize; private final int mDestHotseatSize; protected GridSizeMigrationTask(Context context, InvariantDeviceProfile idp, HashSet validPackages, Point sourceSize, Point targetSize) { mContext = context; mValidPackages = validPackages; mIdp = idp; mSrcX = sourceSize.x; mSrcY = sourceSize.y; mTrgX = targetSize.x; mTrgY = targetSize.y; mShouldRemoveX = mTrgX < mSrcX; mShouldRemoveY = mTrgY < mSrcY; // Non-used variables mSrcHotseatSize = mDestHotseatSize = -1; } protected GridSizeMigrationTask(Context context, InvariantDeviceProfile idp, HashSet validPackages, int srcHotseatSize, int destHotseatSize) { mContext = context; mIdp = idp; mValidPackages = validPackages; mSrcHotseatSize = srcHotseatSize; mDestHotseatSize = destHotseatSize; // Non-used variables mSrcX = mSrcY = mTrgX = mTrgY = -1; mShouldRemoveX = mShouldRemoveY = false; } /** * Applied all the pending DB operations * @return true if any DB operation was commited. */ private boolean applyOperations() throws Exception { // Update items if (!mUpdateOperations.isEmpty()) { mContext.getContentResolver().applyBatch(LauncherProvider.AUTHORITY, mUpdateOperations); } if (!mEntryToRemove.isEmpty()) { if (DEBUG) { Log.d(TAG, "Removing items: " + TextUtils.join(", ", mEntryToRemove)); } mContext.getContentResolver().delete(LauncherSettings.Favorites.CONTENT_URI, Utilities.createDbSelectionQuery( LauncherSettings.Favorites._ID, mEntryToRemove), null); } return !mUpdateOperations.isEmpty() || !mEntryToRemove.isEmpty(); } /** * To migrate hotseat, we load all the entries in order (LTR or RTL) and arrange them * in the order in the new hotseat while keeping an empty space for all-apps. If the number of * entries is more than what can fit in the new hotseat, we drop the entries with least weight. * For weight calculation {@see #WT_SHORTCUT}, {@see #WT_APPLICATION} * & {@see #WT_FOLDER_FACTOR}. * @return true if any DB change was made */ protected boolean migrateHotseat() throws Exception { ArrayList items = loadHotseatEntries(); int requiredCount = FeatureFlags.NO_ALL_APPS_ICON ? mDestHotseatSize : mDestHotseatSize - 1; while (items.size() > requiredCount) { // Pick the center item by default. DbEntry toRemove = items.get(items.size() / 2); // Find the item with least weight. for (DbEntry entry : items) { if (entry.weight < toRemove.weight) { toRemove = entry; } } mEntryToRemove.add(toRemove.id); items.remove(toRemove); } // Update screen IDS int newScreenId = 0; for (DbEntry entry : items) { if (entry.screenId != newScreenId) { entry.screenId = newScreenId; // These values does not affect the item position, but we should set them // to something other than -1. entry.cellX = newScreenId; entry.cellY = 0; update(entry); } newScreenId++; if (!FeatureFlags.NO_ALL_APPS_ICON && mIdp.isAllAppsButtonRank(newScreenId)) { newScreenId++; } } return applyOperations(); } /** * @return true if any DB change was made */ protected boolean migrateWorkspace() throws Exception { ArrayList allScreens = LauncherModel.loadWorkspaceScreensDb(mContext); if (allScreens.isEmpty()) { throw new Exception("Unable to get workspace screens"); } for (long screenId : allScreens) { if (DEBUG) { Log.d(TAG, "Migrating " + screenId); } migrateScreen(screenId); } if (!mCarryOver.isEmpty()) { LongArrayMap itemMap = new LongArrayMap<>(); for (DbEntry e : mCarryOver) { itemMap.put(e.id, e); } do { // Some items are still remaining. Try adding a few new screens. // At every iteration, make sure that at least one item is removed from // {@link #mCarryOver}, to prevent an infinite loop. If no item could be removed, // break the loop and abort migration by throwing an exception. OptimalPlacementSolution placement = new OptimalPlacementSolution( new GridOccupancy(mTrgX, mTrgY), deepCopy(mCarryOver), 0, true); placement.find(); if (placement.finalPlacedItems.size() > 0) { long newScreenId = LauncherSettings.Settings.call( mContext.getContentResolver(), LauncherSettings.Settings.METHOD_NEW_SCREEN_ID) .getLong(LauncherSettings.Settings.EXTRA_VALUE); allScreens.add(newScreenId); for (DbEntry item : placement.finalPlacedItems) { if (!mCarryOver.remove(itemMap.get(item.id))) { throw new Exception("Unable to find matching items"); } item.screenId = newScreenId; update(item); } } else { throw new Exception("None of the items can be placed on an empty screen"); } } while (!mCarryOver.isEmpty()); // Update screens final Uri uri = LauncherSettings.WorkspaceScreens.CONTENT_URI; mUpdateOperations.add(ContentProviderOperation.newDelete(uri).build()); int count = allScreens.size(); for (int i = 0; i < count; i++) { ContentValues v = new ContentValues(); long screenId = allScreens.get(i); v.put(LauncherSettings.WorkspaceScreens._ID, screenId); v.put(LauncherSettings.WorkspaceScreens.SCREEN_RANK, i); mUpdateOperations.add(ContentProviderOperation.newInsert(uri).withValues(v).build()); } } return applyOperations(); } /** * Migrate a particular screen id. * Strategy: * 1) For all possible combinations of row and column, pick the one which causes the least * data loss: {@link #tryRemove(int, int, int, ArrayList, float[])} * 2) Maintain a list of all lost items before this screen, and add any new item lost from * this screen to that list as well. * 3) If all those items from the above list can be placed on this screen, place them * (otherwise they are placed on a new screen). */ protected void migrateScreen(long screenId) { // If we are migrating the first screen, do not touch the first row. int startY = (FeatureFlags.QSB_ON_FIRST_SCREEN && screenId == Workspace.FIRST_SCREEN_ID) ? 1 : 0; ArrayList items = loadWorkspaceEntries(screenId); int removedCol = Integer.MAX_VALUE; int removedRow = Integer.MAX_VALUE; // removeWt represents the cost function for loss of items during migration, and moveWt // represents the cost function for repositioning the items. moveWt is only considered if // removeWt is same for two different configurations. // Start with Float.MAX_VALUE (assuming full data) and pick the configuration with least // cost. float removeWt = Float.MAX_VALUE; float moveWt = Float.MAX_VALUE; float[] outLoss = new float[2]; ArrayList finalItems = null; // Try removing all possible combinations for (int x = 0; x < mSrcX; x++) { // Try removing the rows first from bottom. This keeps the workspace // nicely aligned with hotseat. for (int y = mSrcY - 1; y >= startY; y--) { // Use a deep copy when trying out a particular combination as it can change // the underlying object. ArrayList itemsOnScreen = tryRemove(x, y, startY, deepCopy(items), outLoss); if ((outLoss[0] < removeWt) || ((outLoss[0] == removeWt) && (outLoss[1] < moveWt))) { removeWt = outLoss[0]; moveWt = outLoss[1]; removedCol = mShouldRemoveX ? x : removedCol; removedRow = mShouldRemoveY ? y : removedRow; finalItems = itemsOnScreen; } // No need to loop over all rows, if a row removal is not needed. if (!mShouldRemoveY) { break; } } if (!mShouldRemoveX) { break; } } if (DEBUG) { Log.d(TAG, String.format("Removing row %d, column %d on screen %d", removedRow, removedCol, screenId)); } LongArrayMap itemMap = new LongArrayMap<>(); for (DbEntry e : deepCopy(items)) { itemMap.put(e.id, e); } for (DbEntry item : finalItems) { DbEntry org = itemMap.get(item.id); itemMap.remove(item.id); // Check if update is required if (!item.columnsSame(org)) { update(item); } } // The remaining items in {@link #itemMap} are those which didn't get placed. for (DbEntry item : itemMap) { mCarryOver.add(item); } if (!mCarryOver.isEmpty() && removeWt == 0) { // No new items were removed in this step. Try placing all the items on this screen. GridOccupancy occupied = new GridOccupancy(mTrgX, mTrgY); occupied.markCells(0, 0, mTrgX, startY, true); for (DbEntry item : finalItems) { occupied.markCells(item, true); } OptimalPlacementSolution placement = new OptimalPlacementSolution(occupied, deepCopy(mCarryOver), startY, true); placement.find(); if (placement.lowestWeightLoss == 0) { // All items got placed for (DbEntry item : placement.finalPlacedItems) { item.screenId = screenId; update(item); } mCarryOver.clear(); } } } /** * Updates an item in the DB. */ protected void update(DbEntry item) { mTempValues.clear(); item.addToContentValues(mTempValues); mUpdateOperations.add(ContentProviderOperation .newUpdate(LauncherSettings.Favorites.getContentUri(item.id)) .withValues(mTempValues).build()); } /** * Tries the remove the provided row and column. * @param items all the items on the screen under operation * @param outLoss array of size 2. The first entry is filled with weight loss, and the second * with the overall item movement. */ private ArrayList tryRemove(int col, int row, int startY, ArrayList items, float[] outLoss) { GridOccupancy occupied = new GridOccupancy(mTrgX, mTrgY); occupied.markCells(0, 0, mTrgX, startY, true); col = mShouldRemoveX ? col : Integer.MAX_VALUE; row = mShouldRemoveY ? row : Integer.MAX_VALUE; ArrayList finalItems = new ArrayList<>(); ArrayList removedItems = new ArrayList<>(); for (DbEntry item : items) { if ((item.cellX <= col && (item.spanX + item.cellX) > col) || (item.cellY <= row && (item.spanY + item.cellY) > row)) { removedItems.add(item); if (item.cellX >= col) item.cellX --; if (item.cellY >= row) item.cellY --; } else { if (item.cellX > col) item.cellX --; if (item.cellY > row) item.cellY --; finalItems.add(item); occupied.markCells(item, true); } } OptimalPlacementSolution placement = new OptimalPlacementSolution(occupied, removedItems, startY); placement.find(); finalItems.addAll(placement.finalPlacedItems); outLoss[0] = placement.lowestWeightLoss; outLoss[1] = placement.lowestMoveCost; return finalItems; } private class OptimalPlacementSolution { private final ArrayList itemsToPlace; private final GridOccupancy occupied; // If set to true, item movement are not considered in move cost, leading to a more // linear placement. private final boolean ignoreMove; // The first row in the grid from where the placement should start. private final int startY; float lowestWeightLoss = Float.MAX_VALUE; float lowestMoveCost = Float.MAX_VALUE; ArrayList finalPlacedItems; public OptimalPlacementSolution( GridOccupancy occupied, ArrayList itemsToPlace, int startY) { this(occupied, itemsToPlace, startY, false); } public OptimalPlacementSolution(GridOccupancy occupied, ArrayList itemsToPlace, int startY, boolean ignoreMove) { this.occupied = occupied; this.itemsToPlace = itemsToPlace; this.ignoreMove = ignoreMove; this.startY = startY; // Sort the items such that larger widgets appear first followed by 1x1 items Collections.sort(this.itemsToPlace); } public void find() { find(0, 0, 0, new ArrayList()); } /** * Recursively finds a placement for the provided items. * @param index the position in {@link #itemsToPlace} to start looking at. * @param weightLoss total weight loss upto this point * @param moveCost total move cost upto this point * @param itemsPlaced all the items already placed upto this point */ public void find(int index, float weightLoss, float moveCost, ArrayList itemsPlaced) { if ((weightLoss >= lowestWeightLoss) || ((weightLoss == lowestWeightLoss) && (moveCost >= lowestMoveCost))) { // Abort, as we already have a better solution. return; } else if (index >= itemsToPlace.size()) { // End loop. lowestWeightLoss = weightLoss; lowestMoveCost = moveCost; // Keep a deep copy of current configuration as it can change during recursion. finalPlacedItems = deepCopy(itemsPlaced); return; } DbEntry me = itemsToPlace.get(index); int myX = me.cellX; int myY = me.cellY; // List of items to pass over if this item was placed. ArrayList itemsIncludingMe = new ArrayList<>(itemsPlaced.size() + 1); itemsIncludingMe.addAll(itemsPlaced); itemsIncludingMe.add(me); if (me.spanX > 1 || me.spanY > 1) { // If the current item is a widget (and it greater than 1x1), try to place it at // all possible positions. This is because a widget placed at one position can // affect the placement of a different widget. int myW = me.spanX; int myH = me.spanY; for (int y = startY; y < mTrgY; y++) { for (int x = 0; x < mTrgX; x++) { float newMoveCost = moveCost; if (x != myX) { me.cellX = x; newMoveCost ++; } if (y != myY) { me.cellY = y; newMoveCost ++; } if (ignoreMove) { newMoveCost = moveCost; } if (occupied.isRegionVacant(x, y, myW, myH)) { // place at this position and continue search. occupied.markCells(me, true); find(index + 1, weightLoss, newMoveCost, itemsIncludingMe); occupied.markCells(me, false); } // Try resizing horizontally if (myW > me.minSpanX && occupied.isRegionVacant(x, y, myW - 1, myH)) { me.spanX --; occupied.markCells(me, true); // 1 extra move cost find(index + 1, weightLoss, newMoveCost + 1, itemsIncludingMe); occupied.markCells(me, false); me.spanX ++; } // Try resizing vertically if (myH > me.minSpanY && occupied.isRegionVacant(x, y, myW, myH - 1)) { me.spanY --; occupied.markCells(me, true); // 1 extra move cost find(index + 1, weightLoss, newMoveCost + 1, itemsIncludingMe); occupied.markCells(me, false); me.spanY ++; } // Try resizing horizontally & vertically if (myH > me.minSpanY && myW > me.minSpanX && occupied.isRegionVacant(x, y, myW - 1, myH - 1)) { me.spanX --; me.spanY --; occupied.markCells(me, true); // 2 extra move cost find(index + 1, weightLoss, newMoveCost + 2, itemsIncludingMe); occupied.markCells(me, false); me.spanX ++; me.spanY ++; } me.cellX = myX; me.cellY = myY; } } // Finally also try a solution when this item is not included. Trying it in the end // causes it to get skipped in most cases due to higher weight loss, and prevents // unnecessary deep copies of various configurations. find(index + 1, weightLoss + me.weight, moveCost, itemsPlaced); } else { // Since this is a 1x1 item and all the following items are also 1x1, just place // it at 'the most appropriate position' and hope for the best. // The most appropriate position: one with lease straight line distance int newDistance = Integer.MAX_VALUE; int newX = Integer.MAX_VALUE, newY = Integer.MAX_VALUE; for (int y = startY; y < mTrgY; y++) { for (int x = 0; x < mTrgX; x++) { if (!occupied.cells[x][y]) { int dist = ignoreMove ? 0 : ((me.cellX - x) * (me.cellX - x) + (me.cellY - y) * (me.cellY - y)); if (dist < newDistance) { newX = x; newY = y; newDistance = dist; } } } } if (newX < mTrgX && newY < mTrgY) { float newMoveCost = moveCost; if (newX != myX) { me.cellX = newX; newMoveCost ++; } if (newY != myY) { me.cellY = newY; newMoveCost ++; } if (ignoreMove) { newMoveCost = moveCost; } occupied.markCells(me, true); find(index + 1, weightLoss, newMoveCost, itemsIncludingMe); occupied.markCells(me, false); me.cellX = myX; me.cellY = myY; // Try to find a solution without this item, only if // 1) there was at least one space, i.e., we were able to place this item // 2) if the next item has the same weight (all items are already sorted), as // if it has lower weight, that solution will automatically get discarded. // 3) ignoreMove false otherwise, move cost is ignored and the weight will // anyway be same. if (index + 1 < itemsToPlace.size() && itemsToPlace.get(index + 1).weight >= me.weight && !ignoreMove) { find(index + 1, weightLoss + me.weight, moveCost, itemsPlaced); } } else { // No more space. Jump to the end. for (int i = index + 1; i < itemsToPlace.size(); i++) { weightLoss += itemsToPlace.get(i).weight; } find(itemsToPlace.size(), weightLoss + me.weight, moveCost, itemsPlaced); } } } } private ArrayList loadHotseatEntries() { Cursor c = mContext.getContentResolver().query(LauncherSettings.Favorites.CONTENT_URI, new String[]{ Favorites._ID, // 0 Favorites.ITEM_TYPE, // 1 Favorites.INTENT, // 2 Favorites.SCREEN}, // 3 Favorites.CONTAINER + " = " + Favorites.CONTAINER_HOTSEAT, null, null, null); final int indexId = c.getColumnIndexOrThrow(Favorites._ID); final int indexItemType = c.getColumnIndexOrThrow(Favorites.ITEM_TYPE); final int indexIntent = c.getColumnIndexOrThrow(Favorites.INTENT); final int indexScreen = c.getColumnIndexOrThrow(Favorites.SCREEN); ArrayList entries = new ArrayList<>(); while (c.moveToNext()) { DbEntry entry = new DbEntry(); entry.id = c.getLong(indexId); entry.itemType = c.getInt(indexItemType); entry.screenId = c.getLong(indexScreen); if (entry.screenId >= mSrcHotseatSize) { mEntryToRemove.add(entry.id); continue; } try { // calculate weight switch (entry.itemType) { case Favorites.ITEM_TYPE_SHORTCUT: case Favorites.ITEM_TYPE_DEEP_SHORTCUT: case Favorites.ITEM_TYPE_APPLICATION: { verifyIntent(c.getString(indexIntent)); entry.weight = entry.itemType == Favorites.ITEM_TYPE_APPLICATION ? WT_APPLICATION : WT_SHORTCUT; break; } case Favorites.ITEM_TYPE_FOLDER: { int total = getFolderItemsCount(entry.id); if (total == 0) { throw new Exception("Folder is empty"); } entry.weight = WT_FOLDER_FACTOR * total; break; } default: throw new Exception("Invalid item type"); } } catch (Exception e) { if (DEBUG) { Log.d(TAG, "Removing item " + entry.id, e); } mEntryToRemove.add(entry.id); continue; } entries.add(entry); } c.close(); return entries; } /** * Loads entries for a particular screen id. */ protected ArrayList loadWorkspaceEntries(long screen) { Cursor c = queryWorkspace( new String[]{ Favorites._ID, // 0 Favorites.ITEM_TYPE, // 1 Favorites.CELLX, // 2 Favorites.CELLY, // 3 Favorites.SPANX, // 4 Favorites.SPANY, // 5 Favorites.INTENT, // 6 Favorites.APPWIDGET_PROVIDER, // 7 Favorites.APPWIDGET_ID}, // 8 Favorites.CONTAINER + " = " + Favorites.CONTAINER_DESKTOP + " AND " + Favorites.SCREEN + " = " + screen); final int indexId = c.getColumnIndexOrThrow(Favorites._ID); final int indexItemType = c.getColumnIndexOrThrow(Favorites.ITEM_TYPE); final int indexCellX = c.getColumnIndexOrThrow(Favorites.CELLX); final int indexCellY = c.getColumnIndexOrThrow(Favorites.CELLY); final int indexSpanX = c.getColumnIndexOrThrow(Favorites.SPANX); final int indexSpanY = c.getColumnIndexOrThrow(Favorites.SPANY); final int indexIntent = c.getColumnIndexOrThrow(Favorites.INTENT); final int indexAppWidgetProvider = c.getColumnIndexOrThrow(Favorites.APPWIDGET_PROVIDER); final int indexAppWidgetId = c.getColumnIndexOrThrow(Favorites.APPWIDGET_ID); ArrayList entries = new ArrayList<>(); while (c.moveToNext()) { DbEntry entry = new DbEntry(); entry.id = c.getLong(indexId); entry.itemType = c.getInt(indexItemType); entry.cellX = c.getInt(indexCellX); entry.cellY = c.getInt(indexCellY); entry.spanX = c.getInt(indexSpanX); entry.spanY = c.getInt(indexSpanY); entry.screenId = screen; try { // calculate weight switch (entry.itemType) { case Favorites.ITEM_TYPE_SHORTCUT: case Favorites.ITEM_TYPE_DEEP_SHORTCUT: case Favorites.ITEM_TYPE_APPLICATION: { verifyIntent(c.getString(indexIntent)); entry.weight = entry.itemType == Favorites.ITEM_TYPE_APPLICATION ? WT_APPLICATION : WT_SHORTCUT; break; } case Favorites.ITEM_TYPE_APPWIDGET: { String provider = c.getString(indexAppWidgetProvider); ComponentName cn = ComponentName.unflattenFromString(provider); verifyPackage(cn.getPackageName()); entry.weight = Math.max(WT_WIDGET_MIN, WT_WIDGET_FACTOR * entry.spanX * entry.spanY); int widgetId = c.getInt(indexAppWidgetId); LauncherAppWidgetProviderInfo pInfo = AppWidgetManagerCompat.getInstance( mContext).getLauncherAppWidgetInfo(widgetId); Point spans = pInfo == null ? mWidgetMinSize.get(provider) : pInfo.getMinSpans(mIdp, mContext); if (spans != null) { entry.minSpanX = spans.x > 0 ? spans.x : entry.spanX; entry.minSpanY = spans.y > 0 ? spans.y : entry.spanY; } else { // Assume that the widget be resized down to 2x2 entry.minSpanX = entry.minSpanY = 2; } if (entry.minSpanX > mTrgX || entry.minSpanY > mTrgY) { throw new Exception("Widget can't be resized down to fit the grid"); } break; } case Favorites.ITEM_TYPE_FOLDER: { int total = getFolderItemsCount(entry.id); if (total == 0) { throw new Exception("Folder is empty"); } entry.weight = WT_FOLDER_FACTOR * total; break; } default: throw new Exception("Invalid item type"); } } catch (Exception e) { if (DEBUG) { Log.d(TAG, "Removing item " + entry.id, e); } mEntryToRemove.add(entry.id); continue; } entries.add(entry); } c.close(); return entries; } /** * @return the number of valid items in the folder. */ private int getFolderItemsCount(long folderId) { Cursor c = queryWorkspace( new String[]{Favorites._ID, Favorites.INTENT}, Favorites.CONTAINER + " = " + folderId); int total = 0; while (c.moveToNext()) { try { verifyIntent(c.getString(1)); total++; } catch (Exception e) { mEntryToRemove.add(c.getLong(0)); } } c.close(); return total; } protected Cursor queryWorkspace(String[] columns, String where) { return mContext.getContentResolver().query(LauncherSettings.Favorites.CONTENT_URI, columns, where, null, null, null); } /** * Verifies if the intent should be restored. */ private void verifyIntent(String intentStr) throws Exception { Intent intent = Intent.parseUri(intentStr, 0); if (intent.getComponent() != null) { verifyPackage(intent.getComponent().getPackageName()); } else if (intent.getPackage() != null) { // Only verify package if the component was null. verifyPackage(intent.getPackage()); } } /** * Verifies if the package should be restored */ private void verifyPackage(String packageName) throws Exception { if (!mValidPackages.contains(packageName)) { throw new Exception("Package not available"); } } protected static class DbEntry extends ItemInfo implements Comparable { public float weight; public DbEntry() { } public DbEntry copy() { DbEntry entry = new DbEntry(); entry.copyFrom(this); entry.weight = weight; entry.minSpanX = minSpanX; entry.minSpanY = minSpanY; return entry; } /** * Comparator such that larger widgets come first, followed by all 1x1 items * based on their weights. */ @Override public int compareTo(DbEntry another) { if (itemType == Favorites.ITEM_TYPE_APPWIDGET) { if (another.itemType == Favorites.ITEM_TYPE_APPWIDGET) { return another.spanY * another.spanX - spanX * spanY; } else { return -1; } } else if (another.itemType == Favorites.ITEM_TYPE_APPWIDGET) { return 1; } else { // Place higher weight before lower weight. return Float.compare(another.weight, weight); } } public boolean columnsSame(DbEntry org) { return org.cellX == cellX && org.cellY == cellY && org.spanX == spanX && org.spanY == spanY && org.screenId == screenId; } public void addToContentValues(ContentValues values) { values.put(LauncherSettings.Favorites.SCREEN, screenId); values.put(LauncherSettings.Favorites.CELLX, cellX); values.put(LauncherSettings.Favorites.CELLY, cellY); values.put(LauncherSettings.Favorites.SPANX, spanX); values.put(LauncherSettings.Favorites.SPANY, spanY); } } private static ArrayList deepCopy(ArrayList src) { ArrayList dup = new ArrayList(src.size()); for (DbEntry e : src) { dup.add(e.copy()); } return dup; } private static Point parsePoint(String point) { String[] split = point.split(","); return new Point(Integer.parseInt(split[0]), Integer.parseInt(split[1])); } private static String getPointString(int x, int y) { return String.format(Locale.ENGLISH, "%d,%d", x, y); } public static void markForMigration( Context context, int gridX, int gridY, int hotseatSize) { Utilities.getPrefs(context).edit() .putString(KEY_MIGRATION_SRC_WORKSPACE_SIZE, getPointString(gridX, gridY)) .putInt(KEY_MIGRATION_SRC_HOTSEAT_COUNT, hotseatSize) .apply(); } /** * Migrates the workspace and hotseat in case their sizes changed. * @return false if the migration failed. */ public static boolean migrateGridIfNeeded(Context context) { SharedPreferences prefs = Utilities.getPrefs(context); InvariantDeviceProfile idp = LauncherAppState.getIDP(context); String gridSizeString = getPointString(idp.numColumns, idp.numRows); if (gridSizeString.equals(prefs.getString(KEY_MIGRATION_SRC_WORKSPACE_SIZE, "")) && idp.numHotseatIcons == prefs.getInt(KEY_MIGRATION_SRC_HOTSEAT_COUNT, idp.numHotseatIcons)) { // Skip if workspace and hotseat sizes have not changed. return true; } long migrationStartTime = System.currentTimeMillis(); try { boolean dbChanged = false; HashSet validPackages = getValidPackages(context); // Hotseat int srcHotseatCount = prefs.getInt(KEY_MIGRATION_SRC_HOTSEAT_COUNT, idp.numHotseatIcons); if (srcHotseatCount != idp.numHotseatIcons) { // Migrate hotseat. dbChanged = new GridSizeMigrationTask(context, LauncherAppState.getIDP(context), validPackages, srcHotseatCount, idp.numHotseatIcons).migrateHotseat(); } // Grid size Point targetSize = new Point(idp.numColumns, idp.numRows); Point sourceSize = parsePoint(prefs.getString( KEY_MIGRATION_SRC_WORKSPACE_SIZE, gridSizeString)); if (new MultiStepMigrationTask(validPackages, context).migrate(sourceSize, targetSize)) { dbChanged = true; } if (dbChanged) { // Make sure we haven't removed everything. final Cursor c = context.getContentResolver().query( LauncherSettings.Favorites.CONTENT_URI, null, null, null, null); boolean hasData = c.moveToNext(); c.close(); if (!hasData) { throw new Exception("Removed every thing during grid resize"); } } return true; } catch (Exception e) { Log.e(TAG, "Error during grid migration", e); return false; } finally { Log.v(TAG, "Workspace migration completed in " + (System.currentTimeMillis() - migrationStartTime)); // Save current configuration, so that the migration does not run again. prefs.edit() .putString(KEY_MIGRATION_SRC_WORKSPACE_SIZE, gridSizeString) .putInt(KEY_MIGRATION_SRC_HOTSEAT_COUNT, idp.numHotseatIcons) .apply(); } } protected static HashSet getValidPackages(Context context) { // Initialize list of valid packages. This contain all the packages which are already on // the device and packages which are being installed. Any item which doesn't belong to // this set is removed. // Since the loader removes such items anyway, removing these items here doesn't cause // any extra data loss and gives us more free space on the grid for better migration. HashSet validPackages = new HashSet<>(); for (PackageInfo info : context.getPackageManager() .getInstalledPackages(PackageManager.GET_UNINSTALLED_PACKAGES)) { validPackages.add(info.packageName); } validPackages.addAll(PackageInstallerCompat.getInstance(context) .updateAndGetActiveSessionCache().keySet()); return validPackages; } /** * Removes any broken item from the hotseat. * @return a map with occupied hotseat position set to non-null value. */ public static LongArrayMap removeBrokenHotseatItems(Context context) throws Exception { GridSizeMigrationTask task = new GridSizeMigrationTask( context, LauncherAppState.getIDP(context), getValidPackages(context), Integer.MAX_VALUE, Integer.MAX_VALUE); // Load all the valid entries ArrayList items = task.loadHotseatEntries(); // Delete any entry marked for deletion by above load. task.applyOperations(); LongArrayMap positions = new LongArrayMap<>(); for (DbEntry item : items) { positions.put(item.screenId, item); } return positions; } /** * Task to run grid migration in multiple steps when the size difference is more than 1. */ protected static class MultiStepMigrationTask { private final HashSet mValidPackages; private final Context mContext; public MultiStepMigrationTask(HashSet validPackages, Context context) { mValidPackages = validPackages; mContext = context; } public boolean migrate(Point sourceSize, Point targetSize) throws Exception { boolean dbChanged = false; if (!targetSize.equals(sourceSize)) { if (sourceSize.x < targetSize.x) { // Source is smaller that target, just expand the grid without actual migration. sourceSize.x = targetSize.x; } if (sourceSize.y < targetSize.y) { // Source is smaller that target, just expand the grid without actual migration. sourceSize.y = targetSize.y; } // Migrate the workspace grid, such that the points differ by max 1 in x and y // each on every step. while (!targetSize.equals(sourceSize)) { // Get the next size, such that the points differ by max 1 in x and y each Point nextSize = new Point(sourceSize); if (targetSize.x < nextSize.x) { nextSize.x--; } if (targetSize.y < nextSize.y) { nextSize.y--; } if (runStepTask(sourceSize, nextSize)) { dbChanged = true; } sourceSize.set(nextSize.x, nextSize.y); } } return dbChanged; } protected boolean runStepTask(Point sourceSize, Point nextSize) throws Exception { return new GridSizeMigrationTask(mContext, LauncherAppState.getIDP(mContext), mValidPackages, sourceSize, nextSize).migrateWorkspace(); } } }