diff options
Diffstat (limited to 'src/com/android/gallery3d/ui/TileImageView.java')
-rw-r--r-- | src/com/android/gallery3d/ui/TileImageView.java | 786 |
1 files changed, 0 insertions, 786 deletions
diff --git a/src/com/android/gallery3d/ui/TileImageView.java b/src/com/android/gallery3d/ui/TileImageView.java deleted file mode 100644 index 3185c7598..000000000 --- a/src/com/android/gallery3d/ui/TileImageView.java +++ /dev/null @@ -1,786 +0,0 @@ -/* - * Copyright (C) 2010 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.gallery3d.ui; - -import android.content.Context; -import android.graphics.Bitmap; -import android.graphics.Point; -import android.graphics.Rect; -import android.graphics.RectF; -import android.support.v4.util.LongSparseArray; -import android.util.DisplayMetrics; -import android.util.FloatMath; -import android.view.WindowManager; - -import com.android.gallery3d.app.GalleryContext; -import com.android.gallery3d.common.Utils; -import com.android.gallery3d.data.DecodeUtils; -import com.android.photos.data.GalleryBitmapPool; -import com.android.gallery3d.glrenderer.GLCanvas; -import com.android.gallery3d.glrenderer.UploadedTexture; -import com.android.gallery3d.util.Future; -import com.android.gallery3d.util.ThreadPool; -import com.android.gallery3d.util.ThreadPool.CancelListener; -import com.android.gallery3d.util.ThreadPool.JobContext; - -import java.util.concurrent.atomic.AtomicBoolean; - -public class TileImageView extends GLView { - public static final int SIZE_UNKNOWN = -1; - - @SuppressWarnings("unused") - private static final String TAG = "TileImageView"; - private static final int UPLOAD_LIMIT = 1; - - // TILE_SIZE must be 2^N - private static int sTileSize; - - /* - * This is the tile state in the CPU side. - * Life of a Tile: - * ACTIVATED (initial state) - * --> IN_QUEUE - by queueForDecode() - * --> RECYCLED - by recycleTile() - * IN_QUEUE --> DECODING - by decodeTile() - * --> RECYCLED - by recycleTile) - * DECODING --> RECYCLING - by recycleTile() - * --> DECODED - by decodeTile() - * --> DECODE_FAIL - by decodeTile() - * RECYCLING --> RECYCLED - by decodeTile() - * DECODED --> ACTIVATED - (after the decoded bitmap is uploaded) - * DECODED --> RECYCLED - by recycleTile() - * DECODE_FAIL -> RECYCLED - by recycleTile() - * RECYCLED --> ACTIVATED - by obtainTile() - */ - private static final int STATE_ACTIVATED = 0x01; - private static final int STATE_IN_QUEUE = 0x02; - private static final int STATE_DECODING = 0x04; - private static final int STATE_DECODED = 0x08; - private static final int STATE_DECODE_FAIL = 0x10; - private static final int STATE_RECYCLING = 0x20; - private static final int STATE_RECYCLED = 0x40; - - private TileSource mModel; - private ScreenNail mScreenNail; - protected int mLevelCount; // cache the value of mScaledBitmaps.length - - // The mLevel variable indicates which level of bitmap we should use. - // Level 0 means the original full-sized bitmap, and a larger value means - // a smaller scaled bitmap (The width and height of each scaled bitmap is - // half size of the previous one). If the value is in [0, mLevelCount), we - // use the bitmap in mScaledBitmaps[mLevel] for display, otherwise the value - // is mLevelCount, and that means we use mScreenNail for display. - private int mLevel = 0; - - // The offsets of the (left, top) of the upper-left tile to the (left, top) - // of the view. - private int mOffsetX; - private int mOffsetY; - - private int mUploadQuota; - private boolean mRenderComplete; - - private final RectF mSourceRect = new RectF(); - private final RectF mTargetRect = new RectF(); - - private final LongSparseArray<Tile> mActiveTiles = new LongSparseArray<Tile>(); - - // The following three queue is guarded by TileImageView.this - private final TileQueue mRecycledQueue = new TileQueue(); - private final TileQueue mUploadQueue = new TileQueue(); - private final TileQueue mDecodeQueue = new TileQueue(); - - // The width and height of the full-sized bitmap - protected int mImageWidth = SIZE_UNKNOWN; - protected int mImageHeight = SIZE_UNKNOWN; - - protected int mCenterX; - protected int mCenterY; - protected float mScale; - protected int mRotation; - - // Temp variables to avoid memory allocation - private final Rect mTileRange = new Rect(); - private final Rect mActiveRange[] = {new Rect(), new Rect()}; - - private final TileUploader mTileUploader = new TileUploader(); - private boolean mIsTextureFreed; - private Future<Void> mTileDecoder; - private final ThreadPool mThreadPool; - private boolean mBackgroundTileUploaded; - - public static interface TileSource { - public int getLevelCount(); - public ScreenNail getScreenNail(); - public int getImageWidth(); - public int getImageHeight(); - - // The tile returned by this method can be specified this way: Assuming - // the image size is (width, height), first take the intersection of (0, - // 0) - (width, height) and (x, y) - (x + tileSize, y + tileSize). If - // in extending the region, we found some part of the region are outside - // the image, those pixels are filled with black. - // - // If level > 0, it does the same operation on a down-scaled version of - // the original image (down-scaled by a factor of 2^level), but (x, y) - // still refers to the coordinate on the original image. - // - // The method would be called in another thread. - public Bitmap getTile(int level, int x, int y, int tileSize); - } - - public static boolean isHighResolution(Context context) { - DisplayMetrics metrics = new DisplayMetrics(); - WindowManager wm = (WindowManager) - context.getSystemService(Context.WINDOW_SERVICE); - wm.getDefaultDisplay().getMetrics(metrics); - return metrics.heightPixels > 2048 || metrics.widthPixels > 2048; - } - - public TileImageView(GalleryContext context) { - mThreadPool = context.getThreadPool(); - mTileDecoder = mThreadPool.submit(new TileDecoder()); - if (sTileSize == 0) { - if (isHighResolution(context.getAndroidContext())) { - sTileSize = 512 ; - } else { - sTileSize = 256; - } - } - } - - public void setModel(TileSource model) { - mModel = model; - if (model != null) notifyModelInvalidated(); - } - - public void setScreenNail(ScreenNail s) { - mScreenNail = s; - } - - public void notifyModelInvalidated() { - invalidateTiles(); - if (mModel == null) { - mScreenNail = null; - mImageWidth = 0; - mImageHeight = 0; - mLevelCount = 0; - } else { - setScreenNail(mModel.getScreenNail()); - mImageWidth = mModel.getImageWidth(); - mImageHeight = mModel.getImageHeight(); - mLevelCount = mModel.getLevelCount(); - } - layoutTiles(mCenterX, mCenterY, mScale, mRotation); - invalidate(); - } - - @Override - protected void onLayout( - boolean changeSize, int left, int top, int right, int bottom) { - super.onLayout(changeSize, left, top, right, bottom); - if (changeSize) layoutTiles(mCenterX, mCenterY, mScale, mRotation); - } - - // Prepare the tiles we want to use for display. - // - // 1. Decide the tile level we want to use for display. - // 2. Decide the tile levels we want to keep as texture (in addition to - // the one we use for display). - // 3. Recycle unused tiles. - // 4. Activate the tiles we want. - private void layoutTiles(int centerX, int centerY, float scale, int rotation) { - // The width and height of this view. - int width = getWidth(); - int height = getHeight(); - - // The tile levels we want to keep as texture is in the range - // [fromLevel, endLevel). - int fromLevel; - int endLevel; - - // We want to use a texture larger than or equal to the display size. - mLevel = Utils.clamp(Utils.floorLog2(1f / scale), 0, mLevelCount); - - // We want to keep one more tile level as texture in addition to what - // we use for display. So it can be faster when the scale moves to the - // next level. We choose a level closer to the current scale. - if (mLevel != mLevelCount) { - Rect range = mTileRange; - getRange(range, centerX, centerY, mLevel, scale, rotation); - mOffsetX = Math.round(width / 2f + (range.left - centerX) * scale); - mOffsetY = Math.round(height / 2f + (range.top - centerY) * scale); - fromLevel = scale * (1 << mLevel) > 0.75f ? mLevel - 1 : mLevel; - } else { - // Activate the tiles of the smallest two levels. - fromLevel = mLevel - 2; - mOffsetX = Math.round(width / 2f - centerX * scale); - mOffsetY = Math.round(height / 2f - centerY * scale); - } - - fromLevel = Math.max(0, Math.min(fromLevel, mLevelCount - 2)); - endLevel = Math.min(fromLevel + 2, mLevelCount); - - Rect range[] = mActiveRange; - for (int i = fromLevel; i < endLevel; ++i) { - getRange(range[i - fromLevel], centerX, centerY, i, rotation); - } - - // If rotation is transient, don't update the tile. - if (rotation % 90 != 0) return; - - synchronized (this) { - mDecodeQueue.clean(); - mUploadQueue.clean(); - mBackgroundTileUploaded = false; - - // Recycle unused tiles: if the level of the active tile is outside the - // range [fromLevel, endLevel) or not in the visible range. - int n = mActiveTiles.size(); - for (int i = 0; i < n; i++) { - Tile tile = mActiveTiles.valueAt(i); - int level = tile.mTileLevel; - if (level < fromLevel || level >= endLevel - || !range[level - fromLevel].contains(tile.mX, tile.mY)) { - mActiveTiles.removeAt(i); - i--; - n--; - recycleTile(tile); - } - } - } - - for (int i = fromLevel; i < endLevel; ++i) { - int size = sTileSize << i; - Rect r = range[i - fromLevel]; - for (int y = r.top, bottom = r.bottom; y < bottom; y += size) { - for (int x = r.left, right = r.right; x < right; x += size) { - activateTile(x, y, i); - } - } - } - invalidate(); - } - - protected synchronized void invalidateTiles() { - mDecodeQueue.clean(); - mUploadQueue.clean(); - - // TODO disable decoder - int n = mActiveTiles.size(); - for (int i = 0; i < n; i++) { - Tile tile = mActiveTiles.valueAt(i); - recycleTile(tile); - } - mActiveTiles.clear(); - } - - private void getRange(Rect out, int cX, int cY, int level, int rotation) { - getRange(out, cX, cY, level, 1f / (1 << (level + 1)), rotation); - } - - // If the bitmap is scaled by the given factor "scale", return the - // rectangle containing visible range. The left-top coordinate returned is - // aligned to the tile boundary. - // - // (cX, cY) is the point on the original bitmap which will be put in the - // center of the ImageViewer. - private void getRange(Rect out, - int cX, int cY, int level, float scale, int rotation) { - - double radians = Math.toRadians(-rotation); - double w = getWidth(); - double h = getHeight(); - - double cos = Math.cos(radians); - double sin = Math.sin(radians); - int width = (int) Math.ceil(Math.max( - Math.abs(cos * w - sin * h), Math.abs(cos * w + sin * h))); - int height = (int) Math.ceil(Math.max( - Math.abs(sin * w + cos * h), Math.abs(sin * w - cos * h))); - - int left = (int) FloatMath.floor(cX - width / (2f * scale)); - int top = (int) FloatMath.floor(cY - height / (2f * scale)); - int right = (int) FloatMath.ceil(left + width / scale); - int bottom = (int) FloatMath.ceil(top + height / scale); - - // align the rectangle to tile boundary - int size = sTileSize << level; - left = Math.max(0, size * (left / size)); - top = Math.max(0, size * (top / size)); - right = Math.min(mImageWidth, right); - bottom = Math.min(mImageHeight, bottom); - - out.set(left, top, right, bottom); - } - - // Calculate where the center of the image is, in the view coordinates. - public void getImageCenter(Point center) { - // The width and height of this view. - int viewW = getWidth(); - int viewH = getHeight(); - - // The distance between the center of the view to the center of the - // bitmap, in bitmap units. (mCenterX and mCenterY are the bitmap - // coordinates correspond to the center of view) - int distW, distH; - if (mRotation % 180 == 0) { - distW = mImageWidth / 2 - mCenterX; - distH = mImageHeight / 2 - mCenterY; - } else { - distW = mImageHeight / 2 - mCenterY; - distH = mImageWidth / 2 - mCenterX; - } - - // Convert to view coordinates. mScale translates from bitmap units to - // view units. - center.x = Math.round(viewW / 2f + distW * mScale); - center.y = Math.round(viewH / 2f + distH * mScale); - } - - public boolean setPosition(int centerX, int centerY, float scale, int rotation) { - if (mCenterX == centerX && mCenterY == centerY - && mScale == scale && mRotation == rotation) return false; - mCenterX = centerX; - mCenterY = centerY; - mScale = scale; - mRotation = rotation; - layoutTiles(centerX, centerY, scale, rotation); - invalidate(); - return true; - } - - public void freeTextures() { - mIsTextureFreed = true; - - if (mTileDecoder != null) { - mTileDecoder.cancel(); - mTileDecoder.get(); - mTileDecoder = null; - } - - int n = mActiveTiles.size(); - for (int i = 0; i < n; i++) { - Tile texture = mActiveTiles.valueAt(i); - texture.recycle(); - } - mActiveTiles.clear(); - mTileRange.set(0, 0, 0, 0); - - synchronized (this) { - mUploadQueue.clean(); - mDecodeQueue.clean(); - Tile tile = mRecycledQueue.pop(); - while (tile != null) { - tile.recycle(); - tile = mRecycledQueue.pop(); - } - } - setScreenNail(null); - } - - public void prepareTextures() { - if (mTileDecoder == null) { - mTileDecoder = mThreadPool.submit(new TileDecoder()); - } - if (mIsTextureFreed) { - layoutTiles(mCenterX, mCenterY, mScale, mRotation); - mIsTextureFreed = false; - setScreenNail(mModel == null ? null : mModel.getScreenNail()); - } - } - - @Override - protected void render(GLCanvas canvas) { - mUploadQuota = UPLOAD_LIMIT; - mRenderComplete = true; - - int level = mLevel; - int rotation = mRotation; - int flags = 0; - if (rotation != 0) flags |= GLCanvas.SAVE_FLAG_MATRIX; - - if (flags != 0) { - canvas.save(flags); - if (rotation != 0) { - int centerX = getWidth() / 2, centerY = getHeight() / 2; - canvas.translate(centerX, centerY); - canvas.rotate(rotation, 0, 0, 1); - canvas.translate(-centerX, -centerY); - } - } - try { - if (level != mLevelCount && !isScreenNailAnimating()) { - if (mScreenNail != null) { - mScreenNail.noDraw(); - } - - int size = (sTileSize << level); - float length = size * mScale; - Rect r = mTileRange; - - for (int ty = r.top, i = 0; ty < r.bottom; ty += size, i++) { - float y = mOffsetY + i * length; - for (int tx = r.left, j = 0; tx < r.right; tx += size, j++) { - float x = mOffsetX + j * length; - drawTile(canvas, tx, ty, level, x, y, length); - } - } - } else if (mScreenNail != null) { - mScreenNail.draw(canvas, mOffsetX, mOffsetY, - Math.round(mImageWidth * mScale), - Math.round(mImageHeight * mScale)); - if (isScreenNailAnimating()) { - invalidate(); - } - } - } finally { - if (flags != 0) canvas.restore(); - } - - if (mRenderComplete) { - if (!mBackgroundTileUploaded) uploadBackgroundTiles(canvas); - } else { - invalidate(); - } - } - - private boolean isScreenNailAnimating() { - return (mScreenNail instanceof TiledScreenNail) - && ((TiledScreenNail) mScreenNail).isAnimating(); - } - - private void uploadBackgroundTiles(GLCanvas canvas) { - mBackgroundTileUploaded = true; - int n = mActiveTiles.size(); - for (int i = 0; i < n; i++) { - Tile tile = mActiveTiles.valueAt(i); - if (!tile.isContentValid()) queueForDecode(tile); - } - } - - void queueForUpload(Tile tile) { - synchronized (this) { - mUploadQueue.push(tile); - } - if (mTileUploader.mActive.compareAndSet(false, true)) { - getGLRoot().addOnGLIdleListener(mTileUploader); - } - } - - synchronized void queueForDecode(Tile tile) { - if (tile.mTileState == STATE_ACTIVATED) { - tile.mTileState = STATE_IN_QUEUE; - if (mDecodeQueue.push(tile)) notifyAll(); - } - } - - boolean decodeTile(Tile tile) { - synchronized (this) { - if (tile.mTileState != STATE_IN_QUEUE) return false; - tile.mTileState = STATE_DECODING; - } - boolean decodeComplete = tile.decode(); - synchronized (this) { - if (tile.mTileState == STATE_RECYCLING) { - tile.mTileState = STATE_RECYCLED; - if (tile.mDecodedTile != null) { - GalleryBitmapPool.getInstance().put(tile.mDecodedTile); - tile.mDecodedTile = null; - } - mRecycledQueue.push(tile); - return false; - } - tile.mTileState = decodeComplete ? STATE_DECODED : STATE_DECODE_FAIL; - return decodeComplete; - } - } - - private synchronized Tile obtainTile(int x, int y, int level) { - Tile tile = mRecycledQueue.pop(); - if (tile != null) { - tile.mTileState = STATE_ACTIVATED; - tile.update(x, y, level); - return tile; - } - return new Tile(x, y, level); - } - - synchronized void recycleTile(Tile tile) { - if (tile.mTileState == STATE_DECODING) { - tile.mTileState = STATE_RECYCLING; - return; - } - tile.mTileState = STATE_RECYCLED; - if (tile.mDecodedTile != null) { - GalleryBitmapPool.getInstance().put(tile.mDecodedTile); - tile.mDecodedTile = null; - } - mRecycledQueue.push(tile); - } - - private void activateTile(int x, int y, int level) { - long key = makeTileKey(x, y, level); - Tile tile = mActiveTiles.get(key); - if (tile != null) { - if (tile.mTileState == STATE_IN_QUEUE) { - tile.mTileState = STATE_ACTIVATED; - } - return; - } - tile = obtainTile(x, y, level); - mActiveTiles.put(key, tile); - } - - private Tile getTile(int x, int y, int level) { - return mActiveTiles.get(makeTileKey(x, y, level)); - } - - private static long makeTileKey(int x, int y, int level) { - long result = x; - result = (result << 16) | y; - result = (result << 16) | level; - return result; - } - - private class TileUploader implements GLRoot.OnGLIdleListener { - AtomicBoolean mActive = new AtomicBoolean(false); - - @Override - public boolean onGLIdle(GLCanvas canvas, boolean renderRequested) { - // Skips uploading if there is a pending rendering request. - // Returns true to keep uploading in next rendering loop. - if (renderRequested) return true; - int quota = UPLOAD_LIMIT; - Tile tile = null; - while (quota > 0) { - synchronized (TileImageView.this) { - tile = mUploadQueue.pop(); - } - if (tile == null) break; - if (!tile.isContentValid()) { - boolean hasBeenLoaded = tile.isLoaded(); - Utils.assertTrue(tile.mTileState == STATE_DECODED); - tile.updateContent(canvas); - if (!hasBeenLoaded) tile.draw(canvas, 0, 0); - --quota; - } - } - if (tile == null) mActive.set(false); - return tile != null; - } - } - - // Draw the tile to a square at canvas that locates at (x, y) and - // has a side length of length. - public void drawTile(GLCanvas canvas, - int tx, int ty, int level, float x, float y, float length) { - RectF source = mSourceRect; - RectF target = mTargetRect; - target.set(x, y, x + length, y + length); - source.set(0, 0, sTileSize, sTileSize); - - Tile tile = getTile(tx, ty, level); - if (tile != null) { - if (!tile.isContentValid()) { - if (tile.mTileState == STATE_DECODED) { - if (mUploadQuota > 0) { - --mUploadQuota; - tile.updateContent(canvas); - } else { - mRenderComplete = false; - } - } else if (tile.mTileState != STATE_DECODE_FAIL){ - mRenderComplete = false; - queueForDecode(tile); - } - } - if (drawTile(tile, canvas, source, target)) return; - } - if (mScreenNail != null) { - int size = sTileSize << level; - float scaleX = (float) mScreenNail.getWidth() / mImageWidth; - float scaleY = (float) mScreenNail.getHeight() / mImageHeight; - source.set(tx * scaleX, ty * scaleY, (tx + size) * scaleX, - (ty + size) * scaleY); - mScreenNail.draw(canvas, source, target); - } - } - - static boolean drawTile( - Tile tile, GLCanvas canvas, RectF source, RectF target) { - while (true) { - if (tile.isContentValid()) { - canvas.drawTexture(tile, source, target); - return true; - } - - // Parent can be divided to four quads and tile is one of the four. - Tile parent = tile.getParentTile(); - if (parent == null) return false; - if (tile.mX == parent.mX) { - source.left /= 2f; - source.right /= 2f; - } else { - source.left = (sTileSize + source.left) / 2f; - source.right = (sTileSize + source.right) / 2f; - } - if (tile.mY == parent.mY) { - source.top /= 2f; - source.bottom /= 2f; - } else { - source.top = (sTileSize + source.top) / 2f; - source.bottom = (sTileSize + source.bottom) / 2f; - } - tile = parent; - } - } - - private class Tile extends UploadedTexture { - public int mX; - public int mY; - public int mTileLevel; - public Tile mNext; - public Bitmap mDecodedTile; - public volatile int mTileState = STATE_ACTIVATED; - - public Tile(int x, int y, int level) { - mX = x; - mY = y; - mTileLevel = level; - } - - @Override - protected void onFreeBitmap(Bitmap bitmap) { - GalleryBitmapPool.getInstance().put(bitmap); - } - - boolean decode() { - // Get a tile from the original image. The tile is down-scaled - // by (1 << mTilelevel) from a region in the original image. - try { - mDecodedTile = DecodeUtils.ensureGLCompatibleBitmap(mModel.getTile( - mTileLevel, mX, mY, sTileSize)); - } catch (Throwable t) { - Log.w(TAG, "fail to decode tile", t); - } - return mDecodedTile != null; - } - - @Override - protected Bitmap onGetBitmap() { - Utils.assertTrue(mTileState == STATE_DECODED); - - // We need to override the width and height, so that we won't - // draw beyond the boundaries. - int rightEdge = ((mImageWidth - mX) >> mTileLevel); - int bottomEdge = ((mImageHeight - mY) >> mTileLevel); - setSize(Math.min(sTileSize, rightEdge), Math.min(sTileSize, bottomEdge)); - - Bitmap bitmap = mDecodedTile; - mDecodedTile = null; - mTileState = STATE_ACTIVATED; - return bitmap; - } - - // We override getTextureWidth() and getTextureHeight() here, so the - // texture can be re-used for different tiles regardless of the actual - // size of the tile (which may be small because it is a tile at the - // boundary). - @Override - public int getTextureWidth() { - return sTileSize; - } - - @Override - public int getTextureHeight() { - return sTileSize; - } - - public void update(int x, int y, int level) { - mX = x; - mY = y; - mTileLevel = level; - invalidateContent(); - } - - public Tile getParentTile() { - if (mTileLevel + 1 == mLevelCount) return null; - int size = sTileSize << (mTileLevel + 1); - int x = size * (mX / size); - int y = size * (mY / size); - return getTile(x, y, mTileLevel + 1); - } - - @Override - public String toString() { - return String.format("tile(%s, %s, %s / %s)", - mX / sTileSize, mY / sTileSize, mLevel, mLevelCount); - } - } - - private static class TileQueue { - private Tile mHead; - - public Tile pop() { - Tile tile = mHead; - if (tile != null) mHead = tile.mNext; - return tile; - } - - public boolean push(Tile tile) { - boolean wasEmpty = mHead == null; - tile.mNext = mHead; - mHead = tile; - return wasEmpty; - } - - public void clean() { - mHead = null; - } - } - - private class TileDecoder implements ThreadPool.Job<Void> { - - private CancelListener mNotifier = new CancelListener() { - @Override - public void onCancel() { - synchronized (TileImageView.this) { - TileImageView.this.notifyAll(); - } - } - }; - - @Override - public Void run(JobContext jc) { - jc.setMode(ThreadPool.MODE_NONE); - jc.setCancelListener(mNotifier); - while (!jc.isCancelled()) { - Tile tile = null; - synchronized(TileImageView.this) { - tile = mDecodeQueue.pop(); - if (tile == null && !jc.isCancelled()) { - Utils.waitWithoutInterrupt(TileImageView.this); - } - } - if (tile == null) continue; - if (decodeTile(tile)) queueForUpload(tile); - } - return null; - } - } -} |