/* * Copyright (C) 2013 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.photos; import android.annotation.TargetApi; import android.content.Context; import android.content.res.Resources; import android.graphics.Bitmap; import android.graphics.Bitmap.Config; import android.graphics.BitmapFactory; import android.graphics.BitmapRegionDecoder; import android.graphics.Canvas; import android.graphics.Paint; import android.graphics.Rect; import android.net.Uri; import android.os.Build; import android.os.Build.VERSION_CODES; import android.util.Log; import com.android.gallery3d.common.BitmapUtils; import com.android.gallery3d.common.Utils; import com.android.gallery3d.exif.ExifInterface; import com.android.gallery3d.glrenderer.BasicTexture; import com.android.gallery3d.glrenderer.BitmapTexture; import com.android.photos.views.TiledImageRenderer; import java.io.BufferedInputStream; import java.io.FileNotFoundException; import java.io.IOException; import java.io.InputStream; interface SimpleBitmapRegionDecoder { int getWidth(); int getHeight(); Bitmap decodeRegion(Rect wantRegion, BitmapFactory.Options options); } class SimpleBitmapRegionDecoderWrapper implements SimpleBitmapRegionDecoder { BitmapRegionDecoder mDecoder; private SimpleBitmapRegionDecoderWrapper(BitmapRegionDecoder decoder) { mDecoder = decoder; } public static SimpleBitmapRegionDecoderWrapper newInstance( String pathName, boolean isShareable) { try { BitmapRegionDecoder d = BitmapRegionDecoder.newInstance(pathName, isShareable); if (d != null) { return new SimpleBitmapRegionDecoderWrapper(d); } } catch (IOException e) { Log.w("BitmapRegionTileSource", "getting decoder failed for path " + pathName, e); return null; } return null; } public static SimpleBitmapRegionDecoderWrapper newInstance( InputStream is, boolean isShareable) { try { BitmapRegionDecoder d = BitmapRegionDecoder.newInstance(is, isShareable); if (d != null) { return new SimpleBitmapRegionDecoderWrapper(d); } } catch (IOException e) { Log.w("BitmapRegionTileSource", "getting decoder failed", e); return null; } return null; } public int getWidth() { return mDecoder.getWidth(); } public int getHeight() { return mDecoder.getHeight(); } public Bitmap decodeRegion(Rect wantRegion, BitmapFactory.Options options) { return mDecoder.decodeRegion(wantRegion, options); } } class DumbBitmapRegionDecoder implements SimpleBitmapRegionDecoder { Bitmap mBuffer; Canvas mTempCanvas; Paint mTempPaint; private DumbBitmapRegionDecoder(Bitmap b) { mBuffer = b; } public static DumbBitmapRegionDecoder newInstance(String pathName) { Bitmap b = BitmapFactory.decodeFile(pathName); if (b != null) { return new DumbBitmapRegionDecoder(b); } return null; } public static DumbBitmapRegionDecoder newInstance(InputStream is) { Bitmap b = BitmapFactory.decodeStream(is); if (b != null) { return new DumbBitmapRegionDecoder(b); } return null; } public int getWidth() { return mBuffer.getWidth(); } public int getHeight() { return mBuffer.getHeight(); } public Bitmap decodeRegion(Rect wantRegion, BitmapFactory.Options options) { if (mTempCanvas == null) { mTempCanvas = new Canvas(); mTempPaint = new Paint(); mTempPaint.setFilterBitmap(true); } int sampleSize = Math.max(options.inSampleSize, 1); Bitmap newBitmap = Bitmap.createBitmap( wantRegion.width() / sampleSize, wantRegion.height() / sampleSize, Bitmap.Config.ARGB_8888); mTempCanvas.setBitmap(newBitmap); mTempCanvas.save(); mTempCanvas.scale(1f / sampleSize, 1f / sampleSize); mTempCanvas.drawBitmap(mBuffer, -wantRegion.left, -wantRegion.top, mTempPaint); mTempCanvas.restore(); mTempCanvas.setBitmap(null); return newBitmap; } } /** * A {@link com.android.photos.views.TiledImageRenderer.TileSource} using * {@link BitmapRegionDecoder} to wrap a local file */ @TargetApi(Build.VERSION_CODES.ICE_CREAM_SANDWICH_MR1) public class BitmapRegionTileSource implements TiledImageRenderer.TileSource { private static final String TAG = "BitmapRegionTileSource"; private static final boolean REUSE_BITMAP = Build.VERSION.SDK_INT >= VERSION_CODES.JELLY_BEAN; private static final int GL_SIZE_LIMIT = 2048; // This must be no larger than half the size of the GL_SIZE_LIMIT // due to decodePreview being allowed to be up to 2x the size of the target public static final int MAX_PREVIEW_SIZE = GL_SIZE_LIMIT / 2; public static abstract class BitmapSource { private SimpleBitmapRegionDecoder mDecoder; private Bitmap mPreview; private int mPreviewSize; private int mRotation; public enum State { NOT_LOADED, LOADED, ERROR_LOADING }; private State mState = State.NOT_LOADED; public BitmapSource(int previewSize) { mPreviewSize = previewSize; } public boolean loadInBackground() { ExifInterface ei = new ExifInterface(); if (readExif(ei)) { Integer ori = ei.getTagIntValue(ExifInterface.TAG_ORIENTATION); if (ori != null) { mRotation = ExifInterface.getRotationForOrientationValue(ori.shortValue()); } } mDecoder = loadBitmapRegionDecoder(); if (mDecoder == null) { mState = State.ERROR_LOADING; return false; } else { int width = mDecoder.getWidth(); int height = mDecoder.getHeight(); if (mPreviewSize != 0) { int previewSize = Math.min(mPreviewSize, MAX_PREVIEW_SIZE); BitmapFactory.Options opts = new BitmapFactory.Options(); opts.inPreferredConfig = Bitmap.Config.ARGB_8888; opts.inPreferQualityOverSpeed = true; float scale = (float) previewSize / Math.max(width, height); opts.inSampleSize = BitmapUtils.computeSampleSizeLarger(scale); opts.inJustDecodeBounds = false; mPreview = loadPreviewBitmap(opts); } mState = State.LOADED; return true; } } public State getLoadingState() { return mState; } public SimpleBitmapRegionDecoder getBitmapRegionDecoder() { return mDecoder; } public Bitmap getPreviewBitmap() { return mPreview; } public int getPreviewSize() { return mPreviewSize; } public int getRotation() { return mRotation; } public abstract boolean readExif(ExifInterface ei); public abstract SimpleBitmapRegionDecoder loadBitmapRegionDecoder(); public abstract Bitmap loadPreviewBitmap(BitmapFactory.Options options); } public static class FilePathBitmapSource extends BitmapSource { private String mPath; public FilePathBitmapSource(String path, int previewSize) { super(previewSize); mPath = path; } @Override public SimpleBitmapRegionDecoder loadBitmapRegionDecoder() { SimpleBitmapRegionDecoder d; d = SimpleBitmapRegionDecoderWrapper.newInstance(mPath, true); if (d == null) { d = DumbBitmapRegionDecoder.newInstance(mPath); } return d; } @Override public Bitmap loadPreviewBitmap(BitmapFactory.Options options) { return BitmapFactory.decodeFile(mPath, options); } @Override public boolean readExif(ExifInterface ei) { try { ei.readExif(mPath); return true; } catch (NullPointerException e) { Log.w("BitmapRegionTileSource", "reading exif failed", e); return false; } catch (IOException e) { Log.w("BitmapRegionTileSource", "getting decoder failed", e); return false; } } } public static class UriBitmapSource extends BitmapSource { private Context mContext; private Uri mUri; public UriBitmapSource(Context context, Uri uri, int previewSize) { super(previewSize); mContext = context; mUri = uri; } private InputStream regenerateInputStream() throws FileNotFoundException { InputStream is = mContext.getContentResolver().openInputStream(mUri); return new BufferedInputStream(is); } @Override public SimpleBitmapRegionDecoder loadBitmapRegionDecoder() { try { InputStream is = regenerateInputStream(); SimpleBitmapRegionDecoder regionDecoder = SimpleBitmapRegionDecoderWrapper.newInstance(is, false); Utils.closeSilently(is); if (regionDecoder == null) { is = regenerateInputStream(); regionDecoder = DumbBitmapRegionDecoder.newInstance(is); Utils.closeSilently(is); } return regionDecoder; } catch (FileNotFoundException e) { Log.e("BitmapRegionTileSource", "Failed to load URI " + mUri, e); return null; } } @Override public Bitmap loadPreviewBitmap(BitmapFactory.Options options) { try { InputStream is = regenerateInputStream(); Bitmap b = BitmapFactory.decodeStream(is, null, options); Utils.closeSilently(is); return b; } catch (FileNotFoundException e) { Log.e("BitmapRegionTileSource", "Failed to load URI " + mUri, e); return null; } } @Override public boolean readExif(ExifInterface ei) { InputStream is = null; try { is = regenerateInputStream(); ei.readExif(is); Utils.closeSilently(is); return true; } catch (FileNotFoundException e) { Log.e("BitmapRegionTileSource", "Failed to load URI " + mUri, e); return false; } catch (IOException e) { Log.e("BitmapRegionTileSource", "Failed to load URI " + mUri, e); return false; } catch (NullPointerException e) { Log.e("BitmapRegionTileSource", "Failed to read EXIF for URI " + mUri, e); return false; } finally { Utils.closeSilently(is); } } } public static class ResourceBitmapSource extends BitmapSource { private Resources mRes; private int mResId; public ResourceBitmapSource(Resources res, int resId, int previewSize) { super(previewSize); mRes = res; mResId = resId; } private InputStream regenerateInputStream() { InputStream is = mRes.openRawResource(mResId); return new BufferedInputStream(is); } @Override public SimpleBitmapRegionDecoder loadBitmapRegionDecoder() { InputStream is = regenerateInputStream(); SimpleBitmapRegionDecoder regionDecoder = SimpleBitmapRegionDecoderWrapper.newInstance(is, false); Utils.closeSilently(is); if (regionDecoder == null) { is = regenerateInputStream(); regionDecoder = DumbBitmapRegionDecoder.newInstance(is); Utils.closeSilently(is); } return regionDecoder; } @Override public Bitmap loadPreviewBitmap(BitmapFactory.Options options) { return BitmapFactory.decodeResource(mRes, mResId, options); } @Override public boolean readExif(ExifInterface ei) { try { InputStream is = regenerateInputStream(); ei.readExif(is); Utils.closeSilently(is); return true; } catch (IOException e) { Log.e("BitmapRegionTileSource", "Error reading resource", e); return false; } } } SimpleBitmapRegionDecoder mDecoder; int mWidth; int mHeight; int mTileSize; private BasicTexture mPreview; private final int mRotation; // For use only by getTile private Rect mWantRegion = new Rect(); private Rect mOverlapRegion = new Rect(); private BitmapFactory.Options mOptions; private Canvas mCanvas; public BitmapRegionTileSource(Context context, BitmapSource source) { mTileSize = TiledImageRenderer.suggestedTileSize(context); mRotation = source.getRotation(); mDecoder = source.getBitmapRegionDecoder(); if (mDecoder != null) { mWidth = mDecoder.getWidth(); mHeight = mDecoder.getHeight(); mOptions = new BitmapFactory.Options(); mOptions.inPreferredConfig = Bitmap.Config.ARGB_8888; mOptions.inPreferQualityOverSpeed = true; mOptions.inTempStorage = new byte[16 * 1024]; int previewSize = source.getPreviewSize(); if (previewSize != 0) { previewSize = Math.min(previewSize, MAX_PREVIEW_SIZE); // Although this is the same size as the Bitmap that is likely already // loaded, the lifecycle is different and interactions are on a different // thread. Thus to simplify, this source will decode its own bitmap. Bitmap preview = decodePreview(source, previewSize); if (preview.getWidth() <= GL_SIZE_LIMIT && preview.getHeight() <= GL_SIZE_LIMIT) { mPreview = new BitmapTexture(preview); } else { Log.w(TAG, String.format( "Failed to create preview of apropriate size! " + " in: %dx%d, out: %dx%d", mWidth, mHeight, preview.getWidth(), preview.getHeight())); } } } } @Override public int getTileSize() { return mTileSize; } @Override public int getImageWidth() { return mWidth; } @Override public int getImageHeight() { return mHeight; } @Override public BasicTexture getPreview() { return mPreview; } @Override public int getRotation() { return mRotation; } @Override public Bitmap getTile(int level, int x, int y, Bitmap bitmap) { int tileSize = getTileSize(); if (!REUSE_BITMAP) { return getTileWithoutReusingBitmap(level, x, y, tileSize); } int t = tileSize << level; mWantRegion.set(x, y, x + t, y + t); if (bitmap == null) { bitmap = Bitmap.createBitmap(tileSize, tileSize, Bitmap.Config.ARGB_8888); } mOptions.inSampleSize = (1 << level); mOptions.inBitmap = bitmap; try { bitmap = mDecoder.decodeRegion(mWantRegion, mOptions); } finally { if (mOptions.inBitmap != bitmap && mOptions.inBitmap != null) { mOptions.inBitmap = null; } } if (bitmap == null) { Log.w("BitmapRegionTileSource", "fail in decoding region"); } return bitmap; } private Bitmap getTileWithoutReusingBitmap( int level, int x, int y, int tileSize) { int t = tileSize << level; mWantRegion.set(x, y, x + t, y + t); mOverlapRegion.set(0, 0, mWidth, mHeight); mOptions.inSampleSize = (1 << level); Bitmap bitmap = mDecoder.decodeRegion(mOverlapRegion, mOptions); if (bitmap == null) { Log.w(TAG, "fail in decoding region"); } if (mWantRegion.equals(mOverlapRegion)) { return bitmap; } Bitmap result = Bitmap.createBitmap(tileSize, tileSize, Config.ARGB_8888); if (mCanvas == null) { mCanvas = new Canvas(); } mCanvas.setBitmap(result); mCanvas.drawBitmap(bitmap, (mOverlapRegion.left - mWantRegion.left) >> level, (mOverlapRegion.top - mWantRegion.top) >> level, null); mCanvas.setBitmap(null); return result; } /** * Note that the returned bitmap may have a long edge that's longer * than the targetSize, but it will always be less than 2x the targetSize */ private Bitmap decodePreview(BitmapSource source, int targetSize) { Bitmap result = source.getPreviewBitmap(); if (result == null) { return null; } // We need to resize down if the decoder does not support inSampleSize // or didn't support the specified inSampleSize (some decoders only do powers of 2) float scale = (float) targetSize / (float) (Math.max(result.getWidth(), result.getHeight())); if (scale <= 0.5) { result = BitmapUtils.resizeBitmapByScale(result, scale, true); } return ensureGLCompatibleBitmap(result); } private static Bitmap ensureGLCompatibleBitmap(Bitmap bitmap) { if (bitmap == null || bitmap.getConfig() != null) { return bitmap; } Bitmap newBitmap = bitmap.copy(Config.ARGB_8888, false); bitmap.recycle(); return newBitmap; } }