/* * 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.launcher3; import android.app.ActionBar; import android.app.Activity; import android.app.WallpaperManager; import android.content.Context; import android.content.Intent; import android.content.SharedPreferences; import android.content.res.Configuration; import android.content.res.Resources; import android.graphics.Bitmap; import android.graphics.Bitmap.CompressFormat; import android.graphics.BitmapFactory; import android.graphics.BitmapRegionDecoder; import android.graphics.Canvas; import android.graphics.Matrix; import android.graphics.Paint; import android.graphics.Point; import android.graphics.Rect; import android.graphics.RectF; import android.net.Uri; import android.os.AsyncTask; import android.os.Bundle; import android.util.Log; import android.view.Display; import android.view.View; import android.view.WindowManager; import android.widget.Toast; import com.android.gallery3d.common.Utils; import com.android.gallery3d.exif.ExifInterface; import com.android.photos.BitmapRegionTileSource; import com.android.photos.BitmapRegionTileSource.BitmapSource; import java.io.BufferedInputStream; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.FileNotFoundException; import java.io.IOException; import java.io.InputStream; public class WallpaperCropActivity extends Activity { private static final String LOGTAG = "Launcher3.CropActivity"; protected static final String WALLPAPER_WIDTH_KEY = "wallpaper.width"; protected static final String WALLPAPER_HEIGHT_KEY = "wallpaper.height"; private static final int DEFAULT_COMPRESS_QUALITY = 90; /** * The maximum bitmap size we allow to be returned through the intent. * Intents have a maximum of 1MB in total size. However, the Bitmap seems to * have some overhead to hit so that we go way below the limit here to make * sure the intent stays below 1MB.We should consider just returning a byte * array instead of a Bitmap instance to avoid overhead. */ public static final int MAX_BMAP_IN_INTENT = 750000; private static final float WALLPAPER_SCREENS_SPAN = 2f; protected static Point sDefaultWallpaperSize; protected CropView mCropView; protected Uri mUri; protected View mSetWallpaperButton; @Override protected void onCreate(Bundle savedInstanceState) { super.onCreate(savedInstanceState); init(); if (!enableRotation()) { setRequestedOrientation(Configuration.ORIENTATION_PORTRAIT); } } protected void init() { setContentView(R.layout.wallpaper_cropper); mCropView = (CropView) findViewById(R.id.cropView); Intent cropIntent = getIntent(); final Uri imageUri = cropIntent.getData(); if (imageUri == null) { Log.e(LOGTAG, "No URI passed in intent, exiting WallpaperCropActivity"); finish(); return; } // Action bar // Show the custom action bar view final ActionBar actionBar = getActionBar(); actionBar.setCustomView(R.layout.actionbar_set_wallpaper); actionBar.getCustomView().setOnClickListener( new View.OnClickListener() { @Override public void onClick(View v) { boolean finishActivityWhenDone = true; cropImageAndSetWallpaper(imageUri, null, finishActivityWhenDone); } }); mSetWallpaperButton = findViewById(R.id.set_wallpaper_button); // Load image in background final BitmapRegionTileSource.UriBitmapSource bitmapSource = new BitmapRegionTileSource.UriBitmapSource(this, imageUri, 1024); mSetWallpaperButton.setEnabled(false); Runnable onLoad = new Runnable() { public void run() { if (bitmapSource.getLoadingState() != BitmapSource.State.LOADED) { Toast.makeText(WallpaperCropActivity.this, getString(R.string.wallpaper_load_fail), Toast.LENGTH_LONG).show(); finish(); } else { mSetWallpaperButton.setEnabled(true); } } }; setCropViewTileSource(bitmapSource, true, false, onLoad); } public void setCropViewTileSource( final BitmapRegionTileSource.BitmapSource bitmapSource, final boolean touchEnabled, final boolean moveToLeft, final Runnable postExecute) { final Context context = WallpaperCropActivity.this; final View progressView = findViewById(R.id.loading); final AsyncTask loadBitmapTask = new AsyncTask() { protected Void doInBackground(Void...args) { if (!isCancelled()) { bitmapSource.loadInBackground(); } return null; } protected void onPostExecute(Void arg) { if (!isCancelled()) { progressView.setVisibility(View.INVISIBLE); if (bitmapSource.getLoadingState() == BitmapSource.State.LOADED) { mCropView.setTileSource( new BitmapRegionTileSource(context, bitmapSource), null); mCropView.setTouchEnabled(touchEnabled); if (moveToLeft) { mCropView.moveToLeft(); } } } if (postExecute != null) { postExecute.run(); } } }; // We don't want to show the spinner every time we load an image, because that would be // annoying; instead, only start showing the spinner if loading the image has taken // longer than 1 sec (ie 1000 ms) progressView.postDelayed(new Runnable() { public void run() { if (loadBitmapTask.getStatus() != AsyncTask.Status.FINISHED) { progressView.setVisibility(View.VISIBLE); } } }, 1000); loadBitmapTask.execute(); } public boolean enableRotation() { return getResources().getBoolean(R.bool.allow_rotation); } public static String getSharedPreferencesKey() { return WallpaperCropActivity.class.getName(); } // As a ratio of screen height, the total distance we want the parallax effect to span // horizontally private static 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; } static protected Point getDefaultWallpaperSize(Resources res, WindowManager windowManager) { if (sDefaultWallpaperSize == null) { Point minDims = new Point(); Point maxDims = new Point(); windowManager.getDefaultDisplay().getCurrentSizeRange(minDims, maxDims); int maxDim = Math.max(maxDims.x, maxDims.y); int minDim = Math.max(minDims.x, minDims.y); if (android.os.Build.VERSION.SDK_INT >= android.os.Build.VERSION_CODES.JELLY_BEAN_MR1) { Point realSize = new Point(); windowManager.getDefaultDisplay().getRealSize(realSize); maxDim = Math.max(realSize.x, realSize.y); minDim = Math.min(realSize.x, realSize.y); } // We need to ensure that there is enough extra space in the wallpaper // for the intended parallax effects final int defaultWidth, defaultHeight; if (isScreenLarge(res)) { defaultWidth = (int) (maxDim * wallpaperTravelToScreenWidthRatio(maxDim, minDim)); defaultHeight = maxDim; } else { defaultWidth = Math.max((int) (minDim * WALLPAPER_SCREENS_SPAN), maxDim); defaultHeight = maxDim; } sDefaultWallpaperSize = new Point(defaultWidth, defaultHeight); } return sDefaultWallpaperSize; } public static int getRotationFromExif(String path) { return getRotationFromExifHelper(path, null, 0, null, null); } public static int getRotationFromExif(Context context, Uri uri) { return getRotationFromExifHelper(null, null, 0, context, uri); } public static int getRotationFromExif(Resources res, int resId) { return getRotationFromExifHelper(null, res, resId, null, null); } private static int getRotationFromExifHelper( String path, Resources res, int resId, Context context, Uri uri) { ExifInterface ei = new ExifInterface(); InputStream is = null; BufferedInputStream bis = null; try { if (path != null) { ei.readExif(path); } else if (uri != null) { is = context.getContentResolver().openInputStream(uri); bis = new BufferedInputStream(is); ei.readExif(bis); } else { is = res.openRawResource(resId); bis = new BufferedInputStream(is); ei.readExif(bis); } Integer ori = ei.getTagIntValue(ExifInterface.TAG_ORIENTATION); if (ori != null) { return ExifInterface.getRotationForOrientationValue(ori.shortValue()); } } catch (IOException e) { Log.w(LOGTAG, "Getting exif data failed", e); } catch (NullPointerException e) { // Sometimes the ExifInterface has an internal NPE if Exif data isn't valid Log.w(LOGTAG, "Getting exif data failed", e); } finally { Utils.closeSilently(bis); Utils.closeSilently(is); } return 0; } protected void setWallpaper(String filePath, final boolean finishActivityWhenDone) { int rotation = getRotationFromExif(filePath); BitmapCropTask cropTask = new BitmapCropTask( this, filePath, null, rotation, 0, 0, true, false, null); final Point bounds = cropTask.getImageBounds(); Runnable onEndCrop = new Runnable() { public void run() { updateWallpaperDimensions(bounds.x, bounds.y); if (finishActivityWhenDone) { setResult(Activity.RESULT_OK); finish(); } } }; cropTask.setOnEndRunnable(onEndCrop); cropTask.setNoCrop(true); cropTask.execute(); } protected void cropImageAndSetWallpaper( Resources res, int resId, final boolean finishActivityWhenDone) { // crop this image and scale it down to the default wallpaper size for // this device int rotation = getRotationFromExif(res, resId); Point inSize = mCropView.getSourceDimensions(); Point outSize = getDefaultWallpaperSize(getResources(), getWindowManager()); RectF crop = getMaxCropRect( inSize.x, inSize.y, outSize.x, outSize.y, false); Runnable onEndCrop = new Runnable() { public void run() { // Passing 0, 0 will cause launcher to revert to using the // default wallpaper size updateWallpaperDimensions(0, 0); if (finishActivityWhenDone) { setResult(Activity.RESULT_OK); finish(); } } }; BitmapCropTask cropTask = new BitmapCropTask(this, res, resId, crop, rotation, outSize.x, outSize.y, true, false, onEndCrop); cropTask.execute(); } private static boolean isScreenLarge(Resources res) { Configuration config = res.getConfiguration(); return config.smallestScreenWidthDp >= 720; } protected void cropImageAndSetWallpaper(Uri uri, OnBitmapCroppedHandler onBitmapCroppedHandler, final boolean finishActivityWhenDone) { boolean centerCrop = getResources().getBoolean(R.bool.center_crop); // Get the crop boolean ltr = mCropView.getLayoutDirection() == View.LAYOUT_DIRECTION_LTR; Display d = getWindowManager().getDefaultDisplay(); Point displaySize = new Point(); d.getSize(displaySize); boolean isPortrait = displaySize.x < displaySize.y; Point defaultWallpaperSize = getDefaultWallpaperSize(getResources(), getWindowManager()); // Get the crop RectF cropRect = mCropView.getCrop(); int cropRotation = mCropView.getImageRotation(); float cropScale = mCropView.getWidth() / (float) cropRect.width(); Point inSize = mCropView.getSourceDimensions(); Matrix rotateMatrix = new Matrix(); rotateMatrix.setRotate(cropRotation); float[] rotatedInSize = new float[] { inSize.x, inSize.y }; rotateMatrix.mapPoints(rotatedInSize); rotatedInSize[0] = Math.abs(rotatedInSize[0]); rotatedInSize[1] = Math.abs(rotatedInSize[1]); // ADJUST CROP WIDTH // Extend the crop all the way to the right, for parallax // (or all the way to the left, in RTL) float extraSpace; if (centerCrop) { extraSpace = 2f * Math.min(rotatedInSize[0] - cropRect.right, cropRect.left); } else { extraSpace = ltr ? rotatedInSize[0] - cropRect.right : cropRect.left; } // Cap the amount of extra width float maxExtraSpace = defaultWallpaperSize.x / cropScale - cropRect.width(); extraSpace = Math.min(extraSpace, maxExtraSpace); if (centerCrop) { cropRect.left -= extraSpace / 2f; cropRect.right += extraSpace / 2f; } else { if (ltr) { cropRect.right += extraSpace; } else { cropRect.left -= extraSpace; } } // ADJUST CROP HEIGHT if (isPortrait) { cropRect.bottom = cropRect.top + defaultWallpaperSize.y / cropScale; } else { // LANDSCAPE float extraPortraitHeight = defaultWallpaperSize.y / cropScale - cropRect.height(); float expandHeight = Math.min(Math.min(rotatedInSize[1] - cropRect.bottom, cropRect.top), extraPortraitHeight / 2); cropRect.top -= expandHeight; cropRect.bottom += expandHeight; } final int outWidth = (int) Math.round(cropRect.width() * cropScale); final int outHeight = (int) Math.round(cropRect.height() * cropScale); Runnable onEndCrop = new Runnable() { public void run() { updateWallpaperDimensions(outWidth, outHeight); if (finishActivityWhenDone) { setResult(Activity.RESULT_OK); finish(); } } }; BitmapCropTask cropTask = new BitmapCropTask(this, uri, cropRect, cropRotation, outWidth, outHeight, true, false, onEndCrop); if (onBitmapCroppedHandler != null) { cropTask.setOnBitmapCropped(onBitmapCroppedHandler); } cropTask.execute(); } public interface OnBitmapCroppedHandler { public void onBitmapCropped(byte[] imageBytes); } protected static class BitmapCropTask extends AsyncTask { Uri mInUri = null; Context mContext; String mInFilePath; byte[] mInImageBytes; int mInResId = 0; RectF mCropBounds = null; int mOutWidth, mOutHeight; int mRotation; String mOutputFormat = "jpg"; // for now boolean mSetWallpaper; boolean mSaveCroppedBitmap; Bitmap mCroppedBitmap; Runnable mOnEndRunnable; Resources mResources; OnBitmapCroppedHandler mOnBitmapCroppedHandler; boolean mNoCrop; public BitmapCropTask(Context c, String filePath, RectF cropBounds, int rotation, int outWidth, int outHeight, boolean setWallpaper, boolean saveCroppedBitmap, Runnable onEndRunnable) { mContext = c; mInFilePath = filePath; init(cropBounds, rotation, outWidth, outHeight, setWallpaper, saveCroppedBitmap, onEndRunnable); } public BitmapCropTask(byte[] imageBytes, RectF cropBounds, int rotation, int outWidth, int outHeight, boolean setWallpaper, boolean saveCroppedBitmap, Runnable onEndRunnable) { mInImageBytes = imageBytes; init(cropBounds, rotation, outWidth, outHeight, setWallpaper, saveCroppedBitmap, onEndRunnable); } public BitmapCropTask(Context c, Uri inUri, RectF cropBounds, int rotation, int outWidth, int outHeight, boolean setWallpaper, boolean saveCroppedBitmap, Runnable onEndRunnable) { mContext = c; mInUri = inUri; init(cropBounds, rotation, outWidth, outHeight, setWallpaper, saveCroppedBitmap, onEndRunnable); } public BitmapCropTask(Context c, Resources res, int inResId, RectF cropBounds, int rotation, int outWidth, int outHeight, boolean setWallpaper, boolean saveCroppedBitmap, Runnable onEndRunnable) { mContext = c; mInResId = inResId; mResources = res; init(cropBounds, rotation, outWidth, outHeight, setWallpaper, saveCroppedBitmap, onEndRunnable); } private void init(RectF cropBounds, int rotation, int outWidth, int outHeight, boolean setWallpaper, boolean saveCroppedBitmap, Runnable onEndRunnable) { mCropBounds = cropBounds; mRotation = rotation; mOutWidth = outWidth; mOutHeight = outHeight; mSetWallpaper = setWallpaper; mSaveCroppedBitmap = saveCroppedBitmap; mOnEndRunnable = onEndRunnable; } public void setOnBitmapCropped(OnBitmapCroppedHandler handler) { mOnBitmapCroppedHandler = handler; } public void setNoCrop(boolean value) { mNoCrop = value; } public void setOnEndRunnable(Runnable onEndRunnable) { mOnEndRunnable = onEndRunnable; } // Helper to setup input stream private InputStream regenerateInputStream() { if (mInUri == null && mInResId == 0 && mInFilePath == null && mInImageBytes == null) { Log.w(LOGTAG, "cannot read original file, no input URI, resource ID, or " + "image byte array given"); } else { try { if (mInUri != null) { return new BufferedInputStream( mContext.getContentResolver().openInputStream(mInUri)); } else if (mInFilePath != null) { return mContext.openFileInput(mInFilePath); } else if (mInImageBytes != null) { return new BufferedInputStream(new ByteArrayInputStream(mInImageBytes)); } else { return new BufferedInputStream(mResources.openRawResource(mInResId)); } } catch (FileNotFoundException e) { Log.w(LOGTAG, "cannot read file: " + mInUri.toString(), e); } } return null; } public Point getImageBounds() { InputStream is = regenerateInputStream(); if (is != null) { BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeStream(is, null, options); Utils.closeSilently(is); if (options.outWidth != 0 && options.outHeight != 0) { return new Point(options.outWidth, options.outHeight); } } return null; } public void setCropBounds(RectF cropBounds) { mCropBounds = cropBounds; } public Bitmap getCroppedBitmap() { return mCroppedBitmap; } public boolean cropBitmap() { boolean failure = false; WallpaperManager wallpaperManager = null; if (mSetWallpaper) { wallpaperManager = WallpaperManager.getInstance(mContext.getApplicationContext()); } if (mSetWallpaper && mNoCrop) { try { InputStream is = regenerateInputStream(); if (is != null) { wallpaperManager.setStream(is); Utils.closeSilently(is); } } catch (IOException e) { Log.w(LOGTAG, "cannot write stream to wallpaper", e); failure = true; } return !failure; } else { // Find crop bounds (scaled to original image size) Rect roundedTrueCrop = new Rect(); Matrix rotateMatrix = new Matrix(); Matrix inverseRotateMatrix = new Matrix(); Point bounds = getImageBounds(); if (mRotation > 0) { rotateMatrix.setRotate(mRotation); inverseRotateMatrix.setRotate(-mRotation); mCropBounds.roundOut(roundedTrueCrop); mCropBounds = new RectF(roundedTrueCrop); if (bounds == null) { Log.w(LOGTAG, "cannot get bounds for image"); failure = true; return false; } float[] rotatedBounds = new float[] { bounds.x, bounds.y }; rotateMatrix.mapPoints(rotatedBounds); rotatedBounds[0] = Math.abs(rotatedBounds[0]); rotatedBounds[1] = Math.abs(rotatedBounds[1]); mCropBounds.offset(-rotatedBounds[0]/2, -rotatedBounds[1]/2); inverseRotateMatrix.mapRect(mCropBounds); mCropBounds.offset(bounds.x/2, bounds.y/2); } mCropBounds.roundOut(roundedTrueCrop); if (roundedTrueCrop.width() <= 0 || roundedTrueCrop.height() <= 0) { Log.w(LOGTAG, "crop has bad values for full size image"); failure = true; return false; } // See how much we're reducing the size of the image int scaleDownSampleSize = Math.max(1, Math.min(roundedTrueCrop.width() / mOutWidth, roundedTrueCrop.height() / mOutHeight)); // Attempt to open a region decoder BitmapRegionDecoder decoder = null; InputStream is = null; try { is = regenerateInputStream(); if (is == null) { Log.w(LOGTAG, "cannot get input stream for uri=" + mInUri.toString()); failure = true; return false; } decoder = BitmapRegionDecoder.newInstance(is, false); Utils.closeSilently(is); } catch (IOException e) { Log.w(LOGTAG, "cannot open region decoder for file: " + mInUri.toString(), e); } finally { Utils.closeSilently(is); is = null; } Bitmap crop = null; if (decoder != null) { // Do region decoding to get crop bitmap BitmapFactory.Options options = new BitmapFactory.Options(); if (scaleDownSampleSize > 1) { options.inSampleSize = scaleDownSampleSize; } crop = decoder.decodeRegion(roundedTrueCrop, options); decoder.recycle(); } if (crop == null) { // BitmapRegionDecoder has failed, try to crop in-memory is = regenerateInputStream(); Bitmap fullSize = null; if (is != null) { BitmapFactory.Options options = new BitmapFactory.Options(); if (scaleDownSampleSize > 1) { options.inSampleSize = scaleDownSampleSize; } fullSize = BitmapFactory.decodeStream(is, null, options); Utils.closeSilently(is); } if (fullSize != null) { // Find out the true sample size that was used by the decoder scaleDownSampleSize = bounds.x / fullSize.getWidth(); mCropBounds.left /= scaleDownSampleSize; mCropBounds.top /= scaleDownSampleSize; mCropBounds.bottom /= scaleDownSampleSize; mCropBounds.right /= scaleDownSampleSize; mCropBounds.roundOut(roundedTrueCrop); // Adjust values to account for issues related to rounding if (roundedTrueCrop.width() > fullSize.getWidth()) { // Adjust the width roundedTrueCrop.right = roundedTrueCrop.left + fullSize.getWidth(); } if (roundedTrueCrop.right > fullSize.getWidth()) { // Adjust the left value int adjustment = roundedTrueCrop.left - Math.max(0, roundedTrueCrop.right - roundedTrueCrop.width()); roundedTrueCrop.left -= adjustment; roundedTrueCrop.right -= adjustment; } if (roundedTrueCrop.height() > fullSize.getHeight()) { // Adjust the height roundedTrueCrop.bottom = roundedTrueCrop.top + fullSize.getHeight(); } if (roundedTrueCrop.bottom > fullSize.getHeight()) { // Adjust the top value int adjustment = roundedTrueCrop.top - Math.max(0, roundedTrueCrop.bottom - roundedTrueCrop.height()); roundedTrueCrop.top -= adjustment; roundedTrueCrop.bottom -= adjustment; } crop = Bitmap.createBitmap(fullSize, roundedTrueCrop.left, roundedTrueCrop.top, roundedTrueCrop.width(), roundedTrueCrop.height()); } } if (crop == null) { Log.w(LOGTAG, "cannot decode file: " + mInUri.toString()); failure = true; return false; } if (mOutWidth > 0 && mOutHeight > 0 || mRotation > 0) { float[] dimsAfter = new float[] { crop.getWidth(), crop.getHeight() }; rotateMatrix.mapPoints(dimsAfter); dimsAfter[0] = Math.abs(dimsAfter[0]); dimsAfter[1] = Math.abs(dimsAfter[1]); if (!(mOutWidth > 0 && mOutHeight > 0)) { mOutWidth = Math.round(dimsAfter[0]); mOutHeight = Math.round(dimsAfter[1]); } RectF cropRect = new RectF(0, 0, dimsAfter[0], dimsAfter[1]); RectF returnRect = new RectF(0, 0, mOutWidth, mOutHeight); Matrix m = new Matrix(); if (mRotation == 0) { m.setRectToRect(cropRect, returnRect, Matrix.ScaleToFit.FILL); } else { Matrix m1 = new Matrix(); m1.setTranslate(-crop.getWidth() / 2f, -crop.getHeight() / 2f); Matrix m2 = new Matrix(); m2.setRotate(mRotation); Matrix m3 = new Matrix(); m3.setTranslate(dimsAfter[0] / 2f, dimsAfter[1] / 2f); Matrix m4 = new Matrix(); m4.setRectToRect(cropRect, returnRect, Matrix.ScaleToFit.FILL); Matrix c1 = new Matrix(); c1.setConcat(m2, m1); Matrix c2 = new Matrix(); c2.setConcat(m4, m3); m.setConcat(c2, c1); } Bitmap tmp = Bitmap.createBitmap((int) returnRect.width(), (int) returnRect.height(), Bitmap.Config.ARGB_8888); if (tmp != null) { Canvas c = new Canvas(tmp); Paint p = new Paint(); p.setFilterBitmap(true); c.drawBitmap(crop, m, p); crop = tmp; } } if (mSaveCroppedBitmap) { mCroppedBitmap = crop; } // Get output compression format CompressFormat cf = convertExtensionToCompressFormat(getFileExtension(mOutputFormat)); // Compress to byte array ByteArrayOutputStream tmpOut = new ByteArrayOutputStream(2048); if (crop.compress(cf, DEFAULT_COMPRESS_QUALITY, tmpOut)) { // If we need to set to the wallpaper, set it if (mSetWallpaper && wallpaperManager != null) { try { byte[] outByteArray = tmpOut.toByteArray(); wallpaperManager.setStream(new ByteArrayInputStream(outByteArray)); if (mOnBitmapCroppedHandler != null) { mOnBitmapCroppedHandler.onBitmapCropped(outByteArray); } } catch (IOException e) { Log.w(LOGTAG, "cannot write stream to wallpaper", e); failure = true; } } } else { Log.w(LOGTAG, "cannot compress bitmap"); failure = true; } } return !failure; // True if any of the operations failed } @Override protected Boolean doInBackground(Void... params) { return cropBitmap(); } @Override protected void onPostExecute(Boolean result) { if (mOnEndRunnable != null) { mOnEndRunnable.run(); } } } protected void updateWallpaperDimensions(int width, int height) { String spKey = getSharedPreferencesKey(); SharedPreferences sp = getSharedPreferences(spKey, Context.MODE_MULTI_PROCESS); SharedPreferences.Editor editor = sp.edit(); if (width != 0 && height != 0) { editor.putInt(WALLPAPER_WIDTH_KEY, width); editor.putInt(WALLPAPER_HEIGHT_KEY, height); } else { editor.remove(WALLPAPER_WIDTH_KEY); editor.remove(WALLPAPER_HEIGHT_KEY); } editor.commit(); suggestWallpaperDimension(getResources(), sp, getWindowManager(), WallpaperManager.getInstance(this)); } static public void suggestWallpaperDimension(Resources res, final SharedPreferences sharedPrefs, WindowManager windowManager, final WallpaperManager wallpaperManager) { final Point defaultWallpaperSize = getDefaultWallpaperSize(res, windowManager); // If we have saved a wallpaper width/height, use that instead int savedWidth = sharedPrefs.getInt(WALLPAPER_WIDTH_KEY, defaultWallpaperSize.x); int savedHeight = sharedPrefs.getInt(WALLPAPER_HEIGHT_KEY, defaultWallpaperSize.y); if (savedWidth != wallpaperManager.getDesiredMinimumWidth() || savedHeight != wallpaperManager.getDesiredMinimumHeight()) { wallpaperManager.suggestDesiredDimensions(savedWidth, savedHeight); } } protected static RectF getMaxCropRect( int inWidth, int inHeight, int outWidth, int outHeight, boolean leftAligned) { RectF cropRect = new RectF(); // Get a crop rect that will fit this if (inWidth / (float) inHeight > outWidth / (float) outHeight) { cropRect.top = 0; cropRect.bottom = inHeight; cropRect.left = (inWidth - (outWidth / (float) outHeight) * inHeight) / 2; cropRect.right = inWidth - cropRect.left; if (leftAligned) { cropRect.right -= cropRect.left; cropRect.left = 0; } } else { cropRect.left = 0; cropRect.right = inWidth; cropRect.top = (inHeight - (outHeight / (float) outWidth) * inWidth) / 2; cropRect.bottom = inHeight - cropRect.top; } return cropRect; } protected static CompressFormat convertExtensionToCompressFormat(String extension) { return extension.equals("png") ? CompressFormat.PNG : CompressFormat.JPEG; } protected static String getFileExtension(String requestFormat) { String outputFormat = (requestFormat == null) ? "jpg" : requestFormat; outputFormat = outputFormat.toLowerCase(); return (outputFormat.equals("png") || outputFormat.equals("gif")) ? "png" // We don't support gif compression. : "jpg"; } }