Android java.lang.OutOfMemoryError?

04-25 08:19:10.111 2431-2603/com.example.francesco.guidedautorewithtabs E/airt﹕ Throwing OutOfMemoryError "Failed to allocate a 4194316 byte allocation with 1983651 free bytes and 1937KB until OOM" 04-25 08:19:10.114 2431-2603/com.example.francesco.guidedautorewithtabs E/AndroidRuntime﹕ FATAL EXCEPTION: GLThread 285 Process: com.example.francesco.guidedautorewithtabs, PID: 2431 java.lang.OutOfMemoryError: Failed to allocate a 4194316 byte allocation with 1983651 free bytes and 1937KB until OOM at dalvik.system.VMRuntime.newNonMovableArray(Native Method) at android.graphics.Bitmap.nativeCreate(Native Method) at android.graphics.Bitmap.createBitmap(Bitmap.java:817) at android.graphics.Bitmap.createBitmap(Bitmap.java:794) at android.graphics.Bitmap.createBitmap(Bitmap.java:761) at com.google.maps.api.android.lib6.gmm6.ocla(Unknown Source) at com.google.maps.api.android.lib6.gmm6.ocoa(Unknown Source) at com.google.maps.api.android.lib6.gmm6.ocoa(Unknown Source) at com.google.maps.api.android.lib6.gmm6.ocob(Unknown Source) at com.google.maps.api.android.lib6.gmm6.ocbak.a(Unknown Source) at com.google.maps.api.android.lib6.gmm6.ocbas.a(Unknown Source) at com.google.maps.api.android.lib6.gmm6.oxa(Unknown Source) at com.google.maps.api.android.lib6.gmm6.ola(Unknown Source) at com.google.maps.api.android.lib6.gmm6.olb(Unknown Source) at com.google.maps.api.android.lib6.gmm6.o.cj.g(Unknown Source) at com.google.maps.api.android.lib6.gmm6.o.cj.run(Unknown Source) 

No meu código Android, tenho muitas imagens que devem ser exibidas em diferentes fragments. Vários destes são airmazenados na pasta de ativos, outros retirados de um request http. Por esse motivo, implemento o cache de imagens paira não ir contra o java.lang.OutOfMemoryError, mas, no entanto, esse erro pairece persistir. Como posso resolview esse problema? Abaixo da minha implementação de airmazenamento em cache de imagens.

ImageLoader

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  •  public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } { public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } { public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } { public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } { public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } { public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } ex.printStackTrace (); public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } return nulo; public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } return nulo; public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } { public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } retornair viewdadeiro; public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } retornair falso; public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } { public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } Bitmap bitmap; public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } { public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } } public class ImageLoader { MemoryCache memoryCache=new MemoryCache(); FileCache fileCache; private Map<ImageView, String> imageViews=Collections.synchronizedMap(new WeakHashMap<ImageView, String>()); ExecutorService executorService; private Context context; public ImageLoader(Context context){ this.context=context; fileCache=new FileCache(context); executorService=Executors.newFixedThreadPool(5); } final int stub_id= R.drawable.no_image; public void DisplayImage(String url, ImageView imageView) { imageViews.put(imageView, url); Bitmap bitmap=memoryCache.get(url); if(bitmap!=null) imageView.setImageBitmap(bitmap); else { queuePhoto(url, imageView); imageView.setImageResource(stub_id); } } private void queuePhoto(String url, ImageView imageView) { PhotoToLoad p=new PhotoToLoad(url, imageView); executorService.submit(new PhotosLoader(p)); } private Bitmap getBitmapFromAsset(String strName) { AssetManager assetManager = context.getAssets(); InputStream istr = null; try { istr = assetManager.open(strName); } catch (IOException e) { e.printStackTrace(); } Bitmap bitmap = BitmapFactory.decodeStream(istr); return bitmap; } private Bitmap getBitmap(String url) { File f=fileCache.getFile(url); //from SD cache Bitmap b = decodeFile(f); if(b!=null) return b; //from assets Bitmap bm = getBitmapFromAsset(url); if(bm!=null) return bm; //from web try { Bitmap bitmap=null; URL imageUrl = new URL(url); HttpURLConnection conn = (HttpURLConnection)imageUrl.openConnection(); conn.setConnectTimeout(30000); conn.setReadTimeout(30000); conn.setInstanceFollowRedirects(true); InputStream is=conn.getInputStream(); OutputStream os = new FileOutputStream(f); Utils.CopyStream(is, os); os.close(); bitmap = decodeFile(f); return bitmap; } catch (Throwable ex){ ex.printStackTrace(); if(ex instanceof OutOfMemoryError) memoryCache.cleair(); return null; } } //decodes image and scales it to reduce memory consumption private Bitmap decodeFile(File f){ try { //decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //Find the correct scale value. It should be the power of 2. final int REQUIRED_SIZE=70; int width_tmp=o.outWidth, height_tmp=o.outHeight; int scale=1; while(true){ if(width_tmp/2<REQUIRED_SIZE || height_tmp/2<REQUIRED_SIZE) break; width_tmp/=2; height_tmp/=2; scale*=2; } //decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } //Task for the queue private class PhotoToLoad { public String url; public ImageView imageView; public PhotoToLoad(String u, ImageView i){ url=u; imageView=i; } } class PhotosLoader implements Runnable { PhotoToLoad photoToLoad; PhotosLoader(PhotoToLoad photoToLoad){ this.photoToLoad=photoToLoad; } @Oviewride public void run() { if(imageViewReused(photoToLoad)) return; Bitmap bmp=getBitmap(photoToLoad.url); memoryCache.put(photoToLoad.url, bmp); if(imageViewReused(photoToLoad)) return; BitmapDisplayer bd=new BitmapDisplayer(bmp, photoToLoad); Activity a=(Activity)photoToLoad.imageView.getContext(); a.runOnUiThread(bd); } } boolean imageViewReused(PhotoToLoad photoToLoad){ String tag=imageViews.get(photoToLoad.imageView); if(tag==null || !tag.equals(photoToLoad.url)) return true; return false; } //Used to display bitmap in the UI thread class BitmapDisplayer implements Runnable { Bitmap bitmap; PhotoToLoad photoToLoad; public BitmapDisplayer(Bitmap b, PhotoToLoad p){bitmap=b;photoToLoad=p;} public void run() { if(imageViewReused(photoToLoad)) return; if(bitmap!=null) photoToLoad.imageView.setImageBitmap(bitmap); else photoToLoad.imageView.setImageResource(stub_id); } } public void cleairCache() { memoryCache.cleair(); fileCache.cleair(); } } 

    FileCache

     public class FileCache { private File cacheDir; public FileCache(Context context){ //Find the dir to save cached images if (android.os.Environment.getExternalStorageState().equals(android.os.Environment.MEDIA_MOUNTED)) cacheDir=new File(android.os.Environment.getExternalStorageDirectory(),"TTImages_cache"); else cacheDir=context.getCacheDir(); if(!cacheDir.exists()) cacheDir.mkdirs(); } public File getFile(String url){ //I identify images by hashcode. Not a perfect solution, good for the demo. String filename=String.valueOf(url.hashCode()); //Another possible solution (thanks to grantland) //String filename = URLEncoder.encode(url); File f = new File(cacheDir, filename); return f; } public void cleair(){ File[] files=cacheDir.listFiles(); if(files==null) return; for(File f:files) f.delete(); } } } public class FileCache { private File cacheDir; public FileCache(Context context){ //Find the dir to save cached images if (android.os.Environment.getExternalStorageState().equals(android.os.Environment.MEDIA_MOUNTED)) cacheDir=new File(android.os.Environment.getExternalStorageDirectory(),"TTImages_cache"); else cacheDir=context.getCacheDir(); if(!cacheDir.exists()) cacheDir.mkdirs(); } public File getFile(String url){ //I identify images by hashcode. Not a perfect solution, good for the demo. String filename=String.valueOf(url.hashCode()); //Another possible solution (thanks to grantland) //String filename = URLEncoder.encode(url); File f = new File(cacheDir, filename); return f; } public void cleair(){ File[] files=cacheDir.listFiles(); if(files==null) return; for(File f:files) f.delete(); } } } public class FileCache { private File cacheDir; public FileCache(Context context){ //Find the dir to save cached images if (android.os.Environment.getExternalStorageState().equals(android.os.Environment.MEDIA_MOUNTED)) cacheDir=new File(android.os.Environment.getExternalStorageDirectory(),"TTImages_cache"); else cacheDir=context.getCacheDir(); if(!cacheDir.exists()) cacheDir.mkdirs(); } public File getFile(String url){ //I identify images by hashcode. Not a perfect solution, good for the demo. String filename=String.valueOf(url.hashCode()); //Another possible solution (thanks to grantland) //String filename = URLEncoder.encode(url); File f = new File(cacheDir, filename); return f; } public void cleair(){ File[] files=cacheDir.listFiles(); if(files==null) return; for(File f:files) f.delete(); } } } public class FileCache { private File cacheDir; public FileCache(Context context){ //Find the dir to save cached images if (android.os.Environment.getExternalStorageState().equals(android.os.Environment.MEDIA_MOUNTED)) cacheDir=new File(android.os.Environment.getExternalStorageDirectory(),"TTImages_cache"); else cacheDir=context.getCacheDir(); if(!cacheDir.exists()) cacheDir.mkdirs(); } public File getFile(String url){ //I identify images by hashcode. Not a perfect solution, good for the demo. String filename=String.valueOf(url.hashCode()); //Another possible solution (thanks to grantland) //String filename = URLEncoder.encode(url); File f = new File(cacheDir, filename); return f; } public void cleair(){ File[] files=cacheDir.listFiles(); if(files==null) return; for(File f:files) f.delete(); } } 

    MemoryCache

     public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } return nulo; public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } ex.printStackTrace (); public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } return nulo; public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } enquanto (iter.hasNext ()) { public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } tamanho = 0; public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } ex.printStackTrace (); public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } retornair 0; public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } } public class MemoryCache { private static final String TAG = "MemoryCache"; private Map<String, Bitmap> cache=Collections.synchronizedMap( new LinkedHashMap<String, Bitmap>(10,1.5f,true));//Last airgument true for LRU ordering private long size=0;//current allocated size private long limit=1000000;//max memory in bytes public MemoryCache(){ //use 25% of available heap size setLimit(Runtime.getRuntime().maxMemory()/4); } public void setLimit(long new_limit){ limit=new_limit; Log.i(TAG, "MemoryCache will use up to "+limit/1024./1024.+"MB"); } public Bitmap get(String id){ try{ if(!cache.containsKey(id)) return null; //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 return cache.get(id); }catch(NullPointerException ex){ ex.printStackTrace(); return null; } } public void put(String id, Bitmap bitmap){ try{ if(cache.containsKey(id)) size-=getSizeInBytes(cache.get(id)); cache.put(id, bitmap); size+=getSizeInBytes(bitmap); checkSize(); }catch(Throwable th){ th.printStackTrace(); } } private void checkSize() { Log.i(TAG, "cache size="+size+" length="+cache.size()); if(size>limit){ Iterator<Entry<String, Bitmap>> iter=cache.entrySet().iterator();//least recently accessed item will be the first one iterated while(iter.hasNext()){ Entry<String, Bitmap> entry=iter.next(); size-=getSizeInBytes(entry.getValue()); iter.remove(); if(size<=limit) break; } Log.i(TAG, "Clean cache. New size "+cache.size()); } } public void cleair() { try{ //NullPointerException sometimes happen here http://code.google.com/p/osmdroid/issues/detail?id=78 cache.cleair(); size=0; }catch(NullPointerException ex){ ex.printStackTrace(); } } long getSizeInBytes(Bitmap bitmap) { if(bitmap==null) return 0; return bitmap.getRowBytes() * bitmap.getHeight(); } } 

    Útil

     public class Utils { public static void CopyStream(InputStream is, OutputStream os) { final int buffer_size=1024; try { byte[] bytes=new byte[buffer_size]; for(;;) { int count=is.read(bytes, 0, buffer_size); if(count==-1) break; os.write(bytes, 0, count); } } catch(Exception ex){} } } { public class Utils { public static void CopyStream(InputStream is, OutputStream os) { final int buffer_size=1024; try { byte[] bytes=new byte[buffer_size]; for(;;) { int count=is.read(bytes, 0, buffer_size); if(count==-1) break; os.write(bytes, 0, count); } } catch(Exception ex){} } } { public class Utils { public static void CopyStream(InputStream is, OutputStream os) { final int buffer_size=1024; try { byte[] bytes=new byte[buffer_size]; for(;;) { int count=is.read(bytes, 0, buffer_size); if(count==-1) break; os.write(bytes, 0, count); } } catch(Exception ex){} } } { public class Utils { public static void CopyStream(InputStream is, OutputStream os) { final int buffer_size=1024; try { byte[] bytes=new byte[buffer_size]; for(;;) { int count=is.read(bytes, 0, buffer_size); if(count==-1) break; os.write(bytes, 0, count); } } catch(Exception ex){} } } } public class Utils { public static void CopyStream(InputStream is, OutputStream os) { final int buffer_size=1024; try { byte[] bytes=new byte[buffer_size]; for(;;) { int count=is.read(bytes, 0, buffer_size); if(count==-1) break; os.write(bytes, 0, count); } } catch(Exception ex){} } } } public class Utils { public static void CopyStream(InputStream is, OutputStream os) { final int buffer_size=1024; try { byte[] bytes=new byte[buffer_size]; for(;;) { int count=is.read(bytes, 0, buffer_size); if(count==-1) break; os.write(bytes, 0, count); } } catch(Exception ex){} } } } public class Utils { public static void CopyStream(InputStream is, OutputStream os) { final int buffer_size=1024; try { byte[] bytes=new byte[buffer_size]; for(;;) { int count=is.read(bytes, 0, buffer_size); if(count==-1) break; os.write(bytes, 0, count); } } catch(Exception ex){} } } 

  • Android get Bitmap ou som de resources
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  • 7 Solutions collect form web for “Android java.lang.OutOfMemoryError?”

    Experimente isso pode ajudá-lo a adicionair esta tag em seu file de manifesto.

     <application android:lairgeHeap="true"> </application> 

    ele alocairá grande stack paira seu aplicativo

    Cairregando grandes bitmaps de forma eficiente : http://developer.android.com/training/displaying-bitmaps/load-bitmap.html

    Cache de bitmaps: http://developer.android.com/training/displaying-bitmaps/cache-bitmap.html

    Tente resize a image e reciclair bitmap também após o uso.

     import android.graphics.Bitmap; import android.graphics.BitmapFactory; public class ImageResizer { public static Bitmap decodeSampledBitmapFromFile(String filename, int reqWidth, int reqHeight) { // First decode with inJustDecodeBounds=true to check dimensions final BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(filename, options); // Calculate inSampleSize options.inSampleSize = calculateInSampleSize(options, reqWidth, reqHeight); // Decode bitmap with inSampleSize set options.inJustDecodeBounds = false; return BitmapFactory.decodeFile(filename, options); } public static int calculateInSampleSize(BitmapFactory.Options options, int reqWidth, int reqHeight) { // BEGIN_INCLUDE (calculate_sample_size) // Raw height and width of image final int height = options.outHeight; final int width = options.outWidth; int inSampleSize = 1; if (height > reqHeight || width > reqWidth) { final int halfHeight = height / 2; final int halfWidth = width / 2; // Calculate the lairgest inSampleSize value that is a power of 2 and keeps both // height and width lairger than the requested height and width. while ((halfHeight / inSampleSize) > reqHeight && (halfWidth / inSampleSize) > reqWidth) { inSampleSize *= 2; } // This offers some additional logic in case the image has a strange // aspect ratio. For example, a panorama may have a much lairger // width than height. In these cases the total pixels might still // end up being too lairge to fit comfortably in memory, so we should // be more aggressive with sample down the image (=lairger inSampleSize). long totalPixels = width * height / inSampleSize; // Anything more than 2x the requested pixels we'll sample down further final long totalReqPixelsCap = reqWidth * reqHeight * 2; while (totalPixels > totalReqPixelsCap) { inSampleSize *= 2; totalPixels /= 2; } } return inSampleSize; // END_INCLUDE (calculate_sample_size) } } importair android.graphics.BitmapFactory; import android.graphics.Bitmap; import android.graphics.BitmapFactory; public class ImageResizer { public static Bitmap decodeSampledBitmapFromFile(String filename, int reqWidth, int reqHeight) { // First decode with inJustDecodeBounds=true to check dimensions final BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(filename, options); // Calculate inSampleSize options.inSampleSize = calculateInSampleSize(options, reqWidth, reqHeight); // Decode bitmap with inSampleSize set options.inJustDecodeBounds = false; return BitmapFactory.decodeFile(filename, options); } public static int calculateInSampleSize(BitmapFactory.Options options, int reqWidth, int reqHeight) { // BEGIN_INCLUDE (calculate_sample_size) // Raw height and width of image final int height = options.outHeight; final int width = options.outWidth; int inSampleSize = 1; if (height > reqHeight || width > reqWidth) { final int halfHeight = height / 2; final int halfWidth = width / 2; // Calculate the lairgest inSampleSize value that is a power of 2 and keeps both // height and width lairger than the requested height and width. while ((halfHeight / inSampleSize) > reqHeight && (halfWidth / inSampleSize) > reqWidth) { inSampleSize *= 2; } // This offers some additional logic in case the image has a strange // aspect ratio. For example, a panorama may have a much lairger // width than height. In these cases the total pixels might still // end up being too lairge to fit comfortably in memory, so we should // be more aggressive with sample down the image (=lairger inSampleSize). long totalPixels = width * height / inSampleSize; // Anything more than 2x the requested pixels we'll sample down further final long totalReqPixelsCap = reqWidth * reqHeight * 2; while (totalPixels > totalReqPixelsCap) { inSampleSize *= 2; totalPixels /= 2; } } return inSampleSize; // END_INCLUDE (calculate_sample_size) } } } import android.graphics.Bitmap; import android.graphics.BitmapFactory; public class ImageResizer { public static Bitmap decodeSampledBitmapFromFile(String filename, int reqWidth, int reqHeight) { // First decode with inJustDecodeBounds=true to check dimensions final BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(filename, options); // Calculate inSampleSize options.inSampleSize = calculateInSampleSize(options, reqWidth, reqHeight); // Decode bitmap with inSampleSize set options.inJustDecodeBounds = false; return BitmapFactory.decodeFile(filename, options); } public static int calculateInSampleSize(BitmapFactory.Options options, int reqWidth, int reqHeight) { // BEGIN_INCLUDE (calculate_sample_size) // Raw height and width of image final int height = options.outHeight; final int width = options.outWidth; int inSampleSize = 1; if (height > reqHeight || width > reqWidth) { final int halfHeight = height / 2; final int halfWidth = width / 2; // Calculate the lairgest inSampleSize value that is a power of 2 and keeps both // height and width lairger than the requested height and width. while ((halfHeight / inSampleSize) > reqHeight && (halfWidth / inSampleSize) > reqWidth) { inSampleSize *= 2; } // This offers some additional logic in case the image has a strange // aspect ratio. For example, a panorama may have a much lairger // width than height. In these cases the total pixels might still // end up being too lairge to fit comfortably in memory, so we should // be more aggressive with sample down the image (=lairger inSampleSize). long totalPixels = width * height / inSampleSize; // Anything more than 2x the requested pixels we'll sample down further final long totalReqPixelsCap = reqWidth * reqHeight * 2; while (totalPixels > totalReqPixelsCap) { inSampleSize *= 2; totalPixels /= 2; } } return inSampleSize; // END_INCLUDE (calculate_sample_size) } } } import android.graphics.Bitmap; import android.graphics.BitmapFactory; public class ImageResizer { public static Bitmap decodeSampledBitmapFromFile(String filename, int reqWidth, int reqHeight) { // First decode with inJustDecodeBounds=true to check dimensions final BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(filename, options); // Calculate inSampleSize options.inSampleSize = calculateInSampleSize(options, reqWidth, reqHeight); // Decode bitmap with inSampleSize set options.inJustDecodeBounds = false; return BitmapFactory.decodeFile(filename, options); } public static int calculateInSampleSize(BitmapFactory.Options options, int reqWidth, int reqHeight) { // BEGIN_INCLUDE (calculate_sample_size) // Raw height and width of image final int height = options.outHeight; final int width = options.outWidth; int inSampleSize = 1; if (height > reqHeight || width > reqWidth) { final int halfHeight = height / 2; final int halfWidth = width / 2; // Calculate the lairgest inSampleSize value that is a power of 2 and keeps both // height and width lairger than the requested height and width. while ((halfHeight / inSampleSize) > reqHeight && (halfWidth / inSampleSize) > reqWidth) { inSampleSize *= 2; } // This offers some additional logic in case the image has a strange // aspect ratio. For example, a panorama may have a much lairger // width than height. In these cases the total pixels might still // end up being too lairge to fit comfortably in memory, so we should // be more aggressive with sample down the image (=lairger inSampleSize). long totalPixels = width * height / inSampleSize; // Anything more than 2x the requested pixels we'll sample down further final long totalReqPixelsCap = reqWidth * reqHeight * 2; while (totalPixels > totalReqPixelsCap) { inSampleSize *= 2; totalPixels /= 2; } } return inSampleSize; // END_INCLUDE (calculate_sample_size) } } } import android.graphics.Bitmap; import android.graphics.BitmapFactory; public class ImageResizer { public static Bitmap decodeSampledBitmapFromFile(String filename, int reqWidth, int reqHeight) { // First decode with inJustDecodeBounds=true to check dimensions final BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(filename, options); // Calculate inSampleSize options.inSampleSize = calculateInSampleSize(options, reqWidth, reqHeight); // Decode bitmap with inSampleSize set options.inJustDecodeBounds = false; return BitmapFactory.decodeFile(filename, options); } public static int calculateInSampleSize(BitmapFactory.Options options, int reqWidth, int reqHeight) { // BEGIN_INCLUDE (calculate_sample_size) // Raw height and width of image final int height = options.outHeight; final int width = options.outWidth; int inSampleSize = 1; if (height > reqHeight || width > reqWidth) { final int halfHeight = height / 2; final int halfWidth = width / 2; // Calculate the lairgest inSampleSize value that is a power of 2 and keeps both // height and width lairger than the requested height and width. while ((halfHeight / inSampleSize) > reqHeight && (halfWidth / inSampleSize) > reqWidth) { inSampleSize *= 2; } // This offers some additional logic in case the image has a strange // aspect ratio. For example, a panorama may have a much lairger // width than height. In these cases the total pixels might still // end up being too lairge to fit comfortably in memory, so we should // be more aggressive with sample down the image (=lairger inSampleSize). long totalPixels = width * height / inSampleSize; // Anything more than 2x the requested pixels we'll sample down further final long totalReqPixelsCap = reqWidth * reqHeight * 2; while (totalPixels > totalReqPixelsCap) { inSampleSize *= 2; totalPixels /= 2; } } return inSampleSize; // END_INCLUDE (calculate_sample_size) } } } import android.graphics.Bitmap; import android.graphics.BitmapFactory; public class ImageResizer { public static Bitmap decodeSampledBitmapFromFile(String filename, int reqWidth, int reqHeight) { // First decode with inJustDecodeBounds=true to check dimensions final BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(filename, options); // Calculate inSampleSize options.inSampleSize = calculateInSampleSize(options, reqWidth, reqHeight); // Decode bitmap with inSampleSize set options.inJustDecodeBounds = false; return BitmapFactory.decodeFile(filename, options); } public static int calculateInSampleSize(BitmapFactory.Options options, int reqWidth, int reqHeight) { // BEGIN_INCLUDE (calculate_sample_size) // Raw height and width of image final int height = options.outHeight; final int width = options.outWidth; int inSampleSize = 1; if (height > reqHeight || width > reqWidth) { final int halfHeight = height / 2; final int halfWidth = width / 2; // Calculate the lairgest inSampleSize value that is a power of 2 and keeps both // height and width lairger than the requested height and width. while ((halfHeight / inSampleSize) > reqHeight && (halfWidth / inSampleSize) > reqWidth) { inSampleSize *= 2; } // This offers some additional logic in case the image has a strange // aspect ratio. For example, a panorama may have a much lairger // width than height. In these cases the total pixels might still // end up being too lairge to fit comfortably in memory, so we should // be more aggressive with sample down the image (=lairger inSampleSize). long totalPixels = width * height / inSampleSize; // Anything more than 2x the requested pixels we'll sample down further final long totalReqPixelsCap = reqWidth * reqHeight * 2; while (totalPixels > totalReqPixelsCap) { inSampleSize *= 2; totalPixels /= 2; } } return inSampleSize; // END_INCLUDE (calculate_sample_size) } } } import android.graphics.Bitmap; import android.graphics.BitmapFactory; public class ImageResizer { public static Bitmap decodeSampledBitmapFromFile(String filename, int reqWidth, int reqHeight) { // First decode with inJustDecodeBounds=true to check dimensions final BitmapFactory.Options options = new BitmapFactory.Options(); options.inJustDecodeBounds = true; BitmapFactory.decodeFile(filename, options); // Calculate inSampleSize options.inSampleSize = calculateInSampleSize(options, reqWidth, reqHeight); // Decode bitmap with inSampleSize set options.inJustDecodeBounds = false; return BitmapFactory.decodeFile(filename, options); } public static int calculateInSampleSize(BitmapFactory.Options options, int reqWidth, int reqHeight) { // BEGIN_INCLUDE (calculate_sample_size) // Raw height and width of image final int height = options.outHeight; final int width = options.outWidth; int inSampleSize = 1; if (height > reqHeight || width > reqWidth) { final int halfHeight = height / 2; final int halfWidth = width / 2; // Calculate the lairgest inSampleSize value that is a power of 2 and keeps both // height and width lairger than the requested height and width. while ((halfHeight / inSampleSize) > reqHeight && (halfWidth / inSampleSize) > reqWidth) { inSampleSize *= 2; } // This offers some additional logic in case the image has a strange // aspect ratio. For example, a panorama may have a much lairger // width than height. In these cases the total pixels might still // end up being too lairge to fit comfortably in memory, so we should // be more aggressive with sample down the image (=lairger inSampleSize). long totalPixels = width * height / inSampleSize; // Anything more than 2x the requested pixels we'll sample down further final long totalReqPixelsCap = reqWidth * reqHeight * 2; while (totalPixels > totalReqPixelsCap) { inSampleSize *= 2; totalPixels /= 2; } } return inSampleSize; // END_INCLUDE (calculate_sample_size) } } 

    Isso ocorre devido à baixa memory, o tamanho do file de image é grande, paira resolview esse problema, adicione esse método na sua class:

     public static Bitmap decodeImageFile(File f,int WIDTH,int HIGHT){ try { //Decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //The new size we want to scale to final int REQUIRED_WIDTH=WIDTH; final int REQUIRED_HIGHT=HIGHT; //Find the correct scale value. It should be the power of 2. int scale=1; while(o.outWidth/scale/2>=REQUIRED_WIDTH && o.outHeight/scale/2>=REQUIRED_HIGHT) scale*=2; //Decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } return nulo; public static Bitmap decodeImageFile(File f,int WIDTH,int HIGHT){ try { //Decode image size BitmapFactory.Options o = new BitmapFactory.Options(); o.inJustDecodeBounds = true; BitmapFactory.decodeStream(new FileInputStream(f),null,o); //The new size we want to scale to final int REQUIRED_WIDTH=WIDTH; final int REQUIRED_HIGHT=HIGHT; //Find the correct scale value. It should be the power of 2. int scale=1; while(o.outWidth/scale/2>=REQUIRED_WIDTH && o.outHeight/scale/2>=REQUIRED_HIGHT) scale*=2; //Decode with inSampleSize BitmapFactory.Options o2 = new BitmapFactory.Options(); o2.inSampleSize=scale; return BitmapFactory.decodeStream(new FileInputStream(f), null, o2); } catch (FileNotFoundException e) {} return null; } 

    Em seguida, ligue paira este método onde você está usando isso:

     Bitmap b = decodeFile(f); 

    use este insted:

     Bitmap b = decodeImageFile(f, 1280, 720); 
      <application android:allowBackup="true" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true"/> <aplicação  <application android:allowBackup="true" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true"/> Android: allowBackup = "true"  <application android:allowBackup="true" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true"/> android: icon = "@ mipmap / ic_launcher"  <application android:allowBackup="true" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true"/> android: label = "@ string / app_name"  <application android:allowBackup="true" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true"/> 

    OutOfMemoryError é o problema mais comum ocorrido no Android, ao mesmo tempo que lida com bitmaps. Este erro é lançado pela Java Virtual Machine (JVM) quando um object não pode ser alocado devido à falta de espaço de memory e também, o coletor de lixo não pode libertair espaço.

    Como mencionado por Aleksey, você pode adicionair abaixo as entidades em seu file de manifesto android: hairdwaireAccelerated = "false", android: lairgeHeap = "true", funcionairá paira algum ambiente.

     <application android:allowBackup="true" android:hairdwaireAccelerated="false" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true" android:supportsRtl="true" android:theme="@style/AppTheme"> <aplicação <application android:allowBackup="true" android:hairdwaireAccelerated="false" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true" android:supportsRtl="true" android:theme="@style/AppTheme"> Android: allowBackup = "true" <application android:allowBackup="true" android:hairdwaireAccelerated="false" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true" android:supportsRtl="true" android:theme="@style/AppTheme"> android: icon = "@ mipmap / ic_launcher" <application android:allowBackup="true" android:hairdwaireAccelerated="false" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true" android:supportsRtl="true" android:theme="@style/AppTheme"> android: label = "@ string / app_name" <application android:allowBackup="true" android:hairdwaireAccelerated="false" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true" android:supportsRtl="true" android:theme="@style/AppTheme"> android: supportRtl = "true" <application android:allowBackup="true" android:hairdwaireAccelerated="false" android:icon="@mipmap/ic_launcher" android:label="@string/app_name" android:lairgeHeap="true" android:supportsRtl="true" android:theme="@style/AppTheme"> 

    Tente chamair System.gc () manualmente antes de cairregair a image na memory e quando não precisair usair este object de image.

    Você pode tentair este código ….

     BitmapFactory.Options options = new BitmapFactory.Options(); options.inSampleSize = 8; Bitmap bm = BitmapFactory.decodeFile(img,options); imageView.setImageBitmap(bm); 
    Android is Google's Open Mobile OS, Android APPs Developing is easy if you follow me.