我花了一整天的时间来测试这些解决方案，唯一对我有用的是上面的获取图像和手动调用GC的方法，我知道这是不必要的，但当我把应用程序置于繁重的负载测试下时，这是唯一有效的方法。我的应用程序有一个缩略图列表在列表视图(让说活动a)，当你点击其中一个图像，它带你到另一个活动(让说活动B)，显示该项目的主图像。当我在两个活动之间来回切换时，我最终会得到OOM错误，应用程序将强制关闭。

当我走到列表视图一半的时候它就崩溃了。

现在，当我在活动B中实现以下内容时，我可以毫无问题地遍历整个列表视图，并继续下去……而且速度很快。

@Override
public void onDestroy()
{   
    Cleanup();
    super.onDestroy();
}

private void Cleanup()
{    
    bitmap.recycle();
    System.gc();
    Runtime.getRuntime().gc();  
}

我有iOS经验，我很沮丧地发现加载和显示图像这样基本的问题。毕竟，每个人都有这个问题，试图显示合理大小的图像。不管怎样，这里有两个改变解决了我的问题(并使我的应用程序非常灵敏)。

1)每次执行BitmapFactory. decodexyz()时，确保传入一个BitmapFactory。选项inPurgeable设置为true(最好inInputShareable也设置为true)。

2)绝对不要使用位图。createBitmap(width, height, Config.ARGB_8888)。我的意思是绝不!我从来没有过这个东西在几次传递后不产生内存错误。没有多少recycle()， System.gc()，任何有用的东西。它总是抛出异常。另一种实际工作的方法是在你的绘图中有一个虚拟图像(或另一个你使用上述步骤1解码的位图)，将其重新缩放为你想要的任何东西，然后操纵结果位图(例如将它传递到画布上以获得更多乐趣)。所以，你应该使用的是:位图。createScaledBitmap(srcBitmap, width, height, false)。如果出于某种原因你必须使用暴力创建方法，那么至少要传递Config.ARGB_4444。

这几乎可以保证节省你几个小时，如果不是几天。所有关于缩放图像等的讨论都是行不通的(除非你认为得到错误的大小或降级的图像是一个解决方案)。

避免内存泄漏或位图OOM的最佳实践

不要为一个Context / Activity保留长时间的位图引用。 如果你在你的应用程序中使用一个大的位图作为背景或其他东西，那么不要把完整的图像拉到主存中。您可以使用位图的insample size属性来获取屏幕所需的大小。 清洁位图引用一旦不再使用。

要修复OutOfMemory错误，你应该这样做:

BitmapFactory.Options options = new BitmapFactory.Options();
options.inSampleSize = 8;
Bitmap preview_bitmap = BitmapFactory.decodeStream(is, null, options);

这个inSampleSize选项可以减少内存消耗。

这是一个完整的方法。首先，它读取图像大小而不解码内容本身。然后它找到最佳的inSampleSize值，它应该是2的幂，最后图像被解码。

// 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);

        // The new size we want to scale to
        final int REQUIRED_SIZE=70;

        // Find the correct scale value. It should be the power of 2.
        int scale = 1;
        while(o.outWidth / scale / 2 >= REQUIRED_SIZE && 
              o.outHeight / scale / 2 >= REQUIRED_SIZE) {
            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;
}

我使用解码文件描述符，它为我工作:

 FileInputStream  fileInputStream = null;
        try {
            fileInputStream  = new FileInputStream(file);
             FileDescriptor fd = fileInputStream.getFD();
            Bitmap imageBitmap = decodeSampledBitmapFromDescriptor(fd , 612,
                    816);
            imageView.setImageBitmap(imageBitmap);
        } catch (Exception e) {
            e.printStackTrace();
        }finally {
            if(fileInputStream != null){
                try {
                    fileInputStream.close();
                } catch (IOException e) {
                    e.printStackTrace();
                }
            }
        }

从文件描述符解码采样位图的代码:

 /**
     * Decode and sample down a bitmap from a file input stream to the requested width and height.
     *
     * @param fileDescriptor The file descriptor to read from
     * @param reqWidth       The requested width of the resulting bitmap
     * @param reqHeight      The requested height of the resulting bitmap
     * @return A bitmap sampled down from the original with the same aspect ratio and dimensions
     * that are equal to or greater than the requested width and height
     */
    public static Bitmap decodeSampledBitmapFromDescriptor(
            FileDescriptor fileDescriptor, int reqWidth, int reqHeight) {

        // First decode with inJustDecodeBounds=true to check dimensions
        final BitmapFactory.Options options = new BitmapFactory.Options();
        options.inJustDecodeBounds = true;
        BitmapFactory.decodeFileDescriptor(fileDescriptor, null, options);

        // Calculate inSampleSize
        options.inSampleSize = calculateInSampleSize(options, reqWidth, reqHeight);

        // Decode bitmap with inSampleSize set
        options.inJustDecodeBounds = false;
        return BitmapFactory.decodeFileDescriptor(fileDescriptor, null, options);
    }

    /**
     * Calculate an inSampleSize for use in a {@link android.graphics.BitmapFactory.Options} object when decoding
     * bitmaps using the decode* methods from {@link android.graphics.BitmapFactory}. This implementation calculates
     * the closest inSampleSize that will result in the final decoded bitmap having a width and
     * height equal to or larger than the requested width and height. This implementation does not
     * ensure a power of 2 is returned for inSampleSize which can be faster when decoding but
     * results in a larger bitmap which isn't as useful for caching purposes.
     *
     * @param options   An options object with out* params already populated (run through a decode*
     *                  method with inJustDecodeBounds==true
     * @param reqWidth  The requested width of the resulting bitmap
     * @param reqHeight The requested height of the resulting bitmap
     * @return The value to be used for inSampleSize
     */
    public static int calculateInSampleSize(BitmapFactory.Options options,
                                            int reqWidth, int reqHeight) {
        // Raw height and width of image
        final int height = options.outHeight;
        final int width = options.outWidth;
        int inSampleSize = 1;

        if (height > reqHeight || width > reqWidth) {

            // Calculate ratios of height and width to requested height and width
            final int heightRatio = Math.round((float) height / (float) reqHeight);
            final int widthRatio = Math.round((float) width / (float) reqWidth);

            // Choose the smallest ratio as inSampleSize value, this will guarantee a final image
            // with both dimensions larger than or equal to the requested height and width.
            inSampleSize = heightRatio < widthRatio ? heightRatio : widthRatio;

            // This offers some additional logic in case the image has a strange
            // aspect ratio. For example, a panorama may have a much larger
            // width than height. In these cases the total pixels might still
            // end up being too large to fit comfortably in memory, so we should
            // be more aggressive with sample down the image (=larger inSampleSize).

            final float totalPixels = width * height;

            // Anything more than 2x the requested pixels we'll sample down further
            final float totalReqPixelsCap = reqWidth * reqHeight * 2;

            while (totalPixels / (inSampleSize * inSampleSize) > totalReqPixelsCap) {
                inSampleSize++;
            }
        }
        return inSampleSize;
    }

如果你像我一样懒，你可以开始使用毕加索库加载图像。

Picasso.with(context).load(R.drawable.landing_screen).into(imageView1);
Picasso.with(context).load("file:///android_asset/DvpvklR.png").into(imageView2);
Picasso.with(context).load(new File(...)).into(imageView3);