注意:在大多数情况下,我们建议您使用 Glide 库提取、解码和显示应用中的位图。在处理这些任务以及与位图和 Android 上的其他图片相关的其他任务时,Glide 会将大部分的复杂工作抽象出来。如需了解如何使用和下载 Glide,请访问 GitHub 上的 Glilt 代码库。
除了缓存位图中介绍的步骤外,您可以采取一些具体措施来促进垃圾回收和位图重复使用。建议的策略取决于您的目标 Android 版本。本节课中附带的 BitmapFun 示例应用向您展示了如何通过设计让您的应用可在不同的 Android 版本上高效运行。
为给本节课奠定基础,下面介绍了 Android 位图内存管理的演变过程:
- 在 Android 2.2(API 级别 8)及更低版本上,当发生垃圾回收时,应用的线程会停止。这会导致延迟,从而降低性能。Android 2.3 添加了并发垃圾回收功能,这意味着系统不再引用位图后,很快就会回收内存。
- 在 Android 2.3.3(API 级别 10)及更低版本上,位图的后备像素数据存储在本地内存中。它与存储在 Dalvik 堆中的位图本身是分开的。本地内存中的像素数据并不以可预测的方式释放,可能会导致应用短暂超出其内存限制并崩溃。从 Android 3.0(API 级别 11)到 Android 7.1(API 级别 25),像素数据会与关联的位图一起存储在 Dalvik 堆上。在 Android 8.0(API 级别 26)及更高版本中,位图像素数据存储在原生堆中。
以下各部分介绍了如何针对不同 Android 版本优化位图内存管理。
在 Android 2.3.3 及更低版本上管理内存
在 Android 2.3.3(API 级别 10)及更低版本上,建议使用 recycle()。如果您在应用中显示大量位图数据,则可能会遇到 OutOfMemoryError 错误。利用 recycle() 方法,应用可以尽快回收内存。
注意:只有当您确定位图已不再使用时才应该使用 recycle()。如果您调用 recycle() 并在稍后尝试绘制位图,则会收到错误:"Canvas: trying to use a recycled bitmap"。
以下代码段给出了调用 recycle() 的示例。它使用引用计数(在变量 mDisplayRefCount 和 mCacheRefCount 中)来跟踪位图当前是在显示还是在缓存中。当满足以下条件时,代码便会回收位图:
mDisplayRefCount和mCacheRefCount的引用计数均为 0。- 位图不是
null,并且尚未被回收。
Kotlin
private var cacheRefCount: Int = 0 private var displayRefCount: Int = 0 ... // Notify the drawable that the displayed state has changed. // Keep a count to determine when the drawable is no longer displayed. fun setIsDisplayed(isDisplayed: Boolean) { synchronized(this) { if (isDisplayed) { displayRefCount++ hasBeenDisplayed = true } else { displayRefCount-- } } // Check to see if recycle() can be called. checkState() } // Notify the drawable that the cache state has changed. // Keep a count to determine when the drawable is no longer being cached. fun setIsCached(isCached: Boolean) { synchronized(this) { if (isCached) { cacheRefCount++ } else { cacheRefCount-- } } // Check to see if recycle() can be called. checkState() } @Synchronized private fun checkState() { // If the drawable cache and display ref counts = 0, and this drawable // has been displayed, then recycle. if (cacheRefCount <= 0 && displayRefCount <= 0 && hasBeenDisplayed && hasValidBitmap() ) { getBitmap()?.recycle() } } @Synchronized private fun hasValidBitmap(): Boolean = getBitmap()?.run { !isRecycled } ?: false
Java
private int cacheRefCount = 0; private int displayRefCount = 0; ... // Notify the drawable that the displayed state has changed. // Keep a count to determine when the drawable is no longer displayed. public void setIsDisplayed(boolean isDisplayed) { synchronized (this) { if (isDisplayed) { displayRefCount++; hasBeenDisplayed = true; } else { displayRefCount--; } } // Check to see if recycle() can be called. checkState(); } // Notify the drawable that the cache state has changed. // Keep a count to determine when the drawable is no longer being cached. public void setIsCached(boolean isCached) { synchronized (this) { if (isCached) { cacheRefCount++; } else { cacheRefCount--; } } // Check to see if recycle() can be called. checkState(); } private synchronized void checkState() { // If the drawable cache and display ref counts = 0, and this drawable // has been displayed, then recycle. if (cacheRefCount <= 0 && displayRefCount <= 0 && hasBeenDisplayed && hasValidBitmap()) { getBitmap().recycle(); } } private synchronized boolean hasValidBitmap() { Bitmap bitmap = getBitmap(); return bitmap != null && !bitmap.isRecycled(); }
在 Android 3.0 及更高版本上管理内存
Android 3.0(API 级别 11)引入了 BitmapFactory.Options.inBitmap 字段。如果设置了此选项,那么采用 Options 对象的解码方法会在加载内容时尝试重复使用现有位图。这意味着位图的内存得到了重复使用,从而提高了性能,同时避免了内存分配和取消分配。不过,inBitmap 的使用方式存在某些限制。特别是在 Android 4.4(API 级别 19)之前,系统仅支持大小相同的位图。如需了解详情,请参阅 inBitmap 文档。
保存位图供稍后使用
以下代码段演示了如何存储现有位图,以供稍后在示例应用中使用。当应用在 Android 3.0 或更高版本上运行并且位图从 LruCache 删除时,对位图的软引用会放置在 HashSet 中,以供稍后通过 inBitmap 重复使用:
Kotlin
var reusableBitmaps: MutableSet<SoftReference<Bitmap>>? = null private lateinit var memoryCache: LruCache<String, BitmapDrawable> // If you're running on Honeycomb or newer, create a // synchronized HashSet of references to reusable bitmaps. if (Utils.hasHoneycomb()) { reusableBitmaps = Collections.synchronizedSet(HashSet<SoftReference<Bitmap>>()) } memoryCache = object : LruCache<String, BitmapDrawable>(cacheParams.memCacheSize) { // Notify the removed entry that is no longer being cached. override fun entryRemoved( evicted: Boolean, key: String, oldValue: BitmapDrawable, newValue: BitmapDrawable ) { if (oldValue is RecyclingBitmapDrawable) { // The removed entry is a recycling drawable, so notify it // that it has been removed from the memory cache. oldValue.setIsCached(false) } else { // The removed entry is a standard BitmapDrawable. if (Utils.hasHoneycomb()) { // We're running on Honeycomb or later, so add the bitmap // to a SoftReference set for possible use with inBitmap later. reusableBitmaps?.add(SoftReference(oldValue.bitmap)) } } } }
Java
Set<SoftReference<Bitmap>> reusableBitmaps; private LruCache<String, BitmapDrawable> memoryCache; // If you're running on Honeycomb or newer, create a // synchronized HashSet of references to reusable bitmaps. if (Utils.hasHoneycomb()) { reusableBitmaps = Collections.synchronizedSet(new HashSet<SoftReference<Bitmap>>()); } memoryCache = new LruCache<String, BitmapDrawable>(cacheParams.memCacheSize) { // Notify the removed entry that is no longer being cached. @Override protected void entryRemoved(boolean evicted, String key, BitmapDrawable oldValue, BitmapDrawable newValue) { if (RecyclingBitmapDrawable.class.isInstance(oldValue)) { // The removed entry is a recycling drawable, so notify it // that it has been removed from the memory cache. ((RecyclingBitmapDrawable) oldValue).setIsCached(false); } else { // The removed entry is a standard BitmapDrawable. if (Utils.hasHoneycomb()) { // We're running on Honeycomb or later, so add the bitmap // to a SoftReference set for possible use with inBitmap later. reusableBitmaps.add (new SoftReference<Bitmap>(oldValue.getBitmap())); } } } .... }
使用现有位图
在正在运行的应用中,解码器方法会检查是否存在可以使用的现有位图。例如:
Kotlin
fun decodeSampledBitmapFromFile( filename: String, reqWidth: Int, reqHeight: Int, cache: ImageCache ): Bitmap { val options: BitmapFactory.Options = BitmapFactory.Options() ... BitmapFactory.decodeFile(filename, options) ... // If we're running on Honeycomb or newer, try to use inBitmap. if (Utils.hasHoneycomb()) { addInBitmapOptions(options, cache) } ... return BitmapFactory.decodeFile(filename, options) }
Java
public static Bitmap decodeSampledBitmapFromFile(String filename, int reqWidth, int reqHeight, ImageCache cache) { final BitmapFactory.Options options = new BitmapFactory.Options(); ... BitmapFactory.decodeFile(filename, options); ... // If we're running on Honeycomb or newer, try to use inBitmap. if (Utils.hasHoneycomb()) { addInBitmapOptions(options, cache); } ... return BitmapFactory.decodeFile(filename, options); }
下一个代码段展示了在上述代码段中调用的 addInBitmapOptions() 方法。它会查找现有的位图以设为 inBitmap 的值。请注意,只有找到合适的匹配项,此方法才会为 inBitmap 设置一个值(您的代码绝不应假定会找到匹配项):
Kotlin
private fun addInBitmapOptions(options: BitmapFactory.Options, cache: ImageCache?) { // inBitmap only works with mutable bitmaps, so force the decoder to // return mutable bitmaps. options.inMutable = true // Try to find a bitmap to use for inBitmap. cache?.getBitmapFromReusableSet(options)?.also { inBitmap -> // If a suitable bitmap has been found, set it as the value of // inBitmap. options.inBitmap = inBitmap } } // This method iterates through the reusable bitmaps, looking for one // to use for inBitmap: fun getBitmapFromReusableSet(options: BitmapFactory.Options): Bitmap? { mReusableBitmaps?.takeIf { it.isNotEmpty() }?.let { reusableBitmaps -> synchronized(reusableBitmaps) { val iterator: MutableIterator<SoftReference<Bitmap>> = reusableBitmaps.iterator() while (iterator.hasNext()) { iterator.next().get()?.let { item -> if (item.isMutable) { // Check to see it the item can be used for inBitmap. if (canUseForInBitmap(item, options)) { // Remove from reusable set so it can't be used again. iterator.remove() return item } } else { // Remove from the set if the reference has been cleared. iterator.remove() } } } } } return null }
Java
private static void addInBitmapOptions(BitmapFactory.Options options, ImageCache cache) { // inBitmap only works with mutable bitmaps, so force the decoder to // return mutable bitmaps. options.inMutable = true; if (cache != null) { // Try to find a bitmap to use for inBitmap. Bitmap inBitmap = cache.getBitmapFromReusableSet(options); if (inBitmap != null) { // If a suitable bitmap has been found, set it as the value of // inBitmap. options.inBitmap = inBitmap; } } } // This method iterates through the reusable bitmaps, looking for one // to use for inBitmap: protected Bitmap getBitmapFromReusableSet(BitmapFactory.Options options) { Bitmap bitmap = null; if (reusableBitmaps != null && !reusableBitmaps.isEmpty()) { synchronized (reusableBitmaps) { final Iterator<SoftReference<Bitmap>> iterator = reusableBitmaps.iterator(); Bitmap item; while (iterator.hasNext()) { item = iterator.next().get(); if (null != item && item.isMutable()) { // Check to see it the item can be used for inBitmap. if (canUseForInBitmap(item, options)) { bitmap = item; // Remove from reusable set so it can't be used again. iterator.remove(); break; } } else { // Remove from the set if the reference has been cleared. iterator.remove(); } } } } return bitmap; }
最后,此方法会确定要用于 inBitmap 的候选位图是否满足相应的大小条件:
Kotlin
private fun canUseForInBitmap(candidate: Bitmap, targetOptions: BitmapFactory.Options): Boolean { return if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.KITKAT) { // From Android 4.4 (KitKat) onward we can re-use if the byte size of // the new bitmap is smaller than the reusable bitmap candidate // allocation byte count. val width = ceil((targetOptions.outWidth * 1.0f / targetOptions.inSampleSize).toDouble()).toInt() val height = ceil((targetOptions.outHeight * 1.0f / targetOptions.inSampleSize).toDouble()).toInt() val byteCount: Int = width * height * getBytesPerPixel(candidate.config) byteCount <= candidate.allocationByteCount } else { // On earlier versions, the dimensions must match exactly and the inSampleSize must be 1 candidate.width == targetOptions.outWidth && candidate.height == targetOptions.outHeight && targetOptions.inSampleSize == 1 } } /** * A helper function to return the byte usage per pixel of a bitmap based on its configuration. */ private fun getBytesPerPixel(config: Bitmap.Config): Int { return when (config) { Bitmap.Config.ARGB_8888 -> 4 Bitmap.Config.RGB_565, Bitmap.Config.ARGB_4444 -> 2 Bitmap.Config.ALPHA_8 -> 1 else -> 1 } }
Java
static boolean canUseForInBitmap( Bitmap candidate, BitmapFactory.Options targetOptions) { if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.KITKAT) { // From Android 4.4 (KitKat) onward we can re-use if the byte size of // the new bitmap is smaller than the reusable bitmap candidate // allocation byte count. int width = (int) Math.ceil(targetOptions.outWidth * 1.0f / targetOptions.inSampleSize); int height = (int) Math.ceil(targetOptions.outHeight * 1.0f / targetOptions.inSampleSize); int byteCount = width * height * getBytesPerPixel(candidate.getConfig()); return byteCount <= candidate.getAllocationByteCount(); } // On earlier versions, the dimensions must match exactly and the inSampleSize must be 1 return candidate.getWidth() == targetOptions.outWidth && candidate.getHeight() == targetOptions.outHeight && targetOptions.inSampleSize == 1; } /** * A helper function to return the byte usage per pixel of a bitmap based on its configuration. */ static int getBytesPerPixel(Config config) { if (config == Config.ARGB_8888) { return 4; } else if (config == Config.RGB_565) { return 2; } else if (config == Config.ARGB_4444) { return 2; } else if (config == Config.ALPHA_8) { return 1; } return 1; }