上一篇博文中讲了with,load的过程,因为大部分都是初始话,所以总的来讲还是比较好理解的,这篇博文讲的是into的过程,这个过程就会用到前两个步初始话的对象,这一步也是Glide的核心、难点所在,本文较长如果能耐心读下去,应该会有相应的收获的。
如果你发现本文中有任何错误,请在评论区留言或者私信我,我会第一时间改正,谢谢!
into
Glide.with(MainActivity.this).load(s).into(imageView);
传入的一般都是ImageView,进入到into源码中看一下
//DrawableRequestBuilder.java
public Target<GlideDrawable> into(ImageView view) {
return super.into(view);
}
//GenericRequestBuilder.java
public Target<TranscodeType> into(ImageView view) {
Util.assertMainThread();
if (view == null) {
throw new IllegalArgumentException("You must pass in a non null View");
}
if (!isTransformationSet && view.getScaleType() != null) {
switch (view.getScaleType()) {
case CENTER_CROP:
applyCenterCrop();
break;
case FIT_CENTER:
case FIT_START:
case FIT_END:
applyFitCenter();
break;
//$CASES-OMITTED$
default:
// Do nothing.
}
}
return into(glide.buildImageViewTarget(view, transcodeClass));
}
首先,这里先获取了ScaleType,并做了相应的处理,然后执行了glide.buildImageViewTarget(view, transcodeClass)这个方法,跟进看一下,最后执行了这个方法
public <Z> Target<Z> buildTarget(ImageView view, Class<Z> clazz) {
if (GlideDrawable.class.isAssignableFrom(clazz)) {
return (Target<Z>) new GlideDrawableImageViewTarget(view);
} else if (Bitmap.class.equals(clazz)) {
return (Target<Z>) new BitmapImageViewTarget(view);
} else if (Drawable.class.isAssignableFrom(clazz)) {
return (Target<Z>) new DrawableImageViewTarget(view);
} else {
throw new IllegalArgumentException("Unhandled class: " + clazz
+ ", try .as*(Class).transcode(ResourceTranscoder)");
}
}
而我们传入的参数一个是ImageView,另外一个是在load中的loadGeneric()方法生成的 GlideDrawable.class,那么这里返回的是GlideDrawableImageViewTarget对象,这个类进去看一下,发现这个类有对ImageView的setImageDrawable操作,所以盲猜一手最后会调用这个类设置图片资源。
继续回去看into方法集体干了什么
public <Y extends Target<TranscodeType>> Y into(Y target) {
Util.assertMainThread();
if (target == null) {
throw new IllegalArgumentException("You must pass in a non null Target");
}
if (!isModelSet) {
throw new IllegalArgumentException("You must first set a model (try #load())");
}
//获取这个target之前的request
Request previous = target.getRequest();
//如果有的话 就进行清理
if (previous != null) {
previous.clear();
requestTracker.removeRequest(previous);
previous.recycle();
}
//创建本次的request
Request request = buildRequest(target);//进去看一下
target.setRequest(request);
lifecycle.addListener(target);
requestTracker.runRequest(request);
return target;
}
具体操作加了注释了,关注一下buildrequest方法
private Request buildRequestRecursive(Target<TranscodeType> target, ThumbnailRequestCoordinator parentCoordinator) {
if (thumbnailRequestBuilder != null) {
if (isThumbnailBuilt) {
throw new IllegalStateException("You cannot use a request as both the main request and a thumbnail, "
+ "consider using clone() on the request(s) passed to thumbnail()");
}
// Recursive case: contains a potentially recursive thumbnail request builder.
if (thumbnailRequestBuilder.animationFactory.equals(NoAnimation.getFactory())) {
thumbnailRequestBuilder.animationFactory = animationFactory;
}
if (thumbnailRequestBuilder.priority == null) {
thumbnailRequestBuilder.priority = getThumbnailPriority();
}
if (Util.isValidDimensions(overrideWidth, overrideHeight)
&& !Util.isValidDimensions(thumbnailRequestBuilder.overrideWidth,
thumbnailRequestBuilder.overrideHeight)) {
thumbnailRequestBuilder.override(overrideWidth, overrideHeight);
}
ThumbnailRequestCoordinator coordinator = new ThumbnailRequestCoordinator(parentCoordinator);
Request fullRequest = obtainRequest(target, sizeMultiplier, priority, coordinator);
// Guard against infinite recursion.
isThumbnailBuilt = true;
// Recursively generate thumbnail requests.
Request thumbRequest = thumbnailRequestBuilder.buildRequestRecursive(target, coordinator);
isThumbnailBuilt = false;
coordinator.setRequests(fullRequest, thumbRequest);
return coordinator;
} else if (thumbSizeMultiplier != null) {
// Base case: thumbnail multiplier generates a thumbnail request, but cannot recurse.
ThumbnailRequestCoordinator coordinator = new ThumbnailRequestCoordinator(parentCoordinator);
Request fullRequest = obtainRequest(target, sizeMultiplier, priority, coordinator);
Request thumbnailRequest = obtainRequest(target, thumbSizeMultiplier, getThumbnailPriority(), coordinator);
coordinator.setRequests(fullRequest, thumbnailRequest);
return coordinator;
} else {
//最后进入这里,也可以看到基本上都会调用这个方法
// Base case: no thumbnail.
return obtainRequest(target, sizeMultiplier, priority, parentCoordinator);
//生成一个GenericRequest对象返回
}
}
private Request obtainRequest(Target<TranscodeType> target, float sizeMultiplier, Priority priority,
RequestCoordinator requestCoordinator) {
return GenericRequest.obtain(
loadProvider,
model,
signature,
context,
priority,
target,
sizeMultiplier,
placeholderDrawable,
placeholderId,
errorPlaceholder,
errorId,
fallbackDrawable,
fallbackResource,
requestListener,
requestCoordinator,
glide.getEngine(),
transformation,
transcodeClass,
isCacheable,
animationFactory,
overrideWidth,
overrideHeight,
diskCacheStrategy);
}
可以看到最后创建了一个GenericRequest,返回到之前的into方法,看创建完request之后有干了什么
//创建本次的request
Request request = buildRequest(target);//进去看一下
target.setRequest(request);
lifecycle.addListener(target);
requestTracker.runRequest(request);
return target;
requestTracker看做是一个管理request集合的类,看一下具体的方法
//RequestTracker.java
public void runRequest(Request request) {
requests.add(request);
if (!isPaused) {
//执行request
request.begin();
} else {
pendingRequests.add(request);
}
}
看一下具体的begin方法执行了什么
//GenericRequest.java
/**
* {@inheritDoc}
*/
@Override
public void begin() {
startTime = LogTime.getLogTime();
if (model == null) {
onException(null);
return;
}
status = Status.WAITING_FOR_SIZE;
//测量长宽最终都会走到 onSizeReady方法
if (Util.isValidDimensions(overrideWidth, overrideHeight)) {
onSizeReady(overrideWidth, overrideHeight);
} else {
target.getSize(this);
}
if (!isComplete() && !isFailed() && canNotifyStatusChanged()) {
//设置占位符(图片没有加载成功时 加载中的那张图片)
target.onLoadStarted(getPlaceholderDrawable());
}
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logV("finished run method in " + LogTime.getElapsedMillis(startTime));
}
}
可以看到这里设置了占位图片,同时也测量了宽高,并回调了onSizeReady方法。
@Override
public void onSizeReady(int width, int height) {
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logV("Got onSizeReady in " + LogTime.getElapsedMillis(startTime));
}
if (status != Status.WAITING_FOR_SIZE) {
return;
}
status = Status.RUNNING;
width = Math.round(sizeMultiplier * width);
height = Math.round(sizeMultiplier * height);
//关键
ModelLoader<A, T> modelLoader = loadProvider.getModelLoader();
final DataFetcher<T> dataFetcher = modelLoader.getResourceFetcher(model, width, height);
if (dataFetcher == null) {
onException(new Exception("Failed to load model: \'" + model + "\'"));
return;
}
ResourceTranscoder<Z, R> transcoder = loadProvider.getTranscoder();
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logV("finished setup for calling load in " + LogTime.getElapsedMillis(startTime));
}
loadedFromMemoryCache = true;
//通过engine来load图片,我们需要关注的是这个方法及上面的传值
loadStatus = engine.load(signature, width, height, dataFetcher, loadProvider, transformation, transcoder,
priority, isMemoryCacheable, diskCacheStrategy, this);
loadedFromMemoryCache = resource != null;
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logV("finished onSizeReady in " + LogTime.getElapsedMillis(startTime));
}
}
到这里,难点就来了,首先先要了解他这里的几个参数具体是什么。
第一个 loadProvider
DrawableTypeRequest.java
private static <A, Z, R> FixedLoadProvider<A, ImageVideoWrapper, Z, R> buildProvider(Glide glide,
ModelLoader<A, InputStream> streamModelLoader,
ModelLoader<A, ParcelFileDescriptor> fileDescriptorModelLoader, Class<Z> resourceClass,
Class<R> transcodedClass,
ResourceTranscoder<Z, R> transcoder) {
if (streamModelLoader == null && fileDescriptorModelLoader == null) {
return null;
}
if (transcoder == null) {
transcoder = glide.buildTranscoder(resourceClass, transcodedClass);
}
DataLoadProvider<ImageVideoWrapper, Z> dataLoadProvider = glide.buildDataProvider(ImageVideoWrapper.class,
resourceClass);
ImageVideoModelLoader<A> modelLoader = new ImageVideoModelLoader<A>(streamModelLoader,
fileDescriptorModelLoader);
return new FixedLoadProvider<A, ImageVideoWrapper, Z, R>(modelLoader, transcoder, dataLoadProvider);
}
就是我们在load最后生成的FixedLoadProvider。那么
ModelLoader<A, T> modelLoader = loadProvider.getModelLoader() 获取到的ModelLoader为ImageVideoModelLoader
DataFetcher dataFetcher = modelLoader.getResourceFetcher(model, width, height); dataFetcher是ImageVideoFetcher
接下来就是主菜load过程了
//Engine.java
public <T, Z, R> LoadStatus load(Key signature, int width, int height, DataFetcher<T> fetcher,
DataLoadProvider<T, Z> loadProvider, Transformation<Z> transformation, ResourceTranscoder<Z, R> transcoder,
Priority priority, boolean isMemoryCacheable, DiskCacheStrategy diskCacheStrategy, ResourceCallback cb) {
Util.assertMainThread();
long startTime = LogTime.getLogTime();
final String id = fetcher.getId();
//根据长宽等条件生成一个key
EngineKey key = keyFactory.buildKey(id, signature, width, height, loadProvider.getCacheDecoder(),
loadProvider.getSourceDecoder(), transformation, loadProvider.getEncoder(),
transcoder, loadProvider.getSourceEncoder());
//根据上面生成的key向缓存中读取资源
EngineResource<?> cached = loadFromCache(key, isMemoryCacheable);
if (cached != null) {
cb.onResourceReady(cached);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Loaded resource from cache", startTime, key);
}
return null;
}
EngineResource<?> active = loadFromActiveResources(key, isMemoryCacheable);
if (active != null) {
cb.onResourceReady(active);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Loaded resource from active resources", startTime, key);
}
return null;
}
EngineJob current = jobs.get(key);
if (current != null) {
current.addCallback(cb);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Added to existing load", startTime, key);
}
return new LoadStatus(cb, current);
}
EngineJob engineJob = engineJobFactory.build(key, isMemoryCacheable);
DecodeJob<T, Z, R> decodeJob = new DecodeJob<T, Z, R>(key, width, height, fetcher, loadProvider, transformation,
transcoder, diskCacheProvider, diskCacheStrategy, priority);
EngineRunnable runnable = new EngineRunnable(engineJob, decodeJob, priority);
jobs.put(key, engineJob);
engineJob.addCallback(cb);
engineJob.start(runnable);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Started new load", startTime, key);
}
return new LoadStatus(cb, engineJob);
}
这个方法很长,一步步看,首先看一下获取缓存的方法
EngineResource<?> cached = loadFromCache(key, isMemoryCacheable);
private EngineResource<?> loadFromCache(Key key, boolean isMemoryCacheable) {
if (!isMemoryCacheable) {
return null;
}
EngineResource<?> cached = getEngineResourceFromCache(key);
if (cached != null) {
cached.acquire();
activeResources.put(key, new ResourceWeakReference(key, cached, getReferenceQueue()));
}
return cached;
}
@SuppressWarnings("unchecked")
private EngineResource<?> getEngineResourceFromCache(Key key) {
Resource<?> cached = cache.remove(key);
final EngineResource result;
if (cached == null) {
result = null;
} else if (cached instanceof EngineResource) {
// Save an object allocation if we've cached an EngineResource (the typical case).
result = (EngineResource) cached;
} else {
result = new EngineResource(cached, true /*isCacheable*/);
}
return result;
}
根据这一串代码和下面的注释可以推断出是从内存中直接获取出来的,通过追踪我们可以了解到这个是从LruResourceCache中获取出来的,看一下LruResourceCache的构造
public class LruResourceCache extends LruCache<Key, Resource<?>> implements MemoryCache {
private ResourceRemovedListener listener;
......
这里就不先展开了讲了,先知道有缓存这个东西,重点走一遍完整的网络请求流程。再重新回到load方法
//看看有没有这个key正在执行的方法,有的话就不new了,直接更新新的监听
EngineJob current = jobs.get(key);
if (current != null) {
current.addCallback(cb);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Added to existing load", startTime, key);
}
return new LoadStatus(cb, current);
}
//通过engineJobFactory根据key新建一个engineJob
EngineJob engineJob = engineJobFactory.build(key, isMemoryCacheable);
DecodeJob<T, Z, R> decodeJob = new DecodeJob<T, Z, R>(key, width, height, fetcher, loadProvider, transformation,
transcoder, diskCacheProvider, diskCacheStrategy, priority);
//创建一个EngineRunnable,这个是实现图片加载主要的类
EngineRunnable runnable = new EngineRunnable(engineJob, decodeJob, priority);
//放到正在请求的队列中
jobs.put(key, engineJob);
engineJob.addCallback(cb);
//启动EngineRunnable线程
engineJob.start(runnable);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Started new load", startTime, key);
}
return new LoadStatus(cb, engineJob);
可以看到这里又建了几个类,我们拿出来看看
EngineJob:执行获取图片的类,相当于小包工头
EngineRunnable:执行从内存,网络中获取图片的类,相当于小包工头(EngineJob)下面的建筑工人组长
DecodeJob:真正执行内存,网络中获取图片工作的类,相当于上面两个管理下的工人
先看一下engineJob.start的实现
private final ExecutorService diskCacheService;
public void start(EngineRunnable engineRunnable) {
this.engineRunnable = engineRunnable;
future = diskCacheService.submit(engineRunnable);
}
先用diskCacheService执行了这个方法,diskCacheService这个对象根据名字可以看出是专门用来执行硬盘缓存的线程池,那么接下来看一下EngineRunnable的方法
//EngineRunnable.java
@Override
public void run() {
if (isCancelled) {
return;
}
Exception exception = null;
Resource<?> resource = null;
try {
resource = decode();
} catch (Exception e) {
if (Log.isLoggable(TAG, Log.VERBOSE)) {
Log.v(TAG, "Exception decoding", e);
}
exception = e;
}
if (isCancelled) {
if (resource != null) {
resource.recycle();
}
return;
}
if (resource == null) {
onLoadFailed(exception);
} else {
onLoadComplete(resource);
}
}
这个方法看上去就很清晰了,通过 decode()方法获取到资源,最后通过onLoadFailed,onLoadComplete来返回结果,需要看一下decode方法
private Resource<?> decode() throws Exception {
//不设置的话这个判断第一次是会放回true
if (isDecodingFromCache()) {
return decodeFromCache();
} else {
return decodeFromSource();
}
}
//这个方法主要是用来判断当前执行的是不是从cache中获取,第一次进来的时候默认都是从cache中获取
private boolean isDecodingFromCache() {
return stage == Stage.CACHE;
}
接下来看一下decodeFromCache方法
private Resource<?> decodeFromCache() throws Exception {
Resource<?> result = null;
try {
result = decodeJob.decodeResultFromCache();
} catch (Exception e) {
if (Log.isLoggable(TAG, Log.DEBUG)) {
Log.d(TAG, "Exception decoding result from cache: " + e);
}
}
if (result == null) {
result = decodeJob.decodeSourceFromCache();
}
return result;
}
//decodeJob.java
/**
* Returns a transcoded resource decoded from transformed resource data in the disk cache, or null if no such
* resource exists.
*
* @throws Exception
*/
public Resource<Z> decodeResultFromCache() throws Exception {
if (!diskCacheStrategy.cacheResult()) {
return null;
}
long startTime = LogTime.getLogTime();
Resource<T> transformed = loadFromCache(resultKey);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Decoded transformed from cache", startTime);
}
startTime = LogTime.getLogTime();
Resource<Z> result = transcode(transformed);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Transcoded transformed from cache", startTime);
}
return result;
}
private Resource<T> loadFromCache(Key key) throws IOException {
File cacheFile = diskCacheProvider.getDiskCache().get(key);
if (cacheFile == null) {
return null;
}
Resource<T> result = null;
try {
result = loadProvider.getCacheDecoder().decode(cacheFile, width, height);
} finally {
if (result == null) {
diskCacheProvider.getDiskCache().delete(key);
}
}
return result;
}
不难看出这一层是使用diskLruCache来获取缓存的,这里先跳过,等到后面的博文在讲解
如果获取到了资源走onLoadComplete方法,如果获取不到走onLoadFailed方法,我们看一下onLoadFailed的实现。
//EngineRunnable.java
private void onLoadFailed(Exception e) {
if (isDecodingFromCache()) {
//第一次失败了之后会走到这里,从disk缓存获取切换到从SOURCE获取
stage = Stage.SOURCE;
//重新执行一遍run方法
manager.submitForSource(this);
} else {
manager.onException(e);
}
}
根据注释,可以了解到又执行了一遍run方法,这时候就会走到decodeFromSource方法了
//EngineRunnable.java
private Resource<?> decodeFromSource() throws Exception {
return decodeJob.decodeFromSource();
}
//DecodeJob.java
public Resource<Z> decodeFromSource() throws Exception {
Resource<T> decoded = decodeSource();
return transformEncodeAndTranscode(decoded);
}
private Resource<T> decodeSource() throws Exception {
Resource<T> decoded = null;
try {
long startTime = LogTime.getLogTime();
//这一步获取到了相应的数据
final A data = fetcher.loadData(priority);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Fetched data", startTime);
}
if (isCancelled) {
return null;
}
decoded = decodeFromSourceData(data);
} finally {
fetcher.cleanup();
}
return decoded;
}
看到这里,估计很多人都要奔溃了,这个fetcher代表什么?从哪里得到的?
我们回头看,这个fetcher是从GenericRequest的onSizeReady中获取出来的,而他的创建在更早之前,回过去找一下具体的类
//ImageVideoModelLoader
static class ImageVideoFetcher implements DataFetcher<ImageVideoWrapper> {
private final DataFetcher<InputStream> streamFetcher;
private final DataFetcher<ParcelFileDescriptor> fileDescriptorFetcher;
public ImageVideoFetcher(DataFetcher<InputStream> streamFetcher,
DataFetcher<ParcelFileDescriptor> fileDescriptorFetcher) {
this.streamFetcher = streamFetcher;
this.fileDescriptorFetcher = fileDescriptorFetcher;
}
@SuppressWarnings("resource")
// @see ModelLoader.loadData
@Override
public ImageVideoWrapper loadData(Priority priority) throws Exception {
InputStream is = null;
if (streamFetcher != null) {
try {
is = streamFetcher.loadData(priority);
} catch (Exception e) {
if (Log.isLoggable(TAG, Log.VERBOSE)) {
Log.v(TAG, "Exception fetching input stream, trying ParcelFileDescriptor", e);
}
if (fileDescriptorFetcher == null) {
throw e;
}
}
}
ParcelFileDescriptor fileDescriptor = null;
if (fileDescriptorFetcher != null) {
try {
fileDescriptor = fileDescriptorFetcher.loadData(priority);
} catch (Exception e) {
if (Log.isLoggable(TAG, Log.VERBOSE)) {
Log.v(TAG, "Exception fetching ParcelFileDescriptor", e);
}
if (is == null) {
throw e;
}
}
}
return new ImageVideoWrapper(is, fileDescriptor);
}
...
}
这样一来,问题又成为了streamFetcher是啥。
//ImageVideoModelLoader.java
@Override
public DataFetcher<ImageVideoWrapper> getResourceFetcher(A model, int width, int height) {
DataFetcher<InputStream> streamFetcher = null;
if (streamLoader != null) {
streamFetcher = streamLoader.getResourceFetcher(model, width, height);
}
DataFetcher<ParcelFileDescriptor> fileDescriptorFetcher = null;
if (fileDescriptorLoader != null) {
fileDescriptorFetcher = fileDescriptorLoader.getResourceFetcher(model, width, height);
}
if (streamFetcher != null || fileDescriptorFetcher != null) {
return new ImageVideoFetcher(streamFetcher, fileDescriptorFetcher);
} else {
return null;
}
}
回头去看load的过程中创建的对象
//RequestManager.java
private <T> DrawableTypeRequest<T> loadGeneric(Class<T> modelClass) {
ModelLoader<T, InputStream> streamModelLoader = Glide.buildStreamModelLoader(modelClass, context);
ModelLoader<T, ParcelFileDescriptor> fileDescriptorModelLoader =
Glide.buildFileDescriptorModelLoader(modelClass, context);
if (modelClass != null && streamModelLoader == null && fileDescriptorModelLoader == null) {
throw new IllegalArgumentException("Unknown type " + modelClass + ". You must provide a Model of a type for"
+ " which there is a registered ModelLoader, if you are using a custom model, you must first call"
+ " Glide#register with a ModelLoaderFactory for your custom model class");
}
return optionsApplier.apply(
new DrawableTypeRequest<T>(modelClass, streamModelLoader, fileDescriptorModelLoader, context,
glide, requestTracker, lifecycle, optionsApplier));
}
//Glide.java
//传入的class是String
public static <T> ModelLoader<T, InputStream> buildStreamModelLoader(Class<T> modelClass, Context context) {
return buildModelLoader(modelClass, InputStream.class, context);
}
可以看出是需要的是streamModelLoader,fileDescriptorModelLoader 这个对象,这个值获取的较为复杂,具体的这里不讲解,可以把这个方法看作是从注册工厂中获取出对应的解析器即可,那么什么时候注册的解析器的呢?答案就在第一步with中初始话Glide中完成,我这里贴一下对应关系
//GenericLoaderFactory注册
register(File.class, ParcelFileDescriptor.class, new FileDescriptorFileLoader.Factory());
register(File.class, InputStream.class, new StreamFileLoader.Factory());
register(int.class, ParcelFileDescriptor.class, new FileDescriptorResourceLoader.Factory());
register(int.class, InputStream.class, new StreamResourceLoader.Factory());
register(Integer.class, ParcelFileDescriptor.class, new FileDescriptorResourceLoader.Factory());
register(Integer.class, InputStream.class, new StreamResourceLoader.Factory());
register(String.class, ParcelFileDescriptor.class, new FileDescriptorStringLoader.Factory());
register(String.class, InputStream.class, new StreamStringLoader.Factory());
register(Uri.class, ParcelFileDescriptor.class, new FileDescriptorUriLoader.Factory());
register(Uri.class, InputStream.class, new StreamUriLoader.Factory());
register(URL.class, InputStream.class, new StreamUrlLoader.Factory());
register(GlideUrl.class, InputStream.class, new HttpUrlGlideUrlLoader.Factory());
register(byte[].class, InputStream.class, new StreamByteArrayLoader.Factory());
//TranscoderRegistry 注册
transcoderRegistry.register(Bitmap.class, GlideBitmapDrawable.class,
new GlideBitmapDrawableTranscoder(context.getResources(), bitmapPool));
transcoderRegistry.register(GifBitmapWrapper.class, GlideDrawable.class,
new GifBitmapWrapperDrawableTranscoder(
new GlideBitmapDrawableTranscoder(context.getResources(), bitmapPool)));
具体举例,loadGeneric传入的是String,再看Glide.buildStreamModelLoader另一个参数是InputStream,那么对应的就是
register(String.class, InputStream.class, new StreamStringLoader.Factory());
再看一下代码
public class StreamStringLoader extends StringLoader<InputStream> implements StreamModelLoader<String> {
/**
* The default factory for {@link com.bumptech.glide.load.model.stream.StreamStringLoader}s.
*/
public static class Factory implements ModelLoaderFactory<String, InputStream> {
@Override
public ModelLoader<String, InputStream> build(Context context, GenericLoaderFactory factories) {
return new StreamStringLoader(factories.buildModelLoader(Uri.class, InputStream.class));
}
@Override
public void teardown() {
// Do nothing.
}
}
public StreamStringLoader(Context context) {
this(Glide.buildStreamModelLoader(Uri.class, context));
}
public StreamStringLoader(ModelLoader<Uri, InputStream> uriLoader) {
super(uriLoader);
}
}
这里也调用了buildModelLoader这个方法,那么这里就形成了一个类似递归的东西
分别是
register(String.class, InputStream.class, new StreamStringLoader.Factory()); register(Uri.class, InputStream.class, new StreamUriLoader.Factory()); register(GlideUrl.class, InputStream.class, new HttpUrlGlideUrlLoader.Factory());
看一下HttpUrlGlideUrlLoader的代码
//HttpUrlFetcher.java
@Override
public InputStream loadData(Priority priority) throws Exception {
return loadDataWithRedirects(glideUrl.toURL(), 0 /*redirects*/, null /*lastUrl*/, glideUrl.getHeaders());
}
private InputStream loadDataWithRedirects(URL url, int redirects, URL lastUrl, Map<String, String> headers)
throws IOException {
if (redirects >= MAXIMUM_REDIRECTS) {
throw new IOException("Too many (> " + MAXIMUM_REDIRECTS + ") redirects!");
} else {
// Comparing the URLs using .equals performs additional network I/O and is generally broken.
// See http://michaelscharf.blogspot.com/2006/11/javaneturlequals-and-hashcode-make.html.
try {
if (lastUrl != null && url.toURI().equals(lastUrl.toURI())) {
throw new IOException("In re-direct loop");
}
} catch (URISyntaxException e) {
// Do nothing, this is best effort.
}
}
urlConnection = connectionFactory.build(url);
for (Map.Entry<String, String> headerEntry : headers.entrySet()) {
urlConnection.addRequestProperty(headerEntry.getKey(), headerEntry.getValue());
}
urlConnection.setConnectTimeout(2500);
urlConnection.setReadTimeout(2500);
urlConnection.setUseCaches(false);
urlConnection.setDoInput(true);
// Connect explicitly to avoid errors in decoders if connection fails.
urlConnection.connect();
if (isCancelled) {
return null;
}
final int statusCode = urlConnection.getResponseCode();
if (statusCode / 100 == 2) {
return getStreamForSuccessfulRequest(urlConnection);
} else if (statusCode / 100 == 3) {
String redirectUrlString = urlConnection.getHeaderField("Location");
if (TextUtils.isEmpty(redirectUrlString)) {
throw new IOException("Received empty or null redirect url");
}
URL redirectUrl = new URL(url, redirectUrlString);
return loadDataWithRedirects(redirectUrl, redirects + 1, url, headers);
} else {
if (statusCode == -1) {
throw new IOException("Unable to retrieve response code from HttpUrlConnection.");
}
throw new IOException("Request failed " + statusCode + ": " + urlConnection.getResponseMessage());
}
}
private InputStream getStreamForSuccessfulRequest(HttpURLConnection urlConnection)
throws IOException {
if (TextUtils.isEmpty(urlConnection.getContentEncoding())) {
int contentLength = urlConnection.getContentLength();
stream = ContentLengthInputStream.obtain(urlConnection.getInputStream(), contentLength);
} else {
if (Log.isLoggable(TAG, Log.DEBUG)) {
Log.d(TAG, "Got non empty content encoding: " + urlConnection.getContentEncoding());
}
stream = urlConnection.getInputStream();
}
return stream;
}
这个方法就是真正网络请求的方法了,也对结果进行初步的处理,返回一个InputStream,那么在返回去看一下前面的逻辑,一层层的返回回去,最后到了
//DecodeJob.java
private Resource<T> decodeSource() throws Exception {
Resource<T> decoded = null;
try {
long startTime = LogTime.getLogTime();
final A data = fetcher.loadData(priority);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Fetched data", startTime);
}
if (isCancelled) {
return null;
}
//进行读取到的数据的存储及转化
decoded = decodeFromSourceData(data);
} finally {
fetcher.cleanup();
}
return decoded;
}
继续看下去
public Resource<Z> decodeFromSource() throws Exception {
Resource<T> decoded = decodeSource();
return transformEncodeAndTranscode(decoded);
}
private Resource<Z> transformEncodeAndTranscode(Resource<T> decoded) {
long startTime = LogTime.getLogTime();
Resource<T> transformed = transform(decoded);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Transformed resource from source", startTime);
}
writeTransformedToCache(transformed);
startTime = LogTime.getLogTime();
Resource<Z> result = transcode(transformed);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Transcoded transformed from source", startTime);
}
return result;
}
private void writeTransformedToCache(Resource<T> transformed) {
if (transformed == null || !diskCacheStrategy.cacheResult()) {
return;
}
long startTime = LogTime.getLogTime();
SourceWriter<Resource<T>> writer = new SourceWriter<Resource<T>>(loadProvider.getEncoder(), transformed);
diskCacheProvider.getDiskCache().put(resultKey, writer);
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logWithTimeAndKey("Wrote transformed from source to cache", startTime);
}
}
transformEncodeAndTranscode这个主要是做内存缓存,图片类型装换的本文先不解析
EngineRunnable
@Override
public void run() {
if (isCancelled) {
return;
}
Exception exception = null;
Resource<?> resource = null;
try {
resource = decode();
} catch (Exception e) {
if (Log.isLoggable(TAG, Log.VERBOSE)) {
Log.v(TAG, "Exception decoding", e);
}
exception = e;
}
if (isCancelled) {
if (resource != null) {
resource.recycle();
}
return;
}
if (resource == null) {
onLoadFailed(exception);
} else {
onLoadComplete(resource);
}
}
private void onLoadComplete(Resource resource) {
//成功时调用
manager.onResourceReady(resource);
}
private void onLoadFailed(Exception e) {
//失败时调用
if (isDecodingFromCache()) {
stage = Stage.SOURCE;
manager.submitForSource(this);
} else {
manager.onException(e);
}
}
这个manager是在Engine中通过engineJob决定
//Engine.java
EngineJob engineJob = engineJobFactory.build(key, isMemoryCacheable);
DecodeJob<T, Z, R> decodeJob = new DecodeJob<T, Z, R>(key, width, height, fetcher, loadProvider, transformation,
transcoder, diskCacheProvider, diskCacheStrategy, priority);
EngineRunnable runnable = new EngineRunnable(engineJob, decodeJob, priority);
//EngineRunnable
public EngineRunnable(EngineRunnableManager manager, DecodeJob<?, ?, ?> decodeJob, Priority priority) {
this.manager = manager;
this.decodeJob = decodeJob;
this.stage = Stage.CACHE;
this.priority = priority;
}
那么看一下EngineJob里面的内容
//EngineJob.java
@Override
public void onResourceReady(final Resource<?> resource) {
this.resource = resource;
MAIN_THREAD_HANDLER.obtainMessage(MSG_COMPLETE, this).sendToTarget();
}
private static class MainThreadCallback implements Handler.Callback {
@Override
public boolean handleMessage(Message message) {
if (MSG_COMPLETE == message.what || MSG_EXCEPTION == message.what) {
EngineJob job = (EngineJob) message.obj;
if (MSG_COMPLETE == message.what) {
job.handleResultOnMainThread();
} else {
job.handleExceptionOnMainThread();
}
return true;
}
return false;
}
}
private void handleResultOnMainThread() {
if (isCancelled) {
resource.recycle();
return;
} else if (cbs.isEmpty()) {
throw new IllegalStateException("Received a resource without any callbacks to notify");
}
engineResource = engineResourceFactory.build(resource, isCacheable);
hasResource = true;
// Hold on to resource for duration of request so we don't recycle it in the middle of notifying if it
// synchronously released by one of the callbacks.
engineResource.acquire();
listener.onEngineJobComplete(key, engineResource);
for (ResourceCallback cb : cbs) {
if (!isInIgnoredCallbacks(cb)) {
engineResource.acquire();
cb.onResourceReady(engineResource);
}
}
// Our request is complete, so we can release the resource.
engineResource.release();
}
EngineJob里面通过handler完成了线程的切换,然后执行handleResultOnMainThread方法,本文主要关注的是cb.onResourceReady(engineResource);
这个cb是需要追溯到GenericRequest这个类中,具体的方法是
loadStatus = engine.load(signature, width, height, dataFetcher, loadProvider, transformation, transcoder,
priority, isMemoryCacheable, diskCacheStrategy, this);
可以看到他把自己作为一个callback传了进去,所以我们要关注的是他的相关方法
@SuppressWarnings("unchecked")
@Override
public void onResourceReady(Resource<?> resource) {
if (resource == null) {
onException(new Exception("Expected to receive a Resource<R> with an object of " + transcodeClass
+ " inside, but instead got null."));
return;
}
Object received = resource.get();
if (received == null || !transcodeClass.isAssignableFrom(received.getClass())) {
releaseResource(resource);
onException(new Exception("Expected to receive an object of " + transcodeClass
+ " but instead got " + (received != null ? received.getClass() : "") + "{" + received + "}"
+ " inside Resource{" + resource + "}."
+ (received != null ? "" : " "
+ "To indicate failure return a null Resource object, "
+ "rather than a Resource object containing null data.")
));
return;
}
if (!canSetResource()) {
releaseResource(resource);
// We can't set the status to complete before asking canSetResource().
status = Status.COMPLETE;
return;
}
onResourceReady(resource, (R) received);
}
private void onResourceReady(Resource<?> resource, R result) {
// We must call isFirstReadyResource before setting status.
boolean isFirstResource = isFirstReadyResource();
status = Status.COMPLETE;
this.resource = resource;
if (requestListener == null || !requestListener.onResourceReady(result, model, target, loadedFromMemoryCache,
isFirstResource)) {
GlideAnimation<R> animation = animationFactory.build(loadedFromMemoryCache, isFirstResource);
target.onResourceReady(result, animation);
}
notifyLoadSuccess();
if (Log.isLoggable(TAG, Log.VERBOSE)) {
logV("Resource ready in " + LogTime.getElapsedMillis(startTime) + " size: "
+ (resource.getSize() * TO_MEGABYTE) + " fromCache: " + loadedFromMemoryCache);
}
}
这边逻辑就很清楚了,获取除了资源文件在判空,然后获取到对应的动画效果,并调用target.onResourceReady(result, animation);方法,这个target最早之前获取的GlideDrawableImageViewTarget
//GlideDrawableImageViewTarget
public void onResourceReady(GlideDrawable resource, GlideAnimation<? super GlideDrawable> animation) {
if (!resource.isAnimated()) {
float viewRatio = view.getWidth() / (float) view.getHeight();
float drawableRatio = resource.getIntrinsicWidth() / (float) resource.getIntrinsicHeight();
if (Math.abs(viewRatio - 1f) <= SQUARE_RATIO_MARGIN
&& Math.abs(drawableRatio - 1f) <= SQUARE_RATIO_MARGIN) {
resource = new SquaringDrawable(resource, view.getWidth());
}
}
super.onResourceReady(resource, animation);
this.resource = resource;
resource.setLoopCount(maxLoopCount);
resource.start();
}
看一下onResourceReady方法
//ImageViewTarget.java
@Override
public void onResourceReady(Z resource, GlideAnimation<? super Z> glideAnimation) {
if (glideAnimation == null || !glideAnimation.animate(resource, this)) {
setResource(resource);
}
}
protected abstract void setResource(Z resource);
setResource的具体实现类还是他本身
@Override
protected void setResource(GlideDrawable resource) {
view.setImageDrawable(resource);
}
oh,终于把图片放进View里面,这样一套从网络加载图片的流程也走完了!Congratulations!
当然,由于篇幅缓存那一块的逻辑本文暂时没讲,后续找机会补上。最后,老惯例总结一下内容,into的主要流程是:
首先,先会处理ImageView的ScaleType,然后把ImageView处理成一个Target,接着看这个target是否有前一个图片加载请求,如果有就标记无效掉他并清空状态,如果没有就创建出一个request并给这个request创建回调及监听(with中创建的空白的fragment),然后通过requestTracker执行这个request。
紧接着,会测量出target的长宽并回调onSizeReady方法,在这个同时会设置占位图。onSizeReady方法里面,除了赋值长宽之外,还会启动Engine的load方法,在load中首先会获取到一个EngineKey,这个key是由长,宽,地址等构成,组件完成之后,先会查看是否有这个EngineKey的EngineJob在执行,如果有的话,就不再请求了,采用addCallBack回调集合的方式完成图片的下载。如果没有的话,就通过EngineJobFactory创建一个新的EngineJob,同时创建decodeJob和EngineRunnable,然后通过EngineJob来执行EngineRunning。
首先执行的从disk缓存中获取图片,如果获取不到,执行从Source中获取图片的方法。这个方法就是请求网络的方法,是由之前在load方法中创建的SteamFetcher来作为下载图片的工具,这个SteamFetcher是由load的对象决定,返回的对象是InputSteam。
下载完成获取到InputSteam之后,decodeJob把InputSteam转化成Resource对象。接着调用EngineRunning的onLoadComplete方法,onLoadComplete会回调EngineJob的onResourceReady方法,onResourceReady会向EngineJob中的handler发送一条消息,并切换到主线程。切换到主线程之后,EngineJob又会回调之前callback集合,通知图片已经准备完成,这个callback实现实在GenericRequest中。接下来,EngineJob中的callback会调用target.onResourceReady方法,这个方法最后也会调用到target.setResource方法,把获取到的图片设置到对应的ImagView中。
当然这这个总结是正对于网络下载图片的,没涉及到缓存,估计下一篇博文讲完缓存之后,会把缓存相关的补充到总结中。
看到这里,还不奖励自己一下么?