Glide源码分析（二）

概述

上一篇《Glide源码分析（一）》我们讲到了Glide在经过with()和load()之后，最终返回了RequestBuilder，这篇来看看into(ImageView)里面发生了什么事，这也是整个Glide最核心复杂的地方。

源码分析

RequestBuilder.class
直接看into(InageView)

@NonNull
  public ViewTarget<ImageView, TranscodeType> into(@NonNull ImageView view) {
    Util.assertMainThread();
    Preconditions.checkNotNull(view);

    RequestOptions requestOptions = this.requestOptions;
    if (!requestOptions.isTransformationSet()
        && requestOptions.isTransformationAllowed()
        && view.getScaleType() != null) {
      // Clone in this method so that if we use this RequestBuilder to load into a View and then
      // into a different target, we don't retain the transformation applied based on the previous
      // View's scale type.
      switch (view.getScaleType()) {
        case CENTER_CROP:
          requestOptions = requestOptions.clone().optionalCenterCrop();
          break;
        case CENTER_INSIDE:
          requestOptions = requestOptions.clone().optionalCenterInside();
          break;
        case FIT_CENTER:
        case FIT_START:
        case FIT_END:
          requestOptions = requestOptions.clone().optionalFitCenter();
          break;
        case FIT_XY:
          requestOptions = requestOptions.clone().optionalCenterInside();
          break;
        case CENTER:
        case MATRIX:
        default:
          // Do nothing.
      }
    }

    return into(
        glideContext.buildImageViewTarget(view, transcodeClass),
        /*targetListener=*/ null,
        requestOptions);
  }

这个方法内，前面主要根据ImageView的ScaleType属性做一些判断，重点在最后。由glideContext.buildImageViewTarget(view, transcodeClass),null,requestOptions),最终调用的ImageViewTargetFactory的buildTarget()方法，返回的ViewTarget
ImageViewTargetFactory.class:

public class ImageViewTargetFactory {
  @NonNull
  @SuppressWarnings("unchecked")
  public <Z> ViewTarget<ImageView, Z> buildTarget(@NonNull ImageView view,
      @NonNull Class<Z> clazz) {//这里的class传的是GlideDrawable
    if (Bitmap.class.equals(clazz)) {//此处根据clazz构建不同的Target对象
      return (ViewTarget<ImageView, Z>) new BitmapImageViewTarget(view);
    } else if (Drawable.class.isAssignableFrom(clazz)) {
      return (ViewTarget<ImageView, Z>) new DrawableImageViewTarget(view);
    } else {
      throw new IllegalArgumentException(
          "Unhandled class: " + clazz + ", try .as*(Class).transcode(ResourceTranscoder)");
    }
  }
}

这里返回的ViewTarget会被传入到RequestBuilder.class的into(Y target…)方法中

private <Y extends Target<TranscodeType>> Y into(
    @NonNull Y target,
    @Nullable RequestListener<TranscodeType> targetListener,
    @NonNull RequestOptions options) {
  Util.assertMainThread();
  Preconditions.checkNotNull(target);
  if (!isModelSet) {
    throw new IllegalArgumentException("You must call #load() before calling #into()");
  }

  options = options.autoClone();
  Request request = buildRequest(target, targetListener, options);

  Request previous = target.getRequest();
  if (request.isEquivalentTo(previous)
      && !isSkipMemoryCacheWithCompletePreviousRequest(options, previous)) {
    request.recycle();
    // If the request is completed, beginning again will ensure the result is re-delivered,
    // triggering RequestListeners and Targets. If the request is failed, beginning again will
    // restart the request, giving it another chance to complete. If the request is already
    // running, we can let it continue running without interruption.
    if (!Preconditions.checkNotNull(previous).isRunning()) {
      // Use the previous request rather than the new one to allow for optimizations like skipping
      // setting placeholders, tracking and un-tracking Targets, and obtaining View dimensions
      // that are done in the individual Request.
      previous.begin();
    }
    return target;
  }

  requestManager.clear(target);
  target.setRequest(request);//给TargetView设置request
  requestManager.track(target, request);

  return target;
}

看下requestManager.track(target, request)：
RequestManager：

void track(@NonNull Target<?> target, @NonNull Request request) {
   targetTracker.track(target);
   requestTracker.runRequest(request);
 }

RequestTracker：

/**
 * Starts tracking the given request.
 */
public void runRequest(@NonNull Request request) {
  requests.add(request);
  if (!isPaused) {
    request.begin();
  } else {
    request.clear();
    if (Log.isLoggable(TAG, Log.VERBOSE)) {
      Log.v(TAG, "Paused, delaying request");
    }
    pendingRequests.add(request);
  }
}

查找一下Request的实现类SingleRequest。
SingleRequest：

@Override
  public void begin() {
    assertNotCallingCallbacks();
    stateVerifier.throwIfRecycled();
    startTime = LogTime.getLogTime();
    if (model == null) {
      if (Util.isValidDimensions(overrideWidth, overrideHeight)) {
        width = overrideWidth;
        height = overrideHeight;
      }
      // Only log at more verbose log levels if the user has set a fallback drawable, because
      // fallback Drawables indicate the user expects null models occasionally.
      int logLevel = getFallbackDrawable() == null ? Log.WARN : Log.DEBUG;
      onLoadFailed(new GlideException("Received null model"), logLevel);
      return;
    }

    if (status == Status.RUNNING) {
      throw new IllegalArgumentException("Cannot restart a running request");
    }

    // If we're restarted after we're complete (usually via something like a notifyDataSetChanged
    // that starts an identical request into the same Target or View), we can simply use the
    // resource and size we retrieved the last time around and skip obtaining a new size, starting a
    // new load etc. This does mean that users who want to restart a load because they expect that
    // the view size has changed will need to explicitly clear the View or Target before starting
    // the new load.
    if (status == Status.COMPLETE) {
      onResourceReady(resource, DataSource.MEMORY_CACHE);
      return;
    }

    // Restarts for requests that are neither complete nor running can be treated as new requests
    // and can run again from the beginning.

    status = Status.WAITING_FOR_SIZE;
    if (Util.isValidDimensions(overrideWidth, overrideHeight)) {
      onSizeReady(overrideWidth, overrideHeight);
    } else {
      target.getSize(this);
    }

    if ((status == Status.RUNNING || status == Status.WAITING_FOR_SIZE)
        && canNotifyStatusChanged()) {
      target.onLoadStarted(getPlaceholderDrawable());
    }
    if (IS_VERBOSE_LOGGABLE) {
      logV("finished run method in " + LogTime.getElapsedMillis(startTime));
    }
  }
  
  @Override
  public void onSizeReady(int width, int height) {
    stateVerifier.throwIfRecycled();
    if (IS_VERBOSE_LOGGABLE) {
      logV("Got onSizeReady in " + LogTime.getElapsedMillis(startTime));
    }
    if (status != Status.WAITING_FOR_SIZE) {
      return;
    }
    status = Status.RUNNING;

    float sizeMultiplier = requestOptions.getSizeMultiplier();
    this.width = maybeApplySizeMultiplier(width, sizeMultiplier);
    this.height = maybeApplySizeMultiplier(height, sizeMultiplier);

    if (IS_VERBOSE_LOGGABLE) {
      logV("finished setup for calling load in " + LogTime.getElapsedMillis(startTime));
    }
    loadStatus = engine.load(
        glideContext,
        model,
        requestOptions.getSignature(),
        this.width,
        this.height,
        requestOptions.getResourceClass(),
        transcodeClass,
        priority,
        requestOptions.getDiskCacheStrategy(),
        requestOptions.getTransformations(),
        requestOptions.isTransformationRequired(),
        requestOptions.isScaleOnlyOrNoTransform(),
        requestOptions.getOptions(),
        requestOptions.isMemoryCacheable(),
        requestOptions.getUseUnlimitedSourceGeneratorsPool(),
        requestOptions.getUseAnimationPool(),
        requestOptions.getOnlyRetrieveFromCache(),
        this);

    // This is a hack that's only useful for testing right now where loads complete synchronously
    // even though under any executor running on any thread but the main thread, the load would
    // have completed asynchronously.
    if (status != Status.RUNNING) {
      loadStatus = null;
    }
    if (IS_VERBOSE_LOGGABLE) {
      logV("finished onSizeReady in " + LogTime.getElapsedMillis(startTime));
    }
  }

Engine：

public <R> LoadStatus load(......) {//内存缓存和磁盘缓存
    Util.assertMainThread();
    long startTime = VERBOSE_IS_LOGGABLE ? LogTime.getLogTime() : 0;

    EngineKey key = keyFactory.buildKey(model, signature, width, height, transformations,
        resourceClass, transcodeClass, options);//1.首先创建了一个EngineKey

    EngineResource<?> active = loadFromActiveResources(key, isMemoryCacheable);
    if (active != null) {//通过这个key去查找缓存是否存在
      cb.onResourceReady(active, DataSource.MEMORY_CACHE);//如果资源在缓存中找到后会放入cb.onResourceReady()进行回调
      if (VERBOSE_IS_LOGGABLE) {
        logWithTimeAndKey("Loaded resource from active resources", startTime, key);
      }
      return null;
    }

    EngineResource<?> cached = loadFromCache(key, isMemoryCacheable);//如果从loadFromActiveResources返回的是空的话
    if (cached != null) {//2.通过这个key去查找缓存是否存在
      cb.onResourceReady(cached, DataSource.MEMORY_CACHE);//如果资源在缓存中找到后会放入cb.onResourceReady()进行回调
      if (VERBOSE_IS_LOGGABLE) {
        logWithTimeAndKey("Loaded resource from cache", startTime, key);
      }
      return null;
    }
	//以上两个缓存中都找不到的话，就会从jobs通过key获取EngineJob，如果EngineJob存在的话，则用其构造LoadStatus进行返回
    EngineJob<?> current = jobs.get(key, onlyRetrieveFromCache);
    if (current != null) {
      current.addCallback(cb);
      if (VERBOSE_IS_LOGGABLE) {
        logWithTimeAndKey("Added to existing load", startTime, key);
      }
      return new LoadStatus(cb, current);
    }
	//如果不存在的话，创建EngineJob和DecodeJob
    EngineJob<R> engineJob =
        engineJobFactory.build(
            key,
            isMemoryCacheable,
            useUnlimitedSourceExecutorPool,
            useAnimationPool,
            onlyRetrieveFromCache);

    DecodeJob<R> decodeJob =
        decodeJobFactory.build(
            glideContext,
            model,
            key,
            signature,
            width,
            height,
            resourceClass,
            transcodeClass,
            priority,
            diskCacheStrategy,
            transformations,
            isTransformationRequired,
            isScaleOnlyOrNoTransform,
            onlyRetrieveFromCache,
            options,
            engineJob);

    jobs.put(key, engineJob);

    engineJob.addCallback(cb);
    engineJob.start(decodeJob);//EngineJob调用其start方法

    if (VERBOSE_IS_LOGGABLE) {
      logWithTimeAndKey("Started new load", startTime, key);
    }
    return new LoadStatus(cb, engineJob);
  }
  
  private EngineResource<?> loadFromCache(Key key, boolean isMemoryCacheable) {
    if (!isMemoryCacheable) {
      return null;
    }

    EngineResource<?> cached = getEngineResourceFromCache(key);
    if (cached != null) {
      cached.acquire();
      activeResources.activate(key, cached);
    }
    return cached;
  }
  
  private EngineResource<?> getEngineResourceFromCache(Key key) {//3. 通过getEngineResourceFromCache方法获取EngineResource
    Resource<?> cached = cache.remove(key);//从cache中寻找资源，如果找到则将其从cache中移除

    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 /*isMemoryCacheable*/, true /*isRecyclable*/);
    }
    return result;
  }

EngineJob

public void start(DecodeJob<R> decodeJob) {
  this.decodeJob = decodeJob;
  GlideExecutor executor = decodeJob.willDecodeFromCache()//线程池
      ? diskCacheExecutor
      : getActiveSourceExecutor();
  executor.execute(decodeJob);//将DecodeJob放入线程池
}

DecodeJob

@Override
public void run() {//注意runWrapped()方法
  GlideTrace.beginSectionFormat("DecodeJob#run(model=%s)", model);
  DataFetcher<?> localFetcher = currentFetcher;
  try {
    if (isCancelled) {
      notifyFailed();
      return;
    }
    runWrapped();
  } catch (Throwable t) {
    if (Log.isLoggable(TAG, Log.DEBUG)) {
      Log.d(TAG, "DecodeJob threw unexpectedly"
          + ", isCancelled: " + isCancelled
          + ", stage: " + stage, t);
    }
    // When we're encoding we've already notified our callback and it isn't safe to do so again.
    if (stage != Stage.ENCODE) {
      throwables.add(t);
      notifyFailed();
    }
    if (!isCancelled) {
      throw t;
    }
  } finally {
    if (localFetcher != null) {
      localFetcher.cleanup();
    }
    GlideTrace.endSection();
  }
}

private void runWrapped() {
  switch (runReason) {
    case INITIALIZE:
      stage = getNextStage(Stage.INITIALIZE);
      currentGenerator = getNextGenerator();//创建一个DataFetcherGenerator
      runGenerators();
      break;
    case SWITCH_TO_SOURCE_SERVICE:
      runGenerators();
      break;
    case DECODE_DATA:
      decodeFromRetrievedData();
      break;
    default:
      throw new IllegalStateException("Unrecognized run reason: " + runReason);
  }
}

private DataFetcherGenerator getNextGenerator() {//这里我们只看网络访问的部分
  switch (stage) {
    case RESOURCE_CACHE://缓存
      return new ResourceCacheGenerator(decodeHelper, this);
    case DATA_CACHE://缓存
      return new DataCacheGenerator(decodeHelper, this);
    case SOURCE://网络
      return new SourceGenerator(decodeHelper, this);//创建SourceGenerator
    case FINISHED:
      return null;
    default:
      throw new IllegalStateException("Unrecognized stage: " + stage);
  }
}

private void runGenerators() {
  currentThread = Thread.currentThread();
  startFetchTime = LogTime.getLogTime();
  boolean isStarted = false;
  while (!isCancelled && currentGenerator != null
      && !(isStarted = currentGenerator.startNext())) {//由上面可以看出currentGenerator就是SourceGenerator
    stage = getNextStage(stage);
    currentGenerator = getNextGenerator();

    if (stage == Stage.SOURCE) {
      reschedule();
      return;
    }
  }
	
  // ... ...

}

留意while处的currentGenerator.startNext()，我查看一下SourceGenerator的startNext方法
SourceGenerator.class:

 public boolean startNext() {
 
// ... ...

   if (sourceCacheGenerator != null && sourceCacheGenerator.startNext()) {
     return true;
   }
   sourceCacheGenerator = null;

   loadData = null;
   boolean started = false;
   while (!started && hasNextModelLoader()) {
     loadData = helper.getLoadData().get(loadDataListIndex++);//加载数据，这里的helper就是DecodeHelper
     if (loadData != null
         && (helper.getDiskCacheStrategy().isDataCacheable(loadData.fetcher.getDataSource())
         || helper.hasLoadPath(loadData.fetcher.getDataClass()))) {
       started = true;
       loadData.fetcher.loadData(helper.getPriority(), this);
     }
   }
   return started;
 }

DecodeHelper.class：

List<LoadData<?>> getLoadData() {
  if (!isLoadDataSet) {
    isLoadDataSet = true;
    loadData.clear();
    List<ModelLoader<Object, ?>> modelLoaders = glideContext.getRegistry().getModelLoaders(model);
    //noinspection ForLoopReplaceableByForEach to improve perf
    for (int i = 0, size = modelLoaders.size(); i < size; i++) {
      ModelLoader<Object, ?> modelLoader = modelLoaders.get(i);
      LoadData<?> current =
          modelLoader.buildLoadData(model, width, height, options);
      if (current != null) {
        loadData.add(current);
      }
    }
  }
  return loadData;
}

到这里会出现一个问题，modelLoader到底是哪一个，单单继承ModelLoader接口的类有19个。这里我们分析的是网络图片的加载，而非缓存。可以知道一定会有Http协议，因此只有HttpGlideUrlLoader符合。
HttpGlideUrlLoader

 public class HttpGlideUrlLoader implements ModelLoader<GlideUrl, InputStream> {
 
@Override
 public LoadData<InputStream> buildLoadData(@NonNull GlideUrl model, int width, int height,
     @NonNull Options options) {
   // GlideUrls memoize parsed URLs so caching them saves a few object instantiations and time
   // spent parsing urls.
   GlideUrl url = model;
   if (modelCache != null) {
     url = modelCache.get(model, 0, 0);
     if (url == null) {
       modelCache.put(model, 0, 0, model);
       url = model;
     }
   }
   int timeout = options.get(TIMEOUT);
   return new LoadData<>(url, new HttpUrlFetcher(url, timeout));//这里创建的是HttpurlFetcher,返回的是LoadData。
 }
 }

其返回的LoadData会在SourceGenerator被调用
HttpUrlFetcher.class：

@Override
public void loadData(@NonNull Priority priority,
    @NonNull DataCallback<? super InputStream> callback) {
  long startTime = LogTime.getLogTime();
  try {
    InputStream result = loadDataWithRedirects(glideUrl.toURL(), 0, null, glideUrl.getHeaders());
    callback.onDataReady(result);
  } catch (IOException e) {
   // ... ...
  } 
}

private InputStream loadDataWithRedirects(URL url, int redirects, URL lastUrl,
    Map<String, String> headers) throws IOException {
  if (redirects >= MAXIMUM_REDIRECTS) {
    throw new HttpException("Too many (> " + MAXIMUM_REDIRECTS + ") redirects!");
  } else {
    try {
      if (lastUrl != null && url.toURI().equals(lastUrl.toURI())) {
        throw new HttpException("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(timeout);
  urlConnection.setReadTimeout(timeout);
  urlConnection.setUseCaches(false);
  urlConnection.setDoInput(true);

  urlConnection.setInstanceFollowRedirects(false);

  // Connect explicitly to avoid errors in decoders if connection fails.
  urlConnection.connect();
  // Set the stream so that it's closed in cleanup to avoid resource leaks. See #2352.
  stream = urlConnection.getInputStream();
  if (isCancelled) {
    return null;
  }
  final int statusCode = urlConnection.getResponseCode();
  if (isHttpOk(statusCode)) {
    return getStreamForSuccessfulRequest(urlConnection);
  } else if (isHttpRedirect(statusCode)) {
    String redirectUrlString = urlConnection.getHeaderField("Location");
    if (TextUtils.isEmpty(redirectUrlString)) {
      throw new HttpException("Received empty or null redirect url");
    }
    URL redirectUrl = new URL(url, redirectUrlString);
    // Closing the stream specifically is required to avoid leaking ResponseBodys in addition
    // to disconnecting the url connection below. See #2352.
    cleanup();
    return loadDataWithRedirects(redirectUrl, redirects + 1, url, headers);
  } else if (statusCode == INVALID_STATUS_CODE) {
    throw new HttpException(statusCode);
  } else {
    throw new HttpException(urlConnection.getResponseMessage(), statusCode);
  }
}

经过一层层的分析，最终在这里发现加载网络图片的地方。

总结

我们在使用Glide框架最简单的用法就是Glide.with(上下文).load(“图片路径”).into(ImageView)，可以说是非常非常简单了，孰能知道背后Glide能做了那么多工作。
with的主要目的就是绑定当前页面的生命周期，管理图片的加载暂停取消。
load就是把本地图片或者网络图片路径传进去。
into里面的逻辑比较复杂，总而言之就是，Glide会在加载图片之前，根据ImageView的尺寸等参数生成一个key，利用key去获取内存中的缓存，如果内存中缓存为空，那么久创建一个DecodeJob（Runnable任务），将DecodeJob放进线程池中执行，返回的结果先放入缓存中，再加载进ImageView。
经过分析我们可以看出，无论是从网络上加载图片还是从缓存中获取图片，方法里都会有ImageView的height和width。说明加载图片的时候会根据宽高去加载，同一张图片因为ImageView的不同，会缓存不同的图片。当然这也加重了内存的负担。另外Glide是支持Gif图的。
缓存的方式分为磁盘缓存和内存缓存。