【转载】Picasso源码解析
原文地址:http://blog.csdn.net/u012702547/article/details/52273918
Picasso是Squareup公司出的一款图片加载框架,能够解决我们在Android开发中加载图片时遇到的诸多问题,比如OOM,图片错位等,问题主要集中在加载图片列表时,因为单张图片加载谁都会写。如果我们想在ListView或者GridView或者RecyclerView中加载图片墙,那么这个时候对原图片的二次处理就显得非常重要了,否则就会出现我们上文说的OOM或者图片错位等。不过,如果你使用了Picasso来加载图片的话,那么所有问题都会变得很简单。OK,那我们今天就来看看Picasso的使用。
1.基本使用
Picasso加载一张网络图片,最简单的一行代码就搞定:
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Picasso.with(this).load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg").into(iv);
如果你想对这张图片进行剪裁,可以使用resize方法:
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Picasso.with(this).load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg") .resize(200,200) .into(iv);
注意这里的200表示200px,如果你想在resize时指定dp,可以使用如下方法:
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Picasso.with(this).load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg") .resizeDimen(R.dimen.iv_width,R.dimen.iv_height) .into(iv);
在dimen文件中定义宽高即可:
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<dimen name="iv_width">200dp</dimen> <dimen name="iv_height">200dp</dimen>
其实我们看看resizeDimen的源码就知道它是怎么设置dp了:
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/** Resize the image to the specified dimension size. */ public RequestCreator resizeDimen(int targetWidthResId, int targetHeightResId) { Resources resources = picasso.context.getResources(); int targetWidth = resources.getDimensionPixelSize(targetWidthResId); int targetHeight = resources.getDimensionPixelSize(targetHeightResId); return resize(targetWidth, targetHeight); }
一句话,它就是把dp读取成px然后调用resize方法实现的。
OK,很多时候我还可以给Picasso下载的图片设置缩放模式,也就是ImageView的ScaleType属性(不了解的请移步这里),但是注意,缩放模式centerCrop和centerInside要和resize一起使用,否则会抛异常,而缩放模式fit不可以和resize一起使用,如下:
使用fit:
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Picasso.with(this).load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg") .fit() .into(iv);
使用centerCrop:
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Picasso.with(this).load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg") .resizeDimen(R.dimen.iv_width,R.dimen.iv_height) .centerCrop() .into(iv);
很多时候我们在图片加载出来之前需要先显示一张默认图片,也即占位图,而在图片加载出错的时候我们可能想显示一张错误图,这个Picasso也是支持的:
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Picasso.with(this).load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg") //占位图,图片加载出来之前显示的默认图片 .placeholder(R.mipmap.ic_launcher) //错误图,图片加载出错时显示的图片 .error(R.mipmap.ic_launcher) .into(iv);
很多时候,我们可能想显示一个用户图像,但是这个用户图像是个圆形图片,这个用Picasso该怎么实现呢?首先定义一个Transformation,在transform方法中对图片进行二次处理,包括剪裁重新处理等等,那我这里想把原图变为一个圆形图,就可以按下面的写法来:
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Transformation transformation = new Transformation() { @Override public Bitmap transform(Bitmap source) { int width = source.getWidth(); int height = source.getHeight(); int size = Math.min(width, height); Bitmap blankBitmap = Bitmap.createBitmap(width, height, Bitmap.Config.ARGB_8888); Canvas canvas = new Canvas(blankBitmap); Paint paint = new Paint(); paint.setAntiAlias(true); canvas.drawCircle(size / 2, size / 2, size / 2, paint); paint.setXfermode(new PorterDuffXfermode(PorterDuff.Mode.SRC_IN)); canvas.drawBitmap(source, 0, 0, paint); if (source != null && !source.isRecycled()) { source.recycle(); } return blankBitmap; } @Override public String key() { return "squareup"; } };
paint的setXfermode表示最终显示的图形取所绘制图形的交集,我这里先绘制了圆形,又绘制了一个矩形的Bitmap,圆形没有Bitmap大,所以交集肯定是圆形,所以最终显示结果就为圆形,在加载图片的时候可以通过transform属性来使用自定义的这个transformation,如下:
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Picasso.with(this).load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg") .transform(transformation) .into(iv);
最终显示结果如下:
依照这个思路,你想把图像做成什么形状都可以了吧!
Picasso还可以通过开启指示器,让你看到这个图片是从内存加载来的还是从SD卡加载来的还是从网络加载来的,设置方式如下:
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Picasso picasso = Picasso.with(this); //开启指示器 picasso.setIndicatorsEnabled(true); picasso.load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg") .into(iv);
开启之后,图片的加载效果如下:
左上角会有一个蓝色的三角符号,不同的颜色表示图片的来源不同,红、蓝、绿三种颜色分别代表网络、SD卡和内存。
现在大部分的图片缓存框架都是支持三级缓存的,在Picasso中,我们也可以手动设置缓存策略,比如说当我们查看一张大图的时候,可能由于图片太大,不想将其缓存在内存中,那么可以自定义缓存策略,如下:
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Picasso picasso = Picasso.with(this); //开启指示器 picasso.setIndicatorsEnabled(true); picasso .load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg") //第一个参数是指图片加载时放弃在内存缓存中查找 //第二个参数是指图片加载完不缓存在内存中 .memoryPolicy(MemoryPolicy.NO_CACHE, MemoryPolicy.NO_STORE) .into(iv);
当然,如果你想给图片加载过程设置一个监听器也是可以的,如下:
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Picasso picasso = Picasso.with(this); //开启指示器 picasso.setIndicatorsEnabled(true); picasso .load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg") //第一个参数是指图片加载时放弃在内存缓存中查找 //第二个参数是指图片加载完不缓存在内存中 .memoryPolicy(MemoryPolicy.NO_CACHE, MemoryPolicy.NO_STORE) .into(iv, new Callback() { @Override public void onSuccess() { Log.d("google_lenve_fb", "onSuccess: 图片加载成功!"); } @Override public void onError() { Log.d("google_lenve_fb", "onSuccess: 图片加载失败!"); } });
在ListView或者RecyclerView中加载图片时,当列表处于滑动状态的时候,我们可以停止图片的加载,当列表停止滚动的时候,我们又可以继续加载图片,如下:
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Object tag = new Object(); Picasso with = Picasso.with(this); with.load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg") .into(iv); //暂停加载 with.pauseTag(tag); //恢复加载 with.resumeTag(tag);
这里要传递的对象可以是任意对象,这两个方法的使用需要我们自己去监听ListView或者GridView的滑动状态。OK,以上这些都属于Picasso的一个基本使用,接下来我们来看看一些高级使用技巧。
2.自定义缓存位置
既然我们知道Picasso自带三级缓存,那么问题就来了,存储在SD卡的图片到底存储在哪里呢?在手机的内部存储中,即 /data/data/应用包名/cache 目录下,这个目录如果你有root权限就可以查看,可是有的时候我们需要自定义缓存位置,即不想将图片缓存在这里,又该怎么办?说到这里,我们不得不来看看Picasso的源码,with方法源码如下:
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public static Picasso with(Context context) { if (singleton == null) { synchronized (Picasso.class) { if (singleton == null) { singleton = new Builder(context).build(); } } } return singleton; }
大家看到,with方法返回了一个Picasso的单例,在创建Picasso的过程中,调用了new Builder(context).build()方法,说明Picasso实例创建的代码在build方法中,那我们再来看看这个build方法:
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public Picasso build() { Context context = this.context; if (downloader == null) { downloader = Utils.createDefaultDownloader(context); } if (cache == null) { cache = new LruCache(context); } if (service == null) { service = new PicassoExecutorService(); } if (transformer == null) { transformer = RequestTransformer.IDENTITY; } Stats stats = new Stats(cache); Dispatcher dispatcher = new Dispatcher(context, service, HANDLER, downloader, cache, stats); return new Picasso(context, dispatcher, cache, listener, transformer, requestHandlers, stats, defaultBitmapConfig, indicatorsEnabled, loggingEnabled); }
我们先不急着看build中的其他方法,先来看看downloader这个判断(如果我使用with方法downloader肯定为null),如果downloader为null,则系统会帮我们创建一个默认的downloader,那我们来看看这个默认的downloader是怎么创建的:
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static Downloader createDefaultDownloader(Context context) { try { Class.forName("com.squareup.okhttp.OkHttpClient"); return OkHttpLoaderCreator.create(context); } catch (ClassNotFoundException ignored) { } return new UrlConnectionDownloader(context); }
啊哈,这里就很明白了,系统通过反射来检查我们在项目中是否使用了OkHttp,如果使用了,就使用OkHttp来创建一个下载器,否则就使用HttpUrlConnection来创建一个下载器,可是大家注意Class.forName("com.squareup.okhttp.OkHttpClient");这个方法的参数,这是OkHttp3以前的写法,现在我们都是使用OkHttp3了,OkHttp3的包名就不是这个样子,而是okhttp3.OkHttpClient,所以即使你在项目中引用了OkHttp3,Picasso还是会把HttpUrlConnection当作下载器来下载图片的,这个问题估计Picasso会在以后的版本中修正吧!OK,那如果我们想要使用自己的下载器又该怎么做呢?其实很简单,首先不使用with这个方法来初始化Picasso,而是使用Builder来初始化,在初始化的过程中传入自己的下载器,自己的下载器我们可以模仿Picasso里边的这个下载器来写,也可以自定义,我们来看一个Demo:
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Picasso picasso = new Picasso.Builder(this) .downloader(new OkHttp3Downloader(this.getExternalCacheDir())) .build(); Picasso.setSingletonInstance(picasso); picasso.load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg").into(iv);
使用Builder来构建一个Picasso,在构建的过程中传入自己的下载器,这个下载器我没有自己来写,使用GitHub上的开源项目https://github.com/JakeWharton/picasso2-okhttp3-downloader,里边的代码也都很简单,只有一个类,拷贝到你的项目中就可使用,不赘述。这样修改之后,Picasso的图片缓存位置就发生了改变,存到了 /storage/sdcard/Android/data/应用包名/cache 文件夹中,不同手机这个地址前面一部分可能会有一点点差异。使用这个方法初始化的时候,还调用了setSingletonInstance方法,我们来看看这个方法:
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public static void setSingletonInstance(Picasso picasso) { synchronized (Picasso.class) { if (singleton != null) { throw new IllegalStateException("Singleton instance already exists."); } singleton = picasso; } }
这个主要是用来检查Picasso的单例模式,如果Picasso不是单例的,则LruCache会失效,原因很简单,如果Picasso不是单例的,每一个Picasso都有自己的LruCache,那么LruCache本身的功能当然会失效。这一点需要注意。
3.自定义下载线程池
关于Android开发中线程池,如果你还不了解,可以参考Android开发之线程池使用总结,使用Picasso下载图片的时候,系统内部也是有一个线程池,想看这个,我们还是得回到build方法:
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public Picasso build() { Context context = this.context; if (downloader == null) { downloader = Utils.createDefaultDownloader(context); } if (cache == null) { cache = new LruCache(context); } if (service == null) { service = new PicassoExecutorService(); } if (transformer == null) { transformer = RequestTransformer.IDENTITY; } Stats stats = new Stats(cache); Dispatcher dispatcher = new Dispatcher(context, service, HANDLER, downloader, cache, stats); return new Picasso(context, dispatcher, cache, listener, transformer, requestHandlers, stats, defaultBitmapConfig, indicatorsEnabled, loggingEnabled); }
在build方法中还有一个判断,如果service为null,则新创建一个PicassoExecutorService,我们来看看这个PicassoExecutorService:
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class PicassoExecutorService extends ThreadPoolExecutor { private static final int DEFAULT_THREAD_COUNT = 3; PicassoExecutorService() { super(DEFAULT_THREAD_COUNT, DEFAULT_THREAD_COUNT, 0, TimeUnit.MILLISECONDS, new PriorityBlockingQueue<Runnable>(), new Utils.PicassoThreadFactory()); } .... .... }
大家看到,这个PicassoExecutorService继承自ThreadPoolExecutor这个线程池,线程池中的核心线程数为3,线程池的最大线程数也为3,说明线程池中没有非核心线程,线程队列使用了PriorityBlockingQueue,说明所有加载进来的任务都将实现Comparator接口。OK,这是系统默认帮我们创建的线程池,如果你想修改,可以在创建Picasso实例的时候传入自己的线程池:
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int CPU_COUNT = Runtime.getRuntime().availableProcessors(); ThreadPoolExecutor threadPoolExecutor = new ThreadPoolExecutor(CPU_COUNT + 1, CPU_COUNT * 2 + 1, 1, TimeUnit.MINUTES, new PriorityBlockingQueue<Runnable>()); Picasso picasso = new Picasso.Builder(this) .executor(threadPoolExecutor) .downloader(new OkHttp3Downloader(this.getExternalCacheDir())) .build(); Picasso.setSingletonInstance(picasso); picasso.load("http://n.sinaimg.cn/translate/20160819/9BpA-fxvcsrn8627957.jpg").into(iv);
对线程池的创建如果还不了解的话,请参考Android开发之线程池使用总结。
4.自定义下载进度条
我在之前的一篇文章中专门介绍过自定义进度条,没看过的小伙伴请戳这里Android自定义View之ProgressBar出场记。那我们今天就给Picasso加载图片的过程也来一个进度条,先来看看显示效果吧:
整体思路其实很简单,最关键是你要会用OkHttp。
经过上文的讲解,小伙伴们已经知道,我可以在构造一个Picasso实例的时候给它设置一个下载器,这个下载器是由OkHttp实现的,在这个下载器中我可以修改Picasso所加载图片的存储位置,同理,下载器中我也可以传递一个OkHttpClient作为构造参数(上文使用了缓存文件夹作为构造参数),我们来看看:
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public OkHttp3Downloader(OkHttpClient client) { this.client = client; this.cache = client.cache(); }
大家看到,如果我使用OkHttpClient作为构造参数,那么缓存位置则为OkHttpClient的缓存地址。而在OkHttpClient中有一个拦截器,我们可以在拦截器中来计算当前下载百分比,整体思路就是这样,我们来看看实现过程:
首先我来定义一个接口,这个接口用来更新我的进度条:
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public interface ProgressListener { //定义接口,取值范围为0~100 public void update(@IntRange(from = 0, to = 100) int progress); }
然后定义一个OkHttpClient对象,在定义的过程中给OkHttpClient添加拦截器:
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OkHttpClient client = new OkHttpClient.Builder() .addNetworkInterceptor(new Interceptor() { @Override public Response intercept(Chain chain) throws IOException { Response response = chain.proceed(chain.request()); return response.newBuilder() .body(new MyProgressbarResponseBody(new ProgressListener() { @Override public void update(@IntRange(from = 0, to = 100) final int progress) { //更新进度条 runOnUiThread(new Runnable() { @Override public void run() { Log.d("google_lenve_fb", "run: " + progress); myPb.setSweepAngle(progress * 360f / 100); } }); } }, response.body())) .build(); } }) //设置缓存位置,Picasso下载的图片将缓存在这里 .cache(new Cache(this.getExternalCacheDir(), 10 * 1024 * 1024)) .build();
大家看到,这里核心的代码要算addNetworkInterceptor中的代码了,OkHttp中的拦截器有点类似于JavaWeb中的过滤器 ,在所有的请求到达Servlet之前,先对其进行一个简单的处理。而OkHttp中的拦截器,我们可以观察,修改请求和响应,大多数情况下我们使用拦截器来添加、移除、转换请求或者响应的头信息。OK,那么在本案例中我重新修改了Response的body属性,给它传入两个参数,一个就是刚刚定义的监听器,还有一个就是response的body,我们来看看这个MyProgressbarResponseBody,如下:
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public class MyProgressbarResponseBody extends ResponseBody { private ResponseBody responseBody; private ProgressListener progressListener; private BufferedSource bufferedSource; public MyProgressbarResponseBody(ProgressListener progressListener, ResponseBody responseBody) { this.progressListener = progressListener; this.responseBody = responseBody; } @Override public MediaType contentType() { return responseBody.contentType(); } @Override public long contentLength() { return responseBody.contentLength(); } @Override public BufferedSource source() { if (bufferedSource == null) { bufferedSource = Okio.buffer(source(responseBody.source())); } return bufferedSource; } private Source source(Source source) { return new ForwardingSource(source) { long totalBytesRead = 0L; @Override public long read(Buffer sink, long byteCount) throws IOException { long bytesRead = super.read(sink, byteCount); totalBytesRead += bytesRead != -1 ? bytesRead : 0; if (progressListener != null) { progressListener.update( ((int) ((100 * totalBytesRead) / responseBody.contentLength()))); } return bytesRead; } }; } }
MyProgressbarResponseBody继承自ResponseBody,并重写它里边的三个方法,分别返回数据类型,数据大小等信息,在source方法中我们来统计当前下载百分比,并且回调监听器中的接口。最后再来看一眼自定义的ProgressBar,对这个如果还不了解,请参考Android自定义View之ProgressBar出场记 。
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public class MyProgressBar extends View { /** * View默认的宽 */ private static final int DEFAULTWIDTH = 200; /** * View默认的高度 */ private static final int DEFAULTHEIGHT = 200; private Paint sweepPaint; private int padding = 20; /** * 内层实体圆的颜色 */ private int sweepColor = getResources().getColor(R.color.pbColor); /** * 开始绘制的角度 */ private int startAngle = -90; /** * 已经绘制的角度 */ private float sweepAngle = 0; public MyProgressBar(Context context) { this(context, null); } public MyProgressBar(Context context, AttributeSet attrs) { this(context, attrs, 0); } public MyProgressBar(Context context, AttributeSet attrs, int defStyleAttr) { super(context, attrs, defStyleAttr); setAlpha(0.8f); sweepPaint = new Paint(); sweepPaint.setColor(sweepColor); sweepPaint.setAntiAlias(true); } @Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { super.onMeasure(widthMeasureSpec, heightMeasureSpec); //获取宽的测量模式 int widthMode = MeasureSpec.getMode(widthMeasureSpec); //获取宽的测量值 int widthSize = MeasureSpec.getSize(widthMeasureSpec); //获取高的测量模式 int heightMode = MeasureSpec.getMode(heightMeasureSpec); //获取高的测量值 int heightSize = MeasureSpec.getSize(heightMeasureSpec); switch (widthMode) { case MeasureSpec.EXACTLY: break; case MeasureSpec.AT_MOST: case MeasureSpec.UNSPECIFIED: //如果宽为wrap_content,则给定一个默认值 widthSize = (int) TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_DIP, DEFAULTWIDTH, getResources().getDisplayMetrics()); break; } switch (heightMode) { case MeasureSpec.EXACTLY: break; case MeasureSpec.AT_MOST: case MeasureSpec.UNSPECIFIED: heightSize = (int) TypedValue.applyDimension(TypedValue.COMPLEX_UNIT_DIP, DEFAULTHEIGHT, getResources().getDisplayMetrics()); break; } widthSize = heightSize = Math.min(widthSize, heightSize); //设置测量结果 setMeasuredDimension(widthSize, heightSize); } @Override protected void onDraw(Canvas canvas) { if (sweepAngle != 360 && sweepAngle != 0) { RectF oval = new RectF(padding, padding, getWidth() - padding, getHeight() - padding); Log.d("google_lenve_fb", "onDraw: " + sweepAngle); canvas.drawArc(oval, startAngle, sweepAngle, true, sweepPaint); } } public void setSweepAngle(float sweepAngle) { this.sweepAngle = sweepAngle; if (Build.VERSION.SDK_INT > 15) { postInvalidateOnAnimation(); } else { ViewCompat.postInvalidateOnAnimation(this); } } }
最后,加载一张网络图片几个,注意下载器的创建方式:
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Picasso picasso = new Picasso .Builder(this) .downloader(new OkHttp3Downloader(client)) .build();
5.Picasso源码剖析
其实我们在上文已经涉及到一些源码方面的东西了,那么接下来我们就来理一理Picasso加载图片的整体思路,首先还是先从with方法开始,进入到build方法中:
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public Picasso build() { Context context = this.context; if (downloader == null) { downloader = Utils.createDefaultDownloader(context); } if (cache == null) { cache = new LruCache(context); } if (service == null) { service = new PicassoExecutorService(); } if (transformer == null) { transformer = RequestTransformer.IDENTITY; } Stats stats = new Stats(cache); Dispatcher dispatcher = new Dispatcher(context, service, HANDLER, downloader, cache, stats); return new Picasso(context, dispatcher, cache, listener, transformer, requestHandlers, stats, defaultBitmapConfig, indicatorsEnabled, loggingEnabled); }
build方法中前面几个if判断我们刚才已经说过了,这几个判断中的变量我们在创建Picasso实例的时候都可以自定义,也可以使用系统默认创建的,我们再来总结一下:
downloader 创建一个下载器
cache 创建图片的缓存器,默认使用LruCache,这个我们一般不做修改,最多重新配置一下LruCache
service 创建图片下载的线程池
transformer 对Request进行转换,默认不做任何出处理,事实上我们一般也不需要做任何处理。
接下来就是创建一个Stats实例,这个stats主要是用来统计缓存,下载数量等数据,一言以蔽之,就是保存图片的一些状态信息。再之后,则是创建一个Dispatcher,创建Dispatcher的时候还传入了一个HANDLER,这个Handler我们在后文再说,dispatcher顾名思义就是分发,事实上dispatcher主要用来任务调度,这个一会再说,最后new一个Picasso实例返回:
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Picasso(Context context, Dispatcher dispatcher, Cache cache, Listener listener, RequestTransformer requestTransformer, List<RequestHandler> extraRequestHandlers, Stats stats, Bitmap.Config defaultBitmapConfig, boolean indicatorsEnabled, boolean loggingEnabled) { this.context = context; this.dispatcher = dispatcher; this.cache = cache; this.listener = listener; this.requestTransformer = requestTransformer; this.defaultBitmapConfig = defaultBitmapConfig; int builtInHandlers = 7; // Adjust this as internal handlers are added or removed. int extraCount = (extraRequestHandlers != null ? extraRequestHandlers.size() : 0); List<RequestHandler> allRequestHandlers = new ArrayList<RequestHandler>(builtInHandlers + extraCount); // ResourceRequestHandler needs to be the first in the list to avoid // forcing other RequestHandlers to perform null checks on request.uri // to cover the (request.resourceId != 0) case. allRequestHandlers.add(new ResourceRequestHandler(context)); if (extraRequestHandlers != null) { allRequestHandlers.addAll(extraRequestHandlers); } allRequestHandlers.add(new ContactsPhotoRequestHandler(context)); allRequestHandlers.add(new MediaStoreRequestHandler(context)); allRequestHandlers.add(new ContentStreamRequestHandler(context)); allRequestHandlers.add(new AssetRequestHandler(context)); allRequestHandlers.add(new FileRequestHandler(context)); allRequestHandlers.add(new NetworkRequestHandler(dispatcher.downloader, stats)); requestHandlers = Collections.unmodifiableList(allRequestHandlers); this.stats = stats; this.targetToAction = new WeakHashMap<Object, Action>(); this.targetToDeferredRequestCreator = new WeakHashMap<ImageView, DeferredRequestCreator>(); this.indicatorsEnabled = indicatorsEnabled; this.loggingEnabled = loggingEnabled; this.referenceQueue = new ReferenceQueue<Object>(); this.cleanupThread = new CleanupThread(referenceQueue, HANDLER); this.cleanupThread.start(); }
OK,大家看到在Picasso的构造方法里主要进行了一些变量的初始化,也初始化了RequestHandler,初始化RequestHandler时首先将我们提交进来的requestHandler加入到集合中,然后还往allRequestHandlers中提交了其它的RequestHandler,这些不同的RequestHandler,分别用来处理不同的资源,比如加载相册的图片、加载资产文件夹中的图片、加载网络图片等。
OK,那么到目前为止,我们所看到的都是build方法中引出的源码,执行完build之后,我们接下来该做的就是调用load方法了,不管你在load中传入了什么,最终都会到达下面这个方法:
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RequestCreator(Picasso picasso, Uri uri, int resourceId) { if (picasso.shutdown) { throw new IllegalStateException( "Picasso instance already shut down. Cannot submit new requests."); } this.picasso = picasso; this.data = new Request.Builder(uri, resourceId, picasso.defaultBitmapConfig); }
shutdown属性是判断Picasso实例是否已经停止运行,如果已经shutdown则抛异常,否则将我们即将要加载的图片信息保存在data中,data是一个Request.Builder对象,里边保存了我们所有的图片加载的配置信息,比如你调用了centerCrop方法:
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public RequestCreator centerCrop() { data.centerCrop(); return this; }
大家看到这些方法不过都是修改data里边的变量,当所有的配置信息都完成之后,接下载就到into方法了,那么小伙伴们大概也猜到了,真正的图片加载过程是在into方法中完成的,如下:
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public void into(ImageView target, Callback callback) { long started = System.nanoTime(); checkMain(); if (target == null) { throw new IllegalArgumentException("Target must not be null."); } if (!data.hasImage()) { picasso.cancelRequest(target); if (setPlaceholder) { setPlaceholder(target, getPlaceholderDrawable()); } return; } if (deferred) { if (data.hasSize()) { throw new IllegalStateException("Fit cannot be used with resize."); } int width = target.getWidth(); int height = target.getHeight(); if (width == 0 || height == 0) { if (setPlaceholder) { setPlaceholder(target, getPlaceholderDrawable()); } picasso.defer(target, new DeferredRequestCreator(this, target, callback)); return; } data.resize(width, height); } Request request = createRequest(started); String requestKey = createKey(request); if (shouldReadFromMemoryCache(memoryPolicy)) { Bitmap bitmap = picasso.quickMemoryCacheCheck(requestKey); if (bitmap != null) { picasso.cancelRequest(target); setBitmap(target, picasso.context, bitmap, MEMORY, noFade, picasso.indicatorsEnabled); if (picasso.loggingEnabled) { log(OWNER_MAIN, VERB_COMPLETED, request.plainId(), "from " + MEMORY); } if (callback != null) { callback.onSuccess(); } return; } } if (setPlaceholder) { setPlaceholder(target, getPlaceholderDrawable()); } Action action = new ImageViewAction(picasso, target, request, memoryPolicy, networkPolicy, errorResId, errorDrawable, requestKey, tag, callback, noFade); picasso.enqueueAndSubmit(action); }
into方法有点长,但是逻辑还是很清晰,我们来看一下,
首先checkMain方法检查程序是否运行在主线程,接下来target不能为空,这个不用多说,简单。data.hasImage表示是否设置了要加载的图片资源,如果设置了,则返回true,否则返回false。返回false时进入到if判断中,这个时候首先取消加载,然后如果设置了占位图片,就将其显示出来。接下来进入到if(deferred)的判断中,deferred这个变量是在哪里进行初始化的呢?我们来看看这里:
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public RequestCreator fit() { deferred = true; return this; } /** Internal use only. Used by {@link DeferredRequestCreator}. */ RequestCreator unfit() { deferred = false; return this; }
是在我们调用了fit方法的时候,也就是说,如果我们希望我们的图片在加载的过程中能够自由缩放以填满整个ImageView的话,那么就会进入到这个分支中,进来之后首先是判断data.hasSize,我们知道这个是判断图片是否有宽高,我们来看看hasSize方法:
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boolean hasSize() { return targetWidth != 0 || targetHeight != 0; }
那么targetWidth和targetHeight又是在什么地方调用的呢?我们不由得想到了resize方法:
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public Builder resize(int targetWidth, int targetHeight) { if (targetWidth < 0) { throw new IllegalArgumentException("Width must be positive number or 0."); } if (targetHeight < 0) { throw new IllegalArgumentException("Height must be positive number or 0."); } if (targetHeight == 0 && targetWidth == 0) { throw new IllegalArgumentException("At least one dimension has to be positive number."); } this.targetWidth = targetWidth; this.targetHeight = targetHeight; return this; }
没错,是这里,那我们在这里可以得出结论了,如果在加载一张图片的是否使用了fit这种缩放模式的话,那么不可以给图片设置resize属性,否则会抛一个Fit cannot be used with resize异常,其实这个也很好理解,你设置了fit就是希望图片自由缩放以便将ImageView填充满,结果又给图片设置了固定大小,那么你到底想怎样?。接下来系统来获取ImageView的宽和高,如果ImageView的宽和高为0的话,则首先把占位图片设置上,然后去监听ImageView的target.getViewTreeObserver().addOnPreDrawListener(this);接口,当ImageView的宽高被赋值之后,继续加载。否则直接设置ImageView的宽高为图片的宽高。OK,以上还都是在做准备工作,一个网络请求还是没有发起。接下来我们就要开始构造请求了,在into方法的第33行,我们构建一个请求,接下来是一个shouldReadFromMemoryCache,看名字就知道是否该从内存中读取图片,如果是,则根据key从Cache中读取一张图片出来,不知道大家是否还记得我们的Cache实际上就是LruCache。
如果从内从中读取到了图片,就取消请求,并把图片设置给ImageView。同时,如果我们设置了回调,则调用回调的onSuccess方法。
接下来55行创建Action,并且将Action添加到一个Picasso的enqueueAndSubmit方法中。接下来我们就来看看这个请求入队的方法:
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void enqueueAndSubmit(Action action) { Object target = action.getTarget(); if (target != null && targetToAction.get(target) != action) { // This will also check we are on the main thread. cancelExistingRequest(target); targetToAction.put(target, action); } submit(action); }
首先获取action里边的target,其实就是我们的ImageView,如果这个ImageView不为空,并且该ImageView已经有了一个Action,则取消已经存在的请求,然后重新给该target设置Action,完了之后就是submit了,我们来看看这个submit:
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void submit(Action action) { dispatcher.dispatchSubmit(action); }
咦,dispatcher,大家还记不记得我们是在哪里初始化的dispatcher呢?没错,build方法中,这里调用了dispatcher的dispatchSubmit方法,点击去再看:
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void dispatchSubmit(Action action) { handler.sendMessage(handler.obtainMessage(REQUEST_SUBMIT, action)); }
哦,原来是使用了Handler,发送了一条消息,那我们来找找handler初始化的地方,在Dispatcher类中,Handler通过如下方式初始化:
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this.handler = new DispatcherHandler(dispatcherThread.getLooper(), this);
竟然不是new一个Handler,DispatcherHandler是什么鬼?来看看:
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private static class DispatcherHandler extends Handler { private final Dispatcher dispatcher; public DispatcherHandler(Looper looper, Dispatcher dispatcher) { super(looper); this.dispatcher = dispatcher; } @Override public void handleMessage(final Message msg) { switch (msg.what) { case REQUEST_SUBMIT: { Action action = (Action) msg.obj; dispatcher.performSubmit(action); break; } case REQUEST_CANCEL: { Action action = (Action) msg.obj; dispatcher.performCancel(action); break; } case TAG_PAUSE: { Object tag = msg.obj; dispatcher.performPauseTag(tag); break; } case TAG_RESUME: { Object tag = msg.obj; dispatcher.performResumeTag(tag); break; } case HUNTER_COMPLETE: { BitmapHunter hunter = (BitmapHunter) msg.obj; dispatcher.performComplete(hunter); break; } case HUNTER_RETRY: { BitmapHunter hunter = (BitmapHunter) msg.obj; dispatcher.performRetry(hunter); break; } case HUNTER_DECODE_FAILED: { BitmapHunter hunter = (BitmapHunter) msg.obj; dispatcher.performError(hunter, false); break; } case HUNTER_DELAY_NEXT_BATCH: { dispatcher.performBatchComplete(); break; } case NETWORK_STATE_CHANGE: { NetworkInfo info = (NetworkInfo) msg.obj; dispatcher.performNetworkStateChange(info); break; } case AIRPLANE_MODE_CHANGE: { dispatcher.performAirplaneModeChange(msg.arg1 == AIRPLANE_MODE_ON); break; } default: Picasso.HANDLER.post(new Runnable() { @Override public void run() { throw new AssertionError("Unknown handler message received: " + msg.what); } }); } } }
DispatcherHandler继承自Handler重写了它里边的方法,顺藤摸瓜,找到属于我们的case,点进去,最终来到了这个方法:
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void performSubmit(Action action, boolean dismissFailed) { if (pausedTags.contains(action.getTag())) { pausedActions.put(action.getTarget(), action); if (action.getPicasso().loggingEnabled) { log(OWNER_DISPATCHER, VERB_PAUSED, action.request.logId(), "because tag '" + action.getTag() + "' is paused"); } return; } BitmapHunter hunter = hunterMap.get(action.getKey()); if (hunter != null) { hunter.attach(action); return; } if (service.isShutdown()) { if (action.getPicasso().loggingEnabled) { log(OWNER_DISPATCHER, VERB_IGNORED, action.request.logId(), "because shut down"); } return; } hunter = forRequest(action.getPicasso(), this, cache, stats, action); hunter.future = service.submit(hunter); hunterMap.put(action.getKey(), hunter); if (dismissFailed) { failedActions.remove(action.getTarget()); } if (action.getPicasso().loggingEnabled) { log(OWNER_DISPATCHER, VERB_ENQUEUED, action.request.logId()); } }
一进来,首先判断该请求是否该暂停,接下来关键的是24行,调用forRequest方法给hunter赋值,我们来看看这个forRequest方法:
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static BitmapHunter forRequest(Picasso picasso, Dispatcher dispatcher, Cache cache, Stats stats, Action action) { Request request = action.getRequest(); List<RequestHandler> requestHandlers = picasso.getRequestHandlers(); // Index-based loop to avoid allocating an iterator. //noinspection ForLoopReplaceableByForEach for (int i = 0, count = requestHandlers.size(); i < count; i++) { RequestHandler requestHandler = requestHandlers.get(i); if (requestHandler.canHandleRequest(request)) { return new BitmapHunter(picasso, dispatcher, cache, stats, action, requestHandler); } } return new BitmapHunter(picasso, dispatcher, cache, stats, action, ERRORING_HANDLER); }
这里有一个for循环,for循环中的东西就是我们所有的RequestHandler,然后通过一个if来匹配,看使用那个RequestHandler来处理我们的图片加载。
第25行创建一个BitmapHunter,并在线程池中执行请求,线程池中传入的对象是hunter,那毫无疑问,hunter肯定是实现了Runnable接口的,那接下来就去看看这个BitmapHunter的run方法:
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@Override public void run() { try { updateThreadName(data); if (picasso.loggingEnabled) { log(OWNER_HUNTER, VERB_EXECUTING, getLogIdsForHunter(this)); } result = hunt(); if (result == null) { dispatcher.dispatchFailed(this); } else { dispatcher.dispatchComplete(this); } } catch (Downloader.ResponseException e) { if (!e.localCacheOnly || e.responseCode != 504) { exception = e; } dispatcher.dispatchFailed(this); } catch (NetworkRequestHandler.ContentLengthException e) { exception = e; dispatcher.dispatchRetry(this); } catch (IOException e) { exception = e; dispatcher.dispatchRetry(this); } catch (OutOfMemoryError e) { StringWriter writer = new StringWriter(); stats.createSnapshot().dump(new PrintWriter(writer)); exception = new RuntimeException(writer.toString(), e); dispatcher.dispatchFailed(this); } catch (Exception e) { exception = e; dispatcher.dispatchFailed(this); } finally { Thread.currentThread().setName(Utils.THREAD_IDLE_NAME); } }
一进来,先更新线程名称,然后是第9行调用了hunt方法,获取到一个result,这个result是一个Bitmap,如果获取到了Bitmap则调用dispatcher.dispatchComplete方法,否则调用dispatcher.dispatchFailed方法,这两个实际上都是调用了Handler的sendMessage方法,来发送不同的消息做不同处理,我们这里就来看看hunt()方法,看看这个Bitmap到底是怎么获取的:
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Bitmap hunt() throws IOException { Bitmap bitmap = null; if (shouldReadFromMemoryCache(memoryPolicy)) { bitmap = cache.get(key); if (bitmap != null) { stats.dispatchCacheHit(); loadedFrom = MEMORY; if (picasso.loggingEnabled) { log(OWNER_HUNTER, VERB_DECODED, data.logId(), "from cache"); } return bitmap; } } data.networkPolicy = retryCount == 0 ? NetworkPolicy.OFFLINE.index : networkPolicy; RequestHandler.Result result = requestHandler.load(data, networkPolicy); if (result != null) { loadedFrom = result.getLoadedFrom(); exifRotation = result.getExifOrientation(); bitmap = result.getBitmap(); // If there was no Bitmap then we need to decode it from the stream. if (bitmap == null) { InputStream is = result.getStream(); try { bitmap = decodeStream(is, data); } finally { Utils.closeQuietly(is); } } } if (bitmap != null) { if (picasso.loggingEnabled) { log(OWNER_HUNTER, VERB_DECODED, data.logId()); } stats.dispatchBitmapDecoded(bitmap); if (data.needsTransformation() || exifRotation != 0) { synchronized (DECODE_LOCK) { if (data.needsMatrixTransform() || exifRotation != 0) { bitmap = transformResult(data, bitmap, exifRotation); if (picasso.loggingEnabled) { log(OWNER_HUNTER, VERB_TRANSFORMED, data.logId()); } } if (data.hasCustomTransformations()) { bitmap = applyCustomTransformations(data.transformations, bitmap); if (picasso.loggingEnabled) { log(OWNER_HUNTER, VERB_TRANSFORMED, data.logId(), "from custom transformations"); } } } if (bitmap != null) { stats.dispatchBitmapTransformed(bitmap); } } } return bitmap; }
首先是判断是否可以从内存中获取这张图片,如果可以,将图片加载出来并返回,并更新stats中相关变量,否则就会来到第17行,从一个RequestHandler中读取,那么RequestHandler是我们在new一个Picasso的时候传入了多个RequestHandler,这里到底是使用哪一个RequestHandler呢?这就和我们上文说的匹配RequestHandler有关了,毫无疑问,我们下载网络图片,当然是匹配NetworkRequestHandler,那我们看看NetworkRequestHandler里边的load方法:
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@Override public Result load(Request request, int networkPolicy) throws IOException { Response response = downloader.load(request.uri, request.networkPolicy); if (response == null) { return null; } Picasso.LoadedFrom loadedFrom = response.cached ? DISK : NETWORK; Bitmap bitmap = response.getBitmap(); if (bitmap != null) { return new Result(bitmap, loadedFrom); } InputStream is = response.getInputStream(); if (is == null) { return null; } // Sometimes response content length is zero when requests are being replayed. Haven't found // root cause to this but retrying the request seems safe to do so. if (loadedFrom == DISK && response.getContentLength() == 0) { Utils.closeQuietly(is); throw new ContentLengthException("Received response with 0 content-length header."); } if (loadedFrom == NETWORK && response.getContentLength() > 0) { stats.dispatchDownloadFinished(response.getContentLength()); } return new Result(is, loadedFrom); }
这个方法里首先调用了downloader里边的load方法,获取一个Response对象,然后再拿到这个response对象里边的Bitmap返回,downloader就是我们在上文说的那个downloader,我们就看那个源码吧,反正和Piasso自带的差不多,看看它里边的load方法:
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@Override public Response load(Uri uri, int networkPolicy) throws IOException { CacheControl cacheControl = null; if (networkPolicy != 0) { if (NetworkPolicy.isOfflineOnly(networkPolicy)) { cacheControl = CacheControl.FORCE_CACHE; } else { CacheControl.Builder builder = new CacheControl.Builder(); if (!NetworkPolicy.shouldReadFromDiskCache(networkPolicy)) { builder.noCache(); } if (!NetworkPolicy.shouldWriteToDiskCache(networkPolicy)) { builder.noStore(); } cacheControl = builder.build(); } } Request.Builder builder = new Request.Builder().url(uri.toString()); if (cacheControl != null) { builder.cacheControl(cacheControl); } okhttp3.Response response = client.newCall(builder.build()).execute(); int responseCode = response.code(); if (responseCode >= 300) { response.body().close(); throw new ResponseException(responseCode + " " + response.message(), networkPolicy, responseCode); } boolean fromCache = response.cacheResponse() != null; ResponseBody responseBody = response.body(); return new Response(responseBody.byteStream(), fromCache, responseBody.contentLength()); }
哈哈,在这里我们总算看到了网络访问的代码了,就是大家熟悉的OkHttp网络请求了,下载到数据之后,再重新new一个Response对象返回。just so so。。。。
现在我们再回到BitmapHunter的run方法中,当成功获取到bitmap之后,接下来调用dispatcher.dispatchComplete(this);发送一条消息:
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void dispatchComplete(BitmapHunter hunter) { handler.sendMessage(handler.obtainMessage(HUNTER_COMPLETE, hunter)); }
又是Handler,再找:
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case HUNTER_COMPLETE: { BitmapHunter hunter = (BitmapHunter) msg.obj; dispatcher.performComplete(hunter); break; }
这里又调用了dispatcher.performComplete方法,点击去看看:
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void performComplete(BitmapHunter hunter) { if (shouldWriteToMemoryCache(hunter.getMemoryPolicy())) { cache.set(hunter.getKey(), hunter.getResult()); } hunterMap.remove(hunter.getKey()); batch(hunter); if (hunter.getPicasso().loggingEnabled) { log(OWNER_DISPATCHER, VERB_BATCHED, getLogIdsForHunter(hunter), "for completion"); } }
首先判断了是否该将Bitmap写入到内存缓存中,需要的话就写入,然后是batch方法:
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private void batch(BitmapHunter hunter) { if (hunter.isCancelled()) { return; } batch.add(hunter); if (!handler.hasMessages(HUNTER_DELAY_NEXT_BATCH)) { handler.sendEmptyMessageDelayed(HUNTER_DELAY_NEXT_BATCH, BATCH_DELAY); } }
首先判断如果hunter已经被取消,则直接返回,否则将hunter加入到batch中,然后判断Handler中是否有一条HUNTER_DELAY_NEXT_BATCH消息,没有的话就发一条,OK,发一条之后,我们来找到相关的case:
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case HUNTER_DELAY_NEXT_BATCH: { dispatcher.performBatchComplete(); break; }
继续点:
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void performBatchComplete() { List<BitmapHunter> copy = new ArrayList<BitmapHunter>(batch); batch.clear(); mainThreadHandler.sendMessage(mainThreadHandler.obtainMessage(HUNTER_BATCH_COMPLETE, copy)); logBatch(copy); }
在这里将batch存入到一个新的List集合中,然后mainThreadHandler又发送一条消息,这个mainThreadHandler是什么鬼?不知道大家是否还记得在build方法中我们创建Dispatch实例的时候传入了一个Handler,就是那个在主线程中创建的Handler,在Picasso那个类里边,我们找到了HUNTER_BATCH_COMPLETE这个case:
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case HUNTER_BATCH_COMPLETE: { @SuppressWarnings("unchecked") List<BitmapHunter> batch = (List<BitmapHunter>) msg.obj; //noinspection ForLoopReplaceableByForEach for (int i = 0, n = batch.size(); i < n; i++) { BitmapHunter hunter = batch.get(i); hunter.picasso.complete(hunter); } break; }
这个case中我们来一条一条的处理batch中的消息,交给picasso的complete方法去处理:
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void complete(BitmapHunter hunter) { Action single = hunter.getAction(); List<Action> joined = hunter.getActions(); boolean hasMultiple = joined != null && !joined.isEmpty(); boolean shouldDeliver = single != null || hasMultiple; if (!shouldDeliver) { return; } Uri uri = hunter.getData().uri; Exception exception = hunter.getException(); Bitmap result = hunter.getResult(); LoadedFrom from = hunter.getLoadedFrom(); if (single != null) { deliverAction(result, from, single); } if (hasMultiple) { //noinspection ForLoopReplaceableByForEach for (int i = 0, n = joined.size(); i < n; i++) { Action join = joined.get(i); deliverAction(result, from, join); } } if (listener != null && exception != null) { listener.onImageLoadFailed(this, uri, exception); } }
在这里,14行我们拿到Bitmap,17行去派发Action,如果有合并的Action则在25行进行派发,我们来看看这个派发操作:
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private void deliverAction(Bitmap result, LoadedFrom from, Action action) { if (action.isCancelled()) { return; } if (!action.willReplay()) { targetToAction.remove(action.getTarget()); } if (result != null) { if (from == null) { throw new AssertionError("LoadedFrom cannot be null."); } action.complete(result, from); if (loggingEnabled) { log(OWNER_MAIN, VERB_COMPLETED, action.request.logId(), "from " + from); } } else { action.error(); if (loggingEnabled) { log(OWNER_MAIN, VERB_ERRORED, action.request.logId()); } } }
第8行,如果Bitmap不为空,则会执行第12行,调用action的complete方法,Action是我们在into方法中创建的,当时new了一个ImageViewAction,所以我们去找ImageViewAction的complete方法:
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@Override public void complete(Bitmap result, Picasso.LoadedFrom from) { if (result == null) { throw new AssertionError( String.format("Attempted to complete action with no result!\n%s", this)); } ImageView target = this.target.get(); if (target == null) { return; } Context context = picasso.context; boolean indicatorsEnabled = picasso.indicatorsEnabled; PicassoDrawable.setBitmap(target, context, result, from, noFade, indicatorsEnabled); if (callback != null) { callback.onSuccess(); } }
获取到所有信息之后,然后调用PicassoDrawable的setBitmap方法:
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static void setBitmap(ImageView target, Context context, Bitmap bitmap, Picasso.LoadedFrom loadedFrom, boolean noFade, boolean debugging) { Drawable placeholder = target.getDrawable(); if (placeholder instanceof AnimationDrawable) { ((AnimationDrawable) placeholder).stop(); } PicassoDrawable drawable = new PicassoDrawable(context, bitmap, placeholder, loadedFrom, noFade, debugging); target.setImageDrawable(drawable); }
终于看到了给target设置图片的代码了,这里的代码都很简单,不多说。
OK,这就是对Picasso做了一个简单介绍,有问题的小伙伴欢迎留言讨论。
