显示系统1--Choreograhper

1. Choreograhper简介

Choreograhper作为一个中间层,负责协调动画,输入, 绘制的执行过程。将底层的如VSync信号做分发,按需传递给上层应用。

2. Choreograhper源码解析:

所有对Choreograhper的使用都是通过Choreograhper类的静态方法:

    public static Choreographer getInstance() {
        return sThreadInstance.get();
    }

sThreadInstance是ThreadLocal类型, 因而它的get() 方法是拿到本线程的Choreographer对象:

// Thread local storage for the choreographer.
    private static final ThreadLocal<Choreographer> sThreadInstance =
            new ThreadLocal<Choreographer>() {
        @Override
        protected Choreographer initialValue() {
            Looper looper = Looper.myLooper();
            if (looper == null) {
                throw new IllegalStateException("The current thread must have a looper!");
            }
            Choreographer choreographer = new Choreographer(looper, VSYNC_SOURCE_APP);
            if (looper == Looper.getMainLooper()) {
                mMainInstance = choreographer;
            }
            return choreographer;
        }
    };

构造函数:

private Choreographer(Looper looper, int vsyncSource) {
        mLooper = looper;
        mHandler = new FrameHandler(looper);
//创建接收VSync信号的FrameDisplayEventReceiver对象
        mDisplayEventReceiver = USE_VSYNC
                ? new FrameDisplayEventReceiver(looper, vsyncSource)
                : null;
        mLastFrameTimeNanos = Long.MIN_VALUE;
//计算刷新的时间间隔
        mFrameIntervalNanos = (long)(1000000000 / getRefreshRate());
//创建三个CallbackQueue对象
        mCallbackQueues = new CallbackQueue[CALLBACK_LAST + 1];
        for (int i = 0; i <= CALLBACK_LAST; i++) {
            mCallbackQueues[i] = new CallbackQueue();
        }
        // b/68769804: For low FPS experiments.
        setFPSDivisor(SystemProperties.getInt(ThreadedRenderer.DEBUG_FPS_DIVISOR, 1));
    }

其中FrameDisplayEventReceiver是最重要的, 能够接收VSync信号, 继承自DisplayEventRececiver, 构造函数:

public DisplayEventReceiver(Looper looper, int vsyncSource) {
        if (looper == null) {
            throw new IllegalArgumentException("looper must not be null");
        }

        mMessageQueue = looper.getQueue();
        mReceiverPtr = nativeInit(new WeakReference<DisplayEventReceiver>(this), mMessageQueue,
                vsyncSource);

        mCloseGuard.open("dispose");
    }

nativeInit的代码:

static jlong nativeInit(JNIEnv* env, jclass clazz, jobject receiverWeak,
        jobject messageQueueObj, jint vsyncSource) {
    sp<MessageQueue> messageQueue = android_os_MessageQueue_getMessageQueue(env, messageQueueObj);
    if (messageQueue == NULL) {
        jniThrowRuntimeException(env, "MessageQueue is not initialized.");
        return 0;
    }

    sp<NativeDisplayEventReceiver> receiver = new NativeDisplayEventReceiver(env,
            receiverWeak, messageQueue, vsyncSource);
    status_t status = receiver->initialize();
    if (status) {
        String8 message;
        message.appendFormat("Failed to initialize display event receiver.  status=%d", status);
        jniThrowRuntimeException(env, message.string());
        return 0;
    }

    receiver->incStrong(gDisplayEventReceiverClassInfo.clazz); // retain a reference for the object
    return reinterpret_cast<jlong>(receiver.get());
}

这里新建了一个NativeDisplayEventReceiver, 然后NativeDisplayEventReceiver里又建立了一个DisplayEventReceiver对象, DisplayEventReceiver的构造函数:

DisplayEventReceiver::DisplayEventReceiver(ISurfaceComposer::VsyncSource vsyncSource) {
    sp<ISurfaceComposer> sf(ComposerService::getComposerService());
    if (sf != NULL) {
        mEventConnection = sf->createDisplayEventConnection(vsyncSource);
        if (mEventConnection != NULL) {
            mDataChannel = std::make_unique<gui::BitTube>();
            mEventConnection->stealReceiveChannel(mDataChannel.get());
        }
    }
}

DisplayEventReceiver里调用了SurfaceFlinger的createDisplayEventConnection来返回一个IDisplayEventConnection。createDisplayEventConnection正是调用了他的mEventThread变量的createEventConnection函数来得到IDisplayEventConnection的。得到IDisplayEventConnection对象后,再调用他的getDataChannel()函数就可以和SurfaceFlinger中的EventThread对象进行通信了。

拿到通道后, 当通道有信号到达时,会调用NativeDisplayEventReceiver对象的handleEvent函数,取到数据后调用dispatchVsync()函数:

void NativeDisplayEventReceiver::dispatchVsync(nsecs_t timestamp, int32_t id, uint32_t count) {
    JNIEnv* env = AndroidRuntime::getJNIEnv();

    ScopedLocalRef<jobject> receiverObj(env, jniGetReferent(env, mReceiverWeakGlobal));
    if (receiverObj.get()) {
        ALOGV("receiver %p ~ Invoking vsync handler.", this);
        env->CallVoidMethod(receiverObj.get(),
                gDisplayEventReceiverClassInfo.dispatchVsync, timestamp, id, count);
        ALOGV("receiver %p ~ Returned from vsync handler.", this);
    }

    mMessageQueue->raiseAndClearException(env, "dispatchVsync");
}

dispatchVsync会调用java层的dispatchVsync,这样信号就传到了java层。
java层的dispatchVsync:

// Called from native code.
    @SuppressWarnings("unused")
private void dispatchVsync(long timestampNanos, int builtInDisplayId, int frame) {
        onVsync(timestampNanos, builtInDisplayId, frame);
    }

在Choreography里的DisplayEventReceiver是FrameDisplayEventReceiver, onVsync函数:

@Override
        public void onVsync(long timestampNanos, int builtInDisplayId, int frame) {
            // Ignore vsync from secondary display.
            // This can be problematic because the call to scheduleVsync() is a one-shot.
            // We need to ensure that we will still receive the vsync from the primary
            // display which is the one we really care about.  Ideally we should schedule
            // vsync for a particular display.
            // At this time Surface Flinger won't send us vsyncs for secondary displays
            // but that could change in the future so let's log a message to help us remember
            // that we need to fix this.
            if (builtInDisplayId != SurfaceControl.BUILT_IN_DISPLAY_ID_MAIN) {
                Log.d(TAG, "Received vsync from secondary display, but we don't support "
                        + "this case yet.  Choreographer needs a way to explicitly request "
                        + "vsync for a specific display to ensure it doesn't lose track "
                        + "of its scheduled vsync.");
                scheduleVsync();
                return;
            }

            // Post the vsync event to the Handler.
            // The idea is to prevent incoming vsync events from completely starving
            // the message queue.  If there are no messages in the queue with timestamps
            // earlier than the frame time, then the vsync event will be processed immediately.
            // Otherwise, messages that predate the vsync event will be handled first.
            long now = System.nanoTime();
            if (timestampNanos > now) {
                Log.w(TAG, "Frame time is " + ((timestampNanos - now) * 0.000001f)
                        + " ms in the future!  Check that graphics HAL is generating vsync "
                        + "timestamps using the correct timebase.");
                timestampNanos = now;
            }

            if (mHavePendingVsync) {
                Log.w(TAG, "Already have a pending vsync event.  There should only be "
                        + "one at a time.");
            } else {
                mHavePendingVsync = true;
            }

            mTimestampNanos = timestampNanos;
            mFrame = frame;
            Message msg = Message.obtain(mHandler, this);
            msg.setAsynchronous(true);
            mHandler.sendMessageAtTime(msg, timestampNanos / TimeUtils.NANOS_PER_MS);
        }

onVsync发出一个消息后就返回了,并不影响VSync信号的继续传递,对消息的处理在run方法里。

@Override
        public void run() {
            mHavePendingVsync = false;
            doFrame(mTimestampNanos, mFrame);
        }

附FrameHandler的定义:

private final class FrameHandler extends Handler {
        public FrameHandler(Looper looper) {
            super(looper);
        }

        @Override
        public void handleMessage(Message msg) {
            switch (msg.what) {
                case MSG_DO_FRAME:
                    doFrame(System.nanoTime(), 0);
                    break;
                case MSG_DO_SCHEDULE_VSYNC:
                    doScheduleVsync();
                    break;
                case MSG_DO_SCHEDULE_CALLBACK:
                    doScheduleCallback(msg.arg1);
                    break;
            }
        }
    }

doFramef函数:

void doFrame(long frameTimeNanos, int frame) {
    final long startNanos;
    synchronized (mLock) {
        if (!mFrameScheduled) {
            return; // mFrameScheduled=false,则直接返回。
        }

        long intendedFrameTimeNanos = frameTimeNanos; //原本计划的绘帧时间点
        startNanos = System.nanoTime();
        final long jitterNanos = startNanos - frameTimeNanos;
        if (jitterNanos >= mFrameIntervalNanos) {
            
            final long skippedFrames = jitterNanos / mFrameIntervalNanos;
            //当掉帧个数超过30,则输出相应log
            if (skippedFrames >= SKIPPED_FRAME_WARNING_LIMIT) {
                Log.i(TAG, "Skipped " + skippedFrames + " frames! "
                        + "The application may be doing too much work on its main thread.");
            }
            final long lastFrameOffset = jitterNanos % mFrameIntervalNanos;
            frameTimeNanos = startNanos - lastFrameOffset; //对齐帧的时间间隔
        }

        if (frameTimeNanos < mLastFrameTimeNanos) {
            scheduleVsyncLocked();
            return;
        }

        mFrameInfo.setVsync(intendedFrameTimeNanos, frameTimeNanos);
        mFrameScheduled = false;
        mLastFrameTimeNanos = frameTimeNanos;
    }

    try {
        Trace.traceBegin(Trace.TRACE_TAG_VIEW, "Choreographer#doFrame");

        mFrameInfo.markInputHandlingStart();
        doCallbacks(Choreographer.CALLBACK_INPUT, frameTimeNanos);

        mFrameInfo.markAnimationsStart();
        doCallbacks(Choreographer.CALLBACK_ANIMATION, frameTimeNanos);

        mFrameInfo.markPerformTraversalsStart();
        doCallbacks(Choreographer.CALLBACK_TRAVERSAL, frameTimeNanos);

        doCallbacks(Choreographer.CALLBACK_COMMIT, frameTimeNanos);
    } finally {
        Trace.traceEnd(Trace.TRACE_TAG_VIEW);
    }
}

最终有4个回调方法,依次为如下:
INPUT:输入事件
ANIMATION:动画
TRAVERSAL:窗口刷新
COMMIT

参考文章:
深入解析Android5.0系统 刘超著
https://developer.android.com/reference/android/view/Choreographer
http://gityuan.com/2017/02/25/choreographer/
https://www.cnblogs.com/dasusu/p/8311324.html

最后编辑于
©著作权归作者所有,转载或内容合作请联系作者
  • 序言:七十年代末,一起剥皮案震惊了整个滨河市,随后出现的几起案子,更是在滨河造成了极大的恐慌,老刑警刘岩,带你破解...
    沈念sama阅读 206,723评论 6 481
  • 序言:滨河连续发生了三起死亡事件,死亡现场离奇诡异,居然都是意外死亡,警方通过查阅死者的电脑和手机,发现死者居然都...
    沈念sama阅读 88,485评论 2 382
  • 文/潘晓璐 我一进店门,熙熙楼的掌柜王于贵愁眉苦脸地迎上来,“玉大人,你说我怎么就摊上这事。” “怎么了?”我有些...
    开封第一讲书人阅读 152,998评论 0 344
  • 文/不坏的土叔 我叫张陵,是天一观的道长。 经常有香客问我,道长,这世上最难降的妖魔是什么? 我笑而不...
    开封第一讲书人阅读 55,323评论 1 279
  • 正文 为了忘掉前任,我火速办了婚礼,结果婚礼上,老公的妹妹穿的比我还像新娘。我一直安慰自己,他们只是感情好,可当我...
    茶点故事阅读 64,355评论 5 374
  • 文/花漫 我一把揭开白布。 她就那样静静地躺着,像睡着了一般。 火红的嫁衣衬着肌肤如雪。 梳的纹丝不乱的头发上,一...
    开封第一讲书人阅读 49,079评论 1 285
  • 那天,我揣着相机与录音,去河边找鬼。 笑死,一个胖子当着我的面吹牛,可吹牛的内容都是我干的。 我是一名探鬼主播,决...
    沈念sama阅读 38,389评论 3 400
  • 文/苍兰香墨 我猛地睁开眼,长吁一口气:“原来是场噩梦啊……” “哼!你这毒妇竟也来了?” 一声冷哼从身侧响起,我...
    开封第一讲书人阅读 37,019评论 0 259
  • 序言:老挝万荣一对情侣失踪,失踪者是张志新(化名)和其女友刘颖,没想到半个月后,有当地人在树林里发现了一具尸体,经...
    沈念sama阅读 43,519评论 1 300
  • 正文 独居荒郊野岭守林人离奇死亡,尸身上长有42处带血的脓包…… 初始之章·张勋 以下内容为张勋视角 年9月15日...
    茶点故事阅读 35,971评论 2 325
  • 正文 我和宋清朗相恋三年,在试婚纱的时候发现自己被绿了。 大学时的朋友给我发了我未婚夫和他白月光在一起吃饭的照片。...
    茶点故事阅读 38,100评论 1 333
  • 序言:一个原本活蹦乱跳的男人离奇死亡,死状恐怖,灵堂内的尸体忽然破棺而出,到底是诈尸还是另有隐情,我是刑警宁泽,带...
    沈念sama阅读 33,738评论 4 324
  • 正文 年R本政府宣布,位于F岛的核电站,受9级特大地震影响,放射性物质发生泄漏。R本人自食恶果不足惜,却给世界环境...
    茶点故事阅读 39,293评论 3 307
  • 文/蒙蒙 一、第九天 我趴在偏房一处隐蔽的房顶上张望。 院中可真热闹,春花似锦、人声如沸。这庄子的主人今日做“春日...
    开封第一讲书人阅读 30,289评论 0 19
  • 文/苍兰香墨 我抬头看了看天上的太阳。三九已至,却和暖如春,着一层夹袄步出监牢的瞬间,已是汗流浃背。 一阵脚步声响...
    开封第一讲书人阅读 31,517评论 1 262
  • 我被黑心中介骗来泰国打工, 没想到刚下飞机就差点儿被人妖公主榨干…… 1. 我叫王不留,地道东北人。 一个月前我还...
    沈念sama阅读 45,547评论 2 354
  • 正文 我出身青楼,却偏偏与公主长得像,于是被迫代替她去往敌国和亲。 传闻我的和亲对象是个残疾皇子,可洞房花烛夜当晚...
    茶点故事阅读 42,834评论 2 345