sdk/android/api/org/webrtc/VideoFileRenderer.java - src/webrtc - Git at Google

 /*
  *  Copyright 2016 The WebRTC Project Authors. All rights reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 package org.webrtc;

 import android.os.Handler;
 import android.os.HandlerThread;
 import java.io.FileOutputStream;
 import java.io.IOException;
 import java.nio.ByteBuffer;
 import java.util.concurrent.CountDownLatch;
 import java.util.ArrayList;

 /**
  * Can be used to save the video frames to file.
  */
 public class VideoFileRenderer implements VideoRenderer.Callbacks {
   static {
     System.loadLibrary("jingle_peerconnection_so");
   }

   private static final String TAG = "VideoFileRenderer";

   private final HandlerThread renderThread;
   private final Object handlerLock = new Object();
   private final Handler renderThreadHandler;
   private final FileOutputStream videoOutFile;
   private final String outputFileName;
   private final int outputFileWidth;
   private final int outputFileHeight;
   private final int outputFrameSize;
   private final ByteBuffer outputFrameBuffer;
   private EglBase eglBase;
   private YuvConverter yuvConverter;
   private ArrayList<ByteBuffer> rawFrames = new ArrayList<>();

   public VideoFileRenderer(String outputFile, int outputFileWidth, int outputFileHeight,
       final EglBase.Context sharedContext) throws IOException {
     if ((outputFileWidth % 2) == 1 || (outputFileHeight % 2) == 1) {
       throw new IllegalArgumentException("Does not support uneven width or height");
     }

     this.outputFileName = outputFile;
     this.outputFileWidth = outputFileWidth;
     this.outputFileHeight = outputFileHeight;

     outputFrameSize = outputFileWidth * outputFileHeight * 3 / 2;
     outputFrameBuffer = ByteBuffer.allocateDirect(outputFrameSize);

     videoOutFile = new FileOutputStream(outputFile);
     videoOutFile.write(
         ("YUV4MPEG2 C420 W" + outputFileWidth + " H" + outputFileHeight + " Ip F30:1 A1:1\n")
             .getBytes());

     renderThread = new HandlerThread(TAG);
     renderThread.start();
     renderThreadHandler = new Handler(renderThread.getLooper());

     ThreadUtils.invokeAtFrontUninterruptibly(renderThreadHandler, new Runnable() {
       @Override
       public void run() {
         eglBase = EglBase.create(sharedContext, EglBase.CONFIG_PIXEL_BUFFER);
         eglBase.createDummyPbufferSurface();
         eglBase.makeCurrent();
         yuvConverter = new YuvConverter();
       }
     });
   }

   @Override
   public void renderFrame(final VideoRenderer.I420Frame frame) {
     renderThreadHandler.post(new Runnable() {
       @Override
       public void run() {
         renderFrameOnRenderThread(frame);
       }
     });
   }

   private void renderFrameOnRenderThread(VideoRenderer.I420Frame frame) {
     final float frameAspectRatio = (float) frame.rotatedWidth() / (float) frame.rotatedHeight();

     final float[] rotatedSamplingMatrix =
         RendererCommon.rotateTextureMatrix(frame.samplingMatrix, frame.rotationDegree);
     final float[] layoutMatrix = RendererCommon.getLayoutMatrix(
         false, frameAspectRatio, (float) outputFileWidth / outputFileHeight);
     final float[] texMatrix = RendererCommon.multiplyMatrices(rotatedSamplingMatrix, layoutMatrix);

     try {
       ByteBuffer buffer = nativeCreateNativeByteBuffer(outputFrameSize);
       if (!frame.yuvFrame) {
         yuvConverter.convert(outputFrameBuffer, outputFileWidth, outputFileHeight, outputFileWidth,
             frame.textureId, texMatrix);

         int stride = outputFileWidth;
         byte[] data = outputFrameBuffer.array();
         int offset = outputFrameBuffer.arrayOffset();

         // Write Y
         buffer.put(data, offset, outputFileWidth * outputFileHeight);

         // Write U
         for (int r = outputFileHeight; r < outputFileHeight * 3 / 2; ++r) {
           buffer.put(data, offset + r * stride, stride / 2);
         }

         // Write V
         for (int r = outputFileHeight; r < outputFileHeight * 3 / 2; ++r) {
           buffer.put(data, offset + r * stride + stride / 2, stride / 2);
         }
       } else {
         nativeI420Scale(frame.yuvPlanes[0], frame.yuvStrides[0], frame.yuvPlanes[1],
             frame.yuvStrides[1], frame.yuvPlanes[2], frame.yuvStrides[2], frame.width, frame.height,
             outputFrameBuffer, outputFileWidth, outputFileHeight);

         buffer.put(outputFrameBuffer.array(), outputFrameBuffer.arrayOffset(), outputFrameSize);
       }
       buffer.rewind();
       rawFrames.add(buffer);
     } finally {
       VideoRenderer.renderFrameDone(frame);
     }
   }

   /**
    * Release all resources. All already posted frames will be rendered first.
    */
   public void release() {
     final CountDownLatch cleanupBarrier = new CountDownLatch(1);
     renderThreadHandler.post(new Runnable() {
       @Override
       public void run() {
         yuvConverter.release();
         eglBase.release();
         renderThread.quit();
         cleanupBarrier.countDown();
       }
     });
     ThreadUtils.awaitUninterruptibly(cleanupBarrier);
     try {
       for (ByteBuffer buffer : rawFrames) {
         videoOutFile.write("FRAME\n".getBytes());

         byte[] data = new byte[outputFrameSize];
         buffer.get(data);

         videoOutFile.write(data);

         nativeFreeNativeByteBuffer(buffer);
       }
       videoOutFile.close();
       Logging.d(TAG, "Video written to disk as " + outputFileName + ". Number frames are "
               + rawFrames.size() + " and the dimension of the frames are " + outputFileWidth + "x"
               + outputFileHeight + ".");
     } catch (IOException e) {
       Logging.e(TAG, "Error writing video to disk", e);
     }
   }

   public static native void nativeI420Scale(ByteBuffer srcY, int strideY, ByteBuffer srcU,
       int strideU, ByteBuffer srcV, int strideV, int width, int height, ByteBuffer dst,
       int dstWidth, int dstHeight);

   public static native ByteBuffer nativeCreateNativeByteBuffer(int size);

   public static native void nativeFreeNativeByteBuffer(ByteBuffer buffer);
 }
	/*
	* Copyright 2016 The WebRTC Project Authors. All rights reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	package org.webrtc;

	import android.os.Handler;
	import android.os.HandlerThread;
	import java.io.FileOutputStream;
	import java.io.IOException;
	import java.nio.ByteBuffer;
	import java.util.concurrent.CountDownLatch;
	import java.util.ArrayList;

	/**
	* Can be used to save the video frames to file.
	*/
	public class VideoFileRenderer implements VideoRenderer.Callbacks {
	static {
	System.loadLibrary("jingle_peerconnection_so");
	}

	private static final String TAG = "VideoFileRenderer";

	private final HandlerThread renderThread;
	private final Object handlerLock = new Object();
	private final Handler renderThreadHandler;
	private final FileOutputStream videoOutFile;
	private final String outputFileName;
	private final int outputFileWidth;
	private final int outputFileHeight;
	private final int outputFrameSize;
	private final ByteBuffer outputFrameBuffer;
	private EglBase eglBase;
	private YuvConverter yuvConverter;
	private ArrayList<ByteBuffer> rawFrames = new ArrayList<>();

	public VideoFileRenderer(String outputFile, int outputFileWidth, int outputFileHeight,
	final EglBase.Context sharedContext) throws IOException {
	if ((outputFileWidth % 2) == 1 \|\| (outputFileHeight % 2) == 1) {
	throw new IllegalArgumentException("Does not support uneven width or height");
	}

	this.outputFileName = outputFile;
	this.outputFileWidth = outputFileWidth;
	this.outputFileHeight = outputFileHeight;

	outputFrameSize = outputFileWidth * outputFileHeight * 3 / 2;
	outputFrameBuffer = ByteBuffer.allocateDirect(outputFrameSize);

	videoOutFile = new FileOutputStream(outputFile);
	videoOutFile.write(
	("YUV4MPEG2 C420 W" + outputFileWidth + " H" + outputFileHeight + " Ip F30:1 A1:1\n")
	.getBytes());

	renderThread = new HandlerThread(TAG);
	renderThread.start();
	renderThreadHandler = new Handler(renderThread.getLooper());

	ThreadUtils.invokeAtFrontUninterruptibly(renderThreadHandler, new Runnable() {
	@Override
	public void run() {
	eglBase = EglBase.create(sharedContext, EglBase.CONFIG_PIXEL_BUFFER);
	eglBase.createDummyPbufferSurface();
	eglBase.makeCurrent();
	yuvConverter = new YuvConverter();
	}
	});
	}

	@Override
	public void renderFrame(final VideoRenderer.I420Frame frame) {
	renderThreadHandler.post(new Runnable() {
	@Override
	public void run() {
	renderFrameOnRenderThread(frame);
	}
	});
	}

	private void renderFrameOnRenderThread(VideoRenderer.I420Frame frame) {
	final float frameAspectRatio = (float) frame.rotatedWidth() / (float) frame.rotatedHeight();

	final float[] rotatedSamplingMatrix =
	RendererCommon.rotateTextureMatrix(frame.samplingMatrix, frame.rotationDegree);
	final float[] layoutMatrix = RendererCommon.getLayoutMatrix(
	false, frameAspectRatio, (float) outputFileWidth / outputFileHeight);
	final float[] texMatrix = RendererCommon.multiplyMatrices(rotatedSamplingMatrix, layoutMatrix);

	try {
	ByteBuffer buffer = nativeCreateNativeByteBuffer(outputFrameSize);
	if (!frame.yuvFrame) {
	yuvConverter.convert(outputFrameBuffer, outputFileWidth, outputFileHeight, outputFileWidth,
	frame.textureId, texMatrix);

	int stride = outputFileWidth;
	byte[] data = outputFrameBuffer.array();
	int offset = outputFrameBuffer.arrayOffset();

	// Write Y
	buffer.put(data, offset, outputFileWidth * outputFileHeight);

	// Write U
	for (int r = outputFileHeight; r < outputFileHeight * 3 / 2; ++r) {
	buffer.put(data, offset + r * stride, stride / 2);
	}

	// Write V
	for (int r = outputFileHeight; r < outputFileHeight * 3 / 2; ++r) {
	buffer.put(data, offset + r * stride + stride / 2, stride / 2);
	}
	} else {
	nativeI420Scale(frame.yuvPlanes[0], frame.yuvStrides[0], frame.yuvPlanes[1],
	frame.yuvStrides[1], frame.yuvPlanes[2], frame.yuvStrides[2], frame.width, frame.height,
	outputFrameBuffer, outputFileWidth, outputFileHeight);

	buffer.put(outputFrameBuffer.array(), outputFrameBuffer.arrayOffset(), outputFrameSize);
	}
	buffer.rewind();
	rawFrames.add(buffer);
	} finally {
	VideoRenderer.renderFrameDone(frame);
	}
	}

	/**
	* Release all resources. All already posted frames will be rendered first.
	*/
	public void release() {
	final CountDownLatch cleanupBarrier = new CountDownLatch(1);
	renderThreadHandler.post(new Runnable() {
	@Override
	public void run() {
	yuvConverter.release();
	eglBase.release();
	renderThread.quit();
	cleanupBarrier.countDown();
	}
	});
	ThreadUtils.awaitUninterruptibly(cleanupBarrier);
	try {
	for (ByteBuffer buffer : rawFrames) {
	videoOutFile.write("FRAME\n".getBytes());

	byte[] data = new byte[outputFrameSize];
	buffer.get(data);

	videoOutFile.write(data);

	nativeFreeNativeByteBuffer(buffer);
	}
	videoOutFile.close();
	Logging.d(TAG, "Video written to disk as " + outputFileName + ". Number frames are "
	+ rawFrames.size() + " and the dimension of the frames are " + outputFileWidth + "x"
	+ outputFileHeight + ".");
	} catch (IOException e) {
	Logging.e(TAG, "Error writing video to disk", e);
	}
	}

	public static native void nativeI420Scale(ByteBuffer srcY, int strideY, ByteBuffer srcU,
	int strideU, ByteBuffer srcV, int strideV, int width, int height, ByteBuffer dst,
	int dstWidth, int dstHeight);

	public static native ByteBuffer nativeCreateNativeByteBuffer(int size);

	public static native void nativeFreeNativeByteBuffer(ByteBuffer buffer);
	}