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

 /*
  *  Copyright 2017 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.graphics.Matrix;
 import android.opengl.GLES11Ext;
 import android.opengl.GLES20;
 import androidx.annotation.Nullable;
 import java.nio.ByteBuffer;

 /**
  * Java version of webrtc::VideoFrame and webrtc::VideoFrameBuffer. A difference from the C++
  * version is that no explicit tag is used, and clients are expected to use 'instanceof' to find the
  * right subclass of the buffer. This allows clients to create custom VideoFrame.Buffer in
  * arbitrary format in their custom VideoSources, and then cast it back to the correct subclass in
  * their custom VideoSinks. All implementations must also implement the toI420() function,
  * converting from the underlying representation if necessary. I420 is the most widely accepted
  * format and serves as a fallback for video sinks that can only handle I420, e.g. the internal
  * WebRTC software encoders.
  */
 public class VideoFrame implements RefCounted {
   /**
    * Implements image storage medium. Might be for example an OpenGL texture or a memory region
    * containing I420-data.
    *
    * <p>Reference counting is needed since a video buffer can be shared between multiple VideoSinks,
    * and the buffer needs to be returned to the VideoSource as soon as all references are gone.
    */
   public interface Buffer extends RefCounted {
     /**
      * Representation of the underlying buffer. Currently, only NATIVE and I420 are supported.
      */
     @CalledByNative("Buffer")
     @VideoFrameBufferType
     default int getBufferType() {
       return VideoFrameBufferType.NATIVE;
     }

     /**
      * Resolution of the buffer in pixels.
      */
     @CalledByNative("Buffer") int getWidth();
     @CalledByNative("Buffer") int getHeight();

     /**
      * Returns a memory-backed frame in I420 format. If the pixel data is in another format, a
      * conversion will take place. All implementations must provide a fallback to I420 for
      * compatibility with e.g. the internal WebRTC software encoders.
      *
      * <p> Conversion may fail, for example if reading the pixel data from a texture fails. If the
      * conversion fails, null is returned.
      */
     @Nullable @CalledByNative("Buffer") I420Buffer toI420();

     @Override @CalledByNative("Buffer") void retain();
     @Override @CalledByNative("Buffer") void release();

     /**
      * Crops a region defined by `cropx`, `cropY`, `cropWidth` and `cropHeight`. Scales it to size
      * `scaleWidth` x `scaleHeight`.
      */
     @CalledByNative("Buffer")
     Buffer cropAndScale(
         int cropX, int cropY, int cropWidth, int cropHeight, int scaleWidth, int scaleHeight);
   }

   /**
    * Interface for I420 buffers.
    */
   public interface I420Buffer extends Buffer {
     @Override
     default int getBufferType() {
       return VideoFrameBufferType.I420;
     }

     /**
      * Returns a direct ByteBuffer containing Y-plane data. The buffer capacity is at least
      * getStrideY() * getHeight() bytes. The position of the returned buffer is ignored and must
      * be 0. Callers may mutate the ByteBuffer (eg. through relative-read operations), so
      * implementations must return a new ByteBuffer or slice for each call.
      */
     @CalledByNative("I420Buffer") ByteBuffer getDataY();
     /**
      * Returns a direct ByteBuffer containing U-plane data. The buffer capacity is at least
      * getStrideU() * ((getHeight() + 1) / 2) bytes. The position of the returned buffer is ignored
      * and must be 0. Callers may mutate the ByteBuffer (eg. through relative-read operations), so
      * implementations must return a new ByteBuffer or slice for each call.
      */
     @CalledByNative("I420Buffer") ByteBuffer getDataU();
     /**
      * Returns a direct ByteBuffer containing V-plane data. The buffer capacity is at least
      * getStrideV() * ((getHeight() + 1) / 2) bytes. The position of the returned buffer is ignored
      * and must be 0. Callers may mutate the ByteBuffer (eg. through relative-read operations), so
      * implementations must return a new ByteBuffer or slice for each call.
      */
     @CalledByNative("I420Buffer") ByteBuffer getDataV();

     @CalledByNative("I420Buffer") int getStrideY();
     @CalledByNative("I420Buffer") int getStrideU();
     @CalledByNative("I420Buffer") int getStrideV();
   }

   /**
    * Interface for buffers that are stored as a single texture, either in OES or RGB format.
    */
   public interface TextureBuffer extends Buffer {
     enum Type {
       OES(GLES11Ext.GL_TEXTURE_EXTERNAL_OES),
       RGB(GLES20.GL_TEXTURE_2D);

       private final int glTarget;

       private Type(final int glTarget) {
         this.glTarget = glTarget;
       }

       public int getGlTarget() {
         return glTarget;
       }
     }

     Type getType();
     int getTextureId();

     /**
      * Retrieve the transform matrix associated with the frame. This transform matrix maps 2D
      * homogeneous coordinates of the form (s, t, 1) with s and t in the inclusive range [0, 1] to
      * the coordinate that should be used to sample that location from the buffer.
      */
     Matrix getTransformMatrix();
   }

   private final Buffer buffer;
   private final int rotation;
   private final long timestampNs;

   /**
    * Constructs a new VideoFrame backed by the given {@code buffer}.
    *
    * @note Ownership of the buffer object is tranferred to the new VideoFrame.
    */
   @CalledByNative
   public VideoFrame(Buffer buffer, int rotation, long timestampNs) {
     if (buffer == null) {
       throw new IllegalArgumentException("buffer not allowed to be null");
     }
     if (rotation % 90 != 0) {
       throw new IllegalArgumentException("rotation must be a multiple of 90");
     }
     this.buffer = buffer;
     this.rotation = rotation;
     this.timestampNs = timestampNs;
   }

   @CalledByNative
   public Buffer getBuffer() {
     return buffer;
   }

   /**
    * Rotation of the frame in degrees.
    */
   @CalledByNative
   public int getRotation() {
     return rotation;
   }

   /**
    * Timestamp of the frame in nano seconds.
    */
   @CalledByNative
   public long getTimestampNs() {
     return timestampNs;
   }

   public int getRotatedWidth() {
     if (rotation % 180 == 0) {
       return buffer.getWidth();
     }
     return buffer.getHeight();
   }

   public int getRotatedHeight() {
     if (rotation % 180 == 0) {
       return buffer.getHeight();
     }
     return buffer.getWidth();
   }

   @Override
   public void retain() {
     buffer.retain();
   }

   @Override
   @CalledByNative
   public void release() {
     buffer.release();
   }
 }
	/*
	* Copyright 2017 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.graphics.Matrix;
	import android.opengl.GLES11Ext;
	import android.opengl.GLES20;
	import androidx.annotation.Nullable;
	import java.nio.ByteBuffer;

	/**
	* Java version of webrtc::VideoFrame and webrtc::VideoFrameBuffer. A difference from the C++
	* version is that no explicit tag is used, and clients are expected to use 'instanceof' to find the
	* right subclass of the buffer. This allows clients to create custom VideoFrame.Buffer in
	* arbitrary format in their custom VideoSources, and then cast it back to the correct subclass in
	* their custom VideoSinks. All implementations must also implement the toI420() function,
	* converting from the underlying representation if necessary. I420 is the most widely accepted
	* format and serves as a fallback for video sinks that can only handle I420, e.g. the internal
	* WebRTC software encoders.
	*/
	public class VideoFrame implements RefCounted {
	/**
	* Implements image storage medium. Might be for example an OpenGL texture or a memory region
	* containing I420-data.
	*
	* <p>Reference counting is needed since a video buffer can be shared between multiple VideoSinks,
	* and the buffer needs to be returned to the VideoSource as soon as all references are gone.
	*/
	public interface Buffer extends RefCounted {
	/**
	* Representation of the underlying buffer. Currently, only NATIVE and I420 are supported.
	*/
	@CalledByNative("Buffer")
	@VideoFrameBufferType
	default int getBufferType() {
	return VideoFrameBufferType.NATIVE;
	}

	/**
	* Resolution of the buffer in pixels.
	*/
	@CalledByNative("Buffer") int getWidth();
	@CalledByNative("Buffer") int getHeight();

	/**
	* Returns a memory-backed frame in I420 format. If the pixel data is in another format, a
	* conversion will take place. All implementations must provide a fallback to I420 for
	* compatibility with e.g. the internal WebRTC software encoders.
	*
	* <p> Conversion may fail, for example if reading the pixel data from a texture fails. If the
	* conversion fails, null is returned.
	*/
	@Nullable @CalledByNative("Buffer") I420Buffer toI420();

	@Override @CalledByNative("Buffer") void retain();
	@Override @CalledByNative("Buffer") void release();

	/**
	* Crops a region defined by `cropx`, `cropY`, `cropWidth` and `cropHeight`. Scales it to size
	* `scaleWidth` x `scaleHeight`.
	*/
	@CalledByNative("Buffer")
	Buffer cropAndScale(
	int cropX, int cropY, int cropWidth, int cropHeight, int scaleWidth, int scaleHeight);
	}

	/**
	* Interface for I420 buffers.
	*/
	public interface I420Buffer extends Buffer {
	@Override
	default int getBufferType() {
	return VideoFrameBufferType.I420;
	}

	/**
	* Returns a direct ByteBuffer containing Y-plane data. The buffer capacity is at least
	* getStrideY() * getHeight() bytes. The position of the returned buffer is ignored and must
	* be 0. Callers may mutate the ByteBuffer (eg. through relative-read operations), so
	* implementations must return a new ByteBuffer or slice for each call.
	*/
	@CalledByNative("I420Buffer") ByteBuffer getDataY();
	/**
	* Returns a direct ByteBuffer containing U-plane data. The buffer capacity is at least
	* getStrideU() * ((getHeight() + 1) / 2) bytes. The position of the returned buffer is ignored
	* and must be 0. Callers may mutate the ByteBuffer (eg. through relative-read operations), so
	* implementations must return a new ByteBuffer or slice for each call.
	*/
	@CalledByNative("I420Buffer") ByteBuffer getDataU();
	/**
	* Returns a direct ByteBuffer containing V-plane data. The buffer capacity is at least
	* getStrideV() * ((getHeight() + 1) / 2) bytes. The position of the returned buffer is ignored
	* and must be 0. Callers may mutate the ByteBuffer (eg. through relative-read operations), so
	* implementations must return a new ByteBuffer or slice for each call.
	*/
	@CalledByNative("I420Buffer") ByteBuffer getDataV();

	@CalledByNative("I420Buffer") int getStrideY();
	@CalledByNative("I420Buffer") int getStrideU();
	@CalledByNative("I420Buffer") int getStrideV();
	}

	/**
	* Interface for buffers that are stored as a single texture, either in OES or RGB format.
	*/
	public interface TextureBuffer extends Buffer {
	enum Type {
	OES(GLES11Ext.GL_TEXTURE_EXTERNAL_OES),
	RGB(GLES20.GL_TEXTURE_2D);

	private final int glTarget;

	private Type(final int glTarget) {
	this.glTarget = glTarget;
	}

	public int getGlTarget() {
	return glTarget;
	}
	}

	Type getType();
	int getTextureId();

	/**
	* Retrieve the transform matrix associated with the frame. This transform matrix maps 2D
	* homogeneous coordinates of the form (s, t, 1) with s and t in the inclusive range [0, 1] to
	* the coordinate that should be used to sample that location from the buffer.
	*/
	Matrix getTransformMatrix();
	}

	private final Buffer buffer;
	private final int rotation;
	private final long timestampNs;

	/**
	* Constructs a new VideoFrame backed by the given {@code buffer}.
	*
	* @note Ownership of the buffer object is tranferred to the new VideoFrame.
	*/
	@CalledByNative
	public VideoFrame(Buffer buffer, int rotation, long timestampNs) {
	if (buffer == null) {
	throw new IllegalArgumentException("buffer not allowed to be null");
	}
	if (rotation % 90 != 0) {
	throw new IllegalArgumentException("rotation must be a multiple of 90");
	}
	this.buffer = buffer;
	this.rotation = rotation;
	this.timestampNs = timestampNs;
	}

	@CalledByNative
	public Buffer getBuffer() {
	return buffer;
	}

	/**
	* Rotation of the frame in degrees.
	*/
	@CalledByNative
	public int getRotation() {
	return rotation;
	}

	/**
	* Timestamp of the frame in nano seconds.
	*/
	@CalledByNative
	public long getTimestampNs() {
	return timestampNs;
	}

	public int getRotatedWidth() {
	if (rotation % 180 == 0) {
	return buffer.getWidth();
	}
	return buffer.getHeight();
	}

	public int getRotatedHeight() {
	if (rotation % 180 == 0) {
	return buffer.getHeight();
	}
	return buffer.getWidth();
	}

	@Override
	public void retain() {
	buffer.retain();
	}

	@Override
	@CalledByNative
	public void release() {
	buffer.release();
	}
	}