webrtc/common_video/libyuv/webrtc_libyuv.cc - platform/external/webrtc - Git at Google

 /*
  *  Copyright (c) 2012 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.
  */

 #include "webrtc/common_video/libyuv/include/webrtc_libyuv.h"

 #include <assert.h>
 #include <string.h>

 // NOTE(ajm): Path provided by gyp.
 #include "libyuv.h"  // NOLINT

 namespace webrtc {

 const int k16ByteAlignment = 16;

 VideoType RawVideoTypeToCommonVideoVideoType(RawVideoType type) {
   switch (type) {
     case kVideoI420:
       return kI420;
     case kVideoIYUV:
       return kIYUV;
     case kVideoRGB24:
       return kRGB24;
     case kVideoARGB:
       return kARGB;
     case kVideoARGB4444:
       return kARGB4444;
     case kVideoRGB565:
       return kRGB565;
     case kVideoARGB1555:
       return kARGB1555;
     case kVideoYUY2:
       return kYUY2;
     case kVideoYV12:
       return kYV12;
     case kVideoUYVY:
       return kUYVY;
     case kVideoNV21:
       return kNV21;
     case kVideoNV12:
       return kNV12;
     case kVideoBGRA:
       return kBGRA;
     case kVideoMJPEG:
       return kMJPG;
     default:
       assert(false);
   }
   return kUnknown;
 }

 int AlignInt(int value, int alignment) {
   assert(!((alignment - 1) & alignment));
   return ((value + alignment - 1) & ~(alignment - 1));
 }

 void Calc16ByteAlignedStride(int width, int* stride_y, int* stride_uv) {
   *stride_y = AlignInt(width, k16ByteAlignment);
   *stride_uv = AlignInt((width + 1) / 2, k16ByteAlignment);
 }

 size_t CalcBufferSize(VideoType type, int width, int height) {
   assert(width >= 0);
   assert(height >= 0);
   size_t buffer_size = 0;
   switch (type) {
     case kI420:
     case kNV12:
     case kNV21:
     case kIYUV:
     case kYV12: {
       int half_width = (width + 1) >> 1;
       int half_height = (height + 1) >> 1;
       buffer_size = width * height + half_width * half_height * 2;
       break;
     }
     case kARGB4444:
     case kRGB565:
     case kARGB1555:
     case kYUY2:
     case kUYVY:
       buffer_size = width * height * 2;
       break;
     case kRGB24:
       buffer_size = width * height * 3;
       break;
     case kBGRA:
     case kARGB:
       buffer_size = width * height * 4;
       break;
     default:
       assert(false);
       break;
   }
   return buffer_size;
 }

 int PrintVideoFrame(const VideoFrame& frame, FILE* file) {
   if (file == NULL)
     return -1;
   if (frame.IsZeroSize())
     return -1;
   for (int planeNum = 0; planeNum < kNumOfPlanes; ++planeNum) {
     int width = (planeNum ? (frame.width() + 1) / 2 : frame.width());
     int height = (planeNum ? (frame.height() + 1) / 2 : frame.height());
     PlaneType plane_type = static_cast<PlaneType>(planeNum);
     const uint8_t* plane_buffer = frame.buffer(plane_type);
     for (int y = 0; y < height; y++) {
      if (fwrite(plane_buffer, 1, width, file) !=
          static_cast<unsigned int>(width)) {
        return -1;
        }
        plane_buffer += frame.stride(plane_type);
     }
   }
   return 0;
 }

 int ExtractBuffer(const VideoFrame& input_frame, size_t size, uint8_t* buffer) {
   assert(buffer);
   if (input_frame.IsZeroSize())
     return -1;
   size_t length =
       CalcBufferSize(kI420, input_frame.width(), input_frame.height());
   if (size < length) {
      return -1;
   }

   int pos = 0;
   uint8_t* buffer_ptr = buffer;

   for (int plane = 0; plane < kNumOfPlanes; ++plane) {
     int width = (plane ? (input_frame.width() + 1) / 2 :
       input_frame.width());
     int height = (plane ? (input_frame.height() + 1) / 2 :
       input_frame.height());
     const uint8_t* plane_ptr = input_frame.buffer(
         static_cast<PlaneType>(plane));
     for (int y = 0; y < height; y++) {
       memcpy(&buffer_ptr[pos], plane_ptr, width);
       pos += width;
       plane_ptr += input_frame.stride(static_cast<PlaneType>(plane));
     }
   }
   return static_cast<int>(length);
 }


 int ConvertNV12ToRGB565(const uint8_t* src_frame,
                         uint8_t* dst_frame,
                         int width, int height) {
   int abs_height = (height < 0) ? -height : height;
   const uint8_t* yplane = src_frame;
   const uint8_t* uvInterlaced = src_frame + (width * abs_height);

   return libyuv::NV12ToRGB565(yplane, width,
                               uvInterlaced, (width + 1) >> 1,
                               dst_frame, width,
                               width, height);
 }

 int ConvertRGB24ToARGB(const uint8_t* src_frame, uint8_t* dst_frame,
                        int width, int height, int dst_stride) {
   if (dst_stride == 0)
     dst_stride = width;
   return libyuv::RGB24ToARGB(src_frame, width,
                              dst_frame, dst_stride,
                              width, height);
 }

 libyuv::RotationMode ConvertRotationMode(VideoRotation rotation) {
   switch (rotation) {
     case kVideoRotation_0:
       return libyuv::kRotate0;
     case kVideoRotation_90:
       return libyuv::kRotate90;
     case kVideoRotation_180:
       return libyuv::kRotate180;
     case kVideoRotation_270:
       return libyuv::kRotate270;
   }
   assert(false);
   return libyuv::kRotate0;
 }

 int ConvertVideoType(VideoType video_type) {
   switch (video_type) {
     case kUnknown:
       return libyuv::FOURCC_ANY;
     case  kI420:
       return libyuv::FOURCC_I420;
     case kIYUV:  // same as KYV12
     case kYV12:
       return libyuv::FOURCC_YV12;
     case kRGB24:
       return libyuv::FOURCC_24BG;
     case kABGR:
       return libyuv::FOURCC_ABGR;
     case kRGB565:
       return libyuv::FOURCC_RGBP;
     case kYUY2:
       return libyuv::FOURCC_YUY2;
     case kUYVY:
       return libyuv::FOURCC_UYVY;
     case kMJPG:
       return libyuv::FOURCC_MJPG;
     case kNV21:
       return libyuv::FOURCC_NV21;
     case kNV12:
       return libyuv::FOURCC_NV12;
     case kARGB:
       return libyuv::FOURCC_ARGB;
     case kBGRA:
       return libyuv::FOURCC_BGRA;
     case kARGB4444:
       return libyuv::FOURCC_R444;
     case kARGB1555:
       return libyuv::FOURCC_RGBO;
   }
   assert(false);
   return libyuv::FOURCC_ANY;
 }

 int ConvertToI420(VideoType src_video_type,
                   const uint8_t* src_frame,
                   int crop_x,
                   int crop_y,
                   int src_width,
                   int src_height,
                   size_t sample_size,
                   VideoRotation rotation,
                   VideoFrame* dst_frame) {
   int dst_width = dst_frame->width();
   int dst_height = dst_frame->height();
   // LibYuv expects pre-rotation values for dst.
   // Stride values should correspond to the destination values.
   if (rotation == kVideoRotation_90 || rotation == kVideoRotation_270) {
     dst_width = dst_frame->height();
     dst_height = dst_frame->width();
   }
   return libyuv::ConvertToI420(src_frame, sample_size,
                                dst_frame->buffer(kYPlane),
                                dst_frame->stride(kYPlane),
                                dst_frame->buffer(kUPlane),
                                dst_frame->stride(kUPlane),
                                dst_frame->buffer(kVPlane),
                                dst_frame->stride(kVPlane),
                                crop_x, crop_y,
                                src_width, src_height,
                                dst_width, dst_height,
                                ConvertRotationMode(rotation),
                                ConvertVideoType(src_video_type));
 }

 int ConvertFromI420(const VideoFrame& src_frame,
                     VideoType dst_video_type,
                     int dst_sample_size,
                     uint8_t* dst_frame) {
   return libyuv::ConvertFromI420(src_frame.buffer(kYPlane),
                                  src_frame.stride(kYPlane),
                                  src_frame.buffer(kUPlane),
                                  src_frame.stride(kUPlane),
                                  src_frame.buffer(kVPlane),
                                  src_frame.stride(kVPlane),
                                  dst_frame, dst_sample_size,
                                  src_frame.width(), src_frame.height(),
                                  ConvertVideoType(dst_video_type));
 }

 // TODO(mikhal): Create a designated VideoFrame for non I420.
 int ConvertFromYV12(const VideoFrame& src_frame,
                     VideoType dst_video_type,
                     int dst_sample_size,
                     uint8_t* dst_frame) {
   // YV12 = Y, V, U
   return libyuv::ConvertFromI420(src_frame.buffer(kYPlane),
                                  src_frame.stride(kYPlane),
                                  src_frame.buffer(kVPlane),
                                  src_frame.stride(kVPlane),
                                  src_frame.buffer(kUPlane),
                                  src_frame.stride(kUPlane),
                                  dst_frame, dst_sample_size,
                                  src_frame.width(), src_frame.height(),
                                  ConvertVideoType(dst_video_type));
 }

 // Compute PSNR for an I420 frame (all planes)
 double I420PSNR(const VideoFrame* ref_frame, const VideoFrame* test_frame) {
   if (!ref_frame || !test_frame)
     return -1;
   else if ((ref_frame->width() !=  test_frame->width()) ||
           (ref_frame->height() !=  test_frame->height()))
     return -1;
   else if (ref_frame->width() < 0 || ref_frame->height() < 0)
     return -1;

   double psnr = libyuv::I420Psnr(ref_frame->buffer(kYPlane),
                                  ref_frame->stride(kYPlane),
                                  ref_frame->buffer(kUPlane),
                                  ref_frame->stride(kUPlane),
                                  ref_frame->buffer(kVPlane),
                                  ref_frame->stride(kVPlane),
                                  test_frame->buffer(kYPlane),
                                  test_frame->stride(kYPlane),
                                  test_frame->buffer(kUPlane),
                                  test_frame->stride(kUPlane),
                                  test_frame->buffer(kVPlane),
                                  test_frame->stride(kVPlane),
                                  test_frame->width(), test_frame->height());
   // LibYuv sets the max psnr value to 128, we restrict it here.
   // In case of 0 mse in one frame, 128 can skew the results significantly.
   return (psnr > kPerfectPSNR) ? kPerfectPSNR : psnr;
 }

 // Compute SSIM for an I420 frame (all planes)
 double I420SSIM(const VideoFrame* ref_frame, const VideoFrame* test_frame) {
   if (!ref_frame || !test_frame)
     return -1;
   else if ((ref_frame->width() !=  test_frame->width()) ||
           (ref_frame->height() !=  test_frame->height()))
     return -1;
   else if (ref_frame->width() < 0 || ref_frame->height()  < 0)
     return -1;

   return libyuv::I420Ssim(ref_frame->buffer(kYPlane),
                           ref_frame->stride(kYPlane),
                           ref_frame->buffer(kUPlane),
                           ref_frame->stride(kUPlane),
                           ref_frame->buffer(kVPlane),
                           ref_frame->stride(kVPlane),
                           test_frame->buffer(kYPlane),
                           test_frame->stride(kYPlane),
                           test_frame->buffer(kUPlane),
                           test_frame->stride(kUPlane),
                           test_frame->buffer(kVPlane),
                           test_frame->stride(kVPlane),
                           test_frame->width(), test_frame->height());
 }
 }  // namespace webrtc
	/*
	* Copyright (c) 2012 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.
	*/

	#include "webrtc/common_video/libyuv/include/webrtc_libyuv.h"

	#include <assert.h>
	#include <string.h>

	// NOTE(ajm): Path provided by gyp.
	#include "libyuv.h" // NOLINT

	namespace webrtc {

	const int k16ByteAlignment = 16;

	VideoType RawVideoTypeToCommonVideoVideoType(RawVideoType type) {
	switch (type) {
	case kVideoI420:
	return kI420;
	case kVideoIYUV:
	return kIYUV;
	case kVideoRGB24:
	return kRGB24;
	case kVideoARGB:
	return kARGB;
	case kVideoARGB4444:
	return kARGB4444;
	case kVideoRGB565:
	return kRGB565;
	case kVideoARGB1555:
	return kARGB1555;
	case kVideoYUY2:
	return kYUY2;
	case kVideoYV12:
	return kYV12;
	case kVideoUYVY:
	return kUYVY;
	case kVideoNV21:
	return kNV21;
	case kVideoNV12:
	return kNV12;
	case kVideoBGRA:
	return kBGRA;
	case kVideoMJPEG:
	return kMJPG;
	default:
	assert(false);
	}
	return kUnknown;
	}

	int AlignInt(int value, int alignment) {
	assert(!((alignment - 1) & alignment));
	return ((value + alignment - 1) & ~(alignment - 1));
	}

	void Calc16ByteAlignedStride(int width, int* stride_y, int* stride_uv) {
	*stride_y = AlignInt(width, k16ByteAlignment);
	*stride_uv = AlignInt((width + 1) / 2, k16ByteAlignment);
	}

	size_t CalcBufferSize(VideoType type, int width, int height) {
	assert(width >= 0);
	assert(height >= 0);
	size_t buffer_size = 0;
	switch (type) {
	case kI420:
	case kNV12:
	case kNV21:
	case kIYUV:
	case kYV12: {
	int half_width = (width + 1) >> 1;
	int half_height = (height + 1) >> 1;
	buffer_size = width * height + half_width * half_height * 2;
	break;
	}
	case kARGB4444:
	case kRGB565:
	case kARGB1555:
	case kYUY2:
	case kUYVY:
	buffer_size = width * height * 2;
	break;
	case kRGB24:
	buffer_size = width * height * 3;
	break;
	case kBGRA:
	case kARGB:
	buffer_size = width * height * 4;
	break;
	default:
	assert(false);
	break;
	}
	return buffer_size;
	}

	int PrintVideoFrame(const VideoFrame& frame, FILE* file) {
	if (file == NULL)
	return -1;
	if (frame.IsZeroSize())
	return -1;
	for (int planeNum = 0; planeNum < kNumOfPlanes; ++planeNum) {
	int width = (planeNum ? (frame.width() + 1) / 2 : frame.width());
	int height = (planeNum ? (frame.height() + 1) / 2 : frame.height());
	PlaneType plane_type = static_cast<PlaneType>(planeNum);
	const uint8_t* plane_buffer = frame.buffer(plane_type);
	for (int y = 0; y < height; y++) {
	if (fwrite(plane_buffer, 1, width, file) !=
	static_cast<unsigned int>(width)) {
	return -1;
	}
	plane_buffer += frame.stride(plane_type);
	}
	}
	return 0;
	}

	int ExtractBuffer(const VideoFrame& input_frame, size_t size, uint8_t* buffer) {
	assert(buffer);
	if (input_frame.IsZeroSize())
	return -1;
	size_t length =
	CalcBufferSize(kI420, input_frame.width(), input_frame.height());
	if (size < length) {
	return -1;
	}

	int pos = 0;
	uint8_t* buffer_ptr = buffer;

	for (int plane = 0; plane < kNumOfPlanes; ++plane) {
	int width = (plane ? (input_frame.width() + 1) / 2 :
	input_frame.width());
	int height = (plane ? (input_frame.height() + 1) / 2 :
	input_frame.height());
	const uint8_t* plane_ptr = input_frame.buffer(
	static_cast<PlaneType>(plane));
	for (int y = 0; y < height; y++) {
	memcpy(&buffer_ptr[pos], plane_ptr, width);
	pos += width;
	plane_ptr += input_frame.stride(static_cast<PlaneType>(plane));
	}
	}
	return static_cast<int>(length);
	}


	int ConvertNV12ToRGB565(const uint8_t* src_frame,
	uint8_t* dst_frame,
	int width, int height) {
	int abs_height = (height < 0) ? -height : height;
	const uint8_t* yplane = src_frame;
	const uint8_t* uvInterlaced = src_frame + (width * abs_height);

	return libyuv::NV12ToRGB565(yplane, width,
	uvInterlaced, (width + 1) >> 1,
	dst_frame, width,
	width, height);
	}

	int ConvertRGB24ToARGB(const uint8_t* src_frame, uint8_t* dst_frame,
	int width, int height, int dst_stride) {
	if (dst_stride == 0)
	dst_stride = width;
	return libyuv::RGB24ToARGB(src_frame, width,
	dst_frame, dst_stride,
	width, height);
	}

	libyuv::RotationMode ConvertRotationMode(VideoRotation rotation) {
	switch (rotation) {
	case kVideoRotation_0:
	return libyuv::kRotate0;
	case kVideoRotation_90:
	return libyuv::kRotate90;
	case kVideoRotation_180:
	return libyuv::kRotate180;
	case kVideoRotation_270:
	return libyuv::kRotate270;
	}
	assert(false);
	return libyuv::kRotate0;
	}

	int ConvertVideoType(VideoType video_type) {
	switch (video_type) {
	case kUnknown:
	return libyuv::FOURCC_ANY;
	case kI420:
	return libyuv::FOURCC_I420;
	case kIYUV: // same as KYV12
	case kYV12:
	return libyuv::FOURCC_YV12;
	case kRGB24:
	return libyuv::FOURCC_24BG;
	case kABGR:
	return libyuv::FOURCC_ABGR;
	case kRGB565:
	return libyuv::FOURCC_RGBP;
	case kYUY2:
	return libyuv::FOURCC_YUY2;
	case kUYVY:
	return libyuv::FOURCC_UYVY;
	case kMJPG:
	return libyuv::FOURCC_MJPG;
	case kNV21:
	return libyuv::FOURCC_NV21;
	case kNV12:
	return libyuv::FOURCC_NV12;
	case kARGB:
	return libyuv::FOURCC_ARGB;
	case kBGRA:
	return libyuv::FOURCC_BGRA;
	case kARGB4444:
	return libyuv::FOURCC_R444;
	case kARGB1555:
	return libyuv::FOURCC_RGBO;
	}
	assert(false);
	return libyuv::FOURCC_ANY;
	}

	int ConvertToI420(VideoType src_video_type,
	const uint8_t* src_frame,
	int crop_x,
	int crop_y,
	int src_width,
	int src_height,
	size_t sample_size,
	VideoRotation rotation,
	VideoFrame* dst_frame) {
	int dst_width = dst_frame->width();
	int dst_height = dst_frame->height();
	// LibYuv expects pre-rotation values for dst.
	// Stride values should correspond to the destination values.
	if (rotation == kVideoRotation_90 \|\| rotation == kVideoRotation_270) {
	dst_width = dst_frame->height();
	dst_height = dst_frame->width();
	}
	return libyuv::ConvertToI420(src_frame, sample_size,
	dst_frame->buffer(kYPlane),
	dst_frame->stride(kYPlane),
	dst_frame->buffer(kUPlane),
	dst_frame->stride(kUPlane),
	dst_frame->buffer(kVPlane),
	dst_frame->stride(kVPlane),
	crop_x, crop_y,
	src_width, src_height,
	dst_width, dst_height,
	ConvertRotationMode(rotation),
	ConvertVideoType(src_video_type));
	}

	int ConvertFromI420(const VideoFrame& src_frame,
	VideoType dst_video_type,
	int dst_sample_size,
	uint8_t* dst_frame) {
	return libyuv::ConvertFromI420(src_frame.buffer(kYPlane),
	src_frame.stride(kYPlane),
	src_frame.buffer(kUPlane),
	src_frame.stride(kUPlane),
	src_frame.buffer(kVPlane),
	src_frame.stride(kVPlane),
	dst_frame, dst_sample_size,
	src_frame.width(), src_frame.height(),
	ConvertVideoType(dst_video_type));
	}

	// TODO(mikhal): Create a designated VideoFrame for non I420.
	int ConvertFromYV12(const VideoFrame& src_frame,
	VideoType dst_video_type,
	int dst_sample_size,
	uint8_t* dst_frame) {
	// YV12 = Y, V, U
	return libyuv::ConvertFromI420(src_frame.buffer(kYPlane),
	src_frame.stride(kYPlane),
	src_frame.buffer(kVPlane),
	src_frame.stride(kVPlane),
	src_frame.buffer(kUPlane),
	src_frame.stride(kUPlane),
	dst_frame, dst_sample_size,
	src_frame.width(), src_frame.height(),
	ConvertVideoType(dst_video_type));
	}

	// Compute PSNR for an I420 frame (all planes)
	double I420PSNR(const VideoFrame* ref_frame, const VideoFrame* test_frame) {
	if (!ref_frame \|\| !test_frame)
	return -1;
	else if ((ref_frame->width() != test_frame->width()) \|\|
	(ref_frame->height() != test_frame->height()))
	return -1;
	else if (ref_frame->width() < 0 \|\| ref_frame->height() < 0)
	return -1;

	double psnr = libyuv::I420Psnr(ref_frame->buffer(kYPlane),
	ref_frame->stride(kYPlane),
	ref_frame->buffer(kUPlane),
	ref_frame->stride(kUPlane),
	ref_frame->buffer(kVPlane),
	ref_frame->stride(kVPlane),
	test_frame->buffer(kYPlane),
	test_frame->stride(kYPlane),
	test_frame->buffer(kUPlane),
	test_frame->stride(kUPlane),
	test_frame->buffer(kVPlane),
	test_frame->stride(kVPlane),
	test_frame->width(), test_frame->height());
	// LibYuv sets the max psnr value to 128, we restrict it here.
	// In case of 0 mse in one frame, 128 can skew the results significantly.
	return (psnr > kPerfectPSNR) ? kPerfectPSNR : psnr;
	}

	// Compute SSIM for an I420 frame (all planes)
	double I420SSIM(const VideoFrame* ref_frame, const VideoFrame* test_frame) {
	if (!ref_frame \|\| !test_frame)
	return -1;
	else if ((ref_frame->width() != test_frame->width()) \|\|
	(ref_frame->height() != test_frame->height()))
	return -1;
	else if (ref_frame->width() < 0 \|\| ref_frame->height() < 0)
	return -1;

	return libyuv::I420Ssim(ref_frame->buffer(kYPlane),
	ref_frame->stride(kYPlane),
	ref_frame->buffer(kUPlane),
	ref_frame->stride(kUPlane),
	ref_frame->buffer(kVPlane),
	ref_frame->stride(kVPlane),
	test_frame->buffer(kYPlane),
	test_frame->stride(kYPlane),
	test_frame->buffer(kUPlane),
	test_frame->stride(kUPlane),
	test_frame->buffer(kVPlane),
	test_frame->stride(kVPlane),
	test_frame->width(), test_frame->height());
	}
	} // namespace webrtc