third_party/libyuv/source/convert_to_i420.cc - aom - Git at Google

 /*
  *  Copyright 2011 The LibYuv 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 <stdlib.h>

 #include "libyuv/convert.h"

 #include "libyuv/video_common.h"

 #ifdef __cplusplus
 namespace libyuv {
 extern "C" {
 #endif

 // Convert camera sample to I420 with cropping, rotation and vertical flip.
 // src_width is used for source stride computation
 // src_height is used to compute location of planes, and indicate inversion
 // sample_size is measured in bytes and is the size of the frame.
 //   With MJPEG it is the compressed size of the frame.
 LIBYUV_API
 int ConvertToI420(const uint8* sample,
                   size_t sample_size,
                   uint8* y, int y_stride,
                   uint8* u, int u_stride,
                   uint8* v, int v_stride,
                   int crop_x, int crop_y,
                   int src_width, int src_height,
                   int crop_width, int crop_height,
                   enum RotationMode rotation,
                   uint32 fourcc) {
   uint32 format = CanonicalFourCC(fourcc);
   int aligned_src_width = (src_width + 1) & ~1;
   const uint8* src;
   const uint8* src_uv;
   int abs_src_height = (src_height < 0) ? -src_height : src_height;
   int inv_crop_height = (crop_height < 0) ? -crop_height : crop_height;
   int r = 0;
   LIBYUV_BOOL need_buf = (rotation && format != FOURCC_I420 &&
       format != FOURCC_NV12 && format != FOURCC_NV21 &&
       format != FOURCC_YU12 && format != FOURCC_YV12) || y == sample;
   uint8* tmp_y = y;
   uint8* tmp_u = u;
   uint8* tmp_v = v;
   int tmp_y_stride = y_stride;
   int tmp_u_stride = u_stride;
   int tmp_v_stride = v_stride;
   uint8* rotate_buffer = NULL;
   int abs_crop_height = (crop_height < 0) ? -crop_height : crop_height;

   if (!y || !u || !v || !sample ||
       src_width <= 0 || crop_width <= 0  ||
       src_height == 0 || crop_height == 0) {
     return -1;
   }
   if (src_height < 0) {
     inv_crop_height = -inv_crop_height;
   }

   // One pass rotation is available for some formats. For the rest, convert
   // to I420 (with optional vertical flipping) into a temporary I420 buffer,
   // and then rotate the I420 to the final destination buffer.
   // For in-place conversion, if destination y is same as source sample,
   // also enable temporary buffer.
   if (need_buf) {
     int y_size = crop_width * abs_crop_height;
     int uv_size = ((crop_width + 1) / 2) * ((abs_crop_height + 1) / 2);
     rotate_buffer = (uint8*)malloc(y_size + uv_size * 2);
     if (!rotate_buffer) {
       return 1;  // Out of memory runtime error.
     }
     y = rotate_buffer;
     u = y + y_size;
     v = u + uv_size;
     y_stride = crop_width;
     u_stride = v_stride = ((crop_width + 1) / 2);
   }

   switch (format) {
     // Single plane formats
     case FOURCC_YUY2:
       src = sample + (aligned_src_width * crop_y + crop_x) * 2;
       r = YUY2ToI420(src, aligned_src_width * 2,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     case FOURCC_UYVY:
       src = sample + (aligned_src_width * crop_y + crop_x) * 2;
       r = UYVYToI420(src, aligned_src_width * 2,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     case FOURCC_RGBP:
       src = sample + (src_width * crop_y + crop_x) * 2;
       r = RGB565ToI420(src, src_width * 2,
                        y, y_stride,
                        u, u_stride,
                        v, v_stride,
                        crop_width, inv_crop_height);
       break;
     case FOURCC_RGBO:
       src = sample + (src_width * crop_y + crop_x) * 2;
       r = ARGB1555ToI420(src, src_width * 2,
                          y, y_stride,
                          u, u_stride,
                          v, v_stride,
                          crop_width, inv_crop_height);
       break;
     case FOURCC_R444:
       src = sample + (src_width * crop_y + crop_x) * 2;
       r = ARGB4444ToI420(src, src_width * 2,
                          y, y_stride,
                          u, u_stride,
                          v, v_stride,
                          crop_width, inv_crop_height);
       break;
     case FOURCC_24BG:
       src = sample + (src_width * crop_y + crop_x) * 3;
       r = RGB24ToI420(src, src_width * 3,
                       y, y_stride,
                       u, u_stride,
                       v, v_stride,
                       crop_width, inv_crop_height);
       break;
     case FOURCC_RAW:
       src = sample + (src_width * crop_y + crop_x) * 3;
       r = RAWToI420(src, src_width * 3,
                     y, y_stride,
                     u, u_stride,
                     v, v_stride,
                     crop_width, inv_crop_height);
       break;
     case FOURCC_ARGB:
       src = sample + (src_width * crop_y + crop_x) * 4;
       r = ARGBToI420(src, src_width * 4,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     case FOURCC_BGRA:
       src = sample + (src_width * crop_y + crop_x) * 4;
       r = BGRAToI420(src, src_width * 4,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     case FOURCC_ABGR:
       src = sample + (src_width * crop_y + crop_x) * 4;
       r = ABGRToI420(src, src_width * 4,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     case FOURCC_RGBA:
       src = sample + (src_width * crop_y + crop_x) * 4;
       r = RGBAToI420(src, src_width * 4,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     case FOURCC_I400:
       src = sample + src_width * crop_y + crop_x;
       r = I400ToI420(src, src_width,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     // Biplanar formats
     case FOURCC_NV12:
       src = sample + (src_width * crop_y + crop_x);
       src_uv = sample + (src_width * src_height) +
         ((crop_y / 2) * aligned_src_width) + ((crop_x / 2) * 2);
       r = NV12ToI420Rotate(src, src_width,
                            src_uv, aligned_src_width,
                            y, y_stride,
                            u, u_stride,
                            v, v_stride,
                            crop_width, inv_crop_height, rotation);
       break;
     case FOURCC_NV21:
       src = sample + (src_width * crop_y + crop_x);
       src_uv = sample + (src_width * src_height) +
         ((crop_y / 2) * aligned_src_width) + ((crop_x / 2) * 2);
       // Call NV12 but with u and v parameters swapped.
       r = NV12ToI420Rotate(src, src_width,
                            src_uv, aligned_src_width,
                            y, y_stride,
                            v, v_stride,
                            u, u_stride,
                            crop_width, inv_crop_height, rotation);
       break;
     case FOURCC_M420:
       src = sample + (src_width * crop_y) * 12 / 8 + crop_x;
       r = M420ToI420(src, src_width,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     // Triplanar formats
     case FOURCC_I420:
     case FOURCC_YU12:
     case FOURCC_YV12: {
       const uint8* src_y = sample + (src_width * crop_y + crop_x);
       const uint8* src_u;
       const uint8* src_v;
       int halfwidth = (src_width + 1) / 2;
       int halfheight = (abs_src_height + 1) / 2;
       if (format == FOURCC_YV12) {
         src_v = sample + src_width * abs_src_height +
             (halfwidth * crop_y + crop_x) / 2;
         src_u = sample + src_width * abs_src_height +
             halfwidth * (halfheight + crop_y / 2) + crop_x / 2;
       } else {
         src_u = sample + src_width * abs_src_height +
             (halfwidth * crop_y + crop_x) / 2;
         src_v = sample + src_width * abs_src_height +
             halfwidth * (halfheight + crop_y / 2) + crop_x / 2;
       }
       r = I420Rotate(src_y, src_width,
                      src_u, halfwidth,
                      src_v, halfwidth,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height, rotation);
       break;
     }
     case FOURCC_I422:
     case FOURCC_YV16: {
       const uint8* src_y = sample + src_width * crop_y + crop_x;
       const uint8* src_u;
       const uint8* src_v;
       int halfwidth = (src_width + 1) / 2;
       if (format == FOURCC_YV16) {
         src_v = sample + src_width * abs_src_height +
             halfwidth * crop_y + crop_x / 2;
         src_u = sample + src_width * abs_src_height +
             halfwidth * (abs_src_height + crop_y) + crop_x / 2;
       } else {
         src_u = sample + src_width * abs_src_height +
             halfwidth * crop_y + crop_x / 2;
         src_v = sample + src_width * abs_src_height +
             halfwidth * (abs_src_height + crop_y) + crop_x / 2;
       }
       r = I422ToI420(src_y, src_width,
                      src_u, halfwidth,
                      src_v, halfwidth,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     }
     case FOURCC_I444:
     case FOURCC_YV24: {
       const uint8* src_y = sample + src_width * crop_y + crop_x;
       const uint8* src_u;
       const uint8* src_v;
       if (format == FOURCC_YV24) {
         src_v = sample + src_width * (abs_src_height + crop_y) + crop_x;
         src_u = sample + src_width * (abs_src_height * 2 + crop_y) + crop_x;
       } else {
         src_u = sample + src_width * (abs_src_height + crop_y) + crop_x;
         src_v = sample + src_width * (abs_src_height * 2 + crop_y) + crop_x;
       }
       r = I444ToI420(src_y, src_width,
                      src_u, src_width,
                      src_v, src_width,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     }
     case FOURCC_I411: {
       int quarterwidth = (src_width + 3) / 4;
       const uint8* src_y = sample + src_width * crop_y + crop_x;
       const uint8* src_u = sample + src_width * abs_src_height +
           quarterwidth * crop_y + crop_x / 4;
       const uint8* src_v = sample + src_width * abs_src_height +
           quarterwidth * (abs_src_height + crop_y) + crop_x / 4;
       r = I411ToI420(src_y, src_width,
                      src_u, quarterwidth,
                      src_v, quarterwidth,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      crop_width, inv_crop_height);
       break;
     }
 #ifdef HAVE_JPEG
     case FOURCC_MJPG:
       r = MJPGToI420(sample, sample_size,
                      y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      src_width, abs_src_height, crop_width, inv_crop_height);
       break;
 #endif
     default:
       r = -1;  // unknown fourcc - return failure code.
   }

   if (need_buf) {
     if (!r) {
       r = I420Rotate(y, y_stride,
                      u, u_stride,
                      v, v_stride,
                      tmp_y, tmp_y_stride,
                      tmp_u, tmp_u_stride,
                      tmp_v, tmp_v_stride,
                      crop_width, abs_crop_height, rotation);
     }
     free(rotate_buffer);
   }

   return r;
 }

 #ifdef __cplusplus
 }  // extern "C"
 }  // namespace libyuv
 #endif
	/*
	* Copyright 2011 The LibYuv 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 <stdlib.h>

	#include "libyuv/convert.h"

	#include "libyuv/video_common.h"

	#ifdef __cplusplus
	namespace libyuv {
	extern "C" {
	#endif

	// Convert camera sample to I420 with cropping, rotation and vertical flip.
	// src_width is used for source stride computation
	// src_height is used to compute location of planes, and indicate inversion
	// sample_size is measured in bytes and is the size of the frame.
	// With MJPEG it is the compressed size of the frame.
	LIBYUV_API
	int ConvertToI420(const uint8* sample,
	size_t sample_size,
	uint8* y, int y_stride,
	uint8* u, int u_stride,
	uint8* v, int v_stride,
	int crop_x, int crop_y,
	int src_width, int src_height,
	int crop_width, int crop_height,
	enum RotationMode rotation,
	uint32 fourcc) {
	uint32 format = CanonicalFourCC(fourcc);
	int aligned_src_width = (src_width + 1) & ~1;
	const uint8* src;
	const uint8* src_uv;
	int abs_src_height = (src_height < 0) ? -src_height : src_height;
	int inv_crop_height = (crop_height < 0) ? -crop_height : crop_height;
	int r = 0;
	LIBYUV_BOOL need_buf = (rotation && format != FOURCC_I420 &&
	format != FOURCC_NV12 && format != FOURCC_NV21 &&
	format != FOURCC_YU12 && format != FOURCC_YV12) \|\| y == sample;
	uint8* tmp_y = y;
	uint8* tmp_u = u;
	uint8* tmp_v = v;
	int tmp_y_stride = y_stride;
	int tmp_u_stride = u_stride;
	int tmp_v_stride = v_stride;
	uint8* rotate_buffer = NULL;
	int abs_crop_height = (crop_height < 0) ? -crop_height : crop_height;

	if (!y \|\| !u \|\| !v \|\| !sample \|\|
	src_width <= 0 \|\| crop_width <= 0 \|\|
	src_height == 0 \|\| crop_height == 0) {
	return -1;
	}
	if (src_height < 0) {
	inv_crop_height = -inv_crop_height;
	}

	// One pass rotation is available for some formats. For the rest, convert
	// to I420 (with optional vertical flipping) into a temporary I420 buffer,
	// and then rotate the I420 to the final destination buffer.
	// For in-place conversion, if destination y is same as source sample,
	// also enable temporary buffer.
	if (need_buf) {
	int y_size = crop_width * abs_crop_height;
	int uv_size = ((crop_width + 1) / 2) * ((abs_crop_height + 1) / 2);
	rotate_buffer = (uint8)malloc(y_size + uv_size 2);
	if (!rotate_buffer) {
	return 1; // Out of memory runtime error.
	}
	y = rotate_buffer;
	u = y + y_size;
	v = u + uv_size;
	y_stride = crop_width;
	u_stride = v_stride = ((crop_width + 1) / 2);
	}

	switch (format) {
	// Single plane formats
	case FOURCC_YUY2:
	src = sample + (aligned_src_width * crop_y + crop_x) * 2;
	r = YUY2ToI420(src, aligned_src_width * 2,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_UYVY:
	src = sample + (aligned_src_width * crop_y + crop_x) * 2;
	r = UYVYToI420(src, aligned_src_width * 2,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_RGBP:
	src = sample + (src_width * crop_y + crop_x) * 2;
	r = RGB565ToI420(src, src_width * 2,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_RGBO:
	src = sample + (src_width * crop_y + crop_x) * 2;
	r = ARGB1555ToI420(src, src_width * 2,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_R444:
	src = sample + (src_width * crop_y + crop_x) * 2;
	r = ARGB4444ToI420(src, src_width * 2,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_24BG:
	src = sample + (src_width * crop_y + crop_x) * 3;
	r = RGB24ToI420(src, src_width * 3,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_RAW:
	src = sample + (src_width * crop_y + crop_x) * 3;
	r = RAWToI420(src, src_width * 3,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_ARGB:
	src = sample + (src_width * crop_y + crop_x) * 4;
	r = ARGBToI420(src, src_width * 4,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_BGRA:
	src = sample + (src_width * crop_y + crop_x) * 4;
	r = BGRAToI420(src, src_width * 4,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_ABGR:
	src = sample + (src_width * crop_y + crop_x) * 4;
	r = ABGRToI420(src, src_width * 4,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_RGBA:
	src = sample + (src_width * crop_y + crop_x) * 4;
	r = RGBAToI420(src, src_width * 4,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	case FOURCC_I400:
	src = sample + src_width * crop_y + crop_x;
	r = I400ToI420(src, src_width,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	// Biplanar formats
	case FOURCC_NV12:
	src = sample + (src_width * crop_y + crop_x);
	src_uv = sample + (src_width * src_height) +
	((crop_y / 2) * aligned_src_width) + ((crop_x / 2) * 2);
	r = NV12ToI420Rotate(src, src_width,
	src_uv, aligned_src_width,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height, rotation);
	break;
	case FOURCC_NV21:
	src = sample + (src_width * crop_y + crop_x);
	src_uv = sample + (src_width * src_height) +
	((crop_y / 2) * aligned_src_width) + ((crop_x / 2) * 2);
	// Call NV12 but with u and v parameters swapped.
	r = NV12ToI420Rotate(src, src_width,
	src_uv, aligned_src_width,
	y, y_stride,
	v, v_stride,
	u, u_stride,
	crop_width, inv_crop_height, rotation);
	break;
	case FOURCC_M420:
	src = sample + (src_width * crop_y) * 12 / 8 + crop_x;
	r = M420ToI420(src, src_width,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	// Triplanar formats
	case FOURCC_I420:
	case FOURCC_YU12:
	case FOURCC_YV12: {
	const uint8* src_y = sample + (src_width * crop_y + crop_x);
	const uint8* src_u;
	const uint8* src_v;
	int halfwidth = (src_width + 1) / 2;
	int halfheight = (abs_src_height + 1) / 2;
	if (format == FOURCC_YV12) {
	src_v = sample + src_width * abs_src_height +
	(halfwidth * crop_y + crop_x) / 2;
	src_u = sample + src_width * abs_src_height +
	halfwidth * (halfheight + crop_y / 2) + crop_x / 2;
	} else {
	src_u = sample + src_width * abs_src_height +
	(halfwidth * crop_y + crop_x) / 2;
	src_v = sample + src_width * abs_src_height +
	halfwidth * (halfheight + crop_y / 2) + crop_x / 2;
	}
	r = I420Rotate(src_y, src_width,
	src_u, halfwidth,
	src_v, halfwidth,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height, rotation);
	break;
	}
	case FOURCC_I422:
	case FOURCC_YV16: {
	const uint8* src_y = sample + src_width * crop_y + crop_x;
	const uint8* src_u;
	const uint8* src_v;
	int halfwidth = (src_width + 1) / 2;
	if (format == FOURCC_YV16) {
	src_v = sample + src_width * abs_src_height +
	halfwidth * crop_y + crop_x / 2;
	src_u = sample + src_width * abs_src_height +
	halfwidth * (abs_src_height + crop_y) + crop_x / 2;
	} else {
	src_u = sample + src_width * abs_src_height +
	halfwidth * crop_y + crop_x / 2;
	src_v = sample + src_width * abs_src_height +
	halfwidth * (abs_src_height + crop_y) + crop_x / 2;
	}
	r = I422ToI420(src_y, src_width,
	src_u, halfwidth,
	src_v, halfwidth,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	}
	case FOURCC_I444:
	case FOURCC_YV24: {
	const uint8* src_y = sample + src_width * crop_y + crop_x;
	const uint8* src_u;
	const uint8* src_v;
	if (format == FOURCC_YV24) {
	src_v = sample + src_width * (abs_src_height + crop_y) + crop_x;
	src_u = sample + src_width * (abs_src_height * 2 + crop_y) + crop_x;
	} else {
	src_u = sample + src_width * (abs_src_height + crop_y) + crop_x;
	src_v = sample + src_width * (abs_src_height * 2 + crop_y) + crop_x;
	}
	r = I444ToI420(src_y, src_width,
	src_u, src_width,
	src_v, src_width,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	}
	case FOURCC_I411: {
	int quarterwidth = (src_width + 3) / 4;
	const uint8* src_y = sample + src_width * crop_y + crop_x;
	const uint8* src_u = sample + src_width * abs_src_height +
	quarterwidth * crop_y + crop_x / 4;
	const uint8* src_v = sample + src_width * abs_src_height +
	quarterwidth * (abs_src_height + crop_y) + crop_x / 4;
	r = I411ToI420(src_y, src_width,
	src_u, quarterwidth,
	src_v, quarterwidth,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	crop_width, inv_crop_height);
	break;
	}
	#ifdef HAVE_JPEG
	case FOURCC_MJPG:
	r = MJPGToI420(sample, sample_size,
	y, y_stride,
	u, u_stride,
	v, v_stride,
	src_width, abs_src_height, crop_width, inv_crop_height);
	break;
	#endif
	default:
	r = -1; // unknown fourcc - return failure code.
	}

	if (need_buf) {
	if (!r) {
	r = I420Rotate(y, y_stride,
	u, u_stride,
	v, v_stride,
	tmp_y, tmp_y_stride,
	tmp_u, tmp_u_stride,
	tmp_v, tmp_v_stride,
	crop_width, abs_crop_height, rotation);
	}
	free(rotate_buffer);
	}

	return r;
	}

	#ifdef __cplusplus
	} // extern "C"
	} // namespace libyuv
	#endif