system/OpenglSystemCommon/FormatConversions.cpp - device/generic/goldfish-opengl - Gitiles

 /*
  * Copyright (C) 2016 Google, Inc.
  *
  * This software is licensed under the terms of the GNU General Public
  * License version 2, as published by the Free Software Foundation, and
  * may be copied, distributed, and modified under those terms.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  */

 #include "FormatConversions.h"

 #include <cutils/log.h>
 #include <string.h>

 #define DEBUG 0

 #if DEBUG
 #define DD(...) ALOGD(...)
 #else
 #define DD(...)
 #endif

 void get_yv12_offsets(int width, int height,
                              uint32_t* yStride_out,
                              uint32_t* cStride_out,
                              uint32_t* totalSz_out) {
     uint32_t align = 16;
     uint32_t yStride = (width + (align - 1)) & ~(align-1);
     uint32_t uvStride = (yStride / 2 + (align - 1)) & ~(align-1);
     uint32_t uvHeight = height / 2;
     uint32_t sz = yStride * height + 2 * (uvHeight * uvStride);

     if (yStride_out) *yStride_out = yStride;
     if (cStride_out) *cStride_out = uvStride;
     if (totalSz_out) *totalSz_out = sz;
 }

 void get_yuv420p_offsets(int width, int height,
                                 uint32_t* yStride_out,
                                 uint32_t* cStride_out,
                                 uint32_t* totalSz_out) {
     uint32_t align = 1;
     uint32_t yStride = (width + (align - 1)) & ~(align-1);
     uint32_t uvStride = (yStride / 2 + (align - 1)) & ~(align-1);
     uint32_t uvHeight = height / 2;
     uint32_t sz = yStride * height + 2 * (uvHeight * uvStride);

     if (yStride_out) *yStride_out = yStride;
     if (cStride_out) *cStride_out = uvStride;
     if (totalSz_out) *totalSz_out = sz;
 }

 signed clamp_rgb(signed value) {
     if (value > 255) {
         value = 255;
     } else if (value < 0) {
         value = 0;
     }
     return value;
 }

 void rgb565_to_yv12(char* dest, char* src, int width, int height,
         int left, int top, int right, int bottom) {
     int align = 16;
     int yStride = (width + (align -1)) & ~(align-1);
     int cStride = (yStride / 2 + (align - 1)) & ~(align-1);
     int yOffset = 0;
     int cSize = cStride * height/2;

     uint16_t *rgb_ptr0 = (uint16_t *)src;
     uint8_t *yv12_y0 = (uint8_t *)dest;
     uint8_t *yv12_v0 = yv12_y0 + yStride * height;
     uint8_t *yv12_u0 = yv12_v0 + cSize;

     for (int j = top; j <= bottom; ++j) {
         uint8_t *yv12_y = yv12_y0 + j * yStride;
         uint8_t *yv12_v = yv12_v0 + (j/2) * cStride;
         uint8_t *yv12_u = yv12_v + cSize;
         uint16_t *rgb_ptr = rgb_ptr0 + j * width;
         bool jeven = (j & 1) == 0;
         for (int i = left; i <= right; ++i) {
             uint8_t r = ((rgb_ptr[i]) >> 11) & 0x01f;
             uint8_t g = ((rgb_ptr[i]) >> 5) & 0x03f;
             uint8_t b = (rgb_ptr[i]) & 0x01f;
             // convert to 8bits
             // http://stackoverflow.com/questions/2442576/how-does-one-convert-16-bit-rgb565-to-24-bit-rgb888
             uint8_t R = (r * 527 + 23) >> 6;
             uint8_t G = (g * 259 + 33) >> 6;
             uint8_t B = (b * 527 + 23) >> 6;
             // convert to YV12
             // frameworks/base/core/jni/android_hardware_camera2_legacy_LegacyCameraDevice.cpp
             yv12_y[i] = clamp_rgb((77 * R + 150 * G +  29 * B) >> 8);
             bool ieven = (i & 1) == 0;
             if (jeven && ieven) {
                 yv12_u[i] = clamp_rgb((( -43 * R - 85 * G + 128 * B) >> 8) + 128);
                 yv12_v[i] = clamp_rgb((( 128 * R - 107 * G - 21 * B) >> 8) + 128);
             }
         }
     }
 }

 void rgb888_to_yv12(char* dest, char* src, int width, int height,
         int left, int top, int right, int bottom) {
     DD("%s convert %d by %d", __func__, width, height);
     int align = 16;
     int yStride = (width + (align -1)) & ~(align-1);
     int cStride = (yStride / 2 + (align - 1)) & ~(align-1);
     int yOffset = 0;
     int cSize = cStride * height/2;
     int rgb_stride = 3;

     uint8_t *rgb_ptr0 = (uint8_t *)src;
     uint8_t *yv12_y0 = (uint8_t *)dest;
     uint8_t *yv12_v0 = yv12_y0 + yStride * height;
     uint8_t *yv12_u0 = yv12_v0 + cSize;

     for (int j = top; j <= bottom; ++j) {
         uint8_t *yv12_y = yv12_y0 + j * yStride;
         uint8_t *yv12_v = yv12_v0 + (j/2) * cStride;
         uint8_t *yv12_u = yv12_v + cSize;
         uint8_t  *rgb_ptr = rgb_ptr0 + j * width*rgb_stride;
         bool jeven = (j & 1) == 0;
         for (int i = left; i <= right; ++i) {
             uint8_t R = rgb_ptr[i*rgb_stride];
             uint8_t G = rgb_ptr[i*rgb_stride+1];
             uint8_t B = rgb_ptr[i*rgb_stride+2];
             // convert to YV12
             // frameworks/base/core/jni/android_hardware_camera2_legacy_LegacyCameraDevice.cpp
             yv12_y[i] = clamp_rgb((77 * R + 150 * G +  29 * B) >> 8);
             bool ieven = (i & 1) == 0;
             if (jeven && ieven) {
                 yv12_u[i] = clamp_rgb((( -43 * R - 85 * G + 128 * B) >> 8) + 128);
                 yv12_v[i] = clamp_rgb((( 128 * R - 107 * G - 21 * B) >> 8) + 128);
             }
         }
     }
 }

 void rgb888_to_yuv420p(char* dest, char* src, int width, int height,
         int left, int top, int right, int bottom) {
     DD("%s convert %d by %d", __func__, width, height);
     int yStride = width;
     int cStride = yStride / 2;
     int yOffset = 0;
     int cSize = cStride * height/2;
     int rgb_stride = 3;

     uint8_t *rgb_ptr0 = (uint8_t *)src;
     uint8_t *yv12_y0 = (uint8_t *)dest;
     uint8_t *yv12_u0 = yv12_y0 + yStride * height;
     uint8_t *yv12_v0 = yv12_u0 + cSize;

     for (int j = top; j <= bottom; ++j) {
         uint8_t *yv12_y = yv12_y0 + j * yStride;
         uint8_t *yv12_u = yv12_u0 + (j/2) * cStride;
         uint8_t *yv12_v = yv12_u + cStride;
         uint8_t  *rgb_ptr = rgb_ptr0 + j * width*rgb_stride;
         bool jeven = (j & 1) == 0;
         for (int i = left; i <= right; ++i) {
             uint8_t R = rgb_ptr[i*rgb_stride];
             uint8_t G = rgb_ptr[i*rgb_stride+1];
             uint8_t B = rgb_ptr[i*rgb_stride+2];
             // convert to YV12
             // frameworks/base/core/jni/android_hardware_camera2_legacy_LegacyCameraDevice.cpp
             yv12_y[i] = clamp_rgb((77 * R + 150 * G +  29 * B) >> 8);
             bool ieven = (i & 1) == 0;
             if (jeven && ieven) {
                 yv12_u[i] = clamp_rgb((( -43 * R - 85 * G + 128 * B) >> 8) + 128);
                 yv12_v[i] = clamp_rgb((( 128 * R - 107 * G - 21 * B) >> 8) + 128);
             }
         }
     }
 }
 // YV12 is aka YUV420Planar, or YUV420p; the only difference is that YV12 has
 // certain stride requirements for Y and UV respectively.
 void yv12_to_rgb565(char* dest, char* src, int width, int height,
         int left, int top, int right, int bottom) {
     DD("%s convert %d by %d", __func__, width, height);
     int align = 16;
     int yStride = (width + (align -1)) & ~(align-1);
     int cStride = (yStride / 2 + (align - 1)) & ~(align-1);
     int yOffset = 0;
     int cSize = cStride * height/2;

     uint16_t *rgb_ptr0 = (uint16_t *)dest;
     uint8_t *yv12_y0 = (uint8_t *)src;
     uint8_t *yv12_v0 = yv12_y0 + yStride * height;
     uint8_t *yv12_u0 = yv12_v0 + cSize;

     for (int j = top; j <= bottom; ++j) {
         uint8_t *yv12_y = yv12_y0 + j * yStride;
         uint8_t *yv12_v = yv12_v0 + (j/2) * cStride;
         uint8_t *yv12_u = yv12_v + cSize;
         uint16_t *rgb_ptr = rgb_ptr0 + (j-top) * (right-left+1);
         for (int i = left; i <= right; ++i) {
             // convert to rgb
             // frameworks/av/media/libstagefright/colorconversion/ColorConverter.cpp
             signed y1 = (signed)yv12_y[i] - 16;
             signed u = (signed)yv12_u[i / 2] - 128;
             signed v = (signed)yv12_v[i / 2] - 128;

             signed u_b = u * 517;
             signed u_g = -u * 100;
             signed v_g = -v * 208;
             signed v_r = v * 409;

             signed tmp1 = y1 * 298;
             signed b1 = clamp_rgb((tmp1 + u_b) / 256);
             signed g1 = clamp_rgb((tmp1 + v_g + u_g) / 256);
             signed r1 = clamp_rgb((tmp1 + v_r) / 256);

             uint16_t rgb1 = ((r1 >> 3) << 11) | ((g1 >> 2) << 5) | (b1 >> 3);

             rgb_ptr[i-left] = rgb1;
         }
     }
 }

 // YV12 is aka YUV420Planar, or YUV420p; the only difference is that YV12 has
 // certain stride requirements for Y and UV respectively.
 void yv12_to_rgb888(char* dest, char* src, int width, int height,
         int left, int top, int right, int bottom) {
     DD("%s convert %d by %d", __func__, width, height);
     int align = 16;
     int yStride = (width + (align -1)) & ~(align-1);
     int cStride = (yStride / 2 + (align - 1)) & ~(align-1);
     int yOffset = 0;
     int cSize = cStride * height/2;
     int rgb_stride = 3;

     uint8_t *rgb_ptr0 = (uint8_t *)dest;
     uint8_t *yv12_y0 = (uint8_t *)src;
     uint8_t *yv12_v0 = yv12_y0 + yStride * height;
     uint8_t *yv12_u0 = yv12_v0 + cSize;

     for (int j = top; j <= bottom; ++j) {
         uint8_t *yv12_y = yv12_y0 + j * yStride;
         uint8_t *yv12_v = yv12_v0 + (j/2) * cStride;
         uint8_t *yv12_u = yv12_v + cSize;
         uint8_t *rgb_ptr = rgb_ptr0 + (j-top) * (right-left+1) * rgb_stride;
         for (int i = left; i <= right; ++i) {
             // convert to rgb
             // frameworks/av/media/libstagefright/colorconversion/ColorConverter.cpp
             signed y1 = (signed)yv12_y[i] - 16;
             signed u = (signed)yv12_u[i / 2] - 128;
             signed v = (signed)yv12_v[i / 2] - 128;

             signed u_b = u * 517;
             signed u_g = -u * 100;
             signed v_g = -v * 208;
             signed v_r = v * 409;

             signed tmp1 = y1 * 298;
             signed b1 = clamp_rgb((tmp1 + u_b) / 256);
             signed g1 = clamp_rgb((tmp1 + v_g + u_g) / 256);
             signed r1 = clamp_rgb((tmp1 + v_r) / 256);

             rgb_ptr[(i-left)*rgb_stride] = r1;
             rgb_ptr[(i-left)*rgb_stride+1] = g1;
             rgb_ptr[(i-left)*rgb_stride+2] = b1;
         }
     }
 }

 // YV12 is aka YUV420Planar, or YUV420p; the only difference is that YV12 has
 // certain stride requirements for Y and UV respectively.
 void yuv420p_to_rgb888(char* dest, char* src, int width, int height,
         int left, int top, int right, int bottom) {
     DD("%s convert %d by %d", __func__, width, height);
     int yStride = width;
     int cStride = yStride / 2;
     int yOffset = 0;
     int cSize = cStride * height/2;
     int rgb_stride = 3;

     uint8_t *rgb_ptr0 = (uint8_t *)dest;
     uint8_t *yv12_y0 = (uint8_t *)src;
     uint8_t *yv12_u0 = yv12_y0 + yStride * height;
     uint8_t *yv12_v0 = yv12_u0 + cSize;

     for (int j = top; j <= bottom; ++j) {
         uint8_t *yv12_y = yv12_y0 + j * yStride;
         uint8_t *yv12_u = yv12_u0 + (j/2) * cStride;
         uint8_t *yv12_v = yv12_u + cSize;
         uint8_t *rgb_ptr = rgb_ptr0 + (j-top) * (right-left+1) * rgb_stride;
         for (int i = left; i <= right; ++i) {
             // convert to rgb
             // frameworks/av/media/libstagefright/colorconversion/ColorConverter.cpp
             signed y1 = (signed)yv12_y[i] - 16;
             signed u = (signed)yv12_u[i / 2] - 128;
             signed v = (signed)yv12_v[i / 2] - 128;

             signed u_b = u * 517;
             signed u_g = -u * 100;
             signed v_g = -v * 208;
             signed v_r = v * 409;

             signed tmp1 = y1 * 298;
             signed b1 = clamp_rgb((tmp1 + u_b) / 256);
             signed g1 = clamp_rgb((tmp1 + v_g + u_g) / 256);
             signed r1 = clamp_rgb((tmp1 + v_r) / 256);

             rgb_ptr[(i-left)*rgb_stride] = r1;
             rgb_ptr[(i-left)*rgb_stride+1] = g1;
             rgb_ptr[(i-left)*rgb_stride+2] = b1;
         }
     }
 }

 void copy_rgb_buffer_from_unlocked(
         char* _dst, char* raw_data,
         int unlockedWidth,
         int width, int height, int top, int left,
         int bpp) {
     char* dst = _dst;
     int dst_line_len = width * bpp;
     int src_line_len = unlockedWidth * bpp;
     char *src = (char *)raw_data + top*src_line_len + left*bpp;
     for (int y = 0; y < height; y++) {
         memcpy(dst, src, dst_line_len);
         src += src_line_len;
         dst += dst_line_len;
     }
 }
	/*
	* Copyright (C) 2016 Google, Inc.
	*
	* This software is licensed under the terms of the GNU General Public
	* License version 2, as published by the Free Software Foundation, and
	* may be copied, distributed, and modified under those terms.
	*
	* This program is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	*/

	#include "FormatConversions.h"

	#include <cutils/log.h>
	#include <string.h>

	#define DEBUG 0

	#if DEBUG
	#define DD(...) ALOGD(...)
	#else
	#define DD(...)
	#endif

	void get_yv12_offsets(int width, int height,
	uint32_t* yStride_out,
	uint32_t* cStride_out,
	uint32_t* totalSz_out) {
	uint32_t align = 16;
	uint32_t yStride = (width + (align - 1)) & ~(align-1);
	uint32_t uvStride = (yStride / 2 + (align - 1)) & ~(align-1);
	uint32_t uvHeight = height / 2;
	uint32_t sz = yStride * height + 2 * (uvHeight * uvStride);

	if (yStride_out) *yStride_out = yStride;
	if (cStride_out) *cStride_out = uvStride;
	if (totalSz_out) *totalSz_out = sz;
	}

	void get_yuv420p_offsets(int width, int height,
	uint32_t* yStride_out,
	uint32_t* cStride_out,
	uint32_t* totalSz_out) {
	uint32_t align = 1;
	uint32_t yStride = (width + (align - 1)) & ~(align-1);
	uint32_t uvStride = (yStride / 2 + (align - 1)) & ~(align-1);
	uint32_t uvHeight = height / 2;
	uint32_t sz = yStride * height + 2 * (uvHeight * uvStride);

	if (yStride_out) *yStride_out = yStride;
	if (cStride_out) *cStride_out = uvStride;
	if (totalSz_out) *totalSz_out = sz;
	}

	signed clamp_rgb(signed value) {
	if (value > 255) {
	value = 255;
	} else if (value < 0) {
	value = 0;
	}
	return value;
	}

	void rgb565_to_yv12(char* dest, char* src, int width, int height,
	int left, int top, int right, int bottom) {
	int align = 16;
	int yStride = (width + (align -1)) & ~(align-1);
	int cStride = (yStride / 2 + (align - 1)) & ~(align-1);
	int yOffset = 0;
	int cSize = cStride * height/2;

	uint16_t rgb_ptr0 = (uint16_t )src;
	uint8_t yv12_y0 = (uint8_t )dest;
	uint8_t yv12_v0 = yv12_y0 + yStride height;
	uint8_t *yv12_u0 = yv12_v0 + cSize;

	for (int j = top; j <= bottom; ++j) {
	uint8_t yv12_y = yv12_y0 + j yStride;
	uint8_t yv12_v = yv12_v0 + (j/2) cStride;
	uint8_t *yv12_u = yv12_v + cSize;
	uint16_t rgb_ptr = rgb_ptr0 + j width;
	bool jeven = (j & 1) == 0;
	for (int i = left; i <= right; ++i) {
	uint8_t r = ((rgb_ptr[i]) >> 11) & 0x01f;
	uint8_t g = ((rgb_ptr[i]) >> 5) & 0x03f;
	uint8_t b = (rgb_ptr[i]) & 0x01f;
	// convert to 8bits
	// http://stackoverflow.com/questions/2442576/how-does-one-convert-16-bit-rgb565-to-24-bit-rgb888
	uint8_t R = (r * 527 + 23) >> 6;
	uint8_t G = (g * 259 + 33) >> 6;
	uint8_t B = (b * 527 + 23) >> 6;
	// convert to YV12
	// frameworks/base/core/jni/android_hardware_camera2_legacy_LegacyCameraDevice.cpp
	yv12_y[i] = clamp_rgb((77 * R + 150 * G + 29 * B) >> 8);
	bool ieven = (i & 1) == 0;
	if (jeven && ieven) {
	yv12_u[i] = clamp_rgb((( -43 * R - 85 * G + 128 * B) >> 8) + 128);
	yv12_v[i] = clamp_rgb((( 128 * R - 107 * G - 21 * B) >> 8) + 128);
	}
	}
	}
	}

	void rgb888_to_yv12(char* dest, char* src, int width, int height,
	int left, int top, int right, int bottom) {
	DD("%s convert %d by %d", __func__, width, height);
	int align = 16;
	int yStride = (width + (align -1)) & ~(align-1);
	int cStride = (yStride / 2 + (align - 1)) & ~(align-1);
	int yOffset = 0;
	int cSize = cStride * height/2;
	int rgb_stride = 3;

	uint8_t rgb_ptr0 = (uint8_t )src;
	uint8_t yv12_y0 = (uint8_t )dest;
	uint8_t yv12_v0 = yv12_y0 + yStride height;
	uint8_t *yv12_u0 = yv12_v0 + cSize;

	for (int j = top; j <= bottom; ++j) {
	uint8_t yv12_y = yv12_y0 + j yStride;
	uint8_t yv12_v = yv12_v0 + (j/2) cStride;
	uint8_t *yv12_u = yv12_v + cSize;
	uint8_t rgb_ptr = rgb_ptr0 + j width*rgb_stride;
	bool jeven = (j & 1) == 0;
	for (int i = left; i <= right; ++i) {
	uint8_t R = rgb_ptr[i*rgb_stride];
	uint8_t G = rgb_ptr[i*rgb_stride+1];
	uint8_t B = rgb_ptr[i*rgb_stride+2];
	// convert to YV12
	// frameworks/base/core/jni/android_hardware_camera2_legacy_LegacyCameraDevice.cpp
	yv12_y[i] = clamp_rgb((77 * R + 150 * G + 29 * B) >> 8);
	bool ieven = (i & 1) == 0;
	if (jeven && ieven) {
	yv12_u[i] = clamp_rgb((( -43 * R - 85 * G + 128 * B) >> 8) + 128);
	yv12_v[i] = clamp_rgb((( 128 * R - 107 * G - 21 * B) >> 8) + 128);
	}
	}
	}
	}

	void rgb888_to_yuv420p(char* dest, char* src, int width, int height,
	int left, int top, int right, int bottom) {
	DD("%s convert %d by %d", __func__, width, height);
	int yStride = width;
	int cStride = yStride / 2;
	int yOffset = 0;
	int cSize = cStride * height/2;
	int rgb_stride = 3;

	uint8_t rgb_ptr0 = (uint8_t )src;
	uint8_t yv12_y0 = (uint8_t )dest;
	uint8_t yv12_u0 = yv12_y0 + yStride height;
	uint8_t *yv12_v0 = yv12_u0 + cSize;

	for (int j = top; j <= bottom; ++j) {
	uint8_t yv12_y = yv12_y0 + j yStride;
	uint8_t yv12_u = yv12_u0 + (j/2) cStride;
	uint8_t *yv12_v = yv12_u + cStride;
	uint8_t rgb_ptr = rgb_ptr0 + j width*rgb_stride;
	bool jeven = (j & 1) == 0;
	for (int i = left; i <= right; ++i) {
	uint8_t R = rgb_ptr[i*rgb_stride];
	uint8_t G = rgb_ptr[i*rgb_stride+1];
	uint8_t B = rgb_ptr[i*rgb_stride+2];
	// convert to YV12
	// frameworks/base/core/jni/android_hardware_camera2_legacy_LegacyCameraDevice.cpp
	yv12_y[i] = clamp_rgb((77 * R + 150 * G + 29 * B) >> 8);
	bool ieven = (i & 1) == 0;
	if (jeven && ieven) {
	yv12_u[i] = clamp_rgb((( -43 * R - 85 * G + 128 * B) >> 8) + 128);
	yv12_v[i] = clamp_rgb((( 128 * R - 107 * G - 21 * B) >> 8) + 128);
	}
	}
	}
	}
	// YV12 is aka YUV420Planar, or YUV420p; the only difference is that YV12 has
	// certain stride requirements for Y and UV respectively.
	void yv12_to_rgb565(char* dest, char* src, int width, int height,
	int left, int top, int right, int bottom) {
	DD("%s convert %d by %d", __func__, width, height);
	int align = 16;
	int yStride = (width + (align -1)) & ~(align-1);
	int cStride = (yStride / 2 + (align - 1)) & ~(align-1);
	int yOffset = 0;
	int cSize = cStride * height/2;

	uint16_t rgb_ptr0 = (uint16_t )dest;
	uint8_t yv12_y0 = (uint8_t )src;
	uint8_t yv12_v0 = yv12_y0 + yStride height;
	uint8_t *yv12_u0 = yv12_v0 + cSize;

	for (int j = top; j <= bottom; ++j) {
	uint8_t yv12_y = yv12_y0 + j yStride;
	uint8_t yv12_v = yv12_v0 + (j/2) cStride;
	uint8_t *yv12_u = yv12_v + cSize;
	uint16_t rgb_ptr = rgb_ptr0 + (j-top) (right-left+1);
	for (int i = left; i <= right; ++i) {
	// convert to rgb
	// frameworks/av/media/libstagefright/colorconversion/ColorConverter.cpp
	signed y1 = (signed)yv12_y[i] - 16;
	signed u = (signed)yv12_u[i / 2] - 128;
	signed v = (signed)yv12_v[i / 2] - 128;

	signed u_b = u * 517;
	signed u_g = -u * 100;
	signed v_g = -v * 208;
	signed v_r = v * 409;

	signed tmp1 = y1 * 298;
	signed b1 = clamp_rgb((tmp1 + u_b) / 256);
	signed g1 = clamp_rgb((tmp1 + v_g + u_g) / 256);
	signed r1 = clamp_rgb((tmp1 + v_r) / 256);

	uint16_t rgb1 = ((r1 >> 3) << 11) \| ((g1 >> 2) << 5) \| (b1 >> 3);

	rgb_ptr[i-left] = rgb1;
	}
	}
	}

	// YV12 is aka YUV420Planar, or YUV420p; the only difference is that YV12 has
	// certain stride requirements for Y and UV respectively.
	void yv12_to_rgb888(char* dest, char* src, int width, int height,
	int left, int top, int right, int bottom) {
	DD("%s convert %d by %d", __func__, width, height);
	int align = 16;
	int yStride = (width + (align -1)) & ~(align-1);
	int cStride = (yStride / 2 + (align - 1)) & ~(align-1);
	int yOffset = 0;
	int cSize = cStride * height/2;
	int rgb_stride = 3;

	uint8_t rgb_ptr0 = (uint8_t )dest;
	uint8_t yv12_y0 = (uint8_t )src;
	uint8_t yv12_v0 = yv12_y0 + yStride height;
	uint8_t *yv12_u0 = yv12_v0 + cSize;

	for (int j = top; j <= bottom; ++j) {
	uint8_t yv12_y = yv12_y0 + j yStride;
	uint8_t yv12_v = yv12_v0 + (j/2) cStride;
	uint8_t *yv12_u = yv12_v + cSize;
	uint8_t rgb_ptr = rgb_ptr0 + (j-top) (right-left+1) * rgb_stride;
	for (int i = left; i <= right; ++i) {
	// convert to rgb
	// frameworks/av/media/libstagefright/colorconversion/ColorConverter.cpp
	signed y1 = (signed)yv12_y[i] - 16;
	signed u = (signed)yv12_u[i / 2] - 128;
	signed v = (signed)yv12_v[i / 2] - 128;

	signed u_b = u * 517;
	signed u_g = -u * 100;
	signed v_g = -v * 208;
	signed v_r = v * 409;

	signed tmp1 = y1 * 298;
	signed b1 = clamp_rgb((tmp1 + u_b) / 256);
	signed g1 = clamp_rgb((tmp1 + v_g + u_g) / 256);
	signed r1 = clamp_rgb((tmp1 + v_r) / 256);

	rgb_ptr[(i-left)*rgb_stride] = r1;
	rgb_ptr[(i-left)*rgb_stride+1] = g1;
	rgb_ptr[(i-left)*rgb_stride+2] = b1;
	}
	}
	}

	// YV12 is aka YUV420Planar, or YUV420p; the only difference is that YV12 has
	// certain stride requirements for Y and UV respectively.
	void yuv420p_to_rgb888(char* dest, char* src, int width, int height,
	int left, int top, int right, int bottom) {
	DD("%s convert %d by %d", __func__, width, height);
	int yStride = width;
	int cStride = yStride / 2;
	int yOffset = 0;
	int cSize = cStride * height/2;
	int rgb_stride = 3;

	uint8_t rgb_ptr0 = (uint8_t )dest;
	uint8_t yv12_y0 = (uint8_t )src;
	uint8_t yv12_u0 = yv12_y0 + yStride height;
	uint8_t *yv12_v0 = yv12_u0 + cSize;

	for (int j = top; j <= bottom; ++j) {
	uint8_t yv12_y = yv12_y0 + j yStride;
	uint8_t yv12_u = yv12_u0 + (j/2) cStride;
	uint8_t *yv12_v = yv12_u + cSize;
	uint8_t rgb_ptr = rgb_ptr0 + (j-top) (right-left+1) * rgb_stride;
	for (int i = left; i <= right; ++i) {
	// convert to rgb
	// frameworks/av/media/libstagefright/colorconversion/ColorConverter.cpp
	signed y1 = (signed)yv12_y[i] - 16;
	signed u = (signed)yv12_u[i / 2] - 128;
	signed v = (signed)yv12_v[i / 2] - 128;

	signed u_b = u * 517;
	signed u_g = -u * 100;
	signed v_g = -v * 208;
	signed v_r = v * 409;

	signed tmp1 = y1 * 298;
	signed b1 = clamp_rgb((tmp1 + u_b) / 256);
	signed g1 = clamp_rgb((tmp1 + v_g + u_g) / 256);
	signed r1 = clamp_rgb((tmp1 + v_r) / 256);

	rgb_ptr[(i-left)*rgb_stride] = r1;
	rgb_ptr[(i-left)*rgb_stride+1] = g1;
	rgb_ptr[(i-left)*rgb_stride+2] = b1;
	}
	}
	}

	void copy_rgb_buffer_from_unlocked(
	char* _dst, char* raw_data,
	int unlockedWidth,
	int width, int height, int top, int left,
	int bpp) {
	char* dst = _dst;
	int dst_line_len = width * bpp;
	int src_line_len = unlockedWidth * bpp;
	char src = (char )raw_data + topsrc_line_len + leftbpp;
	for (int y = 0; y < height; y++) {
	memcpy(dst, src, dst_line_len);
	src += src_line_len;
	dst += dst_line_len;
	}
	}