网络上有很多有关YUV4:2:2转YUV4:2:0的描述,但大多数都是讲解原理,没有实际性的做法,本文把自己在TI DAVINCI DM6446 端的测试过的代码奉献出来,供大家参考和学习,同时抛砖引玉,希望得到大家的指点。本方法适合TI DM642,DM643x,DM644x等DSP系列,前段图像采集格式一般都是YCbCr 4:2:2(YUV4:2:2),但很多视频应用都需要对YUV4:2:2进行转化成YUV4:2:0的格式,比如jpeg,MPEG4,H.264等,在DM643x,DM644x上,TI 采用EDMA3的方式实现转换,那是另外的方法,这里专门介绍通用的做法,在DM6441(513MHz)上处理640x480只需要7.5ms,而且还可以再优化,这个大家可以试试。
/***********************************************/
以PAL制为例,这里的YCbCr 4:2:2(YUV4:2:2)像素排列方式是:
U0,0 Y0,0 V0,0 Y 0,1 U0,1 Y0,2 V0,1 Y 0,3......U0,359 Y0,718 V0,359 Y 0,719
..............................
U575,0 Y575,0 V575,0 Y 575,1 ...........U575,359 Y575,718 V575,359 Y 575,719
我们要转化成YUV4:2:0的格式:
/*视频输入格式定义*/
#define PAL 1 /*PAL制CCD摄像头图像采集*/
#define NTSC 0 /*NTSC制CCD摄像头图像采集*/
#define CMOS 0 /*CMOS摄像头图像采集*/
#if (1== PAL)
#define ORG_IMG_WIDTH 720 /*D1 格式*/
#define ORG_IMG_HEIGHT 576
#elif (1==NTSC )
#define ORG_IMG_WIDTH 720 /*D1 格式*/
#define ORG_IMG_HEIGHT 480
#elif (1==CMOS)
#define ORG_IMG_WIDTH 640 /*VGA 格式*/
#define ORG_IMG_HEIGHT 480
#endif
yuv422to420(const *unsigned char YCbCr_buf) /*YCbCr_buf指向YUV4:2:2的空间*/
{
unsigned int m0,m1,m2,m3,x,y;
unsigned int tmp,tmp0,tmp1,tmp2;
unsigned int tmp,tmp0,tmp1,tmp2;
tmp = (unsigned int)YCbCr_buf;/*对于D1,CIF,QCIF,VGA,QVGA的BUF肯定是4字节对齐,所以这里定义unsigned int也是可以的,当然你也可以使用指针*/
tmp0 = (unsigned int)Y_buf;
for(y=0;y
for(x=0;x<(ORG_IMG_WIDTH>>1);x+=4)
{
m0 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<1) + (x<<2)); /
m1 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<1) + ((x+1)<<2));
m2 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<1) + ((x+2)<<2));
m3 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<1) + ((x+3)<<2));
*(unsigned short*)(tmp0+y*ORG_IMG_WIDTH + (x<<1))=(unsigned short)(((m0>>16)&0xFF00)|((m0>>8)&0x00FF));
*(unsigned short*)(tmp0+y*ORG_IMG_WIDTH + ((x+1)<<1))=(unsigned short)(((m1>>16)&0xFF00)|((m1>>8)&0x00FF));
*(unsigned short*)(tmp0+y*ORG_IMG_WIDTH + ((x+2)<<1))=(unsigned short)(((m2>>16)&0xFF00)|((m2>>8)&0x00FF));
*(unsigned short*)(tmp0+y*RG_IMG_WIDTH + ((x+3)<<1))=(unsigned short)(((m3>>16)&0xFF00)|((m3>>8)&0x00FF));
}
}
tmp1=(unsigned int)U_buf;
tmp2=(unsigned int)V_buf;
for(y=0;y<(ORG_IMG_HEIGHT>>1);y++)
{
for(x=0;x<(ORG_IMG_WIDTH>>1);x+=4)
{
m0 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<2) + (x<<2));
m1 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<2) + ((x+1)<<2));
m2 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<2) + ((x+2)<<2));
m3 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<2) + ((x+3)<<2));
*(unsigned char*)(tmp1+y*(ORG_IMG_WIDTH>>1) + x)=(unsigned char)m0;
*(unsigned char*)(tmp2+y*(ORG_IMG_WIDTH>>1) + x)=(unsigned char)(m0>>16);
*(unsigned char*)(tmp1+y*(ORG_IMG_WIDTH>>1) + x + 1)=(unsigned char)m1;
*(unsigned char*)(tmp2+y*(ORG_IMG_WIDTH>>1) + x + 1)=(unsigned char)(m1>>16);
*(unsigned char*)(tmp1+y*(ORG_IMG_WIDTH>>1) + x + 2)=(unsigned char)m2;
*(unsigned char*)(tmp2+y*(ORG_IMG_WIDTH>>1) + x + 2)=(unsigned char)(m2>>16);
*(unsigned char*)(tmp1+y*(ORG_IMG_WIDTH>>1) + x + 3)=(unsigned char)m3;
*(unsigned char*)(tmp2+y*(ORG_IMG_WIDTH>>1) + x + 3)=(unsigned char)(m3>>16);
m2 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<1) + ((x+2)<<2));
m3 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<1) + ((x+3)<<2));
*(unsigned short*)(tmp0+y*ORG_IMG_WIDTH + (x<<1))=(unsigned short)(((m0>>16)&0xFF00)|((m0>>8)&0x00FF));
*(unsigned short*)(tmp0+y*ORG_IMG_WIDTH + ((x+1)<<1))=(unsigned short)(((m1>>16)&0xFF00)|((m1>>8)&0x00FF));
*(unsigned short*)(tmp0+y*ORG_IMG_WIDTH + ((x+2)<<1))=(unsigned short)(((m2>>16)&0xFF00)|((m2>>8)&0x00FF));
*(unsigned short*)(tmp0+y*RG_IMG_WIDTH + ((x+3)<<1))=(unsigned short)(((m3>>16)&0xFF00)|((m3>>8)&0x00FF));
}
}
tmp1=(unsigned int)U_buf;
tmp2=(unsigned int)V_buf;
for(y=0;y<(ORG_IMG_HEIGHT>>1);y++)
{
for(x=0;x<(ORG_IMG_WIDTH>>1);x+=4)
{
m0 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<2) + (x<<2));
m1 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<2) + ((x+1)<<2));
m2 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<2) + ((x+2)<<2));
m3 = *(unsigned int*)(tmp+y*(ORG_IMG_WIDTH<<2) + ((x+3)<<2));
*(unsigned char*)(tmp1+y*(ORG_IMG_WIDTH>>1) + x)=(unsigned char)m0;
*(unsigned char*)(tmp2+y*(ORG_IMG_WIDTH>>1) + x)=(unsigned char)(m0>>16);
*(unsigned char*)(tmp1+y*(ORG_IMG_WIDTH>>1) + x + 1)=(unsigned char)m1;
*(unsigned char*)(tmp2+y*(ORG_IMG_WIDTH>>1) + x + 1)=(unsigned char)(m1>>16);
*(unsigned char*)(tmp1+y*(ORG_IMG_WIDTH>>1) + x + 2)=(unsigned char)m2;
*(unsigned char*)(tmp2+y*(ORG_IMG_WIDTH>>1) + x + 2)=(unsigned char)(m2>>16);
*(unsigned char*)(tmp1+y*(ORG_IMG_WIDTH>>1) + x + 3)=(unsigned char)m3;
*(unsigned char*)(tmp2+y*(ORG_IMG_WIDTH>>1) + x + 3)=(unsigned char)(m3>>16);
}
}
}
对上面的代码点评:DSP的优化原则,能移位,就不要乘除;能int 读内存,就不要用char读内存,因为C64,C64+的DSP 读内存指令需要4个时钟周期;循环能成4的倍数,最好拆4次操作,形成管道流水线操作,当然循环内部不能有if, break等语句。
另外,DM642或DM643有自己的效率更高的程序,这里也奉献给大家。
#include
#include
#include
#include
#include
#pragma DATA_SECTION(int_mem_temp, ".img_buf");/*可以把.img_buf定义到L2RAM*/
#pragma DATA_ALIGN(int_mem_temp, 128);
unsigned char int_mem_temp[720];
#pragma DATA_ALIGN(int_mem_temp, 128);
unsigned char int_mem_temp[720];
void yuv422to420( char *frameIn[], char *frm_out[],
int width, int height)
{
char *pSrcY = frameIn[0];
char *pSrcU = frameIn[1];
char *pSrcV = frameIn[2];
int width, int height)
{
char *pSrcY = frameIn[0];
char *pSrcU = frameIn[1];
char *pSrcV = frameIn[2];
char *pDestY = frm_out[0];
char *pDestU = frm_out[1];
char *pDestV = frm_out[2];
char *pDestU = frm_out[1];
char *pDestV = frm_out[2];
unsigned int id;
unsigned int i;
unsigned int i;
for( i = 0; i < height; i++)
{
id = DAT_copy(pSrcY + (i * 720), int_mem_temp, 720);
id = DAT_copy(int_mem_temp, pDestY + (i * 720), 720);
DAT_wait(id);
}
{
id = DAT_copy(pSrcY + (i * 720), int_mem_temp, 720);
id = DAT_copy(int_mem_temp, pDestY + (i * 720), 720);
DAT_wait(id);
}
for( i = 0; i < (height >> 1); i++)
{
id = DAT_copy(pSrcU + (i * 720), int_mem_temp, 360);
id = DAT_copy(int_mem_temp, pDestU + (i * 360), 360);
DAT_wait(id);
}
{
id = DAT_copy(pSrcU + (i * 720), int_mem_temp, 360);
id = DAT_copy(int_mem_temp, pDestU + (i * 360), 360);
DAT_wait(id);
}
for( i = 0; i < (height >> 1); i++)
{
id = DAT_copy(pSrcV + (i * 720), int_mem_temp, 360);
id = DAT_copy(int_mem_temp, pDestV + (i * 360), 360);
DAT_wait(id);
}
{
id = DAT_copy(pSrcV + (i * 720), int_mem_temp, 360);
id = DAT_copy(int_mem_temp, pDestV + (i * 360), 360);
DAT_wait(id);
}
return ;
}
}
void yuv420to422( char *frameIn[], char *frm_out[],
int width, int height)
{
char *pSrcY = frameIn[0];
char *pSrcU = frameIn[1];
char *pSrcV = frameIn[2];
int width, int height)
{
char *pSrcY = frameIn[0];
char *pSrcU = frameIn[1];
char *pSrcV = frameIn[2];
char *pDestY = frm_out[0];
char *pDestU = frm_out[1];
char *pDestV = frm_out[2];
char *pDestU = frm_out[1];
char *pDestV = frm_out[2];
unsigned int id;
unsigned int i;
unsigned int i;
for( i = 0; i < height; i++)
{
id = DAT_copy(pSrcY + (i * 720), int_mem_temp, 720);
id = DAT_copy(int_mem_temp, pDestY + (i * 720), 720);
DAT_wait(id);
}
{
id = DAT_copy(pSrcY + (i * 720), int_mem_temp, 720);
id = DAT_copy(int_mem_temp, pDestY + (i * 720), 720);
DAT_wait(id);
}
for( i = 0; i < (height >> 1); i++)
{
id = DAT_copy(pSrcU + (i * 360), int_mem_temp, 360);
id = DAT_copy(int_mem_temp, pDestU + ((2 * i) * 360), 360);
id = DAT_copy(int_mem_temp, pDestU + ((2*i + 1)* 360), 360);
DAT_wait(id);
}
{
id = DAT_copy(pSrcU + (i * 360), int_mem_temp, 360);
id = DAT_copy(int_mem_temp, pDestU + ((2 * i) * 360), 360);
id = DAT_copy(int_mem_temp, pDestU + ((2*i + 1)* 360), 360);
DAT_wait(id);
}
for( i = 0; i < (height >> 1); i++)
{
id = DAT_copy(pSrcV + (i * 360), int_mem_temp, 360);
id = DAT_copy(int_mem_temp, pDestV + ((2*i) * 360), 360);
id = DAT_copy(int_mem_temp, pDestV + ((2*i+1) * 360), 360);
DAT_wait(id);
}
{
id = DAT_copy(pSrcV + (i * 360), int_mem_temp, 360);
id = DAT_copy(int_mem_temp, pDestV + ((2*i) * 360), 360);
id = DAT_copy(int_mem_temp, pDestV + ((2*i+1) * 360), 360);
DAT_wait(id);
}
return ;
}
}