/*2 run hifbTde*/
printf("AVD_ProcessHiFbTde!\n");
s32Ret = RunAVDHiFBTde(layer);
if(s32Ret != HI_SUCCESS)
{
goto err;
}
err:
DisableVoDev(HD);
DisableVoDev(SD);
MppSysExit();
return 0;
}
#define PIC_IMAGE_WIDTH 800
#define PIC_IMAGE_HEIGHT 600
#define PIC_IMAGE_SIZE (800*600*2)
#define PIC_IMAGE_NUM 14
#define PIC_IMAGE_PATH "./res/%d.bits"
#define PIC_PEA_IMAGE_PATH1 "./res/pea1.bits"
#define PIC_PEA_IMAGE_PATH2 "./res/pea2.bits"
#define PIC_PEA_IMAGE_PATH3 "./res/pea3.bits"
#define PIC_PEA_IMAGE_PATH4 "./res/pea4.bits"
#define PIC_PEA_IMAGE_PATH5 "./res/pea5.bits"
//#define VIR_SCREEN_WIDTH 640 /*virtual screen width*/
//#define VIR_SCREEN_HEIGHT IMAGE_HEIGHT*2 /*virtual screen height*/
#define PIC_VIR_SCREEN_WIDTH 800 /*virtual screen width*/
#define PIC_VIR_SCREEN_HEIGHT PIC_IMAGE_HEIGHT*2 /*virtual screen height*/
#define NEW_PIC_IMAGE_WIDTH 79
#define NEW_PIC_IMAGE_HEIGHT 24
#define NEW_PIC_IMAGE_SIZE (79*24*2)
#define NEW_PIC_IMAGE_NUM 14
#define NEW_PIC_IMAGE_PATH "./res/%d.bits"
#define NEW_PIC_PEA_IMAGE_PATH1 "./res/pea1.bits"
#define NEW_PIC_PEA_IMAGE_PATH2 "./res/pea2.bits"
#define NEW_PIC_PEA_IMAGE_PATH3 "./res/pea3.bits"
#define NEW_PIC_PEA_IMAGE_PATH4 "./res/pea4.bits"
#define NEW_PIC_VIR_SCREEN_WIDTH 79 /*virtual screen width*/
#define NEW_PIC_VIR_SCREEN_HEIGHT PIC_IMAGE_HEIGHT*2 /*virtual screen height*/
int AVD_RunHiFBTde_PIC(int layer)
{
int fd;
int i;
int j;
struct fb_fix_screeninfo fix;
struct fb_var_screeninfo var;
HIFB_CAPABILITY_S cap;
HI_U32 u32FixScreenStride = 0;
unsigned char *pShowScreen;
unsigned char *pHideScreen;
HIFB_ALPHA_S stAlpha;
HIFB_POINT_S stPoint = {10, 10};
FILE *fp;
char file[12] = "/dev/fb1";
char image_name[128];
HI_CHAR *pDst = NULL;
//int i = 0;
HI_U32 u32PhyAddr;
HI_U32 u32Size;
HI_U32 u32CurOnShow = 0;
HI_U32 u32NextOnShow = 1;
/* 1. open tde device */
HI_TDE2_Open();
/* 1. open framebuffer device overlay 0 */
//fd = open(file, O_RDWR, 0);
/* 2. framebuffer operation */
fd = open("/dev/fb1", O_RDWR);
if(fd < 0)
{
printf("open %s failed!\n",file);
return -1;
}
/* 2. set the screen original position */
if (ioctl(fd, FBIOPUT_SCREEN_ORIGIN_HIFB, &stPoint) < 0)
{
printf("set screen original show position failed!\n");
close(fd);
return -1;
}
#if 1
SetTrasValueBydevPath(fd);
#else
/* 3.set alpha */
stAlpha.bAlphaEnable = HI_FALSE;
stAlpha.bAlphaChannel = HI_FALSE;
stAlpha.u8Alpha0 = 0xff;
stAlpha.u8Alpha1 = 0x8f;
stAlpha.u8GlobalAlpha = 0x80;
if (ioctl(fd, FBIOPUT_ALPHA_HIFB, &stAlpha) < 0)
{
printf("Set alpha failed!\n");
close(fd);
return -1;
}
#endif
/* 4. get the variable screen info */
if (ioctl(fd, FBIOGET_VSCREENINFO, &var) < 0)
{
printf("Get variable screen info failed!\n");
close(fd);
return -1;
}
/* 5. modify the variable screen info
the screen size: IMAGE_WIDTH*IMAGE_HEIGHT
the virtual screen size: VIR_SCREEN_WIDTH*VIR_SCREEN_HEIGHT
(which equals to VIR_SCREEN_WIDTH*(IMAGE_HEIGHT*2))
the pixel format: ARGB1555
*/
var.xres_virtual = PIC_VIR_SCREEN_WIDTH;
var.yres_virtual = PIC_VIR_SCREEN_HEIGHT;
var.xres = PIC_IMAGE_WIDTH;
var.yres = PIC_IMAGE_HEIGHT;
var.transp= g_a16;
var.red = g_r16;
var.green = g_g16;
var.blue = g_b16;
var.bits_per_pixel = 16;
var.activate = FB_ACTIVATE_FORCE;
/* 6. set the variable screeninfo */
if (ioctl(fd, FBIOPUT_VSCREENINFO, &var) < 0)
{
printf("Put variable screen info failed!\n");
close(fd);
return -1;
}
/* 7. get the fix screen info */
if (ioctl(fd, FBIOGET_FSCREENINFO, &fix) < 0)
{
printf("Get fix screen info failed!\n");
close(fd);
return -1;
}
u32FixScreenStride = fix.line_length; /*fix screen stride*/
/* 8. map the physical video memory for user use */
u32Size = fix.smem_len;
u32PhyAddr = fix.smem_start;
pShowScreen = mmap(NULL, fix.smem_len, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0);
if(MAP_FAILED == pShowScreen)
{
printf("mmap framebuffer failed!\n");
close(fd);
return -1;
}
pHideScreen = pShowScreen + u32FixScreenStride*PIC_IMAGE_HEIGHT;
memset(pShowScreen, 0x0000, u32FixScreenStride*PIC_IMAGE_HEIGHT);
/* 9. create surface */
g_stScreen_pic[0].enColorFmt = PIXFMT;
g_stScreen_pic[0].u32PhyAddr = u32PhyAddr;
g_stScreen_pic[0].u32Width = PIC_VIR_SCREEN_WIDTH;
g_stScreen_pic[0].u32Height = PIC_IMAGE_HEIGHT;
g_stScreen_pic[0].u32Stride = fix.line_length;
g_stScreen_pic[0].bAlphaMax255 = HI_TRUE;
/* g_stBackGround0 = g_stScreen_pic[0];
g_stBackGround0.enColorFmt = PIXFMT;
g_stBackGround0.u32PhyAddr = u32PhyAddr;
g_stBackGround0.u32Width = NEW_PIC_VIR_SCREEN_WIDTH;
g_stBackGround0.u32Height = NEW_PIC_IMAGE_HEIGHT;
g_stBackGround0.u32Stride = NEW_PIC_VIR_SCREEN_WIDTH;
g_stBackGround0.bAlphaMax255 = HI_TRUE;
g_stBackGround0.u32PhyAddr = g_stScreen_pic[0].u32PhyAddr + g_stScreen_pic[0].u32Stride * g_stScreen_pic[0].u32Height;
g_stBackGround1 = g_stBackGround0;
g_stBackGround1.u32PhyAddr = g_stBackGround0.u32PhyAddr + g_stBackGround0.u32Stride * g_stBackGround0.u32Height;
g_stBackGround2 = g_stBackGround1;
g_stBackGround2.u32PhyAddr = g_stBackGround1.u32PhyAddr + g_stBackGround1.u32Stride * g_stBackGround1.u32Height;
g_stBackGround3 = g_stBackGround2;
g_stBackGround3.u32PhyAddr = g_stBackGround2.u32PhyAddr + g_stBackGround2.u32Stride * g_stBackGround2.u32Height;
*/
g_stBackGround4 = g_stScreen_pic[0];
g_stBackGround4.enColorFmt = PIXFMT;
g_stBackGround4.u32PhyAddr = g_stScreen_pic[0].u32PhyAddr + g_stScreen_pic[0].u32Stride * g_stScreen_pic[0].u32Height;;
g_stBackGround4.u32Width = 71;
g_stBackGround4.u32Height = 167;
g_stBackGround4.u32Stride = 71;
g_stBackGround4.bAlphaMax255 = HI_TRUE;
// g_stBackGround4.u32PhyAddr = g_stBackGround3.u32PhyAddr + g_stBackGround3.u32Stride * g_stBackGround3.u32Height;
//g_stBackGround1 = g_stBackGround0;
//g_stBackGround1.u32PhyAddr = g_stBackGround0.u32PhyAddr + g_stBackGround0.u32Stride * g_stBackGround0.u32Height;
// g_stBackGround1 = g_stScreen_pic[0];
// g_stBackGround2 = g_stScreen_pic[0];
// g_stBackGround3 = g_stScreen_pic[0];
//g_stBackGround.u32PhyAddr = g_stScreen_pic[0].u32PhyAddr + g_stScreen_pic[0].u32Stride * g_stScreen_pic[0].u32Height;
i = 0;
while(1)
{
TDE_HANDLE s32Handle;
TDE2_OPT_S stOpt = {0};
HI_FLOAT eXMid, eYMid;
HI_FLOAT eRadius;
//HI_U32 i;
HI_FLOAT f;
HI_U32 u32NextOnShow;
TDE2_RECT_S stSrcRect;
TDE2_RECT_S stDstRect;
HI_S32 s32Ret;
HI_U32 u32FillData = 0x8010;
/* 1. start job */
s32Handle = HI_TDE2_BeginJob();
if(HI_ERR_TDE_INVALID_HANDLE == s32Handle)
{
// TDE_PRINT("start job failed!\n");
printf("start job failed!\n");
return ;
}
//memset(pShowScreen, 0x0000, u32FixScreenStride*IMAGE_HEIGHT);
/*stDstRect.s32Xpos = 0;
stDstRect.s32Ypos = 0;
stDstRect.u32Width = PIC_VIR_SCREEN_WIDTH;
stDstRect.u32Height = PIC_IMAGE_HEIGHT;*/
i++;
//if(i == 3)
// i = 0;
/* stDstRect.s32Xpos = 0;
stDstRect.s32Ypos = 0;
stDstRect.u32Width = g_stBackGround0.u32Width;
stDstRect.u32Height = g_stBackGround0.u32Height;
stSrcRect.s32Xpos = 0;
stSrcRect.s32Ypos = 0;
stSrcRect.u32Width = g_stBackGround0.u32Width;
stSrcRect.u32Height = g_stBackGround0.u32Height;
//stSrcRect.u32Width = g_stBackGround0.u32Width;*/
//stSrcRect.u32Height = g_stBackGround0.u32Height;
printf("i = %d\n",i);
/* if(i%5==0)
{
TDE_CreateSurfaceByFile(PIC_PEA_IMAGE_PATH1, &g_stBackGround0, pShowScreen + ((HI_U32)g_stBackGround0.u32PhyAddr - u32PhyAddr));
HI_TDE2_QuickCopy(s32Handle, &g_stBackGround0, &stSrcRect, &g_stScreen_pic[0], &stDstRect);
}
else if(i%5==1)
{
TDE_CreateSurfaceByFile(PIC_PEA_IMAGE_PATH4, &g_stBackGround3, pShowScreen + ((HI_U32)g_stBackGround3.u32PhyAddr - u32PhyAddr));
stDstRect.s32Xpos = (IMAGE_WIDTH>>1)+2;
stDstRect.s32Ypos = (IMAGE_HEIGHT>>1)+2;
stDstRect.u32Width = g_stBackGround3.u32Width;
stDstRect.u32Height = g_stBackGround3.u32Height;
s32Ret = HI_TDE2_QuickCopy(s32Handle, &g_stBackGround3, &stSrcRect, &g_stScreen_pic[0], &stDstRect);
if(s32Ret < 0)
{
printf("Line:%d,HI_TDE2_QuickCopy failed,ret=0x%x!\n", __LINE__, s32Ret);
return ;
}
}
else if(i%5==2)
{
printf("TDE_CreateSurfaceByFile\n");
TDE_CreateSurfaceByFile(PIC_PEA_IMAGE_PATH2, &g_stBackGround1, pShowScreen + ((HI_U32)g_stBackGround1.u32PhyAddr - u32PhyAddr));
stSrcRect.s32Xpos = 0;
stSrcRect.s32Ypos = 0;
stSrcRect.u32Width = g_stBackGround1.u32Width;
stSrcRect.u32Height = g_stBackGround1.u32Height;
stDstRect.s32Xpos =(IMAGE_WIDTH>>1)+2;
stDstRect.s32Ypos = 0;
stDstRect.u32Width = g_stBackGround1.u32Width;
stDstRect.u32Height = g_stBackGround1.u32Height;
s32Ret = HI_TDE2_QuickCopy(s32Handle, &g_stBackGround1, &stSrcRect, &g_stScreen_pic[0], &stDstRect);
if(s32Ret < 0)
{
printf("Line:%d,HI_TDE2_QuickCopy failed,ret=0x%x!\n", __LINE__, s32Ret);
return ;
}
}
else
if(i%5==3)
{
TDE_CreateSurfaceByFile(PIC_PEA_IMAGE_PATH3, &g_stBackGround2, pShowScreen + ((HI_U32)g_stBackGround2.u32PhyAddr - u32PhyAddr));
stDstRect.s32Xpos =0;
stDstRect.s32Ypos = (IMAGE_HEIGHT>>1)+2;
stDstRect.u32Width = g_stBackGround2.u32Width;
stDstRect.u32Height = g_stBackGround2.u32Height;
s32Ret = HI_TDE2_QuickCopy(s32Handle, &g_stBackGround2, &stSrcRect, &g_stScreen_pic[0], &stDstRect);
}*/
{
TDE_CreateSurfaceByFile(PIC_PEA_IMAGE_PATH6, &g_stBackGround4, pShowScreen + ((HI_U32)g_stBackGround4.u32PhyAddr - u32PhyAddr));
stSrcRect.s32Xpos = 0;
stSrcRect.s32Ypos = 0;
stSrcRect.u32Width = 79;
stSrcRect.u32Height = g_stBackGround4.u32Height;
stDstRect.s32Xpos = 2+20;
stDstRect.s32Ypos = 35+3;
stDstRect.u32Width = 79;
stDstRect.u32Height = g_stBackGround4.u32Height;
s32Ret = HI_TDE2_QuickCopy(s32Handle, &g_stBackGround4, &stSrcRect, &g_stScreen_pic[0], &stDstRect);
}
//printf("g_stBackGround1.u32Width:%d,g_stBackGround1.u32Height:%d\n",g_stBackGround1.u32Width,g_stBackGround1.u32Height);
/*
*/
/*
*/
/* 5. submit job */
s32Ret = HI_TDE2_EndJob(s32Handle, HI_FALSE, HI_TRUE, 10);
if(s32Ret < 0)
{
// TDE_PRINT("Line:%d,HI_TDE2_EndJob failed,ret=0x%x!\n", __LINE__, s32Ret);
HI_TDE2_CancelJob(s32Handle);
return ;
}
printf("TDE2_PIC_EndJob5!\n");
var.yoffset = 0;
if (ioctl(fd, FBIOPAN_DISPLAY, &var) < 0)
{
//TDE_PRINT("process frame buffer device error\n");
printf("process frame buffer device error\n");
//goto FB_PROCESS_ERROR1;
}
usleep(2000000);
}
/* 2. bitblt background to screen */
// HI_TDE2_QuickCopy(s32Handle, &g_stBackGround, &stSrcRect, &g_stScreen_pic[0], &stSrcRect);
/* 10.unmap the physical memory */
munmap(pShowScreen, fix.smem_len);
/* 11. close the framebuffer device */
close(fd);
HI_TDE2_Close();
return 0;
}
IMP_S32 RunAVDHiFBTde(IMP_S32 layer)
{
IMP_S32 fd;
IMP_S32 i;
IMP_S32 j;
struct fb_fix_screeninfo fix;
struct fb_var_screeninfo var;
HIFB_CAPABILITY_S cap;
HI_U32 u32FixScreenStride = 0;
unsigned char *pShowScreen;
unsigned char *pHideScreen;
HIFB_ALPHA_S stAlpha;
HIFB_POINT_S stPoIMP_S32 = {0, 0};
FILE *fp;
char file[12] = "/dev/fb0";
char image_name[128];
HI_CHAR *pDst = NULL;
TDE2_OPT_S pstOpt;
HI_U32 u32PhyAddr;
HI_U32 u32Size;
HI_U32 u32CurOnShow = 0;
HI_U32 u32NextOnShow = 1;
TDE2_RECT_S stSrcRect;
TDE2_RECT_S stDstRect;
HI_S32 s32Ret;
/* 1. open tde device */
HI_TDE2_Open();
/* 1. open framebuffer device overlay 0 */
//fd = open(file, O_RDWR, 0);
/* 2. framebuffer operation */
fd = open("/dev/fb0", O_RDWR);
if(fd < 0)
{
printf("open %s failed!\n",file);
return -1;
}
/* 2. set the screen original position */
if (ioctl(fd, FBIOPUT_SCREEN_ORIGIN_HIFB, &stPoIMP_S32) < 0)
{
printf("set screen original show position failed!\n");
close(fd);
return -1;
}
#if 1
SetTrasValueBydevPath(fd);
#else
/* 3.set alpha */
stAlpha.bAlphaEnable = HI_FALSE;
stAlpha.bAlphaChannel = HI_FALSE;
stAlpha.u8Alpha0 = 0xff;
stAlpha.u8Alpha1 = 0x8f;
stAlpha.u8GlobalAlpha = 0x80;
if (ioctl(fd, FBIOPUT_ALPHA_HIFB, &stAlpha) < 0)
{
printf("Set alpha failed!\n");
close(fd);
return -1;
}
#endif
/* 4. get the variable screen info */
if (ioctl(fd, FBIOGET_VSCREENINFO, &var) < 0)
{
printf("Get variable screen info failed!\n");
close(fd);
return -1;
}
/* 5. modify the variable screen info
the screen size: IMAGE_WIDTH*IMAGE_HEIGHT
the virtual screen size: VIR_SCREEN_WIDTH*VIR_SCREEN_HEIGHT
(which equals to VIR_SCREEN_WIDTH*(IMAGE_HEIGHT*2))
the pixel format: ARGB1555
*/
var.xres_virtual = AVD_VIR_SCREEN_WIDTH;
var.yres_virtual = AVD_VIR_SCREEN_HEIGHT;
var.xres = AVD_IMAGE_WIDTH;
var.yres = AVD_IMAGE_HEIGHT;
var.transp= g_a16;
var.red = g_r16;
var.green = g_g16;
var.blue = g_b16;
var.bits_per_pixel = 16;
var.activate = FB_ACTIVATE_FORCE;
/* 6. set the variable screeninfo */
if (ioctl(fd, FBIOPUT_VSCREENINFO, &var) < 0)
{
printf("Put variable screen info failed!\n");
close(fd);
return -1;
}
/* 7. get the fix screen info */
if (ioctl(fd, FBIOGET_FSCREENINFO, &fix) < 0)
{
printf("Get fix screen info failed!\n");
close(fd);
return -1;
}
u32FixScreenStride = fix.line_length; /*fix screen stride*/
/* 8. map the physical video memory for user use */
u32Size = fix.smem_len;
u32PhyAddr = fix.smem_start;
pShowScreen = mmap(NULL, fix.smem_len, PROT_READ|PROT_WRITE, MAP_SHARED, fd, 0);
if(MAP_FAILED == pShowScreen)
{
printf("mmap framebuffer failed!\n");
close(fd);
return -1;
}
pHideScreen = pShowScreen + u32FixScreenStride*AVD_IMAGE_HEIGHT;
memset(pShowScreen, 0x0000, u32FixScreenStride*AVD_IMAGE_HEIGHT);
/* 9. create surface */
g_AVDstScreen[0].enColorFmt = PIXFMT;
g_AVDstScreen[0].u32PhyAddr = u32PhyAddr;
g_AVDstScreen[0].u32Width = AVD_VIR_SCREEN_WIDTH;
g_AVDstScreen[0].u32Height = AVD_IMAGE_HEIGHT;
g_AVDstScreen[0].u32Stride = fix.line_length;
g_AVDstScreen[0].bAlphaMax255 = HI_TRUE;
g_AVDstScreen[1] = g_AVDstScreen[0];
g_AVDstScreen[1].u32PhyAddr = g_AVDstScreen[0].u32PhyAddr + g_AVDstScreen[0].u32Stride * g_AVDstScreen[0].u32Height;
g_stBackGround = g_AVDstScreen[1];
g_stBackGround.u32PhyAddr = g_AVDstScreen[1].u32PhyAddr + g_AVDstScreen[1].u32Stride * g_AVDstScreen[1].u32Height;
//g_stBackGround = g_stScreen[0];
g_AVDstPingBuf = g_AVDstScreen[0];
g_AVDstPangBuf = g_AVDstScreen[1];
// printf("g_AVDstPingBuf:%d\n",g_AVDstPingBuf.u32Stride);
// printf("g_AVDstPangBuf:%d\n",g_AVDstPangBuf.u32Stride);
//g_stBackGround.u32PhyAddr = g_stScreen[1].u32PhyAddr + g_stScreen[1].u32Stride * g_stScreen[1].u32Height;
// var.yoffset = (i%2)?0:1024;
//var.yoffset = 0;
/*set frame buffer start position*/
i = 0;
while(1)
{
IMP_S32 target_num = 0;
i++;
u32CurOnShow = i%2;
u32NextOnShow = !u32CurOnShow;
if(u32CurOnShow == 1)
{
g_AVDpstBackGround = &g_AVDstPingBuf;
}
else
{
g_AVDpstBackGround = &g_AVDstPangBuf;
}
TDE_HANDLE s32Handle;
TDE2_OPT_S stOpt = {0};
HI_FLOAT eXMid, eYMid;
HI_FLOAT eRadius;
HI_U32 i;
HI_FLOAT f;
HI_U32 u32NextOnShow;
HI_U32 u32FillData = 0x8010;
{printf("TDE2_BeginJob!\n");
/* 1. start job */
s32Handle = HI_TDE2_BeginJob();
if(HI_ERR_TDE_INVALID_HANDLE == s32Handle)
{
// TDE_PRINT("start job failed!\n");
printf("start job failed!\n");
return ;
}
//memset(pShowScreen, 0x0000, u32FixScreenStride*IMAGE_HEIGHT);
stDstRect.s32Xpos = 0;
stDstRect.s32Ypos = 0;
stDstRect.u32Width = AVD_VIR_SCREEN_WIDTH;
stDstRect.u32Height = AVD_IMAGE_HEIGHT;
s32Ret = HI_TDE2_QuickFill( s32Handle, g_AVDpstBackGround,&stDstRect, 0);
printf("TDE2_BeginJob2!\n");
stDstRect.s32Xpos = 0;
stDstRect.s32Ypos = 0;
stDstRect.u32Width = 120;
stDstRect.u32Height = 120;
stSrcRect.s32Xpos = 0;
stSrcRect.s32Ypos = 0;
stSrcRect.u32Width = g_AVDpstBackGround->u32Width;
stSrcRect.u32Height = g_AVDpstBackGround->u32Height;
//TDE_OUTPUT_PEA_RESULT(s32Handle, g_pstBackGround,&g_IP_Result);//,&stDstRect);
printf("TDE_OUTPUT_AVD_RESULT start!\n");
TDE_OUTPUT_AVD_RESULT(s32Handle, g_AVDpstBackGround,&g_AVD_Reslut);//,&stDstRect);
printf("TDE_OUTPUT_AVD_RESULT end!\n");
memset(&pstOpt,0,sizeof(pstOpt));
pstOpt.bDeflicker = HI_TRUE;
/* {
TDE_CreateSurfaceByFile(PIC_PEA_IMAGE_PATH6, g_AVDpstBackGround, pShowScreen + ((HI_U32)g_AVDpstBackGround->u32PhyAddr - u32PhyAddr));
stSrcRect.s32Xpos = 0;
stSrcRect.s32Ypos = 0;
stSrcRect.u32Width = 79;
stSrcRect.u32Height = g_AVDpstBackGround->u32Height;
stDstRect.s32Xpos = 2;
stDstRect.s32Ypos = 35;
stDstRect.u32Width = 79;
stDstRect.u32Height = g_AVDpstBackGround->u32Height;
s32Ret = HI_TDE2_QuickCopy(s32Handle, g_AVDpstBackGround, &stSrcRect, g_AVDpstBackGround, &stDstRect);
}*/
/*TDE_CreateSurfaceByFile(AVD_IMAGE_PATH, g_AVDpstBackGround, pShowScreen + ((HI_U32)g_AVDpstBackGround->u32PhyAddr - u32PhyAddr));
stDstRect.s32Xpos = 0;
stDstRect.s32Ypos = 0;
stDstRect.u32Width = 720;
stDstRect.u32Height = 576;
s32Ret = HI_TDE2_QuickCopy(s32Handle, g_AVDpstBackGround, &stDstRect, g_AVDpstBackGround, &stDstRect);
*/
/* 4. bitblt image to screen */
//s32Ret = HI_TDE2_Bitblit(s32Handle, NULL, &stDstRect, g_AVDpstBackGround, &stSrcRect, g_AVDpstBackGround , &stDstRect, &pstOpt);
if(s32Ret < 0)
{
printf("Line:%d,HI_TDE2_QuickFill failed,ret=0x%x!\n", __LINE__, s32Ret);
return ;
}
printf("TDE2_BeginJob3!\n");
/* 5. submit job */
s32Ret = HI_TDE2_EndJob(s32Handle, HI_FALSE, HI_TRUE, 10);
if(s32Ret < 0)
{
// TDE_PRINT("Line:%d,HI_TDE2_EndJob failed,ret=0x%x!\n", __LINE__, s32Ret);
HI_TDE2_CancelJob(s32Handle);
return ;
}
printf("TDE2_EndJob5!\n");
}
var.yoffset = (u32CurOnShow==1) ? 0 : AVD_IMAGE_HEIGHT;
if (ioctl(fd, FBIOPAN_DISPLAY, &var) < 0)
{
//TDE_PRINT("process frame buffer device error\n");
printf("process frame buffer device error\n");
//goto FB_PROCESS_ERROR1;
}
usleep(40000);
}
printf("Enter to quit!\n");
getchar();
/* 10.unmap the physical memory */
munmap(pShowScreen, fix.smem_len);
/* 11. close the framebuffer device */
close(fd);
HI_TDE2_Close();
return 0;
}
static HI_VOID circumrotate (HI_U32 u32CurOnShow)
{
TDE_HANDLE s32Handle;
TDE2_OPT_S stOpt = {0};
TDE2_RECT_S stSrcRect;
TDE2_RECT_S stDstRect;
HI_U32 u32NextOnShow;
u32NextOnShow = !u32CurOnShow;
HI_U32 s32Ret;
HI_U32 u32FillData = 0x8000;
TDE2_RECT_S pstScreenRect;
/* 1. start job */
s32Handle = HI_TDE2_BeginJob();
if(HI_ERR_TDE_INVALID_HANDLE == s32Handle)
{
TDE_PRINT("start job failed!\n");
return ;
}
pstScreenRect.s32Xpos = 0;
pstScreenRect.s32Ypos = 0;
pstScreenRect.u32Width = SCREEN_WIDTH;
pstScreenRect.u32Height = SCREEN_HEIGHT;
s32Ret = HI_TDE2_QuickFill(s32Handle, &g_stScreen[u32NextOnShow], &pstScreenRect, u32FillData);
if(s32Ret < 0)
{
TDE_PRINT("Line:%d,HI_TDE2_QuickFill failed,ret=0x%x!\n", __LINE__, s32Ret);
HI_TDE2_CancelJob(s32Handle);
return ;
}
stOpt.enColorKeyMode = TDE2_COLORKEY_MODE_FOREGROUND;
stOpt.unColorKeyValue.struCkARGB.stBlue.bCompIgnore = HI_FALSE;
stOpt.unColorKeyValue.struCkARGB.stBlue.bCompOut = HI_FALSE;
stOpt.unColorKeyValue.struCkARGB.stBlue.u8CompMin = 0xff;
stOpt.unColorKeyValue.struCkARGB.stBlue.u8CompMax = 0xff;
stOpt.unColorKeyValue.struCkARGB.stBlue.u8CompMask = 0xff;
stOpt.unColorKeyValue.struCkARGB.stGreen.bCompIgnore = HI_TRUE;
stOpt.unColorKeyValue.struCkARGB.stRed.bCompIgnore = HI_TRUE;
stOpt.unColorKeyValue.struCkARGB.stAlpha.bCompIgnore = HI_TRUE;
stSrcRect.s32Xpos = 0;
stSrcRect.s32Ypos = 0;
stSrcRect.u32Width = g_stImgSur.u32Width;
stSrcRect.u32Height = g_stImgSur.u32Height;
stDstRect.s32Xpos = 100;
stDstRect.s32Ypos = 100;
stDstRect.u32Width = g_stImgSur.u32Width;
stDstRect.u32Height = g_stImgSur.u32Height;
/* 4. bitblt image to screen */
s32Ret = HI_TDE2_Bitblit(s32Handle, &g_stScreen[u32NextOnShow], &stDstRect,
&g_stImgSur, &stSrcRect, &g_stScreen[u32NextOnShow], &stDstRect, &stOpt);
if(s32Ret < 0)
{
TDE_PRINT("Line:%d,HI_TDE2_Bitblit failed,ret=0x%x!\n", __LINE__, s32Ret);
HI_TDE2_CancelJob(s32Handle);
return ;
}
/* 5. submit job */
s32Ret = HI_TDE2_EndJob(s32Handle, HI_FALSE, HI_TRUE, 10);
if(s32Ret < 0)
{
TDE_PRINT("Line:%d,HI_TDE2_EndJob failed,ret=0x%x!\n", __LINE__, s32Ret);
HI_TDE2_CancelJob(s32Handle);
return ;
}
return;
}
static HI_VOID circumrotate (HI_U32 u32CurOnShow)
{
TDE_HANDLE s32Handle;
TDE2_OPT_S stOpt = {0};
HI_FLOAT eXMid, eYMid;
HI_FLOAT eRadius;
HI_U32 i;
HI_FLOAT f;
HI_U32 u32NextOnShow;
TDE2_RECT_S stSrcRect;
TDE2_RECT_S stDstRect;
HI_S32 s32Ret = HI_SUCCESS;
u32NextOnShow = !u32CurOnShow;
f = (float) (g_s32FrameNum % CYCLE_LEN) / CYCLE_LEN;
stSrcRect.s32Xpos = 0;
stSrcRect.s32Ypos = 0;
stSrcRect.u32Width = g_stBackGround.u32Width;
stSrcRect.u32Height = g_stBackGround.u32Height;
eXMid = g_stBackGround.u32Width/2.16f;
eYMid = g_stBackGround.u32Height/2.304f;
eRadius = MIN (eXMid, eYMid) / 2.0f;
/* 1. start job */
s32Handle = HI_TDE2_BeginJob();
if(HI_ERR_TDE_INVALID_HANDLE == s32Handle)
{
TDE_PRINT("start job failed!\n");
return ;
}
/* 2. bitblt background to screen */
s32Ret = HI_TDE2_QuickCopy(s32Handle, &g_stBackGround, &stSrcRect,
&g_stScreen[u32NextOnShow], &stSrcRect);
if(s32Ret < 0)
{
TDE_PRINT("Line:%d failed,ret=0x%x!\n", __LINE__, s32Ret);
HI_TDE2_CancelJob(s32Handle);
return ;
}
for(i = 0; i < N_IMAGES; i++)
{
HI_FLOAT ang;
HI_FLOAT r;
stSrcRect.s32Xpos = 0;
stSrcRect.s32Ypos = 0;
stSrcRect.u32Width = g_stImgSur[i].u32Width;
stSrcRect.u32Height = g_stImgSur[i].u32Height;
/* 3. calculate new pisition */
ang = 2.0f * (HI_FLOAT) M_PI * (HI_FLOAT) i / N_IMAGES - f * 2.0f * (HI_FLOAT) M_PI;
r = eRadius + (eRadius / 3.0f) * sinf (f * 2.0 * M_PI);
stDstRect.s32Xpos = eXMid + r * cosf (ang) - g_stImgSur[i].u32Width / 2.0f;;
stDstRect.s32Ypos = eYMid + r * sinf (ang) - g_stImgSur[i].u32Height / 2.0f;
stDstRect.u32Width = g_stImgSur[i].u32Width;
stDstRect.u32Height = g_stImgSur[i].u32Height;
/* 4. bitblt image to screen */
s32Ret = HI_TDE2_Bitblit(s32Handle, NULL, NULL,
&g_stImgSur[i], &stSrcRect, &g_stScreen[u32NextOnShow], &stDstRect, &stOpt);
if(s32Ret < 0)
{
TDE_PRINT("Line:%d,HI_TDE2_Bitblit failed,ret=0x%x!\n", __LINE__, s32Ret);
HI_TDE2_CancelJob(s32Handle);
return ;
}
}
/* 5. submit job */
s32Ret = HI_TDE2_EndJob(s32Handle, HI_FALSE, HI_TRUE, 10);
if(s32Ret < 0)
{
TDE_PRINT("Line:%d,HI_TDE2_EndJob failed,ret=0x%x!\n", __LINE__, s32Ret);
HI_TDE2_CancelJob(s32Handle);
return ;
}
g_s32FrameNum++;
return;
}
HI_S32 SAMPLE_VIO_TDE_1Screen_VoVGA()
{
VB_CONF_S stVbConf = {0};
HI_S32 s32ViChnTotal = 1;
HI_S32 s32VoChnTotal = 1;
VO_DEV VoDev;
VO_CHN VoChn;
VI_DEV ViDev;
VI_CHN ViChn;
VI_PUB_ATTR_S stViDevAttr;
VI_CHN_ATTR_S stViChnAttr;
VO_PUB_ATTR_S stVoDevAttr;
VO_VIDEO_LAYER_ATTR_S stVideoLayerAttr;
VIDEO_FRAME_INFO_S stFrame;
HI_S32 s32Ret = HI_SUCCESS;
HI_S32 u32PhyAddr;
stVbConf.astCommPool[0].u32BlkSize = 704 * 576 * 2;
stVbConf.astCommPool[0].u32BlkCnt = 20;
stVbConf.astCommPool[1].u32BlkSize = 384 * 288 * 2;
stVbConf.astCommPool[1].u32BlkCnt = 20;
if (HI_SUCCESS != SAMPLE_InitMPP(&stVbConf))
{
return -1;
}
/* Config VI to input standard-definition video */
ViDev = 0;
SAMPLE_GetViCfg_SD(PIC_D1, &stViDevAttr, &stViChnAttr);
// SAMPLE_GetViCfg_SD(PIC_CIF, &stViDevAttr, &stViChnAttr);
s32Ret = SAMPLE_StartViByChn(s32ViChnTotal, &stViDevAttr, &stViChnAttr);
if (HI_SUCCESS != s32Ret)
{
return HI_FAILURE;
}
/* display VGA video on vo HD divice. */
VoDev = VO_DEV_HD;
SAMPLE_GetVoCfg_VGA_800x600(&stVoDevAttr, &stVideoLayerAttr);
s32Ret = SAMPLE_StartVo(s32VoChnTotal, VoDev, &stVoDevAttr, &stVideoLayerAttr);
if (HI_SUCCESS != s32Ret)
{
return HI_FAILURE;
}
printf("start VI to VO preview \n");
master_thread_init_ok = 1;
sleep(3);
/** 1. 打开TDE */
HI_TDE2_Open();
/** 2. 创建Y U V OSD surface */
g_stOsdYSurface.enColorFmt = TDE2_COLOR_FMT_ARGB1555;
g_stOsdYSurface.bYCbCrClut = 1;
g_stOsdYSurface.bAlphaMax255 = HI_TRUE;
g_stOsdYSurface.enColorSpaceConv = TDE2_ITU_R_BT601_VIDEO;
g_stOsdUSurface.enColorFmt = TDE2_COLOR_FMT_ARGB1555;
g_stOsdUSurface.bYCbCrClut = 0;
g_stOsdUSurface.bAlphaMax255 = HI_TRUE;
g_stOsdUSurface.enColorSpaceConv = TDE2_ITU_R_BT601_VIDEO;
g_stOsdVSurface.enColorFmt = TDE2_COLOR_FMT_ARGB1555;
g_stOsdVSurface.bYCbCrClut = 1;
g_stOsdVSurface.bAlphaMax255 = HI_TRUE;
g_stOsdVSurface.enColorSpaceConv = TDE2_ITU_R_BT601_VIDEO;
while(1)
{
TGT_SET_S *target_set = &gstPeaResult.stTargetSet;
EVT_SET_S *event_set = &gstPeaResult.stEventSet;
IMP_S32 s32TargetNum = target_set->s32TargetNum;
/** 获取图像 */
if (HI_MPI_VI_GetFrame(ViDev, 0, &stFrame))
{
printf("HI_MPI_VI_GetFrame err, vi(%d,%d)\n", ViDev, 0);
return -1;
}
if(s32TargetNum > 0 )
{
TDE_HANDLE s32Handle;
/* 3. 开始TDE任务 */
s32Handle = HI_TDE2_BeginJob();
if(HI_ERR_TDE_INVALID_HANDLE == s32Handle)
{
printf("start job failed!\n");
continue;
}
/** 4. 配置YUV Surface数据 长度、宽度、stride、物理地址等 */
u32PhyAddr = stFrame.stVFrame.u32PhyAddr[0];
g_stOsdYSurface.u32Width = stFrame.stVFrame.u32Width;
g_stOsdYSurface.u32Height = stFrame.stVFrame.u32Height;
g_stOsdYSurface.u32Stride = stFrame.stVFrame.u32Stride[0];
g_stOsdYSurface.u32PhyAddr = u32PhyAddr;
g_stOsdUSurface.u32Width = stFrame.stVFrame.u32Width>>1;
g_stOsdUSurface.u32Height = stFrame.stVFrame.u32Height>>1;
g_stOsdUSurface.u32Stride = stFrame.stVFrame.u32Stride[1];
g_stOsdUSurface.u32PhyAddr = stFrame.stVFrame.u32PhyAddr[1]+1;
g_stOsdVSurface = g_stOsdUSurface;
g_stOsdVSurface.u32PhyAddr = stFrame.stVFrame.u32PhyAddr[1];
/** 5. 通过TDE绘制修改YUV数据显示PEA数据结果 TDE只支持绘制矩形区域、直线等*/
IMP_TDE_DrawPeaResult( s32Handle, &g_stOsdYSurface,&g_stOsdVSurface, &gstPeaResult,IMP_D1,IMP_QCIF );
/** 6. 直接修改YUV数据显示PEA数据结果 绘制轨迹线、用户配置的规则信息等*/
IMP_DrawPeaResult( &stFrame.stVFrame, &gstPeaResult,IMP_D1,IMP_QCIF );
/** 7. 结束TDE任务 */
s32Ret = HI_TDE2_EndJob(s32Handle, HI_FALSE, HI_TRUE, 10);
if(s32Ret < 0)
{
printf("Line:%d,HI_TDE2_EndJob failed,ret=0x%x!\n", __LINE__, s32Ret);
HI_TDE2_CancelJob(s32Handle);
return ;
}
}
/** 8. 将修改后的YUV数据送给VO设备 */
HI_MPI_VO_SendFrame( VoDev,0,&stFrame);
/** 9. 释放图像 */
HI_MPI_VI_ReleaseFrame(ViDev, 0, &stFrame);
}
