static int _mem_free(MEM_T *_mem)
{
MEM_T temp = {0};
memset(&temp,0,sizeof(MEM_T));
temp.phy_addr = _mem->phy_addr;
temp.vir_addr = _mem->vir_addr;
_mem->vir_addr = NULL;
_mem->phy_addr = 0;
_mem->size = 0;
HI_MPI_SYS_MmzFree(temp.phy_addr, temp.vir_addr);
_mem = NULL;
return 0;
}
int main(int argc, char const *argv[])
{
VI_EXT_CHN_ATTR_S stExtChnAttr;
VB_BLK hBlock;
VB_POOL hPool = VB_INVALID_POOLID;
HI_S32 s32Ret = HI_SUCCESS;
HI_U32 u32BlkSize, u32DstBlkSize;
VIDEO_FRAME_INFO_S FrameInfo;
IVE_HANDLE IveHandle;
IVE_SRC_IMAGE_S stSrc;
IVE_DST_IMAGE_S stDst;
IVE_CSC_CTRL_S stCscCtrl;
HI_BOOL bInstant = HI_TRUE;
HI_BOOL bFinish;
IplImage *iplImage;
FILE *fp,*fp2;
int k=1;
#if 0
memset(&stVbConf, 0, sizeof(VB_CONF_S));
stVbConf.u32MaxPoolCnt = 128;
SAMPLE_COMM_VI_GetSizeBySensor(&enSize);
u32BlkSize = SAMPLE_COMM_SYS_CalcPicVbBlkSize(gs_enNorm,
enSize, SAMPLE_PIXEL_FORMAT, SAMPLE_SYS_ALIGN_WIDTH);
stVbConf.astCommPool[0].u32BlkSize = u32BlkSize;
stVbConf.astCommPool[0].u32BlkCnt = 12;
s32Ret = SAMPLE_COMM_SYS_Init(&stVbConf);
if (HI_SUCCESS != s32Ret)
{
printf("system init failed with err code %#x!\n", s32Ret );
}
stViConfig.enViMode = SENSOR_TYPE;
stViConfig.enRotate = ROTATE_NONE;
stViConfig.enNorm = VIDEO_ENCODING_MODE_AUTO;
stViConfig.enViChnSet = VI_CHN_SET_NORMAL;
s32Ret = SAMPLE_COMM_VI_StartVi(&stViConfig);
if (HI_SUCCESS != s32Ret)
{
printf("start vi failed with err code %#x!\n", s32Ret);
// goto END_1;
}
#endif
iplImage = cvCreateImageHeader(cvSize(WIDTH,HEIGHT), IPL_DEPTH_8U, 3);
stExtChnAttr.enPixFormat = PIXEL_FORMAT_YUV_SEMIPLANAR_420;
stExtChnAttr.s32BindChn = ViChn;
stExtChnAttr.stDestSize.u32Width = WIDTH;
stExtChnAttr.stDestSize.u32Height = HEIGHT;
stExtChnAttr.s32DstFrameRate = -1;
stExtChnAttr.s32SrcFrameRate = -1;
stExtChnAttr.enCompressMode = COMPRESS_MODE_NONE;
HI_MPI_VI_DisableChn(ExtChn);
s32Ret = HI_MPI_VI_SetExtChnAttr(ExtChn, &stExtChnAttr);
if (HI_SUCCESS != s32Ret)
{
printf("HI_MPI_VI_SetExtChnAttr failed with err code %#x\n", s32Ret);
return -1;
}
s32Ret = HI_MPI_VI_SetFrameDepth(ExtChn, 1);
if (HI_SUCCESS != s32Ret)
{
printf("HI_MPI_VI_SetFrameDepth failed with err code %#x\n", s32Ret);
return -1;
}
stSrc.enType = IVE_IMAGE_TYPE_YUV420SP;
//stDst.enType = IVE_IMAGE_TYPE_U8C3_PLANAR;
stDst.enType = IVE_IMAGE_TYPE_U8C3_PACKAGE;
stCscCtrl.enMode = IVE_CSC_MODE_PIC_BT709_YUV2RGB;
#if 1
s32Ret = HI_MPI_VI_EnableChn(ExtChn);
if (HI_SUCCESS != s32Ret)
{
printf("HI_MPI_VI_EnableChn failed with err code %#x\n", s32Ret);
return -1;
}
#endif
printf("begin\n");
det_t *pdet = det_open("bd_detect_trace.config");
while(k)
{
s32Ret = HI_MPI_VI_GetFrame(ExtChn, &FrameInfo, -1);
if(HI_SUCCESS != s32Ret)
{
printf("HI_MPI_VI_GetFrame failed with err code %#x!\n",s32Ret);
}
printf("get frame!\n");
u32DstBlkSize = FrameInfo.stVFrame.u32Stride[0] * FrameInfo.stVFrame.u32Height * 3;
s32Ret = HI_MPI_SYS_MmzAlloc_Cached(&stDst.u32PhyAddr[0],(void**) &stDst.pu8VirAddr[0], "user", HI_NULL, u32DstBlkSize);
HI_MPI_SYS_MmzFlushCache(stDst.u32PhyAddr[0], (void *)stDst.pu8VirAddr[0], u32DstBlkSize);
#if 0
stDst.u32PhyAddr[1] = stDst.u32PhyAddr[0] + FrameInfo.stVFrame.u32Stride[0] * FrameInfo.stVFrame.u32Height;
stDst.u32PhyAddr[2] = stDst.u32PhyAddr[1] + FrameInfo.stVFrame.u32Stride[0] * FrameInfo.stVFrame.u32Height;
stDst.pu8VirAddr[0] = (HI_U8*) HI_MPI_SYS_Mmap(stDst.u32PhyAddr[0], u32DstBlkSize);
stDst.pu8VirAddr[1] = stDst.pu8VirAddr[0] + FrameInfo.stVFrame.u32Stride[0] * FrameInfo.stVFrame.u32Height;
stDst.pu8VirAddr[2] = stDst.pu8VirAddr[1] + FrameInfo.stVFrame.u32Stride[0] * FrameInfo.stVFrame.u32Height;
stDst.u16Stride[0] = FrameInfo.stVFrame.u32Stride[0];
stDst.u16Stride[1] = FrameInfo.stVFrame.u32Stride[0];
stDst.u16Stride[2] = FrameInfo.stVFrame.u32Stride[0];
stDst.u16Width = FrameInfo.stVFrame.u32Width;
stDst.u16Height = FrameInfo.stVFrame.u32Height;
#endif
#if 1
stDst.pu8VirAddr[0] = (HI_U8*) HI_MPI_SYS_Mmap(stDst.u32PhyAddr[0], u32DstBlkSize);
stDst.u16Stride[0] = FrameInfo.stVFrame.u32Stride[0];
stDst.u16Width = FrameInfo.stVFrame.u32Width;
stDst.u16Height = FrameInfo.stVFrame.u32Height;
#endif
stSrc.u32PhyAddr[0] = FrameInfo.stVFrame.u32PhyAddr[0];
stSrc.u32PhyAddr[1] = FrameInfo.stVFrame.u32PhyAddr[1];
stSrc.u32PhyAddr[2] = FrameInfo.stVFrame.u32PhyAddr[2];
stSrc.pu8VirAddr[0] = (HI_U8*)HI_MPI_SYS_Mmap(FrameInfo.stVFrame.u32PhyAddr[0], u32DstBlkSize / 2);
stSrc.pu8VirAddr[1] = stSrc.pu8VirAddr[0] + FrameInfo.stVFrame.u32Stride[0] * FrameInfo.stVFrame.u32Height;
stSrc.pu8VirAddr[2] = stSrc.pu8VirAddr[1] + 1;
stSrc.u16Stride[1] = FrameInfo.stVFrame.u32Stride[0];
stSrc.u16Stride[0] = FrameInfo.stVFrame.u32Stride[0];
stSrc.u16Stride[2] = 0;
stSrc.u16Width = FrameInfo.stVFrame.u32Width;
stSrc.u16Height = FrameInfo.stVFrame.u32Height;
#if 0
for(k = 0; k < 720 * 576 * 3 / 2;k++)
*(stSrc.pu8VirAddr[0] + k) = 130;
k = 0;
#endif
s32Ret = HI_MPI_IVE_CSC(&IveHandle, &stSrc, &stDst, &stCscCtrl, bInstant);
if(s32Ret != HI_SUCCESS)
{
printf("HI_MPI_IVE_CSC failed with error code %#x\n",s32Ret);
continue;
}
s32Ret = HI_MPI_IVE_Query(IveHandle, &bFinish, HI_TRUE);
if(s32Ret != HI_SUCCESS)
{
printf("HI_MPI_IVE_Query failed with error code %#x\n",s32Ret);
continue;
}
#if 0
fp = fopen("image.rgb","wb");
fwrite(stDst.pu8VirAddr[0], WIDTH * HEIGHT * 3, 1, fp);
fclose(fp);
fp2 = fopen("image2.yuv","wb");
fwrite(stSrc.pu8VirAddr[0], WIDTH * HEIGHT * 3 / 2, 1, fp2);
fclose(fp2);
#endif
//printf("u16Width:%d,u16Height:%d\n",stDst.u16Width,stDst.u16Height);
//printf("widthStep:%d\n",iplImage->widthStep);
//cvSetData(iplImage, stDst.pu8VirAddr[0], iplImage->widthStep);
//cvSaveImage("saveImage.jpg",iplImage);
char *str = det_detect(pdet, HEIGHT, WIDTH, (char *)stDst.pu8VirAddr[0]);
printf("%s\n",str);
HI_MPI_SYS_Munmap(stDst.pu8VirAddr[0], u32DstBlkSize);
HI_MPI_SYS_Munmap(stSrc.pu8VirAddr[0], u32DstBlkSize / 2);
HI_MPI_SYS_MmzFree(stDst.u32PhyAddr[0], NULL);
HI_MPI_VI_ReleaseFrame(ExtChn, &FrameInfo);
}
det_close(pdet);
}
HI_S32 TDE_DrawGraphicSample()
{
HI_U32 u32Size;
HI_S32 s32Fd;
HI_U32 u32Times;
HI_U8* pu8Screen;
HI_U8* pu8BackGroundVir;
HI_U32 u32PhyAddr;
HI_S32 s32Ret = -1;
HI_U32 i = 0;
HI_BOOL bShow;
HIFB_ALPHA_S stAlpha = {0};
struct fb_fix_screeninfo stFixInfo;
struct fb_var_screeninfo stVarInfo;
struct fb_bitfield stR32 = {10, 5, 0};
struct fb_bitfield stG32 = {5, 5, 0};
struct fb_bitfield stB32 = {0, 5, 0};
struct fb_bitfield stA32 = {15, 1, 0};
/* 1. open tde device */
HI_TDE2_Open();
/* 2. framebuffer operation */
s32Fd = open("/dev/fb0", O_RDWR);
if (s32Fd == -1)
{
printf("open frame buffer device error\n");
goto FB_OPEN_ERROR;
}
stAlpha.bAlphaChannel = HI_FALSE;
stAlpha.bAlphaEnable = HI_FALSE;
if (ioctl(s32Fd, FBIOPUT_ALPHA_HIFB, &stAlpha) < 0)
{
printf("Put alpha info failed!\n");
goto FB_PROCESS_ERROR0;
}
/* get the variable screen info */
if (ioctl(s32Fd, FBIOGET_VSCREENINFO, &stVarInfo) < 0)
{
printf("Get variable screen info failed!\n");
goto FB_PROCESS_ERROR0;
}
stVarInfo.xres_virtual = SCREEN_WIDTH;
stVarInfo.yres_virtual = SCREEN_HEIGHT*2;
stVarInfo.xres = SCREEN_WIDTH;
stVarInfo.yres = SCREEN_HEIGHT;
stVarInfo.activate = FB_ACTIVATE_NOW;
stVarInfo.bits_per_pixel = 16;
stVarInfo.xoffset = 0;
stVarInfo.yoffset = 0;
stVarInfo.red = stR32;
stVarInfo.green = stG32;
stVarInfo.blue = stB32;
stVarInfo.transp = stA32;
if (ioctl(s32Fd, FBIOPUT_VSCREENINFO, &stVarInfo) < 0)
{
printf("process frame buffer device error\n");
goto FB_PROCESS_ERROR0;
}
if (ioctl(s32Fd, FBIOGET_FSCREENINFO, &stFixInfo) < 0)
{
printf("process frame buffer device error\n");
goto FB_PROCESS_ERROR0;
}
u32Size = stFixInfo.smem_len;
u32PhyAddr = stFixInfo.smem_start;
pu8Screen = mmap(NULL, u32Size, PROT_READ|PROT_WRITE, MAP_SHARED, s32Fd, 0);
if (NULL == pu8Screen)
{
printf("mmap fb0 failed!\n");
goto FB_PROCESS_ERROR0;
}
memset(pu8Screen, 0x00, stFixInfo.smem_len);
/* 3. create surface */
g_stScreen[0].enColorFmt = PIXFMT;
g_stScreen[0].u32PhyAddr = u32PhyAddr;
g_stScreen[0].u32Width = SCREEN_WIDTH;
g_stScreen[0].u32Height = SCREEN_HEIGHT;
g_stScreen[0].u32Stride = stFixInfo.line_length;
g_stScreen[0].bAlphaMax255 = HI_TRUE;
g_stScreen[1] = g_stScreen[0];
g_stScreen[1].u32PhyAddr = g_stScreen[0].u32PhyAddr + g_stScreen[0].u32Stride * g_stScreen[0].u32Height;
/* allocate memory (720*576*2*N_IMAGES bytes) to save Images' infornation */
if (HI_FAILURE == HI_MPI_SYS_MmzAlloc(&(g_stBackGround.u32PhyAddr), ((void**)&pu8BackGroundVir),
NULL, NULL, 720*576*2*N_IMAGES))
{
TDE_PRINT("allocate memory (720*576*2*N_IMAGES bytes) failed\n");
goto FB_PROCESS_ERROR1;
}
TDE_CreateSurfaceByFile(BACKGROUND_NAME, &g_stBackGround, pu8BackGroundVir);
g_stImgSur[0].u32PhyAddr = g_stBackGround.u32PhyAddr + g_stBackGround.u32Stride * g_stBackGround.u32Height;
for(i = 0; i < N_IMAGES - 1; i++)
{
TDE_CreateSurfaceByFile(pszImageNames[i], &g_stImgSur[i],
pu8BackGroundVir + ((HI_U32)g_stImgSur[i].u32PhyAddr - g_stBackGround.u32PhyAddr));
g_stImgSur[i+1].u32PhyAddr = g_stImgSur[i].u32PhyAddr + g_stImgSur[i].u32Stride * g_stImgSur[i].u32Height;
}
TDE_CreateSurfaceByFile(pszImageNames[i], &g_stImgSur[i],
pu8BackGroundVir + ((HI_U32)g_stImgSur[i].u32PhyAddr - g_stBackGround.u32PhyAddr));
bShow = HI_TRUE;
if (ioctl(s32Fd, FBIOPUT_SHOW_HIFB, &bShow) < 0)
{
fprintf (stderr, "Couldn't show fb\n");
goto FB_PROCESS_ERROR2;
}
g_s32FrameNum = 0;
/* 3. use tde and framebuffer to realize rotational effect */
for (u32Times = 0; u32Times < 20; u32Times++)
{
circumrotate(u32Times%2);
stVarInfo.yoffset = (u32Times%2)?0:576;
/*set frame buffer start position*/
if (ioctl(s32Fd, FBIOPAN_DISPLAY, &stVarInfo) < 0)
{
TDE_PRINT("process frame buffer device error\n");
goto FB_PROCESS_ERROR2;
}
sleep(1);
}
s32Ret = 0;
FB_PROCESS_ERROR2:
HI_MPI_SYS_MmzFree(g_stBackGround.u32PhyAddr, pu8BackGroundVir);
FB_PROCESS_ERROR1:
munmap(pu8Screen, u32Size);
FB_PROCESS_ERROR0:
close(s32Fd);
FB_OPEN_ERROR:
HI_TDE2_Close();
return s32Ret;
}
