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#ifndef __MP_IMAGE_H
#define __MP_IMAGE_H 1
//--------- codec's requirements (filled by the codec/vf) ---------
//--- buffer content restrictions:
// set if buffer content shouldn't be modified:
#define MP_IMGFLAG_PRESERVE 0x01
// set if buffer content will be READ for next frame's MC: (I/P mpeg frames)
#define MP_IMGFLAG_READABLE 0x02
//--- buffer width/stride/plane restrictions: (used for direct rendering)
// stride _have_to_ be aligned to MB boundary: [for DR restrictions]
#define MP_IMGFLAG_ACCEPT_ALIGNED_STRIDE 0x4
// stride should be aligned to MB boundary: [for buffer allocation]
#define MP_IMGFLAG_PREFER_ALIGNED_STRIDE 0x8
// codec accept any stride (>=width):
#define MP_IMGFLAG_ACCEPT_STRIDE 0x10
// codec accept any width (width*bpp=stride -> stride%bpp==0) (>=width):
#define MP_IMGFLAG_ACCEPT_WIDTH 0x20
//--- for planar formats only:
// uses only stride[0], and stride[1]=stride[2]=stride[0]>>mpi->chroma_x_shift
#define MP_IMGFLAG_COMMON_STRIDE 0x40
// uses only planes[0], and calculates planes[1,2] from width,height,imgfmt
#define MP_IMGFLAG_COMMON_PLANE 0x80
#define MP_IMGFLAGMASK_RESTRICTIONS 0xFF
//--------- color info (filled by mp_image_setfmt() ) -----------
// set if number of planes > 1
#define MP_IMGFLAG_PLANAR 0x100
// set if it's YUV colorspace
#define MP_IMGFLAG_YUV 0x200
// set if it's swapped (BGR or YVU) plane/byteorder
#define MP_IMGFLAG_SWAPPED 0x400
// using palette for RGB data
#define MP_IMGFLAG_RGB_PALETTE 0x800
#define MP_IMGFLAGMASK_COLORS 0xF00
// codec uses drawing/rendering callbacks (draw_slice()-like thing, DR method 2)
// [the codec will set this flag if it supports callbacks, and the vo _may_
// clear it in get_image() if draw_slice() not implemented]
#define MP_IMGFLAG_DRAW_CALLBACK 0x1000
// set if it's in video buffer/memory: [set by vo/vf's get_image() !!!]
#define MP_IMGFLAG_DIRECT 0x2000
// set if buffer is allocated (used in destination images):
#define MP_IMGFLAG_ALLOCATED 0x4000
// buffer type was printed (do NOT set this flag - it's for INTERNAL USE!!!)
#define MP_IMGFLAG_TYPE_DISPLAYED 0x8000
// codec doesn't support any form of direct rendering - it has own buffer
// allocation. so we just export its buffer pointers:
#define MP_IMGTYPE_EXPORT 0
// codec requires a static WO buffer, but it does only partial updates later:
#define MP_IMGTYPE_STATIC 1
// codec just needs some WO memory, where it writes/copies the whole frame to:
#define MP_IMGTYPE_TEMP 2
// I+P type, requires 2+ independent static R/W buffers
#define MP_IMGTYPE_IP 3
// I+P+B type, requires 2+ independent static R/W and 1+ temp WO buffers
#define MP_IMGTYPE_IPB 4
#define MP_MAX_PLANES 4
#define MP_IMGFIELD_ORDERED 0x01
#define MP_IMGFIELD_TOP_FIRST 0x02
#define MP_IMGFIELD_REPEAT_FIRST 0x04
#define MP_IMGFIELD_TOP 0x08
#define MP_IMGFIELD_BOTTOM 0x10
#define MP_IMGFIELD_INTERLACED 0x20
typedef struct mp_image_s {
unsigned short flags;
unsigned char type;
unsigned char bpp; // bits/pixel. NOT depth! for RGB it will be n*8
unsigned int imgfmt;
int width,height; // stored dimensions
int x,y,w,h; // visible dimensions
unsigned char* planes[MP_MAX_PLANES];
int stride[MP_MAX_PLANES];
char * qscale;
int qstride;
int pict_type; // 0->unknown, 1->I, 2->P, 3->B
int fields;
int qscale_type; // 0->mpeg1/4/h263, 1->mpeg2
int num_planes;
/* these are only used by planar formats Y,U(Cb),V(Cr) */
int chroma_width;
int chroma_height;
int chroma_x_shift; // horizontal
int chroma_y_shift; // vertical
/* for private use by filter or vo driver (to store buffer id or dmpi) */
void* priv;
} mp_image_t;
#ifdef IMGFMT_YUY2
static inline void mp_image_setfmt(mp_image_t* mpi,unsigned int out_fmt){
mpi->flags&=~(MP_IMGFLAG_PLANAR|MP_IMGFLAG_YUV|MP_IMGFLAG_SWAPPED);
mpi->imgfmt=out_fmt;
if(out_fmt == IMGFMT_MPEGPES){
mpi->bpp=0;
return;
}
if(out_fmt == IMGFMT_ZRMJPEGNI ||
out_fmt == IMGFMT_ZRMJPEGIT ||
out_fmt == IMGFMT_ZRMJPEGIB){
mpi->bpp=0;
return;
}
if(IMGFMT_IS_XVMC(out_fmt)){
mpi->bpp=0;
return;
}
mpi->num_planes=1;
if (IMGFMT_IS_RGB(out_fmt)) {
if (IMGFMT_RGB_DEPTH(out_fmt) < 8 && !(out_fmt&128))
mpi->bpp = IMGFMT_RGB_DEPTH(out_fmt);
else
mpi->bpp=(IMGFMT_RGB_DEPTH(out_fmt)+7)&(~7);
return;
}
if (IMGFMT_IS_BGR(out_fmt)) {
if (IMGFMT_BGR_DEPTH(out_fmt) < 8 && !(out_fmt&128))
mpi->bpp = IMGFMT_BGR_DEPTH(out_fmt);
else
mpi->bpp=(IMGFMT_BGR_DEPTH(out_fmt)+7)&(~7);
mpi->flags|=MP_IMGFLAG_SWAPPED;
return;
}
mpi->flags|=MP_IMGFLAG_YUV;
mpi->num_planes=3;
switch(out_fmt){
case IMGFMT_I420:
case IMGFMT_IYUV:
mpi->flags|=MP_IMGFLAG_SWAPPED;
case IMGFMT_YV12:
mpi->flags|=MP_IMGFLAG_PLANAR;
mpi->bpp=12;
mpi->chroma_width=(mpi->width>>1);
mpi->chroma_height=(mpi->height>>1);
mpi->chroma_x_shift=1;
mpi->chroma_y_shift=1;
return;
case IMGFMT_IF09:
mpi->num_planes=4;
case IMGFMT_YVU9:
mpi->flags|=MP_IMGFLAG_PLANAR;
mpi->bpp=9;
mpi->chroma_width=(mpi->width>>2);
mpi->chroma_height=(mpi->height>>2);
mpi->chroma_x_shift=2;
mpi->chroma_y_shift=2;
return;
case IMGFMT_444P:
mpi->flags|=MP_IMGFLAG_PLANAR;
mpi->bpp=24;
mpi->chroma_width=(mpi->width);
mpi->chroma_height=(mpi->height);
mpi->chroma_x_shift=0;
mpi->chroma_y_shift=0;
return;
case IMGFMT_422P:
mpi->flags|=MP_IMGFLAG_PLANAR;
mpi->bpp=16;
mpi->chroma_width=(mpi->width>>1);
mpi->chroma_height=(mpi->height);
mpi->chroma_x_shift=1;
mpi->chroma_y_shift=0;
return;
case IMGFMT_411P:
mpi->flags|=MP_IMGFLAG_PLANAR;
mpi->bpp=12;
mpi->chroma_width=(mpi->width>>2);
mpi->chroma_height=(mpi->height);
mpi->chroma_x_shift=2;
mpi->chroma_y_shift=0;
return;
case IMGFMT_Y800:
case IMGFMT_Y8:
/* they're planar ones, but for easier handling use them as packed */
// mpi->flags|=MP_IMGFLAG_PLANAR;
mpi->bpp=8;
mpi->num_planes=1;
return;
case IMGFMT_UYVY:
mpi->flags|=MP_IMGFLAG_SWAPPED;
case IMGFMT_YUY2:
mpi->bpp=16;
mpi->num_planes=1;
return;
case IMGFMT_NV12:
mpi->flags|=MP_IMGFLAG_SWAPPED;
case IMGFMT_NV21:
mpi->flags|=MP_IMGFLAG_PLANAR;
mpi->bpp=12;
mpi->num_planes=2;
mpi->chroma_width=(mpi->width>>0);
mpi->chroma_height=(mpi->height>>1);
mpi->chroma_x_shift=0;
mpi->chroma_y_shift=1;
return;
}
fprintf(stderr,"mp_image: unknown out_fmt: 0x%X\n",out_fmt);
mpi->bpp=0;
}
#endif
static inline mp_image_t* new_mp_image(int w,int h){
mp_image_t* mpi=(mp_image_t*)malloc(sizeof(mp_image_t));
if(!mpi) return NULL; // error!
memset(mpi,0,sizeof(mp_image_t));
mpi->width=mpi->w=w;
mpi->height=mpi->h=h;
return mpi;
}
static inline void free_mp_image(mp_image_t* mpi){
if(!mpi) return;
if(mpi->flags&MP_IMGFLAG_ALLOCATED){
/* becouse we allocate the whole image in once */
if(mpi->planes[0]) free(mpi->planes[0]);
}
free(mpi);
}
#endif
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