#include #include #include #define USE_THEORA #include "config.h" #include "mp_msg.h" #include "help_mp.h" #ifdef HAVE_MALLOC_H #include #endif #include "codec-cfg.h" //#include "mp_image.h" #include "img_format.h" #include "stream.h" #include "demuxer.h" #include "stheader.h" #include "dec_video.h" #include "vd.h" #include "vf.h" //#include "vd_internal.h" extern vd_functions_t mpcodecs_vd_null; extern vd_functions_t mpcodecs_vd_ffmpeg; extern vd_functions_t mpcodecs_vd_theora; extern vd_functions_t mpcodecs_vd_dshow; extern vd_functions_t mpcodecs_vd_dmo; extern vd_functions_t mpcodecs_vd_vfw; extern vd_functions_t mpcodecs_vd_vfwex; extern vd_functions_t mpcodecs_vd_odivx; extern vd_functions_t mpcodecs_vd_divx4; extern vd_functions_t mpcodecs_vd_raw; extern vd_functions_t mpcodecs_vd_hmblck; extern vd_functions_t mpcodecs_vd_xanim; extern vd_functions_t mpcodecs_vd_nuv; extern vd_functions_t mpcodecs_vd_mpng; extern vd_functions_t mpcodecs_vd_ijpg; extern vd_functions_t mpcodecs_vd_mtga; extern vd_functions_t mpcodecs_vd_sgi; extern vd_functions_t mpcodecs_vd_libmpeg2; extern vd_functions_t mpcodecs_vd_mpegpes; extern vd_functions_t mpcodecs_vd_zrmjpeg; extern vd_functions_t mpcodecs_vd_realvid; extern vd_functions_t mpcodecs_vd_xvid; extern vd_functions_t mpcodecs_vd_libdv; extern vd_functions_t mpcodecs_vd_lzo; extern vd_functions_t mpcodecs_vd_qtvideo; vd_functions_t* mpcodecs_vd_drivers[] = { &mpcodecs_vd_null, #ifdef USE_LIBAVCODEC &mpcodecs_vd_ffmpeg, #endif #ifdef HAVE_OGGTHEORA &mpcodecs_vd_theora, #endif #ifdef USE_WIN32DLL #ifdef USE_DIRECTSHOW &mpcodecs_vd_dshow, &mpcodecs_vd_dmo, #endif &mpcodecs_vd_vfw, &mpcodecs_vd_vfwex, #endif #ifdef USE_DIVX &mpcodecs_vd_odivx, #ifdef NEW_DECORE &mpcodecs_vd_divx4, #endif #endif &mpcodecs_vd_lzo, &mpcodecs_vd_raw, &mpcodecs_vd_hmblck, &mpcodecs_vd_nuv, #ifdef USE_XANIM &mpcodecs_vd_xanim, #endif #ifdef HAVE_PNG &mpcodecs_vd_mpng, #endif #ifdef HAVE_JPEG &mpcodecs_vd_ijpg, #endif &mpcodecs_vd_mtga, &mpcodecs_vd_sgi, #ifdef USE_LIBMPEG2 &mpcodecs_vd_libmpeg2, #endif &mpcodecs_vd_mpegpes, #ifdef HAVE_ZR &mpcodecs_vd_zrmjpeg, #endif #ifdef USE_REALCODECS &mpcodecs_vd_realvid, #endif #if defined(HAVE_XVID3) || defined(HAVE_XVID4) &mpcodecs_vd_xvid, #endif #ifdef HAVE_LIBDV095 &mpcodecs_vd_libdv, #endif #if defined(USE_QTX_CODECS) || defined(MACOSX) &mpcodecs_vd_qtvideo, #endif NULL }; #include "libvo/video_out.h" // libvo opts: int fullscreen=0; int vidmode=0; int softzoom=0; int flip=-1; int opt_screen_size_x=0; int opt_screen_size_y=0; float screen_size_xy=0; float movie_aspect=-1.0; int vo_flags=0; int vd_use_slices=1; /** global variables for gamma, brightness, contrast, saturation and hue modified by mplayer.c and Gui/mplayer/gtk/eq.c: ranges -100 - 100 1000 if the vo default should be used */ int vo_gamma_gamma = 1000; int vo_gamma_brightness = 1000; int vo_gamma_contrast = 1000; int vo_gamma_saturation = 1000; int vo_gamma_hue = 1000; extern vd_functions_t* mpvdec; // FIXME! extern int divx_quality; int mpcodecs_config_vo(sh_video_t *sh, int w, int h, unsigned int preferred_outfmt){ int i,j; unsigned int out_fmt=0; int screen_size_x=0;//SCREEN_SIZE_X; int screen_size_y=0;//SCREEN_SIZE_Y; // vo_functions_t* video_out=sh->video_out; vf_instance_t* vf=sh->vfilter,*sc=NULL; int palette=0; int vocfg_flags=0; if(!sh->disp_w || !sh->disp_h) mp_msg(MSGT_DECVIDEO,MSGL_WARN, MSGTR_CodecDidNotSet); /* XXX: HACK, if sh->disp_* aren't set, * but we have w and h, set them :: atmos */ if(!sh->disp_w && w) sh->disp_w=w; if(!sh->disp_h && h) sh->disp_h=h; if(!sh->disp_w || !sh->disp_h) return 0; mp_msg(MSGT_DECVIDEO,MSGL_INFO,MSGTR_VoConfigRequest,w,h,vo_format_name(preferred_outfmt)); // if(!vf) return 1; // temp hack if(get_video_quality_max(sh)<=0 && divx_quality){ // user wants postprocess but no pp filter yet: sh->vfilter=vf=vf_open_filter(vf,"pp",NULL); } // check if libvo and codec has common outfmt (no conversion): csp_again: if(verbose>0){ vf_instance_t* f=vf; mp_msg(MSGT_DECVIDEO,MSGL_V,"Trying filter chain:"); for(f = vf ; f ; f = f->next) mp_msg(MSGT_DECVIDEO,MSGL_V," %s",f->info->name); mp_msg(MSGT_DECVIDEO,MSGL_V,"\n"); } j=-1; for(i=0;icodec->outfmt[i]; if(out_fmt==(unsigned int)0xFFFFFFFF) continue; flags=vf->query_format(vf,out_fmt); mp_msg(MSGT_CPLAYER,MSGL_DBG2,"vo_debug: query(%s) returned 0x%X (i=%d) \n",vo_format_name(out_fmt),flags,i); if((flags&VFCAP_CSP_SUPPORTED_BY_HW) || (flags&VFCAP_CSP_SUPPORTED && j<0)){ // check (query) if codec really support this outfmt... sh->outfmtidx=j; // pass index to the control() function this way if(mpvdec->control(sh,VDCTRL_QUERY_FORMAT,&out_fmt)==CONTROL_FALSE){ mp_msg(MSGT_CPLAYER,MSGL_DBG2,"vo_debug: codec query_format(%s) returned FALSE\n",vo_format_name(out_fmt)); continue; } j=i; vo_flags=flags; if(flags&VFCAP_CSP_SUPPORTED_BY_HW) break; } else if(!palette && !(flags&(VFCAP_CSP_SUPPORTED_BY_HW|VFCAP_CSP_SUPPORTED)) && (out_fmt==IMGFMT_RGB8||out_fmt==IMGFMT_BGR8)){ sh->outfmtidx=j; // pass index to the control() function this way if(mpvdec->control(sh,VDCTRL_QUERY_FORMAT,&out_fmt)!=CONTROL_FALSE) palette=1; } } if(j<0){ // TODO: no match - we should use conversion... if(strcmp(vf->info->name,"scale") && palette!=-1){ mp_msg(MSGT_DECVIDEO,MSGL_INFO,MSGTR_CouldNotFindColorspace); sc=vf=vf_open_filter(vf,"scale",NULL); goto csp_again; } else if(palette==1){ mp_msg(MSGT_DECVIDEO,MSGL_V,"vd: Trying -vf palette...\n"); palette=-1; vf=vf_open_filter(vf,"palette",NULL); goto csp_again; } else { // sws failed, if the last filter (vf_vo) support MPEGPES try to append vf_lavc vf_instance_t* vo, *vp = NULL, *ve; // Remove the scale filter if we added it ourself if(vf == sc) { ve = vf; vf = vf->next; vf_uninit_filter(ve); } // Find the last filter (vf_vo) for(vo = vf ; vo->next ; vo = vo->next) vp = vo; if(vo->query_format(vo,IMGFMT_MPEGPES) && (!vp || (vp && strcmp(vp->info->name,"lavc")))) { ve = vf_open_filter(vo,"lavc",NULL); if(vp) vp->next = ve; else vf = ve; goto csp_again; } } mp_msg(MSGT_CPLAYER,MSGL_WARN,MSGTR_VOincompCodec); sh->vf_inited=-1; return 0; // failed } out_fmt=sh->codec->outfmt[j]; mp_msg(MSGT_CPLAYER,MSGL_INFO,"VDec: using %s as output csp (no %d)\n",vo_format_name(out_fmt),j); sh->outfmtidx=j; sh->vfilter=vf; // autodetect flipping if(flip==-1){ flip=0; if(sh->codec->outflags[j]&CODECS_FLAG_FLIP) if(!(sh->codec->outflags[j]&CODECS_FLAG_NOFLIP)) flip=1; } if(vo_flags&VFCAP_FLIPPED) flip^=1; if(flip && !(vo_flags&VFCAP_FLIP)){ // we need to flip, but no flipping filter avail. vf_add_before_vo(&vf, "flip", NULL); sh->vfilter = vf; } // time to do aspect ratio corrections... if(movie_aspect>-1.0) sh->aspect = movie_aspect; // cmdline overrides autodetect // if(!sh->aspect) sh->aspect=1.0; if(opt_screen_size_x||opt_screen_size_y){ screen_size_x = opt_screen_size_x; screen_size_y = opt_screen_size_y; if(!vidmode){ if(!screen_size_x) screen_size_x=SCREEN_SIZE_X; if(!screen_size_y) screen_size_y=SCREEN_SIZE_Y; if(screen_size_x<=8) screen_size_x*=sh->disp_w; if(screen_size_y<=8) screen_size_y*=sh->disp_h; } } else { // check source format aspect, calculate prescale ::atmos screen_size_x=sh->disp_w; screen_size_y=sh->disp_h; if(screen_size_xy>=0.001){ if(screen_size_xy<=8){ // -xy means x+y scale screen_size_x*=screen_size_xy; screen_size_y*=screen_size_xy; } else { // -xy means forced width while keeping correct aspect screen_size_x=screen_size_xy; screen_size_y=screen_size_xy*sh->disp_h/sh->disp_w; } } if(sh->aspect>0.01){ int w; mp_msg(MSGT_CPLAYER,MSGL_INFO,MSGTR_MovieAspectIsSet,sh->aspect); w=(int)((float)screen_size_y*sh->aspect); w+=w%2; // round // we don't like horizontal downscale || user forced width: if(w8){ screen_size_y=(int)((float)screen_size_x*(1.0/sh->aspect)); screen_size_y+=screen_size_y%2; // round } else screen_size_x=w; // keep new width } else { mp_msg(MSGT_CPLAYER,MSGL_INFO,MSGTR_MovieAspectUndefined); } } vocfg_flags = (fullscreen ? VOFLAG_FULLSCREEN:0) | (vidmode ? VOFLAG_MODESWITCHING:0) | (softzoom ? VOFLAG_SWSCALE:0) | (flip ? VOFLAG_FLIPPING:0); // Time to config libvo! mp_msg(MSGT_CPLAYER,MSGL_V,"VO Config (%dx%d->%dx%d,flags=%d,'%s',0x%X)\n", sh->disp_w,sh->disp_h, screen_size_x,screen_size_y, vocfg_flags, "MPlayer",out_fmt); vf->w = sh->disp_w; vf->h = sh->disp_h; if(vf_config_wrapper(vf,sh->disp_w,sh->disp_h, screen_size_x,screen_size_y, vocfg_flags, out_fmt)==0){ // "MPlayer",out_fmt)){ mp_msg(MSGT_CPLAYER,MSGL_WARN,MSGTR_CannotInitVO); sh->vf_inited=-1; return 0; } sh->vf_inited=1; if (vo_gamma_gamma != 1000) set_video_colors(sh, "gamma", vo_gamma_gamma); if (vo_gamma_brightness != 1000) set_video_colors(sh, "brightness", vo_gamma_brightness); if (vo_gamma_contrast != 1000) set_video_colors(sh, "contrast", vo_gamma_contrast); if (vo_gamma_saturation != 1000) set_video_colors(sh, "saturation", vo_gamma_saturation); if (vo_gamma_hue != 1000) set_video_colors(sh, "hue", vo_gamma_hue); return 1; } // mp_imgtype: buffering type, see mp_image.h // mp_imgflag: buffer requirements (read/write, preserve, stride limits), see mp_image.h // returns NULL or allocated mp_image_t* // Note: buffer allocation may be moved to mpcodecs_config_vo() later... mp_image_t* mpcodecs_get_image(sh_video_t *sh, int mp_imgtype, int mp_imgflag, int w, int h){ mp_image_t* mpi=vf_get_image(sh->vfilter,sh->codec->outfmt[sh->outfmtidx],mp_imgtype,mp_imgflag,w,h); mpi->x=mpi->y=0; return mpi; } void mpcodecs_draw_slice(sh_video_t *sh, unsigned char** src, int* stride, int w,int h, int x, int y) { struct vf_instance_s* vf = sh->vfilter; if(vf->draw_slice) vf->draw_slice(vf,src,stride,w,h,x,y); }