/* $XFree86: xc/programs/xvinfo/xvinfo.c,v 1.8 2002/01/22 23:05:43 mvojkovi Exp $ */ #include #include #include #include #include #include #include static void PrintUsage(void) { fprintf(stderr, "Usage: xvinfo [-display host:dpy]\n"); exit(0); } int main(int argc, char *argv[]) { Display *dpy; unsigned int ver, rev, eventB, reqB, errorB; int i, j, k, n; unsigned int nencode, nadaptors; int nscreens, nattr, numImages; XvAdaptorInfo *ainfo; XvAttribute *attributes; XvEncodingInfo *encodings; XvFormat *format; XvImageFormatValues *formats; char * disname = NULL; if((argc != 1) && (argc != 3)) PrintUsage(); if(argc != 1) { if(strcmp(argv[1], "-display")) PrintUsage(); disname = argv[2]; } if(!(dpy = XOpenDisplay(disname))) { fprintf(stderr, "xvinfo: Unable to open display %s\n", (disname != NULL) ? disname : XDisplayName(NULL)); exit(-1); } if((Success != XvQueryExtension(dpy, &ver, &rev, &reqB, &eventB, &errorB))) { fprintf(stderr, "xvinfo: No X-Video Extension on %s\n", (disname != NULL) ? disname : XDisplayName(NULL)); exit(0); } else { fprintf(stdout, "X-Video Extension version %i.%i\n", ver, rev); } nscreens = ScreenCount(dpy); for(i = 0; i < nscreens; i++) { fprintf(stdout, "screen #%i\n", i); XvQueryAdaptors(dpy, RootWindow(dpy, i), &nadaptors, &ainfo); if(!nadaptors) { fprintf(stdout, " no adaptors present\n"); continue; } for(j = 0; j < nadaptors; j++) { fprintf(stdout, " Adaptor #%i: \"%s\"\n", j, ainfo[j].name); fprintf(stdout, " number of ports: %li\n", ainfo[j].num_ports); fprintf(stdout, " port base: %li\n", ainfo[j].base_id); fprintf(stdout, " operations supported: "); switch(ainfo[j].type & (XvInputMask | XvOutputMask)) { case XvInputMask: if(ainfo[j].type & XvVideoMask) fprintf(stdout, "PutVideo "); if(ainfo[j].type & XvStillMask) fprintf(stdout, "PutStill "); if(ainfo[j].type & XvImageMask) fprintf(stdout, "PutImage "); break; case XvOutputMask: if(ainfo[j].type & XvVideoMask) fprintf(stdout, "GetVideo "); if(ainfo[j].type & XvStillMask) fprintf(stdout, "GetStill "); break; default: fprintf(stdout, "none "); break; } fprintf(stdout, "\n"); format = ainfo[j].formats; fprintf(stdout, " supported visuals:\n"); for(k = 0; k < ainfo[j].num_formats; k++, format++) { fprintf(stdout, " depth %i, visualID 0x%2lx\n", format->depth, format->visual_id); } attributes = XvQueryPortAttributes(dpy, ainfo[j].base_id, &nattr); if(attributes && nattr) { fprintf(stdout, " number of attributes: %i\n", nattr); for(k = 0; k < nattr; k++) { fprintf(stdout, " \"%s\" (range %i to %i)\n", attributes[k].name, attributes[k].min_value, attributes[k].max_value); if(attributes[k].flags & XvSettable) fprintf(stdout, " client settable attribute\n"); if(attributes[k].flags & XvGettable) { Atom the_atom; int value; fprintf(stdout, " client gettable attribute"); the_atom = XInternAtom(dpy, attributes[k].name, True); if(the_atom != None){ if((Success == XvGetPortAttribute(dpy, ainfo[j].base_id, the_atom, &value))) fprintf(stdout, " (current value is %i)", value); } fprintf(stdout, "\n"); } } XFree(attributes); } else { fprintf(stdout, " no port attributes defined\n"); } XvQueryEncodings(dpy, ainfo[j].base_id, &nencode, &encodings); if(encodings && nencode) { int ImageEncodings = 0; for(n = 0; n < nencode; n++) { if(!strcmp(encodings[n].name, "XV_IMAGE")) ImageEncodings++; } if(nencode - ImageEncodings) { fprintf(stdout, " number of encodings: %i\n", nencode - ImageEncodings); for(n = 0; n < nencode; n++) { if(strcmp(encodings[n].name, "XV_IMAGE")) { fprintf(stdout, " encoding ID #%li: \"%s\"\n", encodings[n].encoding_id, encodings[n].name); fprintf(stdout, " size: %li x %li\n", encodings[n].width, encodings[n].height); fprintf(stdout, " rate: %f\n", (float)encodings[n].rate.numerator/ (float)encodings[n].rate.denominator); } } } if(ImageEncodings && (ainfo[j].type & XvImageMask)) { char imageName[5] = {0, 0, 0, 0, 0}; for(n = 0; n < nencode; n++) { if(!strcmp(encodings[n].name, "XV_IMAGE")) { fprintf(stdout, " maximum XvImage size: %li x %li\n", encodings[n].width, encodings[n].height); break; } } formats = XvListImageFormats( dpy, ainfo[j].base_id, &numImages); fprintf(stdout, " Number of image formats: %i\n", numImages); for(n = 0; n < numImages; n++) { memcpy(imageName, &(formats[n].id), 4); fprintf(stdout, " id: 0x%x", formats[n].id); if(isprint(imageName[0]) && isprint(imageName[1]) && isprint(imageName[2]) && isprint(imageName[3])) { fprintf(stdout, " (%s)\n", imageName); } else { fprintf(stdout, "\n"); } fprintf(stdout, " guid: "); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[0]); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[1]); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[2]); fprintf(stdout, "%02x-", (unsigned char) formats[n].guid[3]); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[4]); fprintf(stdout, "%02x-", (unsigned char) formats[n].guid[5]); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[6]); fprintf(stdout, "%02x-", (unsigned char) formats[n].guid[7]); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[8]); fprintf(stdout, "%02x-", (unsigned char) formats[n].guid[9]); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[10]); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[11]); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[12]); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[13]); fprintf(stdout, "%02x", (unsigned char) formats[n].guid[14]); fprintf(stdout, "%02x\n", (unsigned char) formats[n].guid[15]); fprintf(stdout, " bits per pixel: %i\n", formats[n].bits_per_pixel); fprintf(stdout, " number of planes: %i\n", formats[n].num_planes); fprintf(stdout, " type: %s (%s)\n", (formats[n].type == XvRGB) ? "RGB" : "YUV", (formats[n].format == XvPacked) ? "packed" : "planar"); if(formats[n].type == XvRGB) { fprintf(stdout, " depth: %i\n", formats[n].depth); fprintf(stdout, " red, green, blue masks: " "0x%x, 0x%x, 0x%x\n", formats[n].red_mask, formats[n].green_mask, formats[n].blue_mask); } else { } } if(formats) XFree(formats); } XvFreeEncodingInfo(encodings); } } XvFreeAdaptorInfo(ainfo); } return 1; }