XCBSCREEN *ScreenOfDisplay (XCBConnection *c, int screen)
{
- XCBSCREENIter iter = XCBConnSetupSuccessRepRootsIter (XCBGetSetup (c));
+ XCBSCREENIter iter = XCBSetupRootsIter (XCBGetSetup (c));
for (; iter.rem; --screen, XCBSCREENNext (&iter))
if (screen == 0)
return iter.data;
free(query_ext);
- nscreens = XCBConnSetupSuccessRepRootsIter(XCBGetSetup(c)).rem;
+ nscreens = XCBSetupRootsLength(XCBGetSetup(c));
for (i = 0; i < nscreens; i++)
{
adaptors_rep = XCBXvQueryAdaptorsReply(c, XCBXvQueryAdaptors(c, root_window), NULL);
if (!adaptors_rep->num_adaptors) {
fprintf(stdout, " no adaptors present.\n");
+ free(adaptors_rep);
continue;
}
name = ExtractString(XCBXvAdaptorInfoName(ainfo), XCBXvAdaptorInfoNameLength(ainfo));
fprintf(stdout, " Adaptor #%i: \"%s\"\n", j, name);
fprintf(stdout, " number of ports: %i\n", ainfo->num_ports);
- fprintf(stdout, " port base: %li\n", ainfo->base_id.xid);
+ fprintf(stdout, " port base: %i\n", ainfo->base_id.xid);
fprintf(stdout, " operations supported: ");
free(name);
fprintf(stdout, " supported visuals:\n");
for (k=0; k < ainfo->num_formats; k++, format++)
- fprintf(stdout, " depth %i, visualID 0x%2lx\n",
+ fprintf(stdout, " depth %i, visualID 0x%2x\n",
format->depth, format->visual.id);
attr_rep = XCBXvQueryPortAttributesReply(c,
for (k = 0; k < nattr; k++) {
attribute = attr_iter.data;
- fprintf(stdout, " \"%s\" (range %li to %li)\n",
+ fprintf(stdout, " \"%s\" (range %i to %i)\n",
XCBXvAttributeInfoName(attribute),
attribute->min,
attribute->max);
XCBXvGetPortAttributeReply(c,
XCBXvGetPortAttribute(c, ainfo->base_id, the_atom),
NULL);
- if (pattr_rep) fprintf(stdout, " (current value is %li)", pattr_rep->value);
+ if (pattr_rep) fprintf(stdout, " (current value is %i)", pattr_rep->value);
free(pattr_rep);
}
fprintf(stdout, "\n");
name = ExtractString(XCBXvEncodingInfoName(encoding), XCBXvEncodingInfoNameLength(encoding));
if(nstrcmp(name, strlen(name), "XV_IMAGE")) {
fprintf(stdout,
- " encoding ID #%li: \"%*s\"\n",
+ " encoding ID #%i: \"%*s\"\n",
encoding->encoding.xid,
strlen(name),
name);
for(n = 0; n < numImages; n++) {
format = formats_iter.data;
memcpy(imageName, &(format->id), 4);
- fprintf(stdout, " id: 0x%lx", format->id);
+ fprintf(stdout, " id: 0x%x", format->id);
if(isprint(imageName[0]) && isprint(imageName[1]) &&
isprint(imageName[2]) && isprint(imageName[3]))
{
format->depth);
fprintf(stdout, " red, green, blue masks: "
- "0x%lx, 0x%lx, 0x%lx\n",
+ "0x%x, 0x%x, 0x%x\n",
format->red_mask,
format->green_mask,
format->blue_mask);
free(qencodings_rep);
XCBXvAdaptorInfoNext(&adaptors_iter);
}
+ free(adaptors_rep);
}
- free(adaptors_rep);
- adaptors_rep = NULL;
-
- return 1;
+ return 0;
}