XvMCOSD::XvMCOSD(Display *disp, int port, int surface_type_id, int xvmc_surf_flags) : XJ_disp(disp), XJ_width(0), XJ_height(0), xv_port(port), osd_palette(NULL), osd_xv_image(NULL), osd_subpict_mode(NO_SUBPICTURE), osd_subpict_clear_color(0), osd_subpict_alloc(false) { bzero(&osd_subpict, sizeof(osd_subpict)); // subpicture init int num = 0; XvImageFormatValues *xvfmv = NULL; X11S(xvfmv = XvMCListSubpictureTypes(XJ_disp, xv_port, surface_type_id, &num)); for (int i = (xvfmv) ? 0 : num; i < num; i++) { if (GUID_IA44_PACKED == xvfmv[i].id || GUID_AI44_PACKED == xvfmv[i].id) { osd_subpict_info = xvfmv[i]; bool be = (XVMC_BACKEND_SUBPICTURE & xvmc_surf_flags); osd_subpict_mode = (be) ? BACKEND_SUBPICTURE : BLEND_SUBPICTURE; break; } } if (xvfmv) X11S(XFree(xvfmv)); }
static Status Validate(Display *dpy, XvPortID port, int surface_type_id, int xvimage_id) { XvImageFormatValues *subpictures; int num_subpics; unsigned int i; subpictures = XvMCListSubpictureTypes(dpy, port, surface_type_id, &num_subpics); if (num_subpics < 1) { if (subpictures) XFree(subpictures); return BadMatch; } if (!subpictures) return BadAlloc; for (i = 0; i < num_subpics; ++i) { if (subpictures[i].id == xvimage_id) { XVMC_MSG(XVMC_TRACE, "[XvMC] Found requested subpicture format.\n" \ "[XvMC] port=%u\n" \ "[XvMC] surface id=0x%08X\n" \ "[XvMC] image id=0x%08X\n" \ "[XvMC] type=%08X\n" \ "[XvMC] byte order=%08X\n" \ "[XvMC] bits per pixel=%u\n" \ "[XvMC] format=%08X\n" \ "[XvMC] num planes=%d\n", port, surface_type_id, xvimage_id, subpictures[i].type, subpictures[i].byte_order, subpictures[i].bits_per_pixel, subpictures[i].format, subpictures[i].num_planes); if (subpictures[i].type == XvRGB) { XVMC_MSG(XVMC_TRACE, "[XvMC] depth=%d\n" \ "[XvMC] red mask=0x%08X\n" \ "[XvMC] green mask=0x%08X\n" \ "[XvMC] blue mask=0x%08X\n", subpictures[i].depth, subpictures[i].red_mask, subpictures[i].green_mask, subpictures[i].blue_mask); } else if (subpictures[i].type == XvYUV) { XVMC_MSG(XVMC_TRACE, "[XvMC] y sample bits=0x%08X\n" \ "[XvMC] u sample bits=0x%08X\n" \ "[XvMC] v sample bits=0x%08X\n" \ "[XvMC] horz y period=%u\n" \ "[XvMC] horz u period=%u\n" \ "[XvMC] horz v period=%u\n" \ "[XvMC] vert y period=%u\n" \ "[XvMC] vert u period=%u\n" \ "[XvMC] vert v period=%u\n", subpictures[i].y_sample_bits, subpictures[i].u_sample_bits, subpictures[i].v_sample_bits, subpictures[i].horz_y_period, subpictures[i].horz_u_period, subpictures[i].horz_v_period, subpictures[i].vert_y_period, subpictures[i].vert_u_period, subpictures[i].vert_v_period); } break; } } XFree(subpictures); return i < num_subpics ? Success : BadMatch; }
int main(int argc, char **argv) { const unsigned int width = 16, height = 16; const unsigned int mc_types[2] = {XVMC_MOCOMP | XVMC_MPEG_2, XVMC_IDCT | XVMC_MPEG_2}; const unsigned int subpic_width = 16, subpic_height = 16; Display *display; XvPortID port_num; int surface_type_id; unsigned int is_overlay, intra_unsigned; int colorkey; XvMCContext context; XvImageFormatValues *subpics; int num_subpics; XvMCSubpicture subpicture = {0}; int i; display = XOpenDisplay(NULL); if (!GetPort ( display, width, height, XVMC_CHROMA_FORMAT_420, mc_types, 2, &port_num, &surface_type_id, &is_overlay, &intra_unsigned )) { XCloseDisplay(display); fprintf(stderr, "Error, unable to find a good port.\n"); exit(1); } if (is_overlay) { Atom xv_colorkey = XInternAtom(display, "XV_COLORKEY", 0); XvGetPortAttribute(display, port_num, xv_colorkey, &colorkey); } assert(XvMCCreateContext(display, port_num, surface_type_id, width, height, XVMC_DIRECT, &context) == Success); subpics = XvMCListSubpictureTypes(display, port_num, surface_type_id, &num_subpics); assert((subpics && num_subpics) > 0 || (!subpics && num_subpics == 0)); for (i = 0; i < num_subpics; ++i) { printf("Subpicture %d:\n", i); printf("\tid: 0x%08x\n", subpics[i].id); printf("\ttype: %s\n", subpics[i].type == XvRGB ? "XvRGB" : (subpics[i].type == XvYUV ? "XvYUV" : "Unknown")); printf("\tbyte_order: %s\n", subpics[i].byte_order == LSBFirst ? "LSB First" : (subpics[i].byte_order == MSBFirst ? "MSB First" : "Unknown")); PrintGUID(subpics[i].guid); printf("\tbpp: %u\n", subpics[i].bits_per_pixel); printf("\tformat: %s\n", subpics[i].format == XvPacked ? "XvPacked" : (subpics[i].format == XvPlanar ? "XvPlanar" : "Unknown")); printf("\tnum_planes: %u\n", subpics[i].num_planes); if (subpics[i].type == XvRGB) { printf("\tdepth: %u\n", subpics[i].depth); printf("\tred_mask: 0x%08x\n", subpics[i].red_mask); printf("\tgreen_mask: 0x%08x\n", subpics[i].green_mask); printf("\tblue_mask: 0x%08x\n", subpics[i].blue_mask); } else if (subpics[i].type == XvYUV) { printf("\ty_sample_bits: %u\n", subpics[i].y_sample_bits); printf("\tu_sample_bits: %u\n", subpics[i].u_sample_bits); printf("\tv_sample_bits: %u\n", subpics[i].v_sample_bits); printf("\thorz_y_period: %u\n", subpics[i].horz_y_period); printf("\thorz_u_period: %u\n", subpics[i].horz_u_period); printf("\thorz_v_period: %u\n", subpics[i].horz_v_period); printf("\tvert_y_period: %u\n", subpics[i].vert_y_period); printf("\tvert_u_period: %u\n", subpics[i].vert_u_period); printf("\tvert_v_period: %u\n", subpics[i].vert_v_period); } PrintComponentOrder(subpics[i].component_order); printf("\tscanline_order: %s\n", subpics[i].scanline_order == XvTopToBottom ? "XvTopToBottom" : (subpics[i].scanline_order == XvBottomToTop ? "XvBottomToTop" : "Unknown")); } if (num_subpics == 0) { printf("Subpictures not supported, nothing to test.\n"); return 0; } /* Test NULL context */ assert(XvMCCreateSubpicture(display, NULL, &subpicture, subpic_width, subpic_height, subpics[0].id) == XvMCBadContext); /* Test NULL subpicture */ assert(XvMCCreateSubpicture(display, &context, NULL, subpic_width, subpic_height, subpics[0].id) == XvMCBadSubpicture); /* Test invalid subpicture */ assert(XvMCCreateSubpicture(display, &context, &subpicture, subpic_width, subpic_height, -1) == BadMatch); /* Test huge width */ assert(XvMCCreateSubpicture(display, &context, &subpicture, 16384, subpic_height, subpics[0].id) == BadValue); /* Test huge height */ assert(XvMCCreateSubpicture(display, &context, &subpicture, subpic_width, 16384, subpics[0].id) == BadValue); /* Test huge width & height */ assert(XvMCCreateSubpicture(display, &context, &subpicture, 16384, 16384, subpics[0].id) == BadValue); for (i = 0; i < num_subpics; ++i) { /* Test valid params */ assert(XvMCCreateSubpicture(display, &context, &subpicture, subpic_width, subpic_height, subpics[i].id) == Success); /* Test subpicture id assigned */ assert(subpicture.subpicture_id != 0); /* Test context id assigned and correct */ assert(subpicture.context_id == context.context_id); /* Test subpicture type id assigned and correct */ assert(subpicture.xvimage_id == subpics[i].id); /* Test width & height assigned and correct */ assert(subpicture.width == width && subpicture.height == height); if (subpics[i].type == XvRGB) /* Test no palette support */ assert(subpicture.num_palette_entries == 0 && subpicture.entry_bytes == 0); else /* Test palette support */ assert(subpicture.num_palette_entries == 16 && subpicture.entry_bytes == 4); /* Test valid params */ assert(XvMCDestroySubpicture(display, &subpicture) == Success); } /* Test NULL surface */ assert(XvMCDestroySubpicture(display, NULL) == XvMCBadSubpicture); assert(XvMCDestroyContext(display, &context) == Success); free(subpics); XvUngrabPort(display, port_num, CurrentTime); XCloseDisplay(display); return 0; }