int kr_mixer_info_fr_ebml(kr_ebml *ebml, void *st) { int res; struct kr_mixer_info *actual; res = 0; if ((ebml == NULL) || (st == NULL)) { return -1; } actual = (struct kr_mixer_info *)st; res += kr_ebml2_unpack_element_uint32(ebml, NULL, &actual->period_size); res += kr_ebml2_unpack_element_uint32(ebml, NULL, &actual->sample_rate); res += kr_ebml2_unpack_element_uint32(ebml, NULL, &actual->inputs); res += kr_ebml2_unpack_element_uint32(ebml, NULL, &actual->buses); res += kr_ebml2_unpack_element_uint32(ebml, NULL, &actual->outputs); res += kr_ebml2_unpack_element_uint64(ebml, NULL, &actual->frames); res += kr_ebml2_unpack_element_uint64(ebml, NULL, &actual->timecode); res += kr_ebml2_unpack_element_string(ebml, NULL, actual->clock , sizeof(actual->clock)); return res; }
static void kr_ebml_to_compositor_rep (kr_ebml2_t *ebml, kr_compositor_t *kr_compositor_rep) { kr_ebml2_unpack_element_uint32 (ebml, NULL, &kr_compositor_rep->width); kr_ebml2_unpack_element_uint32 (ebml, NULL, &kr_compositor_rep->height); kr_ebml2_unpack_element_uint32 (ebml, NULL, &kr_compositor_rep->fps_numerator); kr_ebml2_unpack_element_uint32 (ebml, NULL, &kr_compositor_rep->fps_denominator); kr_ebml2_unpack_element_uint32 (ebml, NULL, &kr_compositor_rep->sprites); kr_ebml2_unpack_element_uint32 (ebml, NULL, &kr_compositor_rep->texts); kr_ebml2_unpack_element_uint32 (ebml, NULL, &kr_compositor_rep->vectors); kr_ebml2_unpack_element_uint32 (ebml, NULL, &kr_compositor_rep->inputs); kr_ebml2_unpack_element_uint32 (ebml, NULL, &kr_compositor_rep->outputs); kr_ebml2_unpack_element_uint64 (ebml, NULL, &kr_compositor_rep->frames); kr_ebml2_unpack_element_string (ebml, NULL, kr_compositor_rep->background_filename, sizeof(kr_compositor_rep->background_filename)); }