void xml_help_for_event(struct op_event const * event) { uint i; int nr_counters; int has_nested = strcmp(event->unit->name, "zero"); char buffer[MAX_BUFFER]; buffer[0] = '\0'; open_xml_element(HELP_EVENT, 1, buffer); init_xml_str_attr(HELP_EVENT_NAME, event->name, buffer); xml_do_arch_specific_event_help(event, buffer); init_xml_str_attr(HELP_EVENT_DESC, event->desc, buffer); nr_counters = op_get_nr_counters(cpu_type); init_xml_int_attr(HELP_COUNTER_MASK, event->counter_mask, buffer); init_xml_int_attr(HELP_MIN_COUNT, event->min_count, buffer); if (has_nested) { close_xml_element(NONE, 1, buffer); open_xml_element(HELP_UNIT_MASKS, 1, buffer); init_xml_int_attr(HELP_DEFAULT_MASK, event->unit->default_mask, buffer); close_xml_element(NONE, 1, buffer); for (i = 0; i < event->unit->num; i++) { open_xml_element(HELP_UNIT_MASK, 1, buffer); init_xml_int_attr(HELP_UNIT_MASK_VALUE, event->unit->um[i].value, buffer); init_xml_str_attr(HELP_UNIT_MASK_DESC, event->unit->um[i].desc, buffer); close_xml_element(NONE, 0, buffer); } close_xml_element(HELP_UNIT_MASKS, 0, buffer); } close_xml_element(has_nested ? HELP_EVENT : NONE, has_nested, buffer); printf("%s", buffer); }
void xml_help_for_event(struct op_event const * event) { uint i; int has_nested = strcmp(event->unit->name, "zero"); buffer[0] = '\0'; open_xml_element(HELP_EVENT, 1, buffer, MAX_BUFFER); init_xml_str_attr(HELP_EVENT_NAME, event->name, buffer, MAX_BUFFER); xml_do_arch_specific_event_help(event, buffer, MAX_BUFFER); init_xml_str_attr(HELP_EVENT_DESC, event->desc, buffer, MAX_BUFFER); init_xml_int_attr(HELP_COUNTER_MASK, event->counter_mask, buffer, MAX_BUFFER); if (event->ext) init_xml_str_attr(HELP_EXT, event->ext, buffer, MAX_BUFFER); init_xml_int_attr(HELP_MIN_COUNT, event->min_count, buffer, MAX_BUFFER); if (has_nested) { char um_type[10]; close_xml_element(NONE, 1, buffer, MAX_BUFFER); open_xml_element(HELP_UNIT_MASKS, 1, buffer, MAX_BUFFER); init_xml_int_attr(HELP_DEFAULT_MASK, event->unit->default_mask, buffer, MAX_BUFFER); switch (event->unit->unit_type_mask){ case utm_bitmask: strncpy(um_type, "bitmask", sizeof(um_type)); break; case utm_exclusive: strncpy(um_type, "exclusive", sizeof(um_type)); break; case utm_mandatory: strncpy(um_type, "mandatory", sizeof(um_type)); break; } init_xml_str_attr(HELP_UNIT_MASKS_CATEGORY, um_type, buffer, MAX_BUFFER); close_xml_element(NONE, 1, buffer, MAX_BUFFER); for (i = 0; i < event->unit->num; i++) { open_xml_element(HELP_UNIT_MASK, 1, buffer, MAX_BUFFER); init_xml_int_attr(HELP_UNIT_MASK_VALUE, event->unit->um[i].value, buffer, MAX_BUFFER); init_xml_str_attr(HELP_UNIT_MASK_DESC, event->unit->um[i].desc, buffer, MAX_BUFFER); if (event->unit->um[i].extra) init_xml_int_attr(HELP_UNIT_EXTRA_VALUE, event->unit->um[i].extra, buffer, MAX_BUFFER); close_xml_element(NONE, 0, buffer, MAX_BUFFER); } close_xml_element(HELP_UNIT_MASKS, 0, buffer, MAX_BUFFER); } close_xml_element(has_nested ? HELP_EVENT : NONE, has_nested, buffer, MAX_BUFFER); printf("%s", buffer); }
static void xml_do_arch_specific_event_help(struct op_event const * event, char * buffer) { switch (cpu_type) { case CPU_PPC64_CELL: init_xml_int_attr(HELP_EVENT_GROUP, event->val / 100, buffer); break; default: break; } }