void info_xml_creator::output_one_device(device_t &device, const char *devtag)
{
bool has_speaker = FALSE, has_input = FALSE;
// check if the device adds speakers to the system
sound_interface_iterator snditer(device);
if (snditer.first() != NULL)
has_speaker = TRUE;
// generate input list
ioport_list portlist;
std::string errors;
device_iterator iptiter(device);
for (device_t *dev = iptiter.first(); dev != NULL; dev = iptiter.next())
portlist.append(*dev, errors);
// check if the device adds player inputs (other than dsw and configs) to the system
for (ioport_port *port = portlist.first(); port != NULL; port = port->next())
for (ioport_field *field = port->first_field(); field != NULL; field = field->next())
if (field->type() >= IPT_START1 && field->type() < IPT_UI_FIRST)
{
has_input = TRUE;
break;
}
// start to output info
fprintf(m_output, "\t<%s", emulator_info::get_xml_top());
fprintf(m_output, " name=\"%s\"", xml_normalize_string(device.shortname()));
std::string src(device.source());
strreplace(src,"../", "");
fprintf(m_output, " sourcefile=\"%s\"", xml_normalize_string(src.c_str()));
fprintf(m_output, " isdevice=\"yes\"");
fprintf(m_output, " runnable=\"no\"");
output_sampleof();
fprintf(m_output, ">\n");
fprintf(m_output, "\t\t<description>%s</description>\n", xml_normalize_string(device.name()));
output_rom(device);
samples_device *samples = dynamic_cast<samples_device*>(&device);
if (samples==NULL) output_sample(device); // ignore samples_device itself
output_chips(device, devtag);
output_display(device, devtag);
if (has_speaker)
output_sound(device);
if (has_input)
output_input(portlist);
output_switches(portlist, devtag, IPT_DIPSWITCH, "dipswitch", "dipvalue");
output_switches(portlist, devtag, IPT_CONFIG, "configuration", "confsetting");
output_adjusters(portlist);
output_images(device, devtag);
output_slots(device, devtag);
fprintf(m_output, "\t</%s>\n", emulator_info::get_xml_top());
}
void ui_menu_device_config::populate()
{
astring string;
device_t *dev;
string.printf("[This option is%s currently mounted in the running system]\n\n", m_mounted ? "" : " NOT");
string.catprintf("Option: %s\n", m_option->name());
dev = const_cast<machine_config &>(machine().config()).device_add(&machine().config().root_device(), m_option->name(), m_option->devtype(), 0);
string.catprintf("Device: %s\n", dev->name());
if (!m_mounted)
string.cat("\nIf you select this option, the following items will be enabled:\n");
else
string.cat("\nThe selected option enables the following items:\n");
// loop over all CPUs
execute_interface_iterator execiter(*dev);
if (execiter.count() > 0)
{
string.cat("* CPU:\n");
tagmap_t<UINT8> exectags;
for (device_execute_interface *exec = execiter.first(); exec != NULL; exec = execiter.next())
{
if (exectags.add(exec->device().tag(), 1, FALSE) == TMERR_DUPLICATE)
continue;
// get cpu specific clock that takes internal multiplier/dividers into account
int clock = exec->device().clock();
// count how many identical CPUs we have
int count = 1;
const char *name = exec->device().name();
execute_interface_iterator execinneriter(*dev);
for (device_execute_interface *scan = execinneriter.first(); scan != NULL; scan = execinneriter.next())
{
if (exec->device().type() == scan->device().type() && strcmp(name, scan->device().name()) == 0 && exec->device().clock() == scan->device().clock())
if (exectags.add(scan->device().tag(), 1, FALSE) != TMERR_DUPLICATE)
count++;
}
// if more than one, prepend a #x in front of the CPU name
if (count > 1)
string.catprintf(" %d" UTF8_MULTIPLY, count);
else
string.cat(" ");
string.cat(name);
// display clock in kHz or MHz
if (clock >= 1000000)
string.catprintf(" %d.%06d" UTF8_NBSP "MHz\n", clock / 1000000, clock % 1000000);
else
string.catprintf(" %d.%03d" UTF8_NBSP "kHz\n", clock / 1000, clock % 1000);
}
}
// display screen information
screen_device_iterator scriter(*dev);
if (scriter.count() > 0)
{
string.cat("* Video:\n");
for (screen_device *screen = scriter.first(); screen != NULL; screen = scriter.next())
{
string.catprintf(" Screen '%s': ", screen->tag());
if (screen->screen_type() == SCREEN_TYPE_VECTOR)
string.cat("Vector\n");
else
{
const rectangle &visarea = screen->visible_area();
string.catprintf("%d " UTF8_MULTIPLY " %d (%s) %f" UTF8_NBSP "Hz\n",
visarea.width(), visarea.height(),
(machine().system().flags & ORIENTATION_SWAP_XY) ? "V" : "H",
ATTOSECONDS_TO_HZ(screen->frame_period().attoseconds));
}
}
}
// loop over all sound chips
sound_interface_iterator snditer(*dev);
if (snditer.count() > 0)
{
string.cat("* Sound:\n");
tagmap_t<UINT8> soundtags;
for (device_sound_interface *sound = snditer.first(); sound != NULL; sound = snditer.next())
{
if (soundtags.add(sound->device().tag(), 1, FALSE) == TMERR_DUPLICATE)
continue;
// count how many identical sound chips we have
int count = 1;
sound_interface_iterator sndinneriter(*dev);
for (device_sound_interface *scan = sndinneriter.first(); scan != NULL; scan = sndinneriter.next())
{
if (sound->device().type() == scan->device().type() && sound->device().clock() == scan->device().clock())
if (soundtags.add(scan->device().tag(), 1, FALSE) != TMERR_DUPLICATE)
count++;
}
// if more than one, prepend a #x in front of the CPU name
if (count > 1)
string.catprintf(" %d" UTF8_MULTIPLY, count);
else
string.cat(" ");
string.cat(sound->device().name());
// display clock in kHz or MHz
int clock = sound->device().clock();
if (clock >= 1000000)
string.catprintf(" %d.%06d" UTF8_NBSP "MHz\n", clock / 1000000, clock % 1000000);
else if (clock != 0)
string.catprintf(" %d.%03d" UTF8_NBSP "kHz\n", clock / 1000, clock % 1000);
else
string.cat("\n");
}
}
// scan for BIOS settings
int bios = 0;
if (dev->rom_region())
{
astring bios_str;
// first loop through roms in search of default bios (shortname)
for (const rom_entry *rom = dev->rom_region(); !ROMENTRY_ISEND(rom); rom++)
if (ROMENTRY_ISDEFAULT_BIOS(rom))
bios_str.cpy(ROM_GETNAME(rom));
// then loop again to count bios options and to get the default bios complete name
for (const rom_entry *rom = dev->rom_region(); !ROMENTRY_ISEND(rom); rom++)
{
if (ROMENTRY_ISSYSTEM_BIOS(rom))
{
bios++;
if (bios_str == ROM_GETNAME(rom))
bios_str.cpy(ROM_GETHASHDATA(rom));
}
}
if (bios)
string.catprintf("* BIOS settings:\n %d options [default: %s]\n", bios, bios_str.cstr());
}
int input = 0, input_mj = 0, input_hana = 0, input_gamble = 0, input_analog = 0, input_adjust = 0;
int input_keypad = 0, input_keyboard = 0, dips = 0, confs = 0;
astring errors, dips_opt, confs_opt;
ioport_list portlist;
device_iterator iptiter(*dev);
for (device_t *iptdev = iptiter.first(); iptdev != NULL; iptdev = iptiter.next())
portlist.append(*iptdev, errors);
// check if the device adds inputs to the system
for (ioport_port *port = portlist.first(); port != NULL; port = port->next())
for (ioport_field *field = port->first_field(); field != NULL; field = field->next())
{
if (field->type() >= IPT_MAHJONG_FIRST && field->type() < IPT_MAHJONG_LAST)
input_mj++;
else if (field->type() >= IPT_HANAFUDA_FIRST && field->type() < IPT_HANAFUDA_LAST)
input_hana++;
else if (field->type() >= IPT_GAMBLING_FIRST && field->type() < IPT_GAMBLING_LAST)
input_gamble++;
else if (field->type() >= IPT_ANALOG_FIRST && field->type() < IPT_ANALOG_LAST)
input_analog++;
else if (field->type() == IPT_ADJUSTER)
input_adjust++;
else if (field->type() == IPT_KEYPAD)
input_keypad++;
else if (field->type() == IPT_KEYBOARD)
input_keyboard++;
else if (field->type() >= IPT_START1 && field->type() < IPT_UI_FIRST)
input++;
else if (field->type() == IPT_DIPSWITCH)
{
dips++;
dips_opt.cat(" ").cat(field->name());
for (ioport_setting *setting = field->first_setting(); setting != NULL; setting = setting->next())
{
if (setting->value() == field->defvalue())
{
dips_opt.catprintf(" [default: %s]\n", setting->name());
break;
}
}
}
else if (field->type() == IPT_CONFIG)
{
confs++;
confs_opt.cat(" ").cat(field->name());
for (ioport_setting *setting = field->first_setting(); setting != NULL; setting = setting->next())
{
if (setting->value() == field->defvalue())
{
confs_opt.catprintf(" [default: %s]\n", setting->name());
break;
}
}
}
}
if (dips)
string.cat("* Dispwitch settings:\n").cat(dips_opt);
if (confs)
string.cat("* Configuration settings:\n").cat(confs_opt);
if (input + input_mj + input_hana + input_gamble + input_analog + input_adjust + input_keypad + input_keyboard)
string.cat("* Input device(s):\n");
if (input)
string.catprintf(" User inputs [%d inputs]\n", input);
if (input_mj)
string.catprintf(" Mahjong inputs [%d inputs]\n", input_mj);
if (input_hana)
string.catprintf(" Hanafuda inputs [%d inputs]\n", input_hana);
if (input_gamble)
string.catprintf(" Gambling inputs [%d inputs]\n", input_gamble);
if (input_analog)
string.catprintf(" Analog inputs [%d inputs]\n", input_analog);
if (input_adjust)
string.catprintf(" Adjuster inputs [%d inputs]\n", input_adjust);
if (input_keypad)
string.catprintf(" Keypad inputs [%d inputs]\n", input_keypad);
if (input_keyboard)
string.catprintf(" Keyboard inputs [%d inputs]\n", input_keyboard);
image_interface_iterator imgiter(*dev);
if (imgiter.count() > 0)
{
string.cat("* Media Options:\n");
for (const device_image_interface *imagedev = imgiter.first(); imagedev != NULL; imagedev = imgiter.next())
string.catprintf(" %s [tag: %s]\n", imagedev->image_type_name(), imagedev->device().tag());
}
slot_interface_iterator slotiter(*dev);
if (slotiter.count() > 0)
{
string.cat("* Slot Options:\n");
for (const device_slot_interface *slot = slotiter.first(); slot != NULL; slot = slotiter.next())
string.catprintf(" %s [default: %s]\n", slot->device().tag(), slot->default_option() ? slot->default_option() : "----");
}
if ((execiter.count() + scriter.count() + snditer.count() + imgiter.count() + slotiter.count() + bios + dips + confs
+ input + input_mj + input_hana + input_gamble + input_analog + input_adjust + input_keypad + input_keyboard) == 0)
string.cat("[None]\n");
const_cast<machine_config &>(machine().config()).device_remove(&machine().config().root_device(), m_option->name());
item_append(string, NULL, MENU_FLAG_MULTILINE, NULL);
}
