bsnes/higan/ws/interface/interface.cpp

233 lines
6.3 KiB
C++

#include <ws/ws.hpp>
namespace WonderSwan {
Interface* interface = nullptr;
Settings settings;
Interface::Interface() {
interface = this;
information.manufacturer = "Bandai";
information.name = "WonderSwan";
information.width = 224; //note: technically 224x144; but screen can be rotated
information.height = 144; //by using a square size; this can be done in the core
information.overscan = false;
information.aspectRatio = 1.0;
information.resettable = false;
information.capability.states = true;
information.capability.cheats = true;
media.append({ID::WonderSwan, "WonderSwan", "ws", true});
media.append({ID::WonderSwanColor, "WonderSwan Color", "wsc", true});
{ Device device{0, ID::DeviceHorizontal, "Controller"};
device.input.append({ 0, 0, "Y1"});
device.input.append({ 1, 0, "Y2"});
device.input.append({ 2, 0, "Y3"});
device.input.append({ 3, 0, "Y4"});
device.input.append({ 4, 0, "X1"});
device.input.append({ 5, 0, "X2"});
device.input.append({ 6, 0, "X3"});
device.input.append({ 7, 0, "X4"});
device.input.append({ 8, 0, "B"});
device.input.append({ 9, 0, "A"});
device.input.append({10, 0, "Start"});
device.input.append({11, 0, "Rotate"});
device.order = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11};
this->device.append(device);
}
{ Device device{1, ID::DeviceVertical, "Controller"};
device.input.append({ 0, 0, "Y1"});
device.input.append({ 1, 0, "Y2"});
device.input.append({ 2, 0, "Y3"});
device.input.append({ 3, 0, "Y4"});
device.input.append({ 4, 0, "X1"});
device.input.append({ 5, 0, "X2"});
device.input.append({ 6, 0, "X3"});
device.input.append({ 7, 0, "X4"});
device.input.append({ 8, 0, "B"});
device.input.append({ 9, 0, "A"});
device.input.append({10, 0, "Start"});
device.input.append({11, 0, "Rotate"});
device.order = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11};
this->device.append(device);
}
port.append({0, "Horizontal Orientation", {device[0]}});
port.append({1, "Vertical Orientation", {device[1]}});
}
auto Interface::manifest() -> string {
return cartridge.information.manifest;
}
auto Interface::title() -> string {
return cartridge.information.title;
}
auto Interface::videoFrequency() -> double {
return 3072000.0 / (159.0 * 256.0); //~75.47hz
}
auto Interface::audioFrequency() -> double {
return 3072000.0;
}
auto Interface::loaded() -> bool {
return system.loaded();
}
auto Interface::sha256() -> string {
return cartridge.information.sha256;
}
auto Interface::group(uint id) -> uint {
switch(id) {
case ID::SystemManifest:
case ID::SystemIPLROM:
case ID::SystemEEPROM:
return 0;
case ID::Manifest:
case ID::ROM:
case ID::RAM:
case ID::EEPROM:
case ID::RTC:
switch(system.model()) {
case Model::WonderSwan:
return ID::WonderSwan;
case Model::WonderSwanColor:
case Model::SwanCrystal:
return ID::WonderSwanColor;
}
}
throw;
}
auto Interface::load(uint id) -> void {
if(id == ID::WonderSwan) system.load(Model::WonderSwan);
if(id == ID::WonderSwanColor) system.load(Model::WonderSwanColor);
}
auto Interface::save() -> void {
if(auto name = system.eeprom.name()) interface->saveRequest(ID::SystemEEPROM, name);
if(auto name = cartridge.ram.name) interface->saveRequest(ID::RAM, name);
if(auto name = cartridge.eeprom.name()) interface->saveRequest(ID::EEPROM, name);
if(auto name = cartridge.rtc.name) interface->saveRequest(ID::RTC, name);
}
auto Interface::load(uint id, const stream& stream) -> void {
if(id == ID::SystemManifest) {
system.information.manifest = stream.text();
}
if(id == ID::SystemEEPROM) {
stream.read((uint8_t*)system.eeprom.data(), min(system.eeprom.size() * sizeof(uint16), stream.size()));
}
if(id == ID::Manifest) {
cartridge.information.manifest = stream.text();
}
if(id == ID::ROM) {
stream.read((uint8_t*)cartridge.rom.data, min(cartridge.rom.size, stream.size()));
}
if(id == ID::RAM) {
stream.read((uint8_t*)cartridge.ram.data, min(cartridge.ram.size, stream.size()));
}
if(id == ID::EEPROM) {
stream.read((uint8_t*)cartridge.eeprom.data(), min(cartridge.eeprom.size() * sizeof(uint16), stream.size()));
}
if(id == ID::RTC) {
stream.read((uint8_t*)cartridge.rtc.data, min(cartridge.rtc.size, stream.size()));
cartridge.rtcLoad();
}
}
auto Interface::save(uint id, const stream& stream) -> void {
if(id == ID::SystemEEPROM) {
stream.write((uint8_t*)system.eeprom.data(), system.eeprom.size() * sizeof(uint16));
}
if(id == ID::RAM) {
stream.write((uint8_t*)cartridge.ram.data, cartridge.ram.size);
}
if(id == ID::EEPROM) {
stream.write((uint8_t*)cartridge.eeprom.data(), cartridge.eeprom.size() * sizeof(uint16));
}
if(id == ID::RTC) {
cartridge.rtcSave();
stream.write((uint8_t*)cartridge.rtc.data, cartridge.rtc.size);
}
}
auto Interface::unload() -> void {
save();
}
auto Interface::power() -> void {
system.power();
}
auto Interface::run() -> void {
system.run();
}
auto Interface::serialize() -> serializer {
system.runToSave();
return system.serialize();
}
auto Interface::unserialize(serializer& s) -> bool {
return system.unserialize(s);
}
auto Interface::cheatSet(const lstring& list) -> void {
cheat.reset();
for(auto& codeset : list) {
lstring codes = codeset.split("+");
for(auto& code : codes) {
lstring part = code.split("/");
if(part.size() == 2) cheat.append(hex(part[0]), hex(part[1]));
if(part.size() == 3) cheat.append(hex(part[0]), hex(part[1]), hex(part[2]));
}
}
}
auto Interface::cap(const string& name) -> bool {
if(name == "Blur Emulation") return true;
if(name == "Color Emulation") return true;
return false;
}
auto Interface::get(const string& name) -> any {
if(name == "Blur Emulation") return settings.blurEmulation;
if(name == "Color Emulation") return settings.colorEmulation;
return {};
}
auto Interface::set(const string& name, const any& value) -> bool {
if(name == "Blur Emulation" && value.is<bool>()) {
settings.blurEmulation = value.get<bool>();
system.configureVideoEffects();
return true;
}
if(name == "Color Emulation" && value.is<bool>()) {
settings.colorEmulation = value.get<bool>();
system.configureVideoPalette();
return true;
}
return false;
}
}