bsnes/higan/ws/interface/wonderswan.cpp

157 lines
4.0 KiB
C++

WonderSwanInterface::WonderSwanInterface() {
information.manufacturer = "Bandai";
information.name = "WonderSwan";
information.overscan = false;
information.capability.states = true;
information.capability.cheats = true;
media.append({ID::WonderSwan, "WonderSwan", "ws"});
Port hardwareHorizontalPort{ID::Port::HardwareHorizontal, "Hardware - Horizontal"};
Port hardwareVerticalPort{ID::Port::HardwareVertical, "Hardware - Vertical"};
{ Device device{ID::Device::Controls, "Controls"};
device.inputs.append({0, "Y1"});
device.inputs.append({0, "Y2"});
device.inputs.append({0, "Y3"});
device.inputs.append({0, "Y4"});
device.inputs.append({0, "X1"});
device.inputs.append({0, "X2"});
device.inputs.append({0, "X3"});
device.inputs.append({0, "X4"});
device.inputs.append({0, "B"});
device.inputs.append({0, "A"});
device.inputs.append({0, "Start"});
device.inputs.append({0, "Rotate"});
hardwareHorizontalPort.devices.append(device);
hardwareVerticalPort.devices.append(device);
}
ports.append(move(hardwareHorizontalPort));
ports.append(move(hardwareVerticalPort));
}
auto WonderSwanInterface::manifest() -> string {
return cartridge.information.manifest;
}
auto WonderSwanInterface::title() -> string {
return cartridge.information.title;
}
auto WonderSwanInterface::videoSize() -> VideoSize {
return {224, 224};
}
auto WonderSwanInterface::videoSize(uint width, uint height, bool arc) -> VideoSize {
uint w = 224;
uint h = 224;
uint m = min(width / w, height / h);
return {w * m, h * m};
}
auto WonderSwanInterface::videoFrequency() -> double {
return 3072000.0 / (159.0 * 256.0); //~75.47hz
}
auto WonderSwanInterface::videoColors() -> uint32 {
return 1 << 12;
}
auto WonderSwanInterface::videoColor(uint32 color) -> uint64 {
uint b = color.bits(0, 3);
uint g = color.bits(4, 7);
uint r = color.bits(8,11);
uint64_t R = image::normalize(r, 4, 16);
uint64_t G = image::normalize(g, 4, 16);
uint64_t B = image::normalize(b, 4, 16);
if(settings.colorEmulation) {
R = (r * 26 + g * 4 + b * 2);
G = ( g * 24 + b * 8);
B = (r * 6 + g * 4 + b * 22);
R = image::normalize(min(480, R), 9, 16);
G = image::normalize(min(480, G), 9, 16);
B = image::normalize(min(480, B), 9, 16);
}
return R << 32 | G << 16 | B << 0;
}
auto WonderSwanInterface::audioFrequency() -> double {
return 3072000.0;
}
auto WonderSwanInterface::loaded() -> bool {
return system.loaded();
}
auto WonderSwanInterface::sha256() -> string {
return cartridge.information.sha256;
}
auto WonderSwanInterface::load(uint id) -> bool {
if(id == ID::WonderSwan) return system.load(this, Model::WonderSwan);
return false;
}
auto WonderSwanInterface::save() -> void {
system.save();
}
auto WonderSwanInterface::unload() -> void {
save();
system.unload();
}
auto WonderSwanInterface::power() -> void {
system.power();
}
auto WonderSwanInterface::run() -> void {
system.run();
}
auto WonderSwanInterface::serialize() -> serializer {
system.runToSave();
return system.serialize();
}
auto WonderSwanInterface::unserialize(serializer& s) -> bool {
return system.unserialize(s);
}
auto WonderSwanInterface::cheatSet(const string_vector& list) -> void {
cheat.assign(list);
}
auto WonderSwanInterface::cap(const string& name) -> bool {
if(name == "Blur Emulation") return true;
if(name == "Color Emulation") return true;
return false;
}
auto WonderSwanInterface::get(const string& name) -> any {
if(name == "Blur Emulation") return settings.blurEmulation;
if(name == "Color Emulation") return settings.colorEmulation;
return {};
}
auto WonderSwanInterface::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;
}