bsnes/higan/sfc/interface/interface.cpp

261 lines
7.9 KiB
C++

#include <sfc/sfc.hpp>
namespace SuperFamicom {
Settings settings;
Interface::Interface() {
system.init();
information.manufacturer = "Nintendo";
information.name = "Super Famicom";
information.overscan = true;
media.append({ID::SuperFamicom, "Super Famicom", "sfc"});
Port controllerPort1{ID::Port::Controller1, "Controller Port 1"};
Port controllerPort2{ID::Port::Controller2, "Controller Port 2"};
Port expansionPort{ID::Port::Expansion, "Expansion Port"};
{ Device device{ID::Device::None, "None"};
controllerPort1.devices.append(device);
controllerPort2.devices.append(device);
expansionPort.devices.append(device);
}
{ Device device{ID::Device::Gamepad, "Gamepad"};
device.inputs.append({0, "Up" });
device.inputs.append({0, "Down" });
device.inputs.append({0, "Left" });
device.inputs.append({0, "Right" });
device.inputs.append({0, "B" });
device.inputs.append({0, "A" });
device.inputs.append({0, "Y" });
device.inputs.append({0, "X" });
device.inputs.append({0, "L" });
device.inputs.append({0, "R" });
device.inputs.append({0, "Select"});
device.inputs.append({0, "Start" });
controllerPort1.devices.append(device);
controllerPort2.devices.append(device);
}
{ Device device{ID::Device::Mouse, "Mouse"};
device.inputs.append({1, "X-axis"});
device.inputs.append({1, "Y-axis"});
device.inputs.append({0, "Left" });
device.inputs.append({0, "Right" });
controllerPort1.devices.append(device);
controllerPort2.devices.append(device);
}
{ Device device{ID::Device::SuperMultitap, "Super Multitap"};
for(uint p = 2; p <= 5; p++) {
device.inputs.append({0, {"Port ", p, " - ", "Up" }});
device.inputs.append({0, {"Port ", p, " - ", "Down" }});
device.inputs.append({0, {"Port ", p, " - ", "Left" }});
device.inputs.append({0, {"Port ", p, " - ", "Right" }});
device.inputs.append({0, {"Port ", p, " - ", "B" }});
device.inputs.append({0, {"Port ", p, " - ", "A" }});
device.inputs.append({0, {"Port ", p, " - ", "Y" }});
device.inputs.append({0, {"Port ", p, " - ", "X" }});
device.inputs.append({0, {"Port ", p, " - ", "L" }});
device.inputs.append({0, {"Port ", p, " - ", "R" }});
device.inputs.append({0, {"Port ", p, " - ", "Select"}});
device.inputs.append({0, {"Port ", p, " - ", "Start" }});
}
controllerPort2.devices.append(device);
}
{ Device device{ID::Device::SuperScope, "Super Scope"};
device.inputs.append({1, "X-axis" });
device.inputs.append({1, "Y-axis" });
device.inputs.append({0, "Trigger"});
device.inputs.append({0, "Cursor" });
device.inputs.append({0, "Turbo" });
device.inputs.append({0, "Pause" });
controllerPort2.devices.append(device);
}
{ Device device{ID::Device::Justifier, "Justifier"};
device.inputs.append({1, "X-axis" });
device.inputs.append({1, "Y-axis" });
device.inputs.append({0, "Trigger"});
device.inputs.append({0, "Start" });
controllerPort2.devices.append(device);
}
{ Device device{ID::Device::Justifiers, "Justifiers"};
device.inputs.append({1, "Port 1 - X-axis" });
device.inputs.append({1, "Port 1 - Y-axis" });
device.inputs.append({0, "Port 1 - Trigger"});
device.inputs.append({0, "Port 1 - Start" });
device.inputs.append({1, "Port 2 - X-axis" });
device.inputs.append({1, "Port 2 - Y-axis" });
device.inputs.append({0, "Port 2 - Trigger"});
device.inputs.append({0, "Port 2 - Start" });
controllerPort2.devices.append(device);
}
{ Device device{ID::Device::Satellaview, "Satellaview"};
expansionPort.devices.append(device);
}
{ Device device{ID::Device::S21FX, "21fx"};
expansionPort.devices.append(device);
}
ports.append(move(controllerPort1));
ports.append(move(controllerPort2));
ports.append(move(expansionPort));
}
auto Interface::manifest() -> string {
return cartridge.manifest();
}
auto Interface::title() -> string {
return cartridge.title();
}
auto Interface::videoResolution() -> VideoSize {
return {512, 480};
}
auto Interface::videoSize(uint width, uint height, bool arc) -> VideoSize {
uint w = 256 * (arc ? 8.0 / 7.0 : 1.0);
uint h = 240;
uint m = min(width / w, height / h);
return {w * m, h * m};
}
auto Interface::videoColors() -> uint32 {
return 1 << 19;
}
auto Interface::videoColor(uint32 color) -> uint64 {
uint r = color.bits( 0, 4);
uint g = color.bits( 5, 9);
uint b = color.bits(10,14);
uint l = color.bits(15,18);
//luma=0 is not 100% black; but it's much darker than normal linear scaling
//exact effect seems to be analog; requires > 24-bit color depth to represent accurately
double L = (1.0 + l) / 16.0 * (l ? 1.0 : 0.25);
uint64 R = L * image::normalize(r, 5, 16);
uint64 G = L * image::normalize(g, 5, 16);
uint64 B = L * image::normalize(b, 5, 16);
if(settings.colorEmulation) {
static const uint8 gammaRamp[32] = {
0x00, 0x01, 0x03, 0x06, 0x0a, 0x0f, 0x15, 0x1c,
0x24, 0x2d, 0x37, 0x42, 0x4e, 0x5b, 0x69, 0x78,
0x88, 0x90, 0x98, 0xa0, 0xa8, 0xb0, 0xb8, 0xc0,
0xc8, 0xd0, 0xd8, 0xe0, 0xe8, 0xf0, 0xf8, 0xff,
};
R = L * gammaRamp[r] * 0x0101;
G = L * gammaRamp[g] * 0x0101;
B = L * gammaRamp[b] * 0x0101;
}
return R << 32 | G << 16 | B << 0;
}
auto Interface::loaded() -> bool {
return system.loaded();
}
auto Interface::sha256() -> string {
return cartridge.sha256();
}
auto Interface::load(uint id) -> bool {
if(id == ID::SuperFamicom) return system.load(this);
if(id == ID::BSMemory) return cartridge.loadBSMemory();
if(id == ID::SufamiTurboA) return cartridge.loadSufamiTurboA();
if(id == ID::SufamiTurboB) return cartridge.loadSufamiTurboB();
return false;
}
auto Interface::save() -> void {
system.save();
}
auto Interface::unload() -> void {
save();
system.unload();
}
auto Interface::connect(uint port, uint device) -> void {
if(port == ID::Port::Controller1) controllerPort1.connect(settings.controllerPort1 = device);
if(port == ID::Port::Controller2) controllerPort2.connect(settings.controllerPort2 = device);
if(port == ID::Port::Expansion) expansionPort.connect(settings.expansionPort = device);
}
auto Interface::power() -> void {
system.power();
}
auto Interface::run() -> void {
system.run();
}
auto Interface::rtc() -> bool {
if(cartridge.has.EpsonRTC) return true;
if(cartridge.has.SharpRTC) return true;
return false;
}
auto Interface::rtcSynchronize() -> void {
if(cartridge.has.EpsonRTC) epsonrtc.sync();
if(cartridge.has.SharpRTC) sharprtc.sync();
}
auto Interface::serialize() -> serializer {
system.runToSave();
return system.serialize();
}
auto Interface::unserialize(serializer& s) -> bool {
return system.unserialize(s);
}
auto Interface::cheatSet(const string_vector& list) -> void {
cheat.reset();
#if defined(SFC_SUPERGAMEBOY)
if(cartridge.has.ICD2) return GameBoy::cheat.assign(list);
#endif
cheat.assign(list);
}
auto Interface::cap(const string& name) -> bool {
if(name == "Blur Emulation") return true;
if(name == "Color Emulation") return true;
if(name == "Scanline 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;
if(name == "Scanline Emulation") return settings.scanlineEmulation;
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;
}
if(name == "Scanline Emulation" && value.is<bool>()) return settings.scanlineEmulation = value.get<bool>(), true;
return false;
}
}