bsnes/higan/emulator/interface.hpp

124 lines
4.1 KiB
C++

#pragma once
namespace Emulator {
struct Interface {
struct Information {
string manufacturer;
string name;
uint width;
uint height;
bool overscan;
double aspectRatio;
bool resettable;
struct Capability {
bool states;
bool cheats;
} capability;
} information;
struct Media {
uint id;
string name;
string type;
bool bootable; //false for cartridge slots (eg Sufami Turbo cartridges)
};
vector<Media> media;
struct Device {
uint id;
uint portmask;
string name;
struct Input {
uint id;
uint type; //0 = digital, 1 = analog (relative), 2 = rumble
string name;
uintptr guid; //user data field
};
vector<Input> input;
vector<uint> order;
};
struct Port {
uint id;
string name;
vector<Device> device;
};
vector<Port> port;
struct Bind {
virtual auto loadRequest(uint, string, string, bool) -> void {}
virtual auto loadRequest(uint, string, bool) -> void {}
virtual auto saveRequest(uint, string) -> void {}
virtual auto videoRefresh(const uint32*, uint, uint, uint) -> void {}
virtual auto audioSample(int16, int16) -> void {}
virtual auto inputPoll(uint, uint, uint) -> int16 { return 0; }
virtual auto inputRumble(uint, uint, uint, bool) -> void {}
virtual auto dipSettings(const Markup::Node&) -> uint { return 0; }
virtual auto path(uint) -> string { return ""; }
virtual auto notify(string text) -> void { print(text, "\n"); }
};
Bind* bind = nullptr;
//callback bindings (provided by user interface)
auto loadRequest(uint id, string name, string type, bool required) -> void { return bind->loadRequest(id, name, type, required); }
auto loadRequest(uint id, string path, bool required) -> void { return bind->loadRequest(id, path, required); }
auto saveRequest(uint id, string path) -> void { return bind->saveRequest(id, path); }
auto videoRefresh(const uint32* data, uint pitch, uint width, uint height) -> void { return bind->videoRefresh(data, pitch, width, height); }
auto audioSample(int16 lsample, int16 rsample) -> void { return bind->audioSample(lsample, rsample); }
auto inputPoll(uint port, uint device, uint input) -> int16 { return bind->inputPoll(port, device, input); }
auto inputRumble(uint port, uint device, uint input, bool enable) -> void { return bind->inputRumble(port, device, input, enable); }
auto dipSettings(const Markup::Node& node) -> uint { return bind->dipSettings(node); }
auto path(uint group) -> string { return bind->path(group); }
template<typename... P> auto notify(P&&... p) -> void { return bind->notify({forward<P>(p)...}); }
//information
virtual auto manifest() -> string = 0;
virtual auto title() -> string = 0;
//video information
virtual auto videoFrequency() -> double = 0;
virtual auto videoColors() -> uint32 { return 1 << 19; }
virtual auto videoColor(uint32 color) -> uint64 { return 0; }
//audio information
virtual auto audioFrequency() -> double = 0;
//media interface
virtual auto loaded() -> bool { return false; }
virtual auto sha256() -> string { return ""; }
virtual auto group(uint id) -> uint = 0;
virtual auto load(uint id) -> void {}
virtual auto save() -> void {}
virtual auto load(uint id, const stream& memory) -> void {}
virtual auto save(uint id, const stream& memory) -> void {}
virtual auto unload() -> void {}
//system interface
virtual auto connect(uint port, uint device) -> void {}
virtual auto power() -> void {}
virtual auto reset() -> void {}
virtual auto run() -> void {}
//time functions
virtual auto rtc() -> bool { return false; }
virtual auto rtcsync() -> void {}
//state functions
virtual auto serialize() -> serializer = 0;
virtual auto unserialize(serializer&) -> bool = 0;
//cheat functions
virtual auto cheatSet(const lstring& = lstring{}) -> void {}
//settings
virtual auto cap(const string& name) -> bool { return false; }
virtual auto get(const string& name) -> any { return {}; }
virtual auto set(const string& name, const any& value) -> bool { return false; }
//shared functions
auto videoColor(uint16 r, uint16 g, uint16 b) -> uint32;
};
}