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Platform-agnostic GAME BOY emulator written in pure C#

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LeBoy

Disclaimer: GAME BOY is a trademark of Nintendo Co., Ltd.

LeBoy is a GB emulator written in pure C#, with an optional MonoGame desktop front-end (but can be easily integrated in other presentation frameworks such as Unity). It is designed to be cross-platform, with a current target set to .NET 5 (currently supporting Windows, MacOS, and Linux, but should already run as-is on iOS, Android as well).

The core emulation library (LeBoyLib) is a separated pure C# project that can easily be embedded into any kind of C# project. It is meant to be agnostic of any graphical, sound, or input backend.

LeBoy is not meant for accuracy or speed. It is an educational project with a focus on straightforward, readable, and well documented code to learn more about the basics of making emulators.


What's missing and known issues

LeBoy is not yet complete. Here's what's currently missing:

  • Sound is not implemented yet;
  • Real time clock (RTC) support is absent and queries to clock registers will return 0;
  • GBC and SGB are not supported, only the base GB (DMG) is fully supported (which is the priority of the project);
  • Memory Bank Controllers (MBCs) are partially implemented (only MBC1, MBC2, MBC3, and MC5 are supported, without RTC support).

Known issues:

  • OAM priority and read/write: OAM emulation is not quite accurate, some sprites have wrong priorities and this may result in sprites not displaying, or being displayed above/under other elements.

Building LeBoy

LeBoy requires .NET 5 and should build as-is.


Using LeBoyLib

LeBoyLib is the main emulation library and is independent of any graphical, sound, or input backend. You can build it and use it in any kind of C# project.

Here are some code snippet to get started with LeBoyLib.

Initializing and loading a ROM:

GBZ80 emulator = new GBZ80();

// Loading a rom into a byte[]
byte[] rom = System.IO.File.ReadAllBytes("MyRomFile.gb");

// Loading the rom
emulator.Load(rom);

Executing the emulation:

// suggesting that this part runs from a thread
while(true)
{
    // DecodeAndDispatch emulates the next CPU instruction.
    // It returns the number of CPU cycles that have been used
    // and you can use GBZ80.ClockSpeed to synchronize the emulation speed
    // with the host CPU speed (this example runs uncapped emulation speed).
    emulator.DecodeAndDispatch();
}

Getting the backbuffer:

// This returns a 32bit BGRA (1 byte per component) encoded byte[] of the full 160x144 GB display.
// The first pixel is the leftmost top pixel and it continues line by line.
byte[] backbuffer = emulator.GetScreenBuffer();

Inputs:

// Inputs can be updated through the JoypadState array.
// Here's an example using a MonoGame implementation.
GamePadState gamePadState = GamePad.GetState(PlayerIndex.One);

emulator.JoypadState[0] = (gamePadState.DPad.Right == ButtonState.Pressed); // right
emulator.JoypadState[1] = (gamePadState.DPad.Left == ButtonState.Pressed); // left
emulator.JoypadState[2] = (gamePadState.DPad.Up == ButtonState.Pressed); // up
emulator.JoypadState[3] = (gamePadState.DPad.Down == ButtonState.Pressed); // down
emulator.JoypadState[4] = (gamePadState.Buttons.B == ButtonState.Pressed); // B
emulator.JoypadState[5] = (gamePadState.Buttons.A == ButtonState.Pressed); // A
emulator.JoypadState[6] = (gamePadState.Buttons.Back == ButtonState.Pressed); // select
emulator.JoypadState[7] = (gamePadState.Buttons.Start == ButtonState.Pressed); // start

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Platform-agnostic GAME BOY emulator written in pure C#

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