This crate contains hardware register tables and support functions for
8-bit retro computers like the Commodore 64, Commander X16, MEGA65 and others.
Please check the examples
directory to see how Rust can be used to generate simple demo effects.
- Excellent support for Rust programming on CBM (inspired) 8-bit computers
- Labelled registers for expressive hardware programming
- Intuitive bitflags with type checks where possible
- Minimum resource impact
use mos_hardware::{c64, vic2};
let old_border_color = c64::vic2().border_color.read();
unsafe {
c64::vic2().border_color.write(vic2::LIGHT_RED);
c64::sid().potentiometer_x.write(3); // compile error: read-only register
}
...for example where the VIC-II chip accesses screen memory and character sets:
use mos_hardware::{c64, vic2};
let bank = vic2::ScreenBank::AT_2C00.bits() | vic2::CharsetBank::AT_2000.bits();
unsafe {
c64::vic2().screen_and_charset_bank.write(bank);
}
...for example to generate random numbers using noise from the C64's SID chip:
use mos_hardware::c64::*;
clear_screen();
sid().start_random_generator();
let value = sid().random_byte();
The project requires rust-mos and
is setup to build for C64 by default.
A docker image of rust-mos is available if you
do not fancy compiling LLVM.
If you want to start a new project which uses mos-hardware
, there's a
Github Template.
The easiest way is to use the provided .devcontainer.json
configuration for Visual Studio Code.
Before starting up VSC, you may want to edit .devcontainer.json
to point to a recent, tagged image of
mrkits/rust-mos
.
In particular, if you're on an ARM architecture, e.g. Apple Silicon, make sure to use an image compiled for
linux/arm64
as emulating x86 in Docker is painfully slow.
- Install and start Docker
- Configure Visual Studio Code with the Remote - Containers extension:
When asked, re-open in Dev container.
cd mos-hardware code --install-extension ms-vscode-remote.remote-containers code .
- Inside a VSC terminal, build with:
cargo build --release --target mos-c64-none --example c64-plasma
- Find the binary in
target/
and run in an emulator or transfer to real hardware.
- If you encounter issues with
cargo/home
, force older versioncargo update -p [email protected] --precise 0.5.5
The hardware registers are currently incomplete and the library may be subject to significant changes.
- Commodore 64:
-
sid
-
vic2
-
cia
(partially) -
c64
memory map (particlly) - PSID file support for SID music
- Random number trait (
RngCore
)
-
- Commander X16
-
vera
-
via
(partially) -
cx16
Memory map (partially) - Support functions
-
- MEGA65:
- partial support for vic3, vic4 and other hardware registers.
- mega65-libc bindings
- Random number traits (
RngCore
,SeedableRng
) - Iterator to 28-bit address space
- Examples:
- Plasma effect (c64, mega65)
- Raster IRQ (c64)
- Sprites (c64)
- Smooth x-scrooll (c64)
- Joystick read (c64)
- 10print maze (c64)
- Memory iteration and fat pointers (mega65)