This branch name changed. It's no longer master.
|1 year ago|
|doc||4 years ago|
|sample||4 years ago|
|src||4 years ago|
|test||4 years ago|
|.gitignore||4 years ago|
|CMakeLists.txt||4 years ago|
|CMakeLists.txt.in||1 year ago|
|README.md||4 years ago|
A 6502 emulator which has been designed with a focus on readability rather than performance. It supports all documented opcodes other than BRK and RTI because traditional interupts are not supported. Unit tests are included which test each instruction.
If you're looking for something to run games on this isn't for you. If however you want to get a reasonable understanding of how a processor works and/or get to grips with an Assembly language then it may be of interest.
This has only been tested on Linux (Ubuntu 18.04). There are no Linux specific dependencies though so in theory it should be buildable on Windows too.
- Make sure you've CMake 3.10 or higher installed
- Clone this repo
- CD to the root of the repo
$ cmake . $ make $ ./6502_emulator
When run this will load and run the sample/a.o65 binary and run it.
If you want to run a binary of a different name just update the path in src/main.cpp. Feel free to submit a PR if you want specify the path to the binary on the command line ;)
There is 64KB of memory and this is broken into
0x0000 - 0x00FF - Free (Zero Page)
0x0100 - 0x01FF - Stack
0x0200 - 0x05FF - Free
0x0600 - 0xDFFF - Program - always make sure to assemble programs for this address
0xE000 - 0xF000 - Video
0xF001 - 0xF001 - Keyboard buffer
0xF002 - 0xFFFF - Free
At the moment there is no emulation of clock cycles and so programs will just execute as fast as they can and it's not possible to introduce delays by looping and counting cycles. This is something I'm considering adding but isn't currently at the top of my list...feel free to submit a PR.
Because there is no real timing it was necessary to do something with the display, otherwise it would be updated far too quickly. The hack here is that every time a byte is written to video memory a delay of 20ms is introduced. This is fine for playing around with video stuff (like in the sample) but if you want to update the entire screen quickly it's rubbish - see comments in sample/draw.s about the "clear_screen" routine.
Resolution of the "attached display" is 64 * 64, so 4096 bytes. Each "pixel" is blown up to be 8 pixels in size so things are nice and blocky.
Writing a byte to 0xE000 will draw a pixel at the top left and at byte at 0xF000 will display at the bottom right.
Each pixel can be one of 256 colours where bits:
- 0-1 are blue
- 2-4 are green
- 5-7 are red
The last key pressed is stored to 0xF001 and it's up to your programs to clear this out after reading if you don't want to repeatedly read the same keypress.
SDL is used for reading key presses and the code for each key is https://wiki.libsdl.org/SDLScancodeLookup. Only key presses where the code is <= 0xFF are logged.
The sample/draw.s file contains well commented 6502 assembly code for a simple program which allows you to draw multi-coloured lines with your cursor keys. What fun!
The binary is checked in but if you make changes it can be recompiled using XA with:
$ xa draw.s -v -bt 1536
1536 is decimal for 0x600, i.e. the start of the program address space.
Exit the application by pressing the Esc key (there is nothing listening for Window close requests). It'll use a full CPU so don't leave it running while you're watching a film ;)