1
0
mirror of https://github.com/mnaberez/py65.git synced 2024-11-18 00:06:08 +00:00
Emulate 6502-based microcomputer systems in Python
Go to file
2014-12-13 19:44:49 -08:00
docs Basic breakpoint support. 2014-10-01 13:31:31 +02:00
examples Remove blocking_getc at $f005 2014-01-31 15:07:51 -08:00
py65 Move breakpoints out of AddressParser and into Monitor 2014-12-13 19:44:49 -08:00
.gitignore Ignore coverage files 2014-03-16 12:30:29 -07:00
.travis.yml Use the new build env on Travis 2014-11-20 19:51:46 -08:00
CHANGES.txt Add breakpoint support to changelog 2014-10-10 21:27:44 -07:00
LICENSE.txt Update copyright year to 2014 2014-01-14 19:06:19 -08:00
MANIFEST.in
README.rst Add Alessandro Gatti to the contributors list 2014-10-02 15:58:06 -07:00
setup.py Add "Python :: 2" classifier 2014-08-28 18:55:41 -07:00
tox.ini Add Python 3.4 to tox 2014-05-03 17:36:41 -07:00

Py65
====

Py65 provides tools for simulating hardware based on 6502-like
microprocessors.  It has the following goals:

- Focus on ease of use and modularity rather than performance.  Py65 is
  written in the Python programming language for productivity, while
  similar programs are written in C for performance.

- Enable simulations to be created for systems where it might have
  otherwise not been practical, such as homebuilt computers.

- Rigorously unit test all of the components.  While the tools provided
  by Py65 may not always be perfect, their behavior is verified through
  tests so unexpected results are minimized.

Installation
------------

Py65 packages are `available <http://pypi.python.org/pypi/py65>`_ on the
Python Package Index (PyPI).  You download them from there or you can
use ``pip`` to automatically install or upgrade Py65::

    $ pip install -U py65

Devices
-------

The following devices are simulated at this time:

- ``mpu6502`` simulates the original NMOS 6502 microprocessor from MOS
  Technology, later known as Commodore Semiconductor Group (CSG). At this
  time, all of the documented opcodes are supported.  Support for the
  illegal opcodes is planned for the future.

- ``mpu65c02`` simulates a generic CMOS 65C02 microprocessor. There were
  several 65C02 versions from various manufacturers, some with more
  opcodes than others. This simulation is based on the W65C02S from the
  Western Design Center (WDC).

- ``mpu65org16`` simulates the 65Org16, a 6502-like microprocessor with a
  16-bit data bus and 32-bit address bus.  This microprocessor is a project
  of the `6502.org community <http://forum.6502.org/viewtopic.php?t=1824>`_
  and a `Verilog core <https://github.com/BigEd/verilog-6502/wiki>`_ for it
  has been implemented.

Monitor
-------

Py65 includes a console-based machine language monitor (sometimes also called
a debugger).  This program, ``py65mon``, allows you to interact with the
simulations that you build.  Its features include:

- Commands that are largely compatible with those used in the monitor of
  the popular VICE emulator for Commodore computers.

- Ability to load, dump, and fill memory.

- Simple assemble and disassemble capability, including support for labels
  and labels with offsets.

Documentation
-------------

Py65 documentation is written using `Sphinx <http://sphinx.pocoo.org/>`_ and
is published to `http://py65.readthedocs.org/
<http://py65.readthedocs.org/>`_.

Contributors
------------

These people are responsible for Py65:

- `Mike Naberezny <https://github.com/mnaberez>`_ is the original author of
  Py65 and is the primary maintainer.

- `Oscar Lindberg <https://github.com/offe>`_ started the 65C02 simulation
  module and contributed greatly to its implementation.

- `Ed Spittles <https://github.com/biged>`_ wrote the 65Org16 simulation
  module and provided many useful issue reports and patches.

- `David Beazley <https://github.com/dabeaz>`_ did the initial port of Py65
  to Python 3.

- `Alessandro Gatti <https://github.com/agatti>`_ added support for
  breakpoints in the monitor.