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270 | 00f4bfc | 2023-08-13 00:04:21 | sforman | Math ops, definitions for left- and r... |
| .hgignore |
130 | 00f4bfc | 2023-08-13 00:04:21 | sforman | Math ops, definitions for left- and r... |
| LICENSE |
34.32 k | 00f4bfc | 2023-08-13 00:04:21 | sforman | Math ops, definitions for left- and r... |
| README.md |
5.35 k | a6be85c | 2023-10-24 08:06:35 | sforman | Remove underscores from example names... |
 joy_interpreter_flowchart.svg |
9.13 k | 00f4bfc | 2023-08-13 00:04:21 | sforman | Math ops, definitions for left- and r... |
A Dialect of Joy.
Version 0.5.0
Simple pleasures are the best.
Joy is a programming language created by Manfred von Thun that is easy to use and understand and has many other nice properties. Thun is a dialect of Joy that attempts to stay very close to the spirit of Joy but does not precisely match the behaviour of the original version written in C. It started as a Python project called "Joypy", but after someone claimed that name on PyPI before me I renamed it to Thun in honor of Manfred Von Thun. Now there are interpreters implemented in several additional languages (C, Elm, Nim, OCaml, Prolog, and Scheme).
Joy is:
The best source for learning about Joy is the information made available at the website of La Trobe University | (mirror) which contains source code for the original C interpreter, Joy language source code for various functions, and a great deal of fascinating material mostly written by Von Thun on Joy and its deeper facets as well as how to program in it and several interesting aspects. It's quite a treasure trove.
Here is an example of Joy code. This function square_spiral accepts
two integers and increments or decrements one of them such that the new
pair of numbers is the next coordinate pair in a square spiral (like the
kind used to construct an Ulam Spiral).
For more information see Square Spiral Example Joy Code.
Forksquare_spiral [p] [then] [else] ifte
p [p0] [p1] and
p0 [abs] ii <=
p1 [<>] [pop !-] or
then [ !-] [[++]] [[--]] ifte dip
else [pop !-] [--] [++] ifte
It might seem unreadable but with familiarity it becomes as legible as any other notation.
The Thun.md document describes the Thun dialect. Most of the rest of
documentation is in the form of
Jupyter Notebooks
that go into more detail.
I had a Joy kernel for the Jupyter Notebook system, but I can no longer figure out how to use it, so I'm rewriting the notebooks by hand.
There's also a Function Reference that lists each function and combinator by name and gives a brief description. (It's usually out of date, I'm working on it.)
There is more in the docs directory but it's kind of a mess right now
(Aug 2023).
Thun
|-- LICENSE - GPLv3
|-- README.md - this file
|
|-- archive
| |-- Joy-Programming.zip
| `-- README
|
|-- docs
| |-- dep-graphs - Generated dependency graphs.
| |-- html - Generated HTML docs.
| |-- notebooks - Jupyter Notebooks and supporting modules
| `-- reference - Docs for each function.
|
|-- implementations
| |-- defs.txt - common Joy definitions for all interpreters
| |-- C - interpreter
| |-- GNU Prolog - type inference
| |-- Elm - interpreter
| |-- Nim - interpreter
| |-- Ocaml - work-in-progress interpreter
| |-- Python - interpreter
| |-- Scheme - interpreter
| `-- SWI Prolog - interpreter
| type inference
| work-in-progress compiler
|
`-- joy_code - Source code written in Joy.
`-- bigints
`-- bigints.joy
Clone the repo:
git clone https://git.sr.ht/~sforman/Thun
Then follow the instructions in the individual implementations
directories. In most cases you can just run make and that will build a
binary called joy (in Python it's a script.)
There isn't really any installation as such. You can put the binaries in
your PATH.
Copyright © 2014 - 2023 Simon Forman
This file is part of Thun