The ARF programming language
This repository has been archived on 2024-02-27. You can view files and clone it, but cannot push or open issues or pull requests.
Go to file
2022-08-25 23:17:42 -04:00
arfc
assets Added progress heatmap 2022-08-25 00:51:54 -04:00
examples Fixed parsing of interface section behaviors 2022-08-24 00:25:52 -04:00
file
infoerr
lexer Added test case for new tokens 2022-08-25 23:17:42 -04:00
parser Added base function parsing 2022-08-25 20:01:12 -04:00
tests Added test case for new tokens 2022-08-25 23:17:42 -04:00
types
.gitignore
face_test.go Split tests into multiple files 2022-08-24 01:22:24 -04:00
go.mod
LICENSE
main.go
README.md Added progress heatmap 2022-08-25 00:51:54 -04:00

ARF

The ARF programming language.

This is still under development and does not compile things yet. Once complete, it will serve as a temporary compiler that will be used to write a new one using the language itself.

The old repository can be found here.

ARF is a low level language with a focus on organization, modularization, and code clarity. Behind it's avant-garde syntax, its basically just a more refined version of C.

A directory of ARF files is called a module, and modules will compile to object files (one per module) using C as an intermediate language (maybe LLVM IR in the future).

Design Aspects

These are some design goals that I have followed/am following:

  • The standard library will be fully optional, and decoupled from the language
  • The language itself must be extremely simple
  • Language features must be immutable (no reflection or operator overloading)
  • Prefer static over dynamic
  • Data must be immutable by default
  • Memory not on the stack must be allocated and freed manually
  • Language syntax must have zero ambiguity
  • The compiler should not generate new functions or complex logic that the user has not written
  • One line at a time - the language's syntax should encourage writing code that flows vertically and not horizontally, with minimal nesting

Planned Features

  • Type definition through inheritence
  • Struct member functions
  • Go-style interfaces
  • Generics
  • A standard library (that can be dynamically linked)

Checklist

  • File reader
  • File -> tokens
  • Tokens -> syntax tree
  • Syntax tree -> semantic tree
  • Semantic tree -> C -> object file
  • Figure out HOW to implement generics
  • Create a standard library

Compiler Progress

Progress heatmap
  • Yellow: needs to be completed for the MVP
  • Lime: ongoing progress in this area
  • Green: Already completed