ulisp-builder
llvm-cbe
ulisp-builder | llvm-cbe | |
---|---|---|
2 | 14 | |
20 | 792 | |
- | 0.9% | |
2.8 | 6.5 | |
about 1 year ago | 5 days ago | |
Common Lisp | C++ | |
MIT License | GNU General Public License v3.0 or later |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
ulisp-builder
-
uLisp wireless message display with a Pi Pico W
There is a uLisp Builder that generates platform-specific builds from a single codebase.
> The uLisp Builder is a set of programs written in Common Lisp to allow you to build a version of uLisp for a particular platform from a common repository of source files.
> The aim of the Builder was to make it easier to maintain uLisp across multiple platforms. Where the C function for a particular uLisp feature is identical on all platforms there is just a single occurrence of that source in the Builder repository.
uLisp Builder - http://www.ulisp.com/show?3F07
GitHub repo - https://github.com/technoblogy/ulisp-builder
---
uLisp for STM32 boards - http://www.ulisp.com/show?29ST
Repo - https://github.com/technoblogy/ulisp-stm32
-
uLisp
I'm a big fan of uLisp, got it running on an ESP8266. Love how the whole language fits in a single file, making it easy to hack around.
Recently I learned how the author generates the uLisp variants for different platforms using Common Lisp:
https://github.com/technoblogy/ulisp-builder
..And an accompanying article to describe how it works:
uLisp Builder - http://www.ulisp.com/show?3F07
Also, a treasure trove of other Arduino and AVR projects by the author here:
http://www.technoblogy.com/
llvm-cbe
-
Ask HN: LLVM vs. C
So how does the LLVM C backend work then?
https://github.com/JuliaHubOSS/llvm-cbe
-
rust to c complication?
One alternative worth mentioning, though, would be the LLVM C Backend maintained by the Julia community.
-
Programming language that compiles to clean C89 or C99?
If you drop "easily" and "human" (/s) from your requirements list, then the C backend for LLVM might work. Then you can choose any programming language you want that has LLVM 10-compatible frontend.
-
Easy way to convert a C++ library into straight C ?
If you really must have something that compiles in C (e.g. for a platform where you only have a C compiler) there's an LLVM backend that outputs C code: https://github.com/JuliaComputingOSS/llvm-cbe
- Snowman native code to C/C++ decompiler for x86/x86_64/ARM
-
Can Rust do every low level stuff C/C++ do?
You can convert llvm bitcode to C and then use C compiler, there is such project https://github.com/JuliaComputingOSS/llvm-cbe .
-
lipstick: a Rust-like syntax frontend for C
I'm really surprised that the LLVM C backends have continually been resurrected then abandoned over the years. It's a good solution to this sort of thing and would enable a lot of cool stuff like Rust to weird embedded platforms. The most recent one is the Julia backend: https://github.com/JuliaComputingOSS/llvm-cbe
-
C++ to C converter?
Check this project out: https://github.com/JuliaComputingOSS/llvm-cbe.
-
Show HN: prometeo – a Python-to-C transpiler for high-performance computing
Well IMO it can definitely be rewritten in Julia, and to an easier degree than python since Julia allows hooking into the compiler pipeline at many areas of the stack. It's lispy an built from the ground up for codegen, with libraries like (https://github.com/JuliaSymbolics/Metatheory.jl) that provide high level pattern matching with e-graphs. The question is whether it's worth your time to learn Julia to do so.
You could also do it at the LLVM level: https://github.com/JuliaComputingOSS/llvm-cbe
For interesting takes on that, you can see https://github.com/JuliaLinearAlgebra/Octavian.jl which relies on loopvectorization.jl to do transforms on Julia AST beyond what LLVM does. Because of that, Octavian.jl beats openblas on many linalg benchmarks
-
Writing a SQLite clone from scratch in C
You can try your luck with the "resurrected" C backend: https://github.com/JuliaComputingOSS/llvm-cbe
I don't understand why I see so many requests for LLVM-based languages to change around their backend or IR, that seems to be a huge amount of work for comparatively little benefit. The correct thing to do there is to just add support for those to LLVM.
What are some alternatives?
ulisp - A version of the Lisp programming language for ATmega-based Arduino boards.
mrustc - Alternative rust compiler (re-implementation)
abuse - Abuse (1995) by Crack dot Com
nim-esp8266-sdk - Nim wrapper for the ESP8266 NON-OS SDK
llvm-project - Fork of LLVM with Xtensa specific patches. To be upstreamed.
esprit - ClojureScript on the ESP32 using Espruino
prometeo - An experimental Python-to-C transpiler and domain specific language for embedded high-performance computing
ecl
ferret - Ferret is a free software lisp implementation for real time embedded control systems.
acados - Fast and embedded solvers for nonlinear optimal control