booze-tools
AECforWebAssembly
booze-tools | AECforWebAssembly | |
---|---|---|
3 | 51 | |
14 | 31 | |
- | - | |
5.9 | 8.0 | |
9 months ago | 6 days ago | |
Python | C++ | |
MIT License | MIT License |
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.
booze-tools
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Flattening ASTs (and Other Compiler Data Structures)
Mmmm... Indirectly... Sophie uses my literate parsing system.
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Is it possible to propagate higher level constructs (+, *) to the generated parse tree in an LR-style parser?
It's not my idea. It's present at least as far back as YACC, "Yet Another Compiler-Compiler", which inspired the name of BISON (another parser-generator named for ungulates). Here's mine, written in Python: https://github.com/kjosib/booze-tools It also has a few extra bits. Feel free to exploit its MIT license to the fullest. I should mention that the design of symbolic reduce-actions was intended to allow one to use the same grammar across multiple host languages. You could even write a driver that does simply build a parse-tree and then hand that off to a separate phase, but in my world I almost always want a bottom-up tree-transduction as first-pass de-sugaring.
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Undergrad dissertation/thesis ideas relating to programming language design / compiler implementation?
Many CS schools have an undergrad class called "compilers" in which you'll implement (from the ground up) either a Scheme or a thing-that-is-like-Java called decaf, or possibly you'll implement Scheme and just call it decaf. If your school does not have such a course, you can get class notes from Texas A&M or Stanford or a variety of other places. (Here's a parser for it.)
AECforWebAssembly
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Gren 0.3: Source maps
Great! I have not yet made source maps for my programming language that compiles to WebAssembly, and I probably never will.
- Mislite li da okolina ima potpuno pogrešno mišljenje o ljudima koji rade u IT-u?
- Koja je najapsurdnija poruka o pogrešci koju je neki vaš program ispisivao?
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What is the most absurd error message your compiler/interpreter was once outputting?
Up until today, my AEC-to-WebAssembly was, if somebody tried to use two structures of different types as the second and the third operand to the ?: (ternary conditional) operator, as in this example: ``` Structure First Consists Of Nothing; EndStructure
- Poteškoće s pronalaskom posla
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Good languages for writing compilers in?
Well, I have written the first compiler for my programming language, targetting x86, in IE6-compatible JavaScript, and the second compiler, targetting WebAssembly, has been written in C++11. I think that, to choose a language to write a compiler in, you need to look at at least two things:
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Why does GCC run in Docker produce around 30% smaller statically linked C++ executables than GCC run on Linux? AECforWebAssembly is 1.08 MB large if compiled using GCC 13.1 in Docker, but it is 1.59 MB if compiled using GCC 13.1 on Debian.
You can see the releases v2.5.3 and v2.5.2 of AECforWebAssembly on GitHub. They are produced with the same version of GCC, the only difference (as far as I know) is that v2.5.2 was produced directly on Debian, whereas v2.5.3 was cross-compiled from Windows to Linux using Docker.
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Let's Make Sure Github Doesn't Become the only Option
That could be true. I host my AEC-to-WebAssembly compiler on GitHub, GitLab and SourceForge, and it's only on GitHub that it has 21 stars and 2 forks. On GitLab and SourceForge, it has zero of both.
- koliko vam je bilo tesko nac posao u programiranju?
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Does the JVM / CLR even make sense nowadays?
Well, the main compiler for my programming language is targetting the JavaScript Virtual Machine by outputting WebAssembly. I think it's even better than targetting Java Virtual Machine, because, for one thing, your executables can run in any modern browser if you output WebAssembly. If you target Java Virtual Machine, the users need to actually download your app. Furthermore, there is an official assembler for WebAssembly called WebAssembly Binary Toolkit (WABT), so your compiler can output assembly and not have to deal with binary files. There is nothing equivalent to that for Java Virtual Machine.
What are some alternatives?
ciscoconfparse - Parse, Audit, Query, Build, and Modify Cisco IOS-style configurations.
Lark - Lark is a parsing toolkit for Python, built with a focus on ergonomics, performance and modularity.
wasm-fizzbuzz - WebAssembly from Scratch: From FizzBuzz to DooM.
tika-python - Tika-Python is a Python binding to the Apache Tika™ REST services allowing Tika to be called natively in the Python community.
mal - mal - Make a Lisp
AutoPWN-Suite - AutoPWN Suite is a project for scanning vulnerabilities and exploiting systems automatically.
Drogon-torch-serve - Serve pytorch / torch models using Drogon
oil - Oils is our upgrade path from bash to a better language and runtime. It's also for Python and JavaScript users who avoid shell!
libCat - 🐈⬛ A runtime for C++26 w/out libC or POSIX. Smaller binaries, only arena allocators, SIMD, stronger type safety than STL, and value-based errors!
gdal-js - This is an Emscripten port of GDAL, an open source X/MIT licensed translator library for raster and vector geospatial data formats.
expected - C++11/14/17 std::expected with functional-style extensions