gui
awesome-lisp-companies
gui | awesome-lisp-companies | |
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4 | 51 | |
63 | 577 | |
- | - | |
7.7 | 6.8 | |
9 days ago | about 1 month ago | |
Racket | ||
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.
gui
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A Tour of Lisps
> The problem with learning Lisp is `(a ,b c)
If you can understand "String ${interpolation}", you can understand list quasiquoting.
> But the problem remains: it only takes one wizard to make reading code impossible by outsiders.
This really is a Lisp meme. There are plenty of Lisp wizards like Guy Steele, Rich Hickey, and Matthew Flatt. The wizards perform the magical act of making code legible and intelligible. I have stumbled around several Clojure and Racket code bases and never felt like "I should understand this code but the features of Lisp make it impossible to know for sure." "Infinite power" macros and whatever are really only used sparingly and generally when it's impossible to achieve a goal otherwise. No one is doing (define + -).
> But this means no-one outside of the language/system developers know the language, this means Lisp tends to be write-only by design - not in the line-noise meaning, but in the obscure foreign language meaning.
I, as a Racket novice, have been able to add candlesticks [1] to the plot library without learning much about it. I have also debugged DrRacket (an IDE) to uncover that Racket GUI operations performed significantly worse if non-integer scaling was used [2]. At no point when I was going through Racket internal code did I ever feel it was write-only. In fact, it was quite convenient to modify Racket internal source code, rebuild, and test changes in a way that would be much more difficult in Java or C++.
> You certainly can not do that, but if you choose to not do that, why pick Lisp?
Built in rationals.
The ergonomics of defining [XML / JSON / etc] data as S-expressions and doing things like pattern matching on that data.
Great, coherent integration between GUIs, plots, statistics functions, and all the other bits of Racket's batteries inclusions.
You still have access to all the other great features that other languages have borrowed from Lisp like REPL development, package managers, good IDE tools, etc.
It is nice to learn the meta-syntax of parentheses once and know that the code will always look like that. No need to consider if some feature is implemented as a syntactically different new keyword, annotation, function call, or whatever. It'll always be a (feature).
> something you have to conciously work for with Lisp.
Plenty of languages have style guides, linters, static analysis tools, etc. to make sure the code conforms to certain restrictions. Lisp feels no different in this regard.
[1] https://docs.racket-lang.org/plot/renderer2d.html#%28def._%2...
[2] https://github.com/racket/gui/commit/20e589c091998b0121505e2...
- Racket->Rhombus: To Sexp or not to Sexp?
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No callback when re-selecting in choice%
Please file a bug report at https://github.com/racket/gui/issues
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Are there alternative or external gui libraries?
https://github.com/racket/gui/issues/207#issuecomment-753406612
awesome-lisp-companies
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Google Common Lisp Style Guide
Thanks to ITA Software (powering Kayak and Orbitz), Google dedicates resources to open-source Common Lisp development. More specifically, to SBCL:
> Doug Katzman talked about his work at Google getting SBCL to work with Unix better. For those of you who don’t know, he’s done a lot of work on SBCL over the past couple of years, not only adding a lot of new features to the GC and making it play better with applications which have alien parts to them, but also has done a tremendous amount of cleanup on the internals and has helped SBCL become even more Sanely Bootstrappable. That’s a topic for another time, and I hope Doug or Christophe will have the time to write up about the recent improvements to the process, since it really is quite interesting.
> Anyway, what Doug talked about was his work on making SBCL more amenable to external debugging tools, such as gdb and external profilers. It seems like they interface with aliens a lot from Lisp at Google, so it’s nice to have backtraces from alien tools understand Lisp. It turns out a lot of prerequisite work was needed to make SBCL play nice like this, including implementing a non-moving GC runtime, so that Lisp objects and especially Lisp code (which are normally dynamic space objects and move around just like everything else) can’t evade the aliens and will always have known locations.
https://mstmetent.blogspot.com/2020/01/sbcl20-in-vienna-last...
https://lisp-journey.gitlab.io/blog/yes-google-develops-comm...
The ASDF system definition facility, at the heart of CL projects, also comes from Google developers.
While we're at it, some more companies using CL today: https://github.com/azzamsa/awesome-lisp-companies/
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Why Is Common Lisp Not the Most Popular Programming Language?
Everyone, if you don't have a clue on how's Common Lisp going these days, I suggest:
https://lisp-journey.gitlab.io/blog/these-years-in-common-li... (https://www.reddit.com/r/lisp/comments/107oejk/these_years_i...)
A curated list of libraries: https://github.com/CodyReichert/awesome-cl
Some companies, the ones we hear about: https://github.com/azzamsa/awesome-lisp-companies/
and oh, some more editors besides Emacs or Vim: https://lispcookbook.github.io/cl-cookbook/editor-support.ht... (Atom/Pulsar support is good, VSCode support less so, Jetbrains one getting good, Lem is a modern Emacsy built in CL, Jupyter notebooks, cl-repl for a terminal REPL, etc)
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We need to talk about parentheses
Examples (for Common Lisp, so not citing Emacs): reddit v1, Google's ITA Software that powers airfare search engines (Kayak, Orbitz…), Postgres' pgloader (http://pgloader.io/), which was re-written from Python to Common Lisp, Opus Modus for music composition, the Maxima CAS, PTC 3D designer CAD software (used by big brands worldwide), Grammarly, Mirai, the 3D editor that designed Gollum's face, the ScoreCloud app that lets you whistle or play an instrument and get the music score,
but also the ACL2 theorem prover, used in the industry since the 90s, NASA's PVS provers and SPIKE scheduler used for Hubble and JWT, many companies in Quantum Computing, companies like SISCOG, who plans the transportation systems of european metropolis' underground since the 80s, Ravenpack who's into big-data analysis for financial services (they might be hiring), Keepit (https://www.keepit.com/), Pocket Change (Japan, https://www.pocket-change.jp/en/), the new Feetr in trading (https://feetr.io/, you can search HN), Airbus, Alstom, Planisware (https://planisware.com),
or also the open-source screenshotbot (https://screenshotbot.io), the Kandria game (https://kandria.com/),
and the companies in https://github.com/azzamsa/awesome-lisp-companies and on LispWorks and Allegro's Success Stories.
https://github.com/tamurashingo/reddit1.0/
http://opusmodus.com/
https://www.ptc.com/en/products/cad/3d-design
http://www.izware.com/mirai
https://apps.apple.com/us/app/scorecloud-express/id566535238
- A Tour of Lisps
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All of Mark Watson's Lisp Books
> but there doesn't seem to be one that really stands out as pragmatic, industrial
disagree ;) This industrial language is Common Lisp.
Some industrial uses:
- http://www.lispworks.com/success-stories/index.html
- https://github.com/azzamsa/awesome-lisp-companies/
- https://lisp-lang.org/success/
Example companies: Intel's programmable chips, the ACL2 theorem prover (https://royalsocietypublishing.org/doi/10.1098/rsta.2015.039...), urban transportation planning systems (SISCOG), Quantum Computing (HRL Labs, Rigetti…), big data financial analysis (Ravenpack, they might be hiring), Google, Boeing, the NASA, etc.
ps: Python competing? strong disagree^^
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Why Common Lisp is used to implement commercial products at Secure Outcomes (2010)
and of course, a quite recent list of companies, in addition of LW's success stories page: https://github.com/azzamsa/awesome-lisp-companies/
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Steel Bank Common Lisp
Hey there, newer member of the first group here. Please see https://github.com/azzamsa/awesome-lisp-companies/ to update your meta-comment. So, is CL used in the industry today, yes or no?
Personal note: I much prefer to maintain a long-living software in Common Lisp rather than in Python, thank you very much. May all the new programmers learn easily and all the teams have lots of ~~burden~~ work with Python, good for them.
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Racket: The Lisp for the Modern Day
Common Lisp has many industrial uses though.
(https://github.com/azzamsa/awesome-lisp-companies/
https://lisp-lang.org/success/
http://www.lispworks.com/success-stories/index.html
such as
https://www.cs.utexas.edu/users/moore/acl2/ (theorem prover used by big corp©)
https://allegrograph.com/press_room/barefoot-networks-uses-f... (Intel programmable chip)
quantum compilers https://news.ycombinator.com/item?id=32741928
etc, etc, etc)
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Why Lisp Syntax Works
A few more that we know of, using CL today: https://github.com/azzamsa/awesome-lisp-companies/
Others: https://lisp-lang.org/success/
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How to Understand and Use Common Lisp
yes
https://github.com/azzamsa/awesome-lisp-companies
http://lisp-lang.org/success/
industrial theorem prover, design of Intel chips, quantum compilers...
and little me, being more productive and having more fun than with python to deploy boring tools (read a DB, format the data, send to FTP servers, show a web interface...).