- cross-posted to:
- programmerhumor@lemmy.world
- programmerhumor@lemmy.ml
- cross-posted to:
- programmerhumor@lemmy.world
- programmerhumor@lemmy.ml
Meme transcription:
Panel 1: Bilbo Baggins ponders, “After all… why should I care about the difference between int and String?
Panel 2: Bilbo Baggins is revealed to be an API developer. He continues, “JSON is always String, anyways…”
If there are no humans in the loop, sure, like for data transfer. But for, e.g., configuration files, i’d prefer a text-based solution instead of a binary one, JSON is a nice fit.
What, no! Use TOML or something for config files.
Interesting… me likes it.
Yaml is more human readable/editable, and it’s a superset of json!
Until someone cannot tell the difference between tab and space when configuring or you miss one indentation. Seriously, whoever thinks indentation should have semantic meaning for computers should burn in hell. Indentation is for us, humans, not computers. You can write a JSON with or without indentation if you want. Also, use JSON5 to have comments and other good stuff for a config file.
Yaml is just arcane bullshit to actually write as a human. Nor is it intuitively clear how yaml serializes.
It’s entirely disingenuous because who the hell is throwing JSON into YAML without converting it? Oh wow, I changed the file extension and it still works. I’m so glad we changed to YAML!
Yaml is cancer.
What I’d like for a configuration language is a parser that can handle in-place editing while maintaining whitespace, comments, etc. That way, automatic updates don’t clobber stuff the user put there, or (alternatively) have sections of
### AUTOMATIC GENERATION DO NOT CHANGE###
.You need a parser that handles changes on its own while maintaining an internal representation. Something like XML DOM (though not necessarily that exact API). There’s a handful out there, but they’re not widespread, and not on every language.
JSON5
Is a very good idea providing much needed fixes to the JSON spec, but isn’t really what I’m getting at. Handling automatic updates in place is a software issue, and could be done on the older spec.
Hmm, maybe I am missing the point. What exactly do you mean by handling automatic updates in place? Like, the program that requires and parses the config file is watching for changes to the config file?
As an example, Klipper (for running 3d printers) can update its configuration file directly when doing certain automatic calibration processes. The z-offset for between a BLtouch bed sensor and the head, for example. If you were to save it, you might end up with something like this:
[bltouch] z_offset: 3.020 ... #*# <---------------------- SAVE_CONFIG ----------------------> #*# DO NOT EDIT THIS BLOCK OR BELOW. The contents are auto-generated. #*# [bltouch] z_offset: 2.950
Thus overriding the value that had been set before, but now you have two entries for the same thing. (IIRC, Klipper does comment out the original value, as well.)
What I’d want is an interface where you can modify in place without these silly save blocks. For example:
let conf = get_config() conf.set( 'bltouch.z_offset', 2.950 ) conf.add_comment_after( 'bltouch.z_offset', 'Automatically generated' ) conf.save_config()
Since we’re declaratively telling the library what to modify, it can maintain the AST of the original with whitespace and comments. Only the new value changes when it’s written out again, with a comment for that specific line.
Binary config formats, like the Windows Registry, almost have to use an interface like this. It’s their one advantage over text file configs, but it doesn’t have to be. We’re just too lazy to bother.
Ahh, then the modification must be done on the AST level not the in-memory representation since anyway you do it, you must retain the original.
Right.