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Ruff is like a million times faster, and I mostly ignored pylint's suggestions
anyway.
I also took this opportunity to move lint tools into a runtime dependency on
Lint.hs, which meant adding a wrapper to the Haskell builder, which was easy
enough. This paves the way for proper rundeps in bild.
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Turns out that gitlint by default enforces the exact commit-msg format that I
like to use. I'm enabling this because even I write poor commit messages
sometimes, and looking back on my commits from even a few days ago is sometimes
not very helpful.
I also made some minor comment and nix changes that I noticed while reviewing my
work from the last few days.
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Lots of changes here but the code is much improved. The nix code is clearer and
structured better.
The Haskell code improved in response to the nix changes. I needed to use a
qualified path instead of the abspath because the BIZ_ROOT changes based on
whether bild runs in nix or runs in the user environment.
Rather than passing every argument into Builder.nix, now I just pass the json
from bild and deconstruct it in nix. This is obviously a much better design and
it only came to be after sleeping on it the other night.
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This is working with libsodium as an example. Its unfortunate that we need the
extra ':arg -lsodium' but how else can I get the name of the library for
linking? Is that something in the nix attr metadata? Anyway, an optimization for
another day.
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Not getting deps yet but thats okay, I basically need to do a bunch of annoying
nix work to get rustPackages into a thing like pythonPackages.
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I added 'black' to Biz/Lint.hs, but not the others because they rely on
dependencies being in the PYTHONPATH to work, so they are only relevant
in nix builds and repls.
I also made some other tweaks to the python checkPhase and linted all
the files. Everything should be building and linting correctly now.
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The main change here is 'puts' now returns a value, this enables me to
collect the value from the conduit source while also doing stuff with
it, like printing or logging it as I want.
Previously I was running conduit over the source, *and then* kicking off
the concurrent processes to wait for the process and collect the output.
This would (I think) drain the source before it got to the 'puts'
conduit run, and so I wouldn't be able to get the output streamed in
real time.
It took a lot of refactoring and exploratory programming to get to this
relatively-small diff, but now puts works correctly. At least I think it
does... it seems to work more reliably from ghci than from the shell.
Maybe the shell or TERM is causing nix-store to do some buffering? Maybe
I need to use the threaded runtime in GHC? Not sure, but I will look out
for this issue and try to identify and fix.
Update: yep it was the threaded runtime. I enabled that and now it works
in the shell. I squashed that commit into this one.
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This represents quite a few evenings of hacking. It doesn't build all of my
Python code, because my Python code is not up to snuff, but it builds the
examples and pulls in third party dependencies.
Some design points:
- I'm using buildPythonApplication in Builder.nix because it was getting way too
annoying to wrap the Python script and set PYTHONPATH myself. Easier and more
robust to just use the upstream nix builder
- Because of this, I had to generate a setup.py. Maybe switch to pyproject.toml
in the future, whatever.
- Also because of this, Target.wrapper is becoming redundant. I'll just remove
it when I get Guile built in nix.
- Biz/Bild.nix is getting messy and could use a refactor.
- In Builder.nix, I worked around the empty directories bug by just finding and
deleting empty directories after unpacking. If its stupid but works it ain't
stupid!
- I had to touch __init__.py files in all directories before building. Annoying!
- `repl` just works, which is awesome
- To ensure good Python code, I moved lints and added type checking to the
build. So I can't build anything unless it passes those checks. This seems
restrictive, but if I want to run some non-passing code, I can still use
`repl`, so it's actually not inhibitory.
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This is prototype quality. For some reason I think it breaks when doing
`build **/*.hs`, which isn't good. But also it's working, and the code feels
good. Next I'd like to get Python builds working, as hopefully that will force
me to improve the existing code to support a second language.
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There are some limitations to this implementation:
1. Using `runCommand` means this will re-run any time anything changes in the
repo. The solution is to use the existing import detection to make a list of
source files, and put that into a `stdenv.mkDerivation`, which I'll do next.
2. The `NeatInterpolation` usage is ugly. The templated nix code should be
extracted into its own file, such as `Biz/Bild/Builder.nix`.
3. I'm not actually calling it yet. The ideal thing would be to call
`nix-instantiate`, get the output drv path, and then call `nix-store --realise`
on that. To do that I need to refactor my `proc` function to return stdout to
the calling function, and I should probably just make helper functions like
`nixInstatiate :: Target -> IO DrvPath` and `nixStoreRealise :: DrvPath ->
NixStorePath`, or something like that.
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Without this, Guile libraries like SDL2 will use Guile 2.0 instead.
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At least one namespace (Biz/Dragons/Analysis.nix) needs this.
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Mostly thid required packaging up some deps, but also had to recompile
stuff with cuda support.
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As a byproduct this also (sorta) generalizes how I pass flags to the C compiler
using pkg-config, instead of using the guile-config. Now the 'lib' metadata will
be added with 'pkg-config --libs', and the 'sys' metadata will be added with
'pkg-config --cflags'. I'm not *really* sure what the difference is, but if it
works it works.
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Unfortunately, until bild can instantiate nix builds, it needs all of its
compilers in the dev environment, and I need to pass this environment into the
dev nix-shell in order for it to work in the repl or after being built to _/bin.
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In order to write Guile code against C, I need to distiguish between libs and
bins, so I did that, then I got the flags that gcc needs from `guile-config` and
put them in the args for any C lib build. I tested this with Bessel.c and
Bessel.scm (not in this patch, because I don't really want that code in my
tree, I'll come up with another way to test it later).
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Rust seems to not be supported in my ctags version :(
Also rename some Ide scripts because these are commands, not really scripts.
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I don't care about ghcjs anymore, the most javascript I want to do is jQuery.
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I had thought that I needed some unmerged commits to nixpkgs that enable Guile
3.0, but turns out I just needed to use a different target name :P
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asdf seems to always be necessary for any other packages to work, so I just
include that in the call to nix-shell, and swank is included because it's just
useful to start a repl server.
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I ended up deleting miso, and consequently all files under Hero/ and Miso/,
because I couldn't get miso to build with GHC 9.2.
Other things:
- Niv has been wrapped by Biz/Bild/Deps.hs, so I can extend it to my liking.
- Apply-refact is gone because I couldn't get it to build.
- Disabled python stuff.
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This way I can still inspect and use them from the nix repl by just doing `:l
Biz/Bild.nix`, but its also clear that they aren't part of the normal build
rules.
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Support for packages and third-party imports will need to come later once I
figure out how to lookup rust packages by their import statements. Until then,
this works to compile "hello world".
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This is basically building on top of bild's analysis, which is great becuase it
means that bild is becoming a useful tool rather than a monolithic do-everything
job runner. The eventual goal is for the bild analysis to be much more useful,
maybe even provide data to remote repls or language-server or whatever.
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This means my call to ghc-pkg will look at the full package set from Hoogle.
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This also makes some changes to the build tooling to clean up the environment a
bit, and get us closer to 'bild -s'.
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This parses the files contents for imports, then uses ghc-pkg to lookup the
package that provides the module. Now I can do that analysis in Haskell instead
of nix, which is much easier to code with.
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