core/pkgs/build-support/emacs/wrapper.nix
2024-05-13 11:34:52 -04:00

237 lines
8.5 KiB
Nix

/*
# Usage
`emacs.pkgs.withPackages` takes a single argument: a function from a package
set to a list of packages (the packages that will be available in
Emacs). For example,
```
emacs.pkgs.withPackages (epkgs: [ epkgs.evil epkgs.magit ])
```
All the packages in the list should come from the provided package
set. It is possible to add any package to the list, but the provided
set is guaranteed to have consistent dependencies and be built with
the correct version of Emacs.
# Overriding
`emacs.pkgs.withPackages` inherits the package set which contains it, so the
correct way to override the provided package set is to override the
set which contains `emacs.pkgs.withPackages`. For example, to override
`emacs.pkgs.emacs.pkgs.withPackages`,
```
let customEmacsPackages =
emacs.pkgs.overrideScope (self: super: {
# use a custom version of emacs
emacs = ...;
# use the unstable MELPA version of magit
magit = self.melpaPackages.magit;
});
in customEmacsPackages.withPackages (epkgs: [ epkgs.evil epkgs.magit ])
```
*/
{ lib, lndir, makeBinaryWrapper, runCommand, gcc }:
self:
let
inherit (self) emacs;
withNativeCompilation = emacs.withNativeCompilation or false;
withTreeSitter = emacs.withTreeSitter or false;
in
packagesFun: # packages explicitly requested by the user
let
explicitRequires =
if lib.isFunction packagesFun
then packagesFun self
else packagesFun;
in
runCommand
(lib.appendToName "with-packages" emacs).name
{
inherit emacs explicitRequires;
nativeBuildInputs = [ emacs lndir makeBinaryWrapper ];
preferLocalBuild = true;
allowSubstitutes = false;
# Store all paths we want to add to emacs here, so that we only need to add
# one path to the load lists
deps = runCommand "emacs-packages-deps"
({
inherit explicitRequires lndir emacs;
nativeBuildInputs = lib.optional withNativeCompilation gcc;
} // lib.optionalAttrs withNativeCompilation {
inherit (emacs) LIBRARY_PATH;
})
''
findInputsOld() {
local pkg="$1"; shift
local var="$1"; shift
local propagatedBuildInputsFiles=("$@")
# TODO(@Ericson2314): Restore using associative array once Darwin
# nix-shell doesn't use impure bash. This should replace the O(n)
# case with an O(1) hash map lookup, assuming bash is implemented
# well :D.
local varSlice="$var[*]"
# ''${..-} to hack around old bash empty array problem
case "''${!varSlice-}" in
*" $pkg "*) return 0 ;;
esac
unset -v varSlice
eval "$var"'+=("$pkg")'
if ! [ -e "$pkg" ]; then
echo "build input $pkg does not exist" >&2
exit 1
fi
local file
for file in "''${propagatedBuildInputsFiles[@]}"; do
file="$pkg/nix-support/$file"
[[ -f "$file" ]] || continue
local pkgNext
for pkgNext in $(< "$file"); do
findInputsOld "$pkgNext" "$var" "''${propagatedBuildInputsFiles[@]}"
done
done
}
mkdir -p $out/bin
mkdir -p $out/share/emacs/site-lisp
${lib.optionalString withNativeCompilation ''
mkdir -p $out/share/emacs/native-lisp
''}
${lib.optionalString withTreeSitter ''
mkdir -p $out/lib
''}
local requires
for pkg in $explicitRequires; do
findInputsOld $pkg requires propagated-user-env-packages
done
# requires now holds all requested packages and their transitive dependencies
linkPath() {
local pkg=$1
local origin_path=$2
local dest_path=$3
# Add the path to the search path list, but only if it exists
if [[ -d "$pkg/$origin_path" ]]; then
$lndir/bin/lndir -silent "$pkg/$origin_path" "$out/$dest_path"
fi
}
linkEmacsPackage() {
linkPath "$1" "bin" "bin"
linkPath "$1" "share/emacs/site-lisp" "share/emacs/site-lisp"
${lib.optionalString withNativeCompilation ''
linkPath "$1" "share/emacs/native-lisp" "share/emacs/native-lisp"
''}
${lib.optionalString withTreeSitter ''
linkPath "$1" "lib" "lib"
''}
}
# Iterate over the array of inputs (avoiding nix's own interpolation)
for pkg in "''${requires[@]}"; do
linkEmacsPackage $pkg
done
siteStart="$out/share/emacs/site-lisp/site-start.el"
siteStartByteCompiled="$siteStart"c
subdirs="$out/share/emacs/site-lisp/subdirs.el"
subdirsByteCompiled="$subdirs"c
# A dependency may have brought the original siteStart or subdirs, delete
# it and create our own
# Begin the new site-start.el by loading the original, which sets some
# NixOS-specific paths. Paths are searched in the reverse of the order
# they are specified in, so user and system profile paths are searched last.
#
# NOTE: Avoid displaying messages early at startup by binding
# inhibit-message to t. This would prevent the Emacs GUI from showing up
# prematurely. The messages would still be logged to the *Messages*
# buffer.
rm -f $siteStart $siteStartByteCompiled $subdirs $subdirsByteCompiled
cat >"$siteStart" <<EOF
(let ((inhibit-message t))
(load "$emacs/share/emacs/site-lisp/site-start"))
;; "$out/share/emacs/site-lisp" is added to load-path in wrapper.sh
;; "$out/share/emacs/native-lisp" is added to native-comp-eln-load-path in wrapper.sh
(add-to-list 'exec-path "$out/bin")
${lib.optionalString withTreeSitter ''
(add-to-list 'treesit-extra-load-path "$out/lib/")
''}
EOF
# Generate a subdirs.el that statically adds all subdirectories to load-path.
$emacs/bin/emacs \
--batch \
--load ${./mk-wrapper-subdirs.el} \
--eval "(prin1 (macroexpand-1 '(mk-subdirs-expr \"$out/share/emacs/site-lisp\")))" \
> "$subdirs"
# Byte-compiling improves start-up time only slightly, but costs nothing.
$emacs/bin/emacs --batch -f batch-byte-compile "$siteStart" "$subdirs"
${lib.optionalString withNativeCompilation ''
$emacs/bin/emacs --batch \
--eval "(add-to-list 'native-comp-eln-load-path \"$out/share/emacs/native-lisp/\")" \
-f batch-native-compile "$siteStart" "$subdirs"
''}
'';
inherit (emacs) meta;
}
''
mkdir -p "$out/bin"
# Wrap emacs and friends so they find our site-start.el before the original.
for prog in $emacs/bin/*; do # */
local progname=$(basename "$prog")
rm -f "$out/bin/$progname"
substitute ${./wrapper.sh} $out/bin/$progname \
--subst-var-by bash ${emacs.stdenv.shell} \
--subst-var-by wrapperSiteLisp "$deps/share/emacs/site-lisp" \
--subst-var-by wrapperSiteLispNative "$deps/share/emacs/native-lisp" \
--subst-var prog
chmod +x $out/bin/$progname
# Create a NOP binary wrapper for the pure sake of it becoming a
# non-shebang, actual binary. See the makeBinaryWrapper docs for rationale
# (summary: it allows you to use emacs as a shebang itself on Darwin,
# e.g. #!$ {emacs}/bin/emacs --script)
wrapProgramBinary $out/bin/$progname
done
# Wrap MacOS app
# this has to pick up resources and metadata
# to recognize it as an "app"
if [ -d "$emacs/Applications/Emacs.app" ]; then
mkdir -p $out/Applications/Emacs.app/Contents/MacOS
cp -r $emacs/Applications/Emacs.app/Contents/Info.plist \
$emacs/Applications/Emacs.app/Contents/PkgInfo \
$emacs/Applications/Emacs.app/Contents/Resources \
$out/Applications/Emacs.app/Contents
substitute ${./wrapper.sh} $out/Applications/Emacs.app/Contents/MacOS/Emacs \
--subst-var-by bash ${emacs.stdenv.shell} \
--subst-var-by wrapperSiteLisp "$deps/share/emacs/site-lisp" \
--subst-var-by wrapperSiteLispNative "$deps/share/emacs/native-lisp" \
--subst-var-by prog "$emacs/Applications/Emacs.app/Contents/MacOS/Emacs"
chmod +x $out/Applications/Emacs.app/Contents/MacOS/Emacs
wrapProgramBinary $out/Applications/Emacs.app/Contents/MacOS/Emacs
fi
mkdir -p $out/share
# Link icons and desktop files into place
for dir in applications icons info man; do
ln -s $emacs/share/$dir $out/share/$dir
done
''