tvl-depot/nix/buildLisp/default.nix
sterni 3c5da97609 fix(nix/buildLisp): resolve eval problem in ccl code
The isPowerPC predicate has been [removed], since it was misleadingly
named (it just matches PowerPC, 32bit, little endian). This means the
64bit code path could now actually work.

Not sure about endianess, the CCL docs don't really say much regarding
that topic.

[removed]: https://github.com/NixOS/nixpkgs/pull/168113

Change-Id: Icf4a8c6b1df95fa597ed87508f57aaa73e6185ed
Reviewed-on: https://cl.tvl.fyi/c/depot/+/5796
Tested-by: BuildkiteCI
Autosubmit: sterni <sternenseemann@systemli.org>
Reviewed-by: tazjin <tazjin@tvl.su>
2022-06-01 10:46:03 +00:00

780 lines
30 KiB
Nix

# buildLisp provides Nix functions to build Common Lisp packages,
# targeting SBCL.
#
# buildLisp is designed to enforce conventions and do away with the
# free-for-all of existing Lisp build systems.
{ pkgs ? import <nixpkgs> { }, ... }:
let
inherit (builtins) map elemAt match filter;
inherit (pkgs) lib runCommandNoCC makeWrapper writeText writeShellScriptBin sbcl ecl-static ccl;
inherit (pkgs.stdenv) targetPlatform;
#
# Internal helper definitions
#
defaultImplementation = impls.sbcl;
# Many Common Lisp implementations (like ECL and CCL) will occasionally drop
# you into an interactive debugger even when executing something as a script.
# In nix builds we don't want such a situation: Any error should make the
# script exit non-zero. Luckily the ANSI standard specifies *debugger-hook*
# which is invoked before the debugger letting us just do that.
disableDebugger = writeText "disable-debugger.lisp" ''
(setf *debugger-hook*
(lambda (error hook)
(declare (ignore hook))
(format *error-output* "~%Unhandled error: ~a~%" error)
#+ccl (quit 1)
#+ecl (ext:quit 1)))
'';
# Process a list of arbitrary values which also contains “implementation
# filter sets” which describe conditonal inclusion of elements depending
# on the CL implementation used. Elements are processed in the following
# manner:
#
# * Paths, strings, derivations are left as is
# * A non-derivation attribute set is processed like this:
# 1. If it has an attribute equal to impl.name, replace with its value.
# 2. Alternatively use the value of the "default" attribute.
# 3. In all other cases delete the element from the list.
#
# This can be used to express dependencies or source files which are specific
# to certain implementations:
#
# srcs = [
# # mixable with unconditional entries
# ./package.lisp
#
# # implementation specific source files
# {
# ccl = ./impl-ccl.lisp;
# sbcl = ./impl-sbcl.lisp;
# ecl = ./impl-ecl.lisp;
# }
# ];
#
# deps = [
# # this dependency is ignored if impl.name != "sbcl"
# { sbcl = buildLisp.bundled "sb-posix"; }
#
# # only special casing for a single implementation
# {
# sbcl = buildLisp.bundled "uiop";
# default = buildLisp.bundled "asdf";
# }
# ];
implFilter = impl: xs:
let
isFilterSet = x: builtins.isAttrs x && !(lib.isDerivation x);
in
builtins.map
(
x: if isFilterSet x then x.${impl.name} or x.default else x
)
(builtins.filter
(
x: !(isFilterSet x) || x ? ${impl.name} || x ? default
)
xs);
# Generates lisp code which instructs the given lisp implementation to load
# all the given dependencies.
genLoadLispGeneric = impl: deps:
lib.concatStringsSep "\n"
(map (lib: "(load \"${lib}/${lib.lispName}.${impl.faslExt}\")")
(allDeps impl deps));
# 'genTestLispGeneric' generates a Lisp file that loads all sources and deps
# and executes expression for a given implementation description.
genTestLispGeneric = impl: { name, srcs, deps, expression }: writeText "${name}.lisp" ''
;; Dependencies
${impl.genLoadLisp deps}
;; Sources
${lib.concatStringsSep "\n" (map (src: "(load \"${src}\")") srcs)}
;; Test expression
(unless ${expression}
(exit :code 1))
'';
# 'dependsOn' determines whether Lisp library 'b' depends on 'a'.
dependsOn = a: b: builtins.elem a b.lispDeps;
# 'allDeps' flattens the list of dependencies (and their
# dependencies) into one ordered list of unique deps which
# all use the given implementation.
allDeps = impl: deps:
let
# The override _should_ propagate itself recursively, as every derivation
# would only expose its actually used dependencies. Use implementation
# attribute created by withExtras if present, override in all other cases
# (mainly bundled).
deps' = builtins.map
(dep: dep."${impl.name}" or (dep.overrideLisp (_: {
implementation = impl;
})))
deps;
in
(lib.toposort dependsOn (lib.unique (
lib.flatten (deps' ++ (map (d: d.lispDeps) deps'))
))).result;
# 'allNative' extracts all native dependencies of a dependency list
# to ensure that library load paths are set correctly during all
# compilations and program assembly.
allNative = native: deps: lib.unique (
lib.flatten (native ++ (map (d: d.lispNativeDeps) deps))
);
# Add an `overrideLisp` attribute to a function result that works
# similar to `overrideAttrs`, but is used specifically for the
# arguments passed to Lisp builders.
makeOverridable = f: orig: (f orig) // {
overrideLisp = new: makeOverridable f (orig // (new orig));
};
# This is a wrapper arround 'makeOverridable' which performs its
# function, but also adds a the following additional attributes to the
# resulting derivation, namely a repl attribute which builds a `lispWith`
# derivation for the current implementation and additional attributes for
# every all implementations. So `drv.sbcl` would build the derivation
# with SBCL regardless of what was specified in the initial arguments.
withExtras = f: args:
let
drv = (makeOverridable f) args;
in
lib.fix (self:
drv.overrideLisp
(old:
let
implementation = old.implementation or defaultImplementation;
brokenOn = old.brokenOn or [ ];
# TODO(sterni): https://github.com/Clozure/ccl/issues/405
targets = lib.subtractLists (brokenOn ++ [ "ccl" implementation.name ])
(builtins.attrNames impls);
in
{
passthru = (old.passthru or { }) // {
repl = implementation.lispWith [ self ];
# meta is done via passthru to minimize rebuilds caused by overriding
meta = (old.passthru.meta or { }) // {
ci = (old.passthru.meta.ci or { }) // {
inherit targets;
};
};
} // builtins.listToAttrs (builtins.map
(impl: {
inherit (impl) name;
value = self.overrideLisp (_: {
implementation = impl;
});
})
(builtins.attrValues impls));
}) // {
overrideLisp = new: withExtras f (args // new args);
});
# 'testSuite' builds a Common Lisp test suite that loads all of srcs and deps,
# and then executes expression to check its result
testSuite = { name, expression, srcs, deps ? [ ], native ? [ ], implementation }:
let
lispDeps = allDeps implementation (implFilter implementation deps);
lispNativeDeps = allNative native lispDeps;
filteredSrcs = implFilter implementation srcs;
in
runCommandNoCC name
{
LD_LIBRARY_PATH = lib.makeLibraryPath lispNativeDeps;
LANG = "C.UTF-8";
} ''
echo "Running test suite ${name}"
${implementation.runScript} ${
implementation.genTestLisp {
inherit name expression;
srcs = filteredSrcs;
deps = lispDeps;
}
} | tee $out
echo "Test suite ${name} succeeded"
'';
# 'impls' is an attribute set of attribute sets which describe how to do common
# tasks when building for different Common Lisp implementations. Each
# implementation set has the following members:
#
# Required members:
#
# - runScript :: string
# Describes how to invoke the implementation from the shell, so it runs a
# lisp file as a script and exits.
# - faslExt :: string
# File extension of the implementations loadable (FASL) files.
# Implementations are free to generate native object files, but with the way
# buildLisp works it is required that we can also 'load' libraries, so
# (additionally) building a FASL or equivalent is required.
# - genLoadLisp :: [ dependency ] -> string
# Returns lisp code to 'load' the given dependencies. 'genLoadLispGeneric'
# should work for most dependencies.
# - genCompileLisp :: { name, srcs, deps } -> file
# Builds a lisp file which instructs the implementation to build a library
# from the given source files when executed. After running at least
# the file "$out/${name}.${impls.${implementation}.faslExt}" should have
# been created.
# - genDumpLisp :: { name, main, deps } -> file
# Builds a lisp file which instructs the implementation to build an
# executable which runs 'main' (and exits) where 'main' is available from
# 'deps'. The executable should be created as "$out/bin/${name}", usually
# by dumping the lisp image with the replaced toplevel function replaced.
# - wrapProgram :: boolean
# Whether to wrap the resulting binary / image with a wrapper script setting
# `LD_LIBRARY_PATH`.
# - genTestLisp :: { name, srcs, deps, expression } -> file
# Builds a lisp file which loads the given 'deps' and 'srcs' files and
# then evaluates 'expression'. Depending on whether 'expression' returns
# true or false, the script must exit with a zero or non-zero exit code.
# 'genTestLispGeneric' will work for most implementations.
# - lispWith :: [ dependency ] -> drv
# Builds a script (or dumped image) which when executed loads (or has
# loaded) all given dependencies. When built this should create an executable
# at "$out/bin/${implementation}".
#
# Optional members:
#
# - bundled :: string -> library
# Allows giving an implementation specific builder for a bundled library.
# This function is used as a replacement for the internal defaultBundled
# function and only needs to support one implementation. The returned derivation
# must behave like one built by 'library' (in particular have the same files
# available in "$out" and the same 'passthru' attributes), but may be built
# completely differently.
impls = lib.mapAttrs (name: v: { inherit name; } // v) {
sbcl = {
runScript = "${sbcl}/bin/sbcl --script";
faslExt = "fasl";
# 'genLoadLisp' generates Lisp code that instructs SBCL to load all
# the provided Lisp libraries.
genLoadLisp = genLoadLispGeneric impls.sbcl;
# 'genCompileLisp' generates a Lisp file that instructs SBCL to
# compile the provided list of Lisp source files to "$out/${name}.fasl".
genCompileLisp = { name, srcs, deps }: writeText "sbcl-compile.lisp" ''
;; This file compiles the specified sources into the Nix build
;; directory, creating one FASL file for each source.
(require 'sb-posix)
${impls.sbcl.genLoadLisp deps}
(defun nix-compile-lisp (srcfile)
(let ((outfile (make-pathname :type "fasl"
:directory (or (sb-posix:getenv "NIX_BUILD_TOP")
(error "not running in a Nix build"))
:name (substitute #\- #\/ srcfile))))
(multiple-value-bind (out-truename _warnings-p failure-p)
(compile-file srcfile :output-file outfile)
(if failure-p (sb-posix:exit 1)
(progn
;; For the case of multiple files belonging to the same
;; library being compiled, load them in order:
(load out-truename)
;; Return pathname as a string for cat-ting it later
(namestring out-truename))))))
(let ((*compile-verbose* t)
(catted-fasl (make-pathname :type "fasl"
:directory (or (sb-posix:getenv "out")
(error "not running in a Nix build"))
:name "${name}")))
(with-open-file (file catted-fasl
:direction :output
:if-does-not-exist :create)
;; SBCL's FASL files can just be bundled together using cat
(sb-ext:run-program "cat"
(mapcar #'nix-compile-lisp
;; These forms were inserted by the Nix build:
'(${
lib.concatMapStringsSep "\n" (src: "\"${src}\"") srcs
}))
:output file :search t)))
'';
# 'genDumpLisp' generates a Lisp file that instructs SBCL to dump
# the currently loaded image as an executable to $out/bin/$name.
#
# TODO(tazjin): Compression is currently unsupported because the
# SBCL in nixpkgs is, by default, not compiled with zlib support.
genDumpLisp = { name, main, deps }: writeText "sbcl-dump.lisp" ''
(require 'sb-posix)
${impls.sbcl.genLoadLisp deps}
(let* ((bindir (concatenate 'string (sb-posix:getenv "out") "/bin"))
(outpath (make-pathname :name "${name}"
:directory bindir)))
;; Tell UIOP that argv[0] will refer to running image, not the lisp impl
(when (find-package :uiop)
(eval `(setq ,(find-symbol "*IMAGE-DUMPED-P*" :uiop) :executable)))
(save-lisp-and-die outpath
:executable t
:toplevel
(lambda ()
;; Filter out everything prior to the `--` we
;; insert in the wrapper to prevent SBCL from
;; parsing arguments at startup
(setf sb-ext:*posix-argv*
(delete "--" sb-ext:*posix-argv*
:test #'string= :count 1))
(${main}))
:purify t))
'';
wrapProgram = true;
genTestLisp = genTestLispGeneric impls.sbcl;
lispWith = deps:
let lispDeps = filter (d: !d.lispBinary) (allDeps impls.sbcl deps);
in writeShellScriptBin "sbcl" ''
export LD_LIBRARY_PATH="${lib.makeLibraryPath (allNative [] lispDeps)}"
export LANG="C.UTF-8"
exec ${sbcl}/bin/sbcl ${
lib.optionalString (deps != [])
"--load ${writeText "load.lisp" (impls.sbcl.genLoadLisp lispDeps)}"
} $@
'';
};
ecl = {
runScript = "${ecl-static}/bin/ecl --load ${disableDebugger} --shell";
faslExt = "fasc";
genLoadLisp = genLoadLispGeneric impls.ecl;
genCompileLisp = { name, srcs, deps }: writeText "ecl-compile.lisp" ''
;; This seems to be required to bring make the 'c' package available
;; early, otherwise ECL tends to fail with a read failure
(ext:install-c-compiler)
;; Load dependencies
${impls.ecl.genLoadLisp deps}
(defun getenv-or-fail (var)
(or (ext:getenv var)
(error (format nil "Missing expected environment variable ~A" var))))
(defun nix-compile-file (srcfile &key native)
"Compile the given srcfile into a compilation unit in :out-dir using
a unique name based on srcfile as the filename which is returned after
compilation. If :native is true, create an native object file,
otherwise a byte-compile fasc file is built and immediately loaded."
(let* ((unique-name (substitute #\_ #\/ srcfile))
(out-file (make-pathname :type (if native "o" "fasc")
:directory (getenv-or-fail "NIX_BUILD_TOP")
:name unique-name)))
(multiple-value-bind (out-truename _warnings-p failure-p)
(compile-file srcfile :system-p native
:load (not native)
:output-file out-file
:verbose t :print t)
(if failure-p (ext:quit 1) out-truename))))
(let* ((out-dir (getenv-or-fail "out"))
(nix-build-dir (getenv-or-fail "NIX_BUILD_TOP"))
(srcs
;; These forms are inserted by the Nix build
'(${lib.concatMapStringsSep "\n" (src: "\"${src}\"") srcs})))
;; First, we'll byte compile loadable FASL files and load them
;; immediately. Since we are using a statically linked ECL, there's
;; no way to load native objects, so we rely on byte compilation
;; for all our loading which is crucial in compilation of course.
(ext:install-bytecodes-compiler)
;; ECL's bytecode FASLs can just be concatenated to create a bundle
;; at least since a recent bugfix which we apply as a patch.
;; See also: https://gitlab.com/embeddable-common-lisp/ecl/-/issues/649
(let ((bundle-out (make-pathname :type "fasc" :name "${name}"
:directory out-dir)))
(with-open-file (fasc-stream bundle-out :direction :output)
(ext:run-program "cat"
(mapcar (lambda (f)
(namestring
(nix-compile-file f :native nil)))
srcs)
:output fasc-stream)))
(ext:install-c-compiler)
;; Build a (natively compiled) static archive (.a) file. We want to
;; use this for (statically) linking an executable later. The bytecode
;; dance is only required because we can't load such archives.
(c:build-static-library
(make-pathname :type "a" :name "${name}" :directory out-dir)
:lisp-files (mapcar (lambda (x)
(nix-compile-file x :native t))
srcs)))
'';
genDumpLisp = { name, main, deps }: writeText "ecl-dump.lisp" ''
(defun getenv-or-fail (var)
(or (ext:getenv var)
(error (format nil "Missing expected environment variable ~A" var))))
${impls.ecl.genLoadLisp deps}
;; makes a 'c' package available that can link executables
(ext:install-c-compiler)
(c:build-program
(merge-pathnames (make-pathname :directory '(:relative "bin")
:name "${name}")
(truename (getenv-or-fail "out")))
:epilogue-code `(progn
;; UIOP doesn't understand ECL, so we need to make it
;; aware that we are a proper executable, causing it
;; to handle argument parsing and such properly. Since
;; this needs to work even when we're not using UIOP,
;; we need to do some compile-time acrobatics.
,(when (find-package :uiop)
`(setf ,(find-symbol "*IMAGE-DUMPED-P*" :uiop) :executable))
;; Run the actual application
(${main})
;; and exit.
(ext:quit))
;; ECL can't remember these from its own build
:ld-flags '("-static")
:lisp-files
;; The following forms are inserted by the Nix build
'(${
lib.concatMapStrings (dep: ''
"${dep}/${dep.lispName}.a"
'') (allDeps impls.ecl deps)
}))
'';
wrapProgram = false;
genTestLisp = genTestLispGeneric impls.ecl;
lispWith = deps:
let lispDeps = filter (d: !d.lispBinary) (allDeps impls.ecl deps);
in writeShellScriptBin "ecl" ''
exec ${ecl-static}/bin/ecl ${
lib.optionalString (deps != [])
"--load ${writeText "load.lisp" (impls.ecl.genLoadLisp lispDeps)}"
} $@
'';
bundled = name: runCommandNoCC "${name}-cllib"
{
passthru = {
lispName = name;
lispNativeDeps = [ ];
lispDeps = [ ];
lispBinary = false;
repl = impls.ecl.lispWith [ (impls.ecl.bundled name) ];
};
} ''
mkdir -p "$out"
ln -s "${ecl-static}/lib/ecl-${ecl-static.version}/${name}.${impls.ecl.faslExt}" -t "$out"
ln -s "${ecl-static}/lib/ecl-${ecl-static.version}/lib${name}.a" "$out/${name}.a"
'';
};
ccl = {
# Relatively bespoke wrapper script necessary to make CCL just™ execute
# a lisp file as a script.
runScript = pkgs.writers.writeBash "ccl" ''
# don't print intro message etc.
args=("--quiet")
# makes CCL crash on error instead of entering the debugger
args+=("--load" "${disableDebugger}")
# load files from command line in order
for f in "$@"; do
args+=("--load" "$f")
done
# Exit if everything was processed successfully
args+=("--eval" "(quit)")
exec ${ccl}/bin/ccl ''${args[@]}
'';
# See https://ccl.clozure.com/docs/ccl.html#building-definitions
faslExt =
/**/
if targetPlatform.isPower && targetPlatform.is32bit then "pfsl"
else if targetPlatform.isPower && targetPlatform.is64bit then "p64fsl"
else if targetPlatform.isx86_64 && targetPlatform.isLinux then "lx64fsl"
else if targetPlatform.isx86_32 && targetPlatform.isLinux then "lx32fsl"
else if targetPlatform.isAarch32 && targetPlatform.isLinux then "lafsl"
else if targetPlatform.isx86_32 && targetPlatform.isDarwin then "dx32fsl"
else if targetPlatform.isx86_64 && targetPlatform.isDarwin then "dx64fsl"
else if targetPlatform.isx86_64 && targetPlatform.isDarwin then "dx64fsl"
else if targetPlatform.isx86_32 && targetPlatform.isFreeBSD then "fx32fsl"
else if targetPlatform.isx86_64 && targetPlatform.isFreeBSD then "fx64fsl"
else if targetPlatform.isx86_32 && targetPlatform.isWindows then "wx32fsl"
else if targetPlatform.isx86_64 && targetPlatform.isWindows then "wx64fsl"
else builtins.throw "Don't know what FASLs are called for this platform: "
+ pkgs.stdenv.targetPlatform.system;
genLoadLisp = genLoadLispGeneric impls.ccl;
genCompileLisp = { name, srcs, deps }: writeText "ccl-compile.lisp" ''
${impls.ccl.genLoadLisp deps}
(defun getenv-or-fail (var)
(or (getenv var)
(error (format nil "Missing expected environment variable ~A" var))))
(defun nix-compile-file (srcfile)
"Trivial wrapper around COMPILE-FILE which causes CCL to exit if
compilation fails and LOADs the compiled file on success."
(let ((output (make-pathname :name (substitute #\_ #\/ srcfile)
:type "${impls.ccl.faslExt}"
:directory (getenv-or-fail "NIX_BUILD_TOP"))))
(multiple-value-bind (out-truename _warnings-p failure-p)
(compile-file srcfile :output-file output :print t :verbose t)
(declare (ignore _warnings-p))
(if failure-p (quit 1)
(progn (load out-truename) out-truename)))))
(fasl-concatenate (make-pathname :name "${name}" :type "${impls.ccl.faslExt}"
:directory (getenv-or-fail "out"))
(mapcar #'nix-compile-file
;; These forms where inserted by the Nix build
'(${
lib.concatMapStrings (src: ''
"${src}"
'') srcs
})))
'';
genDumpLisp = { name, main, deps }: writeText "ccl-dump.lisp" ''
${impls.ccl.genLoadLisp deps}
(let* ((out (or (getenv "out") (error "Not running in a Nix build")))
(bindir (concatenate 'string out "/bin/"))
(executable (make-pathname :directory bindir :name "${name}")))
;; Tell UIOP that argv[0] will refer to running image, not the lisp impl
(when (find-package :uiop)
(eval `(setf ,(find-symbol "*IMAGE-DUMPED-P*" :uiop) :executable)))
(save-application executable
:purify t
:error-handler :quit
:toplevel-function
(lambda ()
;; Filter out everything prior to the `--` we
;; insert in the wrapper to prevent SBCL from
;; parsing arguments at startup
(setf ccl:*command-line-argument-list*
(delete "--" ccl:*command-line-argument-list*
:test #'string= :count 1))
(${main}))
:mode #o755
;; TODO(sterni): use :native t on macOS
:prepend-kernel t))
'';
wrapProgram = true;
genTestLisp = genTestLispGeneric impls.ccl;
lispWith = deps:
let lispDeps = filter (d: !d.lispBinary) (allDeps impls.ccl deps);
in writeShellScriptBin "ccl" ''
export LD_LIBRARY_PATH="${lib.makeLibraryPath (allNative [] lispDeps)}"
exec ${ccl}/bin/ccl ${
lib.optionalString (deps != [])
"--load ${writeText "load.lisp" (impls.ccl.genLoadLisp lispDeps)}"
} "$@"
'';
};
};
#
# Public API functions
#
# 'library' builds a list of Common Lisp files into an implementation
# specific library format, usually a single FASL file, which can then be
# loaded and built into an executable via 'program'.
library =
{ name
, implementation ? defaultImplementation
, brokenOn ? [ ] # TODO(sterni): make this a warning
, srcs
, deps ? [ ]
, native ? [ ]
, tests ? null
, passthru ? { }
}:
let
filteredDeps = implFilter implementation deps;
filteredSrcs = implFilter implementation srcs;
lispNativeDeps = (allNative native filteredDeps);
lispDeps = allDeps implementation filteredDeps;
testDrv =
if ! isNull tests
then
testSuite
{
name = tests.name or "${name}-test";
srcs = filteredSrcs ++ (tests.srcs or [ ]);
deps = filteredDeps ++ (tests.deps or [ ]);
expression = tests.expression;
inherit implementation;
}
else null;
in
lib.fix (self: runCommandNoCC "${name}-cllib"
{
LD_LIBRARY_PATH = lib.makeLibraryPath lispNativeDeps;
LANG = "C.UTF-8";
passthru = passthru // {
inherit lispNativeDeps lispDeps;
lispName = name;
lispBinary = false;
tests = testDrv;
};
} ''
${if ! isNull testDrv
then "echo 'Test ${testDrv} succeeded'"
else "echo 'No tests run'"}
mkdir $out
${implementation.runScript} ${
implementation.genCompileLisp {
srcs = filteredSrcs;
inherit name;
deps = lispDeps;
}
}
'');
# 'program' creates an executable, usually containing a dumped image of the
# specified sources and dependencies.
program =
{ name
, implementation ? defaultImplementation
, brokenOn ? [ ] # TODO(sterni): make this a warning
, main ? "${name}:main"
, srcs
, deps ? [ ]
, native ? [ ]
, tests ? null
, passthru ? { }
}:
let
filteredSrcs = implFilter implementation srcs;
filteredDeps = implFilter implementation deps;
lispDeps = allDeps implementation filteredDeps;
libPath = lib.makeLibraryPath (allNative native lispDeps);
# overriding is used internally to propagate the implementation to use
selfLib = (makeOverridable library) {
inherit name native brokenOn;
deps = lispDeps;
srcs = filteredSrcs;
};
testDrv =
if ! isNull tests
then
testSuite
{
name = tests.name or "${name}-test";
srcs =
(
# testSuite does run implFilter as well
filteredSrcs ++ (tests.srcs or [ ])
);
deps = filteredDeps ++ (tests.deps or [ ]);
expression = tests.expression;
inherit implementation;
}
else null;
in
lib.fix (self: runCommandNoCC "${name}"
{
nativeBuildInputs = [ makeWrapper ];
LD_LIBRARY_PATH = libPath;
LANG = "C.UTF-8";
passthru = passthru // {
lispName = name;
lispDeps = [ selfLib ];
lispNativeDeps = native;
lispBinary = true;
tests = testDrv;
};
}
(''
${if ! isNull testDrv
then "echo 'Test ${testDrv} succeeded'"
else ""}
mkdir -p $out/bin
${implementation.runScript} ${
implementation.genDumpLisp {
inherit name main;
deps = ([ selfLib ] ++ lispDeps);
}
}
'' + lib.optionalString implementation.wrapProgram ''
wrapProgram $out/bin/${name} \
--prefix LD_LIBRARY_PATH : "${libPath}" \
--add-flags "\$NIX_BUILDLISP_LISP_ARGS --"
''));
# 'bundled' creates a "library" which makes a built-in package available,
# such as any of SBCL's sb-* packages or ASDF. By default this is done
# by calling 'require', but implementations are free to provide their
# own specific bundled function.
bundled = name:
let
# TODO(sterni): allow overriding args to underlying 'library' (e. g. srcs)
defaultBundled = implementation: name: library {
inherit name implementation;
srcs = lib.singleton (builtins.toFile "${name}.lisp" "(require '${name})");
};
bundled' =
{ implementation ? defaultImplementation
, name
}:
implementation.bundled or (defaultBundled implementation) name;
in
(makeOverridable bundled') {
inherit name;
};
in
{
library = withExtras library;
program = withExtras program;
inherit bundled;
# 'sbclWith' creates an image with the specified libraries /
# programs loaded in SBCL.
sbclWith = impls.sbcl.lispWith;
inherit (impls)
sbcl
ecl
ccl
;
}