nomicon/pkgs/development/lisp-modules-new/lisp-packages.nix

# TODO:
# - faster build by using lisp with preloaded asdf?
# - dont include java libs unless abcl?
# - dont use build-asdf-system to build lispWithPackages?
# - make the lisp packages overridable? (e.g. buildInputs glibc->musl)
# - build asdf with nix and use that instead of one shipped with impls
#   (e.g. to fix build with clisp - does anyone use clisp?)
# - claspPackages ? (gotta package clasp with nix first)
# - hard one: remove unrelated sources ( of systems not being built)
# - figure out a less awkward way to patch sources
#   (have to build from src directly for SLIME to work, so can't just patch sources in place)

{ pkgs, lib, stdenv, ... }:


let

  inherit (lib)
    length
    filter
    foldl
    unique
    id
    concat
    concatMap
    mutuallyExclusive
    findFirst
    remove
    setAttr
    getAttr
    hasAttr
    attrNames
    attrValues
    filterAttrs
    mapAttrs
    splitString
    concatStringsSep
    concatMapStringsSep
    replaceStrings
    removeSuffix
    hasInfix
    optionalString
    makeLibraryPath
    makeSearchPath
  ;

  inherit (builtins)
    head
    tail
    elem
    split
    storeDir;

  # Returns a flattened dependency tree without duplicates
  # This is probably causing performance problems...
  flattenedDeps = lispLibs:
    let
      walk = acc: node:
        if length node.lispLibs == 0
        then acc
        else foldl walk (acc ++ node.lispLibs) node.lispLibs;
    in unique (walk [] { inherit lispLibs; });

  # Stolen from python-packages.nix
  # Actually no idea how this works
  makeOverridableLispPackage = f: origArgs:
    let
      ff = f origArgs;
      overrideWith = newArgs: origArgs // (if pkgs.lib.isFunction newArgs then newArgs origArgs else newArgs);
    in
      if builtins.isAttrs ff then (ff // {
        overrideLispAttrs = newArgs: makeOverridableLispPackage f (overrideWith newArgs);
      })
      else if builtins.isFunction ff then {
        overrideLispAttrs = newArgs: makeOverridableLispPackage f (overrideWith newArgs);
        __functor = self: ff;
      }
      else ff;

  #
  # Wrapper around stdenv.mkDerivation for building ASDF systems.
  #
  build-asdf-system = makeOverridableLispPackage (
    { pname,
      version,
      src ? null,
      patches ? [],

      # Native libraries, will be appended to the library path
      nativeLibs ? [],

      # Java libraries for ABCL, will be appended to the class path
      javaLibs ? [],

      # Lisp dependencies
      # these should be packages built with `build-asdf-system`
      lispLibs ? [],

      # Lisp command to run buildScript
      lisp,

      # Some libraries have multiple systems under one project, for
      # example, cffi has cffi-grovel, cffi-toolchain etc.  By
      # default, only the `pname` system is build.
      #
      # .asd's not listed in `systems` are removed in
      # installPhase. This prevents asdf from referring to uncompiled
      # systems on run time.
      #
      # Also useful when the pname is differrent than the system name,
      # such as when using reverse domain naming.
      systems ? [ pname ],

      # The .asd files that this package provides
      asds ? systems,

      # Other args to mkDerivation
      ...
    } @ args:

    let

      # A little slow for big dependency graphs.
      # How to make it faster?
      # Maybe do it in the buildScript in Common Lisp or Bash, instead
      # of here with Nix?
      libsFlat = flattenedDeps lispLibs;

    in stdenv.mkDerivation (rec {
      inherit pname version nativeLibs javaLibs lispLibs lisp systems asds;

      src = if builtins.length patches > 0
            then apply-patches args
            else args.src;

      # When src is null, we are building a lispWithPackages and only
      # want to make use of the dependency environment variables
      # generated by build-asdf-system
      dontUnpack = src == null;


      # TODO: Do the propagation like for lisp, native and java like this:
      # https://github.com/teu5us/nix-lisp-overlay/blob/e30dafafa5c1b9a5b0ccc9aaaef9d285d9f0c46b/pkgs/development/lisp-modules/setup-hook.sh
      # Then remove the "echo >> nix-drvs" from buildScript

      # Tell asdf where to find system definitions of lisp dependencies.
      #
      # The "//" ending is important as it makes asdf recurse into
      # subdirectories when searching for .asd's. This is to support
      # projects where .asd's aren't in the root directory.
      CL_SOURCE_REGISTRY = makeSearchPath "/" libsFlat;

      # Tell lisp where to find native dependencies
      #
      # Normally generated from lispLibs, but LD_LIBRARY_PATH as a
      # derivation attr itself can be used as an extension point when
      # the libs are not in a '/lib' subdirectory
      LD_LIBRARY_PATH =
        let
          libs = concatMap (x: x.nativeLibs) libsFlat;
          paths = filter (x: x != "") (map (x: x.LD_LIBRARY_PATH) libsFlat);
          path =
            makeLibraryPath libs
            + optionalString (length paths != 0) ":"
            + concatStringsSep ":" paths;
        in concatStringsSep ":" (unique (splitString ":" path));

      # Java libraries For ABCL
      CLASSPATH = makeSearchPath "share/java/*" (concatMap (x: x.javaLibs) libsFlat);

      # Portable script to build the systems.
      #
      # `lisp` must evaluate this file then exit immediately. For
      # example, SBCL's --script flag does just that.
      #
      # NOTE:
      # Every other library worked fine with asdf:compile-system in
      # buildScript.
      #
      # cl-syslog, for some reason, signals that CL-SYSLOG::VALID-SD-ID-P
      # is undefined with compile-system, but works perfectly with
      # load-system. Strange.
      buildScript = pkgs.writeText "build-${pname}.lisp" ''
        (require :asdf)
        (dolist (s '(${concatStringsSep " " systems}))
          (asdf:load-system s))
      '';

      buildPhase = optionalString (src != null) ''
        # In addition to lisp dependencies, make asdf see the .asd's
        # of the systems being built
        #
        # *Append* src since `lispLibs` can provide .asd's that are
        # also in `src` but are not in `systems` (that is, the .asd's
        # that will be deleted in installPhase). We don't want to
        # rebuild them, but to load them from lispLibs.
        #
        # NOTE: It's important to read files from `src` instead of
        # from pwd to get go-to-definition working with SLIME
        export CL_SOURCE_REGISTRY=$CL_SOURCE_REGISTRY:${src}//

        # Similiarily for native deps
        export LD_LIBRARY_PATH=${makeLibraryPath nativeLibs}:$LD_LIBRARY_PATH
        export CLASSPATH=${makeSearchPath "share/java/*" javaLibs}:$CLASSPATH

        # Make asdf compile from `src` to pwd and load `lispLibs`
        # from storeDir. Otherwise it could try to recompile lisp deps.
        export ASDF_OUTPUT_TRANSLATIONS="${src}:$(pwd):${storeDir}:${storeDir}"

        # Make Nix track the dependencies so that graphs can be generated with
        # nix-store -q --graph
        echo "$lispLibs" >> nix-drvs
        echo "$nativeLibs" >> nix-drvs
        echo "$javaLibs" >> nix-drvs

        # Finally, compile the systems
        ${lisp} $buildScript
      '';

      # Copy compiled files to store
      #
      # Make sure to include '$' in regex to prevent skipping
      # stuff like 'iolib.asdf.asd' for system 'iolib.asd'
      #
      # Same with '/': `local-time.asd` for system `cl-postgres+local-time.asd`
      installPhase =
        let
          mkSystemsRegex = systems:
            concatMapStringsSep "\\|" (replaceStrings ["." "+"] ["[.]" "[+]"]) systems;
        in
      ''
        mkdir -pv $out
        cp -r * $out

        # Remove all .asd files except for those in `systems`.
        find $out -name "*.asd" \
        | grep -v "/\(${mkSystemsRegex systems}\)\.asd$" \
        | xargs rm -fv || true
      '';

      # Not sure if it's needed, but caused problems with SBCL
      # save-lisp-and-die binaries in the past
      dontStrip = true;
      dontFixup = true;

    } // args));

  # Need to do that because we always want to compile straight from
  # `src` for go-to-definition to work in SLIME.
  apply-patches = { patches, src, ... }:
    stdenv.mkDerivation {
      inherit patches src;
      pname = "source";
      version = "patched";
      dontConfigure = true;
      dontBuild = true;
      dontStrip = true;
      dontFixup = true;
      installPhase = ''
        mkdir -pv $out
        cp -r * $out
      '';
    };

  # Build the set of lisp packages using `lisp`
  # These packages are defined manually for one reason or another:
  # - The library is not in quicklisp
  # - The library that is in quicklisp is broken
  # - Special build procedure such as cl-unicode, asdf
  #
  # These Probably could be done even in ql.nix
  # - Want to pin a specific commit
  # - Want to apply custom patches
  #
  # They can use the auto-imported quicklisp packages as dependencies,
  # but some of those don't work out of the box.
  #
  # E.g if a QL package depends on cl-unicode it won't build out of
  # the box. The dependency has to be rewritten using the manually
  # fixed cl-unicode.
  #
  # This is done by generating a 'fixed' set of Quicklisp packages by
  # calling quicklispPackagesFor with the right `fixup`.
  commonLispPackagesFor = lisp:
    let
      build-asdf-system' = body: build-asdf-system (body // { inherit lisp; });
    in import ./packages.nix {
      inherit pkgs;
      inherit lisp;
      inherit quicklispPackagesFor;
      inherit fixupFor;
      build-asdf-system = build-asdf-system';
    };

  # Build the set of packages imported from quicklisp using `lisp`
  quicklispPackagesFor = { lisp, fixup ? lib.id, build ? build-asdf-system }:
    let
      build-asdf-system' = body: build (body // {
        inherit lisp;
      });
    in import ./ql.nix {
      inherit pkgs;
      inherit fixup;
      build-asdf-system = build-asdf-system';
    };

  # Rewrite deps of pkg to use manually defined packages
  #
  # The purpose of manual packages is to customize one package, but
  # then it has to be propagated everywhere for it to make sense and
  # have consistency in the package tree.
  fixupFor = manualPackages: qlPkg:
    assert (lib.isAttrs qlPkg && !lib.isDerivation qlPkg);
    let
      # Make it possible to reuse generated attrs without recursing into oblivion
      packages = (lib.filterAttrs (n: v: n != qlPkg.pname) manualPackages);
      substituteLib = pkg:
        if lib.hasAttr pkg.pname packages
        then packages.${pkg.pname}
        else pkg;
      pkg = substituteLib qlPkg;
    in pkg // { lispLibs = map substituteLib pkg.lispLibs; };

  makeAttrName = str:
    removeSuffix
      "_"
      (replaceStrings
        ["+" "." "/"]
        ["_plus_" "_dot_" "_slash_"]
        str);

  oldMakeWrapper = pkgs.runCommand "make-wrapper.sh" {} ''
    substitute ${./old-make-wrapper.sh} $out \
      --replace @shell@ ${pkgs.bash}/bin/bash
  '';

  # Creates a lisp wrapper with `packages` installed
  #
  # `packages` is a function that takes `clpkgs` - a set of lisp
  # packages - as argument and returns the list of packages to be
  # installed
  lispWithPackagesInternal = clpkgs: packages:
    # FIXME just use flattenedDeps instead
    (build-asdf-system rec {
      lisp = (head (lib.attrValues clpkgs)).lisp;
      # See dontUnpack in build-asdf-system
      src = null;
      pname = baseNameOf (head (split " " lisp));
      version = "with-packages";
      lispLibs = packages clpkgs;
      systems = [];
    }).overrideAttrs(o: {
      installPhase = ''
        # The recent version of makeWrapper causes breakage. For more info see
        # https://github.com/Uthar/nix-cl/issues/2
        source ${oldMakeWrapper}

        mkdir -pv $out/bin
        makeWrapper \
          ${head (split " " o.lisp)} \
          $out/bin/${baseNameOf (head (split " " o.lisp))} \
          --prefix CL_SOURCE_REGISTRY : "${o.CL_SOURCE_REGISTRY}" \
          --prefix ASDF_OUTPUT_TRANSLATIONS : ${concatStringsSep "::" (flattenedDeps o.lispLibs)}: \
          --prefix LD_LIBRARY_PATH : "${o.LD_LIBRARY_PATH}" \
          --prefix LD_LIBRARY_PATH : "${makeLibraryPath o.nativeLibs}" \
          --prefix CLASSPATH : "${o.CLASSPATH}" \
          --prefix CLASSPATH : "${makeSearchPath "share/java/*" o.javaLibs}"
      '';
    });

  lispWithPackages = lisp:
    let
      packages = lispPackagesFor lisp;
    in lispWithPackagesInternal packages;

  lispPackagesFor = lisp:
    let
      packages = commonLispPackagesFor lisp;
      qlPackages = quicklispPackagesFor {
        inherit lisp;
        fixup = fixupFor packages;
      };
    in qlPackages // packages;

  commonLispPackages = rec {
    inherit
      build-asdf-system
      lispWithPackagesInternal
      lispPackagesFor
      lispWithPackages;

    # Uncomment for debugging/development
    # inherit
    #   flattenedDeps
    #   concatMap
    #   attrNames
    #   getAttr
    #   filterAttrs
    #   filter
    #   elem
    #   unique
    #   makeAttrName
    #   length;

    # TODO: uncomment clasp when clasp 1.0.0 is packaged

    # There's got to be a better way than this...
    # The problem was that with --load everywhere, some
    # implementations didn't exit with 0 on compilation failure
    # Maybe a handler-case in buildScript?
    sbcl  = "${pkgs.sbcl}/bin/sbcl --script";
    ecl   = "${pkgs.ecl}/bin/ecl --shell";
    abcl  = ''${pkgs.abcl}/bin/abcl --batch --eval "(load \"$buildScript\")"'';
    ccl   = ''${pkgs.ccl}/bin/ccl --batch --eval "(load \"$buildScript\")" --'';
    # clasp = ''${pkgs.clasp}/bin/clasp --non-interactive --quit --load'';

    # Manually defined packages shadow the ones imported from quicklisp

    sbclPackages  = lispPackagesFor sbcl;
    eclPackages   = lispPackagesFor ecl;
    abclPackages  = lispPackagesFor abcl;
    cclPackages   = lispPackagesFor ccl;
    # claspPackages = lispPackagesFor clasp;

    sbclWithPackages  = lispWithPackages sbcl;
    eclWithPackages   = lispWithPackages ecl;
    abclWithPackages  = lispWithPackages abcl;
    cclWithPackages   = lispWithPackages ccl;
    # claspWithPackages = lispWithPackages clasp;
  };

in commonLispPackages