{ minor_version, major_version, patch_version, patches ? [] , ...}@args: let versionNoPatch = "${toString major_version}.${toString minor_version}"; version = "${versionNoPatch}.${toString patch_version}"; safeX11 = stdenv: !(stdenv.isAarch32 || stdenv.isMips || stdenv.hostPlatform.isStatic); in { lib, stdenv, fetchurl, ncurses, buildEnv, libunwind, fetchpatch , libX11, xorgproto, useX11 ? safeX11 stdenv && lib.versionOlder version "4.09" , aflSupport ? false , flambdaSupport ? false , spaceTimeSupport ? false }: assert useX11 -> safeX11 stdenv; assert aflSupport -> lib.versionAtLeast version "4.05"; assert flambdaSupport -> lib.versionAtLeast version "4.03"; assert spaceTimeSupport -> lib.versionAtLeast version "4.04"; let src = args.src or (fetchurl { url = args.url or "http://caml.inria.fr/pub/distrib/ocaml-${versionNoPatch}/ocaml-${version}.tar.xz"; inherit (args) sha256; }); in let useNativeCompilers = !stdenv.isMips; inherit (lib) optional optionals optionalString; pname = "ocaml${optionalString aflSupport "+afl"}${optionalString spaceTimeSupport "+spacetime"}${optionalString flambdaSupport "+flambda"}"; in let x11env = buildEnv { name = "x11env"; paths = [libX11 xorgproto]; }; x11lib = x11env + "/lib"; x11inc = x11env + "/include"; fetchpatch' = x: if builtins.isAttrs x then fetchpatch x else x; in stdenv.mkDerivation (args // { inherit pname version src; patches = map fetchpatch' patches; strictDeps = true; prefixKey = "-prefix "; configureFlags = let flags = new: old: if lib.versionAtLeast version "4.08" then new else old ; in optionals useX11 (flags [ "--x-libraries=${x11lib}" "--x-includes=${x11inc}"] [ "-x11lib" x11lib "-x11include" x11inc ]) ++ optional aflSupport (flags "--with-afl" "-afl-instrument") ++ optional flambdaSupport (flags "--enable-flambda" "-flambda") ++ optional spaceTimeSupport (flags "--enable-spacetime" "-spacetime") ++ optional (stdenv.hostPlatform.isStatic && (lib.versionOlder version "4.08")) "-no-shared-libs" ++ optionals (stdenv.hostPlatform != stdenv.buildPlatform && lib.versionOlder version "4.08") [ "-host ${stdenv.hostPlatform.config}" "-target ${stdenv.targetPlatform.config}" ]; dontAddStaticConfigureFlags = lib.versionOlder version "4.08"; # on aarch64-darwin using --host and --target causes the build to invoke # `aarch64-apple-darwin-clang` while using assembler. However, such binary # does not exist. So, disable these configure flags on `aarch64-darwin`. # See #144785 for details. configurePlatforms = lib.optionals (lib.versionAtLeast version "4.08" && !(stdenv.isDarwin && stdenv.isAarch64)) [ "host" "target" ]; # x86_64-unknown-linux-musl-ld: -r and -pie may not be used together hardeningDisable = lib.optional (lib.versionAtLeast version "4.09" && stdenv.hostPlatform.isMusl) "pie" ++ lib.optional (lib.versionAtLeast version "5.0" && stdenv.cc.isClang) "strictoverflow" ++ lib.optionals (args ? hardeningDisable) args.hardeningDisable; # Older versions have some race: # cp: cannot stat 'boot/ocamlrun': No such file or directory # make[2]: *** [Makefile:199: backup] Error 1 enableParallelBuilding = lib.versionAtLeast version "4.08"; # Workaround lack of parallelism support among top-level targets: # we place nixpkgs-specific targets to a separate file and set # sequential order among them as a single rule. makefile = ./Makefile.nixpkgs; buildFlags = if useNativeCompilers then ["nixpkgs_world_bootstrap_world_opt"] else ["nixpkgs_world"]; buildInputs = optional (lib.versionOlder version "4.07") ncurses ++ optionals useX11 [ libX11 xorgproto ]; propagatedBuildInputs = optional spaceTimeSupport libunwind; installTargets = [ "install" ] ++ optional useNativeCompilers "installopt"; preConfigure = optionalString (lib.versionOlder version "4.04") '' CAT=$(type -tp cat) sed -e "s@/bin/cat@$CAT@" -i config/auto-aux/sharpbang '' + optionalString (stdenv.isDarwin && lib.versionOlder version "4.13") '' # Do what upstream does by default now: https://github.com/ocaml/ocaml/pull/10176 # This is required for aarch64-darwin, everything else works as is. AS="${stdenv.cc}/bin/cc -c" ASPP="${stdenv.cc}/bin/cc -c" '' + optionalString (lib.versionOlder version "4.08" && stdenv.hostPlatform.isStatic) '' configureFlagsArray+=("-cc" "$CC" "-as" "$AS" "-partialld" "$LD -r") ''; postBuild = '' mkdir -p $out/include ln -sv $out/lib/ocaml/caml $out/include/caml ''; passthru = { nativeCompilers = useNativeCompilers; }; meta = with lib; { homepage = "https://ocaml.org/"; branch = versionNoPatch; license = with licenses; [ qpl /* compiler */ lgpl2 /* library */ ]; description = "OCaml is an industrial-strength programming language supporting functional, imperative and object-oriented styles"; longDescription = '' OCaml is a general purpose programming language with an emphasis on expressiveness and safety. Developed for more than 20 years at Inria by a group of leading researchers, it has an advanced type system that helps catch your mistakes without getting in your way. It's used in environments where a single mistake can cost millions and speed matters, is supported by an active community, and has a rich set of libraries and development tools. It's widely used in teaching for its power and simplicity. Strengths: * A powerful type system, equipped with parametric polymorphism and type inference. For instance, the type of a collection can be parameterized by the type of its elements. This allows defining some operations over a collection independently of the type of its elements: sorting an array is one example. Furthermore, type inference allows defining such operations without having to explicitly provide the type of their parameters and result. * User-definable algebraic data types and pattern-matching. New algebraic data types can be defined as combinations of records and sums. Functions that operate over such data structures can then be defined by pattern matching, a generalized form of the well-known switch statement, which offers a clean and elegant way of simultaneously examining and naming data. * Automatic memory management, thanks to a fast, unobtrusive, incremental garbage collector. * Separate compilation of standalone applications. Portable bytecode compilers allow creating stand-alone applications out of Caml Light or OCaml programs. A foreign function interface allows OCaml code to interoperate with C code when necessary. Interactive use of OCaml is also supported via a “read-evaluate-print” loop. In addition, OCaml features: * A sophisticated module system, which allows organizing modules hierarchically and parameterizing a module over a number of other modules. * An expressive object-oriented layer, featuring multiple inheritance, parametric and virtual classes. * Efficient native code compilers. In addition to its bytecode compiler, OCaml offers a compiler that produces efficient machine code for many architectures. Learn more at: https://ocaml.org/learn/description.html ''; platforms = with platforms; linux ++ darwin; broken = stdenv.isAarch64 && lib.versionOlder version "4.06"; }; })