nixpkgs/pkgs/build-support/alternatives/lapack/default.nix

108 lines
3.6 KiB
Nix
Raw Normal View History

blas/lapack: add wrapper for “alternative”s of BLAS/LAPACK provider This is based on previous work for switching between BLAS and LAPACK implementation in Debian[1] and Gentoo[2]. The goal is to have one way to depend on the BLAS/LAPACK libraries that all packages must use. The attrs “blas” and “lapack” are used to represent a wrapped BLAS/LAPACK provider. Derivations that don’t care how BLAS and LAPACK are implemented can just use blas and lapack directly. If you do care what you get (perhaps for some CPP), you should verify that blas and lapack match what you expect with an assertion. The “blas” package collides with the old “blas” reference implementation. This has been renamed to “blas-reference”. In addition, “lapack-reference” is also included, corresponding to “liblapack” from Netlib.org. Currently, there are 3 providers of the BLAS and LAPACK interfaces: - lapack-reference: the BLAS/LAPACK implementation maintained by netlib.org - OpenBLAS: an optimized version of BLAS and LAPACK - MKL: Intel’s unfree but highly optimized BLAS/LAPACK implementation By default, the above implementations all use the “LP64” BLAS and LAPACK ABI. This corresponds to “openblasCompat” and is the safest way to use BLAS/LAPACK. You may received some benefits from “ILP64” or 8-byte integer BLAS at the expense of breaking compatibility with some packages. This can be switched at build time with an override like: import <nixpkgs> { config.allowUnfree = true; overlays = [(self: super: { lapack = super.lapack.override { lapackProvider = super.lapack-reference; }; blas = super.blas.override { blasProvider = super.lapack-reference; }; })]; } or, switched at runtime via LD_LIBRARY_PATH like: $ LD_LIBRARY_PATH=$(nix-build -E '(with import <nixpkgs> {}).lapack.override { lapackProvider = pkgs.mkl; is64bit = true; })')/lib:$(nix-build -E '(with import <nixpkgs> {}).blas.override { blasProvider = pkgs.mkl; is64bit = true; })')/lib ./your-blas-linked-binary By default, we use OpenBLAS LP64 also known in Nixpkgs as openblasCompat. [1]: https://wiki.debian.org/DebianScience/LinearAlgebraLibraries [2]: https://wiki.gentoo.org/wiki/Blas-lapack-switch
2020-03-27 19:50:45 +01:00
{ lib, stdenv
, lapack-reference, openblasCompat, openblas
, isILP64 ? false
, lapackProvider ? if isILP64 then openblas else openblasCompat }:
blas/lapack: add wrapper for “alternative”s of BLAS/LAPACK provider This is based on previous work for switching between BLAS and LAPACK implementation in Debian[1] and Gentoo[2]. The goal is to have one way to depend on the BLAS/LAPACK libraries that all packages must use. The attrs “blas” and “lapack” are used to represent a wrapped BLAS/LAPACK provider. Derivations that don’t care how BLAS and LAPACK are implemented can just use blas and lapack directly. If you do care what you get (perhaps for some CPP), you should verify that blas and lapack match what you expect with an assertion. The “blas” package collides with the old “blas” reference implementation. This has been renamed to “blas-reference”. In addition, “lapack-reference” is also included, corresponding to “liblapack” from Netlib.org. Currently, there are 3 providers of the BLAS and LAPACK interfaces: - lapack-reference: the BLAS/LAPACK implementation maintained by netlib.org - OpenBLAS: an optimized version of BLAS and LAPACK - MKL: Intel’s unfree but highly optimized BLAS/LAPACK implementation By default, the above implementations all use the “LP64” BLAS and LAPACK ABI. This corresponds to “openblasCompat” and is the safest way to use BLAS/LAPACK. You may received some benefits from “ILP64” or 8-byte integer BLAS at the expense of breaking compatibility with some packages. This can be switched at build time with an override like: import <nixpkgs> { config.allowUnfree = true; overlays = [(self: super: { lapack = super.lapack.override { lapackProvider = super.lapack-reference; }; blas = super.blas.override { blasProvider = super.lapack-reference; }; })]; } or, switched at runtime via LD_LIBRARY_PATH like: $ LD_LIBRARY_PATH=$(nix-build -E '(with import <nixpkgs> {}).lapack.override { lapackProvider = pkgs.mkl; is64bit = true; })')/lib:$(nix-build -E '(with import <nixpkgs> {}).blas.override { blasProvider = pkgs.mkl; is64bit = true; })')/lib ./your-blas-linked-binary By default, we use OpenBLAS LP64 also known in Nixpkgs as openblasCompat. [1]: https://wiki.debian.org/DebianScience/LinearAlgebraLibraries [2]: https://wiki.gentoo.org/wiki/Blas-lapack-switch
2020-03-27 19:50:45 +01:00
let
version = "3";
canonicalExtension = if stdenv.hostPlatform.isLinux
then "${stdenv.hostPlatform.extensions.sharedLibrary}.${version}"
else stdenv.hostPlatform.extensions.sharedLibrary;
lapackImplementation = lib.getName lapackProvider;
in
assert isILP64 -> (lapackImplementation == "openblas" && lapackProvider.blas64) || lapackImplementation == "mkl";
blas/lapack: add wrapper for “alternative”s of BLAS/LAPACK provider This is based on previous work for switching between BLAS and LAPACK implementation in Debian[1] and Gentoo[2]. The goal is to have one way to depend on the BLAS/LAPACK libraries that all packages must use. The attrs “blas” and “lapack” are used to represent a wrapped BLAS/LAPACK provider. Derivations that don’t care how BLAS and LAPACK are implemented can just use blas and lapack directly. If you do care what you get (perhaps for some CPP), you should verify that blas and lapack match what you expect with an assertion. The “blas” package collides with the old “blas” reference implementation. This has been renamed to “blas-reference”. In addition, “lapack-reference” is also included, corresponding to “liblapack” from Netlib.org. Currently, there are 3 providers of the BLAS and LAPACK interfaces: - lapack-reference: the BLAS/LAPACK implementation maintained by netlib.org - OpenBLAS: an optimized version of BLAS and LAPACK - MKL: Intel’s unfree but highly optimized BLAS/LAPACK implementation By default, the above implementations all use the “LP64” BLAS and LAPACK ABI. This corresponds to “openblasCompat” and is the safest way to use BLAS/LAPACK. You may received some benefits from “ILP64” or 8-byte integer BLAS at the expense of breaking compatibility with some packages. This can be switched at build time with an override like: import <nixpkgs> { config.allowUnfree = true; overlays = [(self: super: { lapack = super.lapack.override { lapackProvider = super.lapack-reference; }; blas = super.blas.override { blasProvider = super.lapack-reference; }; })]; } or, switched at runtime via LD_LIBRARY_PATH like: $ LD_LIBRARY_PATH=$(nix-build -E '(with import <nixpkgs> {}).lapack.override { lapackProvider = pkgs.mkl; is64bit = true; })')/lib:$(nix-build -E '(with import <nixpkgs> {}).blas.override { blasProvider = pkgs.mkl; is64bit = true; })')/lib ./your-blas-linked-binary By default, we use OpenBLAS LP64 also known in Nixpkgs as openblasCompat. [1]: https://wiki.debian.org/DebianScience/LinearAlgebraLibraries [2]: https://wiki.gentoo.org/wiki/Blas-lapack-switch
2020-03-27 19:50:45 +01:00
stdenv.mkDerivation {
pname = "lapack";
inherit version;
outputs = [ "out" "dev" ];
meta = (lapackProvider.meta or {}) // {
description = "${lib.getName lapackProvider} with just the LAPACK C and FORTRAN ABI";
};
passthru = {
inherit isILP64;
blas/lapack: add wrapper for “alternative”s of BLAS/LAPACK provider This is based on previous work for switching between BLAS and LAPACK implementation in Debian[1] and Gentoo[2]. The goal is to have one way to depend on the BLAS/LAPACK libraries that all packages must use. The attrs “blas” and “lapack” are used to represent a wrapped BLAS/LAPACK provider. Derivations that don’t care how BLAS and LAPACK are implemented can just use blas and lapack directly. If you do care what you get (perhaps for some CPP), you should verify that blas and lapack match what you expect with an assertion. The “blas” package collides with the old “blas” reference implementation. This has been renamed to “blas-reference”. In addition, “lapack-reference” is also included, corresponding to “liblapack” from Netlib.org. Currently, there are 3 providers of the BLAS and LAPACK interfaces: - lapack-reference: the BLAS/LAPACK implementation maintained by netlib.org - OpenBLAS: an optimized version of BLAS and LAPACK - MKL: Intel’s unfree but highly optimized BLAS/LAPACK implementation By default, the above implementations all use the “LP64” BLAS and LAPACK ABI. This corresponds to “openblasCompat” and is the safest way to use BLAS/LAPACK. You may received some benefits from “ILP64” or 8-byte integer BLAS at the expense of breaking compatibility with some packages. This can be switched at build time with an override like: import <nixpkgs> { config.allowUnfree = true; overlays = [(self: super: { lapack = super.lapack.override { lapackProvider = super.lapack-reference; }; blas = super.blas.override { blasProvider = super.lapack-reference; }; })]; } or, switched at runtime via LD_LIBRARY_PATH like: $ LD_LIBRARY_PATH=$(nix-build -E '(with import <nixpkgs> {}).lapack.override { lapackProvider = pkgs.mkl; is64bit = true; })')/lib:$(nix-build -E '(with import <nixpkgs> {}).blas.override { blasProvider = pkgs.mkl; is64bit = true; })')/lib ./your-blas-linked-binary By default, we use OpenBLAS LP64 also known in Nixpkgs as openblasCompat. [1]: https://wiki.debian.org/DebianScience/LinearAlgebraLibraries [2]: https://wiki.gentoo.org/wiki/Blas-lapack-switch
2020-03-27 19:50:45 +01:00
provider = lapackProvider;
implementation = lapackImplementation;
};
dontBuild = true;
dontConfigure = true;
unpackPhase = "src=$PWD";
dontPatchELF = true;
blas/lapack: add wrapper for “alternative”s of BLAS/LAPACK provider This is based on previous work for switching between BLAS and LAPACK implementation in Debian[1] and Gentoo[2]. The goal is to have one way to depend on the BLAS/LAPACK libraries that all packages must use. The attrs “blas” and “lapack” are used to represent a wrapped BLAS/LAPACK provider. Derivations that don’t care how BLAS and LAPACK are implemented can just use blas and lapack directly. If you do care what you get (perhaps for some CPP), you should verify that blas and lapack match what you expect with an assertion. The “blas” package collides with the old “blas” reference implementation. This has been renamed to “blas-reference”. In addition, “lapack-reference” is also included, corresponding to “liblapack” from Netlib.org. Currently, there are 3 providers of the BLAS and LAPACK interfaces: - lapack-reference: the BLAS/LAPACK implementation maintained by netlib.org - OpenBLAS: an optimized version of BLAS and LAPACK - MKL: Intel’s unfree but highly optimized BLAS/LAPACK implementation By default, the above implementations all use the “LP64” BLAS and LAPACK ABI. This corresponds to “openblasCompat” and is the safest way to use BLAS/LAPACK. You may received some benefits from “ILP64” or 8-byte integer BLAS at the expense of breaking compatibility with some packages. This can be switched at build time with an override like: import <nixpkgs> { config.allowUnfree = true; overlays = [(self: super: { lapack = super.lapack.override { lapackProvider = super.lapack-reference; }; blas = super.blas.override { blasProvider = super.lapack-reference; }; })]; } or, switched at runtime via LD_LIBRARY_PATH like: $ LD_LIBRARY_PATH=$(nix-build -E '(with import <nixpkgs> {}).lapack.override { lapackProvider = pkgs.mkl; is64bit = true; })')/lib:$(nix-build -E '(with import <nixpkgs> {}).blas.override { blasProvider = pkgs.mkl; is64bit = true; })')/lib ./your-blas-linked-binary By default, we use OpenBLAS LP64 also known in Nixpkgs as openblasCompat. [1]: https://wiki.debian.org/DebianScience/LinearAlgebraLibraries [2]: https://wiki.gentoo.org/wiki/Blas-lapack-switch
2020-03-27 19:50:45 +01:00
installPhase = (''
mkdir -p $out/lib $dev/include $dev/lib/pkgconfig
liblapack="${lib.getLib lapackProvider}/lib/liblapack${canonicalExtension}"
blas/lapack: add wrapper for “alternative”s of BLAS/LAPACK provider This is based on previous work for switching between BLAS and LAPACK implementation in Debian[1] and Gentoo[2]. The goal is to have one way to depend on the BLAS/LAPACK libraries that all packages must use. The attrs “blas” and “lapack” are used to represent a wrapped BLAS/LAPACK provider. Derivations that don’t care how BLAS and LAPACK are implemented can just use blas and lapack directly. If you do care what you get (perhaps for some CPP), you should verify that blas and lapack match what you expect with an assertion. The “blas” package collides with the old “blas” reference implementation. This has been renamed to “blas-reference”. In addition, “lapack-reference” is also included, corresponding to “liblapack” from Netlib.org. Currently, there are 3 providers of the BLAS and LAPACK interfaces: - lapack-reference: the BLAS/LAPACK implementation maintained by netlib.org - OpenBLAS: an optimized version of BLAS and LAPACK - MKL: Intel’s unfree but highly optimized BLAS/LAPACK implementation By default, the above implementations all use the “LP64” BLAS and LAPACK ABI. This corresponds to “openblasCompat” and is the safest way to use BLAS/LAPACK. You may received some benefits from “ILP64” or 8-byte integer BLAS at the expense of breaking compatibility with some packages. This can be switched at build time with an override like: import <nixpkgs> { config.allowUnfree = true; overlays = [(self: super: { lapack = super.lapack.override { lapackProvider = super.lapack-reference; }; blas = super.blas.override { blasProvider = super.lapack-reference; }; })]; } or, switched at runtime via LD_LIBRARY_PATH like: $ LD_LIBRARY_PATH=$(nix-build -E '(with import <nixpkgs> {}).lapack.override { lapackProvider = pkgs.mkl; is64bit = true; })')/lib:$(nix-build -E '(with import <nixpkgs> {}).blas.override { blasProvider = pkgs.mkl; is64bit = true; })')/lib ./your-blas-linked-binary By default, we use OpenBLAS LP64 also known in Nixpkgs as openblasCompat. [1]: https://wiki.debian.org/DebianScience/LinearAlgebraLibraries [2]: https://wiki.gentoo.org/wiki/Blas-lapack-switch
2020-03-27 19:50:45 +01:00
if ! [ -e "$liblapack" ]; then
echo "$liblapack does not exist, ${lapackProvider.name} does not provide liblapack."
exit 1
fi
cp -L "$liblapack" $out/lib/liblapack${canonicalExtension}
chmod +w $out/lib/liblapack${canonicalExtension}
'' + (if stdenv.hostPlatform.parsed.kernel.execFormat.name == "elf" then ''
patchelf --set-soname liblapack${canonicalExtension} $out/lib/liblapack${canonicalExtension}
patchelf --set-rpath "$(patchelf --print-rpath $out/lib/liblapack${canonicalExtension}):${lapackProvider}/lib" $out/lib/liblapack${canonicalExtension}
'' else "") + ''
if [ "$out/lib/liblapack${canonicalExtension}" != "$out/lib/liblapack${stdenv.hostPlatform.extensions.sharedLibrary}" ]; then
ln -s $out/lib/liblapack${canonicalExtension} "$out/lib/liblapack${stdenv.hostPlatform.extensions.sharedLibrary}"
fi
install -D ${lib.getDev lapack-reference}/include/lapack.h $dev/include/lapack.h
cat <<EOF > $dev/lib/pkgconfig/lapack.pc
Name: lapack
Version: ${version}
Description: LAPACK FORTRAN implementation
Cflags: -I$dev/include
Libs: -L$out/lib -llapack
EOF
liblapacke="${lib.getLib lapackProvider}/lib/liblapacke${canonicalExtension}"
blas/lapack: add wrapper for “alternative”s of BLAS/LAPACK provider This is based on previous work for switching between BLAS and LAPACK implementation in Debian[1] and Gentoo[2]. The goal is to have one way to depend on the BLAS/LAPACK libraries that all packages must use. The attrs “blas” and “lapack” are used to represent a wrapped BLAS/LAPACK provider. Derivations that don’t care how BLAS and LAPACK are implemented can just use blas and lapack directly. If you do care what you get (perhaps for some CPP), you should verify that blas and lapack match what you expect with an assertion. The “blas” package collides with the old “blas” reference implementation. This has been renamed to “blas-reference”. In addition, “lapack-reference” is also included, corresponding to “liblapack” from Netlib.org. Currently, there are 3 providers of the BLAS and LAPACK interfaces: - lapack-reference: the BLAS/LAPACK implementation maintained by netlib.org - OpenBLAS: an optimized version of BLAS and LAPACK - MKL: Intel’s unfree but highly optimized BLAS/LAPACK implementation By default, the above implementations all use the “LP64” BLAS and LAPACK ABI. This corresponds to “openblasCompat” and is the safest way to use BLAS/LAPACK. You may received some benefits from “ILP64” or 8-byte integer BLAS at the expense of breaking compatibility with some packages. This can be switched at build time with an override like: import <nixpkgs> { config.allowUnfree = true; overlays = [(self: super: { lapack = super.lapack.override { lapackProvider = super.lapack-reference; }; blas = super.blas.override { blasProvider = super.lapack-reference; }; })]; } or, switched at runtime via LD_LIBRARY_PATH like: $ LD_LIBRARY_PATH=$(nix-build -E '(with import <nixpkgs> {}).lapack.override { lapackProvider = pkgs.mkl; is64bit = true; })')/lib:$(nix-build -E '(with import <nixpkgs> {}).blas.override { blasProvider = pkgs.mkl; is64bit = true; })')/lib ./your-blas-linked-binary By default, we use OpenBLAS LP64 also known in Nixpkgs as openblasCompat. [1]: https://wiki.debian.org/DebianScience/LinearAlgebraLibraries [2]: https://wiki.gentoo.org/wiki/Blas-lapack-switch
2020-03-27 19:50:45 +01:00
if ! [ -e "$liblapacke" ]; then
echo "$liblapacke does not exist, ${lapackProvider.name} does not provide liblapacke."
exit 1
fi
cp -L "$liblapacke" $out/lib/liblapacke${canonicalExtension}
chmod +w $out/lib/liblapacke${canonicalExtension}
'' + (if stdenv.hostPlatform.parsed.kernel.execFormat.name == "elf" then ''
patchelf --set-soname liblapacke${canonicalExtension} $out/lib/liblapacke${canonicalExtension}
patchelf --set-rpath "$(patchelf --print-rpath $out/lib/liblapacke${canonicalExtension}):${lib.getLib lapackProvider}/lib" $out/lib/liblapacke${canonicalExtension}
'' else "") + ''
if [ -f "$out/lib/liblapacke.so.3" ]; then
ln -s $out/lib/liblapacke.so.3 $out/lib/liblapacke.so
fi
cp ${lib.getDev lapack-reference}/include/lapacke{,_mangling,_config}.h $dev/include
cat <<EOF > $dev/lib/pkgconfig/lapacke.pc
Name: lapacke
Version: ${version}
Description: LAPACK C implementation
Cflags: -I$dev/include
Libs: -L$out/lib -llapacke
EOF
'' + stdenv.lib.optionalString (lapackImplementation == "mkl") ''
mkdir -p $out/nix-support
echo 'export MKL_INTERFACE_LAYER=${lib.optionalString isILP64 "I"}LP64,GNU' > $out/nix-support/setup-hook
ln -s $out/lib/liblapack${canonicalExtension} $out/lib/libmkl_rt${stdenv.hostPlatform.extensions.sharedLibrary}
ln -sf ${lapackProvider}/include/* $dev/include
blas/lapack: add wrapper for “alternative”s of BLAS/LAPACK provider This is based on previous work for switching between BLAS and LAPACK implementation in Debian[1] and Gentoo[2]. The goal is to have one way to depend on the BLAS/LAPACK libraries that all packages must use. The attrs “blas” and “lapack” are used to represent a wrapped BLAS/LAPACK provider. Derivations that don’t care how BLAS and LAPACK are implemented can just use blas and lapack directly. If you do care what you get (perhaps for some CPP), you should verify that blas and lapack match what you expect with an assertion. The “blas” package collides with the old “blas” reference implementation. This has been renamed to “blas-reference”. In addition, “lapack-reference” is also included, corresponding to “liblapack” from Netlib.org. Currently, there are 3 providers of the BLAS and LAPACK interfaces: - lapack-reference: the BLAS/LAPACK implementation maintained by netlib.org - OpenBLAS: an optimized version of BLAS and LAPACK - MKL: Intel’s unfree but highly optimized BLAS/LAPACK implementation By default, the above implementations all use the “LP64” BLAS and LAPACK ABI. This corresponds to “openblasCompat” and is the safest way to use BLAS/LAPACK. You may received some benefits from “ILP64” or 8-byte integer BLAS at the expense of breaking compatibility with some packages. This can be switched at build time with an override like: import <nixpkgs> { config.allowUnfree = true; overlays = [(self: super: { lapack = super.lapack.override { lapackProvider = super.lapack-reference; }; blas = super.blas.override { blasProvider = super.lapack-reference; }; })]; } or, switched at runtime via LD_LIBRARY_PATH like: $ LD_LIBRARY_PATH=$(nix-build -E '(with import <nixpkgs> {}).lapack.override { lapackProvider = pkgs.mkl; is64bit = true; })')/lib:$(nix-build -E '(with import <nixpkgs> {}).blas.override { blasProvider = pkgs.mkl; is64bit = true; })')/lib ./your-blas-linked-binary By default, we use OpenBLAS LP64 also known in Nixpkgs as openblasCompat. [1]: https://wiki.debian.org/DebianScience/LinearAlgebraLibraries [2]: https://wiki.gentoo.org/wiki/Blas-lapack-switch
2020-03-27 19:50:45 +01:00
'');
}