nixpkgs/pkgs/development/libraries/libint/default.nix

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{ lib
, stdenv
, fetchFromGitHub
, autoconf
, automake
, libtool
, python3
, perl
, gmpxx
, mpfr
, boost
, eigen
, gfortran
, cmake
, enableFMA ? stdenv.hostPlatform.fmaSupport
, enableFortran ? true
, enableSSE ? (!enableFortran) && stdenv.hostPlatform.isx86_64
# Maximum angular momentum of basis functions
# 7 is required for def2/J auxiliary basis on 3d metals upwards
, maxAm ? 7
# ERI derivative order for 4-, 3- and 2-centre ERIs.
# 2nd derivatives are defaults and allow gradients Hessians with density fitting
# Setting them to zero disables derivatives.
, eriDeriv ? 2
, eri3Deriv ? 2
, eri2Deriv ? 2
# Angular momentum for derivatives of ERIs. Takes a list of length $DERIV_ORD+1.
# Starting from index 0, each index i specifies the supported angular momentum
# for the derivative order i, e.g. [6,5,4] supports ERIs for l=6, their first
# derivatives for l=5 and their second derivatives for l=4.
, eriAm ? (builtins.genList (i: maxAm - 1 - i) (eriDeriv + 1))
, eri3Am ? (builtins.genList (i: maxAm - i) (eri2Deriv + 1))
, eri2Am ? (builtins.genList (i: maxAm - i) (eri2Deriv + 1))
# Same as above for optimised code. Higher optimisations take a long time.
, eriOptAm ? (builtins.genList (i: maxAm - 3 - i) (eriDeriv + 1))
, eri3OptAm ? (builtins.genList (i: maxAm - 3 - i) (eri2Deriv + 1))
, eri2OptAm ? (builtins.genList (i: maxAm - 3 - i) (eri2Deriv + 1))
# One-Electron integrals of all kinds including multipole integrals.
# Libint does not build them and their derivatives by default.
, enableOneBody ? false
, oneBodyDerivOrd ? 2
, multipoleOrd ? 4 # Maximum order of multipole integrals, 4=octopoles
# Whether to enable generic code if angular momentum is unsupported
, enableGeneric ? true
# Support integrals over contracted Gaussian
, enableContracted ? true
# Spherical harmonics/Cartesian orbital conventions
, cartGaussOrd ? "standard" # Ordering of Cartesian basis functions, "standard" is CCA
, shGaussOrd ? "standard" # Ordering of spherical harmonic basis functions. "standard" is -l to +l, "guassian" is 0, 1, -1, 2, -2, ...
, shellSet ? "standard"
, eri3PureSh ? false # Transformation of 3-centre ERIs into spherical harmonics
, eri2PureSh ? false # Transformation of 2-centre ERIs into spherical harmonics
}:
# Check that Fortran bindings are not used together with SIMD real type
assert (if enableFortran then !enableSSE else true);
# Check that a possible angular momentum for basis functions is used
assert (maxAm >= 1 && maxAm <= 8);
# Check for valid derivative order in ERIs
assert (eriDeriv >= 0 && eriDeriv <= 4);
assert (eri2Deriv >= 0 && eri2Deriv <= 4);
assert (eri3Deriv >= 0 && eri3Deriv <= 4);
# Ensure valid arguments for generated angular momenta in ERI derivatives are used.
assert (
builtins.length eriAm == eriDeriv + 1 &&
builtins.foldl' (a: b: a && b) true (builtins.map (a: a <= maxAm && a >= 0) eriAm)
);
assert (
builtins.length eri3Am == eriDeriv + 1 &&
builtins.foldl' (a: b: a && b) true (builtins.map (a: a <= maxAm && a >= 0) eri3Am)
);
assert (
builtins.length eri2Am == eriDeriv + 1 &&
builtins.foldl' (a: b: a && b) true (builtins.map (a: a <= maxAm && a >= 0) eri2Am)
);
# Ensure valid arguments for generated angular momenta in optimised ERI derivatives are used.
assert (
builtins.length eriOptAm == eriDeriv + 1 &&
builtins.foldl' (a: b: a && b) true (builtins.map (a: a <= maxAm && a >= 0) eriOptAm)
);
assert (
builtins.length eri3OptAm == eriDeriv + 1 &&
builtins.foldl' (a: b: a && b) true (builtins.map (a: a <= maxAm && a >= 0) eri3OptAm)
);
assert (
builtins.length eri2OptAm == eriDeriv + 1 &&
builtins.foldl' (a: b: a && b) true (builtins.map (a: a <= maxAm && a >= 0) eri2OptAm)
);
# Ensure a valid derivative order for one-electron integrals
assert (oneBodyDerivOrd >= 0 && oneBodyDerivOrd <= 4);
# Check that valid basis shell orders are used, see https://github.com/evaleev/libint/wiki
assert (builtins.elem cartGaussOrd [ "standard" "intv3" "gamess" "orca" "bagel" ]);
assert (builtins.elem shGaussOrd [ "standard" "gaussian" ]);
assert (builtins.elem shellSet [ "standard" "orca" ]);
let
pname = "libint";
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version = "2.9.0";
meta = with lib; {
description = "Library for the evaluation of molecular integrals of many-body operators over Gaussian functions";
homepage = "https://github.com/evaleev/libint";
license = with licenses; [ lgpl3Only gpl3Only ];
maintainers = with maintainers; [ markuskowa sheepforce ];
platforms = [ "x86_64-linux" ];
};
codeGen = stdenv.mkDerivation {
inherit pname version;
src = fetchFromGitHub {
owner = "evaleev";
repo = pname;
rev = "v${version}";
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hash = "sha256-y+Mo8J/UWDrkkNEDAoostb/k6jrhYYeU0u9Incrd2cE=";
};
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# Replace hardcoded "/bin/rm" with normal "rm"
postPatch = ''
for f in \
bin/ltmain.sh \
configure.ac \
src/bin/libint/Makefile \
src/lib/libint/Makefile.library \
tests/eri/Makefile \
tests/hartree-fock/Makefile \
tests/unit/Makefile; do
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substituteInPlace $f --replace-warn "/bin/rm" "rm"
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done
'';
nativeBuildInputs = [
autoconf
automake
libtool
mpfr
python3
perl
gmpxx
] ++ lib.optional enableFortran gfortran;
buildInputs = [ boost eigen ];
configureFlags = with lib; [
"--with-max-am=${builtins.toString maxAm}"
"--with-eri-max-am=${concatStringsSep "," (builtins.map builtins.toString eriAm)}"
"--with-eri3-max-am=${concatStringsSep "," (builtins.map builtins.toString eri3Am)}"
"--with-eri2-max-am=${concatStringsSep "," (builtins.map builtins.toString eri2Am)}"
"--with-eri-opt-am=${concatStringsSep "," (builtins.map builtins.toString eriOptAm)}"
"--with-eri3-opt-am=${concatStringsSep "," (builtins.map builtins.toString eri3OptAm)}"
"--with-eri2-opt-am=${concatStringsSep "," (builtins.map builtins.toString eri2OptAm)}"
"--with-cartgauss-ordering=${cartGaussOrd}"
"--with-shgauss-ordering=${shGaussOrd}"
"--with-shell-set=${shellSet}"
]
++ optional enableFMA "--enable-fma"
++ optional (eriDeriv > 0) "--enable-eri=${builtins.toString eriDeriv}"
++ optional (eri2Deriv > 0) "--enable-eri2=${builtins.toString eri2Deriv}"
++ optional (eri3Deriv > 0) "--enable-eri3=${builtins.toString eri3Deriv}"
++ lists.optionals enableOneBody [
"--enable-1body=${builtins.toString oneBodyDerivOrd}"
"--enable-1body-property-derivs"
]
++ optional (multipoleOrd > 0) "--with-multipole-max-order=${builtins.toString multipoleOrd}"
++ optional enableGeneric "--enable-generic"
++ optional enableContracted "--enable-contracted-ints"
++ optional eri3PureSh "--enable-eri3-pure-sh"
++ optional eri2PureSh "--enable-eri2-pure-sh"
;
preConfigure = ''
./autogen.sh
'';
makeFlags = [ "export" ];
installPhase = ''
mkdir -p $out
cp ${pname}-${version}.tgz $out/.
'';
enableParallelBuilding = true;
inherit meta;
};
codeComp = stdenv.mkDerivation {
inherit pname version;
src = "${codeGen}/${pname}-${version}.tgz";
nativeBuildInputs = [
python3
cmake
] ++ lib.optional enableFortran gfortran;
buildInputs = [ boost eigen ];
# Default is just "double", but SSE2 is available on all x86_64 CPUs.
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# AVX support is advertised, but does not work.
# Fortran interface is incompatible with changing the LIBINT2_REALTYPE.
cmakeFlags = [
"-DLIBINT2_SHGAUSS_ORDERING=${shGaussOrd}"
] ++ lib.optional enableFortran "-DENABLE_FORTRAN=ON"
++ lib.optional enableSSE "-DLIBINT2_REALTYPE=libint2::simd::VectorSSEDouble";
# Can only build in the source-tree. A lot of preprocessing magic fails otherwise.
dontUseCmakeBuildDir = true;
inherit meta;
};
in
codeComp