54 lines
2.1 KiB
Nix
54 lines
2.1 KiB
Nix
{ stdenv, fetchurl, m4, cxx ? true }:
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stdenv.mkDerivation rec {
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name = "gmp-5.1.1";
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src = fetchurl {
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urls = [ "mirror://gnu/gmp/${name}.tar.bz2" "ftp://ftp.gmplib.org/pub/${name}/${name}.tar.bz2" ];
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sha256 = "1bdgf04k2i12pfivxgjq68iarz3ngix9hpzbmkgijrdk92gpgm50";
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};
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nativeBuildInputs = [ m4 ];
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configureFlags =
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# Build a "fat binary", with routines for several sub-architectures
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# (x86), except on Solaris where some tests crash with "Memory fault".
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# See <http://hydra.nixos.org/build/2760931>, for instance.
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(stdenv.lib.optional (!stdenv.isSunOS) "--enable-fat")
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++ (if cxx then [ "--enable-cxx" ] else [ "--disable-cxx" ]);
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doCheck = true;
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enableParallelBuilding = true;
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meta = {
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homepage = "http://gmplib.org/";
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description = "GMP, the GNU multiple precision arithmetic library";
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license = stdenv.lib.licenses.gpl3Plus;
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longDescription =
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'' GMP is a free library for arbitrary precision arithmetic, operating
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on signed integers, rational numbers, and floating point numbers.
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There is no practical limit to the precision except the ones implied
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by the available memory in the machine GMP runs on. GMP has a rich
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set of functions, and the functions have a regular interface.
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The main target applications for GMP are cryptography applications
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and research, Internet security applications, algebra systems,
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computational algebra research, etc.
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GMP is carefully designed to be as fast as possible, both for small
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operands and for huge operands. The speed is achieved by using
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fullwords as the basic arithmetic type, by using fast algorithms,
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with highly optimised assembly code for the most common inner loops
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for a lot of CPUs, and by a general emphasis on speed.
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GMP is faster than any other bignum library. The advantage for GMP
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increases with the operand sizes for many operations, since GMP uses
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asymptotically faster algorithms.
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'';
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platforms = stdenv.lib.platforms.all;
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maintainers = [ stdenv.lib.maintainers.simons ];
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};
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}
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