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- ;;; GNU Guix --- Functional package management for GNU
- ;;; Copyright © 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019 Andreas Enge <andreas@enge.fr>
- ;;; Copyright © 2013, 2015, 2017, 2018, 2021 Ludovic Courtès <ludo@gnu.org>
- ;;; Copyright © 2016, 2017, 2018, 2019, 2020, 2021 Nicolas Goaziou <mail@nicolasgoaziou.fr>
- ;;; Copyright © 2014, 2018 Mark H Weaver <mhw@netris.org>
- ;;; Copyright © 2016, 2018, 2019, 2021 Ricardo Wurmus <rekado@elephly.net>
- ;;; Copyright © 2017, 2020, 2021 Efraim Flashner <efraim@flashner.co.il>
- ;;; Copyright © 2017–2021 Tobias Geerinckx-Rice <me@tobias.gr>
- ;;; Copyright © 2017 Marius Bakke <mbakke@fastmail.com>
- ;;; Copyright © 2017, 2019, 2021 Eric Bavier <bavier@posteo.net>
- ;;; Copyright © 2019 Mathieu Othacehe <m.othacehe@gmail.com>
- ;;; Copyright © 2020 Björn Höfling <bjoern.hoefling@bjoernhoefling.de>
- ;;; Copyright © 2020 Jakub Kądziołka <kuba@kadziolka.net>
- ;;; Copyright © 2020 Vincent Legoll <vincent.legoll@gmail.com>
- ;;; Copyright © 2020 Vinicius Monego <monego@posteo.net>
- ;;; Copyright © 2021 Lars-Dominik Braun <ldb@leibniz-psychology.org>
- ;;;
- ;;; This file is part of GNU Guix.
- ;;;
- ;;; GNU Guix is free software; you can redistribute it and/or modify it
- ;;; under the terms of the GNU General Public License as published by
- ;;; the Free Software Foundation; either version 3 of the License, or (at
- ;;; your option) any later version.
- ;;;
- ;;; GNU Guix is distributed in the hope that it will be useful, but
- ;;; WITHOUT ANY WARRANTY; without even the implied warranty of
- ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- ;;; GNU General Public License for more details.
- ;;;
- ;;; You should have received a copy of the GNU General Public License
- ;;; along with GNU Guix. If not, see <http://www.gnu.org/licenses/>.
- (define-module (gnu packages algebra)
- #:use-module (gnu packages)
- #:use-module (gnu packages autotools)
- #:use-module (gnu packages bison)
- #:use-module (gnu packages boost)
- #:use-module (gnu packages check)
- #:use-module (gnu packages compression)
- #:use-module (gnu packages cpp)
- #:use-module (gnu packages documentation)
- #:use-module (gnu packages ed)
- #:use-module (gnu packages flex)
- #:use-module (gnu packages fltk)
- #:use-module (gnu packages gl)
- #:use-module (gnu packages graphviz)
- #:use-module (gnu packages image)
- #:use-module (gnu packages java)
- #:use-module (gnu packages maths)
- #:use-module (gnu packages mpi)
- #:use-module (gnu packages multiprecision)
- #:use-module (gnu packages ocaml)
- #:use-module (gnu packages perl)
- #:use-module (gnu packages pkg-config)
- #:use-module (gnu packages pulseaudio)
- #:use-module (gnu packages python)
- #:use-module (gnu packages python-xyz)
- #:use-module (gnu packages readline)
- #:use-module (gnu packages shells)
- #:use-module (gnu packages tex)
- #:use-module (gnu packages texinfo)
- #:use-module (gnu packages xiph)
- #:use-module (gnu packages xml)
- #:use-module (gnu packages xorg)
- #:use-module (guix build-system ant)
- #:use-module (guix build-system gnu)
- #:use-module (guix build-system cmake)
- #:use-module (guix build-system python)
- #:use-module (guix build-system r)
- #:use-module (guix download)
- #:use-module (guix git-download)
- #:use-module (guix hg-download)
- #:use-module ((guix licenses) #:prefix license:)
- #:use-module (guix packages)
- #:use-module (guix utils))
- (define-public mpfrcx
- (package
- (name "mpfrcx")
- (version "0.6.3")
- (source (origin
- (method url-fetch)
- (uri (string-append
- "http://www.multiprecision.org/downloads/mpfrcx-"
- version ".tar.gz"))
- (sha256
- (base32
- "1545vgizpypqi2rrriad0ybqv0qwbn9zr0ibxpk00gha9ihv7acx"))))
- (build-system gnu-build-system)
- (propagated-inputs
- `(("gmp" ,gmp)
- ("mpfr" ,mpfr)
- ("mpc" ,mpc))) ; Header files are included by mpfrcx.h.
- (synopsis "Arithmetic of polynomials over arbitrary precision numbers")
- (description
- "Mpfrcx is a library for the arithmetic of univariate polynomials over
- arbitrary precision real (mpfr) or complex (mpc) numbers, without control
- on the rounding. For the time being, only the few functions needed to
- implement the floating point approach to complex multiplication are
- implemented. On the other hand, these comprise asymptotically fast
- multiplication routines such as Toom–Cook and the FFT.")
- (license license:lgpl3+)
- (home-page "http://www.multiprecision.org/mpfrcx/")))
- (define-public gf2x
- (package
- (name "gf2x")
- (version "1.2")
- (source (origin
- (method url-fetch)
- (uri (string-append
- "https://gforge.inria.fr/frs/download.php/file/36934/gf2x-"
- version ".tar.gz"))
- (sha256
- (base32
- "0d6vh1mxskvv3bxl6byp7gxxw3zzpkldrxnyajhnl05m0gx7yhk1"))))
- (build-system gnu-build-system)
- (synopsis "Arithmetic of polynomials over binary finite fields")
- (description
- "The gf2x library provides arithmetic of polynomials over finite fields
- of characteristic 2. It implements the multiplication, squaring and
- greatest common divisor operations.")
- (license license:gpl3+)
- (home-page "https://gforge.inria.fr/projects/gf2x/")))
- (define-public cm
- (package
- (name "cm")
- (version "0.3.1")
- (source (origin
- (method url-fetch)
- (uri (string-append
- "http://www.multiprecision.org/downloads/cm-"
- version ".tar.gz"))
- (sha256
- (base32
- "0qq6b1kwb1byj8ws33ya5awq0ilkpm32037pi1l4cf2737fg9m42"))))
- (build-system gnu-build-system)
- (propagated-inputs
- `(("mpfrcx" ,mpfrcx)
- ("zlib" ,zlib))) ; Header files included from cm_common.h.
- (inputs
- `(("pari-gp" ,pari-gp)))
- (synopsis "CM constructions for elliptic curves")
- (description
- "The CM software implements the construction of ring class fields of
- imaginary quadratic number fields and of elliptic curves with complex
- multiplication via floating point approximations. It consists of libraries
- that can be called from within a C program and of executable command
- line applications.")
- (license license:gpl3+)
- (home-page "http://www.multiprecision.org/cm/")))
- (define-public fplll
- (package
- (name "fplll")
- (version "5.3.3")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/fplll/fplll")
- (commit version)))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "06nyfidagp8pc2kfcw88ldgb2b1xm0a8z31n0sln7j72ihlmd8zj"))
- (patches (search-patches "fplll-std-fenv.patch"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("autoconf" ,autoconf)
- ("automake" ,automake)
- ("libtool" ,libtool)
- ("pkg-config" ,pkg-config)))
- (propagated-inputs ; header files pulled in by fplll/defs.h
- `(("gmp" ,gmp)
- ("mpfr" ,mpfr)))
- (home-page "https://github.com/fplll/fplll")
- (synopsis "Library for LLL-reduction of euclidean lattices")
- (description
- "fplll contains implementations of several lattice algorithms.
- The implementation relies on floating-point orthogonalization, and LLL
- is central to the code, hence the name.
- It includes implementations of floating-point LLL reduction
- algorithms, offering different speed/guarantees ratios. It contains
- a @emph{wrapper} choosing the estimated best sequence of variants in
- order to provide a guaranteed output as fast as possible. In the case
- of the wrapper, the succession of variants is oblivious to the user.
- It includes an implementation of the BKZ reduction algorithm,
- including the BKZ-2.0 improvements (extreme enumeration
- pruning, pre-processing of blocks, early termination). Additionally,
- Slide reduction and self dual BKZ are supported.
- It also includes a floating-point implementation of the
- Kannan-Fincke-Pohst algorithm that finds a shortest non-zero lattice
- vector. For the same task, the GaussSieve algorithm is also available
- in fplll. Finally, it contains a variant of the enumeration algorithm
- that computes a lattice vector closest to a given vector belonging to
- the real span of the lattice.")
- (license license:lgpl2.1+)))
- (define-public python-fpylll
- (package
- (name "python-fpylll")
- (version "0.5.2")
- (source
- (origin
- ;; Pypi contains and older release, so we use a tagged release from
- ;; Github instead.
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/fplll/fpylll")
- (commit (string-append version "dev"))))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "1a25iibihph626jl4wbs4b77xc4a2c4nfc2ypscf9wpani3dnhjf"))))
- (build-system python-build-system)
- (inputs
- `(("fplll" ,fplll)
- ("gmp" ,gmp)
- ("mpfr" ,mpfr)
- ("pari-gp" ,pari-gp)))
- (propagated-inputs
- `(("cysignals" ,python-cysignals)
- ("cython" ,python-cython)
- ("flake8" ,python-flake8)
- ("numpy" ,python-numpy)
- ("pytest" ,python-pytest)))
- (home-page "https://github.com/fplll/fpylll")
- (synopsis "Python interface for fplll")
- (description "fpylll is a Python wrapper for fplll.")
- (license license:gpl2+)))
- (define-public pari-gp
- (package
- (name "pari-gp")
- (version "2.13.2")
- (source (origin
- (method url-fetch)
- (uri (string-append
- "https://pari.math.u-bordeaux.fr/pub/pari/unix/pari-"
- version ".tar.gz"))
- (sha256
- (base32
- "095s7vdlsxmxa0n0l1a082m6gjaypqfqkaj99z8j7dx0ji89hy8n"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("texlive" ,(texlive-updmap.cfg
- (list texlive-amsfonts)))))
- (inputs `(("gmp" ,gmp)
- ("libx11" ,libx11)
- ("perl" ,perl)
- ("readline" ,readline)))
- (arguments
- '(#:make-flags '("all")
- #:test-target "dobench"
- #:phases
- (modify-phases %standard-phases
- (replace 'configure
- (lambda* (#:key outputs #:allow-other-keys)
- (invoke "./Configure"
- (string-append "--prefix="
- (assoc-ref outputs "out"))))))))
- (synopsis "PARI/GP, a computer algebra system for number theory")
- (description
- "PARI/GP is a widely used computer algebra system designed for fast
- computations in number theory (factorisations, algebraic number theory,
- elliptic curves...), but it also contains a large number of other useful
- functions to compute with mathematical entities such as matrices,
- polynomials, power series, algebraic numbers, etc., and a lot of
- transcendental functions.
- PARI is also available as a C library to allow for faster computations.")
- (license license:gpl2+)
- (home-page "https://pari.math.u-bordeaux.fr/")))
- (define-public gp2c
- (package
- (name "gp2c")
- (version "0.0.12")
- (source (origin
- (method url-fetch)
- (uri (string-append
- "https://pari.math.u-bordeaux.fr/pub/pari/GP2C/gp2c-"
- version ".tar.gz"))
- (sha256
- (base32
- "039ip7qkwwv46wrcdrz7y12m30kazzkjr44kqbc0h137g4wzd7zf"))))
- (build-system gnu-build-system)
- (native-inputs `(("perl" ,perl)))
- (inputs `(("pari-gp" ,pari-gp)))
- (arguments
- '(#:configure-flags
- (list (string-append "--with-paricfg="
- (assoc-ref %build-inputs "pari-gp")
- "/lib/pari/pari.cfg"))))
- (synopsis "PARI/GP, a computer algebra system for number theory")
- (description
- "PARI/GP is a widely used computer algebra system designed for fast
- computations in number theory (factorisations, algebraic number theory,
- elliptic curves...), but it also contains a large number of other useful
- functions to compute with mathematical entities such as matrices,
- polynomials, power series, algebraic numbers, etc., and a lot of
- transcendental functions.
- PARI is also available as a C library to allow for faster computations.
- GP2C, the GP to C compiler, translates GP scripts to PARI programs.")
- (license license:gpl2)
- (home-page "https://pari.math.u-bordeaux.fr/")))
- (define-public cmh
- (package
- (name "cmh")
- (version "1.1.0")
- (source (origin
- (method url-fetch)
- ;; Git repo at <https://gitlab.inria.fr/cmh/cmh>.
- (uri (string-append "http://www.multiprecision.org/downloads/cmh-"
- version ".tar.gz"))
- (sha256
- (base32
- "1ws2yhzxmm2l5xqqqcjcimmg40f9qq5l9i6d4i5434an9v9s8531"))))
- (build-system gnu-build-system)
- (inputs
- `(("gmp" ,gmp)
- ("mpfr" ,mpfr)
- ("mpc" ,mpc)
- ("mpfrcx" ,mpfrcx)
- ("fplll" ,fplll)
- ("pari-gp" ,pari-gp)))
- (synopsis "Igusa class polynomial computations")
- (description
- "The CMH software computes Igusa (genus 2) class polynomials, which
- parameterize the CM points in the moduli space of 2-dimensional abelian
- varieties, i.e. Jacobians of hyperelliptic curves.
- It can also be used to compute theta constants at arbitrary
- precision.")
- (license license:gpl3+)
- (home-page "http://www.multiprecision.org/cmh/home.html")))
- (define-public giac
- (package
- (name "giac")
- (version "1.7.0-31")
- (source
- (origin
- (method url-fetch)
- ;; "~parisse/giac" is not used because the maintainer regularly
- ;; overwrites the release tarball there, introducing a checksum
- ;; mismatch every time. See
- ;; <https://www-fourier.ujf-grenoble.fr/~parisse/debian/dists/stable/main/source/README>
- (uri (string-append "https://www-fourier.ujf-grenoble.fr/"
- "~parisse/debian/dists/stable/main/source/"
- "giac_" version ".tar.gz"))
- (sha256
- (base32 "19vjyijlm3hb758h6nk70k41zw9wrbg6vwfx4r4rgvrb1myy5kpl"))))
- (build-system gnu-build-system)
- (arguments
- `(#:modules ((ice-9 ftw)
- (guix build utils)
- (guix build gnu-build-system))
- #:phases
- (modify-phases %standard-phases
- (add-after 'unpack 'patch-bin-cp
- ;; Some Makefiles contain hard-coded "/bin/cp".
- (lambda _
- (substitute* (cons "micropython-1.12/xcas/Makefile"
- (find-files "doc" "^Makefile"))
- (("/bin/cp") (which "cp")))))
- (add-after 'unpack 'disable-failing-test
- ;; FIXME: Test failing. Not sure why.
- (lambda _
- (substitute* "check/Makefile.in"
- (("chk_fhan11") ""))))
- (add-after 'install 'fix-doc
- (lambda* (#:key outputs #:allow-other-keys)
- (let ((out (assoc-ref outputs "out")))
- ;; Most French documentation has a non-commercial
- ;; license, so we need to remove it.
- (with-directory-excursion (string-append out "/share/giac/doc/fr")
- (for-each delete-file-recursively
- '("cascas" "casexo" "casgeo" "casrouge" "cassim"
- "castor")))
- ;; Remove duplicate documentation in
- ;; "%out/share/doc/giac/", where Xcas does not expect
- ;; to find it.
- (delete-file-recursively (string-append out "/share/doc/giac")))))
- (add-after 'install 'remove-unnecessary-executable
- (lambda* (#:key outputs #:allow-other-keys)
- (let ((out (assoc-ref outputs "out")))
- (delete-file (string-append out "/bin/xcasnew"))))))))
- (inputs
- ;; TODO: Add libnauty, unbundle "libmicropython.a".
- `(("fltk" ,fltk)
- ("glpk" ,glpk-4)
- ("gmp" ,gmp)
- ("gsl" ,gsl)
- ("lapack" ,lapack)
- ("libao" ,ao)
- ("libjpeg" ,libjpeg-turbo)
- ("libpng" ,libpng)
- ("libsamplerate" ,libsamplerate)
- ("libx11" ,libx11)
- ("libxinerama" ,libxinerama)
- ("libxft" ,libxft)
- ("libxt" ,libxt)
- ("mesa" ,mesa)
- ("mpfi" ,mpfi)
- ("mpfr" ,mpfr)
- ("ntl" ,ntl)
- ("perl" ,perl)
- ("pari-gp" ,pari-gp)
- ("tcsh" ,tcsh)))
- (native-inputs
- `(("bison" ,bison)
- ("flex" ,flex)
- ("hevea" ,hevea)
- ("python" ,python-wrapper)
- ("readline" ,readline)
- ("texlive" ,texlive-tiny)))
- (home-page "https://www-fourier.ujf-grenoble.fr/~parisse/giac.html")
- (synopsis "Computer algebra system")
- (description
- "Giac/Xcas is a computer algebra system. It has a compatibility mode for
- maple, mupad and the TI89. It is available as a standalone program (graphic
- or text interfaces) or as a C++ library.")
- (license license:gpl3+)))
- (define-public flint
- (package
- (name "flint")
- (version "2.6.3")
- (source
- (origin
- (method url-fetch)
- (uri (string-append "http://flintlib.org/flint-" version ".tar.gz"))
- (sha256
- (base32 "1qrf6hzbbmg7mhkhbb0bab8z2xpdnba5cj4kmmf72lzs0457a6nf"))))
- (build-system gnu-build-system)
- (inputs
- `(("ntl" ,ntl)))
- (propagated-inputs
- `(("gmp" ,gmp)
- ("mpfr" ,mpfr))) ; header files from both are included by flint/arith.h
- (arguments
- `(#:parallel-tests? #f ; seems to be necessary on arm
- #:phases
- (modify-phases %standard-phases
- (add-before 'configure 'newer-c++
- (lambda _
- (substitute* "configure"
- (("-ansi") ""))
- #t))
- (replace 'configure
- (lambda* (#:key inputs outputs #:allow-other-keys)
- (let ((out (assoc-ref outputs "out"))
- (gmp (assoc-ref inputs "gmp"))
- (mpfr (assoc-ref inputs "mpfr"))
- (ntl (assoc-ref inputs "ntl")))
- ;; Do not pass "--enable-fast-install", which makes the
- ;; homebrew configure process fail.
- (invoke "./configure"
- (string-append "--prefix=" out)
- (string-append "--with-gmp=" gmp)
- (string-append "--with-mpfr=" mpfr)
- (string-append "--with-ntl=" ntl))
- #t))))))
- (synopsis "Fast library for number theory")
- (description
- "FLINT is a C library for number theory. It supports arithmetic
- with numbers, polynomials, power series and matrices over many base
- rings, including multiprecision integers and rationals, integers
- modulo n, p-adic numbers, finite fields (prime and non-prime order)
- and real and complex numbers (via the Arb extension library).
- Operations that can be performed include conversions, arithmetic,
- GCDs, factoring, solving linear systems, and evaluating special
- functions. In addition, FLINT provides various low-level routines for
- fast arithmetic.")
- (license license:lgpl2.1+)
- (home-page "http://flintlib.org/")))
- (define-public arb
- (package
- (name "arb")
- (version "2.18.1")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/fredrik-johansson/arb")
- (commit version)))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "15fx3dcbzgwddw9p1nysmx0dbh058afv5m8cj5pdjkcmcl7kw7z9"))))
- (build-system gnu-build-system)
- (propagated-inputs
- `(("flint" ,flint))) ; flint.h is included by arf.h
- (inputs
- `(("gmp" ,gmp)
- ("mpfr" ,mpfr)))
- (arguments
- `(#:phases
- (modify-phases %standard-phases
- (replace 'configure
- (lambda* (#:key inputs outputs #:allow-other-keys)
- (let ((out (assoc-ref outputs "out"))
- (flint (assoc-ref inputs "flint"))
- (gmp (assoc-ref inputs "gmp"))
- (mpfr (assoc-ref inputs "mpfr")))
- ;; Do not pass "--enable-fast-install", which makes the
- ;; homebrew configure process fail.
- (invoke "./configure"
- (string-append "--prefix=" out)
- (string-append "--with-flint=" flint)
- (string-append "--with-gmp=" gmp)
- (string-append "--with-mpfr=" mpfr))))))))
- (home-page "https://arblib.org")
- (synopsis "Arbitrary precision floating-point ball arithmetic")
- (description
- "Arb is a C library for arbitrary-precision floating-point ball
- arithmetic. It supports efficient high-precision computation with
- polynomials, power series, matrices and special functions over the
- real and complex numbers, with automatic, rigorous error control.")
- (license license:lgpl2.1+)))
- (define-public python-flint
- (package
- (name "python-flint")
- (version "0.3.0")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/fredrik-johansson/python-flint")
- (commit version)))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "1v0anazbj1cfi68nl2j6dbd31kgkc1563xmr0zk5xk3xj78569pw"))
- (patches (search-patches "python-flint-includes.patch"))))
- (build-system python-build-system)
- (native-inputs
- `(("python-cython" ,python-cython)))
- (propagated-inputs
- `(("python-numpy" ,python-numpy)))
- (inputs
- `(("arb" ,arb)
- ("flint" ,flint)))
- (synopsis "Python module wrapping ARB and FLINT")
- (description
- "Python-flint is a Python extension module wrapping FLINT
- (Fast Library for Number Theory) and Arb (arbitrary-precision ball
- arithmetic). It supports integers, rationals, modular integers,
- real and complex ball arithmetic, polynomials and matrices over all
- these types and other mathematical functions.")
- (license license:expat)
- (home-page "https://fredrikj.net/python-flint/")))
- (define-public ntl
- (package
- (name "ntl")
- (version "11.4.4")
- (source (origin
- (method url-fetch)
- (uri (string-append "https://shoup.net/ntl/ntl-"
- version ".tar.gz"))
- (sha256
- (base32
- "1nr1h27j2gdz6badzz9lk2pknxhdijqdxqhd3haryh0sw616wzwx"))
- (modules '((guix build utils)))
- (snippet
- '(begin
- (delete-file-recursively "src/libtool-origin")
- #t))))
- (build-system gnu-build-system)
- (native-inputs
- `(("libtool" ,libtool)
- ("perl" ,perl))) ; for configuration
- (inputs
- `(("gmp" ,gmp)
- ("gf2x" ,gf2x)))
- (arguments
- `(#:phases
- (modify-phases %standard-phases
- (replace 'configure
- (lambda* (#:key inputs outputs #:allow-other-keys)
- (chdir "src")
- (invoke "./configure"
- (string-append "PREFIX=" (assoc-ref outputs "out"))
- (string-append "LIBTOOL=" (assoc-ref inputs "libtool") "/bin/libtool")
- ;; set the library prefixes explicitly so that they get
- ;; embedded in the .la file
- (string-append "GMP_PREFIX=" (assoc-ref inputs "gmp"))
- (string-append "GF2X_PREFIX=" (assoc-ref inputs "gf2x"))
- ;; Do not build especially for the build machine.
- "NATIVE=off"
- "NTL_GF2X_LIB=on"
- "SHARED=on"))))))
- (synopsis "C++ library for number theory")
- (description
- "NTL is a C++ library providing data structures and algorithms
- for manipulating signed, arbitrary length integers, and for vectors,
- matrices, and polynomials over the integers and over finite fields.")
- (license license:gpl2+)
- (home-page "https://shoup.net/ntl/")))
- (define-public singular
- (package
- (name "singular")
- (version "4.1.3p2")
- (source
- (origin
- (method url-fetch)
- (uri
- (string-append "http://www.mathematik.uni-kl.de/ftp/pub/Math/"
- "Singular/SOURCES/"
- (string-join
- (string-split
- (string-trim-right version #\p
- 0 (1- (string-length version)))
- #\.) "-")
- "/singular-" version ".tar.gz"))
- (sha256 (base32
- "1524yrni7gh0hir5ckridq671q5s6avfjdsdyahj51kzdl3wcypf"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("doxygen" ,doxygen)
- ("graphviz" ,graphviz)
- ("perl" ,perl)))
- (inputs
- `(("cddlib" ,cddlib)
- ("gmp" ,gmp)
- ("flint" ,flint)
- ("mpfr" ,mpfr)
- ("ntl" ,ntl)
- ("python" ,python-2)
- ("readline" ,readline)))
- (arguments
- `(#:configure-flags
- (list (string-append "--with-ntl="
- (assoc-ref %build-inputs "ntl")))))
- (synopsis "Computer algebra system for polynomial computations")
- (description
- "Singular is a computer algebra system for polynomial computations,
- with special emphasis on commutative and non-commutative algebra, algebraic
- geometry and singularity theory.")
- ;; Singular itself is dual licensed gpl2 or gpl3, but some of the
- ;; libraries with which it links are licensed under lgpl3+, so the
- ;; combined work becomes gpl3. See COPYING in the source code.
- (license license:gpl3)
- (home-page "https://www.singular.uni-kl.de/index.php")))
- (define-public gmp-ecm
- (package
- (name "gmp-ecm")
- (version "7.0.4")
- (source (origin
- (method url-fetch)
- (uri
- (let ((hash "00c4c691a1ef8605b65bdf794a71539d"))
- (string-append "https://gitlab.inria.fr/zimmerma/ecm/"
- "uploads/" hash "/ecm-" version
- ".tar.gz")))
- (sha256 (base32
- "0hxs24c2m3mh0nq1zz63z3sb7dhy1rilg2s1igwwcb26x3pb7xqc"))))
- (build-system gnu-build-system)
- (inputs
- `(("gmp" ,gmp)))
- (arguments
- `(#:configure-flags '("--enable-shared"
- ;; Disable specific assembly routines, which depend
- ;; on the subarchitecture of the build machine,
- ;; and use gmp instead.
- "--disable-asm-redc")))
- (synopsis "Integer factorization library using the elliptic curve method")
- (description
- "GMP-ECM factors integers using the elliptic curve method (ECM) as well
- as the P-1 and P+1 algorithms. It provides a library and a stand-alone
- binary.")
- ;; Most files are under lgpl3+, but some are under gpl3+ or gpl2+,
- ;; so the combined work is under gpl3+.
- (license license:gpl3+)
- (home-page "http://ecm.gforge.inria.fr/")))
- (define-public bc
- (package
- (name "bc")
- (version "1.07.1")
- (source (origin
- (method url-fetch)
- (uri (string-append "mirror://gnu/bc/bc-" version ".tar.gz"))
- (sha256
- (base32
- "0amh9ik44jfg66csyvf4zz1l878c4755kjndq9j0270akflgrbb2"))
- (patches (search-patches "bc-fix-cross-compilation.patch"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("automake" ,automake)
- ("autoconf" ,autoconf)
- ("ed" ,ed)
- ("flex" ,flex)
- ("texinfo" ,texinfo)))
- (inputs
- `(("readline" ,readline)))
- (arguments
- '(#:configure-flags
- (list "--with-readline")
- #:phases
- (modify-phases %standard-phases
- (replace 'bootstrap
- (lambda _
- (invoke "autoreconf" "-vif"))))))
- (home-page "https://www.gnu.org/software/bc/")
- (synopsis "Arbitrary precision numeric processing language")
- (description
- "bc is an arbitrary precision numeric processing language. It includes
- an interactive environment for evaluating mathematical statements. Its
- syntax is similar to that of C, so basic usage is familiar. It also includes
- \"dc\", a reverse-polish calculator.")
- (license license:gpl2+)))
- ;; The original kiss-fft does not have a complete build system and does not
- ;; build any shared libraries. This is a fork used by Extempore.
- (define-public kiss-fft-for-extempore
- (package
- (name "kiss-fft-for-extempore")
- (version "1.3.0")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/extemporelang/kiss_fft")
- (commit version)))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "0jasbmqy4wkqrqx3w64s1dfmj34875xmsl72mb26aa4hpyn14bi2"))))
- (build-system cmake-build-system)
- (arguments `(#:tests? #f)) ; no tests included
- ;; Extempore refuses to build on architectures other than x86_64
- (supported-systems '("x86_64-linux"))
- (home-page "https://github.com/extemporelang/kiss_fft")
- (synopsis "Mixed-radix Fast Fourier Transform")
- (description
- "Kiss FFT attempts to be a reasonably efficient, moderately useful FFT
- that can use fixed or floating data types and can easily be incorporated into
- a C program.")
- (license license:bsd-3)))
- (define-public fftw
- (package
- (name "fftw")
- (version "3.3.8")
- (source (origin
- (method url-fetch)
- (uri (string-append "ftp://ftp.fftw.org/pub/fftw/fftw-"
- version".tar.gz"))
- (sha256
- (base32
- "00z3k8fq561wq2khssqg0kallk0504dzlx989x3vvicjdqpjc4v1"))))
- (build-system gnu-build-system)
- (arguments
- `(#:configure-flags
- '("--enable-shared" "--enable-openmp" "--enable-threads"
- ,@(let ((system (or (%current-target-system) (%current-system))))
- ;; Enable SIMD extensions for codelets. See details at:
- ;; <http://fftw.org/fftw3_doc/Installation-on-Unix.html>.
- (cond
- ((string-prefix? "x86_64" system)
- '("--enable-sse2" "--enable-avx" "--enable-avx2"
- "--enable-avx512" "--enable-avx-128-fma"))
- ((string-prefix? "i686" system)
- '("--enable-sse2"))
- ((string-prefix? "aarch64" system)
- ;; Note that fftw supports NEON on 32-bit ARM only when
- ;; compiled for single-precision.
- '("--enable-neon"))
- (else
- '())))
- ;; By default '-mtune=native' is used. However, that may cause the
- ;; use of ISA extensions (e.g. AVX) that are not necessarily
- ;; available on the user's machine when that package is built on a
- ;; different machine.
- "ax_cv_c_flags__mtune_native=no")))
- (native-inputs `(("perl" ,perl)))
- (home-page "http://fftw.org")
- (synopsis "Computing the discrete Fourier transform")
- (description
- "FFTW is a C subroutine library for computing the discrete Fourier
- transform (DFT) in one or more dimensions, of arbitrary input size, and of
- both real and complex data (as well as of even/odd data---i.e. the discrete
- cosine/ sine transforms or DCT/DST).")
- (license license:gpl2+)))
- (define-public fftwf
- (package/inherit fftw
- (name "fftwf")
- (arguments
- (substitute-keyword-arguments (package-arguments fftw)
- ((#:configure-flags fftw-configure-flags)
- `(cons* "--enable-single"
- ,@(if (string-prefix? "arm" (or (%current-target-system)
- (%current-system)))
- ;; fftw supports NEON on 32-bit ARM only when compiled
- ;; for single-precision, so add it here.
- '("--enable-neon")
- '())
- ,fftw-configure-flags))))
- (description
- (string-append (package-description fftw)
- " Single-precision version."))))
- (define-public fftw-openmpi
- (package/inherit fftw
- (name "fftw-openmpi")
- (inputs
- `(("openmpi" ,openmpi)
- ,@(package-inputs fftw)))
- (arguments
- (substitute-keyword-arguments (package-arguments fftw)
- ((#:configure-flags cf)
- `(cons "--enable-mpi" ,cf))
- ((#:phases phases '%standard-phases)
- `(modify-phases ,phases
- (add-before 'check 'mpi-setup
- ,%openmpi-setup)))))
- (description
- (string-append (package-description fftw)
- " With OpenMPI parallelism support."))))
- (define-public java-la4j
- (package
- (name "java-la4j")
- (version "0.6.0")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/vkostyukov/la4j")
- (commit version)))
- (file-name (string-append name "-" version "-checkout"))
- (sha256
- (base32
- "1qir8dr978cfvz9k12m2kbdwpyf6cqdf1d0ilb7lnkhbgq5i53w3"))))
- (build-system ant-build-system)
- (arguments
- `(#:jar-name "la4j.jar"
- #:jdk ,icedtea-8
- #:test-exclude (list "**/Abstract*.java"
- "**/MatrixTest.java"
- "**/DenseMatrixTest.java"
- "**/SparseMatrixTest.java"
- "**/VectorTest.java"
- "**/SparseVectorTest.java"
- "**/DenseVectorTest.java")))
- (native-inputs
- `(("java-junit" ,java-junit)
- ("java-hamcrest-core" ,java-hamcrest-core)))
- (home-page "http://la4j.org/")
- (synopsis "Java library that provides Linear Algebra primitives and algorithms")
- (description "The la4j library is a Java library that provides Linear
- Algebra primitives (matrices and vectors) and algorithms. The key features of
- the la4j library are:
- @itemize
- @item No dependencies and tiny size
- @item Fluent object-oriented/functional API
- @item Sparse (CRS, CCS) and dense (1D/2D arrays) matrices
- @item Linear systems solving (Gaussian, Jacobi, Zeidel, Square Root, Sweep and other)
- @item Matrices decomposition (Eigenvalues/Eigenvectors, SVD, QR, LU, Cholesky and other)
- @item MatrixMarket/CSV IO formats support for matrices and vectors
- @end itemize\n")
- (license license:asl2.0)))
- (define-public java-jlargearrays
- (package
- (name "java-jlargearrays")
- (version "1.6")
- (source (origin
- (method url-fetch)
- (uri (string-append "https://repo1.maven.org/maven2/"
- "pl/edu/icm/JLargeArrays/"
- version "/JLargeArrays-" version
- "-sources.jar"))
- (file-name (string-append name "-" version ".jar"))
- (sha256
- (base32
- "0v05iphpxbjnd7f4jf1rlqq3m8hslhcm0imdbsgxr20pi3xkaf2a"))))
- (build-system ant-build-system)
- (arguments
- `(#:jar-name "jlargearrays.jar"
- #:tests? #f ; tests are not included in the release archive
- #:jdk ,icedtea-8))
- (propagated-inputs
- `(("java-commons-math3" ,java-commons-math3)))
- (home-page "https://gitlab.com/ICM-VisLab/JLargeArrays")
- (synopsis "Library of one-dimensional arrays that can store up to 263 elements")
- (description "JLargeArrays is a Java library of one-dimensional arrays
- that can store up to 263 elements.")
- (license license:bsd-2)))
- (define-public java-jtransforms
- (package
- (name "java-jtransforms")
- (version "3.1")
- (source (origin
- (method url-fetch)
- (uri (string-append "https://repo1.maven.org/maven2/"
- "com/github/wendykierp/JTransforms/"
- version "/JTransforms-" version "-sources.jar"))
- (sha256
- (base32
- "1haw5m8shv5srgcpwkl853dz8bv6h90bzlhcps6mdpb4cixjirsg"))))
- (build-system ant-build-system)
- (arguments
- `(#:jar-name "jtransforms.jar"
- #:tests? #f ; tests are not included in the release archive
- #:jdk ,icedtea-8))
- (propagated-inputs
- `(("java-commons-math3" ,java-commons-math3)
- ("java-jlargearrays" ,java-jlargearrays)))
- (home-page "https://github.com/wendykierp/JTransforms")
- (synopsis "Multithreaded FFT library written in pure Java")
- (description "JTransforms is a multithreaded FFT library written in pure
- Java. Currently, four types of transforms are available: @dfn{Discrete
- Fourier Transform} (DFT), @dfn{Discrete Cosine Transform} (DCT), @dfn{Discrete
- Sine Transform} (DST) and @dfn{Discrete Hartley Transform} (DHT).")
- (license license:bsd-2)))
- (define-public lmfit
- (package
- (name "lmfit")
- (version "8.2.2")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://jugit.fz-juelich.de/mlz/lmfit.git")
- (commit (string-append "v" version))))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "00bch77a6qgnw6vzsjn2a42n8n683ih3xm0wpr454jxa15hw78vf"))))
- (build-system cmake-build-system)
- (native-inputs
- `(("perl" ,perl))) ; for pod2man
- (home-page "https://jugit.fz-juelich.de/mlz/lmfit")
- (synopsis "Levenberg-Marquardt minimization and least-squares fitting")
- (description "lmfit is a C library for Levenberg-Marquardt least-squares
- minimization and curve fitting. It is mature code, based on decades-old
- algorithms from the FORTRAN library MINPACK.")
- (license license:bsd-2)))
- (define-public symengine
- (package
- (name "symengine")
- (version "0.6.0")
- (source
- (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/symengine/symengine")
- (commit (string-append "v" version))))
- (file-name (git-file-name name version))
- (sha256
- (base32 "129iv9maabmb42ylfdv0l0g94mcbf3y4q3np175008rcqdr8z6h1"))))
- (build-system cmake-build-system)
- (arguments
- '(#:configure-flags
- ;; These are the suggested build options in the README.
- '("-DCMAKE_BUILD_TYPE=Release"
- "-DWITH_GMP=on"
- "-DWITH_MPFR=on"
- "-DWITH_MPC=on"
- "-DINTEGER_CLASS=flint"
- "-DWITH_SYMENGINE_THREAD_SAFE=on"
- "-DBUILD_SHARED_LIBS=on"))) ;also build libsymengine
- (inputs
- `(("flint" ,flint)
- ("gmp" ,gmp)
- ("mpc" ,mpc)
- ("mpfr" ,mpfr)))
- (home-page "https://github.com/symengine/symengine")
- (synopsis "Fast symbolic manipulation library")
- (description
- "SymEngine is a standalone fast C++ symbolic manipulation library.
- Optional thin wrappers allow usage of the library from other languages.")
- (license (list license:expat ;SymEngine
- license:bsd-3)))) ;3rd party code
- (define-public eigen
- (package
- (name "eigen")
- (version "3.3.8")
- (source (origin
- (method url-fetch)
- (uri (list
- (string-append "https://bitbucket.org/eigen/eigen/get/"
- version ".tar.bz2")
- (string-append "mirror://debian/pool/main/e/eigen3/eigen3_"
- version ".orig.tar.bz2")))
- (sha256
- (base32
- "1vxrsncfnkyq6gwxpsannpryp12mk7lc8f42ybvz3saf7icwc582"))
- (file-name (string-append name "-" version ".tar.bz2"))
- (patches (search-patches "eigen-remove-openmp-error-counting.patch"
- "eigen-stabilise-sparseqr-test.patch"))
- (modules '((guix build utils)))
- (snippet
- ;; There are 3 test failures in the "unsupported" directory,
- ;; but maintainers say it's a known issue and it's unsupported
- ;; anyway, so just skip them.
- '(begin
- (substitute* "unsupported/CMakeLists.txt"
- (("add_subdirectory\\(test.*")
- "# Do not build the tests for unsupported features.\n"))
- #t))))
- (build-system cmake-build-system)
- (arguments
- '(;; Turn off debugging symbols to save space.
- #:build-type "Release"
- #:phases (modify-phases %standard-phases
- (replace 'check
- (lambda _
- (let* ((cores (parallel-job-count))
- (dash-j (format #f "-j~a" cores)))
- (setenv "EIGEN_SEED" "1") ;for reproducibility
- ;; First build the tests, in parallel. See
- ;; <http://eigen.tuxfamily.org/index.php?title=Tests>.
- (invoke "make" "buildtests" dash-j)
- ;; Then run 'CTest' with -V so we get more
- ;; details upon failure.
- (invoke "ctest" "-V" dash-j)))))))
- (home-page "https://eigen.tuxfamily.org")
- (synopsis "C++ template library for linear algebra")
- (description
- "Eigen is a C++ template library for linear algebra: matrices, vectors,
- numerical solvers, and related algorithms. It provides an elegant API based
- on \"expression templates\". It is versatile: it supports all matrix sizes,
- all standard numeric types, various matrix decompositions and geometry
- features, and more.")
- ;; Most of the code is MPLv2, with a few files under LGPLv2.1+ or BSD-3.
- ;; See 'COPYING.README' for details.
- (license license:mpl2.0)))
- (define-public eigen-for-tensorflow
- (let ((changeset "fd6845384b86")
- (revision "1"))
- (package (inherit eigen)
- (name "eigen-for-tensorflow")
- (version (string-append "3.3.5-" revision "." changeset))
- (source (origin
- (method hg-fetch)
- (uri (hg-reference
- (url "https://bitbucket.org/eigen/eigen")
- (changeset changeset)))
- (sha256
- (base32
- "12cwgah63wqwb66xji048hcxc1z5zjg8a7701zlia5zbilnnk1n5"))
- (file-name (string-append name "-" version "-checkout"))
- (modules '((guix build utils)))
- (snippet
- ;; There are 3 test failures in the "unsupported" directory,
- ;; but maintainers say it's a known issue and it's unsupported
- ;; anyway, so just skip them.
- '(begin
- (substitute* "unsupported/CMakeLists.txt"
- (("add_subdirectory\\(test.*")
- "# Do not build the tests for unsupported features.\n"))
- #t)))))))
- (define-public eigen-for-tensorflow-lite
- ;; This commit was taken from
- ;; tensorflow/lite/tools/cmake/modules/eigen.cmake
- (let ((commit "d10b27fe37736d2944630ecd7557cefa95cf87c9")
- (revision "1"))
- (package (inherit eigen)
- (name "eigen-for-tensorflow-lite")
- (version (git-version "3.3.7" revision commit))
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://gitlab.com/libeigen/eigen")
- (commit commit)))
- (sha256
- (base32
- "0v8a20cwvwmp3hw4275b37frw33v92z0mr8f4dn6y8k0rz92hrrf"))
- (file-name (git-file-name name version))
- (modules '((guix build utils)))
- (snippet
- ;; Ther are test failures in the "unsupported" directory, but
- ;; maintainers say it's unsupported anyway, so just skip
- ;; them.
- '(begin
- (substitute* "unsupported/CMakeLists.txt"
- (("add_subdirectory\\(test.*")
- "# Do not build the tests for unsupported features.\n")))))))))
- (define-public xtensor
- (package
- (name "xtensor")
- (version "0.20.10")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/xtensor-stack/xtensor")
- (commit version)))
- (sha256
- (base32
- "1fmv2hpx610xwhxrndfsfvlbqfyk4l3gi5q5d7pa9m82kblxjj9l"))
- (file-name (git-file-name name version))))
- (build-system cmake-build-system)
- (native-inputs
- `(("googletest" ,googletest)
- ("xtl" ,xtl)))
- (arguments
- `(#:configure-flags
- '("-DBUILD_TESTS=ON")
- #:test-target "xtest"))
- (home-page "https://xtensor.readthedocs.io/en/latest/")
- (synopsis "C++ tensors with broadcasting and lazy computing")
- (description "xtensor is a C++ library meant for numerical analysis with
- multi-dimensional array expressions.
- xtensor provides:
- @itemize
- @item an extensible expression system enabling lazy broadcasting.
- @item an API following the idioms of the C++ standard library.
- @item tools to manipulate array expressions and build upon xtensor.
- @end itemize")
- (license license:bsd-3)))
- (define-public gap
- (package
- (name "gap")
- (version "4.11.0")
- (source
- (origin
- (method url-fetch)
- (uri (string-append "https://files.gap-system.org/gap-"
- (version-major+minor version)
- "/tar.bz2/gap-"
- version
- ".tar.bz2"))
- (sha256
- (base32 "00l6hvy4iggnlrib4vp805sxdm3j7n3hzpv5zs9hbiiavh80l1xz"))
- (modules '((guix build utils) (ice-9 ftw) (srfi srfi-1)))
- (snippet
- '(begin
- ;; Delete the external gmp and zlib libraries
- ;; and a subdirectory not needed for our build.
- (for-each delete-file-recursively
- '("extern" "hpcgap"))
- ;; Delete a failing test.
- ;; FIXME: This might be fixed in the next release, see
- ;; https://github.com/gap-system/gap/issues/3292
- (delete-file "tst/testinstall/dir.tst")
- ;; Delete all packages except for a fixed list,
- ;; given by their names up to version numbers.
- (with-directory-excursion "pkg"
- (for-each delete-file-recursively
- (lset-difference
- (lambda (all keep) (string-prefix? keep all))
- (scandir ".")
- '("." ".."
- ;; Necessary packages.
- "GAPDoc-"
- "primgrp-"
- "SmallGrp-" ; artistic2.0
- "transgrp" ; artistic2.0 for data,
- ; gpl2 or gpl3 for code
- ;; Recommended package.
- "io-" ; gpl3+
- ;; Optional packages, searched for at start,
- ;; and their depedencies.
- "alnuth-"
- "autpgrp-"
- "crisp-" ; bsd-2
- "ctbllib" ; gpl3+, clarified in the next release;
- ; see
- ; http://www.math.rwth-aachen.de/~Thomas.Breuer/ctbllib/README.md
- "FactInt-"
- "fga"
- "irredsol-" ; bsd-2
- "laguna-"
- "polenta-"
- "polycyclic-"
- "radiroot-"
- "resclasses-"
- "sophus-"
- "tomlib-"
- "utils-"))))
- #t))))
- (build-system gnu-build-system)
- (inputs
- `(("gmp" ,gmp)
- ("readline" ,readline)
- ("zlib" ,zlib)))
- (arguments
- `(#:modules ((ice-9 ftw)
- (srfi srfi-26)
- (guix build gnu-build-system)
- (guix build utils))
- #:phases
- (modify-phases %standard-phases
- (add-after 'build 'build-packages
- ;; Compile all packages that have not been deleted by the
- ;; code snippet above.
- (lambda _
- (setenv "CONFIG_SHELL" (which "bash"))
- (with-directory-excursion "pkg"
- (invoke "../bin/BuildPackages.sh")
- #t)))
- (add-after 'build-packages 'build-doc
- ;; The documentation is bundled, but we create it from source.
- (lambda _
- (with-directory-excursion "doc"
- (invoke "./make_doc"))
- #t))
- (replace 'install
- (lambda* (#:key outputs #:allow-other-keys)
- (let* ((out (assoc-ref outputs "out"))
- (bin (string-append out "/bin"))
- (prog (string-append bin "/gap"))
- (prog-real (string-append bin "/.gap-real"))
- (share (string-append out "/share/gap")))
- ;; Install only the gap binary; the gac compiler is left
- ;; for maybe later. "Wrap" it in a shell script that calls
- ;; the binary with the correct parameter.
- ;; The make target install-bin is supposed to do that, but
- ;; is not currently working.
- (mkdir-p bin)
- (copy-file "gap" prog-real)
- (call-with-output-file prog
- (lambda (port)
- (format port
- "#!~a~%exec ~a -l ~a \"$@\"~%"
- (which "bash")
- prog-real
- share)))
- (chmod prog #o755)
- ;; Install the headers and library, which are needed by Sage.
- (invoke "make" "install-headers")
- (invoke "make" "install-libgap")
- ;; Remove information on the build directory from sysinfo.gap.
- (substitute* "sysinfo.gap"
- (("GAP_BIN_DIR=\".*\"") "GAP_BIN_DIR=\"\"")
- (("GAP_LIB_DIR=\".*\"") "GAP_LIB_DIR=\"\"")
- (("GAP_CPPFLAGS=\".*\"") "GAP_CPPFLAGS=\"\""))
- (invoke "make" "install-gaproot")
- ;; Copy the directory of compiled packages; the make target
- ;; install-pkg is currently empty.
- (copy-recursively "pkg" (string-append share "/pkg")))
- #t)))))
- (home-page "https://www.gap-system.org/")
- (synopsis
- "System for computational group theory")
- (description
- "GAP is a system for computational discrete algebra, with particular
- emphasis on computational group theory. It provides a programming language,
- a library of thousands of functions implementing algebraic algorithms
- written in the GAP language as well as large data libraries of algebraic
- objects.")
- ;; Some packages have different licenses (effectively forcing the
- ;; combined work to be licensed as gpl3+); if this is the case, this
- ;; is mentioned above next to their name.
- ;; Some packages have no license mentioned explicitly; supposedly this
- ;; means that the gpl2+ licence of GAP itself applies, but to be on the
- ;; safe side, we drop them for now.
- (license license:gpl2+)))
- (define-public gappa
- (package
- (name "gappa")
- (version "1.3.5")
- (source (origin
- (method url-fetch)
- (uri (string-append "https://gforge.inria.fr/frs/download.php/latestfile/"
- "2699/gappa-" version ".tar.gz"))
- (sha256
- (base32
- "0q1wdiwqj6fsbifaayb1zkp20bz8a1my81sqjsail577jmzwi07w"))))
- (build-system gnu-build-system)
- (inputs
- `(("boost" ,boost)
- ("gmp" ,gmp)
- ("mpfr" ,mpfr)))
- (arguments
- `(#:phases
- (modify-phases %standard-phases
- (add-after 'unpack 'patch-remake-shell
- (lambda _
- (substitute* "remake.cpp"
- (("/bin/sh") (which "sh")))
- #t))
- (replace 'build
- (lambda _ (invoke "./remake" "-s" "-d")))
- (replace 'install
- (lambda _ (invoke "./remake" "-s" "-d" "install")))
- (replace 'check
- (lambda _ (invoke "./remake" "check"))))))
- (home-page "http://gappa.gforge.inria.fr/")
- (synopsis "Proof generator for arithmetic properties")
- (description "Gappa is a tool intended to help verifying and formally
- proving properties on numerical programs dealing with floating-point or
- fixed-point arithmetic. It has been used to write robust floating-point
- filters for CGAL and it is used to certify elementary functions in CRlibm.
- While Gappa is intended to be used directly, it can also act as a backend
- prover for the Why3 software verification platform or as an automatic tactic
- for the Coq proof assistant.")
- (license (list license:gpl3+ license:cecill-c)))) ; either/or
- (define-public givaro
- (package
- (name "givaro")
- (version "4.1.1")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/linbox-team/givaro")
- (commit (string-append "v" version))))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "11wz57q6ijsvfs5r82masxgr319as92syi78lnl9lgdblpc6xigk"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("autoconf" ,autoconf)
- ("automake" ,automake)
- ("libtool" ,libtool)))
- (propagated-inputs
- `(("gmp" ,gmp))) ; gmp++.h includes gmpxx.h
- (synopsis "Algebraic computations with exact rings and fields")
- (description
- "Givaro is a C++ library implementing the basic arithmetic of various
- algebraic objects: prime fields, extension fields, finite fields, finite
- rings, polynomials, algebraic numbers, arbitrary precision integers and
- rationals (C++ wrappers over gmp), fixed precision integers. It also
- provides data-structures and templated classes for the manipulation of
- compound objects, such as vectors, matrices and univariate polynomials.")
- (license license:cecill-b)
- (home-page "https://github.com/linbox-team/givaro")))
- (define-public fflas-ffpack
- (package
- (name "fflas-ffpack")
- (version "2.4.3")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/linbox-team/fflas-ffpack")
- (commit version)))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "1ynbjd72qrwp0b4kpn0p5d7gddpvj8dlb5fwdxajr5pvkvi3if74"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("autoconf" ,autoconf)
- ("automake" ,automake)
- ("libtool" ,libtool)
- ("pkg-config" ,pkg-config)))
- (inputs
- `(("openblas" ,openblas)))
- (propagated-inputs
- `(("givaro" ,givaro))) ; required according to the .pc file
- (arguments
- `(#:configure-flags
- (list (string-append "--with-blas-libs="
- (assoc-ref %build-inputs "openblas")
- "/lib/libopenblas.so"))))
- (synopsis "C++ library for linear algebra over finite fields")
- (description
- "FFLAS-FFPACK is a C++ template library for basic linear algebra
- operations over a finite field.
- FFLAS (Finite Field Linear Algebra Subprograms) provides the implementation
- of a subset of routines of the numerical BLAS; it also supports sparse
- matrix-vector products.
- FFPACK (Finite Field Linear Algebra Package) is inspired by the LAPACK
- library to provide functionalities of higher level, using the kernel
- of a BLAS. Additionally, it provides routines specific to exact linear
- algebra, such as the row echelon form.")
- (license license:lgpl2.1+)
- (home-page "https://linbox-team.github.io/fflas-ffpack/")))
- (define-public linbox
- (package
- (name "linbox")
- (version "1.6.3")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/linbox-team/linbox")
- (commit (string-append "v" version))))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "10j6dspbsq7d2l4q3y0c1l1xwmaqqba2fxg59q5bhgk9h5d7q571"))
- (patches (search-patches "linbox-fix-pkgconfig.patch"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("autoconf" ,autoconf)
- ("automake" ,automake)
- ("libtool" ,libtool)
- ("pkg-config" ,pkg-config)))
- (propagated-inputs
- `(("fflas-ffpack" ,fflas-ffpack)))
- (synopsis "C++ library for linear algebra over exact rings")
- (description
- "LinBox is a C++ template library for exact linear algebra computation
- with dense, sparse, and structured matrices over the integers and over
- finite fields.")
- (license license:lgpl2.1+)
- (home-page "https://linbox-team.github.io/linbox/")))
- (define-public m4ri
- (package
- (name "m4ri")
- (version "20140914")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://bitbucket.org/malb/m4ri")
- (commit (string-append "release-" version))))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "0xfg6pffbn8r1s0y7bn9b8i55l00d41dkmhrpf7pwk53qa3achd3"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("autoconf" ,autoconf)
- ("automake" ,automake)
- ("libtool" ,libtool)
- ("pkg-config" ,pkg-config)))
- (inputs
- `(("libpng" ,libpng)))
- (synopsis "Arithmetic of dense matrices over F_2")
- (description "M4RI is a library for fast arithmetic with dense matrices
- over F2. The name M4RI comes from the first implemented algorithm: The
- Method of the Four Russians inversion algorithm published by Gregory Bard.
- This algorithm in turn is named after the Method of the Four Russians
- multiplication algorithm.")
- (license license:gpl2+)
- (home-page "https://bitbucket.org/malb/m4ri/")))
- (define-public symmetrica
- (package
- (name "symmetrica")
- (version "2.0")
- (source (origin
- (method url-fetch/tarbomb)
- (uri (let ((v (string-join (string-split version #\.) "_")))
- (string-append "http://www.algorithm.uni-bayreuth.de/"
- "en/research/SYMMETRICA/"
- "SYM" v "_tar.gz")))
- (sha256
- (base32
- "1qhfrbd5ybb0sinl9pad64rscr08qvlfzrzmi4p4hk61xn6phlmz"))
- ;; Taken from <https://git.sagemath.org/sage.git/plain/build/pkgs/symmetrica/patches/>
- (patches (search-patches "symmetrica-bruch.patch"
- "symmetrica-int32.patch"
- "symmetrica-return_values.patch"
- "symmetrica-sort_sum_rename.patch"))))
- (build-system gnu-build-system)
- (arguments
- `(#:tests? #f ;no test
- #:phases
- (modify-phases %standard-phases
- (add-after 'unpack 'fix-makefile
- (lambda _
- (substitute* "makefile"
- (("cc -c") "gcc -c -fPIC"))
- #t))
- (add-after 'fix-makefile 'turn-off-banner
- (lambda _
- (substitute* "de.c"
- (("(INT no_banner = )FALSE" _ pre) (string-append pre "TRUE")))
- #t))
- (delete 'configure) ;no configure script
- (replace 'install ;no install target
- (lambda* (#:key outputs #:allow-other-keys)
- (let* ((out (assoc-ref outputs "out"))
- (lib (string-append out "/lib"))
- (inc (string-append out "/include/symmetrica"))
- (doc (string-append out "/share/doc/symmetrica-" ,version))
- (static "libsymmetrica.a"))
- ;; Build static library.
- (apply invoke "ar" "crs" static (find-files "." "\\.o$"))
- (invoke "ranlib" static)
- ;; Install static library and headers.
- (for-each (lambda (f) (install-file f inc))
- (find-files "." "\\.h$"))
- (install-file "libsymmetrica.a" lib)
- ;; Install documentation.
- (for-each (lambda (f) (install-file f doc))
- (find-files "." "\\.doc$"))
- #t))))))
- (home-page "http://www.algorithm.uni-bayreuth.de/en/research/SYMMETRICA/")
- (synopsis "Combinatoric C Library")
- (description "Symmetrica is a library for combinatorics. It has support
- for the representation theory of the symmetric group and related groups,
- combinatorics of tableaux, symmetric functions and polynomials, Schubert
- polynomials, and the representation theory of Hecke algebras of type A_n.")
- (license license:public-domain)))
- (define-public m4rie
- (package
- (name "m4rie")
- (version "20150908")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://bitbucket.org/malb/m4rie")
- (commit (string-append "release-" version))))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "0r8lv46qx5mkz5kp3ay2jnsp0mbhlqr5z2z220wdk73wdshcznss"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("autoconf" ,autoconf)
- ("automake" ,automake)
- ("libtool" ,libtool)))
- (inputs
- `(("m4ri" ,m4ri)))
- (synopsis "Arithmetic of dense matrices over F_{2^e}")
- (description "M4RI is a library for fast arithmetic with dense matrices
- over finite fields of characteristic 2. So it extends the functionality
- of M4RI from F_2 to F_{2^e}.")
- (license license:gpl2+)
- (home-page "https://bitbucket.org/malb/m4rie/")))
- (define-public eclib
- (package
- (name "eclib")
- (version "20190909")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://github.com/JohnCremona/eclib/")
- (commit (string-append "v" version))))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "1gw27lqc3f525n8qdcmr2nyn16y9g10z9f6dnmckyyxcdzvhq35n"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("autoconf" ,autoconf)
- ("automake" ,automake)
- ("libtool" ,libtool)))
- (inputs
- `(("ntl" ,ntl)
- ("pari-gp" ,pari-gp)))
- (synopsis "Ranks of elliptic curves and modular symbols")
- (description "The eclib package includes mwrank (for 2-descent on
- elliptic curves over Q) and modular symbol code; it has been written by
- John Cremona to compute his elliptic curve database.")
- (license license:gpl2+)
- (home-page (string-append "http://homepages.warwick.ac.uk/staff/"
- "J.E.Cremona/mwrank/index.html"))))
- (define-public lrcalc
- (package
- (name "lrcalc")
- (version "1.2")
- (source (origin
- (method git-fetch)
- (uri (git-reference
- (url "https://bitbucket.org/asbuch/lrcalc")
- (commit (string-append "lrcalc-" version))))
- (file-name (git-file-name name version))
- (sha256
- (base32
- "1c12d04jdyxkkav4ak8d1aqrv594gzihwhpxvc6p9js0ry1fahss"))
- (patches (search-patches "lrcalc-includes.patch"))))
- (build-system gnu-build-system)
- (native-inputs
- `(("autoconf" ,autoconf)
- ("automake" ,automake)
- ("libtool" ,libtool)))
- (arguments
- `(#:phases
- (modify-phases %standard-phases
- (add-before 'build 'fix-permission
- (lambda _
- (chmod "lrcalc.maple.src" #o644)
- #t)))))
- (synopsis "Littlewood-Richardson calculator in algebraic combinatorics")
- (description "The Littlewood-Richardson Calculator (lrcalc) is a
- program designed to compute Littlewood-Richardson coefficients. It computes
- single Littlewood-Richardson coefficients, products of Schur functions, or
- skew Schur functions. In addition it computes products in the small quantum
- cohomology ring of a Grassmann variety. The software package also includes
- a program that performs fast computation of the more general multiplicative
- structure constants of Schubert polynomials.")
- (license license:gpl2+)
- (home-page "https://sites.math.rutgers.edu/~asbuch/lrcalc/")))
- (define-public iml
- (package
- (name "iml")
- (version "1.0.5")
- (source
- (origin
- (method url-fetch)
- (uri (string-append "http://www.cs.uwaterloo.ca/~astorjoh/iml-"
- version ".tar.bz2"))
- (sha256
- (base32
- "0akwhhz9b40bz6lrfxpamp7r7wkk48p455qbn04mfnl9a1l6db8x"))))
- (build-system gnu-build-system)
- (inputs
- `(("gmp" ,gmp)
- ("cblas" ,openblas))) ; or any other BLAS library; the documentation
- ; mentions ATLAS in particular
- (arguments
- `(#:configure-flags
- (list
- "--enable-shared"
- (string-append "--with-gmp-include="
- (assoc-ref %build-inputs "gmp") "/include")
- (string-append "--with-gmp-lib="
- (assoc-ref %build-inputs "gmp") "/lib")
- "--with-cblas=-lopenblas"
- (string-append "--with-cblas-include="
- (assoc-ref %build-inputs "cblas") "/include")
- (string-append "--with-cblas-lib="
- (assoc-ref %build-inputs "cblas") "/lib"))))
- (home-page "https://cs.uwaterloo.ca/~astorjoh/iml.html")
- (synopsis
- "Solver for systems of linear equations over the integers")
- (description
- "IML is a C library implementing algorithms for computing exact
- solutions to dense systems of linear equations over the integers.
- Currently, IML provides the following functionality:
- @itemize
- @item Nonsingular rational system solving:
- compute the unique rational solution X to the system AX=B, where A and B
- are integer matrices, A nonsingular.
- @item Compute the right nullspace or kernel of an integer matrix.
- @item Certified linear system solving:
- compute a minimal denominator solution x to a system Ax=b, where b is an
- integer vector and A is an integer matrix with arbitrary shape and
- rank profile.
- @end itemize
- In addition, IML provides some low level routines for a variety of mod p
- matrix operations: computing the row-echelon form, determinant, rank
- profile, and inverse of a mod p matrix. These mod p routines are not
- general purpose; they require that p satisfy some preconditions based on
- the dimension of the input matrix (usually p should be prime and should be
- no more than about 20 bits long).")
- (license license:bsd-3)))
- (define-public r-dtt
- (package
- (name "r-dtt")
- (version "0.1-2")
- (source
- (origin
- (method url-fetch)
- (uri (cran-uri "dtt" version))
- (sha256
- (base32
- "0n8gj5iylfagdbaqirpykb01a9difsy4zl6qq55f0ghvazxqdvmn"))))
- (properties `((upstream-name . "dtt")))
- (build-system r-build-system)
- (home-page "http://www.r-project.org")
- (synopsis "Discrete Trigonometric Transforms")
- (description
- "This package provides functions for 1D and 2D Discrete Cosine Transform
- (@dfn{DCT}), Discrete Sine Transform (@dfn{DST}) and Discrete Hartley Transform
- (@dfn{DHT}).")
- (license license:gpl2+)))
- (define-public sollya
- (package
- (name "sollya")
- (version "7.0")
- (source (origin
- (method url-fetch)
- (uri (string-append "https://www.sollya.org/releases/"
- "sollya-" version "/sollya-" version ".tar.bz2"))
- (sha256
- (base32
- "11290ivi9h665cxi8f1shlavhy10vzb8s28m57hrcgnxyxqmhx0m"))))
- (build-system gnu-build-system)
- (inputs
- `(("fplll" ,fplll)
- ("gmp" ,gmp)
- ("gnuplot" ,gnuplot)
- ("libxml2" ,libxml2)
- ("mpfi" ,mpfi)
- ("mpfr" ,mpfr)))
- (arguments
- `(#:configure-flags
- (list (string-append "--docdir=${datadir}/doc/sollya-" ,version))
- #:phases
- (modify-phases %standard-phases
- (add-after 'unpack 'patch-test-shebang
- (lambda _
- (substitute* (list "tests-tool/Makefile.in"
- "tests-lib/Makefile.in")
- (("#!/bin/sh") (string-append "#!" (which "sh"))))
- #t))
- (add-before 'build 'patch-gnuplot-reference
- (lambda _
- (substitute* "general.c"
- (("\"gnuplot\"") (string-append "\"" (which "gnuplot") "\"")))
- #t)))))
- (home-page "https://www.sollya.org")
- (synopsis "Development environment for safe floating-point code")
- (description "Sollya is a computer program whose purpose is to
- provide an environment for safe floating-point code development. It
- is particularly targeted to the automated implementation of
- mathematical floating-point libraries (libm). Amongst other features,
- it offers a certified infinity norm, an automatic polynomial
- implementer, and a fast Remez algorithm.")
- (license license:cecill-c)))
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