;;; GNU Guix --- Functional package management for GNU ;;; Copyright © 2017, 2018, 2019, 2020, 2021 Paul Garlick ;;; Copyright © 2021, 2022 Maxim Cournoyer ;;; Copyright © 2022 Eric Bavier ;;; Copyright © 2022 Liliana Marie Prikler ;;; ;;; 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 . (define-module (gnu packages simulation) #:use-module (gnu packages) #:use-module (gnu packages algebra) #:use-module (gnu packages admin) #:use-module (gnu packages base) #:use-module (gnu packages bash) #:use-module (gnu packages bison) #:use-module (gnu packages boost) #:use-module (gnu packages check) #:use-module (gnu packages cmake) #:use-module (gnu packages compression) #:use-module (gnu packages cpp) #:use-module (gnu packages flex) #:use-module (gnu packages fontutils) #:use-module (gnu packages gettext) #:use-module (gnu packages gcc) #:use-module (gnu packages geo) #:use-module (gnu packages gl) #:use-module (gnu packages graphics) #:use-module (gnu packages gtk) #:use-module (gnu packages image) #:use-module (gnu packages iso-codes) #:use-module (gnu packages linux) #:use-module (gnu packages m4) #:use-module (gnu packages maths) #:use-module (gnu packages mpi) #:use-module (gnu packages multiprecision) #:use-module (gnu packages ncurses) #:use-module (gnu packages pkg-config) #:use-module (gnu packages protobuf) #:use-module (gnu packages python) #:use-module (gnu packages python-build) #:use-module (gnu packages python-science) #:use-module (gnu packages python-xyz) #:use-module (gnu packages readline) #:use-module (gnu packages tls) #:use-module (gnu packages version-control) #:use-module (gnu packages video) #:use-module (gnu packages xml) #:use-module (gnu packages xorg) #:use-module (guix download) #:use-module (guix gexp) #:use-module (guix git-download) #:use-module (guix svn-download) #:use-module (guix build-system cmake) #:use-module (guix build-system gnu) #:use-module (guix build-system pyproject) #:use-module (guix build-system python) #:use-module ((guix licenses) #:prefix license:) #:use-module (guix packages) #:use-module (guix gexp) #:use-module (guix utils) #:use-module (ice-9 ftw) #:use-module (ice-9 regex) #:use-module (srfi srfi-1)) (define-public openfoam (package (name "openfoam") (version "4.1") (source (origin (method url-fetch) (uri (string-append "http://dl.openfoam.org/source/" (string-map (lambda (x) (if (eq? x #\.) #\- x)) version))) (file-name (string-append name "-" version ".tar.gz")) (sha256 (base32 "0cgxh4h2hf50qbvvdg5miwc2nympb0nrv3md96vb3gbs9vk8vq9d")) (patches (search-patches "openfoam-4.1-cleanup.patch")) (modules '((guix build utils))) (snippet '(begin ;; Include , which is where glibc >= 2.28 provides ;; 'major' and 'minor'. (substitute* "src/OSspecific/POSIX/fileStat.C" (("#include ") "#include \n#include \n")) #t)))) (build-system gnu-build-system) (inputs `(("boost" ,boost) ("cgal" ,cgal) ("flex" ,flex) ("git" ,git) ("gmp" ,gmp) ("libxt" ,libxt) ("metis" ,metis) ("mpfr" ,mpfr) ("ncurses" ,ncurses) ("readline" ,readline) ("scotch" ,pt-scotch32) ("zlib" ,zlib))) (native-inputs (list bison)) (propagated-inputs (list gzip gnuplot openmpi)) (outputs '("debug" ;~60MB "out")) (arguments `( ;; Executable files and shared libraries are located in the 'platforms' ;; subdirectory. #:strip-directories (list (string-append "lib/OpenFOAM-" ,version "/platforms/linux64GccDPInt32Opt/bin") (string-append "lib/OpenFOAM-" ,version "/platforms/linux64GccDPInt32Opt/lib")) #:tests? #f ; no tests to run #:modules ((ice-9 ftw) (ice-9 regex) (guix build gnu-build-system) (guix build utils)) #:phases (modify-phases %standard-phases (add-after 'unpack 'rename-build-directory (lambda _ (chdir "..") ;; Use 'OpenFOAM-version' convention to match the file ;; name expectations in the build phase. (let ((unpack-dir (string-append (getcwd) "/" (list-ref (scandir (getcwd) (lambda (name) (string-match "^OpenFOAM" name))) 0))) (build-dir (string-append (getcwd) "/OpenFOAM-" ,version))) (rename-file unpack-dir build-dir) ; rename build directory (chdir (basename build-dir))) ; move to build directory #t)) (delete 'configure) ; no configure phase (replace 'build (lambda _ (let ((libraries '("boost" "cgal" "gmp" "metis" "mpfr" "scotch"))) ;; set variables to define store paths (for-each (lambda (library) (setenv (string-append (string-upcase library) "_ROOT") (assoc-ref %build-inputs library))) libraries)) ;; set variables to define package versions (setenv "SCOTCHVERSION" ,(package-version scotch)) (setenv "METISVERSION" ,(package-version metis)) ;; set variable to pass extra 'rpath' arguments to linker (setenv "LDFLAGS" (string-append "-Wl," "-rpath=" %output "/lib/OpenFOAM-" ,version "/platforms/linux64GccDPInt32Opt/lib," "-rpath=" %output "/lib/OpenFOAM-" ,version "/platforms/linux64GccDPInt32Opt/lib/dummy")) ;; compile OpenFOAM libraries and applications (zero? (system (format #f "source ./etc/bashrc && ./Allwmake -j~a" (parallel-job-count)))))) (add-after 'build 'update-configuration-files (lambda _ ;; record store paths and package versions in ;; configuration files (substitute* "etc/config.sh/CGAL" (("$BOOST_ROOT") (getenv "BOOST_ROOT"))) (substitute* "etc/config.sh/CGAL" (("$CGAL_ROOT") (getenv "CGAL_ROOT"))) (substitute* "etc/config.sh/metis" (("$METIS_ROOT") (getenv "METIS_ROOT"))) (substitute* "etc/config.sh/metis" (("$METISVERSION") (getenv "METISVERSION"))) (substitute* "etc/config.sh/scotch" (("$SCOTCH_ROOT") (getenv "SCOTCH_ROOT"))) (substitute* "etc/config.sh/scotch" (("$SCOTCHVERSION") (getenv "SCOTCHVERSION"))) (substitute* "etc/config.sh/settings" (("$GMP_ROOT") (getenv "GMP_ROOT"))) (substitute* "etc/config.sh/settings" (("$MPFR_ROOT") (getenv "MPFR_ROOT"))) ;; reset lockDir variable to refer to write-enabled ;; directory (substitute* "wmake/wmake" ((" lockDir=.*$") " lockDir=$HOME/.$WM_PROJECT/.wmake\n")) (substitute* "wmake/wmakeScheduler" (("lockDir=.*$") "lockDir=$HOME/.$WM_PROJECT/.wmake\n")) (substitute* "wmake/wmakeSchedulerUptime" (("lockDir=.*$") "lockDir=$HOME/.$WM_PROJECT/.wmake\n")) #t)) (add-after 'build 'cleanup ;; Avoid unncessary, voluminous object and dep files. (lambda _ (delete-file-recursively "platforms/linux64GccDPInt32Opt/src") (delete-file-recursively "platforms/linux64GccDPInt32OptSYSTEMOPENMPI") (for-each delete-file (find-files "." "\\.o$")) #t)) (replace 'install (lambda _ ;; use 'OpenFOAM-version' convention (let ((install-dir (string-append %output "/lib/OpenFOAM-" ,version))) (mkdir-p install-dir) ; create install directory ;; move contents of build directory to install directory (copy-recursively "." install-dir)))) (add-after 'install 'add-symbolic-link (lambda _ ;; add symbolic link for standard 'bin' directory (symlink (string-append "./lib/OpenFOAM-" ,version "/platforms/linux64GccDPInt32Opt/bin") (string-append %output "/bin")) #t))))) ;; Note: ;; Tutorial files are installed read-only in /gnu/store. ;; To allow write permissions on files copied from the store a ;; 'chmod' step is needed before running the applications. For ;; example, from a user's login: ;; $ source $GUIX_PROFILE/lib/OpenFOAM-4.1/etc/bashrc ;; $ mkdir -p $FOAM_RUN ;; $ cd $FOAM_RUN ;; $ cp -r $FOAM_TUTORIALS/incompressible/simpleFoam/pitzDaily . ;; $ cd pitzDaily ;; $ chmod -R u+w . ;; $ blockMesh (synopsis "Framework for numerical simulation of fluid flow") (description "OpenFOAM provides a set of solvers and methods for tackling problems in the field of Computational Fluid Dynamics (CFD). It is written in C++. Governing equations such as the Navier-Stokes equations can be solved in integral form. Physical processes such as phase change, droplet transport and chemical reaction can be modelled. Numerical methods are included to deal with sharp gradients, such as those encountered in flows with shock waves and flows with gas/liquid interfaces. Large problems may be split into smaller, connected problems for efficient solution on parallel systems.") (license license:gpl3+) (home-page "https://openfoam.org"))) (define-public open-simulation-interface (package (name "open-simulation-interface") (version "3.5.0") (source (origin (method git-fetch) (uri (git-reference (url (string-append "https://github.com/" "OpenSimulationInterface/" "open-simulation-interface")) (commit (string-append "v" version)))) (file-name (git-file-name name version)) (sha256 (base32 "09vclrvsawx608kk0vnzywr71xn11qzwxzh2j508zjfn0kvhyx7q")))) (build-system cmake-build-system) (arguments (list #:tests? #f ; tests are for the python package #:phases #~(modify-phases %standard-phases (add-after 'unpack 'fix-cmake (lambda _ (substitute* "CMakeLists.txt" (("-targets\\.cmake") "_targets.cmake"))))))) (native-inputs (list protobuf)) (home-page "https://github.com/OpenSimulationInterface/open-simulation-interface") (synopsis "Generic interface for environmental perception") (description "The Open Simulation Interface is a generic interface based on Google's protocol buffers for the environmental perception of automated driving functions in virtual scenarios.") (license license:mpl2.0))) (define-public python-fenics-dijitso (package (name "python-fenics-dijitso") (version "2019.1.0") (source (origin (method url-fetch) (uri (pypi-uri "fenics-dijitso" version)) (sha256 (base32 "0lhqsq8ypdak0ahr2jnyvg07yrqp6wicjxi6k56zx24wp3qg60sc")))) (build-system python-build-system) (inputs (list openmpi python-numpy)) (native-inputs (list python-pytest-cov)) (propagated-inputs (list python-mpi4py)) (arguments `(#:phases (modify-phases %standard-phases (add-after 'build 'mpi-setup ,%openmpi-setup) (replace 'check (lambda _ (setenv "HOME" "/tmp") (with-directory-excursion "test" ;; Disable parallel tests to avoid race condition. See ;; https://github.com/pytest-dev/pytest-cov/issues/237. (substitute* "runtests.sh" (("for p in 1 4 8 16; do") "for p in 1; do")) (invoke "./runtests.sh"))))))) (home-page "https://bitbucket.org/fenics-project/dijitso/") (synopsis "Distributed just-in-time building of shared libraries") (description "Dijitso provides a core component of the @code{FEniCS} framework, namely the just-in-time compilation of C++ code that is generated from Python modules. It is called from within a C++ library, using ctypes to import the dynamic shared library directly. As long as the compiled code can provide a simple factory function to a class implementing a predefined C++ interface, there is no limit to the complexity of that interface. Parallel support depends on the @code{mpi4py} interface.") (license license:lgpl3+))) (define-public python-fenics-ufl (package (name "python-fenics-ufl") (version "2019.1.0") (source (origin (method url-fetch) (uri (pypi-uri "fenics-ufl" version)) (sha256 (base32 "10dz8x3lm68x2w3kkqcjask38h0zkhhak26jdbkppr8g9y8wny7p")))) (build-system python-build-system) (inputs (list python-numpy)) (native-inputs (list python-pytest)) (arguments '(#:phases (modify-phases %standard-phases (replace 'check (lambda _ (invoke "py.test" "test")))))) (home-page "https://bitbucket.org/fenics-project/ufl/") (synopsis "Unified language for form-compilers") (description "The Unified Form Language (UFL) is a domain specific language for declaration of finite element discretizations of variational forms. More precisely, it defines a flexible interface for choosing finite element spaces and defining expressions for weak forms in a notation close to mathematical notation. UFL is part of the FEniCS Project.") (license license:lgpl3+))) (define-public python-fenics-fiat (package (name "python-fenics-fiat") (version "2019.1.0") (source (origin (method url-fetch) (uri (pypi-uri "fenics-fiat" version)) (sha256 (base32 "13sc7lma3d2mh43an7i4kkdbbk4cmvxjk45wi43xnjd7qc38zg4b")))) (build-system python-build-system) (native-inputs (list python-pytest)) (propagated-inputs (list python-numpy python-sympy)) (arguments '(#:phases (modify-phases %standard-phases (replace 'check (lambda _ (with-directory-excursion "test" ;; FIXME: three FIAT test modules are known to fail ;; with recent versions of pytest (>= 4). These are ;; skipped for FIAT version 2019.1.0 pending an ;; upstream pull request. For details see request #59 ;; at https://bitbucket.org/fenics-project/fiat/. (invoke "py.test" "unit/" "--ignore=unit/test_fiat.py" "--ignore=unit/test_quadrature.py" "--ignore=unit/test_reference_element.py"))))))) (home-page "https://bitbucket.org/fenics-project/fiat/") (synopsis "Tabulation of finite element function spaces") (description "The FInite element Automatic Tabulator (FIAT) supports generation of arbitrary order instances of the Lagrange elements on lines, triangles, and tetrahedra. It is also capable of generating arbitrary order instances of Jacobi-type quadrature rules on the same element shapes. Further, H(div) and H(curl) conforming finite element spaces such as the families of Raviart-Thomas, Brezzi-Douglas-Marini and Nedelec are supported on triangles and tetrahedra. Upcoming versions will also support Hermite and nonconforming elements. FIAT is part of the FEniCS Project.") (license license:lgpl3+))) (define-public python-fenics-ffc (package (name "python-fenics-ffc") (version "2019.1.0.post0") (source (origin (method url-fetch) (uri (pypi-uri "fenics-ffc" version)) (sha256 (base32 "1f2a44ha65fg3a1prrbrsz4dgvibsv0j5c3pi2m52zi93bhwwgg9")))) (build-system python-build-system) (native-inputs (list python-pytest)) (propagated-inputs (list python-fenics-dijitso python-fenics-fiat python-fenics-ufl)) (arguments '(#:phases (modify-phases %standard-phases (replace 'check (lambda _ (setenv "HOME" (getcwd)) (with-directory-excursion "test" ;; FIXME: the tests in subdirectory ;; 'unit/ufc/finite_element' require the ffc_factory ;; extension module. This module, located in the 'libs' ;; subdirectory, needs to be built and made accessible ;; prior to running the tests. (invoke "py.test" "unit/" "--ignore=unit/ufc/") (with-directory-excursion "uflacs" (invoke "py.test" "unit/"))) #t))))) (home-page "https://bitbucket.org/fenics-project/ffc/") (synopsis "Compiler for finite element variational forms") (description "The FEniCS Form Compiler (FFC) is a compiler for finite element variational forms. From a high-level description of the form, it generates efficient low-level C++ code that can be used to assemble the corresponding discrete operator (tensor). In particular, a bilinear form may be assembled into a matrix and a linear form may be assembled into a vector. FFC may be used either from the command line (by invoking the @code{ffc} command) or as a Python module (@code{import ffc}). FFC is part of the FEniCS Project.") ;; There are two files released with a public domain licence; ;; ufc.h and ufc_geometry.h, in subdirectory 'ffc/backends/ufc'. (license (list license:public-domain license:lgpl3+)))) (define-public fenics-dolfin (package (name "fenics-dolfin") (version "2019.1.0.post0") (source (origin (method url-fetch) (uri (string-append "https://bitbucket.org/fenics-project/dolfin/get/" version ".tar.gz")) (file-name (string-append name "-" version ".tar.gz")) (sha256 (base32 "1m91hwcq5gfj4qqswp8l8kj58nia48f0n4kq13w0xqj4biq7rla0")) (patches (search-patches "fenics-dolfin-algorithm.patch" "fenics-dolfin-demo-init.patch" "fenics-dolfin-boost.patch" "fenics-dolfin-config-slepc.patch")) (modules '((guix build utils))) (snippet '(begin ;; Make sure we don't use the bundled test framework. (delete-file-recursively "test/unit/cpp/catch") (substitute* "test/unit/cpp/main.cpp" ;; Use standard search paths for 'catch' header file. (("#include.*") "#include \n")) (substitute* "test/unit/cpp/CMakeLists.txt" ;; Specify directory to find the header file. (("(^set\\(CATCH_INCLUDE_DIR ).*(/catch\\))" _ front back) (string-append front "$ENV{CATCH_DIR}/include" back "\n"))))))) (build-system cmake-build-system) (inputs `(("blas" ,openblas) ("boost" ,boost) ("eigen" ,eigen) ("hdf5" ,hdf5-parallel-openmpi) ("lapack" ,lapack) ("libxml2" ,libxml2) ("openmpi" ,openmpi) ("python" ,python-3) ("scotch" ,pt-scotch32) ("suitesparse" ,suitesparse) ("sundials" ,sundials-openmpi) ("zlib" ,zlib))) (native-inputs `(("catch" ,catch2-1) ("pkg-config" ,pkg-config))) (propagated-inputs `(("ffc" ,python-fenics-ffc) ("petsc" ,petsc-openmpi) ("slepc" ,slepc-openmpi))) (arguments `(#:configure-flags `("-DDOLFIN_ENABLE_DOCS:BOOL=OFF" "-DDOLFIN_ENABLE_HDF5:BOOL=ON" "-DDOLFIN_ENABLE_MPI:BOOL=ON" "-DDOLFIN_ENABLE_PARMETIS:BOOL=OFF" "-DDOLFIN_ENABLE_SCOTCH:BOOL=ON" "-DDOLFIN_ENABLE_SUNDIALS:BOOL=ON" "-DDOLFIN_ENABLE_TRILINOS:BOOL=OFF") #:phases (modify-phases %standard-phases (add-after 'patch-usr-bin-file 'mpi-setup ,%openmpi-setup) (add-after 'patch-source-shebangs 'set-paths (lambda _ ;; Define paths to store locations. (setenv "BLAS_DIR" (assoc-ref %build-inputs "blas")) (setenv "CATCH_DIR" (assoc-ref %build-inputs "catch")) (setenv "LAPACK_DIR" (assoc-ref %build-inputs "lapack")) (setenv "PETSC_DIR" (assoc-ref %build-inputs "petsc")) (setenv "SLEPC_DIR" (assoc-ref %build-inputs "slepc")) (setenv "SCOTCH_DIR" (assoc-ref %build-inputs "scotch")) (setenv "SUNDIALS_DIR" (assoc-ref %build-inputs "sundials")) (setenv "UMFPACK_DIR" (assoc-ref %build-inputs "suitesparse")))) (add-before 'check 'pre-check (lambda _ ;; The Dolfin repository uses git-lfs, whereby web links are ;; substituted for large files. Guix does not currently support ;; git-lfs, so only the links are downloaded. The tests that ;; require the absent meshes cannot run and are skipped. ;; ;; One serial test fails and is skipped. ;; i) demo_multimesh-stokes_serial: ;; Warning: Found no facets matching domain for boundary ;; condition. ;; ;; One mpi test fails and is skipped. ;; i) demo_stokes-iterative_mpi: ;; The MPI_Comm_rank() function was called before MPI_INIT was ;; invoked (call-with-output-file "CTestCustom.cmake" (lambda (port) (display (string-append "set(CTEST_CUSTOM_TESTS_IGNORE " "demo_bcs_serial " "demo_bcs_mpi " "demo_eigenvalue_serial " "demo_eigenvalue_mpi " "demo_navier-stokes_serial " "demo_navier-stokes_mpi " "demo_stokes-taylor-hood_serial " "demo_stokes-taylor-hood_mpi " "demo_subdomains_serial " "demo_advection-diffusion_serial " "demo_advection-diffusion_mpi " "demo_auto-adaptive-navier-stokes_serial " "demo_contact-vi-snes_serial " "demo_contact-vi-snes_mpi " "demo_contact-vi-tao_serial " "demo_contact-vi-tao_mpi " "demo_curl-curl_serial " "demo_curl-curl_mpi " "demo_dg-advection-diffusion_serial " "demo_dg-advection-diffusion_mpi " "demo_elasticity_serial " "demo_elasticity_mpi " "demo_elastodynamics_serial " "demo_elastodynamics_mpi " "demo_lift-drag_serial " "demo_lift-drag_mpi " "demo_mesh-quality_serial " "demo_mesh-quality_mpi " "demo_multimesh-stokes_serial " ")\n") port))))) (replace 'check (lambda* (#:key tests? #:allow-other-keys) (when tests? (invoke "make" "unittests") (invoke "make" "demos") (invoke "ctest" "-R" "unittests") (invoke "ctest" "-R" "demo" "-R" "serial") (invoke "ctest" "-R" "demo" "-R" "mpi"))))))) (home-page "https://bitbucket.org/fenics-project/dolfin/") (synopsis "Problem solving environment for differential equations") (description "DOLFIN is a computational framework for finding numerical solutions to problems described by differential equations. Numerical models in DOLFIN are constructed using general families of finite elements. Data structures are provided for discretizing the governing system on a computational mesh. A compact syntax, similar to mathematical notation, is made available for defining function spaces and expressing variational forms. Interfaces to specialized matrix solvers are provided for solving the resultant linear systems. @code{fenics-dolfin} is part of the FEniCS project. It is the C++ user interface to the FEniCS core components and external libraries.") ;; The source code for the DOLFIN C++ library is licensed under the ;; GNU Lesser General Public License, version 3 or later, with the ;; following exceptions: ;; ;; public-domain: dolfin/geometry/predicates.cpp ;; dolfin/geometry/predicates.h ;; ;; zlib: dolfin/io/base64.cpp ;; dolfin/io/base64.h ;; ;; expat: dolfin/io/pugiconfig.hpp ;; dolfin/io/pugixml.cpp ;; dolfin/io/pugixml.hpp (license (list license:public-domain license:zlib license:expat license:lgpl3+)))) (define-public fenics (package/inherit fenics-dolfin (name "fenics") (build-system python-build-system) (inputs `(("pybind11" ,pybind11) ("python-matplotlib" ,python-matplotlib) ,@(alist-delete "python" (package-inputs fenics-dolfin)))) (native-inputs `(("cmake" ,cmake-minimal) ("ply" ,python-ply) ("pytest" ,python-pytest) ("python-decorator" ,python-decorator) ("python-pkgconfig" ,python-pkgconfig) ,@(package-native-inputs fenics-dolfin))) (propagated-inputs `(("dolfin" ,fenics-dolfin) ("petsc4py" ,python-petsc4py) ("slepc4py" ,python-slepc4py))) (arguments `(#:phases (modify-phases %standard-phases (add-after 'unpack 'relax-requirements (lambda _ (substitute* "python/setup.py" (("pybind11==") "pybind11>=")))) (add-after 'patch-source-shebangs 'set-paths (lambda _ ;; Define paths to store locations. (setenv "PYBIND11_DIR" (assoc-ref %build-inputs "pybind11")) ;; Move to python sub-directory. (chdir "python"))) (add-after 'build 'mpi-setup ,%openmpi-setup) (add-before 'check 'pre-check (lambda _ ;; Exclude three tests that generate ;; 'NotImplementedError' in matplotlib version 3.1.2. ;; See ;; . ;; Also exclude tests that require meshes supplied by ;; git-lfs. (substitute* "demo/test.py" (("(.*stem !.*)" line) (string-append line "\n" "excludeList = [\n" "'built-in-meshes', \n" "'hyperelasticity', \n" "'elasticity', \n" "'multimesh-quadrature', \n" "'multimesh-marking', \n" "'mixed-poisson-sphere', \n" "'mesh-quality', \n" "'lift-drag', \n" "'elastodynamics', \n" "'dg-advection-diffusion', \n" "'curl-curl', \n" "'contact-vi-tao', \n" "'contact-vi-snes', \n" "'collision-detection', \n" "'buckling-tao', \n" "'auto-adaptive-navier-stokes', \n" "'advection-diffusion', \n" "'subdomains', \n" "'stokes-taylor-hood', \n" "'stokes-mini', \n" "'navier-stokes', \n" "'eigenvalue']\n" "demos = [" "d for d in demos if d[0].stem not in " "excludeList]\n"))) (setenv "HOME" (getcwd)) ;; Restrict OpenBLAS to MPI-only in preference to MPI+OpenMP. (setenv "OPENBLAS_NUM_THREADS" "1"))) (replace 'check (lambda* (#:key tests? #:allow-other-keys) (when tests? (with-directory-excursion "test" (invoke "pytest" "unit" ;; The test test_snes_set_from_options() in the file ;; unit/nls/test_PETScSNES_solver.py fails and is ignored. "--ignore" "unit/nls/test_PETScSNES_solver.py" ;; Fails with a segfault. "--ignore" "unit/io/test_XDMF.py"))))) (add-after 'install 'install-demo-files (lambda* (#:key outputs #:allow-other-keys) (let* ((demos (string-append (assoc-ref outputs "out") "/share/python-dolfin/demo"))) (mkdir-p demos) (with-directory-excursion "demo" (for-each (lambda (file) (let* ((dir (dirname file)) (tgt-dir (string-append demos "/" dir))) (unless (equal? "." dir) (mkdir-p tgt-dir) (install-file file tgt-dir)))) (find-files "." ".*\\.(py|gz|xdmf)$"))))))))) (home-page "https://fenicsproject.org/") (synopsis "High-level environment for solving differential equations") (description "@code{fenics} is a computing platform for solving general classes of problems that involve differential equations. @code{fenics} facilitates access to efficient methods for dealing with ordinary differential equations (ODEs) and partial differential equations (PDEs). Systems of equations such as these are commonly encountered in areas of engineering, mathematics and the physical sciences. It is particularly well-suited to problems that can be solved using the Finite Element Method (FEM). @code{fenics} is the top level of the set of packages that are developed within the FEniCS project. It provides the python user interface to the FEniCS core components and external libraries.") (license license:lgpl3+))) (define-public fullswof-2d (let ((revision 505) (release "1.09.01")) (package (name "fullswof-2d") (version release) (source (origin (method svn-fetch) (uri (svn-reference (url (string-append "https://subversion.renater.fr/" "anonscm/svn/fullswof-2d/tags/" "release-" version)) (revision revision))) (file-name (string-append "fullswof-2d-" version "-checkout")) (sha256 (base32 "16v08dx7h7n4wyddzbwimazwyj74ynis12mpjfkay4243npy44b8")))) (build-system gnu-build-system) (native-inputs (list inetutils)) ; for 'hostname', used in the check phase (arguments `(#:phases (modify-phases %standard-phases (delete 'configure) ; no configure script (add-after 'build 'build-tools (lambda _ (with-directory-excursion "Tools/ConvertFormat" (invoke "make" "../../bin/asc2xyz") (invoke "make" "../../bin/xyz2asc")) (with-directory-excursion "Tools/ExtractWindow" (invoke "make" "../../bin/cropxyz")) #t)) (replace 'check ; no check target (lambda _ (invoke "make" "benchref"))) (replace 'install ; no install target (lambda* (#:key outputs #:allow-other-keys) (let* ((out (assoc-ref outputs "out")) (bin (string-append out "/bin")) (doc (string-append out "/share/doc/" ,name "-" ,version)) (examples (string-append doc "/Examples"))) (with-directory-excursion "bin" (for-each (lambda (binary) (install-file binary bin)) (list "asc2xyz" "xyz2asc" "cropxyz" "FullSWOF_2D"))) (with-directory-excursion "doc" (for-each (lambda (pdf) (install-file pdf doc)) (list "Documentation.pdf" "refman.pdf"))) (with-directory-excursion "Tools" (for-each (lambda (dir) (copy-file (string-append dir "/README.txt") (string-append doc "/README_" dir ".txt"))) (list "ConvertFormat" "ExtractWindow"))) (copy-recursively "Examples" examples) #t)))))) (home-page "https://www.idpoisson.fr/fullswof/") (synopsis "Two dimensional flow solver for flood modelling") (description "@code{FullSWOF_2d} is a numerical tool for solving the shallow water equations on structured grids. The name FullSWOF refers to the Full form of the Shallow Water equations for Overland Flow. The discretized system of equations is solved using the finite volume method. A choice of shock-capturing methods is available to locate the transition boundaries between the wet areas and the dry areas in the model. A semi-implicit method is used to advance the solution in time. The tool is typically applied to the modelling of river flooding.") (license license:cecill)))) (define-public python-meshio (package (name "python-meshio") (version "5.3.4") (source (origin (method url-fetch) (uri (pypi-uri "meshio" version)) (sha256 (base32 "1w39qcg0rw5kb04j7sa45fnqd6k20fsdgrf62cmw2ygjgwnnjh72")) (snippet '(let ((file (open-file "setup.py" "a"))) (display "from setuptools import setup\nsetup()" file) (close-port file))))) (build-system python-build-system) (inputs (list python-h5py python-netcdf4)) (native-inputs (list python-pytest)) (propagated-inputs (list python-importlib-metadata python-numpy python-rich)) (arguments '(#:phases (modify-phases %standard-phases (replace 'check (lambda* (#:key tests? #:allow-other-keys) (when tests? (invoke "python" "-m" "pytest" "-v" "tests"))))))) (home-page "https://github.com/nschloe/meshio") (synopsis "I/O for mesh files") (description "There are various file formats available for representing unstructured meshes and mesh data. The @code{meshio} package is able to read and write mesh files in many formats and to convert files from one format to another. Formats such as cgns, h5m, gmsh, xdmf and vtk are supported. The package provides command-line tools and a collection of Python modules for programmatic use.") (license license:expat))) (define-public python-pygmsh (package (name "python-pygmsh") (version "7.1.17") (source (origin (method git-fetch) (uri (git-reference (url "https://github.com/nschloe/pygmsh") (commit (string-append "v" version)))) (file-name (git-file-name name version)) (sha256 (base32 "11flp2c4ynk1fhanf4mqyzrpd0gjbnv6afrwwc7xi3mb6ms69lr0")))) (build-system pyproject-build-system) (arguments (list #:phases #~(modify-phases %standard-phases (add-after 'unpack 'workaround-gmsh-detection-failure (lambda _ ;; Due to lack of metadata, the gmsh Python package is not ;; detected although importable. (substitute* "pyproject.toml" (("\"gmsh\",") ""))))))) (native-inputs (list python-flit-core python-pytest)) (propagated-inputs (list gmsh python-meshio python-numpy)) (home-page "https://github.com/nschloe/pygmsh") (synopsis "Python frontend for Gmsh") (description "The goal of @code{pygmsh} is to combine the power of Gmsh with the versatility of Python. The package generalises many of the methods and functions that comprise the Gmsh Python API. In this way the meshing of complex geometries using high-level abstractions is made possible. The package provides a Python library together with a command-line utility for mesh optimisation.") (license license:gpl3+))) (define-public python-dolfin-adjoint (package (name "python-dolfin-adjoint") (version "2019.1.0") (source (origin (method git-fetch) (uri (git-reference (url "https://github.com/dolfin-adjoint/pyadjoint") (commit version))) (file-name (git-file-name name version)) (sha256 (base32 "0xhy76a5f33hz94wc9g2mc5qmwkxfccbbc6yxl7psm130afp8lhn")) (modules '((guix build utils))) (snippet '(begin ;; One of the migration tests attempts to call openmpi ;; recursively and fails. See ;; https://bitbucket.org/mpi4py/mpi4py/issues/95. Run the ;; test sequentially instead. (with-directory-excursion "tests/migration/optimal_control_mms" (substitute* "test_optimal_control_mms.py" (("\\\"mpirun\\\", \\\"-n\\\", \\\"2\\\", ") ""))) ;; Result files are regenerated in the check phase. (delete-file-recursively "tests/migration/viscoelasticity/test-results") #t)))) (build-system python-build-system) (inputs (list fenics openmpi pybind11)) (native-inputs (list pkg-config python-coverage python-decorator python-flake8 python-pkgconfig python-pytest)) (propagated-inputs `(("scipy" ,python-scipy))) (arguments `(#:phases (modify-phases %standard-phases (add-after 'build 'mpi-setup ,%openmpi-setup) (add-after 'install 'install-doc (lambda* (#:key outputs #:allow-other-keys) (let* ((doc (string-append (assoc-ref outputs "out") "/share/doc/" ,name "-" ,version)) (examples (string-append doc "/examples"))) (mkdir-p examples) (copy-recursively "examples" examples)) #t)) (replace 'check (lambda* (#:key inputs outputs tests? #:allow-other-keys) (when tests? (add-installed-pythonpath inputs outputs) (setenv "HOME" (getcwd)) (and (invoke "py.test" "-v" "tests/fenics_adjoint") (invoke "py.test" "-v" "tests/migration") (invoke "py.test" "-v" "tests/pyadjoint"))) #t))))) (home-page "http://www.dolfin-adjoint.org") (synopsis "Automatic differentiation library") (description "@code{python-dolfin-adjoint} is a solver of differential equations associated with a governing system and a functional of interest. Working from the forward model the solver automatically derives the discrete adjoint and tangent linear models. These additional models are key ingredients in many algorithms such as data assimilation, optimal control, sensitivity analysis, design optimisation and error estimation. The dolfin-adjoint project provides the necessary tools and data structures for cases where the forward model is implemented in @code{fenics} or @url{https://firedrakeproject.org,firedrake}.") (license license:lgpl3))) (define %commonroad-dont-install-license-at-root #~(substitute* "setup.py" (("data_files=\\[\\('.', \\['LICENSE.txt'\\]\\)\\],") ""))) (define-public python-commonroad-vehicle-models (package (name "python-commonroad-vehicle-models") (version "3.0.2") (source (origin (method url-fetch) (uri (pypi-uri "commonroad-vehicle-models" version)) (sha256 (base32 "13jg0cys7y4n7rg548w6mxk9g10gd5qxmj4ynrlriczpffqy6kc7")))) (build-system python-build-system) (arguments (list #:phases #~(modify-phases %standard-phases (add-after 'unpack 'fix-setup.py (lambda _ #$%commonroad-dont-install-license-at-root))))) (propagated-inputs (list python-numpy python-omegaconf)) (home-page "https://commonroad.in.tum.de/") (synopsis "CommonRoad vehicle models") (description "This package provides vehicle models used in CommonRoad benchmarks. Varying abstraction levels are used ranging from kinematic single track models to multi-body models.") (license license:bsd-3))) (define-public python-commonroad-io (package (name "python-commonroad-io") (version "2022.3") (source (origin (method url-fetch) (uri (pypi-uri "commonroad-io" version)) (sha256 (base32 "1cj9zj567mca8xb8sx9h3nnl2cccv6vh8h73imgpq61cimk9mvas")))) (build-system python-build-system) (arguments (list #:phases #~(modify-phases %standard-phases (add-after 'unpack 'fix-setup.py (lambda _ #$%commonroad-dont-install-license-at-root))))) (propagated-inputs (list python-commonroad-vehicle-models python-iso3166 python-lxml python-matplotlib python-networkx python-numpy python-omegaconf python-pillow python-protobuf python-rtree python-scipy python-shapely python-tqdm)) (native-inputs (list python-lxml python-pytest)) (home-page "https://commonroad.in.tum.de/") (synopsis "Read, write, and visualize CommonRoad scenarios.") (description "This package provides methods to read, write, and visualize CommonRoad scenarios and planning problems. It can be used as a framework for implementing motion planning algorithms to solve CommonRoad Benchmarks and is the basis for other tools of the CommonRoad Framework.") (license license:bsd-3))) (define-public python-commonroad-route-planner (package (name "python-commonroad-route-planner") (version "2022.3") (source (origin (method git-fetch) (uri (git-reference (url "https://gitlab.lrz.de/tum-cps/commonroad-route-planner") (commit version))) (file-name (git-file-name name version)) (sha256 (base32 "0xn0l7bzmj56d4mlqacvbl8mdvsffkg2fn2lzfmis5jl4vp99ipf")))) (arguments (list #:phases #~(modify-phases %standard-phases (add-after 'unpack 'fix-setup.py (lambda _ #$%commonroad-dont-install-license-at-root))))) (build-system python-build-system) (propagated-inputs (list python-commonroad-io python-matplotlib python-networkx python-numpy python-setuptools python-shapely)) (home-page "https://gitlab.lrz.de/tum-cps/commonroad-route-planner") (synopsis "Route planner for CommonRoad scenarios") (description "This package provides functions for route planning, that is finding sequences that lead from a given start lanelet to some goal lanelet(s).") (license license:bsd-3))) (define-public sumo (package (name "sumo") (version "1.14.1") (source (origin (method git-fetch) (uri (git-reference (url "https://github.com/eclipse/sumo") (commit (string-append "v" (string-replace-substring version "." "_"))))) (file-name (git-file-name name version)) (sha256 (base32 "1965vrsff0k14z3y3b1c460zdwp9nx6q6plrdyxn496vg6846k1y")))) (build-system cmake-build-system) (arguments (list #:phases #~(modify-phases %standard-phases (add-after 'unpack 'disable-problematic-tests (lambda _ (substitute* "CMakeLists.txt" ;; docs/example appears to be missing (("add_test\\(exampletest .*") "")) (substitute* "src/traci_testclient/CMakeLists.txt" ;; requires network connection (at least to localhost) (("add_test\\(NAME libtracitest .*") ""))))))) (inputs (list eigen freetype fontconfig ffmpeg fox gdal glu gperftools ; tcmalloc libjpeg-turbo libtiff libx11 libxcursor libxft libxi libxrandr libxrender openscenegraph proj python xerces-c zlib)) (native-inputs (list googletest python)) (home-page "https://eclipse.org/sumo") (synopsis "Traffic simulator") (description "@acronym{SUMO, Simulation of Urban MObility} is a traffic simulation package designed to handle large road networks and different modes of transportation -- including road vehicles, public transport and pedestrians. Included with SUMO is a wealth of supporting tools which automate core tasks for the creation, the execution and evaluation of traffic simulations, such as network import, route calculations, visualization and emission calculation. SUMO can be enhanced with custom models and provides various APIs to remotely control the simulation.") (license (list license:epl2.0 license:gpl2+))))