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File suitesparse.spec of Package suitesparse
# # spec file for package suitesparse # # Copyright (c) 2019 SUSE LINUX GmbH, Nuernberg, Germany. # # All modifications and additions to the file contributed by third parties # remain the property of their copyright owners, unless otherwise agreed # upon. The license for this file, and modifications and additions to the # file, is the same license as for the pristine package itself (unless the # license for the pristine package is not an Open Source License, in which # case the license is the MIT License). An "Open Source License" is a # license that conforms to the Open Source Definition (Version 1.9) # published by the Open Source Initiative. # Please submit bugfixes or comments via https://bugs.opensuse.org/ # %ifarch m68k riscv64 %bcond_with openblas %else %bcond_without openblas %endif Name: suitesparse Summary: A collection of sparse matrix libraries License: GPL-2.0+ and LGPL-2.1+ Group: Development/Libraries/C and C++ Version: 5.2.0 Release: 0 Url: http://faculty.cse.tamu.edu/davis/SuiteSparse/ Source: http://faculty.cse.tamu.edu/davis/SuiteSparse/SuiteSparse-%{version}.tar.gz Source2: %{name}-rpmlintrc # PATCH-FIX-OPENSUSE build_csparse_shared.patch -- Build CSparse as a shared library Patch1: build_csparse_shared.patch Patch775418: bnc775418-enable-SuiteSparse_time-symbol.patch %if 0%{?suse_version} < 1500 BuildRequires: gcc7 BuildRequires: gcc7-c++ %else BuildRequires: gcc >= 4.9 BuildRequires: gcc-c++ >= 4.9 %endif BuildRequires: chrpath BuildRequires: cmake BuildRequires: gcc-fortran BuildRequires: lapack-devel BuildRequires: metis-devel BuildRequires: tbb-devel %if %{with openblas} BuildRequires: openblas-devel %endif %define amdver 2.4.6 %define btfver 1.2.6 %define camdver 2.4.6 %define ccolamdver 2.9.6 %define cholmodver 3.0.12 %define colamdver 2.9.6 %define csparsever 3.2.0 %define cxsparsever 3.2.0 %define graphblasver 2.0.1 %define kluver 1.3.9 %define ldlver 2.2.6 %define rbiover 2.2.6 %define spqrver 2.0.8 %define umfpackver 5.7.6 # Your need define even it's just the same as main package # or the %%build loop will override %%version with umfpack's version. %define configver 5.2.0 %define csparsemajor %(echo "%{csparsever}" | cut -d "." -f1) %define amdlib %(echo "libamd%{amdver}" | cut -d "." -f1) %define btflib %(echo "libbtf%{btfver}" | cut -d "." -f1) %define camdlib %(echo "libcamd%{camdver}" | cut -d "." -f1) %define ccolamdlib %(echo "libccolamd%{ccolamdver}" | cut -d "." -f1) %define cholmodlib %(echo "libcholmod%{cholmodver}" | cut -d "." -f1) %define colamdlib %(echo "libcolamd%{colamdver}" | cut -d "." -f1) %define csparselib %(echo "libcsparse%{csparsever}" | cut -d "." -f1) %define cxsparselib %(echo "libcxsparse%{cxsparsever}" | cut -d "." -f1) %define graphblaslib %(echo "libgraphblas%{graphblasver}" | cut -d "." -f1) %define klulib %(echo "libklu%{kluver}" | cut -d "." -f1) %define ldllib %(echo "libldl%{ldlver}" | cut -d "." -f1) %define rbiolib %(echo "librbio%{rbiover}" | cut -d "." -f1) %define spqrlib %(echo "libspqr%{spqrver}" | cut -d "." -f1) %define umfpacklib %(echo "libumfpack%{umfpackver}" | cut -d "." -f1) %define configlib %(echo "libsuitesparseconfig%{configver}" | cut -d "." -f1) %description suitesparse is a collection of libraries for computations involving sparse matrices. %package devel Summary: Development headers for SuiteSparse License: GPL-2.0+ and LGPL-2.1+ Group: Development/Libraries/C and C++ %if 0%{?suse_version} < 1500 Requires: gcc7-c++ %else Requires: gcc-c++ >= 4.9 %endif Requires: %{amdlib} = %{amdver} Requires: %{btflib} = %{btfver} Requires: %{camdlib} = %{camdver} Requires: %{ccolamdlib} = %{ccolamdver} Requires: %{cholmodlib} = %{cholmodver} Requires: %{colamdlib} = %{colamdver} Requires: %{configlib} = %{configver} Requires: %{configlib} = %{version} Requires: %{csparselib} = %{csparsever} Requires: %{cxsparselib} = %{cxsparsever} Requires: %{graphblaslib} = %{graphblasver} Requires: %{klulib} = %{kluver} Requires: %{ldllib} = %{ldlver} Requires: %{rbiolib} = %{rbiover} Requires: %{spqrlib} = %{spqrver} Requires: %{umfpacklib} = %{umfpackver} Requires: metis-devel %if %{with openblas} Requires: openblas-devel %else Requires: lapack-devel %endif Requires: tbb-devel # make sure developers can find these packages Provides: SuiteSparse_config = %{version} Obsoletes: SuiteSparse_config < %{version} Provides: amd-devel = %{amdver} Obsoletes: amd-devel < %{amdver} Provides: suitesparse-common-devel = %{version} Obsoletes: suitesparse-common-devel < %{version} Provides: umfpack-devel = %{umfpackver} Obsoletes: umfpack-devel < %{umfpackver} Provides: libamd-devel = %{amdver} Obsoletes: libamd-devel < %{amdver} Provides: libbtf-devel = %{btfver} Obsoletes: libbtf-devel < %{btfver} Provides: libcamd-devel = %{camdver} Obsoletes: libcamd-devel < %{camdver} Provides: libccolamd-devel = %{ccolamdver} Obsoletes: libccolamd-devel < %{ccolamdver} Provides: libcholmod-devel = %{cholmodver} Obsoletes: libcholmod-devel < %{cholmodver} Provides: libcolamd-devel = %{colamdver} Obsoletes: libcolamd-devel < %{colamdver} Provides: libcsparse-devel = %{csparsever} Obsoletes: libcsparse-devel < %{csparsever} Provides: libcxsparse-devel = %{cxsparsever} Obsoletes: libcxsparse-devel < %{cxsparsever} Provides: libgraphblas-devel = %{umfpackver} Obsoletes: libgraphblas-devel < %{umfpackver} Provides: libklu-devel = %{kluver} Obsoletes: libklu-devel < %{kluver} Provides: libldl-devel = %{ldlver} Obsoletes: libldl-devel < %{ldlver} Provides: librbio-devel = %{rbiover} Obsoletes: librbio-devel < %{rbiover} Provides: libspqr-devel = %{spqrver} Obsoletes: libspqr-devel < %{spqrver} Provides: libumfpack-devel = %{umfpackver} Obsoletes: libumfpack-devel < %{umfpackver} Provides: libsuitesparseconfig-devel = %{configver} Obsoletes: libsuitesparseconfig-devel < %{configver} Provides: UFconfig-devel = %{configver} Obsoletes: UFconfig-devel < %{configver} %description devel suitesparse is a collection of libraries for computations involving sparse matrices. The suitesparse-devel package contains files needed for developing applications which use the suitesparse libraries. %package devel-static Summary: Static version of SuiteSparse libraries License: GPL-2.0+ and LGPL-2.1+ Group: Development/Libraries/C and C++ Requires: %{name}-devel = %{version} %description devel-static The suitesparse-static package contains the statically linkable version of the suitesparse libraries. %package -n %{amdlib} Version: %{amdver} Release: 0 Summary: Symmetric Approximate Minimum Degree License: LGPL-2.1+ Group: System/Libraries Provides: %(echo "libamd-%{amdver}" | tr . _) = %{version} Obsoletes: %(echo "libamd-%{amdver}" | tr . _) < %{version} %description -n %{amdlib} AMD is a set of routines for ordering a sparse matrix prior to Cholesky factorization (or for LU factorization with diagonal pivoting). There are versions in both C and Fortran. A MATLAB interface is provided. Note that this software has nothing to do with AMD the company. AMD is part of the SuiteSparse sparse matrix suite. %package -n %{btflib} Version: %{btfver} Release: 0 Summary: Permutation to Block Triangular Form License: LGPL-2.1+ Group: System/Libraries Provides: %(echo "libbtf-%{btfver}" | tr . _) = %{version} Obsoletes: %(echo "libbtf-%{btfver}" | tr . _) < %{version} %description -n %{btflib} BTF permutes an unsymmetric matrix (square or rectangular) into its block upper triangular form (more precisely, it computes a Dulmage- Mendelsohn decomposition). BTF is part of the SuiteSparse sparse matrix suite. %package -n %{camdlib} Version: %{camdver} Release: 0 Summary: Symmetric Approximate Minimum Degree License: LGPL-2.1+ Group: System/Libraries Provides: %(echo "libcamd-%{camdver}" | tr . _) = %{version} Obsoletes: %(echo "libcamd-%{camdver}" | tr . _) < %{version} %description -n %{camdlib} CAMD is a set of routines for ordering a sparse matrix prior to Cholesky factorization (or for LU factorization with diagonal pivoting). There are versions in both C and Fortran. A MATLAB interface is provided. CAMD is part of the SuiteSparse sparse matrix suite. %package -n %{ccolamdlib} Version: %{ccolamdver} Release: 0 Summary: Constrained Column Approximate Minimum Degree License: LGPL-2.1+ Group: System/Libraries Provides: %(echo "libccolamd-%{ccolamdver}" | tr . _) = %{version} Obsoletes: %(echo "libccolamd-%{ccolamdver}" | tr . _) < %{version} %description -n %{ccolamdlib} CCOLAMD computes an column approximate minimum degree ordering algorithm, (like COLAMD), but it can also be given a set of ordering constraints. CCOLAMD is required by the CHOLMOD package. CCOLAMD is part of the SuiteSparse sparse matrix suite. %package -n %{cholmodlib} Version: %{cholmodver} Release: 0 Summary: Supernodal Sparse Cholesky Factorization and Update/Downdate License: GPL-2.0 and LGPL-2.1 Group: System/Libraries Provides: %(echo "libcholmod-%{cholmodver}" | tr . _) = %{version} Obsoletes: %(echo "libcholmod-%{cholmodver}" | tr . _) < %{version} #bnc746867 cholmod from suitesparse should be GPL-2.0 and/or LGPL-2.0 licensed %description -n %{cholmodlib} CHOLMOD is a set of ANSI C routines for sparse Cholesky factorization and update/downdate. A MATLAB interface is provided. The performance of CHOLMOD was compared with 10 other codes in a paper by Nick Gould, Yifan Hu, and Jennifer Scott. see also their raw data. Comparing BCSLIB-EXT, CHOLMOD, MA57, MUMPS, Oblio, PARDISO, SPOOLES, SPRSBLKLLT, TAUCS, UMFPACK, and WSMP, on 87 large symmetric positive definite matrices, they found CHOLMOD to be fastest for 42 of the 87 matrices. Its run time is either fastest or within 10%% of the fastest for 73 out of 87 matrices. Considering just the larger matrices, it is either the fastest or within 10%% of the fastest for 40 out of 42 matrices. It uses the least amount of memory (or within 10%% of the least) for 35 of the 42 larger matrices. Jennifer Scott and Yifan Hu also discuss the design considerations for a sparse direct code. CHOLMOD is part of the SuiteSparse sparse matrix suite. %package -n %{colamdlib} Version: %{colamdver} Release: 0 Summary: Column Approximate Minimum Degree License: LGPL-2.1+ Group: System/Libraries Provides: %(echo "libcolamd-%{colamdver}" | tr . _) = %{version} Obsoletes: %(echo "libcolamd-%{colamdver}" | tr . _) < %{version} %description -n %{colamdlib} The COLAMD column approximate minimum degree ordering algorithm computes a permutation vector P such that the LU factorization of A (:,P) tends to be sparser than that of A. The Cholesky factorization of (A (:,P))'*(A (:,P)) will also tend to be sparser than that of A'*A. SYMAMD is a symmetric minimum degree ordering method based on COLAMD, available as a MATLAB-callable function. It constructs a matrix M such that M'*M has the same pattern as A, and then uses COLAMD to compute a column ordering of M. Colamd and symamd tend to be faster and generate better orderings than their MATLAB counterparts, colmmd and symmmd. COLAMD is part of the SuiteSparse sparse matrix suite. %package -n %{csparselib} Version: %{csparsever} Release: 0 Summary: Instructional Sparse Matrix Package License: LGPL-2.1+ Group: System/Libraries Provides: %(echo "libcsparse-%{csparsever}" | tr . _) = %{version} Obsoletes: %(echo "libcsparse-%{csparsever}" | tr . _) < %{version} # AT version 3.1.9, this package was accidentally called libcsparsever-3_1_9 %if "%{csparsever}" == "3.1.9" Obsoletes: libcsparsever-3_1_9 = 3.1.9 %endif %description -n %{csparselib} CSparse is a small yet feature-rich sparse matrix package written specifically for a book. The purpose of the package is to demonstrate a wide range of sparse matrix algorithms in as concise a code as possible. CSparse is about 2,200 lines long (excluding its MATLAB interface, demo codes, and test codes), yet it contains algorithms (either asympotical optimal or fast in practice) for all of the following functions described below. A MATLAB interface is included. Note that the LU and Cholesky factorization algorithms are not as fast as UMFPACK or CHOLMOD. Other functions have comparable performance as their MATLAB equivalents (some are faster). Documentation is very terse in the code; it is fully documented in the book. Some indication of how to call the C functions in CSparse is given by the CSparse/MATLAB/*.m help files. CSparse is part of the SuiteSparse sparse matrix suite. %package -n %{cxsparselib} Version: %{cxsparsever} Release: 0 Summary: An extended version of CSparse License: LGPL-2.1+ Group: System/Libraries Provides: %(echo "libcxsparse-%{cxsparsever}" | tr . _) = %{version} Obsoletes: %(echo "libcxsparse-%{cxsparsever}" | tr . _) < %{version} %description -n %{cxsparselib} CXSparse is an extended version of CSparse, with support for double or complex matrices, with int or long integers. CXSparse is part of the SuiteSparse sparse matrix suite. %package -n %{graphblaslib} Version: %{graphblasver} Release: 0 Summary: An implementation of the GraphBLAS standard License: Apache-2.0 Group: System/Libraries Provides: %(echo "libgraphblas-%{graphblasver}" | tr . _) = %{version} Obsoletes: %(echo "libgraphblas-%{graphblasver}" | tr . _) < %{version} %description -n %{graphblaslib} GraphBLAS is an full implementation of the GraphBLAS standard, which defines a set of sparse matrix operations on an extended algebra of semirings using an almost unlimited variety of operators and types. When applied to sparse adjacency matrices, these algebraic operations are equivalent to computations on graphs. GraphBLAS provides a powerful and expressive framework for creating graph algorithms based on the elegant mathematics of sparse matrix operations on a semiring. GraphBLAS is part of the SuiteSparse sparse matrix suite. %package -n %{klulib} Version: %{kluver} Release: 0 Summary: Sparse LU Factorization, for Circuit Simulation License: LGPL-2.1+ Group: System/Libraries Provides: %(echo "libklu-%{kluver}" | tr . _) = %{version} Obsoletes: %(echo "libklu-%{kluver}" | tr . _) < %{version} %description -n %{klulib} KLU is a sparse LU factorization algorithm well-suited for use in circuit simulation. It was highlighted in the May 2007 issue of SIAM News, Sparse Matrix Algorithm Drives SPICE Performance Gains. It is the "fast sparse-matrix solver" mentioned in the article. KLU is part of the SuiteSparse sparse matrix suite. %package -n %{ldllib} Version: %{ldlver} Release: 0 Summary: A Simple LDL^T Factorization License: LGPL-2.1+ Group: System/Libraries Provides: %(echo "libldl-%{ldlver}" | tr . _) = %{version} Obsoletes: %(echo "libldl-%{ldlver}" | tr . _) < %{version} %description -n %{ldllib} LDL is a set of concise routines for factorizing symmetric positive- definite sparse matrices, with some applicability to symmetric indefinite matrices. Its primary purpose is to illustrate much of the basic theory of sparse matrix algorithms in as concise a code as possible, including an elegant new method of sparse symmetric factorization that computes the factorization row-by-row but stores it column-by-column. The entire symbolic and numeric factorization consists of a total of only 49 lines of code. The package is written in C, and includes a MATLAB interface. LDL is part of the SuiteSparse sparse matrix suite. %package -n %{rbiolib} Version: %{rbiover} Release: 0 Summary: MATLAB Toolbox for Reading/Writing Sparse Matrices License: GPL-2.0+ Group: System/Libraries Provides: %(echo "librbio-%{rbiover}" | tr . _) = %{version} Obsoletes: %(echo "librbio-%{rbiover}" | tr . _) < %{version} %description -n %{rbiolib} RBio is a MATLAB toolbox for reading/writing sparse matrices in the Rutherford/Boeing format, and for reading/writing problems in the UF Sparse Matrix Collection from/to a set of files in a directory. Version 2.0+ is written in C. RBio is part of the SuiteSparse sparse matrix suite. %package -n %{spqrlib} Version: %{spqrver} Release: 0 Summary: Multifrontal Sparse QR License: GPL-2.0+ Group: System/Libraries Provides: %(echo "libspqr-%{spqrver}" | tr . _) = %{version} Obsoletes: %(echo "libspqr-%{spqrver}" | tr . _) < %{version} %description -n %{spqrlib} SuiteSparseQR is an implementation of the multifrontal sparse QR factorization method. Parallelism is exploited both in the BLAS and across different frontal matrices using Intel's Threading Building Blocks, a shared-memory programming model for modern multicore architectures. It can obtain a substantial fraction of the theoretical peak performance of a multicore computer. The package is written in C++ with user interfaces for MATLAB, C, and C++. SuiteSparseQR is part of the SuiteSparse sparse matrix suite. %package -n %{umfpacklib} Version: %{umfpackver} Release: 0 Summary: Sparse Multifrontal LU Factorization License: GPL-2.0+ Group: System/Libraries Provides: %(echo "libumfpack-%{umfpackver}" | tr . _) = %{version} Obsoletes: %(echo "libumfpack-%{umfpackver}" | tr . _) < %{version} %description -n %{umfpacklib} UMFPACK is a set of routines for solving unsymmetric sparse linear systems, Ax=b, using the Unsymmetric MultiFrontal method. Written in ANSI/ISO C, with a MATLAB (Version 6.0 and later) interface. Appears as a built-in routine (for lu, backslash, and forward slash) in M ATLAB. Includes a MATLAB interface, a C-callable interface, and a Fortran-callable interface. Note that "UMFPACK" is pronounced in two syllables, "Umph Pack". It is not "You Em Ef Pack". UMFPACK is part of the SuiteSparse sparse matrix suite. %package -n %{configlib} Version: %{configver} Release: 0 Summary: Common configurations for all packages in SuiteSparse License: GPL-2.0+ Group: System/Libraries Provides: libufconfig = %{configver} Obsoletes: libufconfig < %{configver} Provides: libUFconfig = %{configver} Obsoletes: libUFconfig < %{configver} Provides: %(echo "libsuitesparseconfig%{configver}" | tr . _) = %{version} Obsoletes: %(echo "libsuitesparseconfig%{configver}" | tr . _) < %{version} %description -n %{configlib} SuiteSparse_config is required by a number of sparse matrix packages, including SuiteSparseQR, AMD, COLAMD, CCOLAMD, CHOLMOD, KLU, BTF, LDL, CXSparse, RBio, and UMFPACK. It is not required by CSparse, which is a stand-alone package. SuiteSparse_config contains a configuration file for "make" (SuiteSparse_config.mk) and an include file (SuiteSparse_config.h). Also included in SuiteSparse_config is a replacement for the BLAS/LAPACK xerbla routine that does not print a warning message (helpful if you don't want to link the entire Fortran I/O library into a C application). SuiteSparse_config is part of the SuiteSparse sparse matrix suite. %prep %setup -q -n SuiteSparse %patch1 -p1 sed 's/^CHOLMOD_CONFIG =.*/CHOLMOD_CONFIG = -DNPARTITION/' -i SuiteSparse_config/SuiteSparse_config.mk %if %{without openblas} sed 's/-lopenblas/-lblas/' -i SuiteSparse_config/SuiteSparse_config.mk %endif sed -i "s:^SO_VERSION = _:SO_VERSION = %{csparsemajor}:" CSparse/Lib/Makefile sed -i "s:^VERSION = _:VERSION = %{csparsever}:" CSparse/Lib/Makefile cat CSparse/Lib/Makefile mv SPQR/Doc/README.txt SPQR/Doc/README_2.txt # bnc#751746 rm CHOLMOD/Doc/IA3_2014_Workshop_Rennich_Stosic_Davis_preprint.pdf rm KLU/Doc/palamadai_e.pdf rm MATLAB_Tools/Factorize/Doc/factorize_article.pdf rm SPQR/Doc/algo_spqr.pdf rm SPQR/Doc/qrgpu_paper.pdf rm SPQR/Doc/spqr.pdf # bnc#775418 %patch775418 -p1 %build %if 0%{?suse_version} < 1500 export CC=gcc-7 export CXX=g++-7 %endif %if %{with openblas} blas_lib=-lopenblas %else blas_lib=-lblas %endif make MY_METIS_LIB="-lmetis" LAPACK="-llapack" BLAS="$blas_lib" TBB="-ltbb" CFLAGS="%{optflags}" CXXFLAGS="%{optflags}" go chrpath -d lib/*.so.*.* chrpath -d GraphBLAS/build/*.so chrpath -d GraphBLAS/build/*.so.*.* %install mkdir -p %{buildroot}%{_includedir}/%{name} mkdir -p %{buildroot}%{_docdir} mkdir -p %{buildroot}%{_libdir} cp -Pt %{buildroot}%{_libdir} */Lib/*.a cp -Pt %{buildroot}%{_libdir} lib/* cp -Pt %{buildroot}%{_libdir} GraphBLAS/build/*.so cp -Pt %{buildroot}%{_libdir} GraphBLAS/build/*.so.* cp -Pt %{buildroot}%{_includedir}/%{name} include/* cp -Pt %{buildroot}%{_includedir}/%{name} GraphBLAS/Include/*.h cp -Prt %{buildroot}%{_docdir} share/doc/* %if 0%{?sle_version} > 120300 cp -Pt %{buildroot}%{_libdir} GraphBLAS/build/*.a %endif %check amd_test_symbol="amd_postorder" btf_test_symbol="btf_order" camd_test_symbol="camd_postorder" ccolamd_test_symbol="ccolamd" colamd_test_symbol="colamd" cholmod_test_symbol="cholmod_start" csparse_test_symbol="cs_sqr" cxsparse_test_symbol="cs_di_sqr" klu_test_symbol="klu_solve" ldl_test_symbol="ldl_symbolic" rbio_test_symbol="RBread" spqr_test_symbol="SuiteSparseQR_C_symbolic" umfpack_test_symbol="umfpack_toc" mkdir -p linking_test pushd linking_test cat > linking_test.c.in << 'EOF' char @test_symbol@ (); int main () { return @test_symbol@ (); } EOF export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:%{buildroot}%{_libdir} for test_library in amd btf camd ccolamd colamd cholmod csparse cxsparse klu ldl rbio spqr umfpack; do cp linking_test.c.in linking_test.c test_symbol=${test_library}_test_symbol sed -i "s|@test_symbol@|${!test_symbol}|" linking_test.c cat linking_test.c gcc -o linking_test linking_test.c -L%{buildroot}%{_libdir} -l${test_library} done popd %post -n %{amdlib} -p /sbin/ldconfig %postun -n %{amdlib} -p /sbin/ldconfig %post -n %{btflib} -p /sbin/ldconfig %postun -n %{btflib} -p /sbin/ldconfig %post -n %{camdlib} -p /sbin/ldconfig %postun -n %{camdlib} -p /sbin/ldconfig %post -n %{ccolamdlib} -p /sbin/ldconfig %postun -n %{ccolamdlib} -p /sbin/ldconfig %post -n %{cholmodlib} -p /sbin/ldconfig %postun -n %{cholmodlib} -p /sbin/ldconfig %post -n %{colamdlib} -p /sbin/ldconfig %postun -n %{colamdlib} -p /sbin/ldconfig %post -n %{csparselib} -p /sbin/ldconfig %postun -n %{csparselib} -p /sbin/ldconfig %post -n %{cxsparselib} -p /sbin/ldconfig %postun -n %{cxsparselib} -p /sbin/ldconfig %post -n %{graphblaslib} -p /sbin/ldconfig %postun -n %{graphblaslib} -p /sbin/ldconfig %post -n %{klulib} -p /sbin/ldconfig %postun -n %{klulib} -p /sbin/ldconfig %post -n %{ldllib} -p /sbin/ldconfig %postun -n %{ldllib} -p /sbin/ldconfig %post -n %{rbiolib} -p /sbin/ldconfig %postun -n %{rbiolib} -p /sbin/ldconfig %post -n %{spqrlib} -p /sbin/ldconfig %postun -n %{spqrlib} -p /sbin/ldconfig %post -n %{umfpacklib} -p /sbin/ldconfig %postun -n %{umfpacklib} -p /sbin/ldconfig %post -n %{configlib} -p /sbin/ldconfig %postun -n %{configlib} -p /sbin/ldconfig %files devel %doc ChangeLog README.txt %license LICENSE.txt %{_docdir}/%{name}-%{version} %{_libdir}/*.so %{_includedir}/%{name}/ %files devel-static %doc ChangeLog README.txt %license LICENSE.txt %{_libdir}/*.a %files -n %{amdlib} %doc AMD/README.txt %doc AMD/Doc/AMD_UserGuide.pdf AMD/Doc/ChangeLog %license AMD/Doc/License.txt AMD/Doc/lesser.txt %{_libdir}/libamd.so.* %files -n %{btflib} %doc BTF/README.txt %doc BTF/Doc/ChangeLog %license BTF/Doc/License.txt BTF/Doc/lesser.txt %{_libdir}/libbtf.so.* %files -n %{camdlib} %doc CAMD/README.txt %doc CAMD/Doc/CAMD_UserGuide.pdf CAMD/Doc/ChangeLog %license CAMD/Doc/License.txt CAMD/Doc/lesser.txt %{_libdir}/libcamd.so.* %files -n %{ccolamdlib} %doc CCOLAMD/README.txt %doc CCOLAMD/Doc/ChangeLog %license CCOLAMD/Doc/License.txt CCOLAMD/Doc/lesser.txt %{_libdir}/libccolamd.so.* %files -n %{cholmodlib} %doc CHOLMOD/README.txt %doc CHOLMOD/Doc/CHOLMOD_UserGuide.pdf %license CHOLMOD/Doc/ChangeLog CHOLMOD/Doc/License.txt %license CHOLMOD/Cholesky/lesser.txt %license CHOLMOD/MatrixOps/gpl.txt %{_libdir}/libcholmod.so.* %files -n %{colamdlib} %doc COLAMD/README.txt %doc COLAMD/Doc/ChangeLog %license COLAMD/Doc/License.txt COLAMD/Doc/lesser.txt %{_libdir}/libcolamd.so.* %files -n %{csparselib} %doc CSparse/README.txt %doc CSparse/Doc/ChangeLog %license CSparse/Doc/License.txt CSparse/Doc/lesser.txt %{_libdir}/libcsparse.so.* %files -n %{cxsparselib} %doc CXSparse/README.txt %doc CXSparse/Doc/ChangeLog %license CXSparse/Doc/License.txt CXSparse/Doc/lesser.txt %{_libdir}/libcxsparse.so.* %files -n %{graphblaslib} %doc GraphBLAS/README.txt %doc GraphBLAS/Doc/GraphBLAS_UserGuide.pdf %license GraphBLAS/Doc/ChangeLog GraphBLAS/Doc/License.txt %{_libdir}/libgraphblas.so.* %files -n %{klulib} %doc KLU/README.txt %doc KLU/Doc/KLU_UserGuide.pdf KLU/Doc/ChangeLog %license KLU/Doc/License.txt KLU/Doc/lesser.txt %{_libdir}/libklu.so.* %files -n %{ldllib} %doc LDL/README.txt %doc LDL/Doc/ldl_userguide.pdf LDL/Doc/ChangeLog %license LDL/Doc/License.txt LDL/Doc/lesser.txt %{_libdir}/libldl.so.* %files -n %{rbiolib} %doc RBio/README.txt %doc RBio/Doc/ChangeLog %license RBio/Doc/License.txt RBio/Doc/gpl.txt %{_libdir}/librbio.so.* %files -n %{spqrlib} %doc SPQR/README.txt %doc SPQR/Doc/spqr_user_guide.pdf SPQR/Doc/ChangeLog SPQR/Doc/README_2.txt %license SPQR/Doc/License.txt SPQR/Doc/gpl.txt %{_libdir}/libspqr.so.* %files -n %{umfpacklib} %doc UMFPACK/README.txt %doc UMFPACK/Doc/UMFPACK_QuickStart.pdf UMFPACK/Doc/UMFPACK_UserGuide.pdf UMFPACK/Doc/ChangeLog %license UMFPACK/Doc/License.txt UMFPACK/Doc/gpl.txt %{_libdir}/libumfpack.so.* %files -n %{configlib} %doc share/doc/*/SUITESPARSECONFIG_README.txt %license LICENSE.txt %{_libdir}/libsuitesparseconfig.so.* %changelog
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