""" Interface to the UMFPACK library. ================================= Routines for symbolic and numeric LU factorization of sparse matrices and for solving systems of linear equations with sparse matrices. Tested with UMFPACK V4.4 (Jan. 28, 2005), V5.0 (May 5, 2006) Copyright (c) 2005 by Timothy A. Davis. All Rights Reserved. UMFPACK homepage: http://www.cise.ufl.edu/research/sparse/umfpack Contains: UmfpackContext class Use 'print UmfpackContext().funs' to see all UMFPACK library functions the module exposes, if you need something not covered by the examples below. Installation: ============= Example site.cfg entry: UMFPACK v4.4 in : [amd] library_dirs = /UMFPACK/AMD/Lib include_dirs = /UMFPACK/AMD/Include amd_libs = amd [umfpack] library_dirs = /UMFPACK/UMFPACK/Lib include_dirs = /UMFPACK/UMFPACK/Include umfpack_libs = umfpack UMFPACK v5.0 (as part of UFsparse package) in : [amd] library_dirs = /UFsparse/AMD/Lib include_dirs = /UFsparse/AMD/Include, /UFsparse/UFconfig amd_libs = amd [umfpack] library_dirs = /UFsparse/UMFPACK/Lib include_dirs = /UFsparse/UMFPACK/Include, /UFsparse/UFconfig umfpack_libs = umfpack Examples: ========= Assuming this module imported as um (import scipy.linsolve.umfpack as um) Sparse matrix in CSR or CSC format: mtx Righthand-side: rhs Solution: sol # Contruct the solver. umfpack = um.UmfpackContext() # Use default 'di' family of UMFPACK routines. # One-shot solution. sol = umfpack( um.UMFPACK_A, mtx, rhs, autoTranspose = True ) # same as: sol = umfpack.linsolve( um.UMFPACK_A, mtx, rhs, autoTranspose = True ) -or- # Make LU decomposition. umfpack.numeric( mtx ) ... # Use already LU-decomposed matrix. sol1 = umfpack( um.UMFPACK_A, mtx, rhs1, autoTranspose = True ) sol2 = umfpack( um.UMFPACK_A, mtx, rhs2, autoTranspose = True ) # same as: sol1 = umfpack.solve( um.UMFPACK_A, mtx, rhs1, autoTranspose = True ) sol2 = umfpack.solve( um.UMFPACK_A, mtx, rhs2, autoTranspose = True ) -or- # Make symbolic decomposition. umfpack.symbolic( mtx0 ) # Print statistics. umfpack.report_symbolic() ... # Make LU decomposition of mtx1 which has same structure as mtx0. umfpack.numeric( mtx1 ) # Print statistics. umfpack.report_numeric() # Use already LU-decomposed matrix. sol1 = umfpack( um.UMFPACK_A, mtx1, rhs1, autoTranspose = True ) ... # Make LU decomposition of mtx2 which has same structure as mtx0. umfpack.numeric( mtx2 ) sol2 = umfpack.solve( um.UMFPACK_A, mtx2, rhs2, autoTranspose = True ) # Print all statistics. umfpack.report_info() -or- # Get LU factors and permutation matrices of a matrix. L, U, P, Q, R, do_recip = umfpack.lu( mtx ) Then: L - Lower triangular m-by-min(m,n) CSR matrix U - Upper triangular min(m,n)-by-n CSC matrix P - Vector of row permuations Q - Vector of column permuations R - Vector of diagonal row scalings do_recip - boolean For a given matrix A, the decomposition satisfies: LU = PRAQ when do_recip is true LU = P(R^-1)AQ when do_recip is false Description of arguments of UmfpackContext solution methods: ============================================= This holds for: umfpack(), umfpack.linsolve(), umfpack.solve() sys - one of UMFPACK system description constants, like UMFPACK_A, UMFPACK_At, see umfSys list and UMFPACK docs mtx - sparse matrix (CSR or CSC) rhs - right hand side vector autoTranspose - automatically changes 'sys' to the transposed type, if 'mtx' is in CSR, since UMFPACK assumes CSC internally Setting control parameters: =========================== Assuming this module imported as um: List of control parameter names is accessible as 'um.umfControls' - their meaning and possible values are described in the UMFPACK documentation. To each name corresponds an attribute of the 'um' module, such as, for example 'um.UMFPACK_PRL' (controlling the verbosity of umfpack report functions). These attributes are in fact indices into the control array - to set the corresponding control array value, just do the following: umfpack = um.UmfpackContext() umfpack.control[um.UMFPACK_PRL] = 4 # Let's be more verbose. -- Author: Robert Cimrman Other contributors: Nathan Bell (lu() method wrappers) """ postpone_import = 1 global_symbols = ['UmfpackContext']