#ifndef BOOST_NUMERIC_BINDINGS_MUMPS_464_ZMUMPS_C_HPP #define BOOST_NUMERIC_BINDINGS_MUMPS_464_ZMUMPS_C_HPP /* THIS FILE IS PART OF MUMPS VERSION 4.6.4 This Version was built on Thu Jan 11 13:32:35 2007 This version of MUMPS is provided to you free of charge. It is public domain, based on public domain software developed during the Esprit IV European project PARASOL (1996-1999) by CERFACS, ENSEEIHT-IRIT and RAL. Since this first public domain version in 1999, the developments are supported by the following institutions: CERFACS, ENSEEIHT-IRIT, and INRIA. Main contributors are Patrick Amestoy, Iain Duff, Abdou Guermouche, Jacko Koster, Jean-Yves L'Excellent, and Stephane Pralet. Up-to-date copies of the MUMPS package can be obtained from the Web pages http://www.enseeiht.fr/apo/MUMPS/ or http://graal.ens-lyon.fr/MUMPS THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED OR IMPLIED. ANY USE IS AT YOUR OWN RISK. User documentation of any code that uses this software can include this complete notice. You can acknowledge (using references [1], [2], and [3] the contribution of this package in any scientific publication dependent upon the use of the package. You shall use reasonable endeavours to notify the authors of the package of this publication. [1] P. R. Amestoy, I. S. Duff and J.-Y. L'Excellent, Multifrontal parallel distributed symmetric and unsymmetric solvers, in Comput. Methods in Appl. Mech. Eng., 184, 501-520 (2000). [2] P. R. Amestoy, I. S. Duff, J. Koster and J.-Y. L'Excellent, A fully asynchronous multifrontal solver using distributed dynamic scheduling, SIAM Journal of Matrix Analysis and Applications, Vol 23, No 1, pp 15-41 (2001). [3] P. R. Amestoy and A. Guermouche and J.-Y. L'Excellent and S. Pralet, Hybrid scheduling for the parallel solution of linear systems. Parallel Computing Vol 32 (2), pp 136-156 (2006). */ /* $Id: zmumps_c.hpp 39206 2007-09-12 06:58:12Z karlmeerbergen $ */ /* Mostly written in march 2002 (JYL) */ // This file is modified by Karl Meerbergen for C++ users /* Complex datatypes */ typedef struct {double r,i;} mumps_double_complex; /* Next line defines ZMUMPS_INT, ZMUMPS_DOUBLE and ZMUMPS_DOUBLE2 */ #include "zmumps_prec.h" /* * Definition of the (simplified) * MUMPS C structure */ typedef struct { ZMUMPS_INT sym, par, job; ZMUMPS_INT comm_fortran; /* Fortran communicator */ ZMUMPS_INT icntl[40]; ZMUMPS_DOUBLE2 cntl[5]; ZMUMPS_INT n; ZMUMPS_INT nz_alloc; /* used in matlab interface to decide if we free + malloc when we have large variation */ /* Assembled entry */ ZMUMPS_INT nz; ZMUMPS_INT *irn; ZMUMPS_INT *jcn; ZMUMPS_DOUBLE *a; /* Distributed entry */ ZMUMPS_INT nz_loc; ZMUMPS_INT *irn_loc; ZMUMPS_INT *jcn_loc; ZMUMPS_DOUBLE *a_loc; /* Element entry */ ZMUMPS_INT nelt; ZMUMPS_INT *eltptr; ZMUMPS_INT *eltvar; ZMUMPS_DOUBLE *a_elt; /* Ordering, if given by user */ ZMUMPS_INT *perm_in; /* Orderings returned to user */ /* symmetric permutation */ ZMUMPS_INT *sym_perm; /* column permutation */ ZMUMPS_INT *uns_perm; /* Scaling (input only in this version) */ ZMUMPS_DOUBLE *colsca; ZMUMPS_DOUBLE *rowsca; /* RHS, solution, ouptput data and statistics */ ZMUMPS_DOUBLE *rhs, *rhs_sparse, *sol_loc; ZMUMPS_INT *irhs_sparse, *irhs_ptr, *isol_loc; ZMUMPS_INT nrhs, lrhs, nz_rhs, lsol_loc; ZMUMPS_INT schur_mloc, schur_nloc, schur_lld; ZMUMPS_INT mblock, nblock, nprow, npcol; ZMUMPS_INT info[40],infog[40]; ZMUMPS_DOUBLE2 rinfo[20], rinfog[20]; /* Null space */ ZMUMPS_INT deficiency; ZMUMPS_DOUBLE * nullspace; ZMUMPS_INT * mapping; /* Schur */ ZMUMPS_INT size_schur; ZMUMPS_INT *listvar_schur; ZMUMPS_DOUBLE *schur; /* Internal parameters */ ZMUMPS_INT instance_number; /* For out-of-core */ char ooc_tmpdir[151]; char ooc_prefix[151]; } ZMUMPS_STRUC_C; extern "C" { void zmumps_c(ZMUMPS_STRUC_C * zmumps_par); } #endif