/*! \file Copyright (c) 2003, The Regents of the University of California, through Lawrence Berkeley National Laboratory (subject to receipt of any required approvals from U.S. Dept. of Energy) All rights reserved. The source code is distributed under BSD license, see the file License.txt at the top-level directory. */ /* * -- SuperLU routine (version 3.0) -- * Univ. of California Berkeley, Xerox Palo Alto Research Center, * and Lawrence Berkeley National Lab. * October 15, 2003 * */ #include "slu_cdefs.h" int main(int argc, char *argv[]) { SuperMatrix A; NCformat *Astore; complex *a; int *asub, *xa; int *perm_c; /* column permutation vector */ int *perm_r; /* row permutations from partial pivoting */ SuperMatrix L; /* factor L */ SCformat *Lstore; SuperMatrix U; /* factor U */ NCformat *Ustore; SuperMatrix B; int nrhs, ldx, info, m, n, nnz; complex *xact, *rhs; mem_usage_t mem_usage; superlu_options_t options; SuperLUStat_t stat; FILE *fp = stdin; #if ( DEBUGlevel>=1 ) CHECK_MALLOC("Enter main()"); #endif /* Set the default input options: options.Fact = DOFACT; options.Equil = YES; options.ColPerm = COLAMD; options.DiagPivotThresh = 1.0; options.Trans = NOTRANS; options.IterRefine = NOREFINE; options.SymmetricMode = NO; options.PivotGrowth = NO; options.ConditionNumber = NO; options.PrintStat = YES; */ set_default_options(&options); /* Read the matrix in Harwell-Boeing format. */ creadhb(fp, &m, &n, &nnz, &a, &asub, &xa); cCreate_CompCol_Matrix(&A, m, n, nnz, a, asub, xa, SLU_NC, SLU_C, SLU_GE); Astore = A.Store; printf("Dimension %dx%d; # nonzeros %d\n", A.nrow, A.ncol, Astore->nnz); nrhs = 1; if ( !(rhs = complexMalloc(m * nrhs)) ) ABORT("Malloc fails for rhs[]."); cCreate_Dense_Matrix(&B, m, nrhs, rhs, m, SLU_DN, SLU_C, SLU_GE); xact = complexMalloc(n * nrhs); ldx = n; cGenXtrue(n, nrhs, xact, ldx); cFillRHS(options.Trans, nrhs, xact, ldx, &A, &B); if ( !(perm_c = intMalloc(n)) ) ABORT("Malloc fails for perm_c[]."); if ( !(perm_r = intMalloc(m)) ) ABORT("Malloc fails for perm_r[]."); /* Initialize the statistics variables. */ StatInit(&stat); cgssv(&options, &A, perm_c, perm_r, &L, &U, &B, &stat, &info); if ( info == 0 ) { /* This is how you could access the solution matrix. */ complex *sol = (complex*) ((DNformat*) B.Store)->nzval; /* Compute the infinity norm of the error. */ cinf_norm_error(nrhs, &B, xact); Lstore = (SCformat *) L.Store; Ustore = (NCformat *) U.Store; printf("No of nonzeros in factor L = %d\n", Lstore->nnz); printf("No of nonzeros in factor U = %d\n", Ustore->nnz); printf("No of nonzeros in L+U = %d\n", Lstore->nnz + Ustore->nnz - n); printf("FILL ratio = %.1f\n", (float)(Lstore->nnz + Ustore->nnz - n)/nnz); cQuerySpace(&L, &U, &mem_usage); printf("L\\U MB %.3f\ttotal MB needed %.3f\n", mem_usage.for_lu/1e6, mem_usage.total_needed/1e6); } else { printf("cgssv() error returns INFO= %d\n", info); if ( info <= n ) { /* factorization completes */ cQuerySpace(&L, &U, &mem_usage); printf("L\\U MB %.3f\ttotal MB needed %.3f\n", mem_usage.for_lu/1e6, mem_usage.total_needed/1e6); } } if ( options.PrintStat ) StatPrint(&stat); StatFree(&stat); SUPERLU_FREE (rhs); SUPERLU_FREE (xact); SUPERLU_FREE (perm_r); SUPERLU_FREE (perm_c); Destroy_CompCol_Matrix(&A); Destroy_SuperMatrix_Store(&B); Destroy_SuperNode_Matrix(&L); Destroy_CompCol_Matrix(&U); #if ( DEBUGlevel>=1 ) CHECK_MALLOC("Exit main()"); #endif }