/*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ /* ******** *** SparseLib++ */ /* ******* ** *** *** *** v. 1.5c */ /* ***** *** ******** ******** */ /* ***** *** ******** ******** R. Pozo */ /* ** ******* *** ** *** *** K. Remington */ /* ******** ******** A. Lumsdaine */ /*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ /* */ /* */ /* SparseLib++ : Sparse Matrix Library */ /* */ /* National Institute of Standards and Technology */ /* University of Notre Dame */ /* Authors: R. Pozo, K. Remington, A. Lumsdaine */ /* */ /* NOTICE */ /* */ /* Permission to use, copy, modify, and distribute this software and */ /* its documentation for any purpose and without fee is hereby granted */ /* provided that the above notice appear in all copies and supporting */ /* documentation. */ /* */ /* Neither the Institutions (National Institute of Standards and Technology, */ /* University of Notre Dame) nor the Authors make any representations about */ /* the suitability of this software for any purpose. This software is */ /* provided ``as is'' without expressed or implied warranty. */ /* */ /*+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++*/ #include #include "compcol_double.h" #include "comprow_double.h" #include "ilupre_double.h" #include "icpre_double.h" #include "iohb_double.h" #include // spŽcific mac : GR #include // spŽcific mac : GR int main(int argc, char * argv[]) { argc = ccommand( &argv ); // spŽcific mac : GR if (argc < 2) { cerr << "Usage: " << argv[0] << " HBfile [-v]" << endl; exit(-1); } int verbose = 0; int errcount = 0; if (argc > 2 ) { if (argv[2][1] == 'v') verbose = 1; else { cerr << "Usage: " << argv[0] << " HBfile [-v]" << endl; return -1; } } CompCol_Mat_double Ac; CompRow_Mat_double Ar; readHB_mat(argv[1], &Ac); Ar = Ac; int m = Ar.dim(0), n = Ar.dim(1); VECTOR_double b(n), x(m), c(m); for (int i = 0; i < m; i++) x(i) = i; b = Ar * x; CompCol_ILUPreconditioner_double Mc(Ac); CompRow_ILUPreconditioner_double Mr(Ar); ICPreconditioner_double cMc(Ac); ICPreconditioner_double cMr(Ar); if (verbose) cout << "Mc" << endl; VECTOR_double yc = Mc.solve(b); if (verbose) cout << "ILU yc-x " << norm(yc-x)/norm(x) << endl; if (norm(yc-x)/norm(x) > 1.e-12) { errcount++; if (verbose) { cout << "x" << endl << x << endl; cout << "yc" << endl << yc << endl; } } if (verbose) cout << "Mr" << endl; VECTOR_double yr = Mr.solve(b); if (verbose) cout << "ILU yr-x " << norm(yr-x)/norm(x) << endl; if (norm(yr-x)/norm(x) > 1.e-12) { errcount++; if (verbose) { cout << "x" << endl << x << endl; cout << "yr" << endl << yr << endl; } } if (verbose) cout << "cMc" << endl; yc = cMc.solve(b); if (verbose) cout << "IC yc-x " << norm(yc-x)/norm(x) << endl; if (norm(yc-x)/norm(x) > 1.e-12) { errcount++; if (verbose) { cout << "x" << endl << x << endl; cout << "yc" << endl << yc << endl; } } if (verbose) cout << "cMr" << endl; yr = cMr.solve(b); if (verbose) cout << "IC yr-x " << norm(yr-x)/norm(x) << endl; if (norm(yr-x)/norm(x) > 1.e-12) { errcount++; if (verbose) { cout << "x" << endl << x << endl; cout << "yr" << endl << yr << endl; } } c = Ar.trans_mult(x); if (norm(b-c)/norm(b) > 1.e-14) { errcount++; if (verbose) { cout << "b" << endl << b << endl; cout << "c" << endl << c << endl; } } if (verbose) cout << "Mc" << endl; yc = Mc.trans_solve(b); if (verbose) cout << "ILU yc-x " << norm(yc-x)/norm(x) << endl; if (norm(yc-x)/norm(x) > 1.e-12) { errcount++; if (verbose) { cout << "x" << endl << x << endl; cout << "yc" << endl << yc << endl; } } if (verbose) cout << "Mr" << endl; yr = Mr.trans_solve(b); if (verbose) cout << "ILU yr-x " << norm(yr-x)/norm(x) << endl; if (norm(yr-x)/norm(x) > 1.e-12) { errcount++; if (verbose) { cout << "x" << endl << x << endl; cout << "yr" << endl << yr << endl; } } if (verbose) cout << "cMc" << endl; yc = cMc.trans_solve(b); if (verbose) cout << "IC yc-x " << norm(yc-x)/norm(x) << endl; if (norm(yc-x)/norm(x) > 1.e-12) { errcount++; if (verbose) { cout << "x" << endl << x << endl; cout << "yc" << endl << yc << endl; } } if (verbose) cout << "cMr" << endl; yr = cMr.trans_solve(b); if (verbose) cout << "IC yr-x " << norm(yr-x)/norm(x) << endl; if (norm(yr-x)/norm(x) > 1.e-12) { errcount++; if (verbose) { cout << "x" << endl << x << endl; cout << "yr" << endl << yr << endl; } } if (errcount > 0) { cout << "There were " << errcount << " errors" << endl; if (verbose == 0) { cout << "Run again with -v to find out where" << endl; } } else { cout << "++++++++++++++++++++++++++++++++++++++++++++++++++++++++" << endl; cout << "+ Successful completion of testing for SparseLib++ +" << endl; cout << "+ No errors detected in preconditioner routines. +" << endl; cout << "++++++++++++++++++++++++++++++++++++++++++++++++++++++++" << endl; cout << endl << endl; } return errcount; }