int fc3d_Panagiotopoulos_FixedPoint_setDefaultSolverOptions(SolverOptions* options) { numerics_printf("fc3d_Panagiotopoulos_FixedPoint_setDefaultSolverOptions", "set default options"); options->solverId = SICONOS_FRICTION_3D_PFP; options->numberOfInternalSolvers = 1; options->isSet = 1; options->filterOn = 1; options->iSize = 8; options->dSize = 8; options->iparam = (int *)calloc(options->iSize, sizeof(int)); options->dparam = (double *)calloc(options->dSize, sizeof(double)); solver_options_nullify(options); options->iparam[SICONOS_IPARAM_MAX_ITER] = 1000; options->iparam[SICONOS_FRICTION_3D_IPARAM_INTERNAL_ERROR_STRATEGY] = SICONOS_FRICTION_3D_INTERNAL_ERROR_STRATEGY_ADAPTIVE; options->dparam[SICONOS_DPARAM_TOL] = 1e-4; options->dparam[SICONOS_FRICTION_3D_DPARAM_INTERNAL_ERROR_RATIO] =10.0; options->numberOfInternalSolvers=2; options->internalSolvers = (SolverOptions *)malloc(options->numberOfInternalSolvers*sizeof(SolverOptions)); linearComplementarity_pgs_setDefaultSolverOptions(&options->internalSolvers[0]); options->internalSolvers[0].iparam[SICONOS_IPARAM_MAX_ITER] =1000; convexQP_VI_solver_setDefaultSolverOptions(&options->internalSolvers[1]); options->internalSolvers[1].iparam[SICONOS_IPARAM_MAX_ITER] =1000; /* convexQP_ProjectedGradient_setDefaultSolverOptions(&options->internalSolvers[1]); */ /* options->internalSolvers[1].iparam[SICONOS_IPARAM_MAX_ITER] =1000; */ return 0; }
int mixedLinearComplementarity_pgs_SBM_setDefaultSolverOptions(MixedLinearComplementarityProblem* problem, SolverOptions* options) { int i; if (verbose > 0) { printf("Set the Default SolverOptions for the MLCP_PGS_SBM Solver\n"); } options->solverId = SICONOS_MLCP_PGS_SBM; options->numberOfInternalSolvers = 1; options->isSet = 1; options->filterOn = 1; options->iSize = 5; options->dSize = 5; options->iparam = (int *)malloc(options->iSize * sizeof(int)); options->dparam = (double *)malloc(options->dSize * sizeof(double)); options->dWork = NULL; null_SolverOptions(options); for (i = 0; i < 5; i++) { options->iparam[i] = 0; options->dparam[i] = 0.0; } options->iparam[0] = 1000; options->dparam[0] = 1e-6; options->internalSolvers = (SolverOptions*)malloc(options->numberOfInternalSolvers * sizeof(SolverOptions)); linearComplementarity_pgs_setDefaultSolverOptions(options->internalSolvers); return 0; }