1727da7e7SJeremy L Thompson // Copyright (c) 2017-2022, Lawrence Livermore National Security, LLC and other CEED contributors. 2727da7e7SJeremy L Thompson // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 3a515125bSLeila Ghaffari // 4727da7e7SJeremy L Thompson // SPDX-License-Identifier: BSD-2-Clause 5a515125bSLeila Ghaffari // 6727da7e7SJeremy L Thompson // This file is part of CEED: http://github.com/ceed 7a515125bSLeila Ghaffari 8a515125bSLeila Ghaffari /// @file 9a515125bSLeila Ghaffari /// Utility functions for setting up ADVECTION 10a515125bSLeila Ghaffari 11a515125bSLeila Ghaffari #include "../navierstokes.h" 12a515125bSLeila Ghaffari #include "../qfunctions/setupgeo.h" 13a515125bSLeila Ghaffari #include "../qfunctions/advection.h" 14a515125bSLeila Ghaffari 1505a512bdSLeila Ghaffari PetscErrorCode NS_ADVECTION(ProblemData *problem, DM dm, void *setup_ctx, 1605a512bdSLeila Ghaffari void *ctx) { 17a515125bSLeila Ghaffari WindType wind_type; 18a515125bSLeila Ghaffari BubbleType bubble_type; 19a515125bSLeila Ghaffari BubbleContinuityType bubble_continuity_type; 20a515125bSLeila Ghaffari StabilizationType stab; 21a515125bSLeila Ghaffari SetupContext setup_context = *(SetupContext *)setup_ctx; 22a515125bSLeila Ghaffari User user = *(User *)ctx; 23a515125bSLeila Ghaffari MPI_Comm comm = PETSC_COMM_WORLD; 24a515125bSLeila Ghaffari PetscBool implicit; 25a515125bSLeila Ghaffari PetscBool has_curr_time = PETSC_FALSE; 26a515125bSLeila Ghaffari PetscInt ierr; 27*15a3537eSJed Brown AdvectionContext advection_ctx; 28*15a3537eSJed Brown CeedQFunctionContext advection_context; 29a515125bSLeila Ghaffari 30*15a3537eSJed Brown PetscFunctionBeginUser; 31*15a3537eSJed Brown ierr = PetscCalloc1(1, &advection_ctx); CHKERRQ(ierr); 32a515125bSLeila Ghaffari 33a515125bSLeila Ghaffari // ------------------------------------------------------ 34a515125bSLeila Ghaffari // SET UP ADVECTION 35a515125bSLeila Ghaffari // ------------------------------------------------------ 36a515125bSLeila Ghaffari problem->dim = 3; 37a515125bSLeila Ghaffari problem->q_data_size_vol = 10; 38a515125bSLeila Ghaffari problem->q_data_size_sur = 4; 399785fe93SJed Brown problem->setup_vol.qfunction = Setup; 409785fe93SJed Brown problem->setup_vol.qfunction_loc = Setup_loc; 419785fe93SJed Brown problem->setup_sur.qfunction = SetupBoundary; 429785fe93SJed Brown problem->setup_sur.qfunction_loc = SetupBoundary_loc; 439785fe93SJed Brown problem->ics.qfunction = ICsAdvection; 449785fe93SJed Brown problem->ics.qfunction_loc = ICsAdvection_loc; 459785fe93SJed Brown problem->apply_vol_rhs.qfunction = Advection; 469785fe93SJed Brown problem->apply_vol_rhs.qfunction_loc = Advection_loc; 479785fe93SJed Brown problem->apply_vol_ifunction.qfunction = IFunction_Advection; 489785fe93SJed Brown problem->apply_vol_ifunction.qfunction_loc = IFunction_Advection_loc; 499785fe93SJed Brown problem->apply_inflow.qfunction = Advection_InOutFlow; 509785fe93SJed Brown problem->apply_inflow.qfunction_loc = Advection_InOutFlow_loc; 51a515125bSLeila Ghaffari problem->bc = Exact_Advection; 52a515125bSLeila Ghaffari problem->non_zero_time = PETSC_FALSE; 53a515125bSLeila Ghaffari problem->print_info = PRINT_ADVECTION; 54a515125bSLeila Ghaffari 55a515125bSLeila Ghaffari // ------------------------------------------------------ 56a515125bSLeila Ghaffari // Create the libCEED context 57a515125bSLeila Ghaffari // ------------------------------------------------------ 58a515125bSLeila Ghaffari CeedScalar rc = 1000.; // m (Radius of bubble) 59a515125bSLeila Ghaffari CeedScalar CtauS = 0.; // dimensionless 60a515125bSLeila Ghaffari CeedScalar strong_form = 0.; // [0,1] 61a515125bSLeila Ghaffari CeedScalar E_wind = 1.e6; // J 62a515125bSLeila Ghaffari PetscReal wind[3] = {1., 0, 0}; // m/s 6305a512bdSLeila Ghaffari PetscReal domain_min[3], domain_max[3], domain_size[3]; 6405a512bdSLeila Ghaffari ierr = DMGetBoundingBox(dm, domain_min, domain_max); CHKERRQ(ierr); 6505a512bdSLeila Ghaffari for (int i=0; i<3; i++) domain_size[i] = domain_max[i] - domain_min[i]; 6605a512bdSLeila Ghaffari 67a515125bSLeila Ghaffari 68a515125bSLeila Ghaffari // ------------------------------------------------------ 69a515125bSLeila Ghaffari // Create the PETSc context 70a515125bSLeila Ghaffari // ------------------------------------------------------ 71a515125bSLeila Ghaffari PetscScalar meter = 1e-2; // 1 meter in scaled length units 72a515125bSLeila Ghaffari PetscScalar kilogram = 1e-6; // 1 kilogram in scaled mass units 73a515125bSLeila Ghaffari PetscScalar second = 1e-2; // 1 second in scaled time units 74a515125bSLeila Ghaffari PetscScalar Joule; 75a515125bSLeila Ghaffari 76a515125bSLeila Ghaffari // ------------------------------------------------------ 77a515125bSLeila Ghaffari // Command line Options 78a515125bSLeila Ghaffari // ------------------------------------------------------ 791485969bSJeremy L Thompson PetscOptionsBegin(comm, NULL, "Options for ADVECTION problem", NULL); 80a515125bSLeila Ghaffari // -- Physics 81a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-rc", "Characteristic radius of thermal bubble", 82a515125bSLeila Ghaffari NULL, rc, &rc, NULL); CHKERRQ(ierr); 83a515125bSLeila Ghaffari PetscBool translation; 84a515125bSLeila Ghaffari ierr = PetscOptionsEnum("-wind_type", "Wind type in Advection", 85a515125bSLeila Ghaffari NULL, WindTypes, 86a515125bSLeila Ghaffari (PetscEnum)(wind_type = WIND_ROTATION), 87a515125bSLeila Ghaffari (PetscEnum *)&wind_type, &translation); CHKERRQ(ierr); 88a515125bSLeila Ghaffari if (translation) user->phys->has_neumann = PETSC_TRUE; 89a515125bSLeila Ghaffari PetscInt n = problem->dim; 90a515125bSLeila Ghaffari PetscBool user_wind; 91a515125bSLeila Ghaffari ierr = PetscOptionsRealArray("-wind_translation", "Constant wind vector", 92a515125bSLeila Ghaffari NULL, wind, &n, &user_wind); CHKERRQ(ierr); 93a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-CtauS", 94a515125bSLeila Ghaffari "Scale coefficient for tau (nondimensional)", 95a515125bSLeila Ghaffari NULL, CtauS, &CtauS, NULL); CHKERRQ(ierr); 96a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-strong_form", 97a515125bSLeila Ghaffari "Strong (1) or weak/integrated by parts (0) advection residual", 98a515125bSLeila Ghaffari NULL, strong_form, &strong_form, NULL); CHKERRQ(ierr); 99a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-E_wind", "Total energy of inflow wind", 100a515125bSLeila Ghaffari NULL, E_wind, &E_wind, NULL); CHKERRQ(ierr); 101a515125bSLeila Ghaffari ierr = PetscOptionsEnum("-bubble_type", "Sphere (3D) or cylinder (2D)", 102a515125bSLeila Ghaffari NULL, BubbleTypes, 103a515125bSLeila Ghaffari (PetscEnum)(bubble_type = BUBBLE_SPHERE), 104a515125bSLeila Ghaffari (PetscEnum *)&bubble_type, NULL); CHKERRQ(ierr); 105a515125bSLeila Ghaffari ierr = PetscOptionsEnum("-bubble_continuity", "Smooth, back_sharp, or thick", 106a515125bSLeila Ghaffari NULL, BubbleContinuityTypes, 107a515125bSLeila Ghaffari (PetscEnum)(bubble_continuity_type = BUBBLE_CONTINUITY_SMOOTH), 108a515125bSLeila Ghaffari (PetscEnum *)&bubble_continuity_type, NULL); CHKERRQ(ierr); 109a515125bSLeila Ghaffari ierr = PetscOptionsEnum("-stab", "Stabilization method", NULL, 110a515125bSLeila Ghaffari StabilizationTypes, (PetscEnum)(stab = STAB_NONE), 111a515125bSLeila Ghaffari (PetscEnum *)&stab, NULL); CHKERRQ(ierr); 112a515125bSLeila Ghaffari ierr = PetscOptionsBool("-implicit", "Use implicit (IFunction) formulation", 113a515125bSLeila Ghaffari NULL, implicit=PETSC_FALSE, &implicit, NULL); 114a515125bSLeila Ghaffari CHKERRQ(ierr); 115a515125bSLeila Ghaffari 116a515125bSLeila Ghaffari // -- Units 117a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-units_meter", "1 meter in scaled length units", 118a515125bSLeila Ghaffari NULL, meter, &meter, NULL); CHKERRQ(ierr); 119a515125bSLeila Ghaffari meter = fabs(meter); 120a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-units_kilogram","1 kilogram in scaled mass units", 121a515125bSLeila Ghaffari NULL, kilogram, &kilogram, NULL); CHKERRQ(ierr); 122a515125bSLeila Ghaffari kilogram = fabs(kilogram); 123a515125bSLeila Ghaffari ierr = PetscOptionsScalar("-units_second","1 second in scaled time units", 124a515125bSLeila Ghaffari NULL, second, &second, NULL); CHKERRQ(ierr); 125a515125bSLeila Ghaffari second = fabs(second); 126a515125bSLeila Ghaffari 127a515125bSLeila Ghaffari // -- Warnings 128a515125bSLeila Ghaffari if (wind_type == WIND_ROTATION && user_wind) { 129a515125bSLeila Ghaffari ierr = PetscPrintf(comm, 130a515125bSLeila Ghaffari "Warning! Use -wind_translation only with -wind_type translation\n"); 131a515125bSLeila Ghaffari CHKERRQ(ierr); 132a515125bSLeila Ghaffari } 133a515125bSLeila Ghaffari if (wind_type == WIND_TRANSLATION 134a515125bSLeila Ghaffari && bubble_type == BUBBLE_CYLINDER && wind[2] != 0.) { 135a515125bSLeila Ghaffari wind[2] = 0; 136a515125bSLeila Ghaffari ierr = PetscPrintf(comm, 137a515125bSLeila Ghaffari "Warning! Background wind in the z direction should be zero (-wind_translation x,x,0) with -bubble_type cylinder\n"); 138a515125bSLeila Ghaffari CHKERRQ(ierr); 139a515125bSLeila Ghaffari } 140a515125bSLeila Ghaffari if (stab == STAB_NONE && CtauS != 0) { 141a515125bSLeila Ghaffari ierr = PetscPrintf(comm, 142a515125bSLeila Ghaffari "Warning! Use -CtauS only with -stab su or -stab supg\n"); 143a515125bSLeila Ghaffari CHKERRQ(ierr); 144a515125bSLeila Ghaffari } 145a515125bSLeila Ghaffari if (stab == STAB_SUPG && !implicit) { 146a515125bSLeila Ghaffari ierr = PetscPrintf(comm, 147a515125bSLeila Ghaffari "Warning! Use -stab supg only with -implicit\n"); 148a515125bSLeila Ghaffari CHKERRQ(ierr); 149a515125bSLeila Ghaffari } 150a515125bSLeila Ghaffari 1511485969bSJeremy L Thompson PetscOptionsEnd(); 152a515125bSLeila Ghaffari 153a515125bSLeila Ghaffari // ------------------------------------------------------ 154a515125bSLeila Ghaffari // Set up the PETSc context 155a515125bSLeila Ghaffari // ------------------------------------------------------ 156a515125bSLeila Ghaffari // -- Define derived units 157a515125bSLeila Ghaffari Joule = kilogram * PetscSqr(meter) / PetscSqr(second); 158a515125bSLeila Ghaffari 159a515125bSLeila Ghaffari user->units->meter = meter; 160a515125bSLeila Ghaffari user->units->kilogram = kilogram; 161a515125bSLeila Ghaffari user->units->second = second; 162a515125bSLeila Ghaffari user->units->Joule = Joule; 163a515125bSLeila Ghaffari 164a515125bSLeila Ghaffari // ------------------------------------------------------ 165a515125bSLeila Ghaffari // Set up the libCEED context 166a515125bSLeila Ghaffari // ------------------------------------------------------ 167a515125bSLeila Ghaffari // -- Scale variables to desired units 168a515125bSLeila Ghaffari E_wind *= Joule; 169a515125bSLeila Ghaffari rc = fabs(rc) * meter; 17005a512bdSLeila Ghaffari for (int i=0; i<3; i++) { 17105a512bdSLeila Ghaffari wind[i] *= (meter/second); 17205a512bdSLeila Ghaffari domain_size[i] *= meter; 17305a512bdSLeila Ghaffari } 17405a512bdSLeila Ghaffari problem->dm_scale = meter; 175a515125bSLeila Ghaffari 176a515125bSLeila Ghaffari // -- Setup Context 177a515125bSLeila Ghaffari setup_context->rc = rc; 17805a512bdSLeila Ghaffari setup_context->lx = domain_size[0]; 17905a512bdSLeila Ghaffari setup_context->ly = domain_size[1]; 18005a512bdSLeila Ghaffari setup_context->lz = domain_size[2]; 181a515125bSLeila Ghaffari setup_context->wind[0] = wind[0]; 182a515125bSLeila Ghaffari setup_context->wind[1] = wind[1]; 183a515125bSLeila Ghaffari setup_context->wind[2] = wind[2]; 184a515125bSLeila Ghaffari setup_context->wind_type = wind_type; 185a515125bSLeila Ghaffari setup_context->bubble_type = bubble_type; 186a515125bSLeila Ghaffari setup_context->bubble_continuity_type = bubble_continuity_type; 187a515125bSLeila Ghaffari setup_context->time = 0; 188a515125bSLeila Ghaffari 189a515125bSLeila Ghaffari // -- QFunction Context 190a515125bSLeila Ghaffari user->phys->stab = stab; 191a515125bSLeila Ghaffari user->phys->wind_type = wind_type; 192a515125bSLeila Ghaffari user->phys->bubble_type = bubble_type; 193a515125bSLeila Ghaffari user->phys->bubble_continuity_type = bubble_continuity_type; 194a515125bSLeila Ghaffari // if passed correctly 195a515125bSLeila Ghaffari user->phys->implicit = implicit; 196a515125bSLeila Ghaffari user->phys->has_curr_time = has_curr_time; 197*15a3537eSJed Brown advection_ctx->CtauS = CtauS; 198*15a3537eSJed Brown advection_ctx->E_wind = E_wind; 199*15a3537eSJed Brown advection_ctx->implicit = implicit; 200*15a3537eSJed Brown advection_ctx->strong_form = strong_form; 201*15a3537eSJed Brown advection_ctx->stabilization = stab; 202a515125bSLeila Ghaffari 203*15a3537eSJed Brown CeedQFunctionContextCreate(user->ceed, &problem->ics.qfunction_context); 204*15a3537eSJed Brown CeedQFunctionContextSetData(problem->ics.qfunction_context, CEED_MEM_HOST, 205*15a3537eSJed Brown CEED_USE_POINTER, sizeof(*setup_context), setup_context); 206a515125bSLeila Ghaffari 207*15a3537eSJed Brown CeedQFunctionContextCreate(user->ceed, &advection_context); 208*15a3537eSJed Brown CeedQFunctionContextSetData(advection_context, CEED_MEM_HOST, 209ba5420e5SLeila Ghaffari CEED_USE_POINTER, 210*15a3537eSJed Brown sizeof(*advection_ctx), advection_ctx); 211*15a3537eSJed Brown CeedQFunctionContextSetDataDestroy(advection_context, CEED_MEM_HOST, 212*15a3537eSJed Brown FreeContextPetsc); 213*15a3537eSJed Brown problem->apply_vol_rhs.qfunction_context = advection_context; 214*15a3537eSJed Brown CeedQFunctionContextReferenceCopy(advection_context, 215*15a3537eSJed Brown &problem->apply_vol_ifunction.qfunction_context); 216*15a3537eSJed Brown CeedQFunctionContextReferenceCopy(advection_context, 217*15a3537eSJed Brown &problem->apply_inflow.qfunction_context); 218a515125bSLeila Ghaffari PetscFunctionReturn(0); 219a515125bSLeila Ghaffari } 220a515125bSLeila Ghaffari 221*15a3537eSJed Brown PetscErrorCode PRINT_ADVECTION(ProblemData *problem, SetupContext setup_ctx, 222a515125bSLeila Ghaffari AppCtx app_ctx) { 223a515125bSLeila Ghaffari MPI_Comm comm = PETSC_COMM_WORLD; 224a515125bSLeila Ghaffari PetscErrorCode ierr; 225*15a3537eSJed Brown AdvectionContext advection_ctx; 226a515125bSLeila Ghaffari 227*15a3537eSJed Brown PetscFunctionBeginUser; 228*15a3537eSJed Brown CeedQFunctionContextGetData(problem->apply_vol_rhs.qfunction_context, 229*15a3537eSJed Brown CEED_MEM_HOST, &advection_ctx); 230a515125bSLeila Ghaffari ierr = PetscPrintf(comm, 231a515125bSLeila Ghaffari " Problem:\n" 232a515125bSLeila Ghaffari " Problem Name : %s\n" 233a515125bSLeila Ghaffari " Stabilization : %s\n" 234a515125bSLeila Ghaffari " Bubble Type : %s (%dD)\n" 235a515125bSLeila Ghaffari " Bubble Continuity : %s\n" 236a515125bSLeila Ghaffari " Wind Type : %s\n", 237*15a3537eSJed Brown app_ctx->problem_name, StabilizationTypes[advection_ctx->stabilization], 238*15a3537eSJed Brown BubbleTypes[setup_ctx->bubble_type], 239*15a3537eSJed Brown setup_ctx->bubble_type == BUBBLE_SPHERE ? 3 : 2, 240*15a3537eSJed Brown BubbleContinuityTypes[setup_ctx->bubble_continuity_type], 241*15a3537eSJed Brown WindTypes[setup_ctx->wind_type]); CHKERRQ(ierr); 242a515125bSLeila Ghaffari 243*15a3537eSJed Brown if (setup_ctx->wind_type == WIND_TRANSLATION) { 244a515125bSLeila Ghaffari ierr = PetscPrintf(comm, 245a515125bSLeila Ghaffari " Background Wind : %f,%f,%f\n", 246a515125bSLeila Ghaffari setup_ctx->wind[0], setup_ctx->wind[1], setup_ctx->wind[2]); CHKERRQ(ierr); 247a515125bSLeila Ghaffari } 248*15a3537eSJed Brown CeedQFunctionContextRestoreData(problem->apply_vol_rhs.qfunction_context, 249*15a3537eSJed Brown &advection_ctx); 250a515125bSLeila Ghaffari PetscFunctionReturn(0); 251a515125bSLeila Ghaffari } 252