1dc936754SJeremy L Thompson // Copyright (c) 2017-2024, Lawrence Livermore National Security, LLC and other CEED contributors. 29ed3d70dSJames Wright // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 39ed3d70dSJames Wright // 49ed3d70dSJames Wright // SPDX-License-Identifier: BSD-2-Clause 59ed3d70dSJames Wright // 69ed3d70dSJames Wright // This file is part of CEED: http://github.com/ceed 79ed3d70dSJames Wright 89ed3d70dSJames Wright /// @file 99ed3d70dSJames Wright /// QFunctions for the `bc_slip` boundary conditions 109ed3d70dSJames Wright #include "bc_freestream_type.h" 119ed3d70dSJames Wright #include "newtonian_state.h" 129ed3d70dSJames Wright #include "newtonian_types.h" 139ed3d70dSJames Wright #include "riemann_solver.h" 149ed3d70dSJames Wright 159ed3d70dSJames Wright CEED_QFUNCTION_HELPER int Slip(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out, StateVariable state_var) { 16*4b96a86bSJames Wright const NewtonianIdealGasContext newt_ctx = (const NewtonianIdealGasContext)ctx; 179ed3d70dSJames Wright const CeedScalar(*q)[CEED_Q_VLA] = (const CeedScalar(*)[CEED_Q_VLA])in[0]; 189ed3d70dSJames Wright const CeedScalar(*q_data_sur) = in[2]; 199ed3d70dSJames Wright CeedScalar(*v)[CEED_Q_VLA] = (CeedScalar(*)[CEED_Q_VLA])out[0]; 20*4b96a86bSJames Wright CeedScalar(*jac_data_sur) = newt_ctx->is_implicit ? out[1] : NULL; 219ed3d70dSJames Wright 229ed3d70dSJames Wright CeedPragmaSIMD for (CeedInt i = 0; i < Q; i++) { 239ed3d70dSJames Wright const CeedScalar qi[5] = {q[0][i], q[1][i], q[2][i], q[3][i], q[4][i]}; 249ed3d70dSJames Wright State s = StateFromQ(newt_ctx, qi, state_var); 259ed3d70dSJames Wright 269ed3d70dSJames Wright CeedScalar wdetJb, norm[3]; 279ed3d70dSJames Wright QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, norm); 289ed3d70dSJames Wright wdetJb *= newt_ctx->is_implicit ? -1. : 1.; 299ed3d70dSJames Wright 309ed3d70dSJames Wright CeedScalar vel_reflect[3]; 319ed3d70dSJames Wright const CeedScalar vel_normal = Dot3(s.Y.velocity, norm); 329ed3d70dSJames Wright for (CeedInt j = 0; j < 3; j++) vel_reflect[j] = s.Y.velocity[j] - 2. * norm[j] * vel_normal; 339ed3d70dSJames Wright const CeedScalar Y_reflect[5] = {s.Y.pressure, vel_reflect[0], vel_reflect[1], vel_reflect[2], s.Y.temperature}; 349ed3d70dSJames Wright State s_reflect = StateFromY(newt_ctx, Y_reflect); 359ed3d70dSJames Wright 369ed3d70dSJames Wright StateConservative flux = RiemannFlux_HLLC(newt_ctx, s, s_reflect, norm); 379ed3d70dSJames Wright 389ed3d70dSJames Wright CeedScalar Flux[5]; 399ed3d70dSJames Wright UnpackState_U(flux, Flux); 409ed3d70dSJames Wright for (CeedInt j = 0; j < 5; j++) v[j][i] = -wdetJb * Flux[j]; 419ed3d70dSJames Wright 42*4b96a86bSJames Wright if (newt_ctx->is_implicit) { 43*4b96a86bSJames Wright CeedScalar zeros[6] = {0.}; 449ed3d70dSJames Wright StoredValuesPack(Q, i, 0, 5, qi, jac_data_sur); 459ed3d70dSJames Wright StoredValuesPack(Q, i, 5, 6, zeros, jac_data_sur); // Every output value must be set 469ed3d70dSJames Wright } 47*4b96a86bSJames Wright } 489ed3d70dSJames Wright return 0; 499ed3d70dSJames Wright } 509ed3d70dSJames Wright 519ed3d70dSJames Wright CEED_QFUNCTION(Slip_Conserv)(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out) { 529ed3d70dSJames Wright return Slip(ctx, Q, in, out, STATEVAR_CONSERVATIVE); 539ed3d70dSJames Wright } 549ed3d70dSJames Wright 559ed3d70dSJames Wright CEED_QFUNCTION(Slip_Prim)(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out) { 569ed3d70dSJames Wright return Slip(ctx, Q, in, out, STATEVAR_PRIMITIVE); 579ed3d70dSJames Wright } 589ed3d70dSJames Wright 599ed3d70dSJames Wright CEED_QFUNCTION_HELPER int Slip_Jacobian(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out, StateVariable state_var) { 609ed3d70dSJames Wright const CeedScalar(*dq)[CEED_Q_VLA] = (const CeedScalar(*)[CEED_Q_VLA])in[0]; 619ed3d70dSJames Wright const CeedScalar(*q_data_sur) = in[2]; 629ed3d70dSJames Wright const CeedScalar(*jac_data_sur) = in[4]; 639ed3d70dSJames Wright 649ed3d70dSJames Wright CeedScalar(*v)[CEED_Q_VLA] = (CeedScalar(*)[CEED_Q_VLA])out[0]; 659ed3d70dSJames Wright 669ed3d70dSJames Wright const NewtonianIdealGasContext newt_ctx = (const NewtonianIdealGasContext)ctx; 679ed3d70dSJames Wright 689ed3d70dSJames Wright CeedPragmaSIMD for (CeedInt i = 0; i < Q; i++) { 699ed3d70dSJames Wright CeedScalar wdetJb, norm[3]; 709ed3d70dSJames Wright QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, norm); 719ed3d70dSJames Wright wdetJb *= newt_ctx->is_implicit ? -1. : 1.; 729ed3d70dSJames Wright 739ed3d70dSJames Wright CeedScalar qi[5], dqi[5]; 749ed3d70dSJames Wright StoredValuesUnpack(Q, i, 0, 5, jac_data_sur, qi); 759ed3d70dSJames Wright for (int j = 0; j < 5; j++) dqi[j] = dq[j][i]; 769ed3d70dSJames Wright State s = StateFromQ(newt_ctx, qi, state_var); 779ed3d70dSJames Wright State ds = StateFromQ_fwd(newt_ctx, s, dqi, state_var); 789ed3d70dSJames Wright 799ed3d70dSJames Wright CeedScalar vel_reflect[3]; 809ed3d70dSJames Wright const CeedScalar vel_normal = Dot3(s.Y.velocity, norm); 819ed3d70dSJames Wright for (CeedInt j = 0; j < 3; j++) vel_reflect[j] = s.Y.velocity[j] - 2. * norm[j] * vel_normal; 829ed3d70dSJames Wright const CeedScalar Y_reflect[5] = {s.Y.pressure, vel_reflect[0], vel_reflect[1], vel_reflect[2], s.Y.temperature}; 839ed3d70dSJames Wright State s_reflect = StateFromY(newt_ctx, Y_reflect); 849ed3d70dSJames Wright 859ed3d70dSJames Wright CeedScalar dvel_reflect[3]; 869ed3d70dSJames Wright const CeedScalar dvel_normal = Dot3(ds.Y.velocity, norm); 879ed3d70dSJames Wright for (CeedInt j = 0; j < 3; j++) dvel_reflect[j] = ds.Y.velocity[j] - 2. * norm[j] * dvel_normal; 889ed3d70dSJames Wright const CeedScalar dY_reflect[5] = {ds.Y.pressure, dvel_reflect[0], dvel_reflect[1], dvel_reflect[2], ds.Y.temperature}; 899ed3d70dSJames Wright State ds_reflect = StateFromY_fwd(newt_ctx, s_reflect, dY_reflect); 909ed3d70dSJames Wright 919ed3d70dSJames Wright StateConservative dflux = RiemannFlux_HLLC_fwd(newt_ctx, s, ds, s_reflect, ds_reflect, norm); 929ed3d70dSJames Wright 939ed3d70dSJames Wright CeedScalar dFlux[5]; 949ed3d70dSJames Wright UnpackState_U(dflux, dFlux); 959ed3d70dSJames Wright for (CeedInt j = 0; j < 5; j++) v[j][i] = -wdetJb * dFlux[j]; 969ed3d70dSJames Wright } 979ed3d70dSJames Wright return 0; 989ed3d70dSJames Wright } 999ed3d70dSJames Wright 1009ed3d70dSJames Wright CEED_QFUNCTION(Slip_Jacobian_Conserv)(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out) { 1019ed3d70dSJames Wright return Slip_Jacobian(ctx, Q, in, out, STATEVAR_CONSERVATIVE); 1029ed3d70dSJames Wright } 1039ed3d70dSJames Wright 1049ed3d70dSJames Wright CEED_QFUNCTION(Slip_Jacobian_Prim)(void *ctx, CeedInt Q, const CeedScalar *const *in, CeedScalar *const *out) { 1059ed3d70dSJames Wright return Slip_Jacobian(ctx, Q, in, out, STATEVAR_PRIMITIVE); 1069ed3d70dSJames Wright } 107