1dc936754SJeremy L Thompson // Copyright (c) 2017-2024, Lawrence Livermore National Security, LLC and other CEED contributors. 2475b2820SJames Wright // All Rights Reserved. See the top-level LICENSE and NOTICE files for details. 3475b2820SJames Wright // 4475b2820SJames Wright // SPDX-License-Identifier: BSD-2-Clause 5475b2820SJames Wright // 6475b2820SJames Wright // This file is part of CEED: http://github.com/ceed 7475b2820SJames Wright 8475b2820SJames Wright /// @file 9475b2820SJames Wright /// Structs and helper functions regarding the state of a newtonian simulation 10c7ece6efSJeremy L Thompson #pragma once 11475b2820SJames Wright 12475b2820SJames Wright #include <ceed.h> 13d0cce58aSJeremy L Thompson #include <math.h> 142b916ea7SJeremy L Thompson 15475b2820SJames Wright #include "newtonian_types.h" 16704b8bbeSJames Wright #include "utils.h" 17475b2820SJames Wright 18475b2820SJames Wright typedef struct { 19475b2820SJames Wright CeedScalar density; 20475b2820SJames Wright CeedScalar momentum[3]; 21475b2820SJames Wright CeedScalar E_total; 22475b2820SJames Wright } StateConservative; 23475b2820SJames Wright 24475b2820SJames Wright typedef struct { 25475b2820SJames Wright StateConservative U; 26475b2820SJames Wright StatePrimitive Y; 27475b2820SJames Wright } State; 28475b2820SJames Wright 29d1b9ef12SLeila Ghaffari CEED_QFUNCTION_HELPER void UnpackState_U(StateConservative s, CeedScalar U[5]) { 30d1b9ef12SLeila Ghaffari U[0] = s.density; 31d1b9ef12SLeila Ghaffari for (int i = 0; i < 3; i++) U[i + 1] = s.momentum[i]; 32d1b9ef12SLeila Ghaffari U[4] = s.E_total; 33d1b9ef12SLeila Ghaffari } 34d1b9ef12SLeila Ghaffari 35d1b9ef12SLeila Ghaffari CEED_QFUNCTION_HELPER void UnpackState_Y(StatePrimitive s, CeedScalar Y[5]) { 36d1b9ef12SLeila Ghaffari Y[0] = s.pressure; 37d1b9ef12SLeila Ghaffari for (int i = 0; i < 3; i++) Y[i + 1] = s.velocity[i]; 38d1b9ef12SLeila Ghaffari Y[4] = s.temperature; 39d1b9ef12SLeila Ghaffari } 40d1b9ef12SLeila Ghaffari 41c62f7daeSJames Wright CEED_QFUNCTION_HELPER void UnpackState_V(StateEntropy s, CeedScalar V[5]) { 42c62f7daeSJames Wright V[0] = s.S_density; 43c62f7daeSJames Wright for (int i = 0; i < 3; i++) V[i + 1] = s.S_momentum[i]; 44c62f7daeSJames Wright V[4] = s.S_energy; 45c62f7daeSJames Wright } 46c62f7daeSJames Wright 472b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER CeedScalar HeatCapacityRatio(NewtonianIdealGasContext gas) { return gas->cp / gas->cv; } 48e0d1a4dfSLeila Ghaffari 492b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER CeedScalar GasConstant(NewtonianIdealGasContext gas) { return gas->cp - gas->cv; } 50e0d1a4dfSLeila Ghaffari 512b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER CeedScalar Prandtl(NewtonianIdealGasContext gas) { return gas->cp * gas->mu / gas->k; } 52e0d1a4dfSLeila Ghaffari 532b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER CeedScalar SoundSpeed(NewtonianIdealGasContext gas, CeedScalar T) { return sqrt(gas->cp * (HeatCapacityRatio(gas) - 1.) * T); } 54e0d1a4dfSLeila Ghaffari 552b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER CeedScalar Mach(NewtonianIdealGasContext gas, CeedScalar T, CeedScalar u) { return u / SoundSpeed(gas, T); } 56e0d1a4dfSLeila Ghaffari 572b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER CeedScalar TotalSpecificEnthalpy(NewtonianIdealGasContext gas, const State s) { 58c50f56e5SJames Wright // Ignoring potential energy 59c50f56e5SJames Wright CeedScalar e_internal = gas->cv * s.Y.temperature; 60c50f56e5SJames Wright CeedScalar e_kinetic = 0.5 * Dot3(s.Y.velocity, s.Y.velocity); 61c50f56e5SJames Wright return e_internal + e_kinetic + s.Y.pressure / s.U.density; 62c50f56e5SJames Wright } 63c50f56e5SJames Wright 642b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER CeedScalar TotalSpecificEnthalpy_fwd(NewtonianIdealGasContext gas, const State s, const State ds) { 65c50f56e5SJames Wright // Ignoring potential energy 66c50f56e5SJames Wright CeedScalar de_kinetic = Dot3(ds.Y.velocity, s.Y.velocity); 67c50f56e5SJames Wright CeedScalar de_internal = gas->cv * ds.Y.temperature; 682b916ea7SJeremy L Thompson return de_internal + de_kinetic + ds.Y.pressure / s.U.density - s.Y.pressure / Square(s.U.density) * ds.U.density; 69c50f56e5SJames Wright } 70c50f56e5SJames Wright 71edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER StatePrimitive StatePrimitiveFromConservative(NewtonianIdealGasContext gas, StateConservative U) { 72475b2820SJames Wright StatePrimitive Y; 73475b2820SJames Wright for (CeedInt i = 0; i < 3; i++) Y.velocity[i] = U.momentum[i] / U.density; 74475b2820SJames Wright CeedScalar e_kinetic = .5 * Dot3(Y.velocity, Y.velocity); 75475b2820SJames Wright CeedScalar e_total = U.E_total / U.density; 76edcfef1bSKenneth E. Jansen CeedScalar e_internal = e_total - e_kinetic; 77475b2820SJames Wright Y.temperature = e_internal / gas->cv; 78e0d1a4dfSLeila Ghaffari Y.pressure = (HeatCapacityRatio(gas) - 1) * U.density * e_internal; 79475b2820SJames Wright return Y; 80475b2820SJames Wright } 81475b2820SJames Wright 82edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER StatePrimitive StatePrimitiveFromConservative_fwd(NewtonianIdealGasContext gas, State s, StateConservative dU) { 83475b2820SJames Wright StatePrimitive dY; 84475b2820SJames Wright for (CeedInt i = 0; i < 3; i++) { 85475b2820SJames Wright dY.velocity[i] = (dU.momentum[i] - s.Y.velocity[i] * dU.density) / s.U.density; 86475b2820SJames Wright } 87475b2820SJames Wright CeedScalar e_kinetic = .5 * Dot3(s.Y.velocity, s.Y.velocity); 88475b2820SJames Wright CeedScalar de_kinetic = Dot3(dY.velocity, s.Y.velocity); 89475b2820SJames Wright CeedScalar e_total = s.U.E_total / s.U.density; 90475b2820SJames Wright CeedScalar de_total = (dU.E_total - e_total * dU.density) / s.U.density; 91edcfef1bSKenneth E. Jansen CeedScalar e_internal = e_total - e_kinetic; 92edcfef1bSKenneth E. Jansen CeedScalar de_internal = de_total - de_kinetic; 93475b2820SJames Wright dY.temperature = de_internal / gas->cv; 942b916ea7SJeremy L Thompson dY.pressure = (HeatCapacityRatio(gas) - 1) * (dU.density * e_internal + s.U.density * de_internal); 95475b2820SJames Wright return dY; 96475b2820SJames Wright } 97475b2820SJames Wright 98*a6654c3eSJames Wright CEED_QFUNCTION_HELPER StateEntropy StateEntropyFromPrimitive(NewtonianIdealGasContext gas, StatePrimitive Y) { 99*a6654c3eSJames Wright StateEntropy V; 100*a6654c3eSJames Wright const CeedScalar gamma = HeatCapacityRatio(gas); 101*a6654c3eSJames Wright const CeedScalar rho = Y.pressure / (GasConstant(gas) * Y.temperature); 102*a6654c3eSJames Wright const CeedScalar entropy = log(Y.pressure) - gamma * log(rho); 103*a6654c3eSJames Wright const CeedScalar rho_div_p = rho / Y.pressure; 104*a6654c3eSJames Wright const CeedScalar e_kinetic = 0.5 * Dot3(Y.velocity, Y.velocity); 105*a6654c3eSJames Wright 106*a6654c3eSJames Wright V.S_density = (gamma - entropy) / (gamma - 1) - rho_div_p * e_kinetic; 107*a6654c3eSJames Wright for (int i = 0; i < 3; i++) V.S_momentum[i] = rho_div_p * Y.velocity[i]; 108*a6654c3eSJames Wright V.S_energy = -rho_div_p; 109*a6654c3eSJames Wright return V; 110*a6654c3eSJames Wright } 111*a6654c3eSJames Wright 112*a6654c3eSJames Wright CEED_QFUNCTION_HELPER StateEntropy StateEntropyFromPrimitive_fwd(NewtonianIdealGasContext gas, State s, StatePrimitive dY) { 113*a6654c3eSJames Wright StateEntropy dV; 114*a6654c3eSJames Wright const CeedScalar gamma = HeatCapacityRatio(gas); 115*a6654c3eSJames Wright CeedScalar drho = (dY.pressure * s.Y.temperature - s.Y.pressure * dY.temperature) / (GasConstant(gas) * s.Y.temperature * s.Y.temperature); 116*a6654c3eSJames Wright 117*a6654c3eSJames Wright const CeedScalar e_kinetic = .5 * Dot3(s.Y.velocity, s.Y.velocity); 118*a6654c3eSJames Wright const CeedScalar de_kinetic = Dot3(dY.velocity, s.Y.velocity); 119*a6654c3eSJames Wright const CeedScalar rho_div_p = s.U.density / s.Y.pressure; 120*a6654c3eSJames Wright const CeedScalar drho_div_p = (drho * s.Y.pressure - s.U.density * dY.pressure) / Square(s.Y.pressure); 121*a6654c3eSJames Wright 122*a6654c3eSJames Wright CeedScalar dentropy = dY.pressure / s.Y.pressure - gamma * drho / s.U.density; 123*a6654c3eSJames Wright 124*a6654c3eSJames Wright dV.S_density = -dentropy / (gamma - 1) - de_kinetic * rho_div_p - e_kinetic * drho_div_p; 125*a6654c3eSJames Wright for (CeedInt i = 0; i < 3; i++) dV.S_momentum[i] = rho_div_p * dY.velocity[i] + drho_div_p * s.Y.velocity[i]; 126*a6654c3eSJames Wright dV.S_energy = -drho_div_p; 127*a6654c3eSJames Wright return dV; 128*a6654c3eSJames Wright } 129*a6654c3eSJames Wright 130*a6654c3eSJames Wright CEED_QFUNCTION_HELPER StatePrimitive StatePrimitiveFromEntropy(NewtonianIdealGasContext gas, StateEntropy V) { 131*a6654c3eSJames Wright StatePrimitive Y; 132*a6654c3eSJames Wright for (int i = 0; i < 3; i++) Y.velocity[i] = -V.S_momentum[i] / V.S_energy; 133*a6654c3eSJames Wright Y.temperature = -1 / (GasConstant(gas) * V.S_energy); 134*a6654c3eSJames Wright const CeedScalar gamma = HeatCapacityRatio(gas); 135*a6654c3eSJames Wright const CeedScalar e_kinetic = 0.5 * Dot3(Y.velocity, Y.velocity); 136*a6654c3eSJames Wright const CeedScalar entropy = gamma - (gamma - 1) * (V.S_density - e_kinetic * V.S_energy); 137*a6654c3eSJames Wright const CeedScalar log_P = -(entropy + gamma * log(-V.S_energy)) / (gamma - 1); 138*a6654c3eSJames Wright Y.pressure = exp(log_P); 139*a6654c3eSJames Wright return Y; 140*a6654c3eSJames Wright } 141*a6654c3eSJames Wright 142*a6654c3eSJames Wright CEED_QFUNCTION_HELPER StatePrimitive StatePrimitiveFromEntropy_fwd(NewtonianIdealGasContext gas, State s, StateEntropy dV) { 143*a6654c3eSJames Wright StatePrimitive dY; 144*a6654c3eSJames Wright StateEntropy V = StateEntropyFromPrimitive(gas, s.Y); 145*a6654c3eSJames Wright for (int i = 0; i < 3; i++) dY.velocity[i] = -(dV.S_momentum[i] - V.S_momentum[i] * dV.S_energy / V.S_energy) / V.S_energy; 146*a6654c3eSJames Wright dY.temperature = dV.S_energy / (GasConstant(gas) * V.S_energy * V.S_energy); 147*a6654c3eSJames Wright const CeedScalar gamma = HeatCapacityRatio(gas); 148*a6654c3eSJames Wright const CeedScalar e_kinetic = 0.5 * Dot3(s.Y.velocity, s.Y.velocity); 149*a6654c3eSJames Wright const CeedScalar de_kinetic = Dot3(dY.velocity, s.Y.velocity); 150*a6654c3eSJames Wright const CeedScalar dentropy = (1 - gamma) * (dV.S_density - e_kinetic * dV.S_energy - de_kinetic * V.S_energy); 151*a6654c3eSJames Wright dY.pressure = s.Y.pressure * (-dentropy - gamma * dV.S_energy / V.S_energy) / (gamma - 1); 152*a6654c3eSJames Wright return dY; 153*a6654c3eSJames Wright } 154*a6654c3eSJames Wright 155edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER StateConservative StateConservativeFromPrimitive(NewtonianIdealGasContext gas, StatePrimitive Y) { 156cbe60e31SLeila Ghaffari StateConservative U; 157e0d1a4dfSLeila Ghaffari U.density = Y.pressure / (GasConstant(gas) * Y.temperature); 158cbe60e31SLeila Ghaffari for (int i = 0; i < 3; i++) U.momentum[i] = U.density * Y.velocity[i]; 159cbe60e31SLeila Ghaffari CeedScalar e_internal = gas->cv * Y.temperature; 160cbe60e31SLeila Ghaffari CeedScalar e_kinetic = .5 * Dot3(Y.velocity, Y.velocity); 161edcfef1bSKenneth E. Jansen CeedScalar e_total = e_internal + e_kinetic; 162cbe60e31SLeila Ghaffari U.E_total = U.density * e_total; 163cbe60e31SLeila Ghaffari return U; 164cbe60e31SLeila Ghaffari } 165cbe60e31SLeila Ghaffari 166edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER StateConservative StateConservativeFromPrimitive_fwd(NewtonianIdealGasContext gas, State s, StatePrimitive dY) { 167cbe60e31SLeila Ghaffari StateConservative dU; 1682b916ea7SJeremy L Thompson dU.density = (dY.pressure * s.Y.temperature - s.Y.pressure * dY.temperature) / (GasConstant(gas) * s.Y.temperature * s.Y.temperature); 169cbe60e31SLeila Ghaffari for (int i = 0; i < 3; i++) { 170cbe60e31SLeila Ghaffari dU.momentum[i] = dU.density * s.Y.velocity[i] + s.U.density * dY.velocity[i]; 171cbe60e31SLeila Ghaffari } 172cbe60e31SLeila Ghaffari CeedScalar e_kinetic = .5 * Dot3(s.Y.velocity, s.Y.velocity); 173cbe60e31SLeila Ghaffari CeedScalar de_kinetic = Dot3(dY.velocity, s.Y.velocity); 174cbe60e31SLeila Ghaffari CeedScalar e_internal = gas->cv * s.Y.temperature; 175cbe60e31SLeila Ghaffari CeedScalar de_internal = gas->cv * dY.temperature; 176edcfef1bSKenneth E. Jansen CeedScalar e_total = e_internal + e_kinetic; 177edcfef1bSKenneth E. Jansen CeedScalar de_total = de_internal + de_kinetic; 178cbe60e31SLeila Ghaffari dU.E_total = dU.density * e_total + s.U.density * de_total; 179cbe60e31SLeila Ghaffari return dU; 180cbe60e31SLeila Ghaffari } 181cbe60e31SLeila Ghaffari 182c62f7daeSJames Wright CEED_QFUNCTION_HELPER StateEntropy StateEntropyFromConservative(NewtonianIdealGasContext gas, StateConservative U) { 183c62f7daeSJames Wright StateEntropy V; 184c62f7daeSJames Wright const CeedScalar gamma = HeatCapacityRatio(gas); 185c62f7daeSJames Wright const CeedScalar e_kinetic = .5 * Dot3(U.momentum, U.momentum) / U.density; 186c62f7daeSJames Wright const CeedScalar e_internal = U.E_total - e_kinetic; 187c62f7daeSJames Wright const CeedScalar p = (gamma - 1) * e_internal; 188c62f7daeSJames Wright const CeedScalar entropy = log(p) - gamma * log(U.density); 189c62f7daeSJames Wright 190c62f7daeSJames Wright V.S_density = (gamma - entropy) / (gamma - 1) - e_kinetic / p; 191c62f7daeSJames Wright for (int i = 0; i < 3; i++) V.S_momentum[i] = U.momentum[i] / p; 192c62f7daeSJames Wright V.S_energy = -U.density / p; 193c62f7daeSJames Wright return V; 194c62f7daeSJames Wright } 195c62f7daeSJames Wright 196c62f7daeSJames Wright CEED_QFUNCTION_HELPER StateEntropy StateEntropyFromConservative_fwd(NewtonianIdealGasContext gas, State s, StateConservative dU) { 197c62f7daeSJames Wright StateEntropy dV; 198c62f7daeSJames Wright const CeedScalar gamma = HeatCapacityRatio(gas); 199c62f7daeSJames Wright const CeedScalar e_kinetic = .5 * Dot3(s.U.momentum, s.U.momentum) / s.U.density; 200c62f7daeSJames Wright const CeedScalar de_kinetic = (Dot3(s.U.momentum, dU.momentum) - e_kinetic * dU.density) / s.U.density; 201c62f7daeSJames Wright const CeedScalar de_internal = dU.E_total - de_kinetic; 202c62f7daeSJames Wright const CeedScalar p = s.Y.pressure; 203c62f7daeSJames Wright const CeedScalar dp = (gamma - 1) * de_internal; 204c62f7daeSJames Wright 205c62f7daeSJames Wright CeedScalar dentropy = dp / p - gamma * dU.density / s.U.density; 206c62f7daeSJames Wright 207c62f7daeSJames Wright dV.S_density = -dentropy / (gamma - 1) - de_kinetic / p + dp * e_kinetic / Square(p); 208c62f7daeSJames Wright for (CeedInt i = 0; i < 3; i++) { 209c62f7daeSJames Wright dV.S_momentum[i] = (dU.momentum[i] - s.U.momentum[i] * dp / p) / p; 210c62f7daeSJames Wright } 211c62f7daeSJames Wright dV.S_energy = -(dU.density - s.U.density * dp / p) / p; 212c62f7daeSJames Wright return dV; 213c62f7daeSJames Wright } 214c62f7daeSJames Wright 215c62f7daeSJames Wright CEED_QFUNCTION_HELPER StateConservative StateConservativeFromEntropy(NewtonianIdealGasContext gas, StateEntropy V) { 216c62f7daeSJames Wright StateConservative U; 217c62f7daeSJames Wright CeedScalar velocity[3]; 218c62f7daeSJames Wright for (int i = 0; i < 3; i++) velocity[i] = -V.S_momentum[i] / V.S_energy; 219c62f7daeSJames Wright const CeedScalar gamma = HeatCapacityRatio(gas); 220c62f7daeSJames Wright const CeedScalar e_kinetic = 0.5 * Dot3(velocity, velocity); 221c62f7daeSJames Wright const CeedScalar entropy = gamma - (gamma - 1) * (V.S_density - e_kinetic * V.S_energy); 222c62f7daeSJames Wright const CeedScalar log_rho = -(entropy + log(-V.S_energy)) / (gamma - 1); 223c62f7daeSJames Wright U.density = exp(log_rho); 224c62f7daeSJames Wright for (int i = 0; i < 3; i++) U.momentum[i] = U.density * velocity[i]; 225c62f7daeSJames Wright 226c62f7daeSJames Wright const CeedScalar e_internal = -gas->cv / (GasConstant(gas) * V.S_energy); 227c62f7daeSJames Wright U.E_total = U.density * (e_internal + e_kinetic); 228c62f7daeSJames Wright return U; 229c62f7daeSJames Wright } 230c62f7daeSJames Wright 231c62f7daeSJames Wright CEED_QFUNCTION_HELPER StateConservative StateConservativeFromEntropy_fwd(NewtonianIdealGasContext gas, State s, StateEntropy dV) { 232c62f7daeSJames Wright StateConservative dU; 233c62f7daeSJames Wright CeedScalar dvelocity[3]; 234*a6654c3eSJames Wright StateEntropy V = StateEntropyFromPrimitive(gas, s.Y); 235*a6654c3eSJames Wright for (int i = 0; i < 3; i++) dvelocity[i] = (-dV.S_momentum[i] - s.Y.velocity[i] * dV.S_energy) / V.S_energy; 236c62f7daeSJames Wright const CeedScalar gamma = HeatCapacityRatio(gas); 237c62f7daeSJames Wright const CeedScalar e_kinetic = 0.5 * Dot3(s.Y.velocity, s.Y.velocity); 238c62f7daeSJames Wright const CeedScalar de_kinetic = Dot3(dvelocity, s.Y.velocity); 239*a6654c3eSJames Wright const CeedScalar entropy = gamma - (gamma - 1) * (V.S_density - e_kinetic * V.S_energy); 240*a6654c3eSJames Wright const CeedScalar dentropy = -(gamma - 1) * (dV.S_density - (de_kinetic * V.S_energy + e_kinetic * dV.S_energy)); 241*a6654c3eSJames Wright const CeedScalar log_rho = -(entropy + log(-V.S_energy)) / (gamma - 1); 242c62f7daeSJames Wright const CeedScalar rho = exp(log_rho); 243*a6654c3eSJames Wright dU.density = -rho / (gamma - 1) * (dentropy + dV.S_energy / V.S_energy); 244c62f7daeSJames Wright for (int i = 0; i < 3; i++) dU.momentum[i] = dU.density * s.Y.velocity[i] + s.U.density * dvelocity[i]; 245c62f7daeSJames Wright 246*a6654c3eSJames Wright const CeedScalar e_internal = -gas->cv / (GasConstant(gas) * V.S_energy); 247*a6654c3eSJames Wright const CeedScalar de_internal = gas->cv * dV.S_energy / (GasConstant(gas) * V.S_energy * V.S_energy); 248c62f7daeSJames Wright const CeedScalar e_total = e_internal + e_kinetic; 249c62f7daeSJames Wright dU.E_total = dU.density * e_total + s.U.density * (de_internal + de_kinetic); 250c62f7daeSJames Wright return dU; 251c62f7daeSJames Wright } 252c62f7daeSJames Wright 253edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER State StateFromPrimitive(NewtonianIdealGasContext gas, StatePrimitive Y) { 254edcfef1bSKenneth E. Jansen StateConservative U = StateConservativeFromPrimitive(gas, Y); 255b8fb7609SAdeleke O. Bankole State s; 256b8fb7609SAdeleke O. Bankole s.U = U; 257b8fb7609SAdeleke O. Bankole s.Y = Y; 258b8fb7609SAdeleke O. Bankole return s; 259b8fb7609SAdeleke O. Bankole } 260b8fb7609SAdeleke O. Bankole 261edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER State StateFromPrimitive_fwd(NewtonianIdealGasContext gas, State s, StatePrimitive dY) { 262edcfef1bSKenneth E. Jansen StateConservative dU = StateConservativeFromPrimitive_fwd(gas, s, dY); 263c8c30d87SJed Brown State ds; 264c8c30d87SJed Brown ds.U = dU; 265c8c30d87SJed Brown ds.Y = dY; 266c8c30d87SJed Brown return ds; 267c8c30d87SJed Brown } 268c8c30d87SJed Brown 269c2c93676SJed Brown // linear combination of n states 270c2c93676SJed Brown CEED_QFUNCTION_HELPER StateConservative StateConservativeMult(CeedInt n, const CeedScalar a[], const StateConservative X[]) { 271c2c93676SJed Brown StateConservative R = {0}; 272c2c93676SJed Brown for (CeedInt i = 0; i < n; i++) { 273c2c93676SJed Brown R.density += a[i] * X[i].density; 274c2c93676SJed Brown for (int j = 0; j < 3; j++) R.momentum[j] += a[i] * X[i].momentum[j]; 275c2c93676SJed Brown R.E_total += a[i] * X[i].E_total; 276c2c93676SJed Brown } 277dbb62a19SJed Brown return R; 278dbb62a19SJed Brown } 279dbb62a19SJed Brown 280dbb62a19SJed Brown CEED_QFUNCTION_HELPER StateConservative StateConservativeAXPBYPCZ(CeedScalar a, StateConservative X, CeedScalar b, StateConservative Y, CeedScalar c, 281dbb62a19SJed Brown StateConservative Z) { 282dbb62a19SJed Brown StateConservative R; 283dbb62a19SJed Brown R.density = a * X.density + b * Y.density + c * Z.density; 284dbb62a19SJed Brown for (int i = 0; i < 3; i++) R.momentum[i] = a * X.momentum[i] + b * Y.momentum[i] + c * Z.momentum[i]; 285dbb62a19SJed Brown R.E_total = a * X.E_total + b * Y.E_total + c * Z.E_total; 286dbb62a19SJed Brown return R; 287dbb62a19SJed Brown } 288dbb62a19SJed Brown 289b8fb7609SAdeleke O. Bankole CEED_QFUNCTION_HELPER void StateToU(NewtonianIdealGasContext gas, const State input, CeedScalar U[5]) { UnpackState_U(input.U, U); } 290b8fb7609SAdeleke O. Bankole 291b8fb7609SAdeleke O. Bankole CEED_QFUNCTION_HELPER void StateToY(NewtonianIdealGasContext gas, const State input, CeedScalar Y[5]) { UnpackState_Y(input.Y, Y); } 292a8bca8acSJames Wright 293*a6654c3eSJames Wright CEED_QFUNCTION_HELPER void StateToV(NewtonianIdealGasContext gas, const State input, CeedScalar V[5]) { 294*a6654c3eSJames Wright StateEntropy state_V = StateEntropyFromPrimitive(gas, input.Y); 295*a6654c3eSJames Wright UnpackState_V(state_V, V); 296*a6654c3eSJames Wright } 297c62f7daeSJames Wright 2988fff8293SJames Wright CEED_QFUNCTION_HELPER void StateToQ(NewtonianIdealGasContext gas, const State input, CeedScalar Q[5], StateVariable state_var) { 2998fff8293SJames Wright switch (state_var) { 3008fff8293SJames Wright case STATEVAR_CONSERVATIVE: 3018fff8293SJames Wright StateToU(gas, input, Q); 3028fff8293SJames Wright break; 3038fff8293SJames Wright case STATEVAR_PRIMITIVE: 3048fff8293SJames Wright StateToY(gas, input, Q); 3058fff8293SJames Wright break; 306c62f7daeSJames Wright case STATEVAR_ENTROPY: 307c62f7daeSJames Wright StateToV(gas, input, Q); 308c62f7daeSJames Wright break; 3098fff8293SJames Wright } 3108fff8293SJames Wright } 311d4559bbeSJames Wright 312*a6654c3eSJames Wright CEED_QFUNCTION_HELPER void StateToQ_fwd(NewtonianIdealGasContext gas, const State input, const State dinput, CeedScalar dQ[5], 313*a6654c3eSJames Wright StateVariable state_var) { 314*a6654c3eSJames Wright switch (state_var) { 315*a6654c3eSJames Wright case STATEVAR_CONSERVATIVE: 316*a6654c3eSJames Wright case STATEVAR_PRIMITIVE: 317*a6654c3eSJames Wright StateToQ(gas, dinput, dQ, state_var); 318*a6654c3eSJames Wright break; 319*a6654c3eSJames Wright case STATEVAR_ENTROPY: { 320*a6654c3eSJames Wright StateEntropy dstate_v; 321*a6654c3eSJames Wright 322*a6654c3eSJames Wright dstate_v = StateEntropyFromPrimitive_fwd(gas, input, dinput.Y); 323*a6654c3eSJames Wright UnpackState_V(dstate_v, dQ); 324*a6654c3eSJames Wright } break; 325*a6654c3eSJames Wright } 326*a6654c3eSJames Wright } 327*a6654c3eSJames Wright 328edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER State StateFromU(NewtonianIdealGasContext gas, const CeedScalar U[5]) { 329475b2820SJames Wright State s; 330475b2820SJames Wright s.U.density = U[0]; 331475b2820SJames Wright s.U.momentum[0] = U[1]; 332475b2820SJames Wright s.U.momentum[1] = U[2]; 333475b2820SJames Wright s.U.momentum[2] = U[3]; 334475b2820SJames Wright s.U.E_total = U[4]; 335edcfef1bSKenneth E. Jansen s.Y = StatePrimitiveFromConservative(gas, s.U); 336475b2820SJames Wright return s; 337475b2820SJames Wright } 338475b2820SJames Wright 339edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER State StateFromU_fwd(NewtonianIdealGasContext gas, State s, const CeedScalar dU[5]) { 340475b2820SJames Wright State ds; 341475b2820SJames Wright ds.U.density = dU[0]; 342475b2820SJames Wright ds.U.momentum[0] = dU[1]; 343475b2820SJames Wright ds.U.momentum[1] = dU[2]; 344475b2820SJames Wright ds.U.momentum[2] = dU[3]; 345475b2820SJames Wright ds.U.E_total = dU[4]; 346edcfef1bSKenneth E. Jansen ds.Y = StatePrimitiveFromConservative_fwd(gas, s, ds.U); 347475b2820SJames Wright return ds; 348475b2820SJames Wright } 349475b2820SJames Wright 350edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER State StateFromY(NewtonianIdealGasContext gas, const CeedScalar Y[5]) { 351cbe60e31SLeila Ghaffari State s; 352cbe60e31SLeila Ghaffari s.Y.pressure = Y[0]; 353cbe60e31SLeila Ghaffari s.Y.velocity[0] = Y[1]; 354cbe60e31SLeila Ghaffari s.Y.velocity[1] = Y[2]; 355cbe60e31SLeila Ghaffari s.Y.velocity[2] = Y[3]; 356cbe60e31SLeila Ghaffari s.Y.temperature = Y[4]; 357edcfef1bSKenneth E. Jansen s.U = StateConservativeFromPrimitive(gas, s.Y); 358cbe60e31SLeila Ghaffari return s; 359cbe60e31SLeila Ghaffari } 360cbe60e31SLeila Ghaffari 361edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER State StateFromY_fwd(NewtonianIdealGasContext gas, State s, const CeedScalar dY[5]) { 362cbe60e31SLeila Ghaffari State ds; 363cbe60e31SLeila Ghaffari ds.Y.pressure = dY[0]; 364cbe60e31SLeila Ghaffari ds.Y.velocity[0] = dY[1]; 365cbe60e31SLeila Ghaffari ds.Y.velocity[1] = dY[2]; 366cbe60e31SLeila Ghaffari ds.Y.velocity[2] = dY[3]; 367cbe60e31SLeila Ghaffari ds.Y.temperature = dY[4]; 368edcfef1bSKenneth E. Jansen ds.U = StateConservativeFromPrimitive_fwd(gas, s, ds.Y); 369c62f7daeSJames Wright return ds; 370c62f7daeSJames Wright } 371c62f7daeSJames Wright 372c62f7daeSJames Wright CEED_QFUNCTION_HELPER State StateFromV(NewtonianIdealGasContext gas, const CeedScalar V[5]) { 373c62f7daeSJames Wright State s; 374*a6654c3eSJames Wright StateEntropy state_V; 375*a6654c3eSJames Wright state_V.S_density = V[0]; 376*a6654c3eSJames Wright state_V.S_momentum[0] = V[1]; 377*a6654c3eSJames Wright state_V.S_momentum[1] = V[2]; 378*a6654c3eSJames Wright state_V.S_momentum[2] = V[3]; 379*a6654c3eSJames Wright state_V.S_energy = V[4]; 380*a6654c3eSJames Wright s.U = StateConservativeFromEntropy(gas, state_V); 381*a6654c3eSJames Wright s.Y = StatePrimitiveFromEntropy(gas, state_V); 382c62f7daeSJames Wright return s; 383c62f7daeSJames Wright } 384c62f7daeSJames Wright 385c62f7daeSJames Wright CEED_QFUNCTION_HELPER State StateFromV_fwd(NewtonianIdealGasContext gas, State s, const CeedScalar dV[5]) { 386c62f7daeSJames Wright State ds; 387*a6654c3eSJames Wright StateEntropy state_dV; 388*a6654c3eSJames Wright state_dV.S_density = dV[0]; 389*a6654c3eSJames Wright state_dV.S_momentum[0] = dV[1]; 390*a6654c3eSJames Wright state_dV.S_momentum[1] = dV[2]; 391*a6654c3eSJames Wright state_dV.S_momentum[2] = dV[3]; 392*a6654c3eSJames Wright state_dV.S_energy = dV[4]; 393*a6654c3eSJames Wright ds.U = StateConservativeFromEntropy_fwd(gas, s, state_dV); 394*a6654c3eSJames Wright ds.Y = StatePrimitiveFromEntropy_fwd(gas, s, state_dV); 395cbe60e31SLeila Ghaffari return ds; 396cbe60e31SLeila Ghaffari } 397cbe60e31SLeila Ghaffari 398edcfef1bSKenneth E. Jansen CEED_QFUNCTION_HELPER State StateFromQ(NewtonianIdealGasContext gas, const CeedScalar Q[5], StateVariable state_var) { 3998fff8293SJames Wright State s; 4008fff8293SJames Wright switch (state_var) { 4018fff8293SJames Wright case STATEVAR_CONSERVATIVE: 402edcfef1bSKenneth E. Jansen s = StateFromU(gas, Q); 4038fff8293SJames Wright break; 4048fff8293SJames Wright case STATEVAR_PRIMITIVE: 405edcfef1bSKenneth E. Jansen s = StateFromY(gas, Q); 4068fff8293SJames Wright break; 407c62f7daeSJames Wright case STATEVAR_ENTROPY: 408c62f7daeSJames Wright s = StateFromV(gas, Q); 409c62f7daeSJames Wright break; 4108fff8293SJames Wright } 4118fff8293SJames Wright return s; 4128fff8293SJames Wright } 4138fff8293SJames Wright 4142e7597b6SKenneth E. Jansen CEED_QFUNCTION_HELPER State StateFromQ_fwd(NewtonianIdealGasContext gas, State s, const CeedScalar dQ[5], StateVariable state_var) { 4158fff8293SJames Wright State ds; 4168fff8293SJames Wright switch (state_var) { 4178fff8293SJames Wright case STATEVAR_CONSERVATIVE: 418edcfef1bSKenneth E. Jansen ds = StateFromU_fwd(gas, s, dQ); 4198fff8293SJames Wright break; 4208fff8293SJames Wright case STATEVAR_PRIMITIVE: 421edcfef1bSKenneth E. Jansen ds = StateFromY_fwd(gas, s, dQ); 4228fff8293SJames Wright break; 423c62f7daeSJames Wright case STATEVAR_ENTROPY: 424c62f7daeSJames Wright ds = StateFromV_fwd(gas, s, dQ); 425c62f7daeSJames Wright break; 4268fff8293SJames Wright } 4278fff8293SJames Wright return ds; 4288fff8293SJames Wright } 4298fff8293SJames Wright 4302b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER void FluxInviscid(NewtonianIdealGasContext gas, State s, StateConservative Flux[3]) { 431475b2820SJames Wright for (CeedInt i = 0; i < 3; i++) { 432475b2820SJames Wright Flux[i].density = s.U.momentum[i]; 4332b916ea7SJeremy L Thompson for (CeedInt j = 0; j < 3; j++) Flux[i].momentum[j] = s.U.momentum[i] * s.Y.velocity[j] + s.Y.pressure * (i == j); 434475b2820SJames Wright Flux[i].E_total = (s.U.E_total + s.Y.pressure) * s.Y.velocity[i]; 435475b2820SJames Wright } 436475b2820SJames Wright } 437475b2820SJames Wright 4382b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER void FluxInviscid_fwd(NewtonianIdealGasContext gas, State s, State ds, StateConservative dFlux[3]) { 439c50f56e5SJames Wright for (CeedInt i = 0; i < 3; i++) { 440c50f56e5SJames Wright dFlux[i].density = ds.U.momentum[i]; 4412b916ea7SJeremy L Thompson for (CeedInt j = 0; j < 3; j++) { 4422b916ea7SJeremy L Thompson dFlux[i].momentum[j] = ds.U.momentum[i] * s.Y.velocity[j] + s.U.momentum[i] * ds.Y.velocity[j] + ds.Y.pressure * (i == j); 4432b916ea7SJeremy L Thompson } 4442b916ea7SJeremy L Thompson dFlux[i].E_total = (ds.U.E_total + ds.Y.pressure) * s.Y.velocity[i] + (s.U.E_total + s.Y.pressure) * ds.Y.velocity[i]; 445c50f56e5SJames Wright } 446c50f56e5SJames Wright } 447c50f56e5SJames Wright 4482b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER StateConservative FluxInviscidDotNormal(NewtonianIdealGasContext gas, State s, const CeedScalar normal[3]) { 4497b530f2aSAdelekeBankole StateConservative Flux[3], Flux_dot_n = {0}; 4507b530f2aSAdelekeBankole FluxInviscid(gas, s, Flux); 4517b530f2aSAdelekeBankole for (CeedInt i = 0; i < 3; i++) { 4527b530f2aSAdelekeBankole Flux_dot_n.density += Flux[i].density * normal[i]; 4532b916ea7SJeremy L Thompson for (CeedInt j = 0; j < 3; j++) Flux_dot_n.momentum[j] += Flux[i].momentum[j] * normal[i]; 4547b530f2aSAdelekeBankole Flux_dot_n.E_total += Flux[i].E_total * normal[i]; 4557b530f2aSAdelekeBankole } 4567b530f2aSAdelekeBankole return Flux_dot_n; 4577b530f2aSAdelekeBankole } 4587b530f2aSAdelekeBankole 4592b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER StateConservative FluxInviscidDotNormal_fwd(NewtonianIdealGasContext gas, State s, State ds, const CeedScalar normal[3]) { 460c50f56e5SJames Wright StateConservative dFlux[3], Flux_dot_n = {0}; 461c50f56e5SJames Wright FluxInviscid_fwd(gas, s, ds, dFlux); 462475b2820SJames Wright for (CeedInt i = 0; i < 3; i++) { 463c50f56e5SJames Wright Flux_dot_n.density += dFlux[i].density * normal[i]; 4642b916ea7SJeremy L Thompson for (CeedInt j = 0; j < 3; j++) Flux_dot_n.momentum[j] += dFlux[i].momentum[j] * normal[i]; 465c50f56e5SJames Wright Flux_dot_n.E_total += dFlux[i].E_total * normal[i]; 466475b2820SJames Wright } 467c50f56e5SJames Wright return Flux_dot_n; 468475b2820SJames Wright } 469475b2820SJames Wright 4702b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER void FluxInviscidStrong(NewtonianIdealGasContext gas, State s, State ds[3], CeedScalar strong_conv[5]) { 471d1b9ef12SLeila Ghaffari for (CeedInt i = 0; i < 5; i++) strong_conv[i] = 0; 472d1b9ef12SLeila Ghaffari for (CeedInt i = 0; i < 3; i++) { 473d1b9ef12SLeila Ghaffari StateConservative dF[3]; 474d1b9ef12SLeila Ghaffari FluxInviscid_fwd(gas, s, ds[i], dF); 475d1b9ef12SLeila Ghaffari CeedScalar dF_i[5]; 476d1b9ef12SLeila Ghaffari UnpackState_U(dF[i], dF_i); 4772b916ea7SJeremy L Thompson for (CeedInt j = 0; j < 5; j++) strong_conv[j] += dF_i[j]; 478d1b9ef12SLeila Ghaffari } 479d1b9ef12SLeila Ghaffari } 480d1b9ef12SLeila Ghaffari 4812b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER void FluxTotal(const StateConservative F_inviscid[3], CeedScalar stress[3][3], CeedScalar Fe[3], CeedScalar Flux[5][3]) { 482d1b9ef12SLeila Ghaffari for (CeedInt j = 0; j < 3; j++) { 483d1b9ef12SLeila Ghaffari Flux[0][j] = F_inviscid[j].density; 4842b916ea7SJeremy L Thompson for (CeedInt k = 0; k < 3; k++) Flux[k + 1][j] = F_inviscid[j].momentum[k] - stress[k][j]; 485d1b9ef12SLeila Ghaffari Flux[4][j] = F_inviscid[j].E_total + Fe[j]; 486d1b9ef12SLeila Ghaffari } 487d1b9ef12SLeila Ghaffari } 488d1b9ef12SLeila Ghaffari 4892b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER void FluxTotal_Boundary(const StateConservative F_inviscid[3], const CeedScalar stress[3][3], const CeedScalar Fe[3], 4902b916ea7SJeremy L Thompson const CeedScalar normal[3], CeedScalar Flux[5]) { 491c5740391SJames Wright for (CeedInt j = 0; j < 5; j++) Flux[j] = 0.; 492c5740391SJames Wright for (CeedInt j = 0; j < 3; j++) { 493c5740391SJames Wright Flux[0] += F_inviscid[j].density * normal[j]; 494c5740391SJames Wright for (CeedInt k = 0; k < 3; k++) { 495c5740391SJames Wright Flux[k + 1] += (F_inviscid[j].momentum[k] - stress[k][j]) * normal[j]; 496c5740391SJames Wright } 497c5740391SJames Wright Flux[4] += (F_inviscid[j].E_total + Fe[j]) * normal[j]; 498c5740391SJames Wright } 499c5740391SJames Wright } 500c5740391SJames Wright 501c8c30d87SJed Brown CEED_QFUNCTION_HELPER void FluxTotal_RiemannBoundary(const StateConservative F_inviscid_normal, const CeedScalar stress[3][3], const CeedScalar Fe[3], 502c8c30d87SJed Brown const CeedScalar normal[3], CeedScalar Flux[5]) { 503c8c30d87SJed Brown Flux[0] = F_inviscid_normal.density; 504c8c30d87SJed Brown for (CeedInt k = 0; k < 3; k++) Flux[k + 1] = F_inviscid_normal.momentum[k]; 505c8c30d87SJed Brown Flux[4] = F_inviscid_normal.E_total; 506c8c30d87SJed Brown for (CeedInt j = 0; j < 3; j++) { 507c8c30d87SJed Brown for (CeedInt k = 0; k < 3; k++) { 508c8c30d87SJed Brown Flux[k + 1] -= stress[k][j] * normal[j]; 509c8c30d87SJed Brown } 510c8c30d87SJed Brown Flux[4] += Fe[j] * normal[j]; 511c8c30d87SJed Brown } 512c8c30d87SJed Brown } 513c8c30d87SJed Brown 51440a33f2dSJames Wright CEED_QFUNCTION_HELPER void VelocityGradient(const State grad_s[3], CeedScalar grad_velocity[3][3]) { 51540a33f2dSJames Wright grad_velocity[0][0] = grad_s[0].Y.velocity[0]; 51640a33f2dSJames Wright grad_velocity[0][1] = grad_s[1].Y.velocity[0]; 51740a33f2dSJames Wright grad_velocity[0][2] = grad_s[2].Y.velocity[0]; 51840a33f2dSJames Wright grad_velocity[1][0] = grad_s[0].Y.velocity[1]; 51940a33f2dSJames Wright grad_velocity[1][1] = grad_s[1].Y.velocity[1]; 52040a33f2dSJames Wright grad_velocity[1][2] = grad_s[2].Y.velocity[1]; 52140a33f2dSJames Wright grad_velocity[2][0] = grad_s[0].Y.velocity[2]; 52240a33f2dSJames Wright grad_velocity[2][1] = grad_s[1].Y.velocity[2]; 52340a33f2dSJames Wright grad_velocity[2][2] = grad_s[2].Y.velocity[2]; 52440a33f2dSJames Wright } 52540a33f2dSJames Wright 52640a33f2dSJames Wright CEED_QFUNCTION_HELPER void KMStrainRate(const CeedScalar grad_velocity[3][3], CeedScalar strain_rate[6]) { 52740a33f2dSJames Wright const CeedScalar weight = 1 / sqrt(2.); // Really sqrt(2.) / 2 52840a33f2dSJames Wright strain_rate[0] = grad_velocity[0][0]; 52940a33f2dSJames Wright strain_rate[1] = grad_velocity[1][1]; 53040a33f2dSJames Wright strain_rate[2] = grad_velocity[2][2]; 53140a33f2dSJames Wright strain_rate[3] = weight * (grad_velocity[1][2] + grad_velocity[2][1]); 53240a33f2dSJames Wright strain_rate[4] = weight * (grad_velocity[0][2] + grad_velocity[2][0]); 53340a33f2dSJames Wright strain_rate[5] = weight * (grad_velocity[0][1] + grad_velocity[1][0]); 53440a33f2dSJames Wright } 53540a33f2dSJames Wright 536475b2820SJames Wright // Kelvin-Mandel notation 53740a33f2dSJames Wright CEED_QFUNCTION_HELPER void KMStrainRate_State(const State grad_s[3], CeedScalar strain_rate[6]) { 53840a33f2dSJames Wright CeedScalar grad_velocity[3][3]; 53940a33f2dSJames Wright VelocityGradient(grad_s, grad_velocity); 54040a33f2dSJames Wright KMStrainRate(grad_velocity, strain_rate); 54140a33f2dSJames Wright } 54240a33f2dSJames Wright 543f6ac214eSJames Wright //@brief Given velocity gradient du_i/dx_j, return 0.5*(du_i/dx_j - du_j/dx_i) 54440a33f2dSJames Wright CEED_QFUNCTION_HELPER void RotationRate(const CeedScalar grad_velocity[3][3], CeedScalar rotation_rate[3][3]) { 54540a33f2dSJames Wright rotation_rate[0][0] = 0; 54640a33f2dSJames Wright rotation_rate[1][1] = 0; 54740a33f2dSJames Wright rotation_rate[2][2] = 0; 54840a33f2dSJames Wright rotation_rate[1][2] = 0.5 * (grad_velocity[1][2] - grad_velocity[2][1]); 54940a33f2dSJames Wright rotation_rate[0][2] = 0.5 * (grad_velocity[0][2] - grad_velocity[2][0]); 55040a33f2dSJames Wright rotation_rate[0][1] = 0.5 * (grad_velocity[0][1] - grad_velocity[1][0]); 55140a33f2dSJames Wright rotation_rate[2][1] = -rotation_rate[1][2]; 55240a33f2dSJames Wright rotation_rate[2][0] = -rotation_rate[0][2]; 55340a33f2dSJames Wright rotation_rate[1][0] = -rotation_rate[0][1]; 554475b2820SJames Wright } 555475b2820SJames Wright 5562b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER void NewtonianStress(NewtonianIdealGasContext gas, const CeedScalar strain_rate[6], CeedScalar stress[6]) { 557475b2820SJames Wright CeedScalar div_u = strain_rate[0] + strain_rate[1] + strain_rate[2]; 558475b2820SJames Wright for (CeedInt i = 0; i < 6; i++) { 559475b2820SJames Wright stress[i] = gas->mu * (2 * strain_rate[i] + gas->lambda * div_u * (i < 3)); 560475b2820SJames Wright } 561475b2820SJames Wright } 562475b2820SJames Wright 5632b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER void ViscousEnergyFlux(NewtonianIdealGasContext gas, StatePrimitive Y, const State grad_s[3], const CeedScalar stress[3][3], 564475b2820SJames Wright CeedScalar Fe[3]) { 565475b2820SJames Wright for (CeedInt i = 0; i < 3; i++) { 5662b916ea7SJeremy L Thompson Fe[i] = -Y.velocity[0] * stress[0][i] - Y.velocity[1] * stress[1][i] - Y.velocity[2] * stress[2][i] - gas->k * grad_s[i].Y.temperature; 567475b2820SJames Wright } 568475b2820SJames Wright } 569475b2820SJames Wright 5702b916ea7SJeremy L Thompson CEED_QFUNCTION_HELPER void ViscousEnergyFlux_fwd(NewtonianIdealGasContext gas, StatePrimitive Y, StatePrimitive dY, const State grad_ds[3], 5712b916ea7SJeremy L Thompson const CeedScalar stress[3][3], const CeedScalar dstress[3][3], CeedScalar dFe[3]) { 572475b2820SJames Wright for (CeedInt i = 0; i < 3; i++) { 5732b916ea7SJeremy L Thompson dFe[i] = -Y.velocity[0] * dstress[0][i] - dY.velocity[0] * stress[0][i] - Y.velocity[1] * dstress[1][i] - dY.velocity[1] * stress[1][i] - 5742b916ea7SJeremy L Thompson Y.velocity[2] * dstress[2][i] - dY.velocity[2] * stress[2][i] - gas->k * grad_ds[i].Y.temperature; 575475b2820SJames Wright } 576475b2820SJames Wright } 577475b2820SJames Wright 57840a33f2dSJames Wright CEED_QFUNCTION_HELPER void Vorticity(const State grad_s[3], CeedScalar vorticity[3]) { 57940a33f2dSJames Wright CeedScalar grad_velocity[3][3]; 58040a33f2dSJames Wright VelocityGradient(grad_s, grad_velocity); 58140a33f2dSJames Wright Curl3(grad_velocity, vorticity); 58240a33f2dSJames Wright } 58340a33f2dSJames Wright 5842e7597b6SKenneth E. Jansen CEED_QFUNCTION_HELPER void StatePhysicalGradientFromReference(CeedInt Q, CeedInt i, NewtonianIdealGasContext gas, State s, StateVariable state_var, 5852e7597b6SKenneth E. Jansen const CeedScalar *grad_q, const CeedScalar dXdx[3][3], State grad_s[3]) { 58687bd45e7SJames Wright for (CeedInt k = 0; k < 3; k++) { 587edcfef1bSKenneth E. Jansen CeedScalar dqi[5]; 58887bd45e7SJames Wright for (CeedInt j = 0; j < 5; j++) { 58987bd45e7SJames Wright dqi[j] = 59087bd45e7SJames Wright grad_q[(Q * 5) * 0 + Q * j + i] * dXdx[0][k] + grad_q[(Q * 5) * 1 + Q * j + i] * dXdx[1][k] + grad_q[(Q * 5) * 2 + Q * j + i] * dXdx[2][k]; 59187bd45e7SJames Wright } 592edcfef1bSKenneth E. Jansen grad_s[k] = StateFromQ_fwd(gas, s, dqi, state_var); 59387bd45e7SJames Wright } 59487bd45e7SJames Wright } 59587bd45e7SJames Wright 59687bd45e7SJames Wright CEED_QFUNCTION_HELPER void StatePhysicalGradientFromReference_Boundary(CeedInt Q, CeedInt i, NewtonianIdealGasContext gas, State s, 5972e7597b6SKenneth E. Jansen StateVariable state_var, const CeedScalar *grad_q, const CeedScalar dXdx[2][3], 5982e7597b6SKenneth E. Jansen State grad_s[3]) { 59987bd45e7SJames Wright for (CeedInt k = 0; k < 3; k++) { 600edcfef1bSKenneth E. Jansen CeedScalar dqi[5]; 60187bd45e7SJames Wright for (CeedInt j = 0; j < 5; j++) { 60287bd45e7SJames Wright dqi[j] = grad_q[(Q * 5) * 0 + Q * j + i] * dXdx[0][k] + grad_q[(Q * 5) * 1 + Q * j + i] * dXdx[1][k]; 60387bd45e7SJames Wright } 604edcfef1bSKenneth E. Jansen grad_s[k] = StateFromQ_fwd(gas, s, dqi, state_var); 60587bd45e7SJames Wright } 60687bd45e7SJames Wright } 607