honee/qfunctions/newtonian_state.h

ae2b091fSJames Wright// SPDX-FileCopyrightText: Copyright (c) 2017-2024, HONEE contributors.
ae2b091fSJames Wright// SPDX-License-Identifier: Apache-2.0 OR BSD-2-Clause
475b2820SJames Wright
475b2820SJames Wright/// @file
475b2820SJames Wright/// Structs and helper functions regarding the state of a newtonian simulation
c7ece6efSJeremy L Thompson#pragma once
475b2820SJames Wright
3e17a7a1SJames Wright#include <ceed/types.h>
2b916ea7SJeremy L Thompson
475b2820SJames Wright#include "newtonian_types.h"
704b8bbeSJames Wright#include "utils.h"
475b2820SJames Wright
475b2820SJames Wrighttypedef struct {
475b2820SJames Wright  CeedScalar density;
475b2820SJames Wright  CeedScalar momentum[3];
475b2820SJames Wright  CeedScalar E_total;
475b2820SJames Wright} StateConservative;
475b2820SJames Wright
475b2820SJames Wrighttypedef struct {
475b2820SJames Wright  StateConservative U;
475b2820SJames Wright  StatePrimitive    Y;
475b2820SJames Wright} State;
475b2820SJames Wright
d1b9ef12SLeila GhaffariCEED_QFUNCTION_HELPER void UnpackState_U(StateConservative s, CeedScalar U[5]) {
d1b9ef12SLeila Ghaffari  U[0] = s.density;
d1b9ef12SLeila Ghaffari  for (int i = 0; i < 3; i++) U[i + 1] = s.momentum[i];
d1b9ef12SLeila Ghaffari  U[4] = s.E_total;
d1b9ef12SLeila Ghaffari}
d1b9ef12SLeila Ghaffari
d1b9ef12SLeila GhaffariCEED_QFUNCTION_HELPER void UnpackState_Y(StatePrimitive s, CeedScalar Y[5]) {
d1b9ef12SLeila Ghaffari  Y[0] = s.pressure;
d1b9ef12SLeila Ghaffari  for (int i = 0; i < 3; i++) Y[i + 1] = s.velocity[i];
d1b9ef12SLeila Ghaffari  Y[4] = s.temperature;
d1b9ef12SLeila Ghaffari}
d1b9ef12SLeila Ghaffari
c62f7daeSJames WrightCEED_QFUNCTION_HELPER void UnpackState_V(StateEntropy s, CeedScalar V[5]) {
c62f7daeSJames Wright  V[0] = s.S_density;
c62f7daeSJames Wright  for (int i = 0; i < 3; i++) V[i + 1] = s.S_momentum[i];
c62f7daeSJames Wright  V[4] = s.S_energy;
c62f7daeSJames Wright}
c62f7daeSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER CeedScalar HeatCapacityRatio(NewtonianIGProperties gas) { return gas.cp / gas.cv; }
e0d1a4dfSLeila Ghaffari
cde3d787SJames WrightCEED_QFUNCTION_HELPER CeedScalar GasConstant(NewtonianIGProperties gas) { return gas.cp - gas.cv; }
e0d1a4dfSLeila Ghaffari
cde3d787SJames WrightCEED_QFUNCTION_HELPER CeedScalar Prandtl(NewtonianIGProperties gas) { return gas.cp * gas.mu / gas.k; }
e0d1a4dfSLeila Ghaffari
cde3d787SJames WrightCEED_QFUNCTION_HELPER CeedScalar SoundSpeed(NewtonianIGProperties gas, CeedScalar T) { return sqrt(gas.cp * (HeatCapacityRatio(gas) - 1.) * T); }
e0d1a4dfSLeila Ghaffari
cde3d787SJames WrightCEED_QFUNCTION_HELPER CeedScalar Mach(NewtonianIGProperties gas, CeedScalar T, CeedScalar u) { return u / SoundSpeed(gas, T); }
e0d1a4dfSLeila Ghaffari
cde3d787SJames WrightCEED_QFUNCTION_HELPER CeedScalar TotalSpecificEnthalpy(NewtonianIGProperties gas, const State s) {
c50f56e5SJames Wright  CeedScalar e_kinetic  = 0.5 * Dot3(s.Y.velocity, s.Y.velocity);
cde3d787SJames Wright  CeedScalar e_internal = gas.cv * s.Y.temperature;
c50f56e5SJames Wright  return e_internal + e_kinetic + s.Y.pressure / s.U.density;
c50f56e5SJames Wright}
c50f56e5SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER CeedScalar TotalSpecificEnthalpy_fwd(NewtonianIGProperties gas, const State s, const State ds) {
c50f56e5SJames Wright  CeedScalar de_kinetic  = Dot3(ds.Y.velocity, s.Y.velocity);
cde3d787SJames Wright  CeedScalar de_internal = gas.cv * ds.Y.temperature;
2b916ea7SJeremy L Thompson  return de_internal + de_kinetic + ds.Y.pressure / s.U.density - s.Y.pressure / Square(s.U.density) * ds.U.density;
c50f56e5SJames Wright}
c50f56e5SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StatePrimitive StatePrimitiveFromConservative(NewtonianIGProperties gas, StateConservative U) {
475b2820SJames Wright  StatePrimitive Y;
475b2820SJames Wright  for (CeedInt i = 0; i < 3; i++) Y.velocity[i] = U.momentum[i] / U.density;
475b2820SJames Wright  CeedScalar e_kinetic  = .5 * Dot3(Y.velocity, Y.velocity);
475b2820SJames Wright  CeedScalar e_total    = U.E_total / U.density;
edcfef1bSKenneth E. Jansen  CeedScalar e_internal = e_total - e_kinetic;
cde3d787SJames Wright  Y.temperature         = e_internal / gas.cv;
e0d1a4dfSLeila Ghaffari  Y.pressure            = (HeatCapacityRatio(gas) - 1) * U.density * e_internal;
475b2820SJames Wright  return Y;
475b2820SJames Wright}
475b2820SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StatePrimitive StatePrimitiveFromConservative_fwd(NewtonianIGProperties gas, State s, StateConservative dU) {
475b2820SJames Wright  StatePrimitive dY;
475b2820SJames Wright  for (CeedInt i = 0; i < 3; i++) {
475b2820SJames Wright    dY.velocity[i] = (dU.momentum[i] - s.Y.velocity[i] * dU.density) / s.U.density;
475b2820SJames Wright  }
475b2820SJames Wright  CeedScalar e_kinetic   = .5 * Dot3(s.Y.velocity, s.Y.velocity);
475b2820SJames Wright  CeedScalar de_kinetic  = Dot3(dY.velocity, s.Y.velocity);
475b2820SJames Wright  CeedScalar e_total     = s.U.E_total / s.U.density;
475b2820SJames Wright  CeedScalar de_total    = (dU.E_total - e_total * dU.density) / s.U.density;
edcfef1bSKenneth E. Jansen  CeedScalar e_internal  = e_total - e_kinetic;
edcfef1bSKenneth E. Jansen  CeedScalar de_internal = de_total - de_kinetic;
cde3d787SJames Wright  dY.temperature         = de_internal / gas.cv;
2b916ea7SJeremy L Thompson  dY.pressure            = (HeatCapacityRatio(gas) - 1) * (dU.density * e_internal + s.U.density * de_internal);
475b2820SJames Wright  return dY;
475b2820SJames Wright}
475b2820SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StateEntropy StateEntropyFromPrimitive(NewtonianIGProperties gas, StatePrimitive Y) {
a6654c3eSJames Wright  StateEntropy     V;
a6654c3eSJames Wright  const CeedScalar gamma     = HeatCapacityRatio(gas);
a6654c3eSJames Wright  const CeedScalar rho       = Y.pressure / (GasConstant(gas) * Y.temperature);
a6654c3eSJames Wright  const CeedScalar entropy   = log(Y.pressure) - gamma * log(rho);
a6654c3eSJames Wright  const CeedScalar rho_div_p = rho / Y.pressure;
a6654c3eSJames Wright  const CeedScalar e_kinetic = 0.5 * Dot3(Y.velocity, Y.velocity);
a6654c3eSJames Wright
a6654c3eSJames Wright  V.S_density = (gamma - entropy) / (gamma - 1) - rho_div_p * e_kinetic;
a6654c3eSJames Wright  for (int i = 0; i < 3; i++) V.S_momentum[i] = rho_div_p * Y.velocity[i];
a6654c3eSJames Wright  V.S_energy = -rho_div_p;
a6654c3eSJames Wright  return V;
a6654c3eSJames Wright}
a6654c3eSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StateEntropy StateEntropyFromPrimitive_fwd(NewtonianIGProperties gas, State s, StatePrimitive dY) {
a6654c3eSJames Wright  StateEntropy     dV;
a6654c3eSJames Wright  const CeedScalar gamma = HeatCapacityRatio(gas);
a6654c3eSJames Wright  CeedScalar       drho  = (dY.pressure * s.Y.temperature - s.Y.pressure * dY.temperature) / (GasConstant(gas) * s.Y.temperature * s.Y.temperature);
a6654c3eSJames Wright
a6654c3eSJames Wright  const CeedScalar e_kinetic  = .5 * Dot3(s.Y.velocity, s.Y.velocity);
a6654c3eSJames Wright  const CeedScalar de_kinetic = Dot3(dY.velocity, s.Y.velocity);
a6654c3eSJames Wright  const CeedScalar rho_div_p  = s.U.density / s.Y.pressure;
a6654c3eSJames Wright  const CeedScalar drho_div_p = (drho * s.Y.pressure - s.U.density * dY.pressure) / Square(s.Y.pressure);
a6654c3eSJames Wright
a6654c3eSJames Wright  CeedScalar dentropy = dY.pressure / s.Y.pressure - gamma * drho / s.U.density;
a6654c3eSJames Wright
a6654c3eSJames Wright  dV.S_density = -dentropy / (gamma - 1) - de_kinetic * rho_div_p - e_kinetic * drho_div_p;
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];
a6654c3eSJames Wright  dV.S_energy = -drho_div_p;
a6654c3eSJames Wright  return dV;
a6654c3eSJames Wright}
a6654c3eSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StatePrimitive StatePrimitiveFromEntropy(NewtonianIGProperties gas, StateEntropy V) {
a6654c3eSJames Wright  StatePrimitive Y;
a6654c3eSJames Wright  for (int i = 0; i < 3; i++) Y.velocity[i] = -V.S_momentum[i] / V.S_energy;
a6654c3eSJames Wright  Y.temperature              = -1 / (GasConstant(gas) * V.S_energy);
a6654c3eSJames Wright  const CeedScalar gamma     = HeatCapacityRatio(gas);
a6654c3eSJames Wright  const CeedScalar e_kinetic = 0.5 * Dot3(Y.velocity, Y.velocity);
a6654c3eSJames Wright  const CeedScalar entropy   = gamma - (gamma - 1) * (V.S_density - e_kinetic * V.S_energy);
a6654c3eSJames Wright  const CeedScalar log_P     = -(entropy + gamma * log(-V.S_energy)) / (gamma - 1);
a6654c3eSJames Wright  Y.pressure                 = exp(log_P);
a6654c3eSJames Wright  return Y;
a6654c3eSJames Wright}
a6654c3eSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StatePrimitive StatePrimitiveFromEntropy_fwd(NewtonianIGProperties gas, State s, StateEntropy dV) {
a6654c3eSJames Wright  StatePrimitive dY;
a6654c3eSJames Wright  StateEntropy   V = StateEntropyFromPrimitive(gas, s.Y);
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;
a6654c3eSJames Wright  dY.temperature              = dV.S_energy / (GasConstant(gas) * V.S_energy * V.S_energy);
a6654c3eSJames Wright  const CeedScalar gamma      = HeatCapacityRatio(gas);
a6654c3eSJames Wright  const CeedScalar e_kinetic  = 0.5 * Dot3(s.Y.velocity, s.Y.velocity);
a6654c3eSJames Wright  const CeedScalar de_kinetic = Dot3(dY.velocity, s.Y.velocity);
a6654c3eSJames Wright  const CeedScalar dentropy   = (1 - gamma) * (dV.S_density - e_kinetic * dV.S_energy - de_kinetic * V.S_energy);
a6654c3eSJames Wright  dY.pressure                 = s.Y.pressure * (-dentropy - gamma * dV.S_energy / V.S_energy) / (gamma - 1);
a6654c3eSJames Wright  return dY;
a6654c3eSJames Wright}
a6654c3eSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StateConservative StateConservativeFromPrimitive(NewtonianIGProperties gas, StatePrimitive Y) {
cbe60e31SLeila Ghaffari  StateConservative U;
e0d1a4dfSLeila Ghaffari  U.density = Y.pressure / (GasConstant(gas) * Y.temperature);
cbe60e31SLeila Ghaffari  for (int i = 0; i < 3; i++) U.momentum[i] = U.density * Y.velocity[i];
cde3d787SJames Wright  CeedScalar e_internal = gas.cv * Y.temperature;
cbe60e31SLeila Ghaffari  CeedScalar e_kinetic  = .5 * Dot3(Y.velocity, Y.velocity);
edcfef1bSKenneth E. Jansen  CeedScalar e_total    = e_internal + e_kinetic;
cbe60e31SLeila Ghaffari  U.E_total             = U.density * e_total;
cbe60e31SLeila Ghaffari  return U;
cbe60e31SLeila Ghaffari}
cbe60e31SLeila Ghaffari
cde3d787SJames WrightCEED_QFUNCTION_HELPER StateConservative StateConservativeFromPrimitive_fwd(NewtonianIGProperties gas, State s, StatePrimitive dY) {
cbe60e31SLeila Ghaffari  StateConservative dU;
2b916ea7SJeremy L Thompson  dU.density = (dY.pressure * s.Y.temperature - s.Y.pressure * dY.temperature) / (GasConstant(gas) * s.Y.temperature * s.Y.temperature);
cbe60e31SLeila Ghaffari  for (int i = 0; i < 3; i++) {
cbe60e31SLeila Ghaffari    dU.momentum[i] = dU.density * s.Y.velocity[i] + s.U.density * dY.velocity[i];
cbe60e31SLeila Ghaffari  }
cbe60e31SLeila Ghaffari  CeedScalar e_kinetic   = .5 * Dot3(s.Y.velocity, s.Y.velocity);
cbe60e31SLeila Ghaffari  CeedScalar de_kinetic  = Dot3(dY.velocity, s.Y.velocity);
cde3d787SJames Wright  CeedScalar e_internal  = gas.cv * s.Y.temperature;
cde3d787SJames Wright  CeedScalar de_internal = gas.cv * dY.temperature;
edcfef1bSKenneth E. Jansen  CeedScalar e_total     = e_internal + e_kinetic;
edcfef1bSKenneth E. Jansen  CeedScalar de_total    = de_internal + de_kinetic;
cbe60e31SLeila Ghaffari  dU.E_total             = dU.density * e_total + s.U.density * de_total;
cbe60e31SLeila Ghaffari  return dU;
cbe60e31SLeila Ghaffari}
cbe60e31SLeila Ghaffari
cde3d787SJames WrightCEED_QFUNCTION_HELPER StateEntropy StateEntropyFromConservative(NewtonianIGProperties gas, StateConservative U) {
c62f7daeSJames Wright  StateEntropy     V;
c62f7daeSJames Wright  const CeedScalar gamma      = HeatCapacityRatio(gas);
c62f7daeSJames Wright  const CeedScalar e_kinetic  = .5 * Dot3(U.momentum, U.momentum) / U.density;
c62f7daeSJames Wright  const CeedScalar e_internal = U.E_total - e_kinetic;
c62f7daeSJames Wright  const CeedScalar p          = (gamma - 1) * e_internal;
c62f7daeSJames Wright  const CeedScalar entropy    = log(p) - gamma * log(U.density);
c62f7daeSJames Wright
c62f7daeSJames Wright  V.S_density = (gamma - entropy) / (gamma - 1) - e_kinetic / p;
c62f7daeSJames Wright  for (int i = 0; i < 3; i++) V.S_momentum[i] = U.momentum[i] / p;
c62f7daeSJames Wright  V.S_energy = -U.density / p;
c62f7daeSJames Wright  return V;
c62f7daeSJames Wright}
c62f7daeSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StateEntropy StateEntropyFromConservative_fwd(NewtonianIGProperties gas, State s, StateConservative dU) {
c62f7daeSJames Wright  StateEntropy     dV;
c62f7daeSJames Wright  const CeedScalar gamma       = HeatCapacityRatio(gas);
c62f7daeSJames Wright  const CeedScalar e_kinetic   = .5 * Dot3(s.U.momentum, s.U.momentum) / s.U.density;
c62f7daeSJames Wright  const CeedScalar de_kinetic  = (Dot3(s.U.momentum, dU.momentum) - e_kinetic * dU.density) / s.U.density;
c62f7daeSJames Wright  const CeedScalar de_internal = dU.E_total - de_kinetic;
c62f7daeSJames Wright  const CeedScalar p           = s.Y.pressure;
c62f7daeSJames Wright  const CeedScalar dp          = (gamma - 1) * de_internal;
c62f7daeSJames Wright
c62f7daeSJames Wright  CeedScalar dentropy = dp / p - gamma * dU.density / s.U.density;
c62f7daeSJames Wright
c62f7daeSJames Wright  dV.S_density = -dentropy / (gamma - 1) - de_kinetic / p + dp * e_kinetic / Square(p);
c62f7daeSJames Wright  for (CeedInt i = 0; i < 3; i++) {
c62f7daeSJames Wright    dV.S_momentum[i] = (dU.momentum[i] - s.U.momentum[i] * dp / p) / p;
c62f7daeSJames Wright  }
c62f7daeSJames Wright  dV.S_energy = -(dU.density - s.U.density * dp / p) / p;
c62f7daeSJames Wright  return dV;
c62f7daeSJames Wright}
c62f7daeSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StateConservative StateConservativeFromEntropy(NewtonianIGProperties gas, StateEntropy V) {
c62f7daeSJames Wright  StateConservative U;
c62f7daeSJames Wright  CeedScalar        velocity[3];
c62f7daeSJames Wright  for (int i = 0; i < 3; i++) velocity[i] = -V.S_momentum[i] / V.S_energy;
c62f7daeSJames Wright  const CeedScalar gamma     = HeatCapacityRatio(gas);
c62f7daeSJames Wright  const CeedScalar e_kinetic = 0.5 * Dot3(velocity, velocity);
c62f7daeSJames Wright  const CeedScalar entropy   = gamma - (gamma - 1) * (V.S_density - e_kinetic * V.S_energy);
c62f7daeSJames Wright  const CeedScalar log_rho   = -(entropy + log(-V.S_energy)) / (gamma - 1);
c62f7daeSJames Wright  U.density                  = exp(log_rho);
c62f7daeSJames Wright  for (int i = 0; i < 3; i++) U.momentum[i] = U.density * velocity[i];
c62f7daeSJames Wright
cde3d787SJames Wright  const CeedScalar e_internal = -gas.cv / (GasConstant(gas) * V.S_energy);
c62f7daeSJames Wright  U.E_total                   = U.density * (e_internal + e_kinetic);
c62f7daeSJames Wright  return U;
c62f7daeSJames Wright}
c62f7daeSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StateConservative StateConservativeFromEntropy_fwd(NewtonianIGProperties gas, State s, StateEntropy dV) {
c62f7daeSJames Wright  StateConservative dU;
c62f7daeSJames Wright  CeedScalar        dvelocity[3];
a6654c3eSJames Wright  StateEntropy      V = StateEntropyFromPrimitive(gas, s.Y);
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;
c62f7daeSJames Wright  const CeedScalar gamma      = HeatCapacityRatio(gas);
c62f7daeSJames Wright  const CeedScalar e_kinetic  = 0.5 * Dot3(s.Y.velocity, s.Y.velocity);
c62f7daeSJames Wright  const CeedScalar de_kinetic = Dot3(dvelocity, s.Y.velocity);
a6654c3eSJames Wright  const CeedScalar entropy    = gamma - (gamma - 1) * (V.S_density - e_kinetic * V.S_energy);
a6654c3eSJames Wright  const CeedScalar dentropy   = -(gamma - 1) * (dV.S_density - (de_kinetic * V.S_energy + e_kinetic * dV.S_energy));
a6654c3eSJames Wright  const CeedScalar log_rho    = -(entropy + log(-V.S_energy)) / (gamma - 1);
c62f7daeSJames Wright  const CeedScalar rho        = exp(log_rho);
a6654c3eSJames Wright  dU.density                  = -rho / (gamma - 1) * (dentropy + dV.S_energy / V.S_energy);
c62f7daeSJames Wright  for (int i = 0; i < 3; i++) dU.momentum[i] = dU.density * s.Y.velocity[i] + s.U.density * dvelocity[i];
c62f7daeSJames Wright
cde3d787SJames Wright  const CeedScalar e_internal  = -gas.cv / (GasConstant(gas) * V.S_energy);
cde3d787SJames Wright  const CeedScalar de_internal = gas.cv * dV.S_energy / (GasConstant(gas) * V.S_energy * V.S_energy);
c62f7daeSJames Wright  const CeedScalar e_total     = e_internal + e_kinetic;
c62f7daeSJames Wright  dU.E_total                   = dU.density * e_total + s.U.density * (de_internal + de_kinetic);
c62f7daeSJames Wright  return dU;
c62f7daeSJames Wright}
c62f7daeSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER State StateFromPrimitive(NewtonianIGProperties gas, StatePrimitive Y) {
edcfef1bSKenneth E. Jansen  StateConservative U = StateConservativeFromPrimitive(gas, Y);
b8fb7609SAdeleke O. Bankole  State             s;
b8fb7609SAdeleke O. Bankole  s.U = U;
b8fb7609SAdeleke O. Bankole  s.Y = Y;
b8fb7609SAdeleke O. Bankole  return s;
b8fb7609SAdeleke O. Bankole}
b8fb7609SAdeleke O. Bankole
cde3d787SJames WrightCEED_QFUNCTION_HELPER State StateFromPrimitive_fwd(NewtonianIGProperties gas, State s, StatePrimitive dY) {
edcfef1bSKenneth E. Jansen  StateConservative dU = StateConservativeFromPrimitive_fwd(gas, s, dY);
c8c30d87SJed Brown  State             ds;
c8c30d87SJed Brown  ds.U = dU;
c8c30d87SJed Brown  ds.Y = dY;
c8c30d87SJed Brown  return ds;
c8c30d87SJed Brown}
c8c30d87SJed Brown
c2c93676SJed Brown// linear combination of n states
c2c93676SJed BrownCEED_QFUNCTION_HELPER StateConservative StateConservativeMult(CeedInt n, const CeedScalar a[], const StateConservative X[]) {
c2c93676SJed Brown  StateConservative R = {0};
c2c93676SJed Brown  for (CeedInt i = 0; i < n; i++) {
c2c93676SJed Brown    R.density += a[i] * X[i].density;
c2c93676SJed Brown    for (int j = 0; j < 3; j++) R.momentum[j] += a[i] * X[i].momentum[j];
c2c93676SJed Brown    R.E_total += a[i] * X[i].E_total;
c2c93676SJed Brown  }
dbb62a19SJed Brown  return R;
dbb62a19SJed Brown}
dbb62a19SJed Brown
dbb62a19SJed BrownCEED_QFUNCTION_HELPER StateConservative StateConservativeAXPBYPCZ(CeedScalar a, StateConservative X, CeedScalar b, StateConservative Y, CeedScalar c,
dbb62a19SJed Brown                                                                  StateConservative Z) {
dbb62a19SJed Brown  StateConservative R;
dbb62a19SJed Brown  R.density = a * X.density + b * Y.density + c * Z.density;
dbb62a19SJed Brown  for (int i = 0; i < 3; i++) R.momentum[i] = a * X.momentum[i] + b * Y.momentum[i] + c * Z.momentum[i];
dbb62a19SJed Brown  R.E_total = a * X.E_total + b * Y.E_total + c * Z.E_total;
dbb62a19SJed Brown  return R;
dbb62a19SJed Brown}
dbb62a19SJed Brown
cde3d787SJames WrightCEED_QFUNCTION_HELPER void StateToU(NewtonianIGProperties gas, const State input, CeedScalar U[5]) { UnpackState_U(input.U, U); }
b8fb7609SAdeleke O. Bankole
cde3d787SJames WrightCEED_QFUNCTION_HELPER void StateToY(NewtonianIGProperties gas, const State input, CeedScalar Y[5]) { UnpackState_Y(input.Y, Y); }
a8bca8acSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void StateToV(NewtonianIGProperties gas, const State input, CeedScalar V[5]) {
a6654c3eSJames Wright  StateEntropy state_V = StateEntropyFromPrimitive(gas, input.Y);
a6654c3eSJames Wright  UnpackState_V(state_V, V);
a6654c3eSJames Wright}
c62f7daeSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void StateToQ(NewtonianIGProperties gas, const State input, CeedScalar Q[5], StateVariable state_var) {
8fff8293SJames Wright  switch (state_var) {
8fff8293SJames Wright    case STATEVAR_CONSERVATIVE:
8fff8293SJames Wright      StateToU(gas, input, Q);
8fff8293SJames Wright      break;
8fff8293SJames Wright    case STATEVAR_PRIMITIVE:
8fff8293SJames Wright      StateToY(gas, input, Q);
8fff8293SJames Wright      break;
c62f7daeSJames Wright    case STATEVAR_ENTROPY:
c62f7daeSJames Wright      StateToV(gas, input, Q);
c62f7daeSJames Wright      break;
30ff0608SJames Wright    default:
30ff0608SJames Wright      SetValueN(Q, -1, 5);
30ff0608SJames Wright      break;
8fff8293SJames Wright  }
8fff8293SJames Wright}
d4559bbeSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void StateToQ_fwd(NewtonianIGProperties gas, const State input, const State dinput, CeedScalar dQ[5], StateVariable state_var) {
a6654c3eSJames Wright  switch (state_var) {
a6654c3eSJames Wright    case STATEVAR_CONSERVATIVE:
a6654c3eSJames Wright    case STATEVAR_PRIMITIVE:
a6654c3eSJames Wright      StateToQ(gas, dinput, dQ, state_var);
a6654c3eSJames Wright      break;
a6654c3eSJames Wright    case STATEVAR_ENTROPY: {
a6654c3eSJames Wright      StateEntropy dstate_v;
a6654c3eSJames Wright
a6654c3eSJames Wright      dstate_v = StateEntropyFromPrimitive_fwd(gas, input, dinput.Y);
a6654c3eSJames Wright      UnpackState_V(dstate_v, dQ);
a6654c3eSJames Wright    } break;
a6654c3eSJames Wright  }
a6654c3eSJames Wright}
a6654c3eSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER State StateFromU(NewtonianIGProperties gas, const CeedScalar U[5]) {
475b2820SJames Wright  State s;
475b2820SJames Wright  s.U.density     = U[0];
475b2820SJames Wright  s.U.momentum[0] = U[1];
475b2820SJames Wright  s.U.momentum[1] = U[2];
475b2820SJames Wright  s.U.momentum[2] = U[3];
475b2820SJames Wright  s.U.E_total     = U[4];
edcfef1bSKenneth E. Jansen  s.Y             = StatePrimitiveFromConservative(gas, s.U);
475b2820SJames Wright  return s;
475b2820SJames Wright}
475b2820SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER State StateFromU_fwd(NewtonianIGProperties gas, State s, const CeedScalar dU[5]) {
475b2820SJames Wright  State ds;
475b2820SJames Wright  ds.U.density     = dU[0];
475b2820SJames Wright  ds.U.momentum[0] = dU[1];
475b2820SJames Wright  ds.U.momentum[1] = dU[2];
475b2820SJames Wright  ds.U.momentum[2] = dU[3];
475b2820SJames Wright  ds.U.E_total     = dU[4];
edcfef1bSKenneth E. Jansen  ds.Y             = StatePrimitiveFromConservative_fwd(gas, s, ds.U);
475b2820SJames Wright  return ds;
475b2820SJames Wright}
475b2820SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER State StateFromY(NewtonianIGProperties gas, const CeedScalar Y[5]) {
cbe60e31SLeila Ghaffari  State s;
cbe60e31SLeila Ghaffari  s.Y.pressure    = Y[0];
cbe60e31SLeila Ghaffari  s.Y.velocity[0] = Y[1];
cbe60e31SLeila Ghaffari  s.Y.velocity[1] = Y[2];
cbe60e31SLeila Ghaffari  s.Y.velocity[2] = Y[3];
cbe60e31SLeila Ghaffari  s.Y.temperature = Y[4];
edcfef1bSKenneth E. Jansen  s.U             = StateConservativeFromPrimitive(gas, s.Y);
cbe60e31SLeila Ghaffari  return s;
cbe60e31SLeila Ghaffari}
cbe60e31SLeila Ghaffari
cde3d787SJames WrightCEED_QFUNCTION_HELPER State StateFromY_fwd(NewtonianIGProperties gas, State s, const CeedScalar dY[5]) {
cbe60e31SLeila Ghaffari  State ds;
cbe60e31SLeila Ghaffari  ds.Y.pressure    = dY[0];
cbe60e31SLeila Ghaffari  ds.Y.velocity[0] = dY[1];
cbe60e31SLeila Ghaffari  ds.Y.velocity[1] = dY[2];
cbe60e31SLeila Ghaffari  ds.Y.velocity[2] = dY[3];
cbe60e31SLeila Ghaffari  ds.Y.temperature = dY[4];
edcfef1bSKenneth E. Jansen  ds.U             = StateConservativeFromPrimitive_fwd(gas, s, ds.Y);
c62f7daeSJames Wright  return ds;
c62f7daeSJames Wright}
c62f7daeSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER State StateFromV(NewtonianIGProperties gas, const CeedScalar V[5]) {
c62f7daeSJames Wright  State        s;
a6654c3eSJames Wright  StateEntropy state_V;
a6654c3eSJames Wright  state_V.S_density     = V[0];
a6654c3eSJames Wright  state_V.S_momentum[0] = V[1];
a6654c3eSJames Wright  state_V.S_momentum[1] = V[2];
a6654c3eSJames Wright  state_V.S_momentum[2] = V[3];
a6654c3eSJames Wright  state_V.S_energy      = V[4];
a6654c3eSJames Wright  s.U                   = StateConservativeFromEntropy(gas, state_V);
a6654c3eSJames Wright  s.Y                   = StatePrimitiveFromEntropy(gas, state_V);
c62f7daeSJames Wright  return s;
c62f7daeSJames Wright}
c62f7daeSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER State StateFromV_fwd(NewtonianIGProperties gas, State s, const CeedScalar dV[5]) {
c62f7daeSJames Wright  State        ds;
a6654c3eSJames Wright  StateEntropy state_dV;
a6654c3eSJames Wright  state_dV.S_density     = dV[0];
a6654c3eSJames Wright  state_dV.S_momentum[0] = dV[1];
a6654c3eSJames Wright  state_dV.S_momentum[1] = dV[2];
a6654c3eSJames Wright  state_dV.S_momentum[2] = dV[3];
a6654c3eSJames Wright  state_dV.S_energy      = dV[4];
a6654c3eSJames Wright  ds.U                   = StateConservativeFromEntropy_fwd(gas, s, state_dV);
a6654c3eSJames Wright  ds.Y                   = StatePrimitiveFromEntropy_fwd(gas, s, state_dV);
cbe60e31SLeila Ghaffari  return ds;
cbe60e31SLeila Ghaffari}
cbe60e31SLeila Ghaffari
cde3d787SJames WrightCEED_QFUNCTION_HELPER State StateFromQ(NewtonianIGProperties gas, const CeedScalar Q[5], StateVariable state_var) {
8fff8293SJames Wright  State s;
8fff8293SJames Wright  switch (state_var) {
8fff8293SJames Wright    case STATEVAR_CONSERVATIVE:
edcfef1bSKenneth E. Jansen      s = StateFromU(gas, Q);
8fff8293SJames Wright      break;
8fff8293SJames Wright    case STATEVAR_PRIMITIVE:
edcfef1bSKenneth E. Jansen      s = StateFromY(gas, Q);
8fff8293SJames Wright      break;
c62f7daeSJames Wright    case STATEVAR_ENTROPY:
c62f7daeSJames Wright      s = StateFromV(gas, Q);
c62f7daeSJames Wright      break;
8fff8293SJames Wright  }
8fff8293SJames Wright  return s;
8fff8293SJames Wright}
8fff8293SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER State StateFromQ_fwd(NewtonianIGProperties gas, State s, const CeedScalar dQ[5], StateVariable state_var) {
8fff8293SJames Wright  State ds;
8fff8293SJames Wright  switch (state_var) {
8fff8293SJames Wright    case STATEVAR_CONSERVATIVE:
edcfef1bSKenneth E. Jansen      ds = StateFromU_fwd(gas, s, dQ);
8fff8293SJames Wright      break;
8fff8293SJames Wright    case STATEVAR_PRIMITIVE:
edcfef1bSKenneth E. Jansen      ds = StateFromY_fwd(gas, s, dQ);
8fff8293SJames Wright      break;
c62f7daeSJames Wright    case STATEVAR_ENTROPY:
c62f7daeSJames Wright      ds = StateFromV_fwd(gas, s, dQ);
c62f7daeSJames Wright      break;
8fff8293SJames Wright  }
8fff8293SJames Wright  return ds;
8fff8293SJames Wright}
8fff8293SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void FluxInviscid(const NewtonianIGProperties gas, const State s, StateConservative Flux[3]) {
475b2820SJames Wright  for (CeedInt i = 0; i < 3; i++) {
475b2820SJames Wright    Flux[i].density = s.U.momentum[i];
2b916ea7SJeremy 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);
475b2820SJames Wright    Flux[i].E_total = (s.U.E_total + s.Y.pressure) * s.Y.velocity[i];
475b2820SJames Wright  }
475b2820SJames Wright}
475b2820SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void FluxInviscid_fwd(const NewtonianIGProperties gas, const State s, const State ds, StateConservative dFlux[3]) {
c50f56e5SJames Wright  for (CeedInt i = 0; i < 3; i++) {
c50f56e5SJames Wright    dFlux[i].density = ds.U.momentum[i];
2b916ea7SJeremy L Thompson    for (CeedInt j = 0; j < 3; j++) {
2b916ea7SJeremy 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);
2b916ea7SJeremy L Thompson    }
2b916ea7SJeremy 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];
c50f56e5SJames Wright  }
c50f56e5SJames Wright}
c50f56e5SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER StateConservative FluxInviscidDotNormal(const NewtonianIGProperties gas, const State s, const CeedScalar normal[3]) {
7b530f2aSAdelekeBankole  StateConservative Flux[3], Flux_dot_n = {0};
7b530f2aSAdelekeBankole  FluxInviscid(gas, s, Flux);
7b530f2aSAdelekeBankole  for (CeedInt i = 0; i < 3; i++) {
7b530f2aSAdelekeBankole    Flux_dot_n.density += Flux[i].density * normal[i];
2b916ea7SJeremy L Thompson    for (CeedInt j = 0; j < 3; j++) Flux_dot_n.momentum[j] += Flux[i].momentum[j] * normal[i];
7b530f2aSAdelekeBankole    Flux_dot_n.E_total += Flux[i].E_total * normal[i];
7b530f2aSAdelekeBankole  }
7b530f2aSAdelekeBankole  return Flux_dot_n;
7b530f2aSAdelekeBankole}
7b530f2aSAdelekeBankole
cde3d787SJames WrightCEED_QFUNCTION_HELPER StateConservative FluxInviscidDotNormal_fwd(const NewtonianIGProperties gas, const State s, const State ds,
7e084dbeSJames Wright                                                                  const CeedScalar normal[3]) {
c50f56e5SJames Wright  StateConservative dFlux[3], Flux_dot_n = {0};
c50f56e5SJames Wright  FluxInviscid_fwd(gas, s, ds, dFlux);
475b2820SJames Wright  for (CeedInt i = 0; i < 3; i++) {
c50f56e5SJames Wright    Flux_dot_n.density += dFlux[i].density * normal[i];
2b916ea7SJeremy L Thompson    for (CeedInt j = 0; j < 3; j++) Flux_dot_n.momentum[j] += dFlux[i].momentum[j] * normal[i];
c50f56e5SJames Wright    Flux_dot_n.E_total += dFlux[i].E_total * normal[i];
475b2820SJames Wright  }
c50f56e5SJames Wright  return Flux_dot_n;
475b2820SJames Wright}
475b2820SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void FluxInviscidStrong(const NewtonianIGProperties gas, const State s, const State ds[3], CeedScalar strong_conv[5]) {
d1b9ef12SLeila Ghaffari  for (CeedInt i = 0; i < 5; i++) strong_conv[i] = 0;
d1b9ef12SLeila Ghaffari  for (CeedInt i = 0; i < 3; i++) {
d1b9ef12SLeila Ghaffari    StateConservative dF[3];
d1b9ef12SLeila Ghaffari    FluxInviscid_fwd(gas, s, ds[i], dF);
d1b9ef12SLeila Ghaffari    CeedScalar dF_i[5];
d1b9ef12SLeila Ghaffari    UnpackState_U(dF[i], dF_i);
2b916ea7SJeremy L Thompson    for (CeedInt j = 0; j < 5; j++) strong_conv[j] += dF_i[j];
d1b9ef12SLeila Ghaffari  }
d1b9ef12SLeila Ghaffari}
d1b9ef12SLeila Ghaffari
7e084dbeSJames WrightCEED_QFUNCTION_HELPER void FluxTotal(const StateConservative F_inviscid[3], const CeedScalar stress[3][3], const CeedScalar Fe[3],
7e084dbeSJames Wright                                     CeedScalar Flux[5][3]) {
d1b9ef12SLeila Ghaffari  for (CeedInt j = 0; j < 3; j++) {
d1b9ef12SLeila Ghaffari    Flux[0][j] = F_inviscid[j].density;
2b916ea7SJeremy L Thompson    for (CeedInt k = 0; k < 3; k++) Flux[k + 1][j] = F_inviscid[j].momentum[k] - stress[k][j];
d1b9ef12SLeila Ghaffari    Flux[4][j] = F_inviscid[j].E_total + Fe[j];
d1b9ef12SLeila Ghaffari  }
d1b9ef12SLeila Ghaffari}
d1b9ef12SLeila Ghaffari
2b916ea7SJeremy L ThompsonCEED_QFUNCTION_HELPER void FluxTotal_Boundary(const StateConservative F_inviscid[3], const CeedScalar stress[3][3], const CeedScalar Fe[3],
2b916ea7SJeremy L Thompson                                              const CeedScalar normal[3], CeedScalar Flux[5]) {
c5740391SJames Wright  for (CeedInt j = 0; j < 5; j++) Flux[j] = 0.;
c5740391SJames Wright  for (CeedInt j = 0; j < 3; j++) {
c5740391SJames Wright    Flux[0] += F_inviscid[j].density * normal[j];
c5740391SJames Wright    for (CeedInt k = 0; k < 3; k++) {
c5740391SJames Wright      Flux[k + 1] += (F_inviscid[j].momentum[k] - stress[k][j]) * normal[j];
c5740391SJames Wright    }
c5740391SJames Wright    Flux[4] += (F_inviscid[j].E_total + Fe[j]) * normal[j];
c5740391SJames Wright  }
c5740391SJames Wright}
c5740391SJames Wright
c8c30d87SJed BrownCEED_QFUNCTION_HELPER void FluxTotal_RiemannBoundary(const StateConservative F_inviscid_normal, const CeedScalar stress[3][3], const CeedScalar Fe[3],
c8c30d87SJed Brown                                                     const CeedScalar normal[3], CeedScalar Flux[5]) {
c8c30d87SJed Brown  Flux[0] = F_inviscid_normal.density;
c8c30d87SJed Brown  for (CeedInt k = 0; k < 3; k++) Flux[k + 1] = F_inviscid_normal.momentum[k];
c8c30d87SJed Brown  Flux[4] = F_inviscid_normal.E_total;
c8c30d87SJed Brown  for (CeedInt j = 0; j < 3; j++) {
c8c30d87SJed Brown    for (CeedInt k = 0; k < 3; k++) {
c8c30d87SJed Brown      Flux[k + 1] -= stress[k][j] * normal[j];
c8c30d87SJed Brown    }
c8c30d87SJed Brown    Flux[4] += Fe[j] * normal[j];
c8c30d87SJed Brown  }
c8c30d87SJed Brown}
c8c30d87SJed Brown
40a33f2dSJames WrightCEED_QFUNCTION_HELPER void VelocityGradient(const State grad_s[3], CeedScalar grad_velocity[3][3]) {
40a33f2dSJames Wright  grad_velocity[0][0] = grad_s[0].Y.velocity[0];
40a33f2dSJames Wright  grad_velocity[0][1] = grad_s[1].Y.velocity[0];
40a33f2dSJames Wright  grad_velocity[0][2] = grad_s[2].Y.velocity[0];
40a33f2dSJames Wright  grad_velocity[1][0] = grad_s[0].Y.velocity[1];
40a33f2dSJames Wright  grad_velocity[1][1] = grad_s[1].Y.velocity[1];
40a33f2dSJames Wright  grad_velocity[1][2] = grad_s[2].Y.velocity[1];
40a33f2dSJames Wright  grad_velocity[2][0] = grad_s[0].Y.velocity[2];
40a33f2dSJames Wright  grad_velocity[2][1] = grad_s[1].Y.velocity[2];
40a33f2dSJames Wright  grad_velocity[2][2] = grad_s[2].Y.velocity[2];
40a33f2dSJames Wright}
40a33f2dSJames Wright
40a33f2dSJames WrightCEED_QFUNCTION_HELPER void KMStrainRate(const CeedScalar grad_velocity[3][3], CeedScalar strain_rate[6]) {
40a33f2dSJames Wright  const CeedScalar weight = 1 / sqrt(2.);  // Really sqrt(2.) / 2
40a33f2dSJames Wright  strain_rate[0]          = grad_velocity[0][0];
40a33f2dSJames Wright  strain_rate[1]          = grad_velocity[1][1];
40a33f2dSJames Wright  strain_rate[2]          = grad_velocity[2][2];
40a33f2dSJames Wright  strain_rate[3]          = weight * (grad_velocity[1][2] + grad_velocity[2][1]);
40a33f2dSJames Wright  strain_rate[4]          = weight * (grad_velocity[0][2] + grad_velocity[2][0]);
40a33f2dSJames Wright  strain_rate[5]          = weight * (grad_velocity[0][1] + grad_velocity[1][0]);
40a33f2dSJames Wright}
40a33f2dSJames Wright
475b2820SJames Wright// Kelvin-Mandel notation
40a33f2dSJames WrightCEED_QFUNCTION_HELPER void KMStrainRate_State(const State grad_s[3], CeedScalar strain_rate[6]) {
40a33f2dSJames Wright  CeedScalar grad_velocity[3][3];
40a33f2dSJames Wright  VelocityGradient(grad_s, grad_velocity);
40a33f2dSJames Wright  KMStrainRate(grad_velocity, strain_rate);
40a33f2dSJames Wright}
40a33f2dSJames Wright
f6ac214eSJames Wright//@brief Given velocity gradient du_i/dx_j, return 0.5*(du_i/dx_j - du_j/dx_i)
40a33f2dSJames WrightCEED_QFUNCTION_HELPER void RotationRate(const CeedScalar grad_velocity[3][3], CeedScalar rotation_rate[3][3]) {
40a33f2dSJames Wright  rotation_rate[0][0] = 0;
40a33f2dSJames Wright  rotation_rate[1][1] = 0;
40a33f2dSJames Wright  rotation_rate[2][2] = 0;
40a33f2dSJames Wright  rotation_rate[1][2] = 0.5 * (grad_velocity[1][2] - grad_velocity[2][1]);
40a33f2dSJames Wright  rotation_rate[0][2] = 0.5 * (grad_velocity[0][2] - grad_velocity[2][0]);
40a33f2dSJames Wright  rotation_rate[0][1] = 0.5 * (grad_velocity[0][1] - grad_velocity[1][0]);
40a33f2dSJames Wright  rotation_rate[2][1] = -rotation_rate[1][2];
40a33f2dSJames Wright  rotation_rate[2][0] = -rotation_rate[0][2];
40a33f2dSJames Wright  rotation_rate[1][0] = -rotation_rate[0][1];
475b2820SJames Wright}
475b2820SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void NewtonianStress(NewtonianIGProperties gas, const CeedScalar strain_rate[6], CeedScalar stress[6]) {
475b2820SJames Wright  CeedScalar div_u = strain_rate[0] + strain_rate[1] + strain_rate[2];
475b2820SJames Wright  for (CeedInt i = 0; i < 6; i++) {
cde3d787SJames Wright    stress[i] = gas.mu * (2 * strain_rate[i] + gas.lambda * div_u * (i < 3));
475b2820SJames Wright  }
475b2820SJames Wright}
475b2820SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void ViscousEnergyFlux(NewtonianIGProperties gas, StatePrimitive Y, const State grad_s[3], const CeedScalar stress[3][3],
475b2820SJames Wright                                             CeedScalar Fe[3]) {
475b2820SJames Wright  for (CeedInt i = 0; i < 3; i++) {
cde3d787SJames Wright    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;
475b2820SJames Wright  }
475b2820SJames Wright}
475b2820SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void ViscousEnergyFlux_fwd(NewtonianIGProperties gas, StatePrimitive Y, StatePrimitive dY, const State grad_ds[3],
2b916ea7SJeremy L Thompson                                                 const CeedScalar stress[3][3], const CeedScalar dstress[3][3], CeedScalar dFe[3]) {
475b2820SJames Wright  for (CeedInt i = 0; i < 3; i++) {
2b916ea7SJeremy 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] -
cde3d787SJames Wright             Y.velocity[2] * dstress[2][i] - dY.velocity[2] * stress[2][i] - gas.k * grad_ds[i].Y.temperature;
475b2820SJames Wright  }
475b2820SJames Wright}
475b2820SJames Wright
40a33f2dSJames WrightCEED_QFUNCTION_HELPER void Vorticity(const State grad_s[3], CeedScalar vorticity[3]) {
40a33f2dSJames Wright  CeedScalar grad_velocity[3][3];
40a33f2dSJames Wright  VelocityGradient(grad_s, grad_velocity);
40a33f2dSJames Wright  Curl3(grad_velocity, vorticity);
40a33f2dSJames Wright}
40a33f2dSJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void StatePhysicalGradientFromReference(CeedInt Q, CeedInt i, NewtonianIGProperties gas, State s, StateVariable state_var,
2e7597b6SKenneth E. Jansen                                                              const CeedScalar *grad_q, const CeedScalar dXdx[3][3], State grad_s[3]) {
06f0a019SJames Wright  CeedScalar grad_qi[5][3], dq[5][3] = {{0.}};
06f0a019SJames Wright
*22440147SJames Wright  GradUnpack3D(Q, i, 5, grad_q, grad_qi);
06f0a019SJames Wright  MatMatNM((CeedScalar *)grad_qi, (CeedScalar *)dXdx, (CeedScalar *)dq, 5, 3, 3);
06f0a019SJames Wright  for (CeedInt j = 0; j < 3; j++) {
edcfef1bSKenneth E. Jansen    CeedScalar dqi[5];
06f0a019SJames Wright
06f0a019SJames Wright    for (CeedInt k = 0; k < 5; k++) dqi[k] = dq[k][j];
06f0a019SJames Wright    grad_s[j] = StateFromQ_fwd(gas, s, dqi, state_var);
87bd45e7SJames Wright  }
87bd45e7SJames Wright}
87bd45e7SJames Wright
cde3d787SJames WrightCEED_QFUNCTION_HELPER void StatePhysicalGradientFromReference_Boundary(CeedInt Q, CeedInt i, NewtonianIGProperties gas, State s,
2e7597b6SKenneth E. Jansen                                                                       StateVariable state_var, const CeedScalar *grad_q, const CeedScalar dXdx[2][3],
2e7597b6SKenneth E. Jansen                                                                       State grad_s[3]) {
87bd45e7SJames Wright  for (CeedInt k = 0; k < 3; k++) {
edcfef1bSKenneth E. Jansen    CeedScalar dqi[5];
87bd45e7SJames Wright    for (CeedInt j = 0; j < 5; j++) {
87bd45e7SJames 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];
87bd45e7SJames Wright    }
edcfef1bSKenneth E. Jansen    grad_s[k] = StateFromQ_fwd(gas, s, dqi, state_var);
87bd45e7SJames Wright  }
87bd45e7SJames Wright}