1de8de29fSMatthew G. Knepley #include <petscdm.h>
2de8de29fSMatthew G. Knepley #include <petscdmceed.h>
3de8de29fSMatthew G. Knepley
4a7d931c6SMatthew G. Knepley #ifdef __CUDACC_RTC__
5a7d931c6SMatthew G. Knepley #define PETSC_HAVE_LIBCEED
6f0b74427SPierre Jolivet // Define PETSc types to be equal to Ceed types
7a7d931c6SMatthew G. Knepley typedef CeedInt PetscInt;
8a7d931c6SMatthew G. Knepley typedef CeedScalar PetscReal;
9a7d931c6SMatthew G. Knepley typedef CeedScalar PetscScalar;
10a7d931c6SMatthew G. Knepley typedef CeedInt PetscErrorCode;
11a7d931c6SMatthew G. Knepley // Define things we are missing from PETSc headers
12a7d931c6SMatthew G. Knepley #undef PETSC_SUCCESS
13a7d931c6SMatthew G. Knepley #define PETSC_SUCCESS 0
14a7d931c6SMatthew G. Knepley #define PETSC_COMM_SELF MPI_COMM_SELF
15a7d931c6SMatthew G. Knepley #undef PetscFunctionBeginUser
16a7d931c6SMatthew G. Knepley #define PetscFunctionBeginUser
17a7d931c6SMatthew G. Knepley #undef PetscFunctionReturn
18a7d931c6SMatthew G. Knepley #define PetscFunctionReturn(x) return x
19a7d931c6SMatthew G. Knepley #undef PetscCall
20a7d931c6SMatthew G. Knepley #define PetscCall(a) a
21a7d931c6SMatthew G. Knepley #define PetscFunctionReturnVoid() return
22a7d931c6SMatthew G. Knepley // Math definitions
23a7d931c6SMatthew G. Knepley #undef PetscSqrtReal
24a7d931c6SMatthew G. Knepley #define PetscSqrtReal(x) sqrt(x)
25a7d931c6SMatthew G. Knepley #undef PetscSqrtScalar
26a7d931c6SMatthew G. Knepley #define PetscSqrtScalar(x) sqrt(x)
27a7d931c6SMatthew G. Knepley #undef PetscSqr
28a7d931c6SMatthew G. Knepley #define PetscSqr(x) (x * x)
29a7d931c6SMatthew G. Knepley #define PetscSqrReal(x) (x * x)
30a7d931c6SMatthew G. Knepley #define PetscAbsReal(x) abs(x)
31a7d931c6SMatthew G. Knepley #define PetscAbsScalar(x) abs(x)
32a7d931c6SMatthew G. Knepley #define PetscMax(x, y) x > y ? x : y
33a7d931c6SMatthew G. Knepley #define PetscMin(x, y) x < y ? x : y
34a7d931c6SMatthew G. Knepley #define PetscRealPart(a) a
35a7d931c6SMatthew G. Knepley #define PetscPowScalar(a, b) pow(a, b)
36a7d931c6SMatthew G. Knepley #endif
37a7d931c6SMatthew G. Knepley
38de8de29fSMatthew G. Knepley #define DIM 2 /* Geometric dimension */
39de8de29fSMatthew G. Knepley
40de8de29fSMatthew G. Knepley /* Represents continuum physical equations. */
41de8de29fSMatthew G. Knepley typedef struct _n_Physics *Physics;
42de8de29fSMatthew G. Knepley
43de8de29fSMatthew G. Knepley /* Physical model includes boundary conditions, initial conditions, and functionals of interest. It is
44de8de29fSMatthew G. Knepley * discretization-independent, but its members depend on the scenario being solved. */
45de8de29fSMatthew G. Knepley typedef struct _n_Model *Model;
46de8de29fSMatthew G. Knepley
47de8de29fSMatthew G. Knepley struct FieldDescription {
48de8de29fSMatthew G. Knepley const char *name;
49de8de29fSMatthew G. Knepley PetscInt dof;
50de8de29fSMatthew G. Knepley };
51de8de29fSMatthew G. Knepley
52de8de29fSMatthew G. Knepley struct _n_Physics {
53de8de29fSMatthew G. Knepley void (*riemann)(PetscInt, PetscInt, const PetscReal[], const PetscReal[], const PetscScalar[], const PetscScalar[], PetscInt, const PetscScalar[], PetscScalar[], void *);
54de8de29fSMatthew G. Knepley PetscInt dof; /* number of degrees of freedom per cell */
55de8de29fSMatthew G. Knepley PetscReal maxspeed; /* kludge to pick initial time step, need to add monitoring and step control */
56de8de29fSMatthew G. Knepley void *data;
57de8de29fSMatthew G. Knepley PetscInt nfields;
58de8de29fSMatthew G. Knepley const struct FieldDescription *field_desc;
59de8de29fSMatthew G. Knepley };
60de8de29fSMatthew G. Knepley
61de8de29fSMatthew G. Knepley typedef struct {
62de8de29fSMatthew G. Knepley PetscReal gravity;
63de8de29fSMatthew G. Knepley struct {
64de8de29fSMatthew G. Knepley PetscInt Height;
65de8de29fSMatthew G. Knepley PetscInt Speed;
66de8de29fSMatthew G. Knepley PetscInt Energy;
67de8de29fSMatthew G. Knepley } functional;
68de8de29fSMatthew G. Knepley } Physics_SW;
69de8de29fSMatthew G. Knepley
70de8de29fSMatthew G. Knepley typedef struct {
71de8de29fSMatthew G. Knepley PetscReal h;
72de8de29fSMatthew G. Knepley PetscReal uh[DIM];
73de8de29fSMatthew G. Knepley } SWNode;
74de8de29fSMatthew G. Knepley typedef union
75de8de29fSMatthew G. Knepley {
76de8de29fSMatthew G. Knepley SWNode swnode;
77de8de29fSMatthew G. Knepley PetscReal vals[DIM + 1];
78de8de29fSMatthew G. Knepley } SWNodeUnion;
79de8de29fSMatthew G. Knepley
80de8de29fSMatthew G. Knepley typedef enum {
81de8de29fSMatthew G. Knepley EULER_IV_SHOCK,
82de8de29fSMatthew G. Knepley EULER_SS_SHOCK,
83de8de29fSMatthew G. Knepley EULER_SHOCK_TUBE,
84de8de29fSMatthew G. Knepley EULER_LINEAR_WAVE
85de8de29fSMatthew G. Knepley } EulerType;
86de8de29fSMatthew G. Knepley
87de8de29fSMatthew G. Knepley typedef struct {
88de8de29fSMatthew G. Knepley PetscReal gamma;
89de8de29fSMatthew G. Knepley PetscReal rhoR;
90de8de29fSMatthew G. Knepley PetscReal amach;
91de8de29fSMatthew G. Knepley PetscReal itana;
92de8de29fSMatthew G. Knepley EulerType type;
93de8de29fSMatthew G. Knepley struct {
94de8de29fSMatthew G. Knepley PetscInt Density;
95de8de29fSMatthew G. Knepley PetscInt Momentum;
96de8de29fSMatthew G. Knepley PetscInt Energy;
97de8de29fSMatthew G. Knepley PetscInt Pressure;
98de8de29fSMatthew G. Knepley PetscInt Speed;
99de8de29fSMatthew G. Knepley } monitor;
100de8de29fSMatthew G. Knepley } Physics_Euler;
101de8de29fSMatthew G. Knepley
102de8de29fSMatthew G. Knepley typedef struct {
103de8de29fSMatthew G. Knepley PetscReal r;
104de8de29fSMatthew G. Knepley PetscReal ru[DIM];
105de8de29fSMatthew G. Knepley PetscReal E;
106de8de29fSMatthew G. Knepley } EulerNode;
107de8de29fSMatthew G. Knepley typedef union
108de8de29fSMatthew G. Knepley {
109de8de29fSMatthew G. Knepley EulerNode eulernode;
110de8de29fSMatthew G. Knepley PetscReal vals[DIM + 2];
111de8de29fSMatthew G. Knepley } EulerNodeUnion;
112de8de29fSMatthew G. Knepley
Dot2Real(const PetscReal * x,const PetscReal * y)113de8de29fSMatthew G. Knepley static inline PetscReal Dot2Real(const PetscReal *x, const PetscReal *y)
114de8de29fSMatthew G. Knepley {
115de8de29fSMatthew G. Knepley return x[0] * y[0] + x[1] * y[1];
116de8de29fSMatthew G. Knepley }
Norm2Real(const PetscReal * x)117de8de29fSMatthew G. Knepley static inline PetscReal Norm2Real(const PetscReal *x)
118de8de29fSMatthew G. Knepley {
119de8de29fSMatthew G. Knepley return PetscSqrtReal(PetscAbsReal(Dot2Real(x, x)));
120de8de29fSMatthew G. Knepley }
Normalize2Real(PetscReal * x)121de8de29fSMatthew G. Knepley static inline void Normalize2Real(PetscReal *x)
122de8de29fSMatthew G. Knepley {
123de8de29fSMatthew G. Knepley PetscReal a = 1. / Norm2Real(x);
124de8de29fSMatthew G. Knepley x[0] *= a;
125de8de29fSMatthew G. Knepley x[1] *= a;
126de8de29fSMatthew G. Knepley }
Scale2Real(PetscReal a,const PetscReal * x,PetscReal * y)127de8de29fSMatthew G. Knepley static inline void Scale2Real(PetscReal a, const PetscReal *x, PetscReal *y)
128de8de29fSMatthew G. Knepley {
129de8de29fSMatthew G. Knepley y[0] = a * x[0];
130de8de29fSMatthew G. Knepley y[1] = a * x[1];
131de8de29fSMatthew G. Knepley }
132de8de29fSMatthew G. Knepley
DotDIMReal(const PetscReal * x,const PetscReal * y)133de8de29fSMatthew G. Knepley static inline PetscReal DotDIMReal(const PetscReal *x, const PetscReal *y)
134de8de29fSMatthew G. Knepley {
135de8de29fSMatthew G. Knepley PetscInt i;
136de8de29fSMatthew G. Knepley PetscReal prod = 0.0;
137de8de29fSMatthew G. Knepley
138de8de29fSMatthew G. Knepley for (i = 0; i < DIM; i++) prod += x[i] * y[i];
139de8de29fSMatthew G. Knepley return prod;
140de8de29fSMatthew G. Knepley }
NormDIM(const PetscReal * x)141de8de29fSMatthew G. Knepley static inline PetscReal NormDIM(const PetscReal *x)
142de8de29fSMatthew G. Knepley {
143de8de29fSMatthew G. Knepley return PetscSqrtReal(PetscAbsReal(DotDIMReal(x, x)));
144de8de29fSMatthew G. Knepley }
Waxpy2Real(PetscReal a,const PetscReal * x,const PetscReal * y,PetscReal * w)145de8de29fSMatthew G. Knepley static inline void Waxpy2Real(PetscReal a, const PetscReal *x, const PetscReal *y, PetscReal *w)
146de8de29fSMatthew G. Knepley {
147de8de29fSMatthew G. Knepley w[0] = a * x[0] + y[0];
148de8de29fSMatthew G. Knepley w[1] = a * x[1] + y[1];
149de8de29fSMatthew G. Knepley }
150de8de29fSMatthew G. Knepley
151de8de29fSMatthew G. Knepley /*
152de8de29fSMatthew G. Knepley * h_t + div(uh) = 0
153de8de29fSMatthew G. Knepley * (uh)_t + div (u\otimes uh + g h^2 / 2 I) = 0
154de8de29fSMatthew G. Knepley *
155de8de29fSMatthew G. Knepley * */
SWFlux(Physics phys,const PetscReal * n,const SWNode * x,SWNode * f)156de8de29fSMatthew G. Knepley static PetscErrorCode SWFlux(Physics phys, const PetscReal *n, const SWNode *x, SWNode *f)
157de8de29fSMatthew G. Knepley {
158de8de29fSMatthew G. Knepley Physics_SW *sw = (Physics_SW *)phys->data;
159de8de29fSMatthew G. Knepley PetscReal uhn, u[DIM];
160de8de29fSMatthew G. Knepley PetscInt i;
161de8de29fSMatthew G. Knepley
162de8de29fSMatthew G. Knepley PetscFunctionBeginUser;
163de8de29fSMatthew G. Knepley Scale2Real(1. / x->h, x->uh, u);
164de8de29fSMatthew G. Knepley uhn = x->uh[0] * n[0] + x->uh[1] * n[1];
165de8de29fSMatthew G. Knepley f->h = uhn;
166de8de29fSMatthew G. Knepley for (i = 0; i < DIM; i++) f->uh[i] = u[i] * uhn + sw->gravity * PetscSqr(x->h) * n[i];
167de8de29fSMatthew G. Knepley PetscFunctionReturn(PETSC_SUCCESS);
168de8de29fSMatthew G. Knepley }
169de8de29fSMatthew G. Knepley
PhysicsRiemann_SW_Rusanov(PetscInt dim,PetscInt Nf,const PetscReal * qp,const PetscReal * n,const PetscScalar * xL,const PetscScalar * xR,PetscInt numConstants,const PetscScalar constants[],PetscScalar * flux,Physics phys)170de8de29fSMatthew G. Knepley static void PhysicsRiemann_SW_Rusanov(PetscInt dim, PetscInt Nf, const PetscReal *qp, const PetscReal *n, const PetscScalar *xL, const PetscScalar *xR, PetscInt numConstants, const PetscScalar constants[], PetscScalar *flux, Physics phys)
171de8de29fSMatthew G. Knepley {
172de8de29fSMatthew G. Knepley Physics_SW *sw = (Physics_SW *)phys->data;
173de8de29fSMatthew G. Knepley PetscReal cL, cR, speed;
174de8de29fSMatthew G. Knepley PetscReal nn[DIM];
175de8de29fSMatthew G. Knepley #if !defined(PETSC_USE_COMPLEX)
176de8de29fSMatthew G. Knepley const SWNode *uL = (const SWNode *)xL, *uR = (const SWNode *)xR;
177de8de29fSMatthew G. Knepley #else
178de8de29fSMatthew G. Knepley SWNodeUnion uLreal, uRreal;
179de8de29fSMatthew G. Knepley const SWNode *uL = &uLreal.swnode;
180de8de29fSMatthew G. Knepley const SWNode *uR = &uRreal.swnode;
181de8de29fSMatthew G. Knepley #endif
182de8de29fSMatthew G. Knepley SWNodeUnion fL, fR;
183de8de29fSMatthew G. Knepley PetscInt i;
184de8de29fSMatthew G. Knepley PetscReal zero = 0.;
185a7d931c6SMatthew G. Knepley PetscErrorCode ierr;
186de8de29fSMatthew G. Knepley
187de8de29fSMatthew G. Knepley #if defined(PETSC_USE_COMPLEX)
188de8de29fSMatthew G. Knepley uLreal.swnode.h = 0;
189de8de29fSMatthew G. Knepley uRreal.swnode.h = 0;
190de8de29fSMatthew G. Knepley for (i = 0; i < 1 + dim; i++) uLreal.vals[i] = PetscRealPart(xL[i]);
191de8de29fSMatthew G. Knepley for (i = 0; i < 1 + dim; i++) uRreal.vals[i] = PetscRealPart(xR[i]);
192de8de29fSMatthew G. Knepley #endif
193a7d931c6SMatthew G. Knepley
194de8de29fSMatthew G. Knepley if (uL->h < 0 || uR->h < 0) {
195a7d931c6SMatthew G. Knepley // reconstructed thickness is negative
196a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPush(PETSC_FP_TRAP_OFF));
197a7d931c6SMatthew G. Knepley for (i = 0; i < 1 + dim; ++i) flux[i] = zero / zero;
198a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPop());
199de8de29fSMatthew G. Knepley return;
200a7d931c6SMatthew G. Knepley }
201a7d931c6SMatthew G. Knepley
202de8de29fSMatthew G. Knepley nn[0] = n[0];
203de8de29fSMatthew G. Knepley nn[1] = n[1];
204de8de29fSMatthew G. Knepley Normalize2Real(nn);
205a7d931c6SMatthew G. Knepley ierr = SWFlux(phys, nn, uL, &fL.swnode);
206a7d931c6SMatthew G. Knepley if (ierr) {
207a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPush(PETSC_FP_TRAP_OFF));
208a7d931c6SMatthew G. Knepley for (i = 0; i < 1 + dim; ++i) fL.vals[i] = zero / zero;
209a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPop());
210a7d931c6SMatthew G. Knepley }
211a7d931c6SMatthew G. Knepley ierr = SWFlux(phys, nn, uR, &fR.swnode);
212a7d931c6SMatthew G. Knepley if (ierr) {
213a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPush(PETSC_FP_TRAP_OFF));
214a7d931c6SMatthew G. Knepley for (i = 0; i < 1 + dim; ++i) fR.vals[i] = zero / zero;
215a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPop());
216a7d931c6SMatthew G. Knepley }
217de8de29fSMatthew G. Knepley cL = PetscSqrtReal(sw->gravity * uL->h);
218de8de29fSMatthew G. Knepley cR = PetscSqrtReal(sw->gravity * uR->h); /* gravity wave speed */
219de8de29fSMatthew G. Knepley speed = PetscMax(PetscAbsReal(Dot2Real(uL->uh, nn) / uL->h) + cL, PetscAbsReal(Dot2Real(uR->uh, nn) / uR->h) + cR);
220de8de29fSMatthew G. Knepley for (i = 0; i < 1 + dim; i++) flux[i] = (0.5 * (fL.vals[i] + fR.vals[i]) + 0.5 * speed * (xL[i] - xR[i])) * Norm2Real(n);
221de8de29fSMatthew G. Knepley #if 0
222de8de29fSMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Rusanov Flux (%g)\n", sw->gravity);
2233a7d0413SPierre Jolivet for (PetscInt j = 0; j < 3; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g |\n", flux[j]);
224de8de29fSMatthew G. Knepley #endif
225de8de29fSMatthew G. Knepley }
226de8de29fSMatthew G. Knepley
227de8de29fSMatthew G. Knepley #ifdef PETSC_HAVE_LIBCEED
PhysicsRiemann_SW_Rusanov_CEED(PetscCtx ctx,CeedInt Q,const CeedScalar * const in[],CeedScalar * const out[])228*2a8381b2SBarry Smith CEED_QFUNCTION(PhysicsRiemann_SW_Rusanov_CEED)(PetscCtx ctx, CeedInt Q, const CeedScalar *const in[], CeedScalar *const out[])
229de8de29fSMatthew G. Knepley {
230de8de29fSMatthew G. Knepley const CeedScalar *xL = in[0], *xR = in[1], *geom = in[2];
231de8de29fSMatthew G. Knepley CeedScalar *cL = out[0], *cR = out[1];
232de8de29fSMatthew G. Knepley const Physics_SW *sw = (Physics_SW *)ctx;
233de8de29fSMatthew G. Knepley struct _n_Physics phys;
234a7d931c6SMatthew G. Knepley #if 0
235a7d931c6SMatthew G. Knepley const CeedScalar *info = in[3];
236a7d931c6SMatthew G. Knepley #endif
237de8de29fSMatthew G. Knepley
238de8de29fSMatthew G. Knepley phys.data = (void *)sw;
239de8de29fSMatthew G. Knepley CeedPragmaSIMD for (CeedInt i = 0; i < Q; ++i)
240de8de29fSMatthew G. Knepley {
241de8de29fSMatthew G. Knepley const CeedScalar qL[3] = {xL[i + Q * 0], xL[i + Q * 1], xL[i + Q * 2]};
242de8de29fSMatthew G. Knepley const CeedScalar qR[3] = {xR[i + Q * 0], xR[i + Q * 1], xR[i + Q * 2]};
243de8de29fSMatthew G. Knepley const CeedScalar n[2] = {geom[i + Q * 0], geom[i + Q * 1]};
244de8de29fSMatthew G. Knepley CeedScalar flux[3];
245de8de29fSMatthew G. Knepley
246de8de29fSMatthew G. Knepley #if 0
247a7d931c6SMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Face %d Normal\n", (int)info[i + Q * 0]);
2483a7d0413SPierre Jolivet for (CeedInt j = 0; j < DIM; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g |\n", n[j]);
249a7d931c6SMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Cell %d Element Residual: left state\n", (int)info[i + Q * 1]);
2503a7d0413SPierre Jolivet for (CeedInt j = 0; j < DIM + 1; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g |\n", qL[j]);
251a7d931c6SMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Cell %d Element Residual: right state\n", (int)info[i + Q * 2]);
2523a7d0413SPierre Jolivet for (CeedInt j = 0; j < DIM + 1; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g |\n", qR[j]);
253de8de29fSMatthew G. Knepley #endif
254de8de29fSMatthew G. Knepley PhysicsRiemann_SW_Rusanov(DIM, DIM + 1, NULL, n, qL, qR, 0, NULL, flux, &phys);
255de8de29fSMatthew G. Knepley for (CeedInt j = 0; j < 3; ++j) {
256de8de29fSMatthew G. Knepley cL[i + Q * j] = -flux[j] / geom[i + Q * 2];
257de8de29fSMatthew G. Knepley cR[i + Q * j] = flux[j] / geom[i + Q * 3];
258de8de29fSMatthew G. Knepley }
259de8de29fSMatthew G. Knepley #if 0
260a7d931c6SMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Cell %d Element Residual: left flux\n", (int)info[i + Q * 1]);
2613a7d0413SPierre Jolivet for (CeedInt j = 0; j < DIM + 1; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g | (%g)\n", cL[i + Q * j], geom[i + Q * 2]);
262a7d931c6SMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Cell %d Element Residual: right flux\n", (int)info[i + Q * 2]);
2633a7d0413SPierre Jolivet for (CeedInt j = 0; j < DIM + 1; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g | (%g)\n", cR[i + Q * j], geom[i + Q * 3]);
264de8de29fSMatthew G. Knepley #endif
265de8de29fSMatthew G. Knepley }
266de8de29fSMatthew G. Knepley return CEED_ERROR_SUCCESS;
267de8de29fSMatthew G. Knepley }
268de8de29fSMatthew G. Knepley #endif
269de8de29fSMatthew G. Knepley
PhysicsRiemann_SW_HLL(PetscInt dim,PetscInt Nf,const PetscReal * qp,const PetscReal * n,const PetscScalar * xL,const PetscScalar * xR,PetscInt numConstants,const PetscScalar constants[],PetscScalar * flux,Physics phys)270de8de29fSMatthew G. Knepley static void PhysicsRiemann_SW_HLL(PetscInt dim, PetscInt Nf, const PetscReal *qp, const PetscReal *n, const PetscScalar *xL, const PetscScalar *xR, PetscInt numConstants, const PetscScalar constants[], PetscScalar *flux, Physics phys)
271de8de29fSMatthew G. Knepley {
272de8de29fSMatthew G. Knepley Physics_SW *sw = (Physics_SW *)phys->data;
273de8de29fSMatthew G. Knepley PetscReal aL, aR;
274de8de29fSMatthew G. Knepley PetscReal nn[DIM];
275de8de29fSMatthew G. Knepley #if !defined(PETSC_USE_COMPLEX)
276de8de29fSMatthew G. Knepley const SWNode *uL = (const SWNode *)xL, *uR = (const SWNode *)xR;
277de8de29fSMatthew G. Knepley #else
278de8de29fSMatthew G. Knepley SWNodeUnion uLreal, uRreal;
279de8de29fSMatthew G. Knepley const SWNode *uL = &uLreal.swnode;
280de8de29fSMatthew G. Knepley const SWNode *uR = &uRreal.swnode;
281de8de29fSMatthew G. Knepley #endif
282de8de29fSMatthew G. Knepley SWNodeUnion fL, fR;
283de8de29fSMatthew G. Knepley PetscInt i;
284de8de29fSMatthew G. Knepley PetscReal zero = 0.;
285a7d931c6SMatthew G. Knepley PetscErrorCode ierr;
286de8de29fSMatthew G. Knepley
287de8de29fSMatthew G. Knepley #if defined(PETSC_USE_COMPLEX)
288de8de29fSMatthew G. Knepley uLreal.swnode.h = 0;
289de8de29fSMatthew G. Knepley uRreal.swnode.h = 0;
290de8de29fSMatthew G. Knepley for (i = 0; i < 1 + dim; i++) uLreal.vals[i] = PetscRealPart(xL[i]);
291de8de29fSMatthew G. Knepley for (i = 0; i < 1 + dim; i++) uRreal.vals[i] = PetscRealPart(xR[i]);
292de8de29fSMatthew G. Knepley #endif
293de8de29fSMatthew G. Knepley if (uL->h <= 0 || uR->h <= 0) {
294a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPush(PETSC_FP_TRAP_OFF));
295de8de29fSMatthew G. Knepley for (i = 0; i < 1 + dim; i++) flux[i] = zero;
296a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPop());
297de8de29fSMatthew G. Knepley return;
298de8de29fSMatthew G. Knepley } /* SETERRQ(PETSC_COMM_SELF,PETSC_ERR_ARG_OUTOFRANGE,"Reconstructed thickness is negative"); */
299de8de29fSMatthew G. Knepley nn[0] = n[0];
300de8de29fSMatthew G. Knepley nn[1] = n[1];
301de8de29fSMatthew G. Knepley Normalize2Real(nn);
302a7d931c6SMatthew G. Knepley ierr = SWFlux(phys, nn, uL, &fL.swnode);
303a7d931c6SMatthew G. Knepley if (ierr) {
304a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPush(PETSC_FP_TRAP_OFF));
305a7d931c6SMatthew G. Knepley for (i = 0; i < 1 + dim; ++i) fL.vals[i] = zero / zero;
306a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPop());
307a7d931c6SMatthew G. Knepley }
308a7d931c6SMatthew G. Knepley ierr = SWFlux(phys, nn, uR, &fR.swnode);
309a7d931c6SMatthew G. Knepley if (ierr) {
310a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPush(PETSC_FP_TRAP_OFF));
311a7d931c6SMatthew G. Knepley for (i = 0; i < 1 + dim; ++i) fR.vals[i] = zero / zero;
312a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPop());
313a7d931c6SMatthew G. Knepley }
314de8de29fSMatthew G. Knepley /* gravity wave speed */
315de8de29fSMatthew G. Knepley aL = PetscSqrtReal(sw->gravity * uL->h);
316de8de29fSMatthew G. Knepley aR = PetscSqrtReal(sw->gravity * uR->h);
317de8de29fSMatthew G. Knepley // Defining u_tilda and v_tilda as u and v
318de8de29fSMatthew G. Knepley PetscReal u_L, u_R;
319de8de29fSMatthew G. Knepley u_L = Dot2Real(uL->uh, nn) / uL->h;
320de8de29fSMatthew G. Knepley u_R = Dot2Real(uR->uh, nn) / uR->h;
321de8de29fSMatthew G. Knepley PetscReal sL, sR;
322de8de29fSMatthew G. Knepley sL = PetscMin(u_L - aL, u_R - aR);
323de8de29fSMatthew G. Knepley sR = PetscMax(u_L + aL, u_R + aR);
324de8de29fSMatthew G. Knepley if (sL > zero) {
325de8de29fSMatthew G. Knepley for (i = 0; i < dim + 1; i++) flux[i] = fL.vals[i] * Norm2Real(n);
326de8de29fSMatthew G. Knepley } else if (sR < zero) {
327de8de29fSMatthew G. Knepley for (i = 0; i < dim + 1; i++) flux[i] = fR.vals[i] * Norm2Real(n);
328de8de29fSMatthew G. Knepley } else {
329de8de29fSMatthew G. Knepley for (i = 0; i < dim + 1; i++) flux[i] = ((sR * fL.vals[i] - sL * fR.vals[i] + sR * sL * (xR[i] - xL[i])) / (sR - sL)) * Norm2Real(n);
330de8de29fSMatthew G. Knepley }
331de8de29fSMatthew G. Knepley }
332de8de29fSMatthew G. Knepley
Pressure_PG(const PetscReal gamma,const EulerNode * x,PetscReal * p)333de8de29fSMatthew G. Knepley static PetscErrorCode Pressure_PG(const PetscReal gamma, const EulerNode *x, PetscReal *p)
334de8de29fSMatthew G. Knepley {
335de8de29fSMatthew G. Knepley PetscReal ru2;
336de8de29fSMatthew G. Knepley
337de8de29fSMatthew G. Knepley PetscFunctionBeginUser;
338de8de29fSMatthew G. Knepley ru2 = DotDIMReal(x->ru, x->ru);
339de8de29fSMatthew G. Knepley (*p) = (x->E - 0.5 * ru2 / x->r) * (gamma - 1.0); /* (E - rho V^2/2)(gamma-1) = e rho (gamma-1) */
340de8de29fSMatthew G. Knepley PetscFunctionReturn(PETSC_SUCCESS);
341de8de29fSMatthew G. Knepley }
342de8de29fSMatthew G. Knepley
SpeedOfSound_PG(const PetscReal gamma,const EulerNode * x,PetscReal * c)343de8de29fSMatthew G. Knepley static PetscErrorCode SpeedOfSound_PG(const PetscReal gamma, const EulerNode *x, PetscReal *c)
344de8de29fSMatthew G. Knepley {
345de8de29fSMatthew G. Knepley PetscReal p;
346de8de29fSMatthew G. Knepley
347de8de29fSMatthew G. Knepley PetscFunctionBeginUser;
348de8de29fSMatthew G. Knepley PetscCall(Pressure_PG(gamma, x, &p));
349de8de29fSMatthew G. Knepley /* gamma = heat capacity ratio */
350de8de29fSMatthew G. Knepley (*c) = PetscSqrtReal(gamma * p / x->r);
351de8de29fSMatthew G. Knepley PetscFunctionReturn(PETSC_SUCCESS);
352de8de29fSMatthew G. Knepley }
353de8de29fSMatthew G. Knepley
354de8de29fSMatthew G. Knepley /*
355de8de29fSMatthew G. Knepley * x = (rho,rho*(u_1),...,rho*e)^T
356de8de29fSMatthew G. Knepley * x_t+div(f_1(x))+...+div(f_DIM(x)) = 0
357de8de29fSMatthew G. Knepley *
358de8de29fSMatthew G. Knepley * f_i(x) = u_i*x+(0,0,...,p,...,p*u_i)^T
359de8de29fSMatthew G. Knepley *
360de8de29fSMatthew G. Knepley */
EulerFlux(Physics phys,const PetscReal * n,const EulerNode * x,EulerNode * f)361de8de29fSMatthew G. Knepley static PetscErrorCode EulerFlux(Physics phys, const PetscReal *n, const EulerNode *x, EulerNode *f)
362de8de29fSMatthew G. Knepley {
363de8de29fSMatthew G. Knepley Physics_Euler *eu = (Physics_Euler *)phys->data;
364de8de29fSMatthew G. Knepley PetscReal nu, p;
365de8de29fSMatthew G. Knepley PetscInt i;
366de8de29fSMatthew G. Knepley
367de8de29fSMatthew G. Knepley PetscFunctionBeginUser;
368de8de29fSMatthew G. Knepley PetscCall(Pressure_PG(eu->gamma, x, &p));
369de8de29fSMatthew G. Knepley nu = DotDIMReal(x->ru, n);
370de8de29fSMatthew G. Knepley f->r = nu; /* A rho u */
371de8de29fSMatthew G. Knepley nu /= x->r; /* A u */
372de8de29fSMatthew G. Knepley for (i = 0; i < DIM; i++) f->ru[i] = nu * x->ru[i] + n[i] * p; /* r u^2 + p */
373de8de29fSMatthew G. Knepley f->E = nu * (x->E + p); /* u(e+p) */
374de8de29fSMatthew G. Knepley PetscFunctionReturn(PETSC_SUCCESS);
375de8de29fSMatthew G. Knepley }
376de8de29fSMatthew G. Knepley
377de8de29fSMatthew G. Knepley /* Godunov fluxs */
cvmgp_(PetscScalar * a,PetscScalar * b,PetscScalar * test)378de8de29fSMatthew G. Knepley static PetscScalar cvmgp_(PetscScalar *a, PetscScalar *b, PetscScalar *test)
379de8de29fSMatthew G. Knepley {
380de8de29fSMatthew G. Knepley /* System generated locals */
381de8de29fSMatthew G. Knepley PetscScalar ret_val;
382de8de29fSMatthew G. Knepley
383de8de29fSMatthew G. Knepley if (PetscRealPart(*test) > 0.) goto L10;
384de8de29fSMatthew G. Knepley ret_val = *b;
385de8de29fSMatthew G. Knepley return ret_val;
386de8de29fSMatthew G. Knepley L10:
387de8de29fSMatthew G. Knepley ret_val = *a;
388de8de29fSMatthew G. Knepley return ret_val;
389de8de29fSMatthew G. Knepley } /* cvmgp_ */
390de8de29fSMatthew G. Knepley
cvmgm_(PetscScalar * a,PetscScalar * b,PetscScalar * test)391de8de29fSMatthew G. Knepley static PetscScalar cvmgm_(PetscScalar *a, PetscScalar *b, PetscScalar *test)
392de8de29fSMatthew G. Knepley {
393de8de29fSMatthew G. Knepley /* System generated locals */
394de8de29fSMatthew G. Knepley PetscScalar ret_val;
395de8de29fSMatthew G. Knepley
396de8de29fSMatthew G. Knepley if (PetscRealPart(*test) < 0.) goto L10;
397de8de29fSMatthew G. Knepley ret_val = *b;
398de8de29fSMatthew G. Knepley return ret_val;
399de8de29fSMatthew G. Knepley L10:
400de8de29fSMatthew G. Knepley ret_val = *a;
401de8de29fSMatthew G. Knepley return ret_val;
402de8de29fSMatthew G. Knepley } /* cvmgm_ */
403de8de29fSMatthew G. Knepley
riem1mdt(PetscScalar * gaml,PetscScalar * gamr,PetscScalar * rl,PetscScalar * pl,PetscScalar * uxl,PetscScalar * rr,PetscScalar * pr,PetscScalar * uxr,PetscScalar * rstarl,PetscScalar * rstarr,PetscScalar * pstar,PetscScalar * ustar)404de8de29fSMatthew G. Knepley static int riem1mdt(PetscScalar *gaml, PetscScalar *gamr, PetscScalar *rl, PetscScalar *pl, PetscScalar *uxl, PetscScalar *rr, PetscScalar *pr, PetscScalar *uxr, PetscScalar *rstarl, PetscScalar *rstarr, PetscScalar *pstar, PetscScalar *ustar)
405de8de29fSMatthew G. Knepley {
406de8de29fSMatthew G. Knepley /* Initialized data */
407de8de29fSMatthew G. Knepley
408de8de29fSMatthew G. Knepley static PetscScalar smallp = 1e-8;
409de8de29fSMatthew G. Knepley
410de8de29fSMatthew G. Knepley /* System generated locals */
411de8de29fSMatthew G. Knepley int i__1;
412de8de29fSMatthew G. Knepley PetscScalar d__1, d__2;
413de8de29fSMatthew G. Knepley
414de8de29fSMatthew G. Knepley /* Local variables */
415de8de29fSMatthew G. Knepley static int i0;
416de8de29fSMatthew G. Knepley static PetscScalar cl, cr, wl, zl, wr, zr, pst, durl, skpr1, skpr2;
417de8de29fSMatthew G. Knepley static int iwave;
418de8de29fSMatthew G. Knepley static PetscScalar gascl4, gascr4, cstarl, dpstar, cstarr;
419de8de29fSMatthew G. Knepley /* static PetscScalar csqrl, csqrr, gascl1, gascl2, gascl3, gascr1, gascr2, gascr3; */
420de8de29fSMatthew G. Knepley static int iterno;
421de8de29fSMatthew G. Knepley static PetscScalar ustarl, ustarr, rarepr1, rarepr2;
422de8de29fSMatthew G. Knepley
423de8de29fSMatthew G. Knepley /* gascl1 = *gaml - 1.; */
424de8de29fSMatthew G. Knepley /* gascl2 = (*gaml + 1.) * .5; */
425de8de29fSMatthew G. Knepley /* gascl3 = gascl2 / *gaml; */
426de8de29fSMatthew G. Knepley gascl4 = 1. / (*gaml - 1.);
427de8de29fSMatthew G. Knepley
428de8de29fSMatthew G. Knepley /* gascr1 = *gamr - 1.; */
429de8de29fSMatthew G. Knepley /* gascr2 = (*gamr + 1.) * .5; */
430de8de29fSMatthew G. Knepley /* gascr3 = gascr2 / *gamr; */
431de8de29fSMatthew G. Knepley gascr4 = 1. / (*gamr - 1.);
432de8de29fSMatthew G. Knepley iterno = 10;
433de8de29fSMatthew G. Knepley /* find pstar: */
434de8de29fSMatthew G. Knepley cl = PetscSqrtScalar(*gaml * *pl / *rl);
435de8de29fSMatthew G. Knepley cr = PetscSqrtScalar(*gamr * *pr / *rr);
436de8de29fSMatthew G. Knepley wl = *rl * cl;
437de8de29fSMatthew G. Knepley wr = *rr * cr;
438de8de29fSMatthew G. Knepley /* csqrl = wl * wl; */
439de8de29fSMatthew G. Knepley /* csqrr = wr * wr; */
440de8de29fSMatthew G. Knepley *pstar = (wl * *pr + wr * *pl) / (wl + wr);
441de8de29fSMatthew G. Knepley *pstar = PetscMax(PetscRealPart(*pstar), PetscRealPart(smallp));
442de8de29fSMatthew G. Knepley pst = *pl / *pr;
443de8de29fSMatthew G. Knepley skpr1 = cr * (pst - 1.) * PetscSqrtScalar(2. / (*gamr * (*gamr - 1. + (*gamr + 1.) * pst)));
444de8de29fSMatthew G. Knepley d__1 = (*gamr - 1.) / (*gamr * 2.);
445de8de29fSMatthew G. Knepley rarepr2 = gascr4 * 2. * cr * (1. - PetscPowScalar(pst, d__1));
446de8de29fSMatthew G. Knepley pst = *pr / *pl;
447de8de29fSMatthew G. Knepley skpr2 = cl * (pst - 1.) * PetscSqrtScalar(2. / (*gaml * (*gaml - 1. + (*gaml + 1.) * pst)));
448de8de29fSMatthew G. Knepley d__1 = (*gaml - 1.) / (*gaml * 2.);
449de8de29fSMatthew G. Knepley rarepr1 = gascl4 * 2. * cl * (1. - PetscPowScalar(pst, d__1));
450de8de29fSMatthew G. Knepley durl = *uxr - *uxl;
451de8de29fSMatthew G. Knepley if (PetscRealPart(*pr) < PetscRealPart(*pl)) {
452de8de29fSMatthew G. Knepley if (PetscRealPart(durl) >= PetscRealPart(rarepr1)) {
453de8de29fSMatthew G. Knepley iwave = 100;
454de8de29fSMatthew G. Knepley } else if (PetscRealPart(durl) <= PetscRealPart(-skpr1)) {
455de8de29fSMatthew G. Knepley iwave = 300;
456de8de29fSMatthew G. Knepley } else {
457de8de29fSMatthew G. Knepley iwave = 400;
458de8de29fSMatthew G. Knepley }
459de8de29fSMatthew G. Knepley } else {
460de8de29fSMatthew G. Knepley if (PetscRealPart(durl) >= PetscRealPart(rarepr2)) {
461de8de29fSMatthew G. Knepley iwave = 100;
462de8de29fSMatthew G. Knepley } else if (PetscRealPart(durl) <= PetscRealPart(-skpr2)) {
463de8de29fSMatthew G. Knepley iwave = 300;
464de8de29fSMatthew G. Knepley } else {
465de8de29fSMatthew G. Knepley iwave = 200;
466de8de29fSMatthew G. Knepley }
467de8de29fSMatthew G. Knepley }
468de8de29fSMatthew G. Knepley if (iwave == 100) {
469de8de29fSMatthew G. Knepley /* 1-wave: rarefaction wave, 3-wave: rarefaction wave */
470de8de29fSMatthew G. Knepley /* case (100) */
471de8de29fSMatthew G. Knepley i__1 = iterno;
472de8de29fSMatthew G. Knepley for (i0 = 1; i0 <= i__1; ++i0) {
473de8de29fSMatthew G. Knepley d__1 = *pstar / *pl;
474de8de29fSMatthew G. Knepley d__2 = 1. / *gaml;
475de8de29fSMatthew G. Knepley *rstarl = *rl * PetscPowScalar(d__1, d__2);
476de8de29fSMatthew G. Knepley cstarl = PetscSqrtScalar(*gaml * *pstar / *rstarl);
477de8de29fSMatthew G. Knepley ustarl = *uxl - gascl4 * 2. * (cstarl - cl);
478de8de29fSMatthew G. Knepley zl = *rstarl * cstarl;
479de8de29fSMatthew G. Knepley d__1 = *pstar / *pr;
480de8de29fSMatthew G. Knepley d__2 = 1. / *gamr;
481de8de29fSMatthew G. Knepley *rstarr = *rr * PetscPowScalar(d__1, d__2);
482de8de29fSMatthew G. Knepley cstarr = PetscSqrtScalar(*gamr * *pstar / *rstarr);
483de8de29fSMatthew G. Knepley ustarr = *uxr + gascr4 * 2. * (cstarr - cr);
484de8de29fSMatthew G. Knepley zr = *rstarr * cstarr;
485de8de29fSMatthew G. Knepley dpstar = zl * zr * (ustarr - ustarl) / (zl + zr);
486de8de29fSMatthew G. Knepley *pstar -= dpstar;
487de8de29fSMatthew G. Knepley *pstar = PetscMax(PetscRealPart(*pstar), PetscRealPart(smallp));
488de8de29fSMatthew G. Knepley if (PetscAbsScalar(dpstar) / PetscRealPart(*pstar) <= 1e-8) {
489de8de29fSMatthew G. Knepley #if 0
490de8de29fSMatthew G. Knepley break;
491de8de29fSMatthew G. Knepley #endif
492de8de29fSMatthew G. Knepley }
493de8de29fSMatthew G. Knepley }
494de8de29fSMatthew G. Knepley /* 1-wave: shock wave, 3-wave: rarefaction wave */
495de8de29fSMatthew G. Knepley } else if (iwave == 200) {
496de8de29fSMatthew G. Knepley /* case (200) */
497de8de29fSMatthew G. Knepley i__1 = iterno;
498de8de29fSMatthew G. Knepley for (i0 = 1; i0 <= i__1; ++i0) {
499de8de29fSMatthew G. Knepley pst = *pstar / *pl;
500de8de29fSMatthew G. Knepley ustarl = *uxl - (pst - 1.) * cl * PetscSqrtScalar(2. / (*gaml * (*gaml - 1. + (*gaml + 1.) * pst)));
501de8de29fSMatthew G. Knepley zl = *pl / cl * PetscSqrtScalar(*gaml * 2. * (*gaml - 1. + (*gaml + 1.) * pst)) * (*gaml - 1. + (*gaml + 1.) * pst) / (*gaml * 3. - 1. + (*gaml + 1.) * pst);
502de8de29fSMatthew G. Knepley d__1 = *pstar / *pr;
503de8de29fSMatthew G. Knepley d__2 = 1. / *gamr;
504de8de29fSMatthew G. Knepley *rstarr = *rr * PetscPowScalar(d__1, d__2);
505de8de29fSMatthew G. Knepley cstarr = PetscSqrtScalar(*gamr * *pstar / *rstarr);
506de8de29fSMatthew G. Knepley zr = *rstarr * cstarr;
507de8de29fSMatthew G. Knepley ustarr = *uxr + gascr4 * 2. * (cstarr - cr);
508de8de29fSMatthew G. Knepley dpstar = zl * zr * (ustarr - ustarl) / (zl + zr);
509de8de29fSMatthew G. Knepley *pstar -= dpstar;
510de8de29fSMatthew G. Knepley *pstar = PetscMax(PetscRealPart(*pstar), PetscRealPart(smallp));
511de8de29fSMatthew G. Knepley if (PetscAbsScalar(dpstar) / PetscRealPart(*pstar) <= 1e-8) {
512de8de29fSMatthew G. Knepley #if 0
513de8de29fSMatthew G. Knepley break;
514de8de29fSMatthew G. Knepley #endif
515de8de29fSMatthew G. Knepley }
516de8de29fSMatthew G. Knepley }
517de8de29fSMatthew G. Knepley /* 1-wave: shock wave, 3-wave: shock */
518de8de29fSMatthew G. Knepley } else if (iwave == 300) {
519de8de29fSMatthew G. Knepley /* case (300) */
520de8de29fSMatthew G. Knepley i__1 = iterno;
521de8de29fSMatthew G. Knepley for (i0 = 1; i0 <= i__1; ++i0) {
522de8de29fSMatthew G. Knepley pst = *pstar / *pl;
523de8de29fSMatthew G. Knepley ustarl = *uxl - (pst - 1.) * cl * PetscSqrtScalar(2. / (*gaml * (*gaml - 1. + (*gaml + 1.) * pst)));
524de8de29fSMatthew G. Knepley zl = *pl / cl * PetscSqrtScalar(*gaml * 2. * (*gaml - 1. + (*gaml + 1.) * pst)) * (*gaml - 1. + (*gaml + 1.) * pst) / (*gaml * 3. - 1. + (*gaml + 1.) * pst);
525de8de29fSMatthew G. Knepley pst = *pstar / *pr;
526de8de29fSMatthew G. Knepley ustarr = *uxr + (pst - 1.) * cr * PetscSqrtScalar(2. / (*gamr * (*gamr - 1. + (*gamr + 1.) * pst)));
527de8de29fSMatthew G. Knepley zr = *pr / cr * PetscSqrtScalar(*gamr * 2. * (*gamr - 1. + (*gamr + 1.) * pst)) * (*gamr - 1. + (*gamr + 1.) * pst) / (*gamr * 3. - 1. + (*gamr + 1.) * pst);
528de8de29fSMatthew G. Knepley dpstar = zl * zr * (ustarr - ustarl) / (zl + zr);
529de8de29fSMatthew G. Knepley *pstar -= dpstar;
530de8de29fSMatthew G. Knepley *pstar = PetscMax(PetscRealPart(*pstar), PetscRealPart(smallp));
531de8de29fSMatthew G. Knepley if (PetscAbsScalar(dpstar) / PetscRealPart(*pstar) <= 1e-8) {
532de8de29fSMatthew G. Knepley #if 0
533de8de29fSMatthew G. Knepley break;
534de8de29fSMatthew G. Knepley #endif
535de8de29fSMatthew G. Knepley }
536de8de29fSMatthew G. Knepley }
537de8de29fSMatthew G. Knepley /* 1-wave: rarefaction wave, 3-wave: shock */
538de8de29fSMatthew G. Knepley } else if (iwave == 400) {
539de8de29fSMatthew G. Knepley /* case (400) */
540de8de29fSMatthew G. Knepley i__1 = iterno;
541de8de29fSMatthew G. Knepley for (i0 = 1; i0 <= i__1; ++i0) {
542de8de29fSMatthew G. Knepley d__1 = *pstar / *pl;
543de8de29fSMatthew G. Knepley d__2 = 1. / *gaml;
544de8de29fSMatthew G. Knepley *rstarl = *rl * PetscPowScalar(d__1, d__2);
545de8de29fSMatthew G. Knepley cstarl = PetscSqrtScalar(*gaml * *pstar / *rstarl);
546de8de29fSMatthew G. Knepley ustarl = *uxl - gascl4 * 2. * (cstarl - cl);
547de8de29fSMatthew G. Knepley zl = *rstarl * cstarl;
548de8de29fSMatthew G. Knepley pst = *pstar / *pr;
549de8de29fSMatthew G. Knepley ustarr = *uxr + (pst - 1.) * cr * PetscSqrtScalar(2. / (*gamr * (*gamr - 1. + (*gamr + 1.) * pst)));
550de8de29fSMatthew G. Knepley zr = *pr / cr * PetscSqrtScalar(*gamr * 2. * (*gamr - 1. + (*gamr + 1.) * pst)) * (*gamr - 1. + (*gamr + 1.) * pst) / (*gamr * 3. - 1. + (*gamr + 1.) * pst);
551de8de29fSMatthew G. Knepley dpstar = zl * zr * (ustarr - ustarl) / (zl + zr);
552de8de29fSMatthew G. Knepley *pstar -= dpstar;
553de8de29fSMatthew G. Knepley *pstar = PetscMax(PetscRealPart(*pstar), PetscRealPart(smallp));
554de8de29fSMatthew G. Knepley if (PetscAbsScalar(dpstar) / PetscRealPart(*pstar) <= 1e-8) {
555de8de29fSMatthew G. Knepley #if 0
556de8de29fSMatthew G. Knepley break;
557de8de29fSMatthew G. Knepley #endif
558de8de29fSMatthew G. Knepley }
559de8de29fSMatthew G. Knepley }
560de8de29fSMatthew G. Knepley }
561de8de29fSMatthew G. Knepley
562de8de29fSMatthew G. Knepley *ustar = (zl * ustarr + zr * ustarl) / (zl + zr);
563de8de29fSMatthew G. Knepley if (PetscRealPart(*pstar) > PetscRealPart(*pl)) {
564de8de29fSMatthew G. Knepley pst = *pstar / *pl;
565de8de29fSMatthew G. Knepley *rstarl = ((*gaml + 1.) * pst + *gaml - 1.) / ((*gaml - 1.) * pst + *gaml + 1.) * *rl;
566de8de29fSMatthew G. Knepley }
567de8de29fSMatthew G. Knepley if (PetscRealPart(*pstar) > PetscRealPart(*pr)) {
568de8de29fSMatthew G. Knepley pst = *pstar / *pr;
569de8de29fSMatthew G. Knepley *rstarr = ((*gamr + 1.) * pst + *gamr - 1.) / ((*gamr - 1.) * pst + *gamr + 1.) * *rr;
570de8de29fSMatthew G. Knepley }
571de8de29fSMatthew G. Knepley return iwave;
572de8de29fSMatthew G. Knepley }
573de8de29fSMatthew G. Knepley
sign(PetscScalar x)574de8de29fSMatthew G. Knepley static PetscScalar sign(PetscScalar x)
575de8de29fSMatthew G. Knepley {
576de8de29fSMatthew G. Knepley if (PetscRealPart(x) > 0) return 1.0;
577de8de29fSMatthew G. Knepley if (PetscRealPart(x) < 0) return -1.0;
578de8de29fSMatthew G. Knepley return 0.0;
579de8de29fSMatthew G. Knepley }
580de8de29fSMatthew G. Knepley /* Riemann Solver */
581de8de29fSMatthew G. Knepley /* -------------------------------------------------------------------- */
riemannsolver(PetscScalar * xcen,PetscScalar * xp,PetscScalar * dtt,PetscScalar * rl,PetscScalar * uxl,PetscScalar * pl,PetscScalar * utl,PetscScalar * ubl,PetscScalar * gaml,PetscScalar * rho1l,PetscScalar * rr,PetscScalar * uxr,PetscScalar * pr,PetscScalar * utr,PetscScalar * ubr,PetscScalar * gamr,PetscScalar * rho1r,PetscScalar * rx,PetscScalar * uxm,PetscScalar * px,PetscScalar * utx,PetscScalar * ubx,PetscScalar * gam,PetscScalar * rho1)582de8de29fSMatthew G. Knepley static int riemannsolver(PetscScalar *xcen, PetscScalar *xp, PetscScalar *dtt, PetscScalar *rl, PetscScalar *uxl, PetscScalar *pl, PetscScalar *utl, PetscScalar *ubl, PetscScalar *gaml, PetscScalar *rho1l, PetscScalar *rr, PetscScalar *uxr, PetscScalar *pr, PetscScalar *utr, PetscScalar *ubr, PetscScalar *gamr, PetscScalar *rho1r, PetscScalar *rx, PetscScalar *uxm, PetscScalar *px, PetscScalar *utx, PetscScalar *ubx, PetscScalar *gam, PetscScalar *rho1)
583de8de29fSMatthew G. Knepley {
584de8de29fSMatthew G. Knepley /* System generated locals */
585de8de29fSMatthew G. Knepley PetscScalar d__1, d__2;
586de8de29fSMatthew G. Knepley
587de8de29fSMatthew G. Knepley /* Local variables */
588de8de29fSMatthew G. Knepley static PetscScalar s, c0, p0, r0, u0, w0, x0, x2, ri, cx, sgn0, wsp0, gasc1, gasc2, gasc3, gasc4;
589de8de29fSMatthew G. Knepley static PetscScalar cstar, pstar, rstar, ustar, xstar, wspst, ushock, streng, rstarl, rstarr, rstars;
590de8de29fSMatthew G. Knepley int iwave;
591de8de29fSMatthew G. Knepley
592de8de29fSMatthew G. Knepley if (*rl == *rr && *pr == *pl && *uxl == *uxr && *gaml == *gamr) {
593de8de29fSMatthew G. Knepley *rx = *rl;
594de8de29fSMatthew G. Knepley *px = *pl;
595de8de29fSMatthew G. Knepley *uxm = *uxl;
596de8de29fSMatthew G. Knepley *gam = *gaml;
597de8de29fSMatthew G. Knepley x2 = *xcen + *uxm * *dtt;
598de8de29fSMatthew G. Knepley
599de8de29fSMatthew G. Knepley if (PetscRealPart(*xp) >= PetscRealPart(x2)) {
600de8de29fSMatthew G. Knepley *utx = *utr;
601de8de29fSMatthew G. Knepley *ubx = *ubr;
602de8de29fSMatthew G. Knepley *rho1 = *rho1r;
603de8de29fSMatthew G. Knepley } else {
604de8de29fSMatthew G. Knepley *utx = *utl;
605de8de29fSMatthew G. Knepley *ubx = *ubl;
606de8de29fSMatthew G. Knepley *rho1 = *rho1l;
607de8de29fSMatthew G. Knepley }
608de8de29fSMatthew G. Knepley return 0;
609de8de29fSMatthew G. Knepley }
610de8de29fSMatthew G. Knepley iwave = riem1mdt(gaml, gamr, rl, pl, uxl, rr, pr, uxr, &rstarl, &rstarr, &pstar, &ustar);
611de8de29fSMatthew G. Knepley
612de8de29fSMatthew G. Knepley x2 = *xcen + ustar * *dtt;
613de8de29fSMatthew G. Knepley d__1 = *xp - x2;
614de8de29fSMatthew G. Knepley sgn0 = sign(d__1);
615de8de29fSMatthew G. Knepley /* x is in 3-wave if sgn0 = 1 */
616de8de29fSMatthew G. Knepley /* x is in 1-wave if sgn0 = -1 */
617de8de29fSMatthew G. Knepley r0 = cvmgm_(rl, rr, &sgn0);
618de8de29fSMatthew G. Knepley p0 = cvmgm_(pl, pr, &sgn0);
619de8de29fSMatthew G. Knepley u0 = cvmgm_(uxl, uxr, &sgn0);
620de8de29fSMatthew G. Knepley *gam = cvmgm_(gaml, gamr, &sgn0);
621de8de29fSMatthew G. Knepley gasc1 = *gam - 1.;
622de8de29fSMatthew G. Knepley gasc2 = (*gam + 1.) * .5;
623de8de29fSMatthew G. Knepley gasc3 = gasc2 / *gam;
624de8de29fSMatthew G. Knepley gasc4 = 1. / (*gam - 1.);
625de8de29fSMatthew G. Knepley c0 = PetscSqrtScalar(*gam * p0 / r0);
626de8de29fSMatthew G. Knepley streng = pstar - p0;
627de8de29fSMatthew G. Knepley w0 = *gam * r0 * p0 * (gasc3 * streng / p0 + 1.);
628de8de29fSMatthew G. Knepley rstars = r0 / (1. - r0 * streng / w0);
629de8de29fSMatthew G. Knepley d__1 = p0 / pstar;
630de8de29fSMatthew G. Knepley d__2 = -1. / *gam;
631de8de29fSMatthew G. Knepley rstarr = r0 * PetscPowScalar(d__1, d__2);
632de8de29fSMatthew G. Knepley rstar = cvmgm_(&rstarr, &rstars, &streng);
633de8de29fSMatthew G. Knepley w0 = PetscSqrtScalar(w0);
634de8de29fSMatthew G. Knepley cstar = PetscSqrtScalar(*gam * pstar / rstar);
635de8de29fSMatthew G. Knepley wsp0 = u0 + sgn0 * c0;
636de8de29fSMatthew G. Knepley wspst = ustar + sgn0 * cstar;
637de8de29fSMatthew G. Knepley ushock = ustar + sgn0 * w0 / rstar;
638de8de29fSMatthew G. Knepley wspst = cvmgp_(&ushock, &wspst, &streng);
639de8de29fSMatthew G. Knepley wsp0 = cvmgp_(&ushock, &wsp0, &streng);
640de8de29fSMatthew G. Knepley x0 = *xcen + wsp0 * *dtt;
641de8de29fSMatthew G. Knepley xstar = *xcen + wspst * *dtt;
642de8de29fSMatthew G. Knepley /* using gas formula to evaluate rarefaction wave */
643de8de29fSMatthew G. Knepley /* ri : reiman invariant */
644de8de29fSMatthew G. Knepley ri = u0 - sgn0 * 2. * gasc4 * c0;
645de8de29fSMatthew G. Knepley cx = sgn0 * .5 * gasc1 / gasc2 * ((*xp - *xcen) / *dtt - ri);
646de8de29fSMatthew G. Knepley *uxm = ri + sgn0 * 2. * gasc4 * cx;
647de8de29fSMatthew G. Knepley s = p0 / PetscPowScalar(r0, *gam);
648de8de29fSMatthew G. Knepley d__1 = cx * cx / (*gam * s);
649de8de29fSMatthew G. Knepley *rx = PetscPowScalar(d__1, gasc4);
650de8de29fSMatthew G. Knepley *px = cx * cx * *rx / *gam;
651de8de29fSMatthew G. Knepley d__1 = sgn0 * (x0 - *xp);
652de8de29fSMatthew G. Knepley *rx = cvmgp_(rx, &r0, &d__1);
653de8de29fSMatthew G. Knepley d__1 = sgn0 * (x0 - *xp);
654de8de29fSMatthew G. Knepley *px = cvmgp_(px, &p0, &d__1);
655de8de29fSMatthew G. Knepley d__1 = sgn0 * (x0 - *xp);
656de8de29fSMatthew G. Knepley *uxm = cvmgp_(uxm, &u0, &d__1);
657de8de29fSMatthew G. Knepley d__1 = sgn0 * (xstar - *xp);
658de8de29fSMatthew G. Knepley *rx = cvmgm_(rx, &rstar, &d__1);
659de8de29fSMatthew G. Knepley d__1 = sgn0 * (xstar - *xp);
660de8de29fSMatthew G. Knepley *px = cvmgm_(px, &pstar, &d__1);
661de8de29fSMatthew G. Knepley d__1 = sgn0 * (xstar - *xp);
662de8de29fSMatthew G. Knepley *uxm = cvmgm_(uxm, &ustar, &d__1);
663de8de29fSMatthew G. Knepley if (PetscRealPart(*xp) >= PetscRealPart(x2)) {
664de8de29fSMatthew G. Knepley *utx = *utr;
665de8de29fSMatthew G. Knepley *ubx = *ubr;
666de8de29fSMatthew G. Knepley *rho1 = *rho1r;
667de8de29fSMatthew G. Knepley } else {
668de8de29fSMatthew G. Knepley *utx = *utl;
669de8de29fSMatthew G. Knepley *ubx = *ubl;
670de8de29fSMatthew G. Knepley *rho1 = *rho1l;
671de8de29fSMatthew G. Knepley }
672de8de29fSMatthew G. Knepley return iwave;
673de8de29fSMatthew G. Knepley }
674de8de29fSMatthew G. Knepley
godunovflux(const PetscScalar * ul,const PetscScalar * ur,PetscScalar * flux,const PetscReal * nn,int ndim,PetscReal gamma)675de8de29fSMatthew G. Knepley static int godunovflux(const PetscScalar *ul, const PetscScalar *ur, PetscScalar *flux, const PetscReal *nn, int ndim, PetscReal gamma)
676de8de29fSMatthew G. Knepley {
677de8de29fSMatthew G. Knepley /* System generated locals */
678de8de29fSMatthew G. Knepley int i__1, iwave;
679de8de29fSMatthew G. Knepley PetscScalar d__1, d__2, d__3;
680de8de29fSMatthew G. Knepley
681de8de29fSMatthew G. Knepley /* Local variables */
682de8de29fSMatthew G. Knepley static int k;
683de8de29fSMatthew G. Knepley static PetscScalar bn[3], fn, ft, tg[3], pl, rl, pm, pr, rr, xp, ubl, ubm, ubr, dtt, unm, tmp, utl, utm, uxl, utr, uxr, gaml, gamm, gamr, xcen, rhom, rho1l, rho1m, rho1r;
684de8de29fSMatthew G. Knepley
685de8de29fSMatthew G. Knepley /* Function Body */
686de8de29fSMatthew G. Knepley xcen = 0.;
687de8de29fSMatthew G. Knepley xp = 0.;
688de8de29fSMatthew G. Knepley i__1 = ndim;
689de8de29fSMatthew G. Knepley for (k = 1; k <= i__1; ++k) {
690de8de29fSMatthew G. Knepley tg[k - 1] = 0.;
691de8de29fSMatthew G. Knepley bn[k - 1] = 0.;
692de8de29fSMatthew G. Knepley }
693de8de29fSMatthew G. Knepley dtt = 1.;
694de8de29fSMatthew G. Knepley if (ndim == 3) {
695de8de29fSMatthew G. Knepley if (nn[0] == 0. && nn[1] == 0.) {
696de8de29fSMatthew G. Knepley tg[0] = 1.;
697de8de29fSMatthew G. Knepley } else {
698de8de29fSMatthew G. Knepley tg[0] = -nn[1];
699de8de29fSMatthew G. Knepley tg[1] = nn[0];
700de8de29fSMatthew G. Knepley }
701de8de29fSMatthew G. Knepley /* tmp=dsqrt(tg(1)**2+tg(2)**2) */
702de8de29fSMatthew G. Knepley /* tg=tg/tmp */
703de8de29fSMatthew G. Knepley bn[0] = -nn[2] * tg[1];
704de8de29fSMatthew G. Knepley bn[1] = nn[2] * tg[0];
705de8de29fSMatthew G. Knepley bn[2] = nn[0] * tg[1] - nn[1] * tg[0];
706de8de29fSMatthew G. Knepley /* Computing 2nd power */
707de8de29fSMatthew G. Knepley d__1 = bn[0];
708de8de29fSMatthew G. Knepley /* Computing 2nd power */
709de8de29fSMatthew G. Knepley d__2 = bn[1];
710de8de29fSMatthew G. Knepley /* Computing 2nd power */
711de8de29fSMatthew G. Knepley d__3 = bn[2];
712de8de29fSMatthew G. Knepley tmp = PetscSqrtScalar(d__1 * d__1 + d__2 * d__2 + d__3 * d__3);
713de8de29fSMatthew G. Knepley i__1 = ndim;
714de8de29fSMatthew G. Knepley for (k = 1; k <= i__1; ++k) bn[k - 1] /= tmp;
715de8de29fSMatthew G. Knepley } else if (ndim == 2) {
716de8de29fSMatthew G. Knepley tg[0] = -nn[1];
717de8de29fSMatthew G. Knepley tg[1] = nn[0];
718de8de29fSMatthew G. Knepley /* tmp=dsqrt(tg(1)**2+tg(2)**2) */
719de8de29fSMatthew G. Knepley /* tg=tg/tmp */
720de8de29fSMatthew G. Knepley bn[0] = 0.;
721de8de29fSMatthew G. Knepley bn[1] = 0.;
722de8de29fSMatthew G. Knepley bn[2] = 1.;
723de8de29fSMatthew G. Knepley }
724de8de29fSMatthew G. Knepley rl = ul[0];
725de8de29fSMatthew G. Knepley rr = ur[0];
726de8de29fSMatthew G. Knepley uxl = 0.;
727de8de29fSMatthew G. Knepley uxr = 0.;
728de8de29fSMatthew G. Knepley utl = 0.;
729de8de29fSMatthew G. Knepley utr = 0.;
730de8de29fSMatthew G. Knepley ubl = 0.;
731de8de29fSMatthew G. Knepley ubr = 0.;
732de8de29fSMatthew G. Knepley i__1 = ndim;
733de8de29fSMatthew G. Knepley for (k = 1; k <= i__1; ++k) {
734de8de29fSMatthew G. Knepley uxl += ul[k] * nn[k - 1];
735de8de29fSMatthew G. Knepley uxr += ur[k] * nn[k - 1];
736de8de29fSMatthew G. Knepley utl += ul[k] * tg[k - 1];
737de8de29fSMatthew G. Knepley utr += ur[k] * tg[k - 1];
738de8de29fSMatthew G. Knepley ubl += ul[k] * bn[k - 1];
739de8de29fSMatthew G. Knepley ubr += ur[k] * bn[k - 1];
740de8de29fSMatthew G. Knepley }
741de8de29fSMatthew G. Knepley uxl /= rl;
742de8de29fSMatthew G. Knepley uxr /= rr;
743de8de29fSMatthew G. Knepley utl /= rl;
744de8de29fSMatthew G. Knepley utr /= rr;
745de8de29fSMatthew G. Knepley ubl /= rl;
746de8de29fSMatthew G. Knepley ubr /= rr;
747de8de29fSMatthew G. Knepley
748de8de29fSMatthew G. Knepley gaml = gamma;
749de8de29fSMatthew G. Knepley gamr = gamma;
750de8de29fSMatthew G. Knepley /* Computing 2nd power */
751de8de29fSMatthew G. Knepley d__1 = uxl;
752de8de29fSMatthew G. Knepley /* Computing 2nd power */
753de8de29fSMatthew G. Knepley d__2 = utl;
754de8de29fSMatthew G. Knepley /* Computing 2nd power */
755de8de29fSMatthew G. Knepley d__3 = ubl;
756de8de29fSMatthew G. Knepley pl = (gamma - 1.) * (ul[ndim + 1] - rl * .5 * (d__1 * d__1 + d__2 * d__2 + d__3 * d__3));
757de8de29fSMatthew G. Knepley /* Computing 2nd power */
758de8de29fSMatthew G. Knepley d__1 = uxr;
759de8de29fSMatthew G. Knepley /* Computing 2nd power */
760de8de29fSMatthew G. Knepley d__2 = utr;
761de8de29fSMatthew G. Knepley /* Computing 2nd power */
762de8de29fSMatthew G. Knepley d__3 = ubr;
763de8de29fSMatthew G. Knepley pr = (gamma - 1.) * (ur[ndim + 1] - rr * .5 * (d__1 * d__1 + d__2 * d__2 + d__3 * d__3));
764de8de29fSMatthew G. Knepley rho1l = rl;
765de8de29fSMatthew G. Knepley rho1r = rr;
766de8de29fSMatthew G. Knepley
767de8de29fSMatthew G. Knepley iwave = riemannsolver(&xcen, &xp, &dtt, &rl, &uxl, &pl, &utl, &ubl, &gaml, &rho1l, &rr, &uxr, &pr, &utr, &ubr, &gamr, &rho1r, &rhom, &unm, &pm, &utm, &ubm, &gamm, &rho1m);
768de8de29fSMatthew G. Knepley
769de8de29fSMatthew G. Knepley flux[0] = rhom * unm;
770de8de29fSMatthew G. Knepley fn = rhom * unm * unm + pm;
771de8de29fSMatthew G. Knepley ft = rhom * unm * utm;
772de8de29fSMatthew G. Knepley /* flux(2)=fn*nn(1)+ft*nn(2) */
773de8de29fSMatthew G. Knepley /* flux(3)=fn*tg(1)+ft*tg(2) */
774de8de29fSMatthew G. Knepley flux[1] = fn * nn[0] + ft * tg[0];
775de8de29fSMatthew G. Knepley flux[2] = fn * nn[1] + ft * tg[1];
776de8de29fSMatthew G. Knepley /* flux(2)=rhom*unm*(unm)+pm */
777de8de29fSMatthew G. Knepley /* flux(3)=rhom*(unm)*utm */
778de8de29fSMatthew G. Knepley if (ndim == 3) flux[3] = rhom * unm * ubm;
779de8de29fSMatthew G. Knepley flux[ndim + 1] = (rhom * .5 * (unm * unm + utm * utm + ubm * ubm) + gamm / (gamm - 1.) * pm) * unm;
780de8de29fSMatthew G. Knepley return iwave;
781de8de29fSMatthew G. Knepley } /* godunovflux_ */
782de8de29fSMatthew G. Knepley
783de8de29fSMatthew G. Knepley /* PetscReal* => EulerNode* conversion */
PhysicsRiemann_Euler_Godunov(PetscInt dim,PetscInt Nf,const PetscReal * qp,const PetscReal * n,const PetscScalar * xL,const PetscScalar * xR,PetscInt numConstants,const PetscScalar constants[],PetscScalar * flux,Physics phys)784de8de29fSMatthew G. Knepley static void PhysicsRiemann_Euler_Godunov(PetscInt dim, PetscInt Nf, const PetscReal *qp, const PetscReal *n, const PetscScalar *xL, const PetscScalar *xR, PetscInt numConstants, const PetscScalar constants[], PetscScalar *flux, Physics phys)
785de8de29fSMatthew G. Knepley {
786de8de29fSMatthew G. Knepley Physics_Euler *eu = (Physics_Euler *)phys->data;
787de8de29fSMatthew G. Knepley const PetscReal gamma = eu->gamma;
788a7d931c6SMatthew G. Knepley PetscReal zero = 0.;
789de8de29fSMatthew G. Knepley PetscReal cL, cR, speed, velL, velR, nn[DIM], s2;
790de8de29fSMatthew G. Knepley PetscInt i;
791de8de29fSMatthew G. Knepley PetscErrorCode ierr;
792de8de29fSMatthew G. Knepley
793de8de29fSMatthew G. Knepley PetscFunctionBeginUser;
794de8de29fSMatthew G. Knepley for (i = 0, s2 = 0.; i < DIM; i++) {
795de8de29fSMatthew G. Knepley nn[i] = n[i];
796de8de29fSMatthew G. Knepley s2 += nn[i] * nn[i];
797de8de29fSMatthew G. Knepley }
798de8de29fSMatthew G. Knepley s2 = PetscSqrtReal(s2); /* |n|_2 = sum(n^2)^1/2 */
799de8de29fSMatthew G. Knepley for (i = 0.; i < DIM; i++) nn[i] /= s2;
800de8de29fSMatthew G. Knepley if (0) { /* Rusanov */
801de8de29fSMatthew G. Knepley const EulerNode *uL = (const EulerNode *)xL, *uR = (const EulerNode *)xR;
802de8de29fSMatthew G. Knepley EulerNodeUnion fL, fR;
803a7d931c6SMatthew G. Knepley ierr = EulerFlux(phys, nn, uL, &fL.eulernode);
804a7d931c6SMatthew G. Knepley if (ierr) {
805a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPush(PETSC_FP_TRAP_OFF));
806a7d931c6SMatthew G. Knepley for (i = 0; i < 2 + dim; i++) fL.vals[i] = zero / zero;
807a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPop());
808a7d931c6SMatthew G. Knepley }
809a7d931c6SMatthew G. Knepley ierr = EulerFlux(phys, nn, uR, &fR.eulernode);
810a7d931c6SMatthew G. Knepley if (ierr) {
811a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPush(PETSC_FP_TRAP_OFF));
812a7d931c6SMatthew G. Knepley for (i = 0; i < 2 + dim; i++) fR.vals[i] = zero / zero;
813a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPop());
814a7d931c6SMatthew G. Knepley }
815de8de29fSMatthew G. Knepley ierr = SpeedOfSound_PG(gamma, uL, &cL);
816a7d931c6SMatthew G. Knepley if (ierr) {
817a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPush(PETSC_FP_TRAP_OFF));
818a7d931c6SMatthew G. Knepley cL = zero / zero;
819a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPop());
820a7d931c6SMatthew G. Knepley }
821de8de29fSMatthew G. Knepley ierr = SpeedOfSound_PG(gamma, uR, &cR);
822a7d931c6SMatthew G. Knepley if (ierr) {
823a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPush(PETSC_FP_TRAP_OFF));
824a7d931c6SMatthew G. Knepley cR = zero / zero;
825a7d931c6SMatthew G. Knepley PetscCallVoid(PetscFPTrapPop());
826a7d931c6SMatthew G. Knepley }
827de8de29fSMatthew G. Knepley velL = DotDIMReal(uL->ru, nn) / uL->r;
828de8de29fSMatthew G. Knepley velR = DotDIMReal(uR->ru, nn) / uR->r;
829de8de29fSMatthew G. Knepley speed = PetscMax(velR + cR, velL + cL);
830de8de29fSMatthew G. Knepley for (i = 0; i < 2 + dim; i++) flux[i] = 0.5 * ((fL.vals[i] + fR.vals[i]) + speed * (xL[i] - xR[i])) * s2;
831de8de29fSMatthew G. Knepley } else {
832de8de29fSMatthew G. Knepley /* int iwave = */
833de8de29fSMatthew G. Knepley godunovflux(xL, xR, flux, nn, DIM, gamma);
834de8de29fSMatthew G. Knepley for (i = 0; i < 2 + dim; i++) flux[i] *= s2;
835de8de29fSMatthew G. Knepley }
836de8de29fSMatthew G. Knepley PetscFunctionReturnVoid();
837de8de29fSMatthew G. Knepley }
838de8de29fSMatthew G. Knepley
839de8de29fSMatthew G. Knepley #ifdef PETSC_HAVE_LIBCEED
PhysicsRiemann_Euler_Godunov_CEED(PetscCtx ctx,CeedInt Q,const CeedScalar * const in[],CeedScalar * const out[])840*2a8381b2SBarry Smith CEED_QFUNCTION(PhysicsRiemann_Euler_Godunov_CEED)(PetscCtx ctx, CeedInt Q, const CeedScalar *const in[], CeedScalar *const out[])
841de8de29fSMatthew G. Knepley {
842de8de29fSMatthew G. Knepley const CeedScalar *xL = in[0], *xR = in[1], *geom = in[2];
843de8de29fSMatthew G. Knepley CeedScalar *cL = out[0], *cR = out[1];
844de8de29fSMatthew G. Knepley const Physics_Euler *eu = (Physics_Euler *)ctx;
845de8de29fSMatthew G. Knepley struct _n_Physics phys;
846de8de29fSMatthew G. Knepley
847de8de29fSMatthew G. Knepley phys.data = (void *)eu;
848de8de29fSMatthew G. Knepley CeedPragmaSIMD for (CeedInt i = 0; i < Q; ++i)
849de8de29fSMatthew G. Knepley {
850de8de29fSMatthew G. Knepley const CeedScalar qL[DIM + 2] = {xL[i + Q * 0], xL[i + Q * 1], xL[i + Q * 2], xL[i + Q * 3]};
851de8de29fSMatthew G. Knepley const CeedScalar qR[DIM + 2] = {xR[i + Q * 0], xR[i + Q * 1], xR[i + Q * 2], xR[i + Q * 3]};
852de8de29fSMatthew G. Knepley const CeedScalar n[DIM] = {geom[i + Q * 0], geom[i + Q * 1]};
853de8de29fSMatthew G. Knepley CeedScalar flux[DIM + 2];
854de8de29fSMatthew G. Knepley
855de8de29fSMatthew G. Knepley #if 0
856de8de29fSMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Cell %d Normal\n", 0);
8573a7d0413SPierre Jolivet for (CeedInt j = 0; j < DIM; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g |\n", n[j]);
858de8de29fSMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Cell %d Element Residual: left state\n", 0);
8593a7d0413SPierre Jolivet for (CeedInt j = 0; j < DIM + 2; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g |\n", qL[j]);
860de8de29fSMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Cell %d Element Residual: right state\n", 0);
8613a7d0413SPierre Jolivet for (CeedInt j = 0; j < DIM + 2; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g |\n", qR[j]);
862de8de29fSMatthew G. Knepley #endif
863de8de29fSMatthew G. Knepley PhysicsRiemann_Euler_Godunov(DIM, DIM + 2, NULL, n, qL, qR, 0, NULL, flux, &phys);
864de8de29fSMatthew G. Knepley for (CeedInt j = 0; j < DIM + 2; ++j) {
865de8de29fSMatthew G. Knepley cL[i + Q * j] = -flux[j] / geom[i + Q * 2];
866de8de29fSMatthew G. Knepley cR[i + Q * j] = flux[j] / geom[i + Q * 3];
867de8de29fSMatthew G. Knepley }
868de8de29fSMatthew G. Knepley #if 0
869de8de29fSMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Cell %d Element Residual: left flux\n", 0);
8703a7d0413SPierre Jolivet for (CeedInt j = 0; j < DIM + 2; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g | (%g)\n", cL[i + Q * j], geom[i + Q * 2]);
871de8de29fSMatthew G. Knepley PetscPrintf(PETSC_COMM_SELF, "Cell %d Element Residual: right flux\n", 0);
8723a7d0413SPierre Jolivet for (CeedInt j = 0; j < DIM + 2; ++j) PetscPrintf(PETSC_COMM_SELF, " | %g | (%g)\n", cR[i + Q * j], geom[i + Q * 3]);
873de8de29fSMatthew G. Knepley #endif
874de8de29fSMatthew G. Knepley }
875de8de29fSMatthew G. Knepley return CEED_ERROR_SUCCESS;
876de8de29fSMatthew G. Knepley }
877de8de29fSMatthew G. Knepley #endif
878