| /honee/qfunctions/spanstats/ |
| H A D | turbulence.h | 51 const CeedScalar wdetJ = q_data[0][i] * delta_t; in ChildStatsCollection() local
56 v[TURB_MEAN_DENSITY][i] = wdetJ * s.U.density; in ChildStatsCollection()
57 v[TURB_MEAN_PRESSURE][i] = wdetJ * s.Y.pressure; in ChildStatsCollection()
58 v[TURB_MEAN_PRESSURE_SQUARED][i] = wdetJ * Square(s.Y.pressure); in ChildStatsCollection()
59 v[TURB_MEAN_PRESSURE_VELOCITY_X][i] = wdetJ * s.Y.pressure * s.Y.velocity[0]; in ChildStatsCollection()
60 v[TURB_MEAN_PRESSURE_VELOCITY_Y][i] = wdetJ * s.Y.pressure * s.Y.velocity[1]; in ChildStatsCollection()
61 v[TURB_MEAN_PRESSURE_VELOCITY_Z][i] = wdetJ * s.Y.pressure * s.Y.velocity[2]; in ChildStatsCollection()
62 v[TURB_MEAN_DENSITY_TEMPERATURE][i] = wdetJ * s.U.density * s.Y.temperature; in ChildStatsCollection()
63 …v[TURB_MEAN_DENSITY_TEMPERATURE_FLUX_X][i] = wdetJ * s.U.density * s.Y.temperature * s.Y.velocity[… in ChildStatsCollection()
64 …v[TURB_MEAN_DENSITY_TEMPERATURE_FLUX_Y][i] = wdetJ * s.U.density * s.Y.temperature * s.Y.velocity[… in ChildStatsCollection()
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| H A D | cflpe.h | 31 CeedScalar Pe, cfl, wdetJ; in ChildStatsCollection_CflPe() local
37 QdataUnpack_2D(Q, i, q_data, &wdetJ, dXdx); in ChildStatsCollection_CflPe()
38 wdetJ = wdetJ * delta_t; in ChildStatsCollection_CflPe()
50 QdataUnpack_3D(Q, i, q_data, &wdetJ, dXdx); in ChildStatsCollection_CflPe()
51 wdetJ = wdetJ * delta_t; in ChildStatsCollection_CflPe()
62 v[0][i] = wdetJ * cfl; in ChildStatsCollection_CflPe()
63 v[1][i] = wdetJ * Square(cfl); in ChildStatsCollection_CflPe()
64 v[2][i] = wdetJ * Cube(cfl); in ChildStatsCollection_CflPe()
65 v[3][i] = wdetJ * Pe; in ChildStatsCollection_CflPe()
66 v[4][i] = wdetJ * Square(Pe); in ChildStatsCollection_CflPe()
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| /honee/qfunctions/ |
| H A D | differential_filter.h | 40 const CeedScalar wdetJ = q_data[0][i]; in DifferentialFilter_RHS() local
43 v0[DIFF_FILTER_PRESSURE][i] = wdetJ * s.Y.pressure; in DifferentialFilter_RHS()
44 v0[DIFF_FILTER_VELOCITY_X][i] = wdetJ * s.Y.velocity[0]; in DifferentialFilter_RHS()
45 v0[DIFF_FILTER_VELOCITY_Y][i] = wdetJ * s.Y.velocity[1]; in DifferentialFilter_RHS()
46 v0[DIFF_FILTER_VELOCITY_Z][i] = wdetJ * s.Y.velocity[2]; in DifferentialFilter_RHS()
47 v0[DIFF_FILTER_TEMPERATURE][i] = wdetJ * s.Y.temperature; in DifferentialFilter_RHS()
48 v1[DIFF_FILTER_VELOCITY_SQUARED_XX][i] = wdetJ * s.Y.velocity[0] * s.Y.velocity[0]; in DifferentialFilter_RHS()
49 v1[DIFF_FILTER_VELOCITY_SQUARED_YY][i] = wdetJ * s.Y.velocity[1] * s.Y.velocity[1]; in DifferentialFilter_RHS()
50 v1[DIFF_FILTER_VELOCITY_SQUARED_ZZ][i] = wdetJ * s.Y.velocity[2] * s.Y.velocity[2]; in DifferentialFilter_RHS()
51 v1[DIFF_FILTER_VELOCITY_SQUARED_YZ][i] = wdetJ * s.Y.velocity[1] * s.Y.velocity[2]; in DifferentialFilter_RHS()
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| H A D | utils.h | 347 …(CeedInt dim, CeedInt Q, CeedInt i, const CeedScalar *q_data, CeedScalar *wdetJ, CeedScalar *dXdx)… in QdataUnpack_ND() argument
350 if (wdetJ) StoredValuesUnpack(Q, i, 0, 1, q_data, wdetJ); in QdataUnpack_ND()
354 if (wdetJ) StoredValuesUnpack(Q, i, 0, 1, q_data, wdetJ); in QdataUnpack_ND()
374 …D(CeedInt dim, CeedInt Q, CeedInt i, const CeedScalar *q_data, CeedScalar *wdetJ, CeedScalar *dXdx, in QdataBoundaryUnpack_ND() argument
378 if (wdetJ) StoredValuesUnpack(Q, i, 0, 1, q_data, wdetJ); in QdataBoundaryUnpack_ND()
382 if (wdetJ) StoredValuesUnpack(Q, i, 0, 1, q_data, wdetJ); in QdataBoundaryUnpack_ND()
403 …ryGradientUnpack_ND(CeedInt dim, CeedInt Q, CeedInt i, const CeedScalar *q_data, CeedScalar *wdetJ, in QdataBoundaryGradientUnpack_ND() argument
407 if (wdetJ) StoredValuesUnpack(Q, i, 0, 1, q_data, wdetJ); in QdataBoundaryGradientUnpack_ND()
412 if (wdetJ) StoredValuesUnpack(Q, i, 0, 1, q_data, wdetJ); in QdataBoundaryGradientUnpack_ND()
431 …dataUnpack_3D(CeedInt Q, CeedInt i, const CeedScalar *q_data, CeedScalar *wdetJ, CeedScalar dXdx[3… in QdataUnpack_3D() argument
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| H A D | setupgeo2d.h | 48 const CeedScalar wdetJ = w[i] * detJ; in Setup2d() local
50 StoredValuesPack(Q, i, 0, 1, &wdetJ, q_data); in Setup2d()
89 const CeedScalar wdetJ = w[i] * detJb; in SetupBoundary2d() local
91 StoredValuesPack(Q, i, 0, 1, &wdetJ, q_data_sur); in SetupBoundary2d()
145 const CeedScalar wdetJ = w[i] * detJb; in Setup2D_3Dcoords() local
147 StoredValuesPack(Q, i, 0, 1, &wdetJ, q_data_sur); in Setup2D_3Dcoords()
180 const CeedScalar wdetJ = w[i] * detJ_face; in Setup2DBoundaryGradient() local
183 StoredValuesPack(Q, i, 0, 1, &wdetJ, q_data_sur); in Setup2DBoundaryGradient()
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| H A D | monitor_totalkineticenergy.h | 19 CeedScalar wdetJ, dXdx[3][3], vorticity[3], kmstrain_rate[6], strain_rate[3][3]; in MonitorTotalKineticEnergy() local
22 QdataUnpack_3D(Q, i, q_data, &wdetJ, dXdx); in MonitorTotalKineticEnergy()
25 v[0][i] = wdetJ * 0.5 * s.U.density * Dot3(s.Y.velocity, s.Y.velocity); in MonitorTotalKineticEnergy()
30 v[1][i] = wdetJ * -2 * gas.mu * DotN((CeedScalar *)strain_rate, (CeedScalar *)strain_rate, 9); in MonitorTotalKineticEnergy()
31 v[2][i] = wdetJ * -gas.lambda * gas.mu * Square(div_u); in MonitorTotalKineticEnergy()
32 v[3][i] = wdetJ * s.Y.pressure * div_u; in MonitorTotalKineticEnergy()
35 v[4][i] = wdetJ * gas.mu * Dot3(vorticity, vorticity); in MonitorTotalKineticEnergy()
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| H A D | advection.h | 284 CeedScalar wdetJ, dXdx[9]; in IFunction_AdvectionGeneric() local
285 QdataUnpack_ND(dim, Q, i, q_data, &wdetJ, dXdx); in IFunction_AdvectionGeneric()
293 v[f][i] = wdetJ * q_dot[f][i]; // K Mass/transient term in IFunction_AdvectionGeneric()
306 v[4][i] = wdetJ * q_dot[4][i]; // transient part (ALWAYS) in IFunction_AdvectionGeneric()
308 v[4][i] += wdetJ * strong_conv; in IFunction_AdvectionGeneric()
310 for (CeedInt j = 0; j < dim; j++) grad_v[j][4][i] = -wdetJ * s.U.E_total * uX[j]; in IFunction_AdvectionGeneric()
318 for (CeedInt k = 0; k < dim; k++) grad_v[k][4][i] -= wdetJ * Fe_dXdx[k]; in IFunction_AdvectionGeneric()
327 grad_v[j][4][i] += wdetJ * TauS * uX[j] * strong_conv; in IFunction_AdvectionGeneric()
331 grad_v[j][4][i] += wdetJ * TauS * uX[j] * (q_dot[4][i] + strong_conv + divFdiff_i); in IFunction_AdvectionGeneric()
361 CeedScalar wdetJ, dXdx[9]; in MassFunction_AdvectionGeneric() local
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| H A D | setupgeo.h | 50 const CeedScalar wdetJ = w[i] * detJ; in Setup() local
52 StoredValuesPack(Q, i, 0, 1, &wdetJ, q_data); in Setup()
110 const CeedScalar wdetJ = w[i] * detJb; in SetupBoundary() local
112 StoredValuesPack(Q, i, 0, 1, &wdetJ, q_data_sur); in SetupBoundary()
150 const CeedScalar wdetJ = w[i] * detJ_face; in SetupBoundaryGradient() local
153 StoredValuesPack(Q, i, 0, 1, &wdetJ, q_data_sur); in SetupBoundaryGradient()
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| H A D | newtonian.h | 58 CeedScalar wdetJ, dXdx[3][3]; in MassFunction_Newtonian() local
59 QdataUnpack_3D(Q, i, q_data, &wdetJ, dXdx); in MassFunction_Newtonian()
63 v[f][i] = wdetJ * qi_dot[f]; in MassFunction_Newtonian()
76 …Grad_v[k][j][i] = wdetJ * (stab[j][0] * dXdx[k][0] + stab[j][1] * dXdx[k][1] + stab[j][2] * dXdx[k… in MassFunction_Newtonian()
204 CeedScalar U[5], wdetJ, dXdx[3][3]; in RHSFunction_Newtonian() local
207 QdataUnpack_3D(Q, i, q_data, &wdetJ, dXdx); in RHSFunction_Newtonian()
227 …for (CeedInt k = 0; k < 3; k++) Grad_v[k][j][i] = wdetJ * (dXdx[k][0] * Flux[j][0] + dXdx[k][1] * … in RHSFunction_Newtonian()
231 for (int j = 0; j < 5; j++) v[j][i] = wdetJ * body_force[j]; in RHSFunction_Newtonian()
238 for (int j = 0; j < 5; j++) v[j][i] -= wdetJ * idl_residual[j]; in RHSFunction_Newtonian()
251 …for (CeedInt k = 0; k < 3; k++) Grad_v[k][j][i] -= wdetJ * (stab[j][0] * dXdx[k][0] + stab[j][1] *… in RHSFunction_Newtonian()
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| H A D | monitor_cfl.h | 23 CeedScalar wdetJ, dXdx[2][2], gijd_mat[2][2] = {{0.}}; in MonitorCFL() local
25 QdataUnpack_2D(Q, i, q_data, &wdetJ, dXdx); in MonitorCFL()
33 CeedScalar wdetJ, dXdx[3][3], gijd_mat[3][3] = {{0.}}; in MonitorCFL() local
35 QdataUnpack_3D(Q, i, q_data, &wdetJ, dXdx); in MonitorCFL()
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| H A D | shocktube.h | 236 CeedScalar wdetJ, dXdx[3][3]; in EulerShockTube() local
237 QdataUnpack_3D(Q, i, q_data, &wdetJ, dXdx); in EulerShockTube()
268 …for (CeedInt j = 0; j < 3; j++) dv[j][0][i] += wdetJ * (rho * u[0] * dXdx[j][0] + rho * u[1] * dXd… in EulerShockTube()
273 …dv[k][j + 1][i] += wdetJ * ((rho * u[j] * u[0] + (j == 0 ? P : 0)) * dXdx[k][0] + (rho * u[j] * u[… in EulerShockTube()
279 …for (CeedInt j = 0; j < 3; j++) dv[j][4][i] += wdetJ * (E + P) * (u[0] * dXdx[j][0] + u[1] * dXdx[… in EulerShockTube()
304 for (CeedInt j = 0; j < 3; j++) dv[j][0][i] -= wdetJ * nu_shock * drhodx[j]; in EulerShockTube()
307 for (CeedInt j = 0; j < 3; j++) dv[j][k][i] -= wdetJ * nu_shock * du[k][j]; in EulerShockTube()
310 for (CeedInt j = 0; j < 3; j++) dv[j][4][i] -= wdetJ * nu_shock * dEdx[j]; in EulerShockTube()
354 …for (CeedInt k = 0; k < 3; k++) dv[k][j][i] -= wdetJ * (stab[j][0] * dXdx[k][0] + stab[j][1] * dXd… in EulerShockTube()
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| H A D | velocity_gradient_projection.h | 20 CeedScalar wdetJ, dXdx[3][3]; in VelocityGradientProjectionRHS() local
21 QdataUnpack_3D(Q, i, q_data, &wdetJ, dXdx); in VelocityGradientProjectionRHS()
32 v[j * 3 + k][i] = wdetJ * grad_velocity[j][k]; in VelocityGradientProjectionRHS()
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| H A D | eulervortex.h | 287 CeedScalar wdetJ, dXdx[3][3]; in Euler() local
288 QdataUnpack_3D(Q, i, q_data, &wdetJ, dXdx); in Euler()
317 …for (CeedInt j = 0; j < 3; j++) dv[j][0][i] += wdetJ * (rho * u[0] * dXdx[j][0] + rho * u[1] * dXd… in Euler()
322 …dv[k][j + 1][i] += wdetJ * ((rho * u[j] * u[0] + (j == 0 ? P : 0.)) * dXdx[k][0] + (rho * u[j] * u… in Euler()
328 …for (CeedInt j = 0; j < 3; j++) dv[j][4][i] += wdetJ * (E + P) * (u[0] * dXdx[j][0] + u[1] * dXdx[… in Euler()
370 …for (CeedInt k = 0; k < 3; k++) dv[k][j][i] -= wdetJ * (stab[j][0] * dXdx[k][0] + stab[j][1] * dXd… in Euler()
408 CeedScalar wdetJ, dXdx[3][3]; in IFunction_Euler() local
409 QdataUnpack_3D(Q, i, q_data, &wdetJ, dXdx); in IFunction_Euler()
435 for (CeedInt j = 0; j < 5; j++) v[j][i] += wdetJ * q_dot[j][i]; in IFunction_Euler()
439 …for (CeedInt j = 0; j < 3; j++) dv[j][0][i] -= wdetJ * (rho * u[0] * dXdx[j][0] + rho * u[1] * dXd… in IFunction_Euler()
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| H A D | grid_anisotropy_tensor.h | 39 const CeedScalar wdetJ = q_data[0][i]; in AnisotropyTensorProjection() local
51 for (CeedInt j = 0; j < 6; j++) v[j][i] = wdetJ * km_A_ij[j]; in AnisotropyTensorProjection()
52 v[6][i] = wdetJ * delta; in AnisotropyTensorProjection()
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| H A D | sgs_dd_model.h | 227 CeedScalar wdetJ, dXdx[3][3]; in IFunction_NodalSgs() local
228 QdataUnpack_3D(Q, i, q_data, &wdetJ, dXdx); in IFunction_NodalSgs()
236 …Grad_v[k][j][i] = -wdetJ * (dXdx[k][0] * Flux[j][0] + dXdx[k][1] * Flux[j][1] + dXdx[k][2] * Flux[… in IFunction_NodalSgs()
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