| /libCEED/examples/fluids/qfunctions/ |
| H A D | channel.h | 98 CeedScalar wdetJb, norm[3]; in Channel_Inflow() local
99 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, norm); in Channel_Inflow()
100 wdetJb *= is_implicit ? -1. : 1.; in Channel_Inflow()
134 v[0][i] -= wdetJb * rho_in * u_normal; in Channel_Inflow()
137 …for (CeedInt j = 0; j < 3; j++) v[j + 1][i] -= wdetJb * (rho_in * u_normal * s_exact.Y.velocity[j]… in Channel_Inflow()
140 v[4][i] -= wdetJb * u_normal * (E + P); in Channel_Inflow()
157 CeedScalar wdetJb, norm[3]; in Channel_Outflow() local
158 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, norm); in Channel_Outflow()
159 wdetJb *= is_implicit ? -1. : 1.; in Channel_Outflow()
174 v[0][i] -= wdetJb * rho * u_normal; in Channel_Outflow()
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| H A D | bc_freestream.h | 37 CeedScalar wdetJb, normal[3]; in Freestream() local
38 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, normal); in Freestream()
39 wdetJb *= is_implicit ? -1. : 1.; in Freestream()
52 for (CeedInt j = 0; j < 5; j++) v[j][i] = -wdetJb * Flux[j]; in Freestream()
101 CeedScalar wdetJb, normal[3]; in Freestream_Jacobian() local
102 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, normal); in Freestream_Jacobian()
103 wdetJb *= is_implicit ? -1. : 1.; in Freestream_Jacobian()
122 for (CeedInt j = 0; j < 5; j++) v[j][i] = -wdetJb * dFlux[j]; in Freestream_Jacobian()
189 CeedScalar wdetJb, dXdx[2][3], normal[3]; in RiemannOutflow() local
190 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, dXdx, normal); in RiemannOutflow()
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| H A D | bc_slip.h | 26 CeedScalar wdetJb, norm[3]; in Slip() local
27 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, norm); in Slip()
28 wdetJb *= newt_ctx->is_implicit ? -1. : 1.; in Slip()
40 for (CeedInt j = 0; j < 5; j++) v[j][i] = -wdetJb * Flux[j]; in Slip()
73 CeedScalar wdetJb, norm[3]; in Slip_Jacobian() local
74 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, norm); in Slip_Jacobian()
75 wdetJb *= newt_ctx->is_implicit ? -1. : 1.; in Slip_Jacobian()
99 for (CeedInt j = 0; j < 5; j++) v[j][i] = -wdetJb * dFlux[j]; in Slip_Jacobian()
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| H A D | blasius.h | 148 CeedScalar wdetJb, norm[3]; in Blasius_Inflow() local
149 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, norm); in Blasius_Inflow()
150 wdetJb *= is_implicit ? -1. : 1.; in Blasius_Inflow()
180 for (CeedInt j = 0; j < 5; j++) v[j][i] = -wdetJb * Flux[j]; in Blasius_Inflow()
204 CeedScalar wdetJb, norm[3]; in Blasius_Inflow_Jacobian() local
205 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, norm); in Blasius_Inflow_Jacobian()
206 wdetJb *= is_implicit ? -1. : 1.; in Blasius_Inflow_Jacobian()
231 v[0][i] = -wdetJb * drho * u_normal; in Blasius_Inflow_Jacobian()
233 v[j + 1][i] = -wdetJb * (drho * u_normal * s.Y.velocity[j] + norm[j] * dP); in Blasius_Inflow_Jacobian()
235 v[4][i] = -wdetJb * u_normal * (dE + dP); in Blasius_Inflow_Jacobian()
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| H A D | eulervortex.h | 551 CeedScalar wdetJb, norm[3]; in TravelingVortex_Inflow() local
552 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, norm); in TravelingVortex_Inflow()
553 wdetJb *= is_implicit ? -1. : 1.; in TravelingVortex_Inflow()
571 v[0][i] -= wdetJb * rho_inlet * face_normal; in TravelingVortex_Inflow()
574 …for (CeedInt j = 0; j < 3; j++) v[j + 1][i] -= wdetJb * (rho_inlet * face_normal * mean_velocity[j… in TravelingVortex_Inflow()
577 v[4][i] -= wdetJb * face_normal * (E_inlet + P_inlet); in TravelingVortex_Inflow()
607 CeedScalar wdetJb, norm[3]; in Euler_Outflow() local
608 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, NULL, norm); in Euler_Outflow()
609 wdetJb *= is_implicit ? -1. : 1.; in Euler_Outflow()
624 v[0][i] -= wdetJb * rho * u_normal; in Euler_Outflow()
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| H A D | stg_shur14.h | 354 CeedScalar wdetJb, dXdx[2][3], norm[3]; in StgShur14Inflow() local
355 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, dXdx, norm); in StgShur14Inflow()
356 wdetJb *= is_implicit ? -1. : 1.; in StgShur14Inflow()
394 v[0][i] -= wdetJb * rho * u_normal; in StgShur14Inflow()
397 for (CeedInt j = 0; j < 3; j++) v[j + 1][i] -= wdetJb * (rho * u_normal * u[j] + norm[j] * P); in StgShur14Inflow()
400 v[4][i] -= wdetJb * u_normal * (E + P); in StgShur14Inflow()
430 const CeedScalar wdetJb = (implicit ? -1. : 1.) * q_data_sur[0][i]; in StgShur14Inflow_Jacobian() local
455 v[0][i] = -wdetJb * drho * u_normal; in StgShur14Inflow_Jacobian()
456 …for (int j = 0; j < 3; j++) v[j + 1][i] = -wdetJb * (drho * u_normal * velocity[j] + norm[j] * dP); in StgShur14Inflow_Jacobian()
457 v[4][i] = -wdetJb * u_normal * (dE + dP); in StgShur14Inflow_Jacobian()
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| H A D | newtonian.h | 409 CeedScalar wdetJb, dXdx[2][3], norm[3]; in BoundaryIntegral() local
410 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, dXdx, norm); in BoundaryIntegral()
411 wdetJb *= is_implicit ? -1. : 1.; in BoundaryIntegral()
428 for (CeedInt j = 0; j < 5; j++) v[j][i] = -wdetJb * Flux[j]; in BoundaryIntegral()
465 CeedScalar wdetJb, dXdx[2][3], norm[3]; in BoundaryIntegral_Jacobian() local
466 QdataBoundaryUnpack_3D(Q, i, q_data_sur, &wdetJb, dXdx, norm); in BoundaryIntegral_Jacobian()
467 wdetJb *= is_implicit ? -1. : 1.; in BoundaryIntegral_Jacobian()
493 for (int j = 0; j < 5; j++) v[j][i] = -wdetJb * dFlux[j]; in BoundaryIntegral_Jacobian()
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| H A D | advection.h | 526 CeedScalar wdetJb, norm[3]; in Advection_InOutFlowGeneric() local
527 QdataBoundaryUnpack_ND(dim, Q, i, q_data_sur, &wdetJb, NULL, norm); in Advection_InOutFlowGeneric()
528 wdetJb *= is_implicit ? -1. : 1.; in Advection_InOutFlowGeneric()
538 v[4][i] = -(1 - strong_form) * wdetJb * E * u_normal; in Advection_InOutFlowGeneric()
540 v[4][i] = -(1 - strong_form) * wdetJb * E_wind * u_normal; in Advection_InOutFlowGeneric()
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| /libCEED/examples/solids/qfunctions/ |
| H A D | traction-boundary.h | 53 CeedScalar wdetJb = w[i] * sqrt(J1 * J1 + J2 * J2 + J3 * J3); in SetupTractionBCs() local
56 for (CeedInt j = 0; j < 3; j++) v[j][i] = traction[j] * wdetJb; in SetupTractionBCs()
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