Lines Matching refs:string
44 if ((string)inp.GetValue("Employ AMG") == "True" ) { in input_fform()
67 if ((string)inp.GetValue("AMG Interpolation Type")=="Standard") in input_fform()
74 if ((string)inp.GetValue("AMG Smoother Type")=="Gauss-Seidel") in input_fform()
76 else if ((string)inp.GetValue("AMG Smoother Type")=="ChebyShev") in input_fform()
78 else if ((string)inp.GetValue("AMG Smoother Type")=="MLS") in input_fform()
203 if((string)inp.GetValue("Equation of State") == "Incompressible") matdat.matflg[0][0] =-1 ; in input_fform()
204 if((string)inp.GetValue("Equation of State") == "Compressible") matdat.matflg[0][0] =0; in input_fform()
207 if((string)inp.GetValue("Viscous Control")=="Viscous") conpar.navier=1 ; else conpar.navier=0; in input_fform()
209 if ((string)inp.GetValue("Turbulence Model") == "No-Model" ) { in input_fform()
212 } else if ((string)inp.GetValue("Turbulence Model") == "LES" ) { in input_fform()
215 } else if ((string)inp.GetValue("Turbulence Model") == "RANS-SA" ) { in input_fform()
218 } else if ((string)inp.GetValue("Turbulence Model") == "RANS" ) { in input_fform()
221 } else if ((string)inp.GetValue("Turbulence Model") == "RANS-KE" ) { in input_fform()
224 } else if ((string)inp.GetValue("Turbulence Model") == "DES97" ) { in input_fform()
227 } else if ((string)inp.GetValue("Turbulence Model") == "DDES" ) { in input_fform()
244 ((string)inp.GetValue("Solve Flow") == "True")? solflow=1:solflow=0; in input_fform()
245 ((string)inp.GetValue("Solve Heat") == "True")? solheat=1:solheat=0; in input_fform()
247 if((string)inp.GetValue("Equation of State") == "Compressible") solheat=0; in input_fform()
267 if ((string)inp.GetValue("Apply Volume Constraint") == "True" ) { in input_fform()
269 else if((string)inp.GetValue("Apply Volume Constraint") == "False" ) { in input_fform()
285 if((string)inp.GetValue("Print Statistics") == "True") outpar.ioform = 2; in input_fform()
288 if((string)inp.GetValue("Print Wall Fluxes") == "True") outpar.iowflux = 1; in input_fform()
291 if((string)inp.GetValue("Print FieldView") == "True") outpar.iofieldv = 1; in input_fform()
294 if((string)inp.GetValue("Print ybar") == "True") outpar.ioybar = 1; in input_fform()
297 if((string)inp.GetValue("Print vorticity") == "True") outpar.ivort = 1; in input_fform()
304 strcpy( outpar.iotype , ((string)inp.GetValue("Data Block Format")).c_str()); in input_fform()
305 strcpy( phasta_iotype , ((string)inp.GetValue("Data Block Format")).c_str()); in input_fform()
308 if((string)inp.GetValue("Print Residual at End of Step") == "True") genpar.lstres = 1; in input_fform()
311 if((string)inp.GetValue("Print Error Indicators") == "True") turbvar.ierrcalc = 1; in input_fform()
314 if((string)inp.GetValue("Print Velocity Hessian") == "True") turbvar.ihessian = 1; in input_fform()
337 if((string)inp.GetValue("Ramp Inflow") == "True") turbvari.iramp=1; in input_fform()
386 if((string)inp.GetValue("Shear Law") == "Constant Viscosity") in input_fform()
389 if((string)inp.GetValue("Bulk Viscosity Law") == "Constant Bulk Viscosity") in input_fform()
394 if((string)inp.GetValue("Conductivity Law") == "Constant Conductivity") in input_fform()
427 if((string)inp.GetValue("Zero Mean Pressure") == "True") in input_fform()
432 if ( (string)inp.GetValue("Body Force Option") == "None" ) { in input_fform()
435 else if ( (string)inp.GetValue("Body Force Option") == "Vector" ) { in input_fform()
438 else if ( (string)inp.GetValue("Body Force Option") == "User e3source.f" ) { in input_fform()
441 else if ( (string)inp.GetValue("Body Force Option") == "Boussinesq" ) { in input_fform()
444 else if ( (string)inp.GetValue("Body Force Option") == "Cooling Analytic" ) { in input_fform()
452 else if ( (string)inp.GetValue("Body Force Option") == "Cooling Initial Condition" ) { in input_fform()
474 if((string)inp.GetValue("Sponge for Continuity Equation") == "True") in input_fform()
476 if((string)inp.GetValue("Sponge for x Momentum Equation") == "True") in input_fform()
478 if((string)inp.GetValue("Sponge for y Momentum Equation") == "True") in input_fform()
480 if((string)inp.GetValue("Sponge for z Momentum Equation") == "True") in input_fform()
482 if((string)inp.GetValue("Sponge for Energy Equation") == "True") in input_fform()
503 if ( (string)inp.GetValue("Surface Tension Option") == "No" ){ in input_fform()
506 else if ((string)inp.GetValue("Surface Tension Option") == "Yes" ){ in input_fform()
521 if ( (string)inp.GetValue("Rotating Frame of Reference") == "True" ) { in input_fform()
541 if( (string)inp.GetValue("Solver Type") =="svLS" ){ in input_fform()
543 if( (string)inp.GetValue("Solver Type") =="ACUSIM with P Projection" ){ in input_fform()
545 else if ( (string)inp.GetValue("Solver Type") =="ACUSIM" ){ in input_fform()
547 else if( (string)inp.GetValue("Solver Type") =="ACUSIM with Velocity Projection" ){ in input_fform()
549 else if( (string)inp.GetValue("Solver Type") =="ACUSIM with Full Projection" ){ in input_fform()
551 else if( (string)inp.GetValue("Solver Type") =="GMRES Matrix Free"){ in input_fform()
553 else if( (string)inp.GetValue("Solver Type") =="GMRES EBE"){ in input_fform()
555 else if( (string)inp.GetValue("Solver Type") =="PETSc"){ in input_fform()
633 if((string)inp.GetValue("Time Integration Rule") == "First Order") in input_fform()
636 if((string)inp.GetValue("Predictor at Start of Step")=="Same Velocity") in input_fform()
638 if((string)inp.GetValue("Predictor at Start of Step")=="Zero Acceleration") in input_fform()
640 if((string)inp.GetValue("Predictor at Start of Step")=="Same Acceleration") in input_fform()
642 if((string)inp.GetValue("Predictor at Start of Step")=="Same Delta") in input_fform()
645 if((string)inp.GetValue("Weak Form") == "Galerkin") in input_fform()
647 if((string)inp.GetValue("Weak Form") == "SUPG") in input_fform()
650 if((string)inp.GetValue("Flow Advection Form") == "Convective") in input_fform()
652 else if((string)inp.GetValue("Flow Advection Form") == "Conservative") in input_fform()
654 if((string)inp.GetValue("Scalar Advection Form") == "Convective") in input_fform()
656 else if((string)inp.GetValue("Scalar Advection Form") == "Conservative") in input_fform()
658 if((string)inp.GetValue("Use Conservative Scalar Convection Velocity") == "True") in input_fform()
660 else if((string)inp.GetValue("Use Conservative Scalar Convection Velocity") == "False") in input_fform()
663 if((string)inp.GetValue("Tau Matrix") == "Diagonal-Shakib") in input_fform()
665 else if((string)inp.GetValue("Tau Matrix") == "Diagonal-Franca") in input_fform()
667 else if((string)inp.GetValue("Tau Matrix") == "Diagonal-Jansen(dev)") in input_fform()
669 else if((string)inp.GetValue("Tau Matrix") == "Diagonal-Compressible") in input_fform()
671 else if((string)inp.GetValue("Tau Matrix") == "Matrix-Mallet") in input_fform()
673 else if((string)inp.GetValue("Tau Matrix") == "Matrix-Modal") in input_fform()
683 if((string)inp.GetValue("Discontinuity Capturing") == "Off") solpar.iDC = 0; in input_fform()
684 else if((string)inp.GetValue("Discontinuity Capturing") == "DC-mallet") solpar.iDC = 1; in input_fform()
685 else if((string)inp.GetValue("Discontinuity Capturing") == "DC-quadratic") solpar.iDC = 2; in input_fform()
686 else if((string)inp.GetValue("Discontinuity Capturing") == "DC-minimum") solpar.iDC = 3; in input_fform()
706 if((string)inp.GetValue("Include Viscous Correction in Stabilization") == "True") in input_fform()
725 if((string)inp.GetValue("Dump CFL") == "True") in input_fform()
732 ((string)inp.GetValue("Turn Off Source Terms for Scalars") in input_fform()
744 if((string)inp.GetValue("Turbulence Wall Model Type") == "Slip Velocity") turbvar.itwmod = 1; in input_fform()
745 …else if((string)inp.GetValue("Turbulence Wall Model Type") == "Effective Viscosity") turbvar.itwmo… in input_fform()
753 if((string)inp.GetValue("Dynamic Model Type") == "Bardina") turbvari.iles += 10; in input_fform()
754 else if((string)inp.GetValue("Dynamic Model Type") == "Projection") turbvari.iles += 20; in input_fform()
764 if ((string)inp.GetValue("Model Statistics") == "True" ) { in input_fform()
769 if ((string)inp.GetValue("Double Filter") == "True" ) { in input_fform()
774 if ((string)inp.GetValue("Model/SUPG Dissipation") == "True" ) { in input_fform()
780 if((string)inp.GetValue("Dynamic Model Type") == "Standard") { in input_fform()
782 if((string)inp.GetValue("Dynamic Sub-Model Type") == "None") in input_fform()
784 else if((string)inp.GetValue("Dynamic Sub-Model Type") =="DFWR") in input_fform()
786 else if((string)inp.GetValue("Dynamic Sub-Model Type") =="SUPG") in input_fform()
789 else if((string)inp.GetValue("Dynamic Model Type") == "Projection") { in input_fform()
791 if((string)inp.GetValue("Projection Filter Type") == "Linear") in input_fform()
793 else if((string)inp.GetValue("Projection Filter Type") =="Quadratic") in input_fform()
796 if((string)inp.GetValue("Dynamic Sub-Model Type") == "None") in input_fform()
798 else if((string)inp.GetValue("Dynamic Sub-Model Type") =="ConsistentProj") in input_fform()
822 if ( (string)inp.GetValue("Time Varying Boundary Conditions From File") == "True") in input_fform()
836 if ( (string)inp.GetValue("Pressure Coupling") == "None") in input_fform()
838 if ( (string)inp.GetValue("Pressure Coupling") == "Explicit") in input_fform()
840 if ( (string)inp.GetValue("Pressure Coupling") == "Implicit") in input_fform()
842 if ( (string)inp.GetValue("Pressure Coupling") == "P-Implicit") in input_fform()
862 if ( (string)inp.GetValue("Impedance From File") == "True") in input_fform()
871 if ( (string)inp.GetValue("RCR Values From File") == "True") in input_fform()
876 if((string)inp.GetValue("Deformable Wall")=="True"){ in input_fform()
883 if((string)inp.GetValue("Wall Mass Matrix for LHS") == "True") nomodule.iwallmassfactor = 1; in input_fform()
885 … if((string)inp.GetValue("Wall Stiffness Matrix for LHS") == "True") nomodule.iwallstiffactor = 1; in input_fform()
889 if((string)inp.GetValue("Viscous Flux Flag") == "True") nomodule.iviscflux = 1; in input_fform()
890 if((string)inp.GetValue("Viscous Flux Flag") == "False") nomodule.iviscflux = 0; in input_fform()