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CG
Version 25
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Go to the source code of this file.
Functions | |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf | icf (m1, m2, m3, e, c) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter | space (r, s, t) c so rxr(i1 |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c | derivative (x, y, z) of coordinate"d"(r |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr | rxr (i1, i2, i3, d, c) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr & | rx (i1, i2, i3, 2, c)*rx(i1 |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c * | dri (2)*dri(2)-&rxx(i1 |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c * | dri2 (2))*rx(i1 |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c & | dri2 (1)*dri2(2)*(rx(i1 |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c & | rx (i1, i2, i3, 1, c)*rx(i1 |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c * | dri (1)*dri(1)-&rxx(i1 |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d | rxxxx (i1, i2, i3, d, c) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d & | rx (i1, i2, i3, 2, m1)*rx(i1 |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d m2 m2 m1 * | rx (i1, i2, i3, 2, m2)+&rx(i1 |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d m2 m2 m1 m2 & | rx (i1, i2, i3, 1, m1)*rx(i1 |
Variables | |
| c icf computes the coefficient location given an index offset | m1 |
| c icf computes the coefficient location given an index offset | m2 |
| c icf computes the coefficient location given an index offset | m3 |
| c icf computes the coefficient location given an index offset equation | e |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf | rxs |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter | i2 =n2a |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter | i3 |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter | c |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c | s |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c | d |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c | rxxxx |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c derivative | ( | x | , |
| y | , | ||
| z | |||
| ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d m2 m2 m1 m2 m2 m2 m2 m1 m2 m2 m1 m2 m2 * dri | ( | 2 | ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d m2 m2 m1 m2 m2 m2 m2 m1 m2 * dri | ( | 1 | ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d m2 m2 m1 m2 m2 m2 m2 m1 m2 m2 m1 m2 m2 m2 * dri2 | ( | 2 | ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d m2 m2 m1 m2 m2 m2 m2 m1 m2 m2 m1 m2 m2 m2 & dri2 | ( | 1 | ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf icf | ( | m1 | , |
| m2 | , | ||
| m3 | , | ||
| e | , | ||
| c | |||
| ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr & rx | ( | i1 | , |
| i2 | , | ||
| i3 | , | ||
| 2 | , | ||
| c | |||
| ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c & rx | ( | i1 | , |
| i2 | , | ||
| i3 | , | ||
| 1 | , | ||
| c | |||
| ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d & rx | ( | i1 | , |
| i2 | , | ||
| i3 | , | ||
| 2 | , | ||
| m1 | |||
| ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d m2 m2 m1* rx | ( | i1 | , |
| i2 | , | ||
| i3 | , | ||
| 2 | , | ||
| m2 | |||
| ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d m2 m2 m1 m2 & rx | ( | i1 | , |
| i2 | , | ||
| i3 | , | ||
| 1 | , | ||
| m1 | |||
| ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr rxr | ( | i1 | , |
| i2 | , | ||
| i3 | , | ||
| d | , | ||
| c | |||
| ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d rxxxx | ( | i1 | , |
| i2 | , | ||
| i3 | , | ||
| d | , | ||
| c | |||
| ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter space | ( | r | , |
| s | , | ||
| t | |||
| ) |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c d |
Referenced by DomainSolver::adaptGrids(), DomainSolver::addArtificialDissipation(), Cgsm::addDissipation(), Maxwell::addDissipation(), CGINS_ApproximateFactorization::INS_Factor::addExplicitContribution(), Maxwell::addFilter(), Cgins::addForcing(), Cgins::addForcingToPressureEquation(), PenaltySlipWallBC::addPenaltyForcing(), Cgins::advanceLineSolveNew(), Cgins::advanceLineSolveOld(), PenaltyWallFunctionBC::applyBC(), Cgcns::applyBoundaryConditionsForImplicitTimeStepping(), Cgins::applyBoundaryConditionsForImplicitTimeStepping(), GridFunctionFilter::applyFilter(), Cgins::applyFourthOrderBoundaryConditions(), applyFourthOrderBoundaryConditionsOld(), Cgsm::assignAnnulusEigenfunction(), Cgsm::assignHempInitialConditions(), Cgmp::assignInterfaceBoundaryConditions(), Cgmp::assignInterfaceRightHandSideOld(), Cgmp::buildRunTimeDialog(), Cgmp::Cgmp(), Parameters::chooseUserDefinedBoundaryValues(), Cgsm::computeDissipation(), Maxwell::computeDissipation(), detectCollisions(), DomainSolver::eulerStep(), F90_ID(), Cgcns::formImplicitTimeSteppingMatrix(), Cgmp::getInterfaceResiduals(), Cgmp::getTimeStep(), Cgcns::getUt(), Cgins::initializeFactorization(), Cgmp::initializeInterfaceBoundaryConditions(), Cgmp::initializeInterfaces(), Cgmp::interfaceProjection(), MovingGrids::moveGrids(), Cgmp::multiDomainAdvance(), Cgmp::multiDomainAdvanceNew(), Cgmp::plot(), Cgmp::plotDomainQuantities(), Cgmp::printStatistics(), Cgmp::printTimeStepInfo(), Cgmp::saveShow(), Parameters::setBoundaryConditionValues(), Cgmp::setParametersInteractively(), MpParameters::setPdeParameters(), Cgmp::setTopLabel(), Cgmp::setup(), Cgmp::setupAdvance(), Maxwell::setupDSICoefficients(), DomainSolver::setupUserDefinedInitialConditions(), Cgmp::solve(), CGINS_ApproximateFactorization::INS_Factor::solveLeftHandSide(), CGINS_ApproximateFactorization::INS_Factor::solveRightHandSide(), DomainSolver::takeTimeStepFE(), Cgins::turbulenceModels(), TimeFunction::update(), Parameters::updateTurbulenceModels(), DomainSolver::userDefinedBoundaryValues(), DomainSolver::userDefinedInitialConditions(), and Cgmp::~Cgmp().
Referenced by Cgasf::addAllSpeedImplicitForcing(), DomainSolver::addArtificialDissipation(), Cgad::addForcing(), Cgins::addForcing(), Cgasf::addForcing(), Cgcns::addForcing(), Cgins::addForcingToPressureEquation(), Cgasf::addForcingToPressureEquation(), PenaltySlipWallBC::addPenaltyForcing(), DomainSolver::advanceAdamsPredictorCorrector(), Cgad::advanceADI(), DomainSolver::advanceImplicitMultiStep(), Cgins::advanceLineSolveNew(), Cgins::advanceLineSolveOld(), DomainSolver::advanceNewton(), DomainSolver::advanceSecondOrderSystem(), Maxwell::advanceUnstructuredDSI(), DomainSolver::advanceVariableTimeStepAdamsPredictorCorrector(), Cgasf::allSpeedImplicitTimeStep(), Cgcns::applyBoundaryConditions(), Cgins::applyBoundaryConditions(), Cgad::applyBoundaryConditionsForImplicitTimeStepping(), Cgins::applyBoundaryConditionsForImplicitTimeStepping(), Maxwell::applyDSIBC(), Maxwell::assignBoundaryConditions(), Maxwell::assignInitialConditions(), Maxwell::assignInterfaceBoundaryConditions(), Cgins::assignLineSolverBoundaryConditions(), Cgins::assignPressureRHS(), Cgsm::assignTwilightZoneInitialConditions(), DomainSolver::boundaryConditionPredictor(), DomainSolver::buildAmrGridsForInitialConditions(), checkNormalBC(), computeDSIErrors(), Maxwell::computeTimeStep(), CnsParameters::conservativeToPrimitive(), convertToVertexCentered(), Cgins::determineErrors(), DomainSolver::determineErrors(), Parameters::displayPdeParameters(), F90_ID(), ElasticFilament::getAccelerationBC(), Maxwell::getCenters(), Maxwell::getChargeDensity(), RigidBodyMotion::getCoordinates(), Maxwell::getEnergy(), TestRigidBody::getErrors(), Cgsm::getErrors(), Maxwell::getErrors(), Cgsm::getForcing(), Maxwell::getForcing(), DomainSolver::getMaterialProperties(), PenaltyWallFunctionBC::getShearStresses(), DomainSolver::getTimeStep(), getUserDefinedEOS(), Cgcns::getUt(), ElasticFilament::getVelocityBC(), if(), Cgcns::initializeSolution(), DomainSolver::initializeTimeSteppingIM(), DomainSolver::initializeTimeSteppingPC(), insbe1(), INSBFU2D(), INSBFU3D(), INSBFV2D(), INSBFV3D(), INSBFW3D(), Cgins::lineSolverBoundaryConditions(), main(), Cgasf::maxMachNumber(), MpParameters::MpParameters(), TestRigidBody::output(), Parameters::Parameters(), RigidBodyMotion::put(), Maxwell::reconstructDSIAtEntities(), Maxwell::reconstructDSIField(), rigidBodyBoundaryProjection(), AdParameters::setParameters(), AsfParameters::setParameters(), CnsParameters::setParameters(), InsParameters::setParameters(), Parameters::setParameters(), Maxwell::setupDSICoefficients(), Maxwell::setupGrids(), DomainSolver::setVariableMaterialProperties(), TestRigidBody::solve(), Cgasf::solveForAllSpeedPressure(), Cgasf::solveForTimeIndependentVariables(), Reactions::solveImplicitForPTYGivenR(), Reactions::solveImplicitForRTYGivenP(), Reactions::solveImplicitForYGivenRTP(), DomainSolver::takeTimeStepIM(), DomainSolver::takeTimeStepPC(), MovingGrids::update(), and DomainSolver::userDefinedInitialConditions().
| int i2 =n2a |
Referenced by CGINS_ApproximateFactorization::INS_Factor::addExplicitContribution(), PenaltySlipWallBC::addPenaltyForcing(), DeformingBodyMotion::advanceElasticShell(), Cgins::advanceLineSolveNew(), Cgins::advanceLineSolveOld(), DomainSolver::advanceTrapezoidal(), Cgasf::allSpeedImplicitTimeStep(), PenaltyWallFunctionBC::applyBC(), Cgcns::applyBoundaryConditions(), Maxwell::applyDSIForcing(), applyFourthOrderBoundaryConditionsOld(), Cgsm::assignAnnulusEigenfunction(), RadiationBoundaryCondition::assignBoundaryConditions(), Maxwell::assignBoundaryConditions(), Cgsm::assignBoundaryConditionsFOS(), Cgsm::assignBoundaryConditionsSOS(), Cgsm::assignGaussianPulseInitialConditions(), Cgsm::assignHempInitialConditions(), DomainSolver::assignInitialConditions(), Maxwell::assignInitialConditions(), Cgmp::assignInterfaceRightHandSideOld(), Cgsm::assignParabolicInitialConditions(), Cgsm::assignSpecialInitialConditions(), Cgcns::assignTestProblem(), Cgasf::assignTestProblem(), Cgsm::assignTwilightZoneInitialConditions(), boundaryDistance(), Cgsm::checkDisplacementAndStress(), checkForSymmetry(), checkGridFunction(), DomainSolver::checkSolution(), Reactions::chemicalSource(), DomainSolver::computeBodyForcing(), Reactions::computeEigenvaluesOfTheChemicalSourceJacobian(), Maxwell::computeIntensity(), Maxwell::computeTimeStep(), Cgins::computeTurbulenceQuantities(), Reactions::cp(), Maxwell::defineRegionsAndBodies(), Parameters::defineVariableBoundaryValues(), Cgins::determineErrors(), DomainSolver::determineErrors(), Reactions::entropy(), DomainSolver::eulerStep(), FOR_3(), FOR_3D(), Cgasf::formAllSpeedPressureEquation(), Maxwell::getChargeDensity(), getClosestGridPoint(), FlowSolutions::getDeformingDiffuser(), Cgsm::getErrors(), Maxwell::getErrors(), FlowSolutions::getFlowSolution(), Cgsm::getForcing(), Maxwell::getForcing(), DomainSolver::getGridInfo(), Cgsm::getInputOutputOption(), Cgmp::getInterfaceResiduals(), Cgmp::getInterfaceResidualsOld(), DomainSolver::getMaterialProperties(), Cgsm::getMaxDivAndCurl(), Maxwell::getMaxDivergence(), FlowSolutions::getObliqueShockFlow(), FlowSolutions::getPistonFlow(), FlowSolutions::getShockElasticPistonFlow(), FlowSolutions::getSupersonicExpandingFlow(), Cgsm::getTimeStep(), Parameters::getUserDefinedKnownSolution(), Cgcns::getUt(), Cgsm::getVelocityAndStress(), InsParameters::getViscoPlasticVariables(), Reactions::h(), if(), initialConditionsFromAProfile(), InterfaceTransfer::initialize(), DeformingBodyMotion::initialize(), Maxwell::initializeKnownSolution(), insbe1(), insbe2(), DeformingBodyMotion::integrate(), Maxwell::interactiveUpdate(), Cgmp::interfaceProjection(), InterfaceTransfer::internalInterpolate(), main(), DomainSolver::outputProbes(), Maxwell::outputResultsAfterEachTimeStep(), Cgsm::outputResultsAfterEachTimeStep(), Cgins::outputSolution(), DomainSolver::outputSolution(), DomainSolver::parabolicInflow(), Maxwell::reconstructDSIAtEntities(), Maxwell::reconstructDSIField(), DeformingBodyMotion::regenerateComponentGrids(), rigidBodyBoundaryProjection(), MovingGrids::rigidBodyMotion(), Parameters::setTwilightZoneParameters(), Maxwell::setupDSICoefficients(), Maxwell::setupGrids(), DomainSolver::setVariableBoundaryValues(), DomainSolver::setVariableMaterialProperties(), Reactions::solveImplicitForPTYGivenR(), Reactions::solveImplicitForRTYGivenP(), Reactions::solveImplicitForYGivenRTP(), CGINS_ApproximateFactorization::INS_Factor::solveLeftHandSide(), CGINS_ApproximateFactorization::INS_Factor::solveRightHandSide(), DomainSolver::takeTimeStepAF(), DomainSolver::takeTimeStepFE(), Cgins::turbulenceModels(), ProbeInfo::update(), Cgsm::userDefinedBoundaryValues(), DomainSolver::userDefinedBoundaryValues(), DeformingBodyMotion::userDefinedDeformingSurface(), userDefinedErrorEstimator(), Maxwell::userDefinedForcing(), Cgsm::userDefinedForcing(), DomainSolver::userDefinedForcing(), DomainSolver::userDefinedGrid(), Maxwell::userDefinedInitialConditions(), DomainSolver::userDefinedInitialConditions(), and DomainSolver::userDefinedOutput().
| int i3 |
Referenced by CGINS_ApproximateFactorization::INS_Factor::addExplicitContribution(), PenaltySlipWallBC::addPenaltyForcing(), DeformingBodyMotion::advanceElasticShell(), Cgins::advanceLineSolveNew(), Cgins::advanceLineSolveOld(), DomainSolver::advanceTrapezoidal(), Cgasf::allSpeedImplicitTimeStep(), PenaltyWallFunctionBC::applyBC(), Cgcns::applyBoundaryConditions(), Maxwell::applyDSIForcing(), applyFourthOrderBoundaryConditionsOld(), Cgsm::assignAnnulusEigenfunction(), RadiationBoundaryCondition::assignBoundaryConditions(), Maxwell::assignBoundaryConditions(), Cgsm::assignBoundaryConditionsFOS(), Cgsm::assignBoundaryConditionsSOS(), Cgsm::assignGaussianPulseInitialConditions(), Cgsm::assignHempInitialConditions(), DomainSolver::assignInitialConditions(), Maxwell::assignInitialConditions(), Cgmp::assignInterfaceRightHandSideOld(), Cgsm::assignParabolicInitialConditions(), Cgsm::assignSpecialInitialConditions(), Cgcns::assignTestProblem(), Cgasf::assignTestProblem(), Cgsm::assignTwilightZoneInitialConditions(), boundaryDistance(), Cgsm::buildVariableDissipation(), Cgsm::checkDisplacementAndStress(), checkForSymmetry(), checkGridFunction(), DomainSolver::checkSolution(), Reactions::chemicalSource(), DomainSolver::computeBodyForcing(), Reactions::computeEigenvaluesOfTheChemicalSourceJacobian(), Maxwell::computeIntensity(), Maxwell::computeTimeStep(), Cgins::computeTurbulenceQuantities(), Reactions::cp(), Maxwell::defineRegionsAndBodies(), Parameters::defineVariableBoundaryValues(), Cgins::determineErrors(), DomainSolver::determineErrors(), Reactions::entropy(), DomainSolver::eulerStep(), FOR_3(), FOR_3D(), Cgasf::formAllSpeedPressureEquation(), Maxwell::getChargeDensity(), getClosestGridPoint(), FlowSolutions::getDeformingDiffuser(), Cgsm::getErrors(), Maxwell::getErrors(), FlowSolutions::getFlowSolution(), Cgsm::getForcing(), Maxwell::getForcing(), DomainSolver::getGridInfo(), Cgsm::getInputOutputOption(), Cgmp::getInterfaceResiduals(), Cgmp::getInterfaceResidualsOld(), DomainSolver::getMaterialProperties(), Cgsm::getMaxDivAndCurl(), Maxwell::getMaxDivergence(), FlowSolutions::getObliqueShockFlow(), FlowSolutions::getPistonFlow(), FlowSolutions::getShockElasticPistonFlow(), FlowSolutions::getSupersonicExpandingFlow(), Cgsm::getTimeStep(), Parameters::getUserDefinedKnownSolution(), Cgcns::getUt(), Cgsm::getVelocityAndStress(), InsParameters::getViscoPlasticVariables(), Reactions::h(), if(), initialConditionsFromAProfile(), InterfaceTransfer::initialize(), Maxwell::initializeKnownSolution(), insbe1(), insbe2(), DeformingBodyMotion::integrate(), Maxwell::interactiveUpdate(), Cgmp::interfaceProjection(), InterfaceTransfer::internalInterpolate(), main(), DomainSolver::outputProbes(), Maxwell::outputResultsAfterEachTimeStep(), Cgsm::outputResultsAfterEachTimeStep(), Cgins::outputSolution(), DomainSolver::outputSolution(), DomainSolver::parabolicInflow(), Maxwell::reconstructDSIAtEntities(), Maxwell::reconstructDSIField(), DeformingBodyMotion::regenerateComponentGrids(), rigidBodyBoundaryProjection(), MovingGrids::rigidBodyMotion(), Parameters::setTwilightZoneParameters(), Maxwell::setupDSICoefficients(), Maxwell::setupGrids(), DomainSolver::setVariableBoundaryValues(), DomainSolver::setVariableMaterialProperties(), Reactions::solveImplicitForPTYGivenR(), Reactions::solveImplicitForRTYGivenP(), Reactions::solveImplicitForYGivenRTP(), CGINS_ApproximateFactorization::INS_Factor::solveLeftHandSide(), CGINS_ApproximateFactorization::INS_Factor::solveRightHandSide(), DomainSolver::takeTimeStepAF(), DomainSolver::takeTimeStepFE(), Cgins::turbulenceModels(), ProbeInfo::update(), Cgsm::userDefinedBoundaryValues(), DomainSolver::userDefinedBoundaryValues(), DeformingBodyMotion::userDefinedDeformingSurface(), userDefinedErrorEstimator(), Maxwell::userDefinedForcing(), Cgsm::userDefinedForcing(), DomainSolver::userDefinedForcing(), Maxwell::userDefinedInitialConditions(), DomainSolver::userDefinedInitialConditions(), and DomainSolver::userDefinedOutput().
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c y derivative of computation coordinate d m2 m2 m1 m2 m2 m2 m2 m1 m2 m2 m1 m2 m2 m1 |
Referenced by Maxwell::advanceC(), DomainSolver::advanceMidPoint(), Maxwell::advanceNew(), Maxwell::advanceNFDTD(), DomainSolver::advanceVariableTimeStepAdamsPredictorCorrector(), Cgasf::allSpeedImplicitTimeStep(), applyFourthOrderBoundaryConditionsOld(), Cgsm::assignSpecialInitialConditions(), detectCollisions(), InterfaceTransfer::internalInterpolate(), SmParameters::setParameters(), AdParameters::setTwilightZoneFunction(), SmParameters::setTwilightZoneFunction(), and Cgasf::solveForAllSpeedPressure().
Referenced by Maxwell::advanceC(), DomainSolver::advanceMidPoint(), Maxwell::advanceNew(), Maxwell::advanceNFDTD(), applyFourthOrderBoundaryConditionsOld(), Cgsm::assignSpecialInitialConditions(), detectCollisions(), InterfaceTransfer::internalInterpolate(), SmParameters::setParameters(), AdParameters::setTwilightZoneFunction(), and SmParameters::setTwilightZoneFunction().
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxs |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c t c double precision rxr c c c c c c c c c c c c c c c c c rxxxx |
| c icf computes the coefficient location given an index offset equation and component c c icf corresponds to the M123CE macro found in many C files dealing with coefficient gridFunctions c integer icf rxt are approximate second derivatives of the mapping in the parameter d is the r derivative of the c s |
Referenced by Cgins::addForcing(), Cgasf::addForcing(), DomainSolver::advanceTrapezoidal(), PenaltyWallFunctionBC::applyBC(), Cgcns::applyBoundaryConditionsForImplicitTimeStepping(), Cgcns::assignTestProblem(), Cgasf::assignTestProblem(), Cgmp::checkIfInterfacesMatch(), Reactions::chemicalSource(), Reactions::chemistrySource(), Reactions::computeEigenvaluesOfTheChemicalSourceJacobian(), Cgasf::computeSource(), CnsParameters::conservativeToPrimitive(), Reactions::cp(), Parameters::displayPdeParameters(), Reactions::entropy(), Cgcns::formImplicitTimeSteppingMatrix(), Cgasf::getUt(), Cgsm::getVelocityAndStress(), Reactions::h(), Cgmp::initializeInterfaces(), Cgcns::isImplicitMatrixSingular(), MaterialProperties::lnKp(), Reactions::massFractionToMoleFraction(), Reactions::pFromRTY(), CnsParameters::primitiveToConservative(), Cgmp::printStatistics(), Maxwell::printStatistics(), DomainSolver::printStatistics(), Cgcns::project(), DeformingBodyMotion::regenerateComponentGrids(), Reactions::rFromPTY(), AdParameters::setParameters(), AsfParameters::setParameters(), CnsParameters::setParameters(), InsParameters::setParameters(), Parameters::setParameters(), Cgmp::setupDomainSolverParameters(), Reactions::solveImplicitForPTYGivenR(), Reactions::solveImplicitForRTYGivenP(), Reactions::solveImplicitForYGivenRTP(), and Cgins::turbulenceModels().
1.8.3