#include <dune/fem/misc/gridsolution.hh>
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int | numProcs (const std::string &checkPointFile) const |
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◆ DiscreteFunctionSpaceType
template<class GridImp , class DiscreteFunctionImp >
◆ DiscreteFunctionType
template<class GridImp , class DiscreteFunctionImp >
◆ DomainFieldType
template<class GridImp , class DiscreteFunctionImp >
◆ DomainType
template<class GridImp , class DiscreteFunctionImp >
◆ FunctionSpaceType
template<class GridImp , class DiscreteFunctionImp >
◆ GridPartType
template<class GridImp , class DiscreteFunctionImp >
◆ GridSolutionType
template<class GridImp , class DiscreteFunctionImp >
◆ GridType
template<class GridImp , class DiscreteFunctionImp >
◆ RangeFieldType
template<class GridImp , class DiscreteFunctionImp >
◆ RangeType
template<class GridImp , class DiscreteFunctionImp >
◆ GridSolutionVector()
template<class GridImp , class DiscreteFunctionImp >
◆ ~GridSolutionVector()
template<class GridImp , class DiscreteFunctionImp >
◆ discreteFunction()
template<class GridImp , class DiscreteFunctionImp >
◆ evaluate() [1/2]
template<class GridImp , class DiscreteFunctionImp >
evaluates in a given space-time point
- Parameters
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[in] | x | Point in global coordinates |
[in] | time | Time |
[out] | result | The value of the discrete function in space-time point
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- Template Parameters
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◆ evaluate() [2/2]
template<class GridImp , class DiscreteFunctionImp >
evaluates in a given space point
- Parameters
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[in] | x | Point in global coordinates |
[out] | result | The value of the discrete function in space point x |
- Template Parameters
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◆ isInDomain()
template<class GridImp , class DiscreteFunctionImp >
◆ numProcs()
template<class GridImp , class DiscreteFunctionImp >
◆ writeDiscreteFunction()
template<class GridImp , class DiscreteFunctionImp >
writes a discrete function
◆ numProcs_
template<class GridImp , class DiscreteFunctionImp >
◆ solutions_
template<class GridImp , class DiscreteFunctionImp >
The documentation for this class was generated from the following file: