KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
Namespaces | Macros
c_array_expression_io.cpp File Reference
#include <type_traits>
#include "expression/literal_flat_expression.h"
#include "includes/define.h"
#include "includes/model_part.h"
#include "utilities/parallel_utilities.h"
#include "c_array_expression_io.h"
Include dependency graph for c_array_expression_io.cpp:

Namespaces

 Kratos
 REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES.
 

Macros

#define KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_IO_METHODS(RAW_DATA_TYPE, CONTAINER_TYPE, MESH_TYPE)
 
#define KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_VECTOR_AND_OTHER_IO_METHODS(CONTAINER_TYPE, MESH_TYPE)
 
#define KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_IO_METHODS_1(MESH_TYPE)
 

Macro Definition Documentation

◆ KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_IO_METHODS

#define KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_IO_METHODS (   RAW_DATA_TYPE,
  CONTAINER_TYPE,
  MESH_TYPE 
)
Value:
template void KRATOS_API(KRATOS_CORE) CArrayExpressionIO::Read(ContainerExpression<CONTAINER_TYPE, MESH_TYPE>&, RAW_DATA_TYPE const*, const int, int const*, const int); \
template void KRATOS_API(KRATOS_CORE) CArrayExpressionIO::Move(ContainerExpression<CONTAINER_TYPE, MESH_TYPE>&, RAW_DATA_TYPE*, const int, int const*, const int); \
template void KRATOS_API(KRATOS_CORE) CArrayExpressionIO::Write(const ContainerExpression<CONTAINER_TYPE, MESH_TYPE>&, RAW_DATA_TYPE*, const int);
KRATOS_API
#define KRATOS_API(...)
Definition: kratos_export_api.h:40
Kratos::VariableExpressionDataIOHelperUtilities::Read
void Read(LiteralFlatExpression< std::conditional_t< std::is_same_v< TDataType, int >, int, double >> &rExpression, const IndexType EntityDataBeginIndex, const TDataType &rValue, std::index_sequence< TIndex... >)
Definition: variable_expression_data_io.cpp:31

◆ KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_IO_METHODS_1

#define KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_IO_METHODS_1 (   MESH_TYPE)
Value:
KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_VECTOR_AND_OTHER_IO_METHODS(ModelPart::NodesContainerType, MESH_TYPE) \
KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_VECTOR_AND_OTHER_IO_METHODS(ModelPart::ConditionsContainerType, MESH_TYPE) \
KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_VECTOR_AND_OTHER_IO_METHODS(ModelPart::ElementsContainerType, MESH_TYPE)
KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_VECTOR_AND_OTHER_IO_METHODS
#define KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_VECTOR_AND_OTHER_IO_METHODS(CONTAINER_TYPE, MESH_TYPE)
Definition: c_array_expression_io.cpp:237
Kratos::NodesContainerType
ModelPart::NodesContainerType NodesContainerType
Definition: find_conditions_neighbours_process.h:44
Kratos::ConditionsContainerType
ModelPart::ConditionsContainerType ConditionsContainerType
Definition: find_conditions_neighbours_process.h:45
Kratos::ElementsContainerType
ModelPart::ElementsContainerType ElementsContainerType
Definition: clear_contact_conditions_mesher_process.hpp:43

◆ KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_VECTOR_AND_OTHER_IO_METHODS

#define KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_VECTOR_AND_OTHER_IO_METHODS (   CONTAINER_TYPE,
  MESH_TYPE 
)
Value:
template void KRATOS_API(KRATOS_CORE) CArrayExpressionIO::Read(ContainerExpression<CONTAINER_TYPE, MESH_TYPE>&, const Vector&, const std::vector<IndexType>&); \
template void KRATOS_API(KRATOS_CORE) CArrayExpressionIO::Move(ContainerExpression<CONTAINER_TYPE, MESH_TYPE>&, Vector&, const std::vector<IndexType>&); \
template void KRATOS_API(KRATOS_CORE) CArrayExpressionIO::Write(const ContainerExpression<CONTAINER_TYPE, MESH_TYPE>&, Vector&); \
KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_IO_METHODS(int, CONTAINER_TYPE, MESH_TYPE) \
KRATOS_INSTANTIATE_C_ARRAY_EXPRESSION_IO_METHODS(double, CONTAINER_TYPE, MESH_TYPE)
Kratos::Vector
Internals::Matrix< double, AMatrix::dynamic, 1 > Vector
Definition: amatrix_interface.h:472
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