11 #ifndef SYMMETRY_REVOLUTION_H
12 #define SYMMETRY_REVOLUTION_H
42 std::vector<std::pair<array_3d, bool>> GetDestinationSearchNodes(
const size_t MappingId)
override;
Definition: amatrix_interface.h:41
This class aims to manage meshes for multi-physics simulations.
Definition: model_part.h:77
This class defines the node.
Definition: node.h:65
This class provides to Kratos a data structure for I/O based on the standard of JSON.
Definition: kratos_parameters.h:59
Definition: symmetry_base.h:33
std::vector< NodeTypePointer > NodeVectorType
Definition: symmetry_base.h:40
NodeType::Pointer NodeTypePointer
Definition: symmetry_base.h:39
Definition: symmetry_revolution.h:33
NodeVectorType mTransformedDestinationNodes
Definition: symmetry_revolution.h:55
KRATOS_CLASS_POINTER_DEFINITION(SymmetryRevolution)
array_3d mAxis
Definition: symmetry_revolution.h:49
NodeVectorType mDestinationNodes
Definition: symmetry_revolution.h:53
array_3d mPoint
Definition: symmetry_revolution.h:48
NodeVectorType mOriginNodes
Definition: symmetry_revolution.h:52
array_3d mPlaneVector1
Definition: symmetry_revolution.h:50
NodeVectorType mTransformedOriginNodes
Definition: symmetry_revolution.h:54
REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES.
Definition: mesh_condition.cpp:21