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.
adjoint_finite_difference_cr_beam_element_3D2N.h
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1 // KRATOS ___| | | |
2 // \___ \ __| __| | | __| __| | | __| _` | |
3 // | | | | | ( | | | | ( | |
4 // _____/ \__|_| \__,_|\___|\__|\__,_|_| \__,_|_| MECHANICS
5 //
6 // License: BSD License
7 // license: StructuralMechanicsApplication/license.txt
8 //
9 // Main authors: Martin Fusseder, https://github.com/MFusseder
10 //
11 
12 
13 #pragma once
14 
16 
17 namespace Kratos
18 {
19 
20 template <typename TPrimalElement>
22  : public AdjointFiniteDifferencingBaseElement<TPrimalElement>
23 {
24 public:
25  // redefine the typedefs because of templated base class
27  typedef typename BaseType::SizeType SizeType;
28  typedef typename BaseType::IndexType IndexType;
32  typedef typename BaseType::VectorType VectorType;
33  typedef typename BaseType::MatrixType MatrixType;
39 
41 
43  : BaseType(NewId, true)
44  {
45  }
46 
47  AdjointFiniteDifferenceCrBeamElement(IndexType NewId, typename GeometryType::Pointer pGeometry)
48  : BaseType(NewId, pGeometry, true)
49  {
50  }
51 
53  typename GeometryType::Pointer pGeometry,
54  typename PropertiesType::Pointer pProperties)
55  : BaseType(NewId, pGeometry, pProperties, true)
56  {
57  }
58 
59  Element::Pointer Create(IndexType NewId,
60  NodesArrayType const& ThisNodes,
61  typename PropertiesType::Pointer pProperties) const override
62  {
63  return Kratos::make_intrusive<AdjointFiniteDifferenceCrBeamElement<TPrimalElement>>(
64  NewId, this->GetGeometry().Create(ThisNodes), pProperties);
65  }
66 
67  Element::Pointer Create(IndexType NewId,
68  typename GeometryType::Pointer pGeometry,
69  typename PropertiesType::Pointer pProperties) const override
70  {
71  return Kratos::make_intrusive<AdjointFiniteDifferenceCrBeamElement<TPrimalElement>>(
72  NewId, pGeometry, pProperties);
73  }
74 
76  std::vector< array_1d<double, 3 > >& rOutput,
77  const ProcessInfo& rCurrentProcessInfo) override;
78 
79  int Check(const ProcessInfo& rCurrentProcessInfo) const override;
80 
81 protected:
82 
83 
84 private:
85  friend class Serializer;
86  void save(Serializer& rSerializer) const override;
87  void load(Serializer& rSerializer) override;
88 };
89 
90 
91 }
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:23
Element::Pointer Create(IndexType NewId, typename GeometryType::Pointer pGeometry, typename PropertiesType::Pointer pProperties) const override
It creates a new element pointer.
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:67
BaseType::SizeType SizeType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:27
BaseType::DofsArrayType DofsArrayType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:36
int Check(const ProcessInfo &rCurrentProcessInfo) const override
Definition: adjoint_finite_difference_cr_beam_element_3D2N.cpp:67
BaseType::MatrixType MatrixType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:33
BaseType::VectorType VectorType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:32
BaseType::IntegrationMethod IntegrationMethod
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:37
AdjointFiniteDifferenceCrBeamElement(IndexType NewId, typename GeometryType::Pointer pGeometry, typename PropertiesType::Pointer pProperties)
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:52
AdjointFiniteDifferenceCrBeamElement(IndexType NewId=0)
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:42
BaseType::GeometryType GeometryType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:29
Element::Pointer Create(IndexType NewId, NodesArrayType const &ThisNodes, typename PropertiesType::Pointer pProperties) const override
It creates a new element pointer.
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:59
BaseType::DofsVectorType DofsVectorType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:35
AdjointFiniteDifferenceCrBeamElement(IndexType NewId, typename GeometryType::Pointer pGeometry)
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:47
KRATOS_CLASS_INTRUSIVE_POINTER_DEFINITION(AdjointFiniteDifferenceCrBeamElement)
BaseType::NodesArrayType NodesArrayType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:31
AdjointFiniteDifferencingBaseElement< TPrimalElement > BaseType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:26
BaseType::IndexType IndexType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:28
BaseType::PropertiesType PropertiesType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:30
void CalculateOnIntegrationPoints(const Variable< array_1d< double, 3 > > &rVariable, std::vector< array_1d< double, 3 > > &rOutput, const ProcessInfo &rCurrentProcessInfo) override
Definition: adjoint_finite_difference_cr_beam_element_3D2N.cpp:24
BaseType::EquationIdVectorType EquationIdVectorType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:34
BaseType::GeometryDataType GeometryDataType
Definition: adjoint_finite_difference_cr_beam_element_3D2N.h:38
AdjointFiniteDifferencingBaseElement.
Definition: adjoint_finite_difference_base_element.h:54
GeometryData::IntegrationMethod IntegrationMethod
Type definition for integration methods.
Definition: element.h:105
Vector VectorType
Definition: element.h:88
PointerVectorSet< DofType > DofsArrayType
Definition: element.h:102
std::size_t SizeType
Definition: element.h:94
Properties PropertiesType
Definition: element.h:80
std::vector< DofType::Pointer > DofsVectorType
Definition: element.h:100
Geometry< NodeType >::PointsArrayType NodesArrayType
definition of nodes container type, redefined from GeometryType
Definition: element.h:86
GeometryData GeometryDataType
Definition: element.h:107
Matrix MatrixType
Definition: element.h:90
std::vector< std::size_t > EquationIdVectorType
Definition: element.h:98
std::size_t IndexType
Definition: flags.h:74
This defines the geometrical object, base definition of the element and condition entities.
Definition: geometrical_object.h:58
GeometryType & GetGeometry()
Returns the reference of the geometry.
Definition: geometrical_object.h:158
std::size_t IndexType
Defines the index type.
Definition: geometrical_object.h:73
Geometry base class.
Definition: geometry.h:71
virtual Pointer Create(PointsArrayType const &rThisPoints) const
Creates a new geometry pointer.
Definition: geometry.h:813
PointerVector is a container like stl vector but using a vector to store pointers to its data.
Definition: pointer_vector.h:72
ProcessInfo holds the current value of different solution parameters.
Definition: process_info.h:59
The serialization consists in storing the state of an object into a storage format like data file or ...
Definition: serializer.h:123
Variable class contains all information needed to store and retrive data from a data container.
Definition: variable.h:63
REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES.
Definition: mesh_condition.cpp:21
def load(f)
Definition: ode_solve.py:307