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.
small_strain_udsm_2D_plane_strain_law.hpp
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1 // KRATOS___
2 // // ) )
3 // // ___ ___
4 // // ____ //___) ) // ) )
5 // // / / // // / /
6 // ((____/ / ((____ ((___/ / MECHANICS
7 //
8 // License: geo_mechanics_application/license.txt
9 //
10 // Main authors: Vahid Galavi
11 //
12 
13 #pragma once
14 
15 // System includes
16 #include "includes/define.h"
17 
18 // Project includes
20 
21 namespace Kratos
22 {
25 
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46 
48  class KRATOS_API(GEO_MECHANICS_APPLICATION) SmallStrainUDSM2DPlaneStrainLaw: public SmallStrainUDSM3DLaw
49  {
50  public:
51  // The base class ConstitutiveLaw type definition
53 
55  using SizeType = std::size_t;
56 
58  static constexpr SizeType Dimension = N_DIM_2D;
59 
61  static constexpr SizeType VoigtSize = VOIGT_SIZE_2D_PLANE_STRAIN;
62 
65 
66 
68  //@name Life Cycle
70 
74  ConstitutiveLaw::Pointer Clone() const override;
75 
77  Vector& GetValue( const Variable<Vector> &rThisVariable, Vector &rValue ) override;
78 
80  void SetValue( const Variable<Vector>& rVariable,
81  const Vector& rValue,
82  const ProcessInfo& rCurrentProcessInfo ) override;
83 
88  {
89  return Dimension;
90  }
91 
95  SizeType GetStrainSize() const override
96  {
97  return VoigtSize;
98  }
99 
105  {
106  return StrainMeasure_Infinitesimal;
107  }
108 
114  {
115  return StressMeasure_Cauchy;
116  }
117 
118 
124  void CalculateCauchyGreenStrain(ConstitutiveLaw::Parameters& rValues, Vector& rStrainVector) override;
125 
129 
130 
134 
136  std::string Info() const override
137  {
138  return "SmallStrainUDSM2DPlaneStrainLaw";
139  }
140 
142  void PrintInfo(std::ostream& rOStream) const override
143  {
144  rOStream << Info();
145  }
146 
148  void PrintData(std::ostream& rOStream) const override
149  {
150  rOStream << "SmallStrainUDSM2DPlaneStrainLaw Data";
151  }
152 
153 
157 
158 
160 
161  protected:
164 
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181  void UpdateInternalDeltaStrainVector(ConstitutiveLaw::Parameters &rValues) override;
182  void SetExternalStressVector(Vector& rStressVector) override;
183  void SetInternalStressVector(const Vector& rStressVector) override;
184  void SetInternalStrainVector(const Vector& rStrainVector) override;
185  void CopyConstitutiveMatrix(ConstitutiveLaw::Parameters &rValues, Matrix& rConstitutiveMatrix) override;
186 
187 
191 
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197 
199 
200  private:
203 
207 
211 
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221 
222 
223 
227  friend class Serializer;
228 
229  void save(Serializer& rSerializer) const override
230  {
232  }
233 
234  void load(Serializer& rSerializer) override
235  {
237  }
238 
242 
246 
248 
249  }; // Class SmallStrainUDSM3DLaw
250 
252 
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262 
264 
265 }
std::string Info() const override
Turn back information as a string.
Definition: periodic_interface_process.hpp:93
Definition: constitutive_law.h:47
StrainMeasure
Definition: constitutive_law.h:52
StressMeasure
Definition: constitutive_law.h:69
std::size_t SizeType
Definition: constitutive_law.h:82
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
Short class definition.
Definition: small_strain_udsm_2D_plane_strain_law.hpp:49
SizeType GetStrainSize() const override
Voigt tensor size:
Definition: small_strain_udsm_2D_plane_strain_law.hpp:95
std::string Info() const override
Turn back information as a string.
Definition: small_strain_udsm_2D_plane_strain_law.hpp:136
StressMeasure GetStressMeasure() override
Definition: small_strain_udsm_2D_plane_strain_law.hpp:113
void PrintData(std::ostream &rOStream) const override
Print object's data.
Definition: small_strain_udsm_2D_plane_strain_law.hpp:148
StrainMeasure GetStrainMeasure() override
Returns the expected strain measure of this constitutive law (by default Green-Lagrange)
Definition: small_strain_udsm_2D_plane_strain_law.hpp:104
SizeType WorkingSpaceDimension() override
Dimension of the law:
Definition: small_strain_udsm_2D_plane_strain_law.hpp:87
void PrintInfo(std::ostream &rOStream) const override
Print information about this object.
Definition: small_strain_udsm_2D_plane_strain_law.hpp:142
KRATOS_CLASS_POINTER_DEFINITION(SmallStrainUDSM2DPlaneStrainLaw)
Pointer definition of SmallStrainUDSM2DPlaneStrainLaw.
Short class definition.
Definition: small_strain_udsm_3D_law.hpp:85
void SetValue(const Variable< double > &rVariable, const double &rValue, const ProcessInfo &rCurrentProcessInfo) override
Sets the value of a specified variable (double)
Definition: small_strain_udsm_3D_law.cpp:911
double & GetValue(const Variable< double > &rThisVariable, double &rValue) override
Returns the value of a specified variable (double)
Definition: small_strain_udsm_3D_law.cpp:891
Variable class contains all information needed to store and retrive data from a data container.
Definition: variable.h:63
#define KRATOS_SERIALIZE_SAVE_BASE_CLASS(Serializer, BaseType)
Definition: define.h:812
#define KRATOS_SERIALIZE_LOAD_BASE_CLASS(Serializer, BaseType)
Definition: define.h:815
Parameters GetValue(Parameters &rParameters, const std::string &rEntry)
Definition: add_kratos_parameters_to_python.cpp:53
REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES.
Definition: mesh_condition.cpp:21
constexpr SizeType VOIGT_SIZE_2D_PLANE_STRAIN
Definition: geo_mechanics_application_constants.h:43
constexpr SizeType N_DIM_2D
Definition: geo_mechanics_application_constants.h:26
def SetValue(entity, variable, value)
Definition: coupling_interface_data.py:256
def load(f)
Definition: ode_solve.py:307
Definition: constitutive_law.h:189