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KratosMultiphysics.ConstitutiveLaw
KratosMultiphysics.ConstitutiveLaw = class ConstitutiveLaw(Flags)
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Method resolution order:
[ConstitutiveLaw](KratosMultiphysics.ConstitutiveLaw)
[Flags](KratosMultiphysics.Flags)
pybind11_builtins.pybind11_object
[builtins.object](builtins.html#object)
Methods defined here:
CalculateMaterialResponse(...)
`CalculateMaterialResponse(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters, arg1: Kratos.StressMeasure) -> None`
CalculateMaterialResponseCauchy(...)
`CalculateMaterialResponseCauchy(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
CalculateMaterialResponseKirchhoff(...)
`CalculateMaterialResponseKirchhoff(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
CalculateMaterialResponsePK1(...)
`CalculateMaterialResponsePK1(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
CalculateMaterialResponsePK2(...)
`CalculateMaterialResponsePK2(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
CalculateValue(...)
`CalculateValue(*args, **kwargs)
Overloaded function.
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CalculateValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters, arg1: Kratos.BoolVariable, arg2: bool) -> bool
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CalculateValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters, arg1: Kratos.IntegerVariable, arg2: int) -> int
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CalculateValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters, arg1: Kratos.DoubleVariable, arg2: float) -> float
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CalculateValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters, arg1: Kratos.Array1DVariable3, arg2: Kratos.Array3) -> Kratos.Array3
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CalculateValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters, arg1: Kratos.VectorVariable, arg2: Kratos.Vector) -> Kratos.Vector
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CalculateValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters, arg1: Kratos.MatrixVariable, arg2: Kratos.Matrix) -> Kratos.Matrix`
Check(...)
`Check(self: Kratos.ConstitutiveLaw, arg0: Kratos.Properties, arg1: Kratos::Geometry<Kratos::Node<3ul, Kratos::Dof<double> > >, arg2: Kratos.ProcessInfo) -> int`
Clone(...)
`Clone(self: Kratos.ConstitutiveLaw) -> Kratos.ConstitutiveLaw`
Create(...)
`Create(self: Kratos.ConstitutiveLaw, arg0: Kratos::Parameters) -> Kratos.ConstitutiveLaw`
FinalizeMaterialResponse(...)
`FinalizeMaterialResponse(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters, arg1: Kratos.StressMeasure) -> None`
FinalizeMaterialResponseCauchy(...)
`FinalizeMaterialResponseCauchy(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
FinalizeMaterialResponseKirchhoff(...)
`FinalizeMaterialResponseKirchhoff(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
FinalizeMaterialResponsePK1(...)
`FinalizeMaterialResponsePK1(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
FinalizeMaterialResponsePK2(...)
`FinalizeMaterialResponsePK2(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
FinalizeSolutionStep(...)
`FinalizeSolutionStep(self: Kratos.ConstitutiveLaw, arg0: Kratos.Properties, arg1: Kratos::Geometry<Kratos::Node<3ul, Kratos::Dof<double> > >, arg2: Kratos.Vector, arg3: Kratos.ProcessInfo) -> None`
GetLawFeatures(...)
`GetLawFeatures(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawFeatures) -> None`
GetStrainSize(...)
`GetStrainSize(*args, **kwargs)
Overloaded function.
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GetStrainSize(self: Kratos.ConstitutiveLaw) -> int
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GetStrainSize(self: Kratos.ConstitutiveLaw) -> int`
GetStressMeasure(...)
`GetStressMeasure(self: Kratos.ConstitutiveLaw) -> Kratos.StressMeasure`
GetValue(...)
`GetValue(*args, **kwargs)
Overloaded function.
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GetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.BoolVariable, arg1: bool) -> bool
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GetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.IntegerVariable, arg1: int) -> int
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GetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.DoubleVariable, arg1: float) -> float
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GetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.Array1DVariable3, arg1: Kratos.Array3) -> Kratos.Array3
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GetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.VectorVariable, arg1: Kratos.Vector) -> Kratos.Vector
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GetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.MatrixVariable, arg1: Kratos.Matrix) -> Kratos.Matrix`
Has(...)
`Has(*args, **kwargs)
Overloaded function.
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Has(self: Kratos.ConstitutiveLaw, arg0: Kratos.BoolVariable) -> bool
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Has(self: Kratos.ConstitutiveLaw, arg0: Kratos.IntegerVariable) -> bool
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Has(self: Kratos.ConstitutiveLaw, arg0: Kratos.DoubleVariable) -> bool
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Has(self: Kratos.ConstitutiveLaw, arg0: Kratos.Array1DVariable3) -> bool
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Has(self: Kratos.ConstitutiveLaw, arg0: Kratos.VectorVariable) -> bool
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Has(self: Kratos.ConstitutiveLaw, arg0: Kratos.MatrixVariable) -> bool`
InitializeMaterial(...)
`InitializeMaterial(self: Kratos.ConstitutiveLaw, arg0: Kratos.Properties, arg1: Kratos::Geometry<Kratos::Node<3ul, Kratos::Dof<double> > >, arg2: Kratos.Vector) -> None`
InitializeMaterialResponse(...)
`InitializeMaterialResponse(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters, arg1: Kratos.StressMeasure) -> None`
InitializeMaterialResponseCauchy(...)
`InitializeMaterialResponseCauchy(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
InitializeMaterialResponseKirchhoff(...)
`InitializeMaterialResponseKirchhoff(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
InitializeMaterialResponsePK1(...)
`InitializeMaterialResponsePK1(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
InitializeMaterialResponsePK2(...)
`InitializeMaterialResponsePK2(self: Kratos.ConstitutiveLaw, arg0: Kratos.ConstitutiveLawParameters) -> None`
InitializeSolutionStep(...)
`InitializeSolutionStep(self: Kratos.ConstitutiveLaw, arg0: Kratos.Properties, arg1: Kratos::Geometry<Kratos::Node<3ul, Kratos::Dof<double> > >, arg2: Kratos.Vector, arg3: Kratos.ProcessInfo) -> None`
IsIncremental(...)
`IsIncremental(self: Kratos.ConstitutiveLaw) -> bool`
PullBackConstitutiveMatrix(...)
`PullBackConstitutiveMatrix(self: Kratos.ConstitutiveLaw, arg0: Kratos.Matrix, arg1: Kratos.Matrix) -> None`
PushForwardConstitutiveMatrix(...)
`PushForwardConstitutiveMatrix(self: Kratos.ConstitutiveLaw, arg0: Kratos.Matrix, arg1: Kratos.Matrix) -> None`
ResetMaterial(...)
`ResetMaterial(self: Kratos.ConstitutiveLaw, arg0: Kratos.Properties, arg1: Kratos::Geometry<Kratos::Node<3ul, Kratos::Dof<double> > >, arg2: Kratos.Vector) -> None`
SetValue(...)
`SetValue(*args, **kwargs)
Overloaded function.
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SetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.IntegerVariable, arg1: int, arg2: Kratos.ProcessInfo) -> None
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SetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.DoubleVariable, arg1: float, arg2: Kratos.ProcessInfo) -> None
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SetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.Array1DVariable3, arg1: Kratos.Array3, arg2: Kratos.ProcessInfo) -> None
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SetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.VectorVariable, arg1: Kratos.Vector, arg2: Kratos.ProcessInfo) -> None
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SetValue(self: Kratos.ConstitutiveLaw, arg0: Kratos.MatrixVariable, arg1: Kratos.Matrix, arg2: Kratos.ProcessInfo) -> None`
TransformCauchyStresses(...)
`TransformCauchyStresses(self: Kratos.ConstitutiveLaw, arg0: Kratos.Vector, arg1: Kratos.Matrix, arg2: float, arg3: Kratos.StressMeasure) -> Kratos.Vector`
TransformKirchhoffStresses(...)
`TransformKirchhoffStresses(self: Kratos.ConstitutiveLaw, arg0: Kratos.Vector, arg1: Kratos.Matrix, arg2: float, arg3: Kratos.StressMeasure) -> Kratos.Vector`
TransformPK1Stresses(...)
`TransformPK1Stresses(self: Kratos.ConstitutiveLaw, arg0: Kratos.Vector, arg1: Kratos.Matrix, arg2: float, arg3: Kratos.StressMeasure) -> Kratos.Vector`
TransformPK2Stresses(...)
`TransformPK2Stresses(self: Kratos.ConstitutiveLaw, arg0: Kratos.Vector, arg1: Kratos.Matrix, arg2: float, arg3: Kratos.StressMeasure) -> Kratos.Vector`
TransformStrains(...)
`TransformStrains(self: Kratos.ConstitutiveLaw, arg0: Kratos.Vector, arg1: Kratos.Matrix, arg2: Kratos.StrainMeasure, arg3: Kratos.StrainMeasure) -> Kratos.Vector`
WorkingSpaceDimension(...)
`WorkingSpaceDimension(*args, **kwargs)
Overloaded function.
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WorkingSpaceDimension(self: Kratos.ConstitutiveLaw) -> int
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WorkingSpaceDimension(self: Kratos.ConstitutiveLaw) -> int`
init(...)
`__init__(self: Kratos.ConstitutiveLaw) -> None`
Data descriptors defined here:
ANISOTROPIC
AXISYMMETRIC_LAW
COMPUTE_CONSTITUTIVE_TENSOR
COMPUTE_STRAIN_ENERGY
COMPUTE_STRESS
FINALIZE_MATERIAL_RESPONSE
FINITE_STRAINS
INCREMENTAL_STRAIN_MEASURE
INFINITESIMAL_STRAINS
INITIALIZE_MATERIAL_RESPONSE
ISOCHORIC_TENSOR_ONLY
ISOTROPIC
MECHANICAL_RESPONSE_ONLY
PLANE_STRAIN_LAW
PLANE_STRESS_LAW
THERMAL_RESPONSE_ONLY
THREE_DIMENSIONAL_LAW
USE_ELEMENT_PROVIDED_STRAIN
U_P_LAW
VOLUMETRIC_TENSOR_ONLY
Methods inherited from Flags:
Clear(...)
`Clear(self: Kratos.Flags) -> None`
Flip(...)
`Flip(self: Kratos.Flags, arg0: Kratos.Flags) -> None`
Is(...)
`Is(self: Kratos.Flags, arg0: Kratos.Flags) -> bool`
IsDefined(...)
`IsDefined(self: Kratos.Flags, arg0: Kratos.Flags) -> bool`
IsNot(...)
`IsNot(self: Kratos.Flags, arg0: Kratos.Flags) -> bool`
IsNotDefined(...)
`IsNotDefined(self: Kratos.Flags, arg0: Kratos.Flags) -> bool`
Reset(...)
`Reset(self: Kratos.Flags, arg0: Kratos.Flags) -> None`
Set(...)
`Set(*args, **kwargs)
Overloaded function.
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Set(self: Kratos.Flags, arg0: Kratos.Flags) -> None
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Set(self: Kratos.Flags, arg0: Kratos.Flags, arg1: bool) -> None`
and(...)
`__and__(self: Kratos.Flags, arg0: Kratos.Flags) -> Kratos.Flags`
or(...)
`__or__(self: Kratos.Flags, arg0: Kratos.Flags) -> Kratos.Flags`
str(...)
`__str__(self: Kratos.Flags) -> str`
Static methods inherited from pybind11_builtins.pybind11_object:
new(*args, **kwargs) from pybind11_builtins.pybind11_type
` Create and return a new object. See help(type) for accurate signature.`
- Getting Kratos (Last compiled Release)
- Compiling Kratos
- Running an example from GiD
- Kratos input files and I/O
- Data management
- Solving strategies
- Manipulating solution values
- Multiphysics
- Video tutorials
- Style Guide
- Authorship of Kratos files
- Configure .gitignore
- How to configure clang-format
- How to use smart pointer in Kratos
- How to define adjoint elements and response functions
- Visibility and Exposure
- Namespaces and Static Classes
Kratos structure
Conventions
Solvers
Debugging, profiling and testing
- Compiling Kratos in debug mode
- Debugging Kratos using GDB
- Cross-debugging Kratos under Windows
- Debugging Kratos C++ under Windows
- Checking memory usage with Valgind
- Profiling Kratos with MAQAO
- Creating unitary tests
- Using ThreadSanitizer to detect OMP data race bugs
- Debugging Memory with ASAN
HOW TOs
- How to create applications
- Python Tutorials
- Kratos For Dummies (I)
- List of classes and variables accessible via python
- How to use Logger
- How to Create a New Application using cmake
- How to write a JSON configuration file
- How to Access DataBase
- How to use quaternions in Kratos
- How to do Mapping between nonmatching meshes
- How to use Clang-Tidy to automatically correct code
- How to use the Constitutive Law class
- How to use Serialization
- How to use GlobalPointerCommunicator
- How to use PointerMapCommunicator
- How to use the Geometry
- How to use processes for BCs
- How to use Parallel Utilities in futureproofing the code
- Porting to Pybind11 (LEGACY CODE)
- Porting to AMatrix
- How to use Cotire
- Applications: Python-modules
- How to run multiple cases using PyCOMPSs
- How to apply a function to a list of variables
- How to use Kratos Native sparse linear algebra
Utilities
Kratos API
Kratos Structural Mechanics API