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itk::fem::Material Class Reference

Base class for storing all the implicit material and other properties required to fully define the element class. More...

#include <itkFEMMaterialBase.h>

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List of all members.

Public Types

typedef FEMPArray< SelfArrayType
typedef Self Baseclass
typedef const SelfConstPointer
typedef SelfPointer
typedef Material Self
typedef FEMLightObject Superclass

Public Member Functions

virtual int ClassID () const =0
virtual Baseclass::Pointer Clone () const =0
virtual void Read (std::istream &f, void *info)
virtual void Write (std::ostream &f) const

Static Public Member Functions

static FEMLightObject::Pointer CreateFromStream (std::istream &f, void *info)
static void SkipWhiteSpace (std::istream &f)

Public Attributes

int GN

Static Public Attributes

static const std::string whitespaces

Detailed Description

Base class for storing all the implicit material and other properties required to fully define the element class.

When specifying materials for particular element, you should use MaterialStandard class or derive your own class (using Material or MaterialStandard as a base class) if your Element requires special properties or constants.

Material base class doesn't define any data member. Everything usefull is stored in derived clases. This class is here just to group all material classes together and access them via this base class.

Definition at line 42 of file itkFEMMaterialBase.h.


Member Typedef Documentation

Array class that holds special pointers to objects of all Material classes

Definition at line 50 of file itkFEMMaterialBase.h.

Store the base class typedef for easy access from derived classes. FEM_CLASS macro also expects this for the FEMOF...

Definition at line 64 of file itkFEMLightObject.h.

Const pointer or SmartPointer to an object.

Reimplemented from itk::fem::FEMLightObject.

Reimplemented in itk::fem::MaterialLinearElasticity.

Definition at line 44 of file itkFEMMaterialBase.h.

Pointer or SmartPointer to an object.

Reimplemented from itk::fem::FEMLightObject.

Reimplemented in itk::fem::MaterialLinearElasticity.

Definition at line 44 of file itkFEMMaterialBase.h.

Standard Self typedef.

Reimplemented from itk::fem::FEMLightObject.

Reimplemented in itk::fem::MaterialLinearElasticity.

Definition at line 44 of file itkFEMMaterialBase.h.

Standard Superclass typedef.

Reimplemented from itk::fem::FEMLightObject.

Reimplemented in itk::fem::MaterialLinearElasticity.

Definition at line 44 of file itkFEMMaterialBase.h.


Member Function Documentation

virtual int itk::fem::FEMLightObject::ClassID (  )  const [pure virtual, inherited]
virtual Baseclass::Pointer itk::fem::FEMLightObject::Clone (  )  const [pure virtual, inherited]
static FEMLightObject::Pointer itk::fem::FEMLightObject::CreateFromStream ( std::istream &  f,
void *  info 
) [static, inherited]

Read object of any derived type from stream.

This static function creates an object of a class, which is derived from FEMLightObject. The class of object is first determined from the stream, then the object of that class is constructed using the FEMObjectFactory. Finally the data for this object is read from the stream, by calling the Read() member function.

virtual void itk::fem::FEMLightObject::Read ( std::istream &  f,
void *  info 
) [virtual, inherited]

Read an object data from input stream. Call this member to initialize the data members in the current object by reading data from provided input stream. Derived classes should first call the the parent's read function, to initialize the data from parent. Note that you must manually create the object of desired type using the FEMObjectFactory before you can call read function (this is pretty obvious). In this class only the global number is read from file. Derived classes may require some additional info in order to perform the reading. Pack this info in an object and pass a pointer to it in the info parameter. If you need runtime typechecking, use a polymorphic class and dynamic_cast operator inside the implementation of Read.

Reimplemented in itk::fem::Element2DC1Beam, itk::fem::Element::Node, itk::fem::LoadBC, itk::fem::LoadBCMFC, itk::fem::LoadEdge, itk::fem::LoadElement, itk::fem::LoadGravConst, itk::fem::LoadLandmark, itk::fem::LoadNode, itk::fem::LoadTest< TClass >, itk::fem::MaterialLinearElasticity, itk::fem::Element1DStress< Element2DC0LinearLine >, itk::fem::Element2DMembrane< Element2DC0LinearQuadrilateral >, itk::fem::Element2DMembrane< Element2DC0LinearTriangular >, itk::fem::Element2DStrain< Element2DC0QuadraticTriangular >, itk::fem::Element2DStrain< Element2DC0LinearQuadrilateral >, itk::fem::Element2DStrain< Element2DC0LinearTriangular >, itk::fem::Element2DStress< Element2DC0QuadraticTriangular >, itk::fem::Element2DStress< Element2DC0LinearQuadrilateral >, itk::fem::Element2DStress< Element2DC0LinearTriangular >, itk::fem::Element3DMembrane< Element3DC0LinearHexahedron >, itk::fem::Element3DMembrane< Element3DC0LinearTetrahedron >, itk::fem::Element3DStrain< Element3DC0LinearHexahedron >, itk::fem::Element3DStrain< Element3DC0LinearTetrahedron >, itk::fem::ElementStd< 3, 2 >, itk::fem::ElementStd< 2, 2 >, itk::fem::ElementStd< 8, 3 >, itk::fem::ElementStd< 6, 2 >, itk::fem::ElementStd< 4, 3 >, and itk::fem::ElementStd< 4, 2 >.

static void itk::fem::FEMLightObject::SkipWhiteSpace ( std::istream &  f  )  [static, inherited]

Helper function that skips all the whitespace and comments in an input stream.

virtual void itk::fem::FEMLightObject::Write ( std::ostream &  f  )  const [virtual, inherited]

Write an object to the output stream. Call this member to write the data members in the current object to the output stream. Here we also need to know which derived class we actually are, so that we can write the class name. The class name is obtained by calling the virtual ClassID() member function and passing the result to the FEMObjectFactory.

Implementations of Write member funtion in derived classes should first call the parent's implementation of Write and finaly write whatever they need.

Reimplemented in itk::fem::Element2DC1Beam, itk::fem::Element::Node, itk::fem::LoadBC, itk::fem::LoadBCMFC, itk::fem::LoadEdge, itk::fem::LoadElement, itk::fem::LoadGravConst, itk::fem::LoadLandmark, itk::fem::LoadNode, itk::fem::LoadTest< TClass >, itk::fem::MaterialLinearElasticity, itk::fem::Element1DStress< Element2DC0LinearLine >, itk::fem::Element2DMembrane< Element2DC0LinearQuadrilateral >, itk::fem::Element2DMembrane< Element2DC0LinearTriangular >, itk::fem::Element2DStrain< Element2DC0QuadraticTriangular >, itk::fem::Element2DStrain< Element2DC0LinearQuadrilateral >, itk::fem::Element2DStrain< Element2DC0LinearTriangular >, itk::fem::Element2DStress< Element2DC0QuadraticTriangular >, itk::fem::Element2DStress< Element2DC0LinearQuadrilateral >, itk::fem::Element2DStress< Element2DC0LinearTriangular >, itk::fem::Element3DMembrane< Element3DC0LinearHexahedron >, itk::fem::Element3DMembrane< Element3DC0LinearTetrahedron >, itk::fem::Element3DStrain< Element3DC0LinearHexahedron >, itk::fem::Element3DStrain< Element3DC0LinearTetrahedron >, itk::fem::ElementStd< 3, 2 >, itk::fem::ElementStd< 2, 2 >, itk::fem::ElementStd< 8, 3 >, itk::fem::ElementStd< 6, 2 >, itk::fem::ElementStd< 4, 3 >, and itk::fem::ElementStd< 4, 2 >.


Member Data Documentation

Global number of an object (ID of an object) In general the ID's are required to be unique only within a specific type of derived classes (Elements, Nodes, ...) If the GN is not required, it can be ignored. (normally you need the GN when writing or reading objects to/from stream.

Definition at line 165 of file itkFEMLightObject.h.

Referenced by itk::fem::FEMLightObject::FEMLightObject().

const std::string itk::fem::FEMLightObject::whitespaces [static, inherited]

Const string of all whitespace characters. This string is used by SkipWhiteSpace function.

Definition at line 135 of file itkFEMLightObject.h.


The documentation for this class was generated from the following file:

Generated at Tue Jul 13 2010 03:59:15 for ITK by doxygen 1.7.1 written by Dimitri van Heesch, © 1997-2000