P0TetrahedronFiniteElement Class Reference

#include <P0TetrahedronFiniteElement.hpp>

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List of all members.

Public Types

enum  {
  numberOfDegreesOfFreedom = 1, numberOfVertexDegreesOfFreedom = 0, numberOfEdgeDegreesOfFreedom = 0, numberOfFaceDegreesOfFreedom = 0,
  numberOfVolumeDegreesOfFreedom = 1, numberOfFaceLivingDegreesOfFreedom = 0
}
enum  
typedef
QuadratureFormulaP0Tetrahedron 		QuadratureType
typedef TinyVector
< numberOfDegreesOfFreedom > 		ElementaryVector
typedef TinyMatrix
< numberOfDegreesOfFreedom,
numberOfDegreesOfFreedom > 		ElementaryMatrix

Public Member Functions

real_t W (const size_t &i, const TinyVector< 3 > &X) const
real_t dxW (const size_t &i, const TinyVector< 3 > &X) const
real_t dyW (const size_t &i, const TinyVector< 3 > &X) const
real_t dzW (const size_t &i, const TinyVector< 3 > &X) const
const TinyVector
< QuadratureType::numberOfQuadraturePoints,
TinyVector< 3 > > & 		integrationVertices () const
 P0TetrahedronFiniteElement ()
 ~P0TetrahedronFiniteElement ()
const real_t & W (const size_t &i, const size_t &j) const
const real_t & dxW (const size_t &i, const size_t &j) const
const real_t & dyW (const size_t &i, const size_t &j) const
const real_t & dzW (const size_t &i, const size_t &j) const
void integrateWjWi (ElementaryMatrix &matElem, const ConformTransformation &T) const
void integrateDWjWi (ElementaryMatrix &matElem, const size_t &n, const ConformTransformation &T) const
void integrateWjDWi (ElementaryMatrix &matElem, const size_t &n, const ConformTransformation &T) const
void integrateDWjDWi (ElementaryMatrix &matElem, const size_t &n, const size_t &m, const ConformTransformation &T) const
void integrateWj (ElementaryVector &vectElem, const ConformTransformation &T, const TinyVector< numberOfQuadraturePoints, real_t > &f) const

Static Public Member Functions

static const TinyVector
< 3, real_t > & 		massCenter ()
static P0TetrahedronFiniteElementinstance ()
static void create ()
static void destroy ()

Static Public Attributes

static const size_t facesDOF [Tetrahedron::NumberOfFaces][1]

Protected Member Functions

real_t __W (const size_t &i, const size_t &j)
real_t __dxW (const size_t &i, const size_t &j)
real_t __dyW (const size_t &i, const size_t &j)
real_t __dzW (const size_t &i, const size_t &j)

Protected Attributes

TinyMatrix
< numberOfDegreesOfFreedom,
numberOfQuadraturePoints > 		__w
TinyMatrix
< numberOfDegreesOfFreedom,
numberOfQuadraturePoints > 		__dxw
TinyMatrix
< numberOfDegreesOfFreedom,
numberOfQuadraturePoints > 		__dyw
TinyMatrix
< numberOfDegreesOfFreedom,
numberOfQuadraturePoints > 		__dzw

Static Protected Attributes

static P0TetrahedronFiniteElement__pInstance

Static Private Attributes

static TinyVector< 3, real_t > __massCenter

Detailed Description

Definition at line 32 of file P0TetrahedronFiniteElement.hpp.

Member Typedef Documentation

typedef QuadratureFormulaP0Tetrahedron LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::QuadratureType [inherited]

default quadrature type

Definition at line 46 of file LagrangianFiniteElement.hpp.

typedef TinyVector<numberOfDegreesOfFreedom> LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::ElementaryVector [inherited]

type of elementary vector

Definition at line 54 of file LagrangianFiniteElement.hpp.

typedef TinyMatrix<numberOfDegreesOfFreedom, numberOfDegreesOfFreedom> LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::ElementaryMatrix [inherited]

type of elementary matrix

Definition at line 59 of file LagrangianFiniteElement.hpp.

Member Enumeration Documentation

anonymous enum

Enumerator:
numberOfDegreesOfFreedom 
numberOfVertexDegreesOfFreedom 
numberOfEdgeDegreesOfFreedom 
numberOfFaceDegreesOfFreedom 
numberOfVolumeDegreesOfFreedom 
numberOfFaceLivingDegreesOfFreedom 

Definition at line 41 of file P0TetrahedronFiniteElement.hpp.

00041        {
00042     numberOfDegreesOfFreedom = 1,
00043     numberOfVertexDegreesOfFreedom = 0,
00044     numberOfEdgeDegreesOfFreedom = 0,
00045     numberOfFaceDegreesOfFreedom = 0,
00046     numberOfVolumeDegreesOfFreedom = 1,
00047     numberOfFaceLivingDegreesOfFreedom = 0 // degrees of freedom carried by a face
00048   };

anonymous enum [inherited]

Definition at line 48 of file LagrangianFiniteElement.hpp.

00048        {
00049     numberOfQuadraturePoints = QuadratureType::numberOfQuadraturePoints
00050   };

Constructor & Destructor Documentation

P0TetrahedronFiniteElement::P0TetrahedronFiniteElement (  )  [inline]

Definition at line 81 of file P0TetrahedronFiniteElement.hpp.

00082   {
00083     ;
00084   }

P0TetrahedronFiniteElement::~P0TetrahedronFiniteElement (  )  [inline]

Definition at line 86 of file P0TetrahedronFiniteElement.hpp.

00087   {
00088     ;
00089   }

Member Function Documentation

static const TinyVector<3, real_t>& P0TetrahedronFiniteElement::massCenter (  )  [inline, static]

returns the mass center of the reference element

Returns:
__massCenter

Definition at line 62 of file P0TetrahedronFiniteElement.hpp.

References __massCenter.

00063   {
00064     return __massCenter;
00065   }

real_t P0TetrahedronFiniteElement::W ( const size_t &  i,
const TinyVector< 3 > &  X 
) const

Definition at line 33 of file P0TetrahedronFiniteElement.cpp.

References ErrorHandler::unexpected.

00034 {
00035   if (i>0) {
00036     throw ErrorHandler(__FILE__,__LINE__,
00037                        "unexpected basis function number",
00038                        ErrorHandler::unexpected);
00039   }
00040 
00041   return 1;
00042 }

real_t P0TetrahedronFiniteElement::dxW ( const size_t &  i,
const TinyVector< 3 > &  X 
) const

Definition at line 45 of file P0TetrahedronFiniteElement.cpp.

References ErrorHandler::unexpected.

00046 {
00047   if (i>0) {
00048     throw ErrorHandler(__FILE__,__LINE__,
00049                        "unexpected basis function number",
00050                        ErrorHandler::unexpected);
00051   }
00052 
00053   return 0;
00054 }

real_t P0TetrahedronFiniteElement::dyW ( const size_t &  i,
const TinyVector< 3 > &  X 
) const

Definition at line 57 of file P0TetrahedronFiniteElement.cpp.

References ErrorHandler::unexpected.

00058 {
00059   if (i>0) {
00060     throw ErrorHandler(__FILE__,__LINE__,
00061                        "unexpected basis function number",
00062                        ErrorHandler::unexpected);
00063   }
00064 
00065   return 0;
00066 }

real_t P0TetrahedronFiniteElement::dzW ( const size_t &  i,
const TinyVector< 3 > &  X 
) const

Definition at line 69 of file P0TetrahedronFiniteElement.cpp.

References ErrorHandler::unexpected.

00070 {
00071   if (i>0) {
00072     throw ErrorHandler(__FILE__,__LINE__,
00073                        "unexpected basis function number",
00074                        ErrorHandler::unexpected);
00075   }
00076 
00077   return 0;
00078 }

const TinyVector<QuadratureType::numberOfQuadraturePoints, TinyVector<3> >& P0TetrahedronFiniteElement::integrationVertices (  )  const [inline]

Definition at line 76 of file P0TetrahedronFiniteElement.hpp.

References StaticBase< QuadratureFormulaP0Tetrahedron >::instance(), and QuadratureFormulaP0Tetrahedron::vertices().

00077   {
00078     return QuadratureType::instance().vertices();
00079   }

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static P0TetrahedronFiniteElement & StaticBase< P0TetrahedronFiniteElement >::instance (  )  [inline, static, inherited]

Access to auto instanciated static;

Returns:
*__pInstance

Definition at line 46 of file StaticBase.hpp.

00047   {
00048     return *__pInstance;
00049   }

static void StaticBase< P0TetrahedronFiniteElement >::create (  )  [inline, static, inherited]

Creates __pInstance in Embedding class.

Definition at line 55 of file StaticBase.hpp.

Referenced by ThreadStaticCenter::ThreadStaticCenter().

00056   {
00057     __pInstance = new EmbeddingClass();
00058   }

static void StaticBase< P0TetrahedronFiniteElement >::destroy (  )  [inline, static, inherited]

Destroyes __autoInstanciated in Embedding class.

Definition at line 64 of file StaticBase.hpp.

Referenced by ThreadStaticCenter::~ThreadStaticCenter().

00065   {
00066     delete __pInstance;
00067   }

real_t LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::__W ( const size_t &  i,
const size_t &  j 
) [inline, protected, inherited]

Computes hat function value at quadrature point

Parameters:
i the hat function number
j the number of quadrature point
Returns:
the function value

Definition at line 81 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::W().

00082   {
00083     return self().W(i,self().integrationVertices()[j]);
00084   }

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real_t LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::__dxW ( const size_t &  i,
const size_t &  j 
) [inline, protected, inherited]

Computes hat function derivative by x at quadrature point

Parameters:
i the hat function number
j the number of quadrature point
Returns:
the function's derivative value

Definition at line 94 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dxW().

00095   {
00096     return self().dxW(i,self().integrationVertices()[j]);
00097   }

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real_t LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::__dyW ( const size_t &  i,
const size_t &  j 
) [inline, protected, inherited]

Computes hat function derivative by y at quadrature point

Parameters:
i the hat function number
j the number of quadrature point
Returns:
the function's derivative value

Definition at line 107 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dyW().

00108   {
00109     return self().dyW(i,self().integrationVertices()[j]);
00110   }

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real_t LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::__dzW ( const size_t &  i,
const size_t &  j 
) [inline, protected, inherited]

Computes hat function derivative by z at quadrature point

Parameters:
i the hat function number
j the number of quadrature point
Returns:
the function's derivative value

Definition at line 120 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dzW().

00121   {
00122     return self().dzW(i,self().integrationVertices()[j]);
00123   }

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const real_t& LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::W ( const size_t &  i,
const size_t &  j 
) const [inline, inherited]

Read-only access to hat function value at a quadrature point

Parameters:
i the hat function number
j the number of quadrature point
Returns:
the function's value

Definition at line 147 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::__w.

00148   {
00149     return __w(i,j);
00150   }

const real_t& LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::dxW ( const size_t &  i,
const size_t &  j 
) const [inline, inherited]

Read-only access to hat function's derivative by x value at a quadrature point

Parameters:
i the hat function number
j the number of quadrature point
Returns:
the function's value

Definition at line 161 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::__dxw.

00162   {
00163     return __dxw(i,j);
00164   }

const real_t& LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::dyW ( const size_t &  i,
const size_t &  j 
) const [inline, inherited]

Read-only access to hat function's derivative by y value at a quadrature point

Parameters:
i the hat function number
j the number of quadrature point
Returns:
the function's value

Definition at line 175 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::__dyw.

00176   {
00177     return __dyw(i,j);
00178   }

const real_t& LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::dzW ( const size_t &  i,
const size_t &  j 
) const [inline, inherited]

Read-only access to hat function's derivative by z value at a quadrature point

Parameters:
i the hat function number
j the number of quadrature point
Returns:
the function's value

Definition at line 189 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::__dzw.

00190   {
00191     return __dzw(i,j);
00192   }

void LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::integrateWjWi ( ElementaryMatrix matElem,
const ConformTransformation &  T 
) const [inline, inherited]

Computes elementary matrix associated to $ \int w_j w_i $ on a given element using the associated conform transformation

Parameters:
matElem the elementary matrix
T the given transformation

Definition at line 203 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::numberOfQuadraturePoints, and LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::W().

00205   {
00206     ElementaryMatrix tmp = 0;
00207 
00208     for (size_t k=0; k<numberOfQuadraturePoints; ++k) { // Loop on integration vertices
00209       for (size_t j=0; j<numberOfDegreesOfFreedom; ++j) {
00210         for (size_t i=0; i<=j; ++i) {
00211           tmp(i,j)
00212             += W(i,k) * W(j,k) * QuadratureType::instance().weight(k);
00213         }
00214       }
00215     }
00216 
00217     // for this operator, matElem is symetric.
00218     for (size_t j=0; j<numberOfDegreesOfFreedom; ++j)
00219       for (size_t i=j+1; i<numberOfDegreesOfFreedom; ++i)
00220         tmp(i,j) = tmp(j,i);
00221 
00222     matElem += tmp;
00223   }

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void LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::integrateDWjWi ( ElementaryMatrix matElem,
const size_t &  n,
const ConformTransformation &  T 
) const [inline, inherited]

Computes elementary matrix associated to $ \int \partial_{x_n} w_j w_i $ on a given element using the associated conform transformation

Parameters:
matElem the elementary matrix
n the $ n $ in $ \partial_{x_n} $
T the given transformation

Definition at line 235 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dxW(), LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dyW(), LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dzW(), LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::numberOfQuadraturePoints, and LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::W().

00238   {
00239     ElementaryMatrix tmp = 0;
00240 
00241     for (size_t k=0; k<numberOfQuadraturePoints; ++k) { // Loop on integration vertices
00242       for (size_t j=0; j<numberOfDegreesOfFreedom; ++j) {
00243         const real_t fj
00244           = dxW(j,k)*T.invJacobian(0,n)
00245           + dyW(j,k)*T.invJacobian(1,n)
00246           + dzW(j,k)*T.invJacobian(2,n);
00247         for (size_t i=0; i<numberOfDegreesOfFreedom; ++i) {
00248           tmp(i,j)
00249             += fj * W(i,k)  * QuadratureType::instance().weight(k);
00250         }
00251       }
00252     }
00253     matElem += tmp;
00254   }

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void LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::integrateWjDWi ( ElementaryMatrix matElem,
const size_t &  n,
const ConformTransformation &  T 
) const [inline, inherited]

Computes elementary matrix associated to $ \int w_j \partial_{x_n} w_i $ on a given element using the associated conform transformation

Parameters:
matElem the elementary matrix
n the $ n $ in $ \partial_{x_n} $
T the given transformation

Definition at line 266 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dxW(), LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dyW(), LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dzW(), LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::numberOfQuadraturePoints, and LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::W().

00269   {
00270     ElementaryMatrix tmp = 0;
00271 
00272     for (size_t k=0; k<numberOfQuadraturePoints; ++k) { // Loop on integration vertices
00273       for (size_t i=0; i<numberOfDegreesOfFreedom; ++i) {
00274         const real_t fi
00275           = dxW(i,k)*T.invJacobian(0,n)
00276           + dyW(i,k)*T.invJacobian(1,n)
00277           + dzW(i,k)*T.invJacobian(2,n);
00278         for (size_t j=0; j<numberOfDegreesOfFreedom; ++j) {
00279           tmp(i,j)
00280             += fi * W(j,k) * QuadratureType::instance().weight(k);
00281         }
00282       }
00283     }
00284     matElem += tmp;
00285   }

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void LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::integrateDWjDWi ( ElementaryMatrix matElem,
const size_t &  n,
const size_t &  m,
const ConformTransformation &  T 
) const [inline, inherited]

Computes elementary matrix associated to $ \int \partial_{x_n} w_j \partial_{x_m} w_i $ on a given element using the associated conform transformation

Parameters:
matElem the elementary matrix
n the $ n $ in $ \partial_{x_n} $
m the $ m $ in $ \partial_{x_m} $
T the given transformation

Definition at line 298 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dxW(), LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dyW(), LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::dzW(), and LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::numberOfQuadraturePoints.

00302   {
00303     ElementaryMatrix tmp = 0;
00304 
00305     for (size_t k=0; k<numberOfQuadraturePoints; ++k) { // Loop on integration vertices
00306       for (size_t j=0; j<numberOfDegreesOfFreedom; ++j) {
00307         const real_t fj
00308           = dxW(j,k)*T.invJacobian(0,n)
00309           + dyW(j,k)*T.invJacobian(1,n)
00310           + dzW(j,k)*T.invJacobian(2,n);
00311         for (size_t i=0; i<numberOfDegreesOfFreedom; ++i) {
00312           tmp(i,j)
00313             += fj
00314             * (  dxW(i,k)*T.invJacobian(0,m)
00315                + dyW(i,k)*T.invJacobian(1,m)
00316                + dzW(i,k)*T.invJacobian(2,m) )
00317             * QuadratureType::instance().weight(k);
00318         }
00319       }
00320     }
00321 
00322     matElem += tmp;
00323   }

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void LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::integrateWj ( ElementaryVector vectElem,
const ConformTransformation &  T,
const TinyVector< numberOfQuadraturePoints, real_t > &  f 
) const [inline, inherited]

Computes elementary vector associated to $ \int f w_i $ on a given element using the associated conform transformation

Parameters:
vectElem the elementary vector
T the given transformation
f $ f $ values at quadrature points

Definition at line 334 of file LagrangianFiniteElement.hpp.

References LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::numberOfQuadraturePoints, and LagrangianFiniteElement< numberOfDegreesOfFreedom, FiniteElementType, GivenQuadratureType >::W().

00337   {
00338     vectElem = 0;
00339 
00340     for (size_t k=0; k<numberOfQuadraturePoints; ++k)
00341       for (size_t j=0; j<numberOfDegreesOfFreedom; ++j) {
00342         vectElem[j]
00343           += W(j,k)
00344           *  f[k]
00345           *  QuadratureType::instance().weight(k);
00346       }
00347   }

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Member Data Documentation

TinyVector< 3, real_t > P0TetrahedronFiniteElement::__massCenter [static, private]

mass center of the reference element

Definition at line 38 of file P0TetrahedronFiniteElement.hpp.

Referenced by massCenter().

const size_t P0TetrahedronFiniteElement::facesDOF [static]

Initial value:

 {{std::numeric_limits<size_t>::max()},
   {std::numeric_limits<size_t>::max()},
   {std::numeric_limits<size_t>::max()},
   {std::numeric_limits<size_t>::max()}}
Degrees of freedom living on faces

Note:
the 1 is here for template compatbility

Definition at line 55 of file P0TetrahedronFiniteElement.hpp.

P0TetrahedronFiniteElement * StaticBase< P0TetrahedronFiniteElement >::__pInstance [static, protected, inherited]

The static variable

Definition at line 37 of file StaticBase.hpp.

TinyMatrix<numberOfDegreesOfFreedom,numberOfQuadraturePoints> LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::__w [protected, inherited]

hat function values at quadrature points

Definition at line 127 of file LagrangianFiniteElement.hpp.

TinyMatrix<numberOfDegreesOfFreedom,numberOfQuadraturePoints> LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::__dxw [protected, inherited]

hat function dx values at quadrature points

Definition at line 130 of file LagrangianFiniteElement.hpp.

TinyMatrix<numberOfDegreesOfFreedom,numberOfQuadraturePoints> LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::__dyw [protected, inherited]

hat function dy values at quadrature points

Definition at line 133 of file LagrangianFiniteElement.hpp.

TinyMatrix<numberOfDegreesOfFreedom,numberOfQuadraturePoints> LagrangianFiniteElement< numberOfDegreesOfFreedom, P0TetrahedronFiniteElement , QuadratureFormulaP0Tetrahedron >::__dzw [protected, inherited]

hat function dz values at quadrature points

Definition at line 136 of file LagrangianFiniteElement.hpp.

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