ScalarFunctionMeshElementsReferences Class Reference

#include <ScalarFunctionMeshElementsReferences.hpp>

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List of all members.

Public Types

enum  Type {
  cfunction, constant, convection, dgfunction,
  femfunction, linearBasis, spectral, unaryMinus,
  modulo, sum, difference, product,
  division, power, min, max,
  gt, ge, lt, le,
  ne, eq, and_, or_,
  xor_, not_, derivate, integrate,
  normal, domainCharacteristic, meshCharacteristic, objectCharacteristic,
  composed, references, FEM0, undefined
}

Public Member Functions

real_t operator() (const TinyVector< 3, real_t > &X) const
bool canBeSimplified () const
 ScalarFunctionMeshElementsReferences (const FunctionMap &functionMap, ConstReferenceCounting< Mesh > mesh)
 ScalarFunctionMeshElementsReferences (const ScalarFunctionMeshElementsReferences &f)
 ~ScalarFunctionMeshElementsReferences ()
void setName (const std::string &name)
const std::string & name () const
const Typetype () const
real_t operator() (const real_t &x, const real_t &y, const real_t &z) const
virtual real_t dx (const TinyVector< 3, real_t > &x) const
virtual real_t dy (const TinyVector< 3, real_t > &x) const
virtual real_t dz (const TinyVector< 3, real_t > &x) const

Protected Attributes

const Type __type
std::string __name

Private Member Functions

std::ostream & __put (std::ostream &os) const
template<typename MeshType>
real_t __evaluate (const TinyVector< 3, real_t > &X) const

Private Attributes

FunctionMap __functionMap
ConstReferenceCounting< Mesh__mesh

Friends

std::ostream & operator<< (std::ostream &os, const ScalarFunctionBase &scalarFunction)

Detailed Description

Definition at line 39 of file ScalarFunctionMeshElementsReferences.hpp.

Member Enumeration Documentation

enum ScalarFunctionBase::Type [inherited]

Enumerator:
cfunction 
constant 
convection 
dgfunction 
femfunction 
linearBasis 
spectral 
unaryMinus 
modulo 
sum 
difference 
product 
division 
power 
min 
max 
gt 
ge 
lt 
le 
ne 
eq 
and_ 
or_ 
xor_ 
not_ 
derivate 
integrate 
normal 
domainCharacteristic 
meshCharacteristic 
objectCharacteristic 
composed 
references 
FEM0 
undefined 

Definition at line 40 of file ScalarFunctionBase.hpp.

00040             {
00041     cfunction,
00042     constant,
00043     convection,
00044     dgfunction,
00045     femfunction,
00046     linearBasis,
00047     spectral,
00048     unaryMinus,
00049 
00050     modulo,
00051     sum,
00052     difference,
00053     product,
00054     division,
00055     power,
00056 
00057     min,
00058     max,
00059 
00060     gt,
00061     ge,
00062     lt,
00063     le,
00064     ne,
00065     eq,
00066     and_,
00067     or_,
00068     xor_,
00069 
00070     not_,
00071 
00072     derivate,
00073     integrate,
00074 
00075     normal,
00076 
00077     domainCharacteristic,
00078     meshCharacteristic,
00079     objectCharacteristic,
00080 
00081     composed,
00082     references,
00083 
00084     FEM0,
00085 
00086     undefined
00087   };

Constructor & Destructor Documentation

ScalarFunctionMeshElementsReferences::ScalarFunctionMeshElementsReferences ( const FunctionMap &  functionMap,
ConstReferenceCounting< Mesh mesh 
)

Constructor

Parameters:
functionMap reference/function association
mesh given mesh

Definition at line 72 of file ScalarFunctionMeshElementsReferences.cpp.

00074   : ScalarFunctionBase(ScalarFunctionBase::references),
00075     __functionMap(functionMap),
00076     __mesh(mesh)
00077 {
00078   ;
00079 }

ScalarFunctionMeshElementsReferences::ScalarFunctionMeshElementsReferences ( const ScalarFunctionMeshElementsReferences f  ) 

Constructor

Parameters:
f original function

Definition at line 82 of file ScalarFunctionMeshElementsReferences.cpp.

00083   : ScalarFunctionBase(f),
00084     __functionMap(f.__functionMap),
00085     __mesh(f.__mesh)
00086 {
00087   ;
00088 }

ScalarFunctionMeshElementsReferences::~ScalarFunctionMeshElementsReferences (  ) 

Destructor

Definition at line 91 of file ScalarFunctionMeshElementsReferences.cpp.

00092 {
00093   ;
00094 }

Member Function Documentation

std::ostream& ScalarFunctionMeshElementsReferences::__put ( std::ostream &  os  )  const [inline, private, virtual]

Write a function to a stream

Parameters:
os output stream
Returns:
os

Implements ScalarFunctionBase.

Definition at line 62 of file ScalarFunctionMeshElementsReferences.hpp.

References __functionMap.

00063   {
00064     os << "references(elements,{mesh}";
00065     for (FunctionMap::const_iterator i = __functionMap.begin();
00066          i != __functionMap.end(); ++i) {
00067       os << ',' << i->first << ':' << *i->second;
00068     }
00069     os << ')';
00070     return os;
00071   }

template<typename MeshType>
real_t ScalarFunctionMeshElementsReferences::__evaluate ( const TinyVector< 3, real_t > &  X  )  const [inline, private]

Evaluates function at position $ X $

Parameters:
X position
Note:
this is a specialization according to mesh type
Returns:
$ f_{\mbox{ref}}(X) $

Definition at line 30 of file ScalarFunctionMeshElementsReferences.cpp.

References __functionMap.

00031 {
00032   const MeshType& M = static_cast<const MeshType&>(*__mesh);
00033   typename MeshType::const_iterator icell = M.find(X);
00034 
00035   if (icell.end()) { // outside of the mesh!
00036     return 0;
00037   }
00038 
00039   const size_t ref = (*icell).reference();
00040   FunctionMap::const_iterator i = this->__functionMap.find(ref);
00041   if (i == this->__functionMap.end()) { // reference was not found in list
00042     return 0;
00043   } else {
00044     return (*i->second)(X);
00045   }
00046 }

real_t ScalarFunctionMeshElementsReferences::operator() ( const TinyVector< 3, real_t > &  X  )  const [virtual]

Evaluates function at position $ X $

Parameters:
X position
Returns:
$ f_{\mbox{ref}}(X) $

Implements ScalarFunctionBase.

Definition at line 50 of file ScalarFunctionMeshElementsReferences.cpp.

References __mesh, Mesh::cartesianHexahedraMesh, Mesh::hexahedraMesh, Mesh::tetrahedraMesh, and ErrorHandler::unexpected.

00051 {
00052   switch (__mesh->type()) {
00053   case Mesh::cartesianHexahedraMesh: {
00054     return this->__evaluate<Structured3DMesh>(X);
00055   } 
00056   case Mesh::hexahedraMesh: {
00057     return this->__evaluate<MeshOfHexahedra>(X);
00058   } 
00059   case Mesh::tetrahedraMesh: {
00060     return this->__evaluate<MeshOfTetrahedra>(X);
00061   } 
00062   default: {
00063     throw ErrorHandler(__FILE__,__LINE__,
00064                        "references are not implemented for this kind of mesh",
00065                        ErrorHandler::unexpected);
00066     return 0;
00067   }
00068   }
00069 }

bool ScalarFunctionMeshElementsReferences::canBeSimplified (  )  const [inline, virtual]

Checks if the function can be simplified

Returns:
false

Implements ScalarFunctionBase.

Definition at line 100 of file ScalarFunctionMeshElementsReferences.hpp.

00101   {
00102     return false;
00103   }

void ScalarFunctionBase::setName ( const std::string &  name  )  [inline, inherited]

Sets the name of the function

Parameters:
name name to give to this function

Definition at line 109 of file ScalarFunctionBase.hpp.

References ScalarFunctionBase::__name.

Referenced by FunctionExpressionVariable::execute().

00110   {
00111     __name = name;
00112   }

const std::string& ScalarFunctionBase::name (  )  const [inline, inherited]

Gets the name of the function

Returns:
__name

Definition at line 119 of file ScalarFunctionBase.hpp.

References ScalarFunctionBase::__name.

00120   {
00121     return __name;
00122   }

const Type& ScalarFunctionBase::type (  )  const [inline, inherited]

Read-only access to the type of the function

Returns:
__type

Definition at line 129 of file ScalarFunctionBase.hpp.

References ScalarFunctionBase::__type.

Referenced by WriterVTK::__fillCrossedComponent(), WriterMedit::__fillCrossedComponent(), ScalarFunctionBuilder::Simplifier::__getOperatorF1SimplifiedFunction(), ScalarFunctionBuilder::Simplifier::__getOperatorSimplifiedFunction(), WriterVTK::__proceed(), WriterMedit::__proceedData(), WriterRaw::__saveScalarFunction(), FEMDiscretization< Structured3DMesh, TypeOfDiscretization >::assembleSecondMember(), InstructionAffectation< FunctionExpression, FunctionVariable >::execute(), FEMFunction< MeshType, FiniteElementTraits >::operator=(), and DGFunction< MeshType, FiniteElementTraits >::operator=().

00130   {
00131     return __type;
00132   }

real_t ScalarFunctionBase::operator() ( const real_t &  x,
const real_t &  y,
const real_t &  z 
) const [inline, inherited]

Evaluates the function at point $ (x,y,z) $

Parameters:
x $ x $
y $ y $
z $ z $
Returns:
$ f(x,y,z) $

Definition at line 162 of file ScalarFunctionBase.hpp.

00165   {
00166     return this->operator()(TinyVector<3, real_t>(x,y,z));    
00167   }

virtual real_t ScalarFunctionBase::dx ( const TinyVector< 3, real_t > &  x  )  const [inline, virtual, inherited]

Evaluates first derivative of the function

Parameters:
x position of evaluation
Returns:
$ \partial_x f $ at position $ x $

Definition at line 185 of file ScalarFunctionBase.hpp.

References ErrorHandler::normal.

00186   {
00187     std::stringstream errorMsg;
00188 
00189     errorMsg << "cannot compute derivative of non discrete functions :-(\n";
00190     errorMsg << "the function " << (*this) << " is not of that kind"
00191              << std::ends;
00192 
00193     throw ErrorHandler(__FILE__,__LINE__,
00194                        errorMsg.str(),
00195                        ErrorHandler::normal);
00196     return 0;
00197   }

virtual real_t ScalarFunctionBase::dy ( const TinyVector< 3, real_t > &  x  )  const [inline, virtual, inherited]

Evaluates second derivative of the function

Parameters:
x position of evaluation
Returns:
$ \partial_y f $ at position $ x $

Definition at line 206 of file ScalarFunctionBase.hpp.

References ErrorHandler::normal.

00207   {
00208     std::stringstream errorMsg;
00209 
00210     errorMsg << "cannot compute derivative of non discrete functions :-(\n";
00211     errorMsg << "the function " << (*this) << " is not of that kind"
00212              << std::ends;
00213 
00214     throw ErrorHandler(__FILE__,__LINE__,
00215                        errorMsg.str(),
00216                        ErrorHandler::normal);
00217     return 0;
00218   }

virtual real_t ScalarFunctionBase::dz ( const TinyVector< 3, real_t > &  x  )  const [inline, virtual, inherited]

Evaluates third derivative of the function

Parameters:
x position of evaluation
Returns:
$ \partial_z f $ at position $ x $

Definition at line 227 of file ScalarFunctionBase.hpp.

References ErrorHandler::normal.

00228   {
00229     std::stringstream errorMsg;
00230 
00231     errorMsg << "cannot compute derivative of non discrete functions :-(\n";
00232     errorMsg << "the function " << (*this) << " is not of that kind"
00233              << std::ends;
00234 
00235     throw ErrorHandler(__FILE__,__LINE__,
00236                        errorMsg.str(),
00237                        ErrorHandler::normal);
00238     return 0;
00239   }

Friends And Related Function Documentation

std::ostream& operator<< ( std::ostream &  os,
const ScalarFunctionBase scalarFunction 
) [friend, inherited]

Writes the function scalarFunction to the stream os

Parameters:
os the output stream
scalarFunction the function to write
Returns:
os

Definition at line 142 of file ScalarFunctionBase.hpp.

00144   {
00145     if (scalarFunction.__name.size()>0) {
00146       os << scalarFunction.__name;
00147       return os;
00148     } else {
00149       return scalarFunction.__put(os);
00150     }
00151   }

Member Data Documentation

FunctionMap ScalarFunctionMeshElementsReferences::__functionMap [private]

associates refernces and functions

Definition at line 46 of file ScalarFunctionMeshElementsReferences.hpp.

Referenced by __evaluate(), and __put().

ConstReferenceCounting<Mesh> ScalarFunctionMeshElementsReferences::__mesh [private]

the mesh

Definition at line 53 of file ScalarFunctionMeshElementsReferences.hpp.

Referenced by operator()().

const Type ScalarFunctionBase::__type [protected, inherited]

type of the function

Definition at line 90 of file ScalarFunctionBase.hpp.

Referenced by ScalarFunctionBase::type().

std::string ScalarFunctionBase::__name [protected, inherited]

name of the function

Definition at line 92 of file ScalarFunctionBase.hpp.

Referenced by ScalarFunctionBase::name(), and ScalarFunctionBase::setName().

The documentation for this class was generated from the following files:
Generated on Wed Nov 19 00:13:23 2008 for FreeFEM3D (aka ff3d) by  doxygen 1.5.6