FreeFOAM The Cross-Platform CFD Toolkit
parabolicCylindricalCS Class Reference

Parabolic cylindrical coordinate system. More...

#include <meshTools/parabolicCylindricalCS.H>


Detailed Description

Parabolic cylindrical coordinate system.

Notation: u = a.x() v = a.y() z = a.z();

Note:
The maintenance of this class may lag that of the main types.
Source files

Definition at line 54 of file parabolicCylindricalCS.H.

+ Inheritance diagram for parabolicCylindricalCS:
+ Collaboration diagram for parabolicCylindricalCS:

List of all members.

Public Member Functions

 TypeName ("parabolicCylindrical")
 Runtime type information.
 parabolicCylindricalCS ()
 Construct null.
 parabolicCylindricalCS (const word &name, const point &origin, const coordinateRotation &)
 Construct from origin and rotation.
 parabolicCylindricalCS (const word &, const dictionary &)
 Construct from dictionary.
- Public Member Functions inherited from coordinateSystem
 TypeName ("coordinateSystem")
 Runtime type information.
 coordinateSystem ()
 Construct null. This is equivalent to an identity coordinateSystem.
 coordinateSystem (const word &name, const coordinateSystem &)
 Construct copy with a different name.
 coordinateSystem (const word &name, const point &origin, const coordinateRotation &)
 Construct from origin and rotation.
 coordinateSystem (const word &name, const point &origin, const vector &axis, const vector &dirn)
 Construct from origin and 2 axes.
 coordinateSystem (const word &name, const dictionary &)
 Construct from dictionary with a given name.
 coordinateSystem (const dictionary &)
 Construct from dictionary with default name.
 coordinateSystem (const dictionary &, const objectRegistry &)
 Construct from dictionary (default name)
 coordinateSystem (Istream &)
 Construct from Istream.
autoPtr< coordinateSystemclone () const
 Return clone.
 declareRunTimeSelectionTable (autoPtr, coordinateSystem, dictionary,(const word &name, const dictionary &dict),(name, dict))
 declareRunTimeSelectionTable (autoPtr, coordinateSystem, origRotation,(const word &name, const point &origin, const coordinateRotation &cr),(name, origin, cr))
virtual ~coordinateSystem ()
const wordname () const
 Return name.
stringnote ()
 Return non-constant access to the optional note.
const stringnote () const
 Return the optional note.
const pointorigin () const
 Return origin.
const coordinateRotationrotation () const
 Return coordinate rotation.
const tensorR () const
 Return local-to-global transformation tensor.
const vector e1 () const
 Return local Cartesian x-axis.
const vector e2 () const
 Return local Cartesian y-axis.
const vector e3 () const
 Return local Cartesian z-axis.
const vector axis () const
 Return axis (e3: local Cartesian z-axis)
const vector direction () const
 Return direction (e1: local Cartesian x-axis)
virtual dictionary dict (bool ignoreType=false) const
 Return as dictionary of entries.
virtual void rename (const word &newName)
 Rename.
pointorigin ()
 Edit access to origin.
virtual void write (Ostream &) const
 Write.
virtual void writeDict (Ostream &, bool subDict=true) const
 Write dictionary.
point globalPosition (const point &local) const
 Convert from position in local coordinate system to global Cartesian position.
tmp< pointFieldglobalPosition (const pointField &local) const
 Convert from position in local coordinate system to global Cartesian position.
vector globalVector (const vector &local) const
 Convert from vector components in local coordinate system to global Cartesian vector.
tmp< vectorFieldglobalVector (const vectorField &local) const
 Convert from vector components in local coordinate system to global Cartesian vector.
point localPosition (const point &global) const
 Convert from global Cartesian position to position in local coordinate system.
tmp< pointFieldlocalPosition (const pointField &global) const
 Convert from global Cartesian position to position in local coordinate system.
vector localVector (const vector &global) const
 Convert from global Cartesian vector to components in local coordinate system.
tmp< vectorFieldlocalVector (const vectorField &global) const
 Convert from global Cartesian vector to components in local coordinate system.
void operator= (const dictionary &)
 assign from dictionary

Protected Member Functions

virtual vector localToGlobal (const vector &, bool translate) const
 Convert from local coordinate system to the global Cartesian system.
virtual tmp< vectorFieldlocalToGlobal (const vectorField &, bool translate) const
 Convert from local coordinate system to the global Cartesian system.
virtual vector globalToLocal (const vector &, bool translate) const
 Convert from global Cartesian system to the local coordinate system.
virtual tmp< vectorFieldglobalToLocal (const vectorField &, bool translate) const
 Convert from global Cartesian system to the local coordinate system.

Additional Inherited Members

- Static Public Member Functions inherited from coordinateSystem
static autoPtr< coordinateSystemNew (const word &name, const dictionary &)
 Select constructed from dictionary.
static autoPtr< coordinateSystemNew (const word &coordType, const word &name, const point &origin, const coordinateRotation &)
 Select constructed from origin and rotation.
static autoPtr< coordinateSystemNew (Istream &is)
 Select constructed from Istream.

Constructor & Destructor Documentation

Construct null.

Definition at line 45 of file parabolicCylindricalCS.C.

parabolicCylindricalCS ( const word name,
const point origin,
const coordinateRotation cr 
)

Construct from origin and rotation.

Definition at line 52 of file parabolicCylindricalCS.C.

parabolicCylindricalCS ( const word name,
const dictionary dict 
)

Construct from dictionary.

Definition at line 63 of file parabolicCylindricalCS.C.


Member Function Documentation

Foam::vector localToGlobal ( const vector local,
bool  translate 
) const
protectedvirtual

Convert from local coordinate system to the global Cartesian system.

with optional translation for the origin

Reimplemented from coordinateSystem.

Definition at line 75 of file parabolicCylindricalCS.C.

References Foam::abort(), Foam::FatalError, FatalErrorIn, coordinateSystem::localToGlobal(), Foam::sqr(), Vector< Cmpt >::x(), Vector< Cmpt >::y(), and Vector< Cmpt >::z().

Foam::tmp< Foam::vectorField > localToGlobal ( const vectorField local,
bool  translate 
) const
protectedvirtual

Convert from local coordinate system to the global Cartesian system.

with optional translation for the origin

Reimplemented from coordinateSystem.

Definition at line 105 of file parabolicCylindricalCS.C.

References Foam::abort(), Field< Type >::component(), Foam::FatalError, FatalErrorIn, coordinateSystem::localToGlobal(), Foam::min(), Field< Type >::replace(), List< T >::size(), Foam::sqr(), Vector< scalar >::X, Vector< scalar >::Y, and Vector< scalar >::Z.

Foam::vector globalToLocal ( const vector global,
bool  translate 
) const
protectedvirtual

Convert from global Cartesian system to the local coordinate system.

with optional translation for the origin

Reimplemented from coordinateSystem.

Definition at line 148 of file parabolicCylindricalCS.C.

References notImplemented, and Vector< scalar >::zero.

Foam::tmp< Foam::vectorField > globalToLocal ( const vectorField global,
bool  translate 
) const
protectedvirtual

Convert from global Cartesian system to the local coordinate system.

with optional translation for the origin

Reimplemented from coordinateSystem.

Definition at line 162 of file parabolicCylindricalCS.C.

References notImplemented, and Field< vector >::null().

TypeName ( "parabolicCylindrical"  )

Runtime type information.


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