GeometricTensorField_8C_source.html

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    Copyright (C) 2011-2013 OpenFOAM Foundation

    Copyright (C) 2019-2023 OpenCFD Ltd.

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License

    This file is part of OpenFOAM.


    OpenFOAM is free software: you can redistribute it and/or modify it

    under the terms of the GNU General Public License as published by

    the Free Software Foundation, either version 3 of the License, or

    (at your option) any later version.


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    ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or

    FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License

    for more details.


    You should have received a copy of the GNU General Public License

    along with OpenFOAM.  If not, see <http://www.gnu.org/licenses/>.


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#include "GeometricTensorField.H"

#include "tensorFieldField.H"


#define TEMPLATE template<template<class> class PatchField, class GeoMesh>

#include "GeometricFieldFunctionsM.C"


// * * * * * * * * * * * * * * * Global Functions  * * * * * * * * * * * * * //


template<class Cmpt, template<class> class PatchField, class GeoMesh>

void Foam::zip

(

    GeometricField<Tensor<Cmpt>, PatchField, GeoMesh>& result,

    const GeometricField<Cmpt, PatchField, GeoMesh>& xx,

    const GeometricField<Cmpt, PatchField, GeoMesh>& xy,

    const GeometricField<Cmpt, PatchField, GeoMesh>& xz,

    const GeometricField<Cmpt, PatchField, GeoMesh>& yx,

    const GeometricField<Cmpt, PatchField, GeoMesh>& yy,

    const GeometricField<Cmpt, PatchField, GeoMesh>& yz,

    const GeometricField<Cmpt, PatchField, GeoMesh>& zx,

    const GeometricField<Cmpt, PatchField, GeoMesh>& zy,

    const GeometricField<Cmpt, PatchField, GeoMesh>& zz

)

{

    Foam::zip

    (

        result.primitiveFieldRef(),

        xx.primitiveField(), xy.primitiveField(), xz.primitiveField(),

        yx.primitiveField(), yy.primitiveField(), yz.primitiveField(),

        zx.primitiveField(), zy.primitiveField(), zz.primitiveField()

    );


    Foam::zip


    (

        result.boundaryFieldRef(),

        xx.boundaryField(), xy.boundaryField(), xz.boundaryField(),


        yx.boundaryField(), yy.boundaryField(), yz.boundaryField(),

        zx.boundaryField(), zy.boundaryField(), zz.boundaryField()

    );

}


template<class Cmpt, template<class> class PatchField, class GeoMesh>

void Foam::unzip

(

    const GeometricField<Tensor<Cmpt>, PatchField, GeoMesh>& input,

    GeometricField<Cmpt, PatchField, GeoMesh>& xx,

    GeometricField<Cmpt, PatchField, GeoMesh>& xy,

    GeometricField<Cmpt, PatchField, GeoMesh>& xz,

    GeometricField<Cmpt, PatchField, GeoMesh>& yx,

    GeometricField<Cmpt, PatchField, GeoMesh>& yy,

    GeometricField<Cmpt, PatchField, GeoMesh>& yz,

    GeometricField<Cmpt, PatchField, GeoMesh>& zx,

    GeometricField<Cmpt, PatchField, GeoMesh>& zy,

    GeometricField<Cmpt, PatchField, GeoMesh>& zz

)

{

    Foam::unzip

    (

        input.primitiveField(),

        xx.primitiveFieldRef(), xy.primitiveFieldRef(), xz.primitiveFieldRef(),

        yx.primitiveFieldRef(), yy.primitiveFieldRef(), yz.primitiveFieldRef(),

        zx.primitiveFieldRef(), zy.primitiveFieldRef(), zz.primitiveFieldRef()

    );


    Foam::unzip


    (

        input.boundaryField(),

        xx.boundaryFieldRef(), xy.boundaryFieldRef(), xz.boundaryFieldRef(),


        yx.boundaryFieldRef(), yy.boundaryFieldRef(), yz.boundaryFieldRef(),

        zx.boundaryFieldRef(), zy.boundaryFieldRef(), zz.boundaryFieldRef()

    );

}


template<class Cmpt, template<class> class PatchField, class GeoMesh>

void Foam::zipRows

(

    GeometricField<Tensor<Cmpt>, PatchField, GeoMesh>& result,

    const GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& x,

    const GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& y,

    const GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& z

)

{

    Foam::zipRows

    (

        result.primitiveFieldRef(),

        x.primitiveField(),

        y.primitiveField(),

        z.primitiveField()

    );


    Foam::zipRows


    (

        result.boundaryFieldRef(),

        x.boundaryField(),


        y.boundaryField(),

        z.boundaryField()

    );

}


template<class Cmpt, template<class> class PatchField, class GeoMesh>

void Foam::zipCols

(

    GeometricField<Tensor<Cmpt>, PatchField, GeoMesh>& result,

    const GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& x,

    const GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& y,

    const GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& z

)

{

    Foam::zipCols

    (

        result.primitiveFieldRef(),

        x.primitiveField(),

        y.primitiveField(),

        z.primitiveField()

    );


    Foam::zipCols


    (

        result.boundaryFieldRef(),

        x.boundaryField(),


        y.boundaryField(),

        z.boundaryField()

    );

}


template<class Cmpt, template<class> class PatchField, class GeoMesh>

void Foam::unzipRows

(

    const GeometricField<Tensor<Cmpt>, PatchField, GeoMesh>& input,

    GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& x,

    GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& y,

    GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& z

)

{

    Foam::unzipRows

    (

        input.primitiveField(),

        x.primitiveFieldRef(),

        y.primitiveFieldRef(),

        z.primitiveFieldRef()

    );


    Foam::unzipRows


    (

        input.boundaryField(),

        x.boundaryFieldRef(),


        y.boundaryFieldRef(),

        z.boundaryFieldRef()

    );

}


template<class Cmpt, template<class> class PatchField, class GeoMesh>

void Foam::unzipCols

(

    const GeometricField<Tensor<Cmpt>, PatchField, GeoMesh>& input,

    GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& x,

    GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& y,

    GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& z

)

{

    Foam::unzipCols

    (

        input.primitiveField(),

        x.primitiveFieldRef(),

        y.primitiveFieldRef(),

        z.primitiveFieldRef()

    );


    Foam::unzipCols


    (

        input.boundaryField(),

        x.boundaryFieldRef(),


        y.boundaryFieldRef(),

        z.boundaryFieldRef()

    );

}


template<class Cmpt, template<class> class PatchField, class GeoMesh>

void Foam::unzipRow

(

    const GeometricField<Tensor<Cmpt>, PatchField, GeoMesh>& input,

    const direction idx,


    GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& result

)

{


    Foam::unzipRow(input.primitiveField(), idx, result.primitiveFieldRef());


    Foam::unzipRow(input.boundaryField(), idx, result.boundaryFieldRef());

}


template<class Cmpt, template<class> class PatchField, class GeoMesh>

void Foam::unzipCol

(

    const GeometricField<Tensor<Cmpt>, PatchField, GeoMesh>& input,

    const direction idx,


    GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& result

)

{


    Foam::unzipCol(input.primitiveField(), idx, result.primitiveFieldRef());


    Foam::unzipCol(input.boundaryField(), idx, result.boundaryFieldRef());

}


template<class Cmpt, template<class> class PatchField, class GeoMesh>

void Foam::unzipDiag

(

    const GeometricField<Tensor<Cmpt>, PatchField, GeoMesh>& input,


    GeometricField<Vector<Cmpt>, PatchField, GeoMesh>& result

)

{

    Foam::unzipDiag(input.primitiveField(), result.primitiveFieldRef());


    Foam::unzipDiag(input.boundaryField(), result.boundaryFieldRef());

}


// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //


namespace Foam

{


// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //


UNARY_FUNCTION(tensor, tensor, T, transform)

UNARY_FUNCTION(scalar, tensor, tr, transform)

UNARY_FUNCTION(sphericalTensor, tensor, sph, transform)

UNARY_FUNCTION(symmTensor, tensor, symm, transform)

UNARY_FUNCTION(symmTensor, tensor, twoSymm, transform)

UNARY_FUNCTION(symmTensor, tensor, devSymm, transform)

UNARY_FUNCTION(symmTensor, tensor, devTwoSymm, transform)

UNARY_FUNCTION(tensor, tensor, skew, transform)

UNARY_FUNCTION(tensor, tensor, dev, transform)

UNARY_FUNCTION(tensor, tensor, dev2, transform)

UNARY_FUNCTION(scalar, tensor, det, pow3)

UNARY_FUNCTION(tensor, tensor, cof, pow2)

UNARY_FUNCTION(tensor, tensor, inv, inv)


UNARY_FUNCTION(vector, symmTensor, eigenValues, transform)

UNARY_FUNCTION(tensor, symmTensor, eigenVectors, sign)


// * * * * * * * * * * * * * * * Global Operators  * * * * * * * * * * * * * //


UNARY_OPERATOR(vector, tensor, *, hdual, transform)

UNARY_OPERATOR(tensor, vector, *, hdual, transform)


BINARY_OPERATOR(vector, vector, tensor, /, '|', divide)

BINARY_TYPE_OPERATOR(vector, vector, tensor, /, '|', divide)


// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //


} // End namespace Foam


// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //


#include "undefFieldFunctionsM.H"


// ************************************************************************* //

BINARY_TYPE_OPERATOR
#define BINARY_TYPE_OPERATOR(ReturnType, Type1, Type2, Op, OpName, OpFunc)
Definition DimensionedFieldFunctionsM.C:685

UNARY_OPERATOR
#define UNARY_OPERATOR(ReturnType, Type1, Op, OpFunc, Dfunc)
Definition DimensionedFieldFunctionsM.C:83

BINARY_OPERATOR
#define BINARY_OPERATOR(ReturnType, Type1, Type2, Op, OpName, OpFunc)
Definition DimensionedFieldFunctionsM.C:416

UNARY_FUNCTION
#define UNARY_FUNCTION(ReturnType, Type1, Func, Dfunc)
Definition DimensionedFieldFunctionsM.C:26

GeometricFieldFunctionsM.C

GeometricTensorField.H
Tensor specific part of the implementation of GeometricField.

y
scalar y
Definition LISASMDCalcMethod1.H:14

x
x
Definition LISASMDCalcMethod2.H:52

Foam::GeoMesh
Generic mesh wrapper used by volMesh, surfaceMesh, pointMesh etc.
Definition GeoMesh.H:46

Foam::GeometricField
Generic GeometricField class.
Definition GeometricField.H:75

Foam::GeometricField::primitiveFieldRef
Internal::FieldType & primitiveFieldRef(const bool updateAccessTime=true)
Return a reference to the internal field values.
Definition GeometricField.C:881

Foam::GeometricField::boundaryFieldRef
Boundary & boundaryFieldRef(const bool updateAccessTime=true)
Return a reference to the boundary field.
Definition GeometricField.C:898

Foam::GeometricField::primitiveField
const Internal::FieldType & primitiveField() const noexcept
Return a const-reference to the internal field values.
Definition GeometricFieldI.H:36

Foam::GeometricField::boundaryField
const Boundary & boundaryField() const noexcept
Return const-reference to the boundary field.
Definition GeometricFieldI.H:45

Foam::Tensor
A templated (3 x 3) tensor of objects of <T> derived from MatrixSpace.
Definition Tensor.H:60

Foam::Vector
Templated 3D Vector derived from VectorSpace adding construction from 3 components,...
Definition Vector.H:61

tensor
Tensor of scalars, i.e. Tensor<scalar>.

vector
A Vector of values with scalar precision, where scalar is float/double depending on the compilation f...

T
const volScalarField & T
Definition createFieldRefs.H:2

Foam
Namespace for OpenFOAM.
Definition atmBoundaryLayer.C:27

Foam::dev2
dimensionedSymmTensor dev2(const dimensionedSymmTensor &dt)
Definition dimensionedSymmTensor.C:110

Foam::dev
dimensionedSymmTensor dev(const dimensionedSymmTensor &dt)
Definition dimensionedSymmTensor.C:99

Foam::det
dimensionedScalar det(const dimensionedSphericalTensor &dt)
Definition dimensionedSphericalTensor.C:55

Foam::symm
dimensionedSymmTensor symm(const dimensionedSymmTensor &dt)
Definition dimensionedSymmTensor.C:77

Foam::tr
dimensionedScalar tr(const dimensionedSphericalTensor &dt)
Definition dimensionedSphericalTensor.C:44

Foam::zipCols
void zipCols(FieldField< Field, SymmTensor< Cmpt > > &result, const FieldField< Field, Vector< Cmpt > > &x, const FieldField< Field, Vector< Cmpt > > &y, const FieldField< Field, Vector< Cmpt > > &z)
Zip together symmTensor field from column components.
Definition symmTensorFieldField.C:97

Foam::zipRows
void zipRows(FieldField< Field, SymmTensor< Cmpt > > &result, const FieldField< Field, Vector< Cmpt > > &x, const FieldField< Field, Vector< Cmpt > > &y, const FieldField< Field, Vector< Cmpt > > &z)
Zip together symmTensor field field from row components.
Definition symmTensorFieldField.C:81

Foam::unzipDiag
void unzipDiag(const FieldField< Field, SymmTensor< Cmpt > > &input, FieldField< Field, Vector< Cmpt > > &result)
Extract a symmTensor field field diagonal.
Definition symmTensorFieldField.C:175

Foam::eigenVectors
dimensionedTensor eigenVectors(const dimensionedSymmTensor &dt)
Definition dimensionedTensor.C:153

Foam::sign
dimensionedScalar sign(const dimensionedScalar &ds)
Definition dimensionedScalar.C:159

Foam::pow3
dimensionedScalar pow3(const dimensionedScalar &ds)
Definition dimensionedScalar.C:82

Foam::eigenValues
dimensionedVector eigenValues(const dimensionedSymmTensor &dt)
Definition dimensionedTensor.C:142

Foam::devTwoSymm
SymmTensor< Cmpt > devTwoSymm(const SymmTensor< Cmpt > &st)
Return the deviatoric part of twice the symmetric part of a SymmTensor.
Definition SymmTensorI.H:506

Foam::twoSymm
dimensionedSymmTensor twoSymm(const dimensionedSymmTensor &dt)
Definition dimensionedSymmTensor.C:88

Foam::transform
refinementData transform(const tensor &, const refinementData val)
No-op rotational transform for base types.
Definition refinementData.C:26

Foam::divide
void divide(DimensionedField< Type, GeoMesh > &result, const DimensionedField< Type, GeoMesh > &f1, const DimensionedField< scalar, GeoMesh > &f2)
Definition DimensionedFieldFunctions.C:397

Foam::devSymm
SymmTensor< Cmpt > devSymm(const SymmTensor< Cmpt > &st)
Return the deviatoric part of the symmetric part of a SymmTensor.
Definition SymmTensorI.H:496

Foam::tensor
Tensor< scalar > tensor
Definition symmTensor.H:57

Foam::unzipCol
void unzipCol(const FieldField< Field, SymmTensor< Cmpt > > &input, const direction idx, FieldField< Field, Vector< Cmpt > > &result)
Extract a symmTensor field field column (x,y,z) == (0,1,2).
Definition symmTensorFieldField.C:160

Foam::cof
dimensionedSymmTensor cof(const dimensionedSymmTensor &dt)
Definition dimensionedSymmTensor.C:132

Foam::hdual
void hdual(pointPatchField< vector > &, const pointPatchField< tensor > &)
Definition pointPatchFieldFunctions.H:266

Foam::sph
SphericalTensor< Cmpt > sph(const DiagTensor< Cmpt > &dt)
Return the spherical part of a DiagTensor as a SphericalTensor.
Definition DiagTensorI.H:117

Foam::direction
uint8_t direction
Definition direction.H:49

Foam::unzipRows
void unzipRows(const FieldField< Field, SymmTensor< Cmpt > > &input, FieldField< Field, Vector< Cmpt > > &x, FieldField< Field, Vector< Cmpt > > &y, FieldField< Field, Vector< Cmpt > > &z)
Extract symmTensor field field rows.
Definition symmTensorFieldField.C:113

Foam::unzip
void unzip(const FieldField< Field, SphericalTensor< Cmpt > > &input, FieldField< Field, Cmpt > &ii)
Unzip sphericalTensor field field into components.
Definition sphericalTensorFieldField.C:49

Foam::inv
dimensionedSphericalTensor inv(const dimensionedSphericalTensor &dt)
Definition dimensionedSphericalTensor.C:66

Foam::unzipRow
void unzipRow(const FieldField< Field, SymmTensor< Cmpt > > &input, const direction idx, FieldField< Field, Vector< Cmpt > > &result)
Extract a symmTensor field field row (x,y,z) == (0,1,2).
Definition symmTensorFieldField.C:145

Foam::vector
Vector< scalar > vector
Definition vector.H:57

Foam::unzipCols
void unzipCols(const FieldField< Field, SymmTensor< Cmpt > > &input, FieldField< Field, Vector< Cmpt > > &x, FieldField< Field, Vector< Cmpt > > &y, FieldField< Field, Vector< Cmpt > > &z)
Extract symmTensor field field columns.
Definition symmTensorFieldField.C:129

Foam::pow2
dimensionSet pow2(const dimensionSet &ds)
Definition dimensionSet.C:352

Foam::sphericalTensor
SphericalTensor< scalar > sphericalTensor
SphericalTensor of scalars, i.e. SphericalTensor<scalar>.
Definition sphericalTensor.H:50

Foam::T
void T(FieldField< Field, Type > &f1, const FieldField< Field, Type > &f2)
Definition FieldFieldFunctions.C:53

Foam::skew
dimensionedTensor skew(const dimensionedTensor &dt)
Definition dimensionedTensor.C:131

Foam::symmTensor
SymmTensor< scalar > symmTensor
SymmTensor of scalars, i.e. SymmTensor<scalar>.
Definition symmTensor.H:55

Foam::zip
void zip(FieldField< Field, SphericalTensor< Cmpt > > &result, const FieldField< Field, Cmpt > &ii)
Zip together sphericalTensor field field from components.
Definition sphericalTensorFieldField.C:35

tensorFieldField.H
Specialisation of FieldField<T> for tensor.

undefFieldFunctionsM.H