/usr/include/freefoam/OpenFOAM/FieldFunctions.H is in libfreefoam-dev 0.1.0+dfsg-1build1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration |
\\ / A nd | Copyright (C) 1991-2010 OpenCFD Ltd.
\\/ M anipulation |
-------------------------------------------------------------------------------
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.
OpenFOAM is distributed in the hope that it will be useful, but WITHOUT
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/>.
\*---------------------------------------------------------------------------*/
#include <OpenFOAM/scalarField.H>
#define TEMPLATE template<class Type>
#include <OpenFOAM/FieldFunctionsM.H>
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
namespace Foam
{
// * * * * * * * * * * * * * * * Global Functions * * * * * * * * * * * * * //
template<class Type>
void component
(
Field<typename Field<Type>::cmptType>& res,
const UList<Type>& f,
const direction d
);
template<class Type>
void T(Field<Type>& res, const UList<Type>& f);
template<class Type, int r>
void pow
(
Field<typename powProduct<Type, r>::type>& res,
const UList<Type>& vf
);
template<class Type, int r>
tmp<Field<typename powProduct<Type, r>::type> >
pow
(
const UList<Type>& f,
typename powProduct<Type, r>::type
= pTraits<typename powProduct<Type, r>::type>::zero
);
template<class Type, int r>
tmp<Field<typename powProduct<Type, r>::type> >
pow
(
const tmp<Field<Type> >& tf,
typename powProduct<Type, r>::type
= pTraits<typename powProduct<Type, r>::type>::zero
);
template<class Type>
void sqr
(
Field<typename outerProduct<Type, Type>::type>& res,
const UList<Type>& vf
);
template<class Type>
tmp<Field<typename outerProduct<Type, Type>::type> >
sqr(const UList<Type>& f);
template<class Type>
tmp<Field<typename outerProduct<Type, Type>::type> >
sqr(const tmp<Field<Type> >& tf);
template<class Type>
void magSqr(Field<scalar>& res, const UList<Type>& f);
template<class Type>
tmp<Field<scalar> > magSqr(const UList<Type>& f);
template<class Type>
tmp<Field<scalar> > magSqr(const tmp<Field<Type> >& tf);
template<class Type>
void mag(Field<scalar>& res, const UList<Type>& f);
template<class Type>
tmp<Field<scalar> > mag(const UList<Type>& f);
template<class Type>
tmp<Field<scalar> > mag(const tmp<Field<Type> >& tf);
template<class Type>
void cmptMax(Field<typename Field<Type>::cmptType>& res, const UList<Type>& f);
template<class Type>
tmp<Field<typename Field<Type>::cmptType> > cmptMax(const UList<Type>& f);
template<class Type>
tmp<Field<typename Field<Type>::cmptType> >
cmptMax(const tmp<Field<Type> >& tf);
template<class Type>
void cmptMin(Field<typename Field<Type>::cmptType>& res, const UList<Type>& f);
template<class Type>
tmp<Field<typename Field<Type>::cmptType> > cmptMin(const UList<Type>& f);
template<class Type>
tmp<Field<typename Field<Type>::cmptType> >
cmptMin(const tmp<Field<Type> >& tf);
template<class Type>
void cmptAv(Field<typename Field<Type>::cmptType>& res, const UList<Type>& f);
template<class Type>
tmp<Field<typename Field<Type>::cmptType> > cmptAv(const UList<Type>& f);
template<class Type>
tmp<Field<typename Field<Type>::cmptType> > cmptAv(const tmp<Field<Type> >& tf);
template<class Type>
void cmptMag(Field<Type>& res, const UList<Type>& f);
template<class Type>
tmp<Field<Type> > cmptMag(const UList<Type>& f);
template<class Type>
tmp<Field<Type> > cmptMag(const tmp<Field<Type> >& tf);
#define TMP_UNARY_FUNCTION(ReturnType, Func) \
\
template<class Type> \
ReturnType Func(const tmp<Field<Type> >& tf1);
template<class Type>
Type max(const UList<Type>& f);
TMP_UNARY_FUNCTION(Type, max)
template<class Type>
Type min(const UList<Type>& f);
TMP_UNARY_FUNCTION(Type, min)
template<class Type>
Type sum(const UList<Type>& f);
TMP_UNARY_FUNCTION(Type, sum)
template<class Type>
scalar sumProd(const UList<Type>& f1, const UList<Type>& f2);
template<class Type>
Type sumCmptProd(const UList<Type>& f1, const UList<Type>& f2);
template<class Type>
scalar sumSqr(const UList<Type>& f);
TMP_UNARY_FUNCTION(scalar, sumSqr)
template<class Type>
scalar sumMag(const UList<Type>& f);
TMP_UNARY_FUNCTION(scalar, sumMag)
template<class Type>
Type sumCmptMag(const UList<Type>& f);
TMP_UNARY_FUNCTION(Type, sumCmptMag)
template<class Type>
Type average(const UList<Type>& f);
TMP_UNARY_FUNCTION(Type, average)
#define G_UNARY_FUNCTION(ReturnType, gFunc, Func, rFunc) \
\
template<class Type> \
ReturnType gFunc(const UList<Type>& f); \
TMP_UNARY_FUNCTION(ReturnType, gFunc)
G_UNARY_FUNCTION(Type, gMax, max, max)
G_UNARY_FUNCTION(Type, gMin, min, min)
G_UNARY_FUNCTION(Type, gSum, sum, sum)
G_UNARY_FUNCTION(scalar, gSumSqr, sumSqr, sum)
G_UNARY_FUNCTION(scalar, gSumMag, sumMag, sum)
G_UNARY_FUNCTION(Type, gSumCmptMag, sumCmptMag, sum)
#undef G_UNARY_FUNCTION
template<class Type>
scalar gSumProd(const UList<Type>& f1, const UList<Type>& f2);
template<class Type>
Type gSumCmptProd(const UList<Type>& f1, const UList<Type>& f2);
template<class Type>
Type gAverage(const UList<Type>& f);
TMP_UNARY_FUNCTION(Type, gAverage)
#undef TMP_UNARY_FUNCTION
BINARY_FUNCTION(Type, Type, Type, max)
BINARY_FUNCTION(Type, Type, Type, min)
BINARY_FUNCTION(Type, Type, Type, cmptMultiply)
BINARY_FUNCTION(Type, Type, Type, cmptDivide)
BINARY_TYPE_FUNCTION(Type, Type, Type, max)
BINARY_TYPE_FUNCTION(Type, Type, Type, min)
BINARY_TYPE_FUNCTION(Type, Type, Type, cmptMultiply)
BINARY_TYPE_FUNCTION(Type, Type, Type, cmptDivide)
// * * * * * * * * * * * * * * * Global operators * * * * * * * * * * * * * //
UNARY_OPERATOR(Type, Type, -, negate)
BINARY_OPERATOR(Type, Type, scalar, *, multiply)
BINARY_OPERATOR(Type, scalar, Type, *, multiply)
BINARY_OPERATOR(Type, Type, scalar, /, divide)
BINARY_TYPE_OPERATOR_SF(Type, scalar, Type, *, multiply)
BINARY_TYPE_OPERATOR_FS(Type, Type, scalar, *, multiply)
BINARY_TYPE_OPERATOR_FS(Type, Type, scalar, /, divide)
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#define PRODUCT_OPERATOR(product, Op, OpFunc) \
\
template<class Type1, class Type2> \
void OpFunc \
( \
Field<typename product<Type1, Type2>::type>& res, \
const UList<Type1>& f1, \
const UList<Type2>& f2 \
); \
\
template<class Type1, class Type2> \
tmp<Field<typename product<Type1, Type2>::type> > \
operator Op(const UList<Type1>& f1, const UList<Type2>& f2); \
\
template<class Type1, class Type2> \
tmp<Field<typename product<Type1, Type2>::type> > \
operator Op(const UList<Type1>& f1, const tmp<Field<Type2> >& tf2); \
\
template<class Type1, class Type2> \
tmp<Field<typename product<Type1, Type2>::type> > \
operator Op(const tmp<Field<Type1> >& tf1, const UList<Type2>& f2); \
\
template<class Type1, class Type2> \
tmp<Field<typename product<Type1, Type2>::type> > \
operator Op(const tmp<Field<Type1> >& tf1, const tmp<Field<Type2> >& tf2); \
\
template<class Type, class Form, class Cmpt, int nCmpt> \
void OpFunc \
( \
Field<typename product<Type, Form>::type>& res, \
const UList<Type>& f1, \
const VectorSpace<Form,Cmpt,nCmpt>& vs \
); \
\
template<class Type, class Form, class Cmpt, int nCmpt> \
tmp<Field<typename product<Type, Form>::type> > \
operator Op(const UList<Type>& f1, const VectorSpace<Form,Cmpt,nCmpt>& vs); \
\
template<class Type, class Form, class Cmpt, int nCmpt> \
tmp<Field<typename product<Type, Form>::type> > \
operator Op(const tmp<Field<Type> >&tf1,const VectorSpace<Form,Cmpt,nCmpt>&vs);\
\
template<class Form, class Cmpt, int nCmpt, class Type> \
void OpFunc \
( \
Field<typename product<Form, Type>::type>& res, \
const VectorSpace<Form,Cmpt,nCmpt>& vs, \
const UList<Type>& f1 \
); \
\
template<class Form, class Cmpt, int nCmpt, class Type> \
tmp<Field<typename product<Form, Type>::type> > \
operator Op(const VectorSpace<Form,Cmpt,nCmpt>& vs, const UList<Type>& f1); \
\
template<class Form, class Cmpt, int nCmpt, class Type> \
tmp<Field<typename product<Form, Type>::type> > \
operator Op(const VectorSpace<Form,Cmpt,nCmpt>&vs,const tmp<Field<Type> >&tf1);
PRODUCT_OPERATOR(typeOfSum, +, add)
PRODUCT_OPERATOR(typeOfSum, -, subtract)
PRODUCT_OPERATOR(outerProduct, *, outer)
PRODUCT_OPERATOR(crossProduct, ^, cross)
PRODUCT_OPERATOR(innerProduct, &, dot)
PRODUCT_OPERATOR(scalarProduct, &&, dotdot)
#undef PRODUCT_OPERATOR
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
} // End namespace Foam
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
#include <OpenFOAM/undefFieldFunctionsM.H>
// ************************ vim: set sw=4 sts=4 et: ************************ //
|