60 void scalarField::replace(
const direction,
const scalar& s)
169 #define BesselFunc(func) \ 170 void func(scalarField& res, const int n, const UList<scalar>& sf) \ 172 TFOR_ALL_F_OP_FUNC_S_F(scalar, res, =, ::Foam::func, int, n, scalar, sf) \ 175 tmp<scalarField> func(const int n, const UList<scalar>& sf) \ 177 tmp<scalarField> tRes(new scalarField(sf.size())); \ 178 func(tRes.ref(), n, sf); \ 182 tmp<scalarField> func(const int n, const tmp<scalarField>& tsf) \ 184 tmp<scalarField> tRes = New(tsf); \ 185 func(tRes.ref(), n, tsf()); \ void divide(FieldField< Field, Type > &f, const FieldField< Field, Type > &f1, const FieldField< Field, scalar > &f2)
dimensionedScalar sign(const dimensionedScalar &ds)
dimensionedScalar tanh(const dimensionedScalar &ds)
dimensionedScalar acos(const dimensionedScalar &ds)
#define BINARY_OPERATOR(ReturnType, Type1, Type2, Op, OpName, OpFunc)
void multiply(FieldField< Field, Type > &f, const FieldField< Field, Type > &f1, const FieldField< Field, scalar > &f2)
scalar radToDeg(const scalar rad)
Conversion from radians to degrees.
void clear() const
If object pointer points to valid object:
dimensionedScalar log(const dimensionedScalar &ds)
#define UNARY_FUNCTION(ReturnType, Type1, Func, Dfunc)
T & ref() const
Return non-const reference or generate a fatal error.
Unit conversion functions.
#define BINARY_TYPE_OPERATOR_SF(ReturnType, Type1, Type2, Op, OpName, OpFunc)
dimensionedScalar sqrt(const dimensionedScalar &ds)
dimensionedScalar pow025(const dimensionedScalar &ds)
dimensionedScalar y0(const dimensionedScalar &ds)
#define BINARY_TYPE_FUNCTION(ReturnType, Type1, Type2, Func)
void subtract(FieldField< Field1, typename typeOfSum< Type1, Type2 >::type > &f, const FieldField< Field1, Type1 > &f1, const FieldField< Field2, Type2 > &f2)
dimensionedScalar posPart(const dimensionedScalar &ds)
dimensionedScalar neg(const dimensionedScalar &ds)
dimensionedScalar asin(const dimensionedScalar &ds)
dimensionedScalar pow5(const dimensionedScalar &ds)
scalar degToRad(const scalar deg)
Conversion from degrees to radians.
dimensionedScalar j1(const dimensionedScalar &ds)
#define BINARY_FUNCTION(ReturnType, Type1, Type2, Func)
tmp< scalarField > jn(const int n, const tmp< scalarField > &tsf)
tmp< scalarField > yn(const int n, const tmp< scalarField > &tsf)
void component(scalarField &sf, const UList< scalar > &f, const direction)
dimensionedScalar pos(const dimensionedScalar &ds)
dimensionedScalar acosh(const dimensionedScalar &ds)
scalar atmToPa(const scalar atm)
Conversion from atm to Pa.
gmvFile<< "tracers "<< particles.size()<< nl;forAllConstIter(Cloud< passiveParticle >, particles, iter){ gmvFile<< iter().position().x()<< " ";}gmvFile<< nl;forAllConstIter(Cloud< passiveParticle >, particles, iter){ gmvFile<< iter().position().y()<< " ";}gmvFile<< nl;forAllConstIter(Cloud< passiveParticle >, particles, iter){ gmvFile<< iter().position().z()<< " ";}gmvFile<< nl;forAll(lagrangianScalarNames, i){ word name=lagrangianScalarNames[i];IOField< scalar > s(IOobject(name, runTime.timeName(), cloud::prefix, mesh, IOobject::MUST_READ, IOobject::NO_WRITE))
dimensionedScalar cos(const dimensionedScalar &ds)
dimensionedScalar exp(const dimensionedScalar &ds)
autoPtr< BasicCompressibleMomentumTransportModel > New(const volScalarField &rho, const volVectorField &U, const surfaceScalarField &phi, const typename BasicCompressibleMomentumTransportModel::transportModel &transport)
dimensionedScalar asinh(const dimensionedScalar &ds)
dimensionedScalar cbrt(const dimensionedScalar &ds)
dimensionedScalar neg0(const dimensionedScalar &ds)
dimensionedScalar atanh(const dimensionedScalar &ds)
dimensionedScalar y1(const dimensionedScalar &ds)
tmp< Field< cmptType > > component(const direction) const
Return a component field of the field.
volScalarField scalarField(fieldObject, mesh)
dimensionedScalar pos0(const dimensionedScalar &ds)
dimensionedScalar sin(const dimensionedScalar &ds)
void add(FieldField< Field1, typename typeOfSum< Type1, Type2 >::type > &f, const FieldField< Field1, Type1 > &f1, const FieldField< Field2, Type2 > &f2)
dimensionedScalar erf(const dimensionedScalar &ds)
dimensionedScalar atan2(const dimensionedScalar &x, const dimensionedScalar &y)
#define TFOR_ALL_S_OP_F_OP_F(typeS, s, OP1, typeF1, f1, OP2, typeF2, f2)
volScalarField sf(fieldObject, mesh)
#define TFOR_ALL_F_OP_FUNC_S_F(typeF1, f1, OP, FUNC, typeS, s, typeF2, f2)
dimensionedScalar lgamma(const dimensionedScalar &ds)
dimensionedScalar pow(const dimensionedScalar &ds, const dimensionedScalar &expt)
dimensionedScalar pow3(const dimensionedScalar &ds)
tmp< DimensionedField< scalar, GeoMesh > > stabilise(const DimensionedField< scalar, GeoMesh > &dsf, const dimensioned< scalar > &ds)
dimensionedScalar erfc(const dimensionedScalar &ds)
scalar paToAtm(const scalar pa)
Conversion from atm to Pa.
dimensionedScalar sinh(const dimensionedScalar &ds)
scalar sumProd(const UList< scalar > &f1, const UList< scalar > &f2)
dimensionedScalar atan(const dimensionedScalar &ds)
tmp< scalarField > stabilise(const tmp< scalarField > &tsf, const scalar s)
dimensionedScalar pow4(const dimensionedScalar &ds)
dimensionedScalar pow6(const dimensionedScalar &ds)
dimensionedScalar cosh(const dimensionedScalar &ds)
A class for managing temporary objects.
label size() const
Return the number of elements in the UList.
dimensionedScalar tan(const dimensionedScalar &ds)
dimensionedScalar j0(const dimensionedScalar &ds)
#define BINARY_TYPE_OPERATOR(ReturnType, Type1, Type2, Op, OpName, OpFunc)
dimensionedScalar log10(const dimensionedScalar &ds)
dimensionedScalar negPart(const dimensionedScalar &ds)