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*
* Copyright (C) 2011-2015 FlowKit Sarl
* Route d'Oron 2
* 1010 Lausanne, Switzerland
* E-mail contact: contact@flowkit.com
*
* The most recent release of Palabos can be downloaded at
* <http://www.palabos.org/>
*
* The library Palabos is free software: you can redistribute it and/or
* modify it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of the
* License, or (at your option) any later version.
*
* The library 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 Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
/* Main author: Daniel Lagrava
**/
#ifndef MULTI_GRID_DATA_ANALYSIS_WRAPPER_3D_H
#define MULTI_GRID_DATA_ANALYSIS_WRAPPER_3D_H
#include "dataProcessors/dataAnalysisWrapper3D.h"
#include "multiGrid/multiGridLattice3D.h"
#include "multiGrid/multiGridDataField3D.h"
namespace plb {
/* *************** Reductive functions ******************************* */
template<typename T, template<typename U> class Descriptor>
T computeAverageDensity(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
T computeAverageDensity(MultiGridLattice3D<T,Descriptor>& lattice);
template<typename T, template<typename U> class Descriptor>
T computeAverageRhoBar(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
T computeAverageRhoBar(MultiGridLattice3D<T,Descriptor>& lattice);
template<typename T, template<typename U> class Descriptor>
T computeAverageEnergy(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
T computeAverageEnergy(MultiGridLattice3D<T,Descriptor>& lattice);
template<typename T, template<typename U> class Descriptor, class BoolMask>
plint count(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain, BoolMask boolMask);
template<typename T, template<typename U> class Descriptor, class BoolMask>
plint count(MultiGridLattice3D<T,Descriptor>& lattice, BoolMask boolMask);
/* *************** Extract Sub-Lattice ******************************* */
template<typename T, template<typename U> class Descriptor>
void extractSubDomain( MultiGridLattice3D<T,Descriptor>& lattice,
MultiGridLattice3D<T,Descriptor>& extractedLattice,
Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridLattice3D<T,Descriptor> > extractSubDomain(MultiGridLattice3D<T,Descriptor>& lattice, Box3D
domain);
/* *************** Density ******************************************* */
template<typename T, template<typename U> class Descriptor>
void computeDensity(MultiGridLattice3D<T,Descriptor>& lattice, MultiGridScalarField3D<T>& density, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computeDensity(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computeDensity(MultiGridLattice3D<T,Descriptor>& lattice);
/* *************** RhoBar ******************************************** */
template<typename T, template<typename U> class Descriptor>
void computeDensity(MultiGridLattice3D<T,Descriptor>& lattice, MultiGridScalarField3D<T>& rhoBar, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computeDensity(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computeDensity(MultiGridLattice3D<T,Descriptor>& lattice);
/* *************** Kinetic Energy ************************************ */
template<typename T, template<typename U> class Descriptor>
void computeKineticEnergy(MultiGridLattice3D<T,Descriptor>& lattice, MultiGridScalarField3D<T>& energy, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computeKineticEnergy(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computeKineticEnergy(MultiGridLattice3D<T,Descriptor>& lattice);
/* *************** Velocity Norm ************************************* */
template<typename T, template<typename U> class Descriptor>
void computeVelocityNorm(MultiGridLattice3D<T,Descriptor>& lattice, MultiGridScalarField3D<T>& velocityNorm, Box3D
domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computeVelocityNorm(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computeVelocityNorm(MultiGridLattice3D<T,Descriptor>& lattice);
/* *************** Velocity Component ******************************** */
template<typename T, template<typename U> class Descriptor>
void computeVelocityComponent(MultiGridLattice3D<T,Descriptor>& lattice, MultiGridScalarField3D<T>& velocityComponent,
Box3D domain, plint iComponent);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computeVelocityComponent(MultiGridLattice3D<T,Descriptor>& lattice,
Box3D domain, plint iComponent);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computeVelocityComponent(MultiGridLattice3D<T,Descriptor>& lattice, plint
iComponent);
/* *************** Velocity ****************************************** */
template<typename T, template<typename U> class Descriptor>
void computeVelocity(MultiGridLattice3D<T,Descriptor>& lattice,
MultiGridTensorField3D<T,Descriptor<T>::d>& velocity, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridTensorField3D<T,Descriptor<T>::d> >
computeVelocity(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridTensorField3D<T,Descriptor<T>::d> >
computeVelocity(MultiGridLattice3D<T,Descriptor>& lattice);
/* *************** Pi Neq ********************************* */
template<typename T, template<typename U> class Descriptor>
void computePiNeq(MultiGridLattice3D<T,Descriptor>& lattice,
MultiGridTensorField3D<T,SymmetricTensor<T,Descriptor>::n>& PiNeq, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridTensorField3D<T,SymmetricTensor<T,Descriptor>::n> >
computePiNeq(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridTensorField3D<T,SymmetricTensor<T,Descriptor>::n> >
computePiNeq(MultiGridLattice3D<T,Descriptor>& lattice);
/* *************** Shear Stress ********************************* */
template<typename T, template<typename U> class Descriptor>
void computeShearStress(MultiGridLattice3D<T,Descriptor>& lattice,
MultiGridTensorField3D<T,SymmetricTensor<T,Descriptor>::n>& PiNeq, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridTensorField3D<T,SymmetricTensor<T,Descriptor>::n> >
computeShearStress(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridTensorField3D<T,SymmetricTensor<T,Descriptor>::n> >
computeShearStress(MultiGridLattice3D<T,Descriptor>& lattice);
/* *************** Strain Rate from Stress *************************** */
template<typename T, template<typename U> class Descriptor>
void computeStrainRateFromStress(MultiGridLattice3D<T,Descriptor>& lattice,
MultiGridTensorField3D<T,SymmetricTensor<T,Descriptor>::n>& S, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridTensorField3D<T,SymmetricTensor<T,Descriptor>::n> >
computeStrainRateFromStress(MultiGridLattice3D<T,Descriptor>& lattice, Box3D domain);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridTensorField3D<T,SymmetricTensor<T,Descriptor>::n> >
computeStrainRateFromStress(MultiGridLattice3D<T,Descriptor>& lattice);
/* *************** Temperature ******************************************* */
//TODO
/* *************** SoundSpeed ******************************************* */
//TODO
/* *************** Population **************************************** */
template<typename T, template<typename U> class Descriptor>
void computePopulation(MultiGridLattice3D<T,Descriptor>& lattice, MultiGridScalarField3D<T>& population,
Box3D domain, plint iPop);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computePopulation(MultiGridLattice3D<T,Descriptor>& lattice,
Box3D domain, plint iPop);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridScalarField3D<T> > computePopulation(MultiGridLattice3D<T,Descriptor>& lattice, plint iPop);
template<typename T, template<typename U> class Descriptor>
void computeAllPopulations(MultiGridLattice3D<T,Descriptor>& lattice,
MultiGridTensorField3D<T,Descriptor<T>::q>& populations);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridTensorField3D<T,Descriptor<T>::q> > computeAllPopulations(MultiGridLattice3D<T,Descriptor>&
lattice);
template<typename T, template<typename U> class Descriptor>
std::auto_ptr<MultiGridTensorField3D<T,Descriptor<T>::q> > computeAllPopulations(MultiGridLattice3D<T,Descriptor>&
lattice,
Box3D domain);
template<typename T, template<typename U> class Descriptor>
void copyPopulations( MultiGridLattice3D<T,Descriptor>& latticeFrom,
MultiGridLattice3D<T,Descriptor>& latticeTo,
Box3D domain);
/* *************** Reductive functions ******************************* */
template<typename T>
T computeAverage(MultiGridScalarField3D<T>& scalarField, Box3D domain);
template<typename T>
T computeAverage(MultiGridScalarField3D<T>& scalarField);
template<typename T>
T computeMin(MultiGridScalarField3D<T>& scalarField, Box3D domain);
template<typename T>
T computeMin(MultiGridScalarField3D<T>& scalarField);
template<typename T>
T computeMax(MultiGridScalarField3D<T>& scalarField, Box3D domain);
template<typename T>
T computeMax(MultiGridScalarField3D<T>& scalarField);
template<typename T>
T computeBoundedAverage(MultiGridScalarField3D<T>& scalarField, Box3D domain);
template<typename T>
T computeBoundedAverage(MultiGridScalarField3D<T>& scalarField);
template<typename T, class BoolMask>
plint count(MultiGridScalarField3D<T>& field, Box3D domain, BoolMask boolMask);
template<typename T, class BoolMask>
plint count(MultiGridScalarField3D<T>& field, BoolMask boolMask);
/* *************** Generic operations *************** */
template<typename T, class Function>
void apply(Function f, MultiGridScalarField3D<T>& field, Box3D domain) {
applyProcessingFunctional (
new ApplyScalarFunctional3D<T,Function>(f), domain, field);
}
template<typename T, class Function>
void apply(Function f, MultiGridScalarField3D<T>& field) {
apply(f, field, field.getBoundingBox());
}
template<typename T, class Function>
void evaluate(Function f, MultiGridScalarField3D<T>& field, MultiGridScalarField3D<T>& result, Box3D domain) {
applyProcessingFunctional (
new EvaluateScalarFunctional3D<T,Function>(f), domain, field, result);
}
template<typename T, class Function>
std::auto_ptr<MultiGridScalarField3D<T> > evaluate(Function f, MultiGridScalarField3D<T>& field, Box3D domain) {
MultiGridScalarField3D<T>* result = new MultiGridScalarField3D<T>(field, domain);
evaluate(f, field, *result, domain);
return std::auto_ptr<MultiGridScalarField3D<T> >(result);
}
template<typename T, class Function>
std::auto_ptr<MultiGridScalarField3D<T> > evaluate(Function f, MultiGridScalarField3D<T>& field) {
return evaluate(f, field, field.getBoundingBox());
}
/* *************** Extract Sub-ScalarField *************************** */
template<typename T>
void extractSubDomain( MultiGridScalarField3D<T>& field,
MultiGridScalarField3D<T>& extractedField,
Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > extractSubDomain(MultiGridScalarField3D<T>& field, Box3D domain);
/* *************** Copy and Convert ScalarField *************************** */
template<typename T1, typename T2>
void copyConvert( MultiGridScalarField3D<T1>& field,
MultiGridScalarField3D<T2>& convertedField,
Box3D domain);
template<typename T1, typename T2>
std::auto_ptr<MultiGridScalarField3D<T2> > copyConvert(MultiGridScalarField3D<T1>& field, Box3D domain);
template<typename T1, typename T2>
std::auto_ptr<MultiGridScalarField3D<T2> > copyConvert(MultiGridScalarField3D<T1>& field);
/* *************** MultiScalarField - Scalar operations *************** */
template<typename T>
void add(T scalar, MultiGridScalarField3D<T>& field, MultiGridScalarField3D<T>& result, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > add(T scalar, MultiGridScalarField3D<T>& field, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > add(T scalar, MultiGridScalarField3D<T>& field);
template<typename T>
void add(MultiGridScalarField3D<T>& field, T scalar, MultiGridScalarField3D<T>& result, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > add(MultiGridScalarField3D<T>& field, T scalar, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > add(MultiGridScalarField3D<T>& field, T scalar);
template<typename T>
void subtract(T scalar, MultiGridScalarField3D<T>& field, MultiGridScalarField3D<T>& result, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > subtract(T scalar, MultiGridScalarField3D<T>& field, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > subtract(T scalar, MultiGridScalarField3D<T>& field);
template<typename T>
void subtract(MultiGridScalarField3D<T>& field, T scalar, MultiGridScalarField3D<T>& result, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > subtract(MultiGridScalarField3D<T>& field, T scalar, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > subtract(MultiGridScalarField3D<T>& field, T scalar);
template<typename T>
void multiply(T scalar, MultiGridScalarField3D<T>& field, MultiGridScalarField3D<T>& result, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > multiply(T scalar, MultiGridScalarField3D<T>& field, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > multiply(T scalar, MultiGridScalarField3D<T>& field);
template<typename T>
void multiply(MultiGridScalarField3D<T>& field, T scalar, MultiGridScalarField3D<T>& result, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > multiply(MultiGridScalarField3D<T>& field, T scalar, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > multiply(MultiGridScalarField3D<T>& field, T scalar);
template<typename T>
void divide(T scalar, MultiGridScalarField3D<T>& field, MultiGridScalarField3D<T>& result, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > divide(T scalar, MultiGridScalarField3D<T>& field, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > divide(T scalar, MultiGridScalarField3D<T>& field);
template<typename T>
void divide(MultiGridScalarField3D<T>& field, T scalar, MultiGridScalarField3D<T>& result, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > divide(MultiGridScalarField3D<T>& field, T scalar, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > divide(MultiGridScalarField3D<T>& field, T scalar);
/* *************** MultiScalarField - Scalar inplace operations *************** */
template<typename T>
void addInPlace(MultiGridScalarField3D<T>& field, T scalar, Box3D domain);
template<typename T>
void addInPlace(MultiGridScalarField3D<T>& field, T scalar);
template<typename T>
void subtractInPlace(MultiGridScalarField3D<T>& field, T scalar, Box3D domain);
template<typename T>
void subtractInPlace(MultiGridScalarField3D<T>& field, T scalar);
template<typename T>
void multiplyInPlace(MultiGridScalarField3D<T>& field, T scalar, Box3D domain);
template<typename T>
void multiplyInPlace(MultiGridScalarField3D<T>& field, T scalar);
template<typename T>
void divideInPlace(MultiGridScalarField3D<T>& field, T scalar, Box3D domain);
template<typename T>
void divideInPlace(MultiGridScalarField3D<T>& field, T scalar);
/* *************** MultiScalarField - MultiScalarField operations *************** */
template<typename T>
void add(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, MultiGridScalarField3D<T>& result, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > add(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > add(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B);
template<typename T>
void subtract(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, MultiGridScalarField3D<T>& result, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > subtract(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > subtract(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B);
template<typename T>
void multiply(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, MultiGridScalarField3D<T>& result, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > multiply(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > multiply(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B);
template<typename T>
void divide(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, MultiGridScalarField3D<T>& result, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > divide(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > divide(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B);
/* *************** MultiScalarField - MultiScalarField inplace operations *************** */
template<typename T>
void addInPlace(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, Box3D domain);
template<typename T>
void addInPlace(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B);
template<typename T>
void subtractInPlace(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, Box3D domain);
template<typename T>
void subtractInPlace(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B);
template<typename T>
void multiplyInPlace(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, Box3D domain);
template<typename T>
void multiplyInPlace(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B);
template<typename T>
void divideInPlace(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B, Box3D domain);
template<typename T>
void divideInPlace(MultiGridScalarField3D<T>& A, MultiGridScalarField3D<T>& B);
/* ******************************************************************* */
/* *************** Tensor-field ****** */
/* ******************************************************************* */
/* *************** Reductive functions ******************************* */
template<typename T, int nDim, class BoolMask>
plint count(MultiGridTensorField3D<T,nDim>& field, Box3D domain, BoolMask boolMask);
template<typename T, int nDim, class BoolMask>
plint count(MultiGridTensorField3D<T,nDim>& field, BoolMask boolMask);
/* *************** Copy-convert a tensor-field *************** */
template<typename T1, typename T2, int nDim>
void copyConvert( MultiGridTensorField3D<T1,nDim>& field,
MultiGridTensorField3D<T2,nDim>& convertedField,
Box3D domain);
template<typename T1, typename T2, int nDim>
std::auto_ptr<MultiGridTensorField3D<T2,nDim> > copyConvert(MultiGridTensorField3D<T1,nDim>& field, Box3D domain);
template<typename T1, typename T2, int nDim>
std::auto_ptr<MultiGridTensorField3D<T2,nDim> > copyConvert(MultiGridTensorField3D<T1,nDim>& field);
/* *************** Extract Sub-TensorField *************************** */
template<typename T, int nDim>
void extractSubDomain( MultiGridTensorField3D<T,nDim>& field,
MultiGridTensorField3D<T,nDim>& extractedField,
Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridTensorField3D<T,nDim> > extractSubDomain(MultiGridTensorField3D<T,nDim>& field, Box3D domain);
/* *************** Component (scalar-field) out of a tensor-field ****** */
template<typename T, int nDim>
void extractComponent(MultiGridTensorField3D<T,nDim>& tensorField, MultiGridScalarField3D<T>& component, Box3D domain,
int iComponent);
template<typename T, int nDim>
std::auto_ptr<MultiGridScalarField3D<T> > extractComponent(MultiGridTensorField3D<T,nDim>& tensorField, Box3D domain,
int iComponent);
template<typename T, int nDim>
std::auto_ptr<MultiGridScalarField3D<T> > extractComponent(MultiGridTensorField3D<T,nDim>& tensorField, int iComponent);
/* *************** Vector-norm of each cell in the field *************** */
template<typename T, int nDim>
void computeNorm(MultiGridTensorField3D<T,nDim>& tensorField, MultiGridScalarField3D<T>& norm, Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridScalarField3D<T> > computeNorm(MultiGridTensorField3D<T,nDim>& tensorField, Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridScalarField3D<T> > computeNorm(MultiGridTensorField3D<T,nDim>& tensorField);
/* *************** Squared vector-norm of each cell in the field ******** */
template<typename T, int nDim>
void computeNormSqr(MultiGridTensorField3D<T,nDim>& tensorField, MultiGridScalarField3D<T>& normSqr, Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridScalarField3D<T> > computeNormSqr(MultiGridTensorField3D<T,nDim>& tensorField, Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridScalarField3D<T> > computeNormSqr(MultiGridTensorField3D<T,nDim>& tensorField);
/* *************** Tensor-norm of each symmetric tensor of a field ***** */
template<typename T>
void computeSymmetricTensorNorm(MultiGridTensorField3D<T,3>& tensorField, MultiGridScalarField3D<T>& norm, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > computeSymmetricTensorNorm(MultiGridTensorField3D<T,3>& tensorField, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > computeSymmetricTensorNorm(MultiGridTensorField3D<T,3>& tensorField);
/* *************** Squared Tensor-norm of each symmetric tensor of a field*/
template<typename T>
void computeSymmetricTensorNormSqr(MultiGridTensorField3D<T,3>& tensorField, MultiGridScalarField3D<T>& normSqr, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > computeSymmetricTensorNormSqr(MultiGridTensorField3D<T,3>& tensorField, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > computeSymmetricTensorNormSqr(MultiGridTensorField3D<T,3>& tensorField);
/* *************** Trace of each symmetric tensor of a field ************ */
template<typename T>
void computeSymmetricTensorTrace(MultiGridTensorField3D<T,3>& tensorField, MultiGridScalarField3D<T>& trace, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > computeSymmetricTensorTrace(MultiGridTensorField3D<T,3>& tensorField, Box3D
domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > computeSymmetricTensorTrace(MultiGridTensorField3D<T,3>& tensorField);
/* *************** Vorticity from Velocity field *********************** */
template<typename T>
void computeVorticity(MultiGridTensorField3D<T,2>& velocity, MultiGridScalarField3D<T>& vorticity, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > computeVorticity(MultiGridTensorField3D<T,2>& velocity, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > computeVorticity(MultiGridTensorField3D<T,2>& velocity);
/* *************** Vorticity, witout boundary treatment, from Velocity field */
template<typename T>
void computeBulkVorticity(MultiGridTensorField3D<T,2>& velocity, MultiGridScalarField3D<T>& vorticity, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > computeBulkVorticity(MultiGridTensorField3D<T,2>& velocity, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridScalarField3D<T> > computeBulkVorticity(MultiGridTensorField3D<T,2>& velocity);
/* *************** Strain rate from Velocity field ********************* */
template<typename T>
void computeStrainRate(MultiGridTensorField3D<T,2>& velocity, MultiGridTensorField3D<T,3>& S, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridTensorField3D<T,3> > computeStrainRate(MultiGridTensorField3D<T,2>& velocity, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridTensorField3D<T,3> > computeStrainRate(MultiGridTensorField3D<T,2>& velocity);
/* *************** Str. rate, witout boundary treatment, from Velocity field */
template<typename T>
void computeBulkStrainRate(MultiGridTensorField3D<T,2>& velocity, MultiGridTensorField3D<T,3>& S, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridTensorField3D<T,3> > computeBulkStrainRate(MultiGridTensorField3D<T,2>& velocity, Box3D domain);
template<typename T>
std::auto_ptr<MultiGridTensorField3D<T,3> > computeBulkStrainRate(MultiGridTensorField3D<T,2>& velocity);
/* *************** MultiTensorField - MultiTensorField operations *************** */
template<typename T, int nDim>
void add(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B, MultiGridTensorField3D<T,nDim>& result,
Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridTensorField3D<T,nDim> > add(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B,
Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridTensorField3D<T,nDim> > add(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>&
B);
template<typename T, int nDim>
void subtract(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B, MultiGridTensorField3D<T,nDim>&
result, Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridTensorField3D<T,nDim> > subtract(MultiGridTensorField3D<T,nDim>& A,
MultiGridTensorField3D<T,nDim>& B, Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridTensorField3D<T,nDim> > subtract(MultiGridTensorField3D<T,nDim>& A,
MultiGridTensorField3D<T,nDim>& B);
template<typename T, int nDim>
void multiply(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B, MultiGridTensorField3D<T,nDim>&
result, Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridTensorField3D<T,nDim> > multiply(MultiGridTensorField3D<T,nDim>& A,
MultiGridTensorField3D<T,nDim>& B, Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridTensorField3D<T,nDim> > multiply(MultiGridTensorField3D<T,nDim>& A,
MultiGridTensorField3D<T,nDim>& B);
template<typename T, int nDim>
void divide(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B, MultiGridTensorField3D<T,nDim>&
result, Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridTensorField3D<T,nDim> > divide(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>&
B, Box3D domain);
template<typename T, int nDim>
std::auto_ptr<MultiGridTensorField3D<T,nDim> > divide(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>&
B);
/* *************** MultiTensorField - MultiTensorField inplace operations *************** */
template<typename T, int nDim>
void addInPlace(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B, Box3D domain);
template<typename T, int nDim>
void addInPlace(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B);
template<typename T, int nDim>
void subtractInPlace(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B, Box3D domain);
template<typename T, int nDim>
void subtractInPlace(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B);
template<typename T, int nDim>
void multiplyInPlace(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B, Box3D domain);
template<typename T, int nDim>
void multiplyInPlace(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B);
template<typename T, int nDim>
void multiplyInPlace(MultiGridTensorField3D<T,nDim>& A, T alpha, Box3D domain);
template<typename T, int nDim>
void multiplyInPlace(MultiGridTensorField3D<T,nDim>& A, T alpha);
template<typename T, int nDim>
void divideInPlace(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B, Box3D domain);
template<typename T, int nDim>
void divideInPlace(MultiGridTensorField3D<T,nDim>& A, MultiGridTensorField3D<T,nDim>& B);
} // namespace plb
#endif // MULTI_GRID_DATA_ANALYSIS_WRAPPER_3D_H
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