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dd04dd9c2cb85c953f04fe1c4f498da09de37742
openfoam/src/postProcessing/functionObjects/field/fieldMinMax/fieldMinMaxTemplates.C
Henry dd04dd9c2c messageStream: Remove confusing argument-based conditional output 
This had been used in functionObjects:

    Info(log)<< "messages" << data << ....

in which it is not at all clear what the "log" argument does whereas

    if (log) Info<< "messages" << data << ....

is totally clear and more efficient.
2015-05-18 11:54:56 +01:00

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/*---------------------------------------------------------------------------*\
========= |
\\ / F ield | OpenFOAM: The Open Source CFD Toolbox
\\ / O peration |
\\ / A nd | Copyright (C) 2011-2015 OpenFOAM Foundation
\\/ 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 "fieldMinMax.H"
#include "volFields.H"
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
template<class Type>
void Foam::fieldMinMax::output
(
const word& fieldName,
const word& outputName,
const vector& minC,
const vector& maxC,
const label minProcI,
const label maxProcI,
const Type& minValue,
const Type& maxValue
)
{
OFstream& file = this->file();
if (location_)
{
file<< obr_.time().value();
writeTabbed(file, fieldName);
file<< token::TAB << minValue
<< token::TAB << minC;
if (Pstream::parRun())
{
file<< token::TAB << minProcI;
}
file<< token::TAB << maxValue
<< token::TAB << maxC;
if (Pstream::parRun())
{
file<< token::TAB << maxProcI;
}
file<< endl;
if (log_) Info
<< " min(" << outputName << ") = " << minValue
<< " at location " << minC;
if (Pstream::parRun())
{
if (log_) Info<< " on processor " << minProcI;
}
if (log_) Info
<< nl << " max(" << outputName << ") = " << maxValue
<< " at location " << maxC;
if (Pstream::parRun())
{
if (log_) Info<< " on processor " << maxProcI;
}
}
else
{
file<< token::TAB << minValue << token::TAB << maxValue;
if (log_) Info
<< " min/max(" << outputName << ") = "
<< minValue << ' ' << maxValue;
}
if (log_) Info<< endl;
}
template<class Type>
void Foam::fieldMinMax::calcMinMaxFields
(
const word& fieldName,
const modeType& mode
)
{
typedef GeometricField<Type, fvPatchField, volMesh> fieldType;
if (obr_.foundObject<fieldType>(fieldName))
{
const label procI = Pstream::myProcNo();
const fieldType& field = obr_.lookupObject<fieldType>(fieldName);
const fvMesh& mesh = field.mesh();
const volVectorField::GeometricBoundaryField& CfBoundary =
mesh.C().boundaryField();
switch (mode)
{
case mdMag:
{
const volScalarField magField(mag(field));
const volScalarField::GeometricBoundaryField& magFieldBoundary =
magField.boundaryField();
scalarList minVs(Pstream::nProcs());
List<vector> minCs(Pstream::nProcs());
label minProcI = findMin(magField);
minVs[procI] = magField[minProcI];
minCs[procI] = field.mesh().C()[minProcI];
labelList maxIs(Pstream::nProcs());
scalarList maxVs(Pstream::nProcs());
List<vector> maxCs(Pstream::nProcs());
label maxProcI = findMax(magField);
maxVs[procI] = magField[maxProcI];
maxCs[procI] = field.mesh().C()[maxProcI];
forAll(magFieldBoundary, patchI)
{
const scalarField& mfp = magFieldBoundary[patchI];
if (mfp.size())
{
const vectorField& Cfp = CfBoundary[patchI];
label minPI = findMin(mfp);
if (mfp[minPI] < minVs[procI])
{
minVs[procI] = mfp[minPI];
minCs[procI] = Cfp[minPI];
}
label maxPI = findMax(mfp);
if (mfp[maxPI] > maxVs[procI])
{
maxVs[procI] = mfp[maxPI];
maxCs[procI] = Cfp[maxPI];
}
}
}
Pstream::gatherList(minVs);
Pstream::gatherList(minCs);
Pstream::gatherList(maxVs);
Pstream::gatherList(maxCs);
if (Pstream::master())
{
label minI = findMin(minVs);
scalar minValue = minVs[minI];
const vector& minC = minCs[minI];
label maxI = findMax(maxVs);
scalar maxValue = maxVs[maxI];
const vector& maxC = maxCs[maxI];
output
(
fieldName,
word("mag(" + fieldName + ")"),
minC,
maxC,
minI,
maxI,
minValue,
maxValue
);
}
break;
}
case mdCmpt:
{
const typename fieldType::GeometricBoundaryField&
fieldBoundary = field.boundaryField();
List<Type> minVs(Pstream::nProcs());
List<vector> minCs(Pstream::nProcs());
label minProcI = findMin(field);
minVs[procI] = field[minProcI];
minCs[procI] = field.mesh().C()[minProcI];
Pstream::gatherList(minVs);
Pstream::gatherList(minCs);
List<Type> maxVs(Pstream::nProcs());
List<vector> maxCs(Pstream::nProcs());
label maxProcI = findMax(field);
maxVs[procI] = field[maxProcI];
maxCs[procI] = field.mesh().C()[maxProcI];
forAll(fieldBoundary, patchI)
{
const Field<Type>& fp = fieldBoundary[patchI];
if (fp.size())
{
const vectorField& Cfp = CfBoundary[patchI];
label minPI = findMin(fp);
if (fp[minPI] < minVs[procI])
{
minVs[procI] = fp[minPI];
minCs[procI] = Cfp[minPI];
}
label maxPI = findMax(fp);
if (fp[maxPI] > maxVs[procI])
{
maxVs[procI] = fp[maxPI];
maxCs[procI] = Cfp[maxPI];
}
}
}
Pstream::gatherList(minVs);
Pstream::gatherList(minCs);
Pstream::gatherList(maxVs);
Pstream::gatherList(maxCs);
if (Pstream::master())
{
label minI = findMin(minVs);
Type minValue = minVs[minI];
const vector& minC = minCs[minI];
label maxI = findMax(maxVs);
Type maxValue = maxVs[maxI];
const vector& maxC = maxCs[maxI];
output
(
fieldName,
fieldName,
minC,
maxC,
minI,
maxI,
minValue,
maxValue
);
}
break;
}
default:
{
FatalErrorIn
(
"Foam::fieldMinMax::calcMinMaxFields"
"("
"const word&, "
"const modeType&"
")"
) << "Unknown min/max mode: " << modeTypeNames_[mode_]
<< exit(FatalError);
}
}
}
}
// ************************************************************************* //
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