Foam::refinementParameters::refinementParameters(const dictionary& dict)
:
maxGlobalCells_(readLabel(dict.lookup("maxGlobalCells"))),
maxLocalCells_(readLabel(dict.lookup("maxLocalCells"))),
minRefineCells_(readLabel(dict.lookup("minRefinementCells"))),
nBufferLayers_(readLabel(dict.lookup("nCellsBetweenLevels"))),
keepPoints_(pointField(1, dict.lookup("locationInMesh"))),
allowFreeStandingZoneFaces_
(
dict.lookupOrDefault<Switch>
(
"allowFreeStandingZoneFaces",
true
)
),
maxLoadUnbalance_(dict.lookupOrDefault<scalar>("maxLoadUnbalance",0))
{
scalar featAngle(readScalar(dict.lookup("resolveFeatureAngle")));
if (featAngle < 0 || featAngle > 180)
{
curvature_ = -GREAT;
}
else
{
curvature_ = Foam::cos(featAngle*mathematicalConstant::pi/180.0);
}
}
Foam::refinementParameters::refinementParameters(const dictionary& dict)
:
maxGlobalCells_(readLabel(dict.lookup("maxGlobalCells"))),
maxLocalCells_(readLabel(dict.lookup("maxLocalCells"))),
minRefineCells_(readLabel(dict.lookup("minRefinementCells"))),
planarAngle_
(
dict.lookupOrDefault
(
"planarAngle",
readScalar(dict.lookup("resolveFeatureAngle"))
)
),
nBufferLayers_(readLabel(dict.lookup("nCellsBetweenLevels"))),
keepPoints_(pointField(1, dict.lookup("locationInMesh"))),
allowFreeStandingZoneFaces_(dict.lookup("allowFreeStandingZoneFaces")),
useTopologicalSnapDetection_
(
dict.lookupOrDefault<bool>("useTopologicalSnapDetection", true)
),
maxLoadUnbalance_(dict.lookupOrDefault<scalar>("maxLoadUnbalance", 0)),
handleSnapProblems_
(
dict.lookupOrDefault<Switch>("handleSnapProblems", true)
)
{
scalar featAngle(readScalar(dict.lookup("resolveFeatureAngle")));
if (featAngle < 0 || featAngle > 180)
{
curvature_ = -GREAT;
}
else
{
curvature_ = Foam::cos(degToRad(featAngle));
}
}