public static double CalculateAreaValue(RealPoint resultPoint, Segment segmentI, CollocationPoint collPointI, ConfigurationData configurationData)
{
double result = 0.0;
double denominator2 = Function_q.denominator2(configurationData.GetDiffusionCoefficient(segmentI.TemperatureValue), configurationData.iterationProcess.TimeStep);
foreach (var integrationPoint in segmentI.SingularBoundaryIntegrationPointsForArea)
{
result += CalculateCore(denominator2, resultPoint, integrationPoint, segmentI, collPointI);
}
return(result);
}
public static double[,] CalculateBoundaryMatrix(Area Area)
{
double[,] matrix = matrix = new double[Area.NumberOfCollocationPoints, Area.NumberOfCollocationPoints];
double denominator2 = Function_q.denominator2(Area.configurationData.GetDiffusionCoefficient(0), Area.configurationData.iterationProcess.TimeStep);
int r = 0, i = 0;
//Parallel.ForEach(Area.Segments, (segmentR) =>
foreach (var segmentR in Area.Segments)
{
foreach (var collPointR in segmentR.CollocationPoints)
{
foreach (var segmentI in Area.Segments)
{
if (Area.configurationData.arePropertiesTimeDependent())
{
denominator2 = Function_q.denominator2(Area.configurationData.GetDiffusionCoefficient(segmentI.TemperatureValue), Area.configurationData.iterationProcess.TimeStep);
}
foreach (var collPointI in segmentI.CollocationPoints)
{
r = Area.Segments.Where(x => x.Index < segmentR.Index).Sum(x => x.CollocationPoints.Count) + collPointR.Index;
i = Area.Segments.Where(x => x.Index < segmentI.Index).Sum(x => x.CollocationPoints.Count) + collPointI.Index;
double value = 0.0;
if (segmentI.Index != segmentR.Index)
{
foreach (var integrationPoint in segmentI.BoundaryIntegrationPoints)
{
value -= (double)(CalculateCore(denominator2, collPointR.RealPosition, integrationPoint, segmentI, collPointI));
}
}
else
{
if (segmentR.DistanceFromSingularPoint == 0.0)
{
value -= SigularSeparate(denominator2, segmentR, collPointR, segmentI, collPointI);
}
else
{
value -= SigularSeparateWithAnalitycal(denominator2, segmentR, collPointR, segmentI, collPointI);
}
//value = -SigularAnalitycalMajchrzak(denominator2, segmentR, collPointR, segmentI, collPointI);
}
matrix[r, i] = value;
}
}
}
}//);
return(matrix);
}
