//public SectionDescription(PointD in_p0, DenseVector in_direction, bool in_fromMarginToMargin)
//{
// fromMarginToMargin = in_fromMarginToMargin;
// p0 = in_p0;
// direction = in_direction;
//}
public SectionDescription TransformTillMargins(Rectangle imageMarginsRect)
{
LineDescription2D lDesc = new LineDescription2D(p0, direction);
Vector2D vHoriz = new Vector2D(1.0d, 0.0d); // DenseVector.Create(2, i => ((i == 0) ? (1.0d) : (0.0d)));
Vector2D vVert = new Vector2D(0.0d, 1.0d); // DenseVector.Create(2, i => ((i == 0) ? (0.0d) : (1.0d)));
//return new SectionDescription(p1, p2, fromMarginToMargin);
LineDescription2D rectLtop = new LineDescription2D(new PointD(imageMarginsRect.Left, imageMarginsRect.Top),
vHoriz);
LineDescription2D rectLleft = new LineDescription2D(new PointD(imageMarginsRect.Left, imageMarginsRect.Top),
vVert);
LineDescription2D rectLright = new LineDescription2D(new PointD(imageMarginsRect.Right, imageMarginsRect.Top),
vVert);
LineDescription2D rectLbottom = new LineDescription2D(new PointD(imageMarginsRect.Left, imageMarginsRect.Bottom),
vHoriz);
List <PointD> ptCross = new List <PointD>();
PointD pcTop = LineDescription2D.CrossPoint(rectLtop, lDesc);
PointD pcBottom = LineDescription2D.CrossPoint(rectLbottom, lDesc);
PointD pcLeft = LineDescription2D.CrossPoint(rectLleft, lDesc);
PointD pcRight = LineDescription2D.CrossPoint(rectLright, lDesc);
if ((pcTop.X >= imageMarginsRect.Left) && (pcTop.X <= imageMarginsRect.Right))
{
ptCross.Add(pcTop);
}
if ((pcBottom.X >= imageMarginsRect.Left) && (pcBottom.X <= imageMarginsRect.Right))
{
ptCross.Add(pcBottom);
}
if ((pcLeft.Y >= imageMarginsRect.Top) && (pcLeft.Y <= imageMarginsRect.Bottom))
{
ptCross.Add(pcLeft);
}
if ((pcRight.Y >= imageMarginsRect.Top) && (pcRight.Y <= imageMarginsRect.Bottom))
{
ptCross.Add(pcRight);
}
return(new SectionDescription(ptCross[0], ptCross[1], true));
}
/// <summary>
/// Gets the local minimums distribution.
/// </summary>
/// <param name="dmFieldData">The dm field data.</param>
/// <param name="dimensionNumber">The dimension number:
/// 1 - rows (angle)
/// 2 - columns (distance)
/// </param>
/// <returns>DenseMatrix.</returns>
//public static DenseMatrix GetLocalMinimumsDistribution(DenseMatrix dmFieldData, PointD sunCenterPoint, PointD imageCenterPoint, double imageRadius, int imageHeight, double imageCircleCropFactor = 0.9d, int dimensionNumber = 1)
public static List <Point3D> GetLocalMinimumsDistribution(DenseMatrix dmFieldData, RoundData sunDiskData, RoundData imageRoundData, int imageHeight, double imageCircleCropFactor = 0.9d)
{
// DenseMatrix dmFieldminimumsData = DenseMatrix.Create(dmFieldData.RowCount, dmFieldData.ColumnCount, 0.0d);
List <Point3D> lRetPoints = new List <Point3D>();
double imageRadius = imageRoundData.DRadius;
PointD imageCenterPoint = imageRoundData.pointDCircleCenter();
PointPolar imageCenterPointRelatedToSunCenter = new PointPolar(imageCenterPoint - sunDiskData.pointDCircleCenter(), true);
double distanceSunCenterToImageCenter = PointD.Distance(imageCenterPoint, sunDiskData.pointDCircleCenter());
#region // obsolete
//if (dimensionNumber == 1)
//{
#endregion // obsolete
for (int i = 0; i < dmFieldData.RowCount; i++)
{
bool itsTheCropCase = false;
//если направлени на кроп кадра - то не берем в расмотрение
double currentAngle = ((double)i / (double)(dmFieldData.RowCount - 1)) * 2.0d * Math.PI;
LineDescription2D line, lineMargin;
if (currentAngle < Math.PI)
{
//верхняя половина, смотрим направление на y=0.0d
line = new LineDescription2D(sunDiskData.pointDCircleCenter(),
new Vector2D(Math.Cos(currentAngle), -Math.Sin(currentAngle)));
lineMargin = new LineDescription2D(new PointD(0.0d, 0.0d), new Vector2D(1.0d, 0.0d));
}
else
{
line = new LineDescription2D(sunDiskData.pointDCircleCenter(),
new Vector2D(Math.Cos(currentAngle), Math.Sin(currentAngle)));
lineMargin = new LineDescription2D(new PointD(0.0d, imageHeight), new Vector2D(1.0d, 0.0d));
}
PointD crossPointD = LineDescription2D.CrossPoint(line, lineMargin);
if (crossPointD.Distance(imageCenterPoint) < imageRadius)
{
itsTheCropCase = true;
}
#region // obsolete
//double yMargin = 0.0d;
//double xMargin = sunCenterPoint.X + (yMargin - sunCenterPoint.Y) / Math.Tan(currentAngle);
//double dx = xMargin - imageCenterPoint.X;
//double dy = yMargin - imageCenterPoint.Y;
//if (Math.Sqrt(dx * dx + dy * dy) < imageRadius) itsTheCropCase = true;
#endregion // obsolete
#region //obsolete
//else
//{
// //нижняя половина, смотрим направление на y=imageHeight
// double yMargin = (double)imageHeight;
// double xMargin = sunCenterPoint.X + (yMargin - sunCenterPoint.Y) / Math.Tan(currentAngle);
// double dx = xMargin - imageCenterPoint.X;
// double dy = yMargin - imageCenterPoint.Y;
// if (Math.Sqrt(dx * dx + dy * dy) < imageRadius) itsTheCropCase = true;
//}
#endregion //obsolete
//Если слишком близко к краю изображения - тоже исключаем. Минимум должен лежать не ближе, например, 1/15
//DenseMatrix dmSlicedDataMatrix = (DenseMatrix)dmFieldData.SubMatrix(i, 1, 0, dmFieldData.ColumnCount);
DenseVector dvRowDataVector = (DenseVector)dmFieldData.EnumerateRows().ElementAt(i);
#region // debug plotting
//dvRowDataVector.SaveVectorDataAsImagePlot(
// "D:\\_gulevlab\\SkyImagesAnalysis_appData\\patent-samples\\result.2015-03-24\\img-2014-09-20T16-03-58devID1\\dvRowDataVector-plot-image-" +
// i.ToString("D03") + "-step1.png");
#endregion // debug plotting
dvRowDataVector.MapIndexedInplace((idx, x) => ((x == 0.0d) || (idx < sunDiskData.DRadius * 1.5d)) ? (1.0d) : (x));
#region // debug plotting
//dvRowDataVector.SaveVectorDataAsImagePlot(
// "D:\\_gulevlab\\SkyImagesAnalysis_appData\\patent-samples\\result.2015-03-24\\img-2014-09-20T16-03-58devID1\\dvRowDataVector-plot-image-" +
// i.ToString("D03") + "-step2.png");
#endregion // debug plotting
double phiFromImageCenterToDirection = imageCenterPointRelatedToSunCenter.Phi - currentAngle;
double distanceToImageMargin = distanceSunCenterToImageCenter * Math.Cos(phiFromImageCenterToDirection) +
Math.Sqrt(imageRadius * imageRadius -
distanceSunCenterToImageCenter * distanceSunCenterToImageCenter *
Math.Sin(phiFromImageCenterToDirection) *
Math.Sin(phiFromImageCenterToDirection));
dvRowDataVector.MapIndexedInplace(
(idx, x) => ((double)idx / distanceToImageMargin >= imageCircleCropFactor) ? (1.0d) : (x));
#region // debug plotting
//dvRowDataVector.SaveVectorDataAsImagePlot(
// "D:\\_gulevlab\\SkyImagesAnalysis_appData\\patent-samples\\result.2015-03-24\\img-2014-09-20T16-03-58devID1\\dvRowDataVector-plot-image-" +
// i.ToString("D03") + "-step3.png");
#endregion // debug plotting
double minValue = dvRowDataVector.Minimum();
int minValueIndex = dvRowDataVector.MinimumIndex();
//if (!itsTheCropCase) dmFieldminimumsData[i, minValueIndex] = minValue;
if ((!itsTheCropCase) && ((double)minValueIndex > sunDiskData.DRadius))
{
lRetPoints.Add(new Point3D(currentAngle, minValueIndex, minValue));
}
else
{
continue;
}
}
#region // obsolete
//}
//else if (dimensionNumber == 2)
//{
// for (int i = 0; i < dmFieldData.ColumnCount; i++)
// {
// DenseMatrix dmSlicedDataMatrix = (DenseMatrix)dmFieldData.SubMatrix(0, dmFieldData.RowCount, i, 1);
// DenseVector dvSlicedDataVector = DenseVector.OfEnumerable(dmSlicedDataMatrix.Values);
// dvSlicedDataVector.MapInplace(new Func<double, double>(x => (x == 0.0d) ? (1.0d) : (x)));
// double minValue = dvSlicedDataVector.Minimum();
// int minValueIndex = dvSlicedDataVector.MinimumIndex();
// dmFieldminimumsData[minValueIndex, i] = minValue;
// }
//}
#endregion // obsolete
//return dmFieldminimumsData;
return(lRetPoints);
}
private void btnGetFuncAlongSection_Click(object sender, EventArgs e)
{
foreach (SectionDescription sectionDescription in sectionsList)
{
PointD p1 = sectionDescription.p1;
PointD p2 = sectionDescription.p2;
bool fromMarginToMargin = false;
SectionDescription currSection = new SectionDescription(p1, p2, true);
LineDescription2D l1 = currSection.SectionLine;
DenseMatrix dmValues = (DenseMatrix)currImgData.DmSourceData.Clone();
DenseMatrix dmDistanceToLine = (DenseMatrix)currImgData.DmSourceData.Clone();
dmDistanceToLine.MapIndexedInplace((row, col, dVal) =>
{
PointD currPt = new PointD(col, row);
double dist = currPt.DistanceToLine(l1);
return(dist);
});
List <Tuple <PointD, double> > dataArray = new List <Tuple <PointD, double> >();
for (int row = 0; row < dmValues.RowCount; row++)
{
for (int col = 0; col < dmValues.ColumnCount; col++)
{
if (dmDistanceToLine[row, col] <= sectionGapWidth)
{
dataArray.Add(new Tuple <PointD, double>(new PointD(col, row), dmValues[row, col]));
}
}
}
List <Tuple <double, double> > dataArrayRotated = dataArray.ConvertAll((tpl) =>
{
Vector2D pointVector = l1.p0.ToVector2D(tpl.Item1);
double projection = pointVector * l1.directionVector;
return(new Tuple <double, double>(projection, tpl.Item2));
});
double arrayMinPosition = dataArrayRotated.Min <Tuple <double, double> >(tpl1 => tpl1.Item1);
double arrayMaxPosition = dataArrayRotated.Max <Tuple <double, double> >(tpl1 => tpl1.Item1);
if (!fromMarginToMargin)
{
Vector2D pointVector = l1.p0.ToVector2D(p2);
double projection = pointVector * l1.directionVector;
double p2DoublePosition = projection;
arrayMinPosition = Math.Min(0.0d, p2DoublePosition);
arrayMaxPosition = Math.Max(0.0d, p2DoublePosition);
dataArrayRotated.RemoveAll(tpl => ((tpl.Item1 < arrayMinPosition) || (tpl.Item1 > arrayMaxPosition)));
}
dataArrayRotated =
dataArrayRotated.ConvertAll <Tuple <double, double> >(
tpl => new Tuple <double, double>(tpl.Item1 - arrayMinPosition, tpl.Item2));
dataArrayRotated.Sort((tpl1, tpl2) => tpl1.Item1.CompareTo(tpl2.Item1));
FunctionRepresentationForm form1 = new FunctionRepresentationForm();
form1.dvScatterXSpace = DenseVector.OfEnumerable(dataArrayRotated.ConvertAll <double>(tpl => tpl.Item1));
form1.dvScatterFuncValues =
DenseVector.OfEnumerable(dataArrayRotated.ConvertAll <double>(tpl => tpl.Item2));
if ((rtbMinValuesLimit.Text != "") && (rtbMaxValuesLimit.Text != ""))
{
form1.ForcedFuncMinValue = Convert.ToDouble(rtbMinValuesLimit.Text.Replace(".", ","));
form1.ForcedFuncMaxValue = Convert.ToDouble(rtbMaxValuesLimit.Text.Replace(".", ","));
form1.ForceFuncLimits = true;
}
if (rbtnShowByDots.Checked)
{
form1.scatterFuncDrawingVariant = SequencesDrawingVariants.circles;
}
else if (rbtnShowByLine.Checked)
{
form1.scatterFuncDrawingVariant = SequencesDrawingVariants.polyline;
}
form1.Show();
form1.Represent();
}
}
