/// <summary>
/// Check if two descriptor are matching, using this criterion
/// </summary>
/// <param name="descriptorToFind">The original descriptor</param>
/// <param name="descriptorTest">The descriptor to test</param>
/// <returns>true if within tolerance for this criterion, false otherwise</returns>
public override bool Pass(IDescriptor descriptorToFind, IDescriptor descriptorTest)
{
double dist = 0.0;
DescriptorSquareMatrix silhouetteToFind = (DescriptorSquareMatrix)GetDependendObjects(descriptorToFind, "silhouette");
DescriptorSquareMatrix silhouetteTest = (DescriptorSquareMatrix)GetDependendObjects(descriptorTest, "silhouette");
//
for (int x = 0; x < DescriptorSquareMatrix.Length; x++)
{
for (int y = 0; y < DescriptorSquareMatrix.Length; y++)
{
dist += (double)Math.Abs(silhouetteToFind[x, y] - silhouetteTest[x, y]);
}
}
/*
* //
*
*
*
*
*
*
*
*
*/
DistanceBetweenDescriptors = dist;
return(dist > (double)Value ? false : true);
}
/// <summary>
/// Create a new instance of this type -- constructor defined for serializatiom
/// </summary>
/// <param name="info">The SerializationInfo member</param>
/// <param name="context">The StreamingContext member</param>
protected MomentDescriptorBase(SerializationInfo info, StreamingContext context) : base(info, context)
{
xMin = (int)info.GetInt32("xMin");
yMin = (int)info.GetInt32("yMin");
xMax = (int)info.GetInt32("xMax");
yMax = (int)info.GetInt32("yMax");
xMedian = (float)info.GetDouble("xMedian");
yMedian = (float)info.GetDouble("yMedian");
xMedianSilhouette = (float)info.GetDouble("xMedianSilhouette");
yMedianSilhouette = (float)info.GetDouble("yMedianSilhouette");
DescriptorSquareMatrix silhouette = (DescriptorSquareMatrix)info.GetValue("Silhouette", typeof(DescriptorSquareMatrix));
DescriptorSquareMatrix shape = (DescriptorSquareMatrix)info.GetValue("Shape", typeof(DescriptorSquareMatrix));
DescriptorSquareMatrix texture = (DescriptorSquareMatrix)info.GetValue("Texture", typeof(DescriptorSquareMatrix));
ColorDouble shapeColorAverage = (ColorDouble)info.GetValue("ShapeColorAverage", typeof(ColorDouble));
ColorDouble silhouetteColorAverage = (ColorDouble)info.GetValue("SilhouetteColorAverage", typeof(ColorDouble));
DescriptorDependentObjects.Add("silhouette", silhouette);
DescriptorDependentObjects.Add("shape", shape);
DescriptorDependentObjects.Add("texture", texture);
DescriptorDependentObjects.Add("shapecoloraverage", shapeColorAverage);
DescriptorDependentObjects.Add("silhouettecoloraverage", silhouetteColorAverage);
}
/// <summary>
/// Compute all Descriptors for the bitmap.
/// </summary>
/// <param name="silhouetteExtraPixels">The pixels participating in the silhouette</param>
public override void ComputeDescriptor(Pixel[] silhouetteExtraPixels)
{
base.ComputeDescriptor(silhouetteExtraPixels);
float dist = GetMaxDistance(xMedian, yMedian);
float distSilhouette = GetMaxDistance(xMedianSilhouette, yMedianSilhouette);
DescriptorSquareMatrix silhouette = (DescriptorSquareMatrix)DescriptorDependentObjects["silhouette"];
DescriptorSquareMatrix shape = (DescriptorSquareMatrix)DescriptorDependentObjects["shape"];
DescriptorSquareMatrix texture = (DescriptorSquareMatrix)DescriptorDependentObjects["texture"];
foreach (Pixel pixel in ParticipatingPixels)
{
// compute shape
float xOffset = ((float)pixel.X - xMedian) / dist;
float yOffset = ((float)pixel.Y - yMedian) / dist;
float xOffsetSilhouette = ((float)pixel.X - xMedianSilhouette) / distSilhouette;
float yOffsetSilhouette = ((float)pixel.Y - yMedianSilhouette) / distSilhouette;
// WARNING: we add an offest of 1.0f to distinguish black from background
// otherwise info is lost and black objects have the same ExtDescriptors : a null matrix
float luminance = (float)((pixel.Color.ExtendedBlue + pixel.Color.ExtendedRed + pixel.Color.ExtendedGreen) / 3.0) + 1.0f;
float yterm = 1.0f;
float ytermSilhouette = 1.0f;
for (int l = 0; l < DescriptorSquareMatrix.Length; l++)
{
float xterm = 1.0f;
float xtermSilhouette = 1.0f;
for (int m = 0; m < DescriptorSquareMatrix.Length; m++)
{
float xyprod = xterm * yterm;
silhouette[l, m] += xtermSilhouette * ytermSilhouette;
shape[l, m] += xyprod;
texture[l, m] += luminance * xyprod;
xterm *= xOffset;
xtermSilhouette *= xOffsetSilhouette;
}
yterm *= yOffset;
ytermSilhouette *= yOffsetSilhouette;
}
}
if (silhouetteExtraPixels != null)
{
foreach (Pixel pixel in silhouetteExtraPixels)
{
// compute silhouette (add extra pixels)
float xOffsetSilhouette = ((float)pixel.X - xMedianSilhouette) / distSilhouette;
float yOffsetSilhouette = ((float)pixel.Y - yMedianSilhouette) / distSilhouette;
float ytermSilhouette = 1.0f;
for (int l = 0; l < DescriptorSquareMatrix.Length; l++)
{
float xtermSilhouette = 1.0f;
for (int m = 0; m < DescriptorSquareMatrix.Length; m++)
{
silhouette[l, m] += xtermSilhouette * ytermSilhouette;
xtermSilhouette *= xOffsetSilhouette;
}
ytermSilhouette *= yOffsetSilhouette;
}
}
}
// Normalize the matrices
for (int y = 0; y < DescriptorSquareMatrix.Length; y++)
{
for (int x = 0; x < DescriptorSquareMatrix.Length; x++)
{
silhouette[x, y] /= BoundingBoxArea;
shape[x, y] /= BoundingBoxArea;
texture[x, y] /= BoundingBoxArea;
}
}
}
