// Extract the descriptor
public double[] Apply(Bitmap srcImg)
{
Fuzzy10Bin Fuzzy10 = new Fuzzy10Bin(false);
Fuzzy24Bin Fuzzy24 = new Fuzzy24Bin(false);
RGB2HSV HSVConverter = new RGB2HSV();
int[] HSV = new int[3];
double[] Fuzzy10BinResultTable = new double[10];
double[] Fuzzy24BinResultTable = new double[24];
double[] CEDD = new double[144];
int width = srcImg.Width;
int height = srcImg.Height;
double[,] ImageGrid = new double[width, height];
double[,] PixelCount = new double[2, 2];
int[,] ImageGridRed = new int[width, height];
int[,] ImageGridGreen = new int[width, height];
int[,] ImageGridBlue = new int[width, height];
int NumberOfBlocks = -1;
if (Math.Min(width, height) >= 80)
{
NumberOfBlocks = 1600;
}
if (Math.Min(width, height) < 80 && Math.Min(width, height) >= 40)
{
NumberOfBlocks = 400;
}
if (Math.Min(width, height) < 40)
{
NumberOfBlocks = -1;
}
int Step_X = 2;
int Step_Y = 2;
if (NumberOfBlocks > 0)
{
Step_X = (int)Math.Floor(width / Math.Sqrt(NumberOfBlocks));
Step_Y = (int)Math.Floor(height / Math.Sqrt(NumberOfBlocks));
if ((Step_X % 2) != 0)
{
Step_X = Step_X - 1;
}
if ((Step_Y % 2) != 0)
{
Step_Y = Step_Y - 1;
}
}
int[] Edges = new int[6];
MaskResults MaskValues;
Neighborhood PixelsNeighborhood;
PixelFormat fmt = (srcImg.PixelFormat == PixelFormat.Format8bppIndexed) ?
PixelFormat.Format8bppIndexed : PixelFormat.Format24bppRgb;
BitmapData srcData = srcImg.LockBits(
new Rectangle(0, 0, width, height),
ImageLockMode.ReadOnly, fmt);
int offset = srcData.Stride - ((fmt == PixelFormat.Format8bppIndexed) ? width : width * 3);
for (int i = 0; i < 144; i++)
{
CEDD[i] = 0;
}
unsafe
{
byte *src = (byte *)srcData.Scan0.ToPointer();
for (int y = 0; y < height; y++)
{
for (int x = 0; x < width; x++, src += 3)
{
ImageGrid[x, y] = (0.299f * src[2] + 0.587f * src[1] + 0.114f * src[0]);
ImageGridRed[x, y] = (int)src[2];
ImageGridGreen[x, y] = (int)src[1];
ImageGridBlue[x, y] = (int)src[0];
}
src += offset;
}
}
srcImg.UnlockBits(srcData);
int[] CororRed = new int[Step_Y * Step_X];
int[] CororGreen = new int[Step_Y * Step_X];
int[] CororBlue = new int[Step_Y * Step_X];
int[] CororRedTemp = new int[Step_Y * Step_X];
int[] CororGreenTemp = new int[Step_Y * Step_X];
int[] CororBlueTemp = new int[Step_Y * Step_X];
int MeanRed, MeanGreen, MeanBlue = 0;
int T = -1;
int TempSum = 0;
double Max = 0;
int TemoMAX_X = Step_X * (int)Math.Floor(srcImg.Width / 2.0);
int TemoMAX_Y = Step_Y * (int)Math.Floor(srcImg.Height / 2.0);
if (NumberOfBlocks > 0)
{
TemoMAX_X = Step_X * (int)Math.Sqrt(NumberOfBlocks);
TemoMAX_Y = Step_Y * (int)Math.Sqrt(NumberOfBlocks);
}
for (int y = 0; y < TemoMAX_Y; y += Step_Y)
{
for (int x = 0; x < TemoMAX_X; x += Step_X)
{
MeanRed = 0;
MeanGreen = 0;
MeanBlue = 0;
PixelsNeighborhood.Area1 = 0;
PixelsNeighborhood.Area2 = 0;
PixelsNeighborhood.Area3 = 0;
PixelsNeighborhood.Area4 = 0;
Edges[0] = -1;
Edges[1] = -1;
Edges[2] = -1;
Edges[3] = -1;
Edges[4] = -1;
Edges[5] = -1;
for (int i = 0; i < 2; i++)
{
for (int j = 0; j < 2; j++)
{
PixelCount[i, j] = 0;
}
}
TempSum = 0;
for (int i = y; i < y + Step_Y; i++)
{
for (int j = x; j < x + Step_X; j++)
{
// Color Information
CororRed[TempSum] = ImageGridRed[j, i];
CororGreen[TempSum] = ImageGridGreen[j, i];
CororBlue[TempSum] = ImageGridBlue[j, i];
CororRedTemp[TempSum] = ImageGridRed[j, i];
CororGreenTemp[TempSum] = ImageGridGreen[j, i];
CororBlueTemp[TempSum] = ImageGridBlue[j, i];
TempSum++;
// Texture Information
if (j < (x + Step_X / 2) && i < (y + Step_Y / 2))
{
PixelsNeighborhood.Area1 += (ImageGrid[j, i]);
}
if (j >= (x + Step_X / 2) && i < (y + Step_Y / 2))
{
PixelsNeighborhood.Area2 += (ImageGrid[j, i]);
}
if (j < (x + Step_X / 2) && i >= (y + Step_Y / 2))
{
PixelsNeighborhood.Area3 += (ImageGrid[j, i]);
}
if (j >= (x + Step_X / 2) && i >= (y + Step_Y / 2))
{
PixelsNeighborhood.Area4 += (ImageGrid[j, i]);
}
}
}
PixelsNeighborhood.Area1 = (int)(PixelsNeighborhood.Area1 * (4.0 / (Step_X * Step_Y)));
PixelsNeighborhood.Area2 = (int)(PixelsNeighborhood.Area2 * (4.0 / (Step_X * Step_Y)));
PixelsNeighborhood.Area3 = (int)(PixelsNeighborhood.Area3 * (4.0 / (Step_X * Step_Y)));
PixelsNeighborhood.Area4 = (int)(PixelsNeighborhood.Area4 * (4.0 / (Step_X * Step_Y)));
MaskValues.Mask1 = Math.Abs(PixelsNeighborhood.Area1 * 2 + PixelsNeighborhood.Area2 * -2 + PixelsNeighborhood.Area3 * -2 + PixelsNeighborhood.Area4 * 2);
MaskValues.Mask2 = Math.Abs(PixelsNeighborhood.Area1 * 1 + PixelsNeighborhood.Area2 * 1 + PixelsNeighborhood.Area3 * -1 + PixelsNeighborhood.Area4 * -1);
MaskValues.Mask3 = Math.Abs(PixelsNeighborhood.Area1 * 1 + PixelsNeighborhood.Area2 * -1 + PixelsNeighborhood.Area3 * 1 + PixelsNeighborhood.Area4 * -1);
MaskValues.Mask4 = Math.Abs(PixelsNeighborhood.Area1 * Math.Sqrt(2) + PixelsNeighborhood.Area2 * 0 + PixelsNeighborhood.Area3 * 0 + PixelsNeighborhood.Area4 * -Math.Sqrt(2));
MaskValues.Mask5 = Math.Abs(PixelsNeighborhood.Area1 * 0 + PixelsNeighborhood.Area2 * Math.Sqrt(2) + PixelsNeighborhood.Area3 * -Math.Sqrt(2) + PixelsNeighborhood.Area4 * 0);
Max = Math.Max(MaskValues.Mask1, Math.Max(MaskValues.Mask2, Math.Max(MaskValues.Mask3, Math.Max(MaskValues.Mask4, MaskValues.Mask5))));
MaskValues.Mask1 = MaskValues.Mask1 / Max;
MaskValues.Mask2 = MaskValues.Mask2 / Max;
MaskValues.Mask3 = MaskValues.Mask3 / Max;
MaskValues.Mask4 = MaskValues.Mask4 / Max;
MaskValues.Mask5 = MaskValues.Mask5 / Max;
T = -1;
if (Max < T0)
{
Edges[0] = 0;
T = 0;
}
else
{
T = -1;
if (MaskValues.Mask1 > T1)
{
T++;
Edges[T] = 1;
}
if (MaskValues.Mask2 > T2)
{
T++;
Edges[T] = 2;
}
if (MaskValues.Mask3 > T2)
{
T++;
Edges[T] = 3;
}
if (MaskValues.Mask4 > T3)
{
T++;
Edges[T] = 4;
}
if (MaskValues.Mask5 > T3)
{
T++;
Edges[T] = 5;
}
}
for (int i = 0; i < (Step_Y * Step_X); i++)
{
MeanRed += CororRed[i];
MeanGreen += CororGreen[i];
MeanBlue += CororBlue[i];
}
MeanRed = Convert.ToInt32(MeanRed / (Step_Y * Step_X));
MeanGreen = Convert.ToInt32(MeanGreen / (Step_Y * Step_X));
MeanBlue = Convert.ToInt32(MeanBlue / (Step_Y * Step_X));
HSV = HSVConverter.ApplyFilter(MeanRed, MeanGreen, MeanBlue);
if (this.Compact == false)
{
Fuzzy10BinResultTable = Fuzzy10.ApplyFilter(HSV[0], HSV[1], HSV[2], 2);
Fuzzy24BinResultTable = Fuzzy24.ApplyFilter(HSV[0], HSV[1], HSV[2], Fuzzy10BinResultTable, 2);
for (int i = 0; i <= T; i++)
{
for (int j = 0; j < 24; j++)
{
if (Fuzzy24BinResultTable[j] > 0)
{
CEDD[24 * Edges[i] + j] += Fuzzy24BinResultTable[j];
}
}
}
}
else
{
Fuzzy10BinResultTable = Fuzzy10.ApplyFilter(HSV[0], HSV[1], HSV[2], 2);
for (int i = 0; i <= T; i++)
{
for (int j = 0; j < 10; j++)
{
if (Fuzzy10BinResultTable[j] > 0)
{
CEDD[10 * Edges[i] + j] += Fuzzy10BinResultTable[j];
}
}
}
}
}
}
double Sum = 0;
for (int i = 0; i < 144; i++)
{
Sum += CEDD[i];
}
for (int i = 0; i < 144; i++)
{
CEDD[i] = CEDD[i] / Sum;
}
CEDDQuant Quantization = new CEDDQuant();
CEDD = Quantization.Apply(CEDD);
return(CEDD);
}
// Extract the descriptor
public double[] Apply(Bitmap srcImg)
{
Fuzzy10Bin Fuzzy10 = new Fuzzy10Bin(false);
Fuzzy24Bin Fuzzy24 = new Fuzzy24Bin(false);
RGB2HSV HSVConverter = new RGB2HSV();
int[] HSV = new int[3];
double[] Fuzzy10BinResultTable = new double[10];
double[] Fuzzy24BinResultTable = new double[24];
double[] CEDD = new double[144];
int width = srcImg.Width;
int height = srcImg.Height;
double[,] ImageGrid = new double[width, height];
double[,] PixelCount = new double[2, 2];
int[,] ImageGridRed = new int[width, height];
int[,] ImageGridGreen = new int[width, height];
int[,] ImageGridBlue = new int[width, height];
int NumberOfBlocks = -1;
if (Math.Min(width, height) >= 80) NumberOfBlocks = 1600;
if (Math.Min(width, height) < 80 && Math.Min(width, height) >= 40) NumberOfBlocks = 400;
if (Math.Min(width, height) < 40) NumberOfBlocks = -1;
int Step_X = 2;
int Step_Y = 2;
if (NumberOfBlocks > 0)
{
Step_X = (int)Math.Floor(width / Math.Sqrt(NumberOfBlocks));
Step_Y = (int)Math.Floor(height / Math.Sqrt(NumberOfBlocks));
if ((Step_X % 2) != 0)
{
Step_X = Step_X - 1;
}
if ((Step_Y % 2) != 0)
{
Step_Y = Step_Y - 1;
}
}
int[] Edges = new int[6];
MaskResults MaskValues;
Neighborhood PixelsNeighborhood;
PixelFormat fmt = (srcImg.PixelFormat == PixelFormat.Format8bppIndexed) ?
PixelFormat.Format8bppIndexed : PixelFormat.Format24bppRgb;
BitmapData srcData = srcImg.LockBits(
new Rectangle(0, 0, width, height),
ImageLockMode.ReadOnly, fmt);
int offset = srcData.Stride - ((fmt == PixelFormat.Format8bppIndexed) ? width : width * 3);
for (int i = 0; i < 144; i++)
{
CEDD[i] = 0;
}
unsafe
{
byte* src = (byte*)srcData.Scan0.ToPointer();
for (int y = 0; y < height; y++)
{
for (int x = 0; x < width; x++, src += 3)
{
ImageGrid[x, y] = (0.299f * src[2] + 0.587f * src[1] + 0.114f * src[0]);
ImageGridRed[x, y] = (int)src[2];
ImageGridGreen[x, y] = (int)src[1];
ImageGridBlue[x, y] = (int)src[0];
}
src += offset;
}
}
srcImg.UnlockBits(srcData);
int[] CororRed = new int[Step_Y * Step_X];
int[] CororGreen = new int[Step_Y * Step_X];
int[] CororBlue = new int[Step_Y * Step_X];
int[] CororRedTemp = new int[Step_Y * Step_X];
int[] CororGreenTemp = new int[Step_Y * Step_X];
int[] CororBlueTemp = new int[Step_Y * Step_X];
int MeanRed , MeanGreen , MeanBlue = 0;
int T = -1;
int TempSum = 0;
double Max = 0;
int TemoMAX_X = Step_X * (int)Math.Floor(srcImg.Width / 2.0);
int TemoMAX_Y = Step_Y * (int)Math.Floor(srcImg.Height / 2.0);
if (NumberOfBlocks > 0)
{
TemoMAX_X = Step_X * (int)Math.Sqrt(NumberOfBlocks);
TemoMAX_Y = Step_Y * (int)Math.Sqrt(NumberOfBlocks);
}
for (int y = 0; y < TemoMAX_Y; y += Step_Y)
{
for (int x = 0; x < TemoMAX_X; x += Step_X)
{
MeanRed = 0;
MeanGreen = 0;
MeanBlue = 0;
PixelsNeighborhood.Area1 = 0;
PixelsNeighborhood.Area2 = 0;
PixelsNeighborhood.Area3 = 0;
PixelsNeighborhood.Area4 = 0;
Edges[0] = -1;
Edges[1] = -1;
Edges[2] = -1;
Edges[3] = -1;
Edges[4] = -1;
Edges[5] = -1;
for (int i = 0; i < 2; i++)
{
for (int j = 0; j < 2; j++)
{
PixelCount[i, j] = 0;
}
}
TempSum = 0;
for (int i = y; i < y + Step_Y; i ++)
{
for (int j = x; j < x+ Step_X; j ++)
{
// Color Information
CororRed[TempSum] = ImageGridRed[j, i];
CororGreen[TempSum] = ImageGridGreen[j, i];
CororBlue[TempSum] = ImageGridBlue[j, i];
CororRedTemp[TempSum] = ImageGridRed[j, i];
CororGreenTemp[TempSum] = ImageGridGreen[j, i];
CororBlueTemp[TempSum] = ImageGridBlue[j, i];
TempSum++;
// Texture Information
if (j < (x + Step_X / 2) && i < (y + Step_Y / 2)) PixelsNeighborhood.Area1 += (ImageGrid[j, i]);
if (j >= (x + Step_X / 2) && i < (y + Step_Y / 2)) PixelsNeighborhood.Area2 += (ImageGrid[j, i]);
if (j < (x + Step_X / 2) && i >= (y + Step_Y / 2)) PixelsNeighborhood.Area3 += (ImageGrid[j, i]);
if (j >= (x + Step_X / 2) && i >= (y + Step_Y / 2)) PixelsNeighborhood.Area4 += (ImageGrid[j, i]);
}
}
PixelsNeighborhood.Area1 = (int)(PixelsNeighborhood.Area1 * (4.0 / (Step_X * Step_Y)));
PixelsNeighborhood.Area2 = (int)(PixelsNeighborhood.Area2 * (4.0 / (Step_X * Step_Y)));
PixelsNeighborhood.Area3 = (int)(PixelsNeighborhood.Area3 * (4.0 / (Step_X * Step_Y)));
PixelsNeighborhood.Area4 = (int)(PixelsNeighborhood.Area4 * (4.0 / (Step_X * Step_Y)));
MaskValues.Mask1 = Math.Abs(PixelsNeighborhood.Area1 * 2 + PixelsNeighborhood.Area2 * -2 + PixelsNeighborhood.Area3 * -2 + PixelsNeighborhood.Area4 * 2);
MaskValues.Mask2 = Math.Abs(PixelsNeighborhood.Area1 * 1 + PixelsNeighborhood.Area2 * 1 + PixelsNeighborhood.Area3 * -1 + PixelsNeighborhood.Area4 * -1);
MaskValues.Mask3 = Math.Abs(PixelsNeighborhood.Area1 * 1 + PixelsNeighborhood.Area2 * -1 + PixelsNeighborhood.Area3 * 1 + PixelsNeighborhood.Area4 * -1);
MaskValues.Mask4 = Math.Abs(PixelsNeighborhood.Area1 * Math.Sqrt(2) + PixelsNeighborhood.Area2 * 0 + PixelsNeighborhood.Area3 * 0 + PixelsNeighborhood.Area4 * -Math.Sqrt(2));
MaskValues.Mask5 = Math.Abs(PixelsNeighborhood.Area1 * 0 + PixelsNeighborhood.Area2 * Math.Sqrt(2) + PixelsNeighborhood.Area3 * -Math.Sqrt(2) + PixelsNeighborhood.Area4 * 0);
Max = Math.Max(MaskValues.Mask1, Math.Max(MaskValues.Mask2, Math.Max(MaskValues.Mask3, Math.Max(MaskValues.Mask4, MaskValues.Mask5))));
MaskValues.Mask1 = MaskValues.Mask1 / Max;
MaskValues.Mask2 = MaskValues.Mask2 / Max;
MaskValues.Mask3 = MaskValues.Mask3 / Max;
MaskValues.Mask4 = MaskValues.Mask4 / Max;
MaskValues.Mask5 = MaskValues.Mask5 / Max;
T = -1;
if (Max < T0)
{
Edges[0] = 0;
T = 0;
}
else
{
T = -1;
if (MaskValues.Mask1 > T1)
{
T++;
Edges[T] = 1;
}
if (MaskValues.Mask2 > T2)
{
T++;
Edges[T] = 2;
}
if (MaskValues.Mask3 > T2)
{
T++;
Edges[T] = 3;
}
if (MaskValues.Mask4 > T3)
{
T++;
Edges[T] = 4;
}
if (MaskValues.Mask5 > T3)
{
T++;
Edges[T] = 5;
}
}
for (int i = 0; i < (Step_Y * Step_X); i++)
{
MeanRed += CororRed[i];
MeanGreen += CororGreen[i];
MeanBlue += CororBlue[i];
}
MeanRed = Convert.ToInt32(MeanRed / (Step_Y * Step_X));
MeanGreen = Convert.ToInt32(MeanGreen / (Step_Y * Step_X));
MeanBlue = Convert.ToInt32(MeanBlue / (Step_Y * Step_X));
HSV = HSVConverter.ApplyFilter(MeanRed, MeanGreen, MeanBlue);
if (this.Compact == false)
{
Fuzzy10BinResultTable = Fuzzy10.ApplyFilter(HSV[0], HSV[1], HSV[2], 2);
Fuzzy24BinResultTable = Fuzzy24.ApplyFilter(HSV[0], HSV[1], HSV[2], Fuzzy10BinResultTable, 2);
for (int i = 0; i <= T; i++)
{
for (int j = 0; j < 24; j++)
{
if (Fuzzy24BinResultTable[j] > 0) CEDD[24 * Edges[i] + j] += Fuzzy24BinResultTable[j];
}
}
}
else
{
Fuzzy10BinResultTable = Fuzzy10.ApplyFilter(HSV[0], HSV[1], HSV[2], 2);
for (int i = 0; i <= T; i++)
{
for (int j = 0; j < 10; j++)
{
if (Fuzzy10BinResultTable[j] > 0) CEDD[10 * Edges[i] + j] += Fuzzy10BinResultTable[j];
}
}
}
}
}
double Sum = 0;
for (int i = 0; i < 144; i++)
{
Sum += CEDD[ i];
}
for (int i = 0; i < 144; i++)
{
CEDD[i] = CEDD[i]/Sum;
}
CEDDQuant Quantization = new CEDDQuant();
CEDD = Quantization.Apply(CEDD);
return (CEDD);
}