public void _SwapSides()
{
oMatrix temp = LLL;
LLL = RRR;
RRR = temp;
}
public void _ExportRawDataTiff(oMatrix input, string filename)
{
int width = input.Width();
int height = input.Height();
using (Tiff output = Tiff.Open(@filename, "w"))
{
output.SetField(TiffTag.IMAGEWIDTH, width);
output.SetField(TiffTag.IMAGELENGTH, height);
output.SetField(TiffTag.SAMPLESPERPIXEL, 1);
output.SetField(TiffTag.BITSPERSAMPLE, 16);
output.SetField(TiffTag.ORIENTATION, BitMiracle.LibTiff.Classic.Orientation.TOPLEFT);
output.SetField(TiffTag.XRESOLUTION, 72);
output.SetField(TiffTag.YRESOLUTION, 72);
output.SetField(TiffTag.RESOLUTIONUNIT, ResUnit.CENTIMETER);
output.SetField(TiffTag.PLANARCONFIG, PlanarConfig.CONTIG);
output.SetField(TiffTag.PHOTOMETRIC, Photometric.MINISBLACK);
output.SetField(TiffTag.COMPRESSION, Compression.LZW);
output.SetField(TiffTag.ROWSPERSTRIP, height);
output.SetField(TiffTag.FILLORDER, FillOrder.MSB2LSB);
byte[] bytebuffer = new byte[width * 16 / 8];
double rawValue;
for (int yyy = 0; yyy < height; yyy++)
{
for (int xxx = 0; xxx < width; xxx++)
{
rawValue = input.GetValue(xxx, yyy);
bytebuffer[xxx << 1] = (byte)(rawValue % 256);
bytebuffer[(xxx << 1) + 1] = (byte)(rawValue / 256);
}
output.WriteScanline(bytebuffer, yyy);
}
}
}
public void _ExportAdobeConverted(oMatrix input, string filename)
{
int width = input.Width();
int height = input.Height();
List <byte> rawdata = new List <byte>();
for (int yyy = 0; yyy < height; yyy++)
{
for (int xxx = 0; xxx < width; xxx++)
{
rawdata.Add(Convert.ToByte((Convert.ToInt32(input.GetValue(xxx, yyy))) % 256));
rawdata.Add(Convert.ToByte((Convert.ToInt32(input.GetValue(xxx, yyy))) / 256));
}
}
byte[] output = rawdata.ToArray();
using (BinaryReader reader = new BinaryReader(File.Open(filename, FileMode.Open)))
{
int filelength = (int)(new System.IO.FileInfo(filename).Length);
int datalength = rawdata.Count;
int start_addr = filelength - datalength;
byte[] bytebuffer = reader.ReadBytes(filelength);
Console.WriteLine();
for (int i = start_addr; i < filelength; i++)
{
bytebuffer[i] = output[i - start_addr];
}
Console.WriteLine();
_byteArrayWriter(bytebuffer, filename, "_corrected");
Console.WriteLine();
}
}
public void _ExportFPM(oMatrix input, string filename)
{
StringBuilder sb = new StringBuilder();
int temp;
int height = input.Height();
int width = input.Width();
for (int yyy = 0; yyy < height; yyy++)
{
for (int xxx = 0; xxx < width; xxx++)
{
temp = input.GetValue(xxx, yyy);
if (temp <= 0)
{
sb.Append(xxx + " \t " + yyy + "\n");
}
}
}
System.IO.File.WriteAllText(@filename, sb.ToString());
}
public ushort[,] _Collector2(ushort[,] data, ushort[,] map, int radius)
{
int width = data.GetLength(0);
int height = data.GetLength(1);
ushort[,] output = data;
List <InterpolatedUnit>[,] allValue = new List <InterpolatedUnit> [width, height];
for (int xxx = 0; xxx < width; xxx++)
{
for (int yyy = 0; yyy < height; yyy++)
{
List <InterpolatedUnit> results = new List <InterpolatedUnit>();
if (map[xxx, yyy] == 0)
{
if (yyy - radius >= 0 && yyy + radius < height && xxx - radius >= 0 && xxx + radius < width)
{
int size = (radius * 2) + 1;
oMatrix subData = new oMatrix(data);
subData = subData.Submatrix(xxx - radius, yyy - radius, size, size);
//data.Submatrix(yyy - radius, xxx - radius, size, size);
double[] tempData = new double[size];
double[] places = new double[tempData.Length];
for (int i = 0; i < places.Length; i++)
{
places[i] = i;
}
int orders = 2;
tempData = subData.ReturnRowAsDoubleArray(radius);
for (int i = 1; i <= orders; i++)
{
results.Add(_Fitter(tempData, places, i));
}
/*tempData = subData.ReturnColumnAsDoubleArray(radius);
* for (int i = 1; i <= orders; i++)
* {
* results.Add(_Fitter(tempData, places, i));
* }*/
/*tempData = subData.ReturnDiagonalAsDoubleArray1();
* for (int i = 1; i <= orders; i++)
* {
* results.Add(_Fitter(tempData, places, i));
* }
*
* tempData = subData.ReturnDiagonalAsDoubleArray2();
* for (int i = 1; i <= orders; i++)
* {
* results.Add(_Fitter(tempData, places, i));
* }*/
}
else
{
//BORDER, ONLY VERTICAL OR HORIZONTAL
}
}
else
{
//Nothing to do
}
allValue[xxx, yyy] = results;
}
}
for (int xxx = 0; xxx < width; xxx++)
{
for (int yyy = 0; yyy < height; yyy++)
{
if (allValue[xxx, yyy].Count != 0)
{
InterpolatedUnit bestGoodness = new InterpolatedUnit {
goodnessOfFit = 99999999999999
};
List <InterpolatedUnit> temp3 = allValue[xxx, yyy];
for (int i = 0; i < temp3.Count; i++)
{
if (temp3[i].goodnessOfFit <= bestGoodness.goodnessOfFit)
{
bestGoodness = temp3[i];
}
}
output[xxx, yyy] = (ushort)bestGoodness.value;
}
}
}
return(output);
}
public BP_Data()
{
LLL = new oMatrix(new ushort[0, 0]);
RRR = new oMatrix(new ushort[0, 0]);
}
