private String doMeanCut(String fullFilePath)
{
// Median Cut
MedianCutMultiThreads mcq = new MedianCutMultiThreads();
List<int> qnum_list = new List<int>();
qnum_list.Add(1024);
mcq.GenerateColorPalette(fullFilePath, qnum_list);
//temp editing yaoyi
string[] mcqImagePaths = null;// mcq.quantizeImageMT(8, Path.GetDirectoryName(fullFilePath) + "\\", Path.GetFileNameWithoutExtension(changeFileName("c", fullFilePath)));
String latestFullFilePath = mcqImagePaths[0];
mcq = null;
GC.Collect();
return latestFullFilePath;
}
//#region Ramtin Code
//[Obsolete("Ramtin version")]
//public int Apply(String fullFilePath, int fromK, int toK, bool doExtraction)
//{
// PreProcessing pp = new PreProcessing();
// fullFilePath = pp.doPerProccessing(fullFilePath);
// Dictionary<int, double> report = new Dictionary<int, double>();
// int uc = PreProcessing.countUniqueColorNumber(fullFilePath);
// if ( uc < toK)
// {
// System.Console.WriteLine(String.Format(" number of unique colors less than {0} so do only {1}-mean", toK,uc));
// fromK = uc;
// toK = uc;
// }
// for (int i = fromK; i <= toK; i++)
// {
// System.Console.WriteLine(String.Format("k-mean {0} ... from {1}", i, toK));
// //K-mean
// string kfullFilePath = doKmean(fullFilePath, i, ref report);
// //Color extraction
// if (doExtraction)
// {
// String[] pathList = doColorExctraction(kfullFilePath);
// /*
// foreach (String s in pathList)
// {
// Connected Components
// doConnectedComponent(s);
// }*/
// CompareImageLayers cp = new CompareImageLayers();
// String fileFormat = System.IO.Path.GetFileNameWithoutExtension(fullFilePath) + "_k" + i + "_l{0}" + System.IO.Path.GetExtension(fullFilePath);
// List<List<double>> normalizedSpatialList = cp.analysisSpatialSimilarityOfLayers(i, System.IO.Path.GetDirectoryName(fullFilePath) + "\\", fileFormat);
// List<List<double>> normalizedColorList = cp.analysisColorSimilarityOfLayers(i, System.IO.Path.GetDirectoryName(fullFilePath) + "\\", fileFormat);
// //save Output
// StringBuilder sbTxt = new StringBuilder();
// for (int m = 0; m < normalizedColorList.Count; m++)
// {
// sbTxt.Append(string.Format("l{0},", m));
// }
// sbTxt = sbTxt.Remove(sbTxt.Length - 1, 1);
// sbTxt.Append(Environment.NewLine);
// //merge Color and Spatial half half
// List<List<double>> colorSpatialList = new List<List<double>>();
// for (int m = 0; m < normalizedColorList.Count; m++)
// {
// List<double> ls = new List<double>();
// for (int n = 0; n < normalizedColorList[0].Count; n++)
// {
// //double d = normalizedSpatialList[m][n] + normalizedColorList[m][n];
// double d = normalizedColorList[m][n];
// ls.Add(d);
// sbTxt.Append(d + ",");
// }
// sbTxt = sbTxt.Remove(sbTxt.Length - 1, 1);
// sbTxt.Append(Environment.NewLine);
// colorSpatialList.Add(ls);
// }
// //Save the output
// System.IO.File.WriteAllText(System.IO.Path.GetDirectoryName(fullFilePath) + "\\" + "layersColorSpatialComparison_" + normalizedColorList.Count + ".txt", sbTxt.ToString());
// }
// }
// int bestK = 0;
// if (!doExtraction)
// {
// bestK = new KDetector().findBestK(report);
// }
// return bestK;
//}
//private String doKmean(String fullFilePath, int k,ref Dictionary<int, double> report)
//{
// KMeans kmean = new KMeans();
// String latestFullFilePath = kmean.Apply(Path.GetDirectoryName(fullFilePath) + "\\", Path.GetFileName(fullFilePath), changeFileName("_k" + k, fullFilePath), k, ref report);
// KMeans.kdetector = null;
// kmean = null;
// return latestFullFilePath;
//}
//private String[] doColorExctraction(String fullFilePath)
//{
// ColorExtraction ce = new ColorExtraction();
// Dictionary<int, Color> tbl = ce.ApplyFast(fullFilePath, changeFileName("_l{0}", fullFilePath));
// String[] returnPath = new String[tbl.Count];
// for (int i = 0; i < tbl.Count; i++)
// {
// returnPath[i] = changeFileName("_l" + i, fullFilePath);
// }
// return returnPath;
//}
//private String doConnectedComponent(String fullFilePath)
//{
// String path = changeFileName("_cc", fullFilePath);
// ConnectedComponent cc = new ConnectedComponent();
// int ccCount = cc.apply(fullFilePath, path);
// return path;
//}
//private string changeFileName(String postFix, String fullFilePath)
//{
// return fullFilePath.Insert(fullFilePath.LastIndexOf('.'), postFix);
//}
//#endregion
public string[] Apply(string input_dir, string output_dir, string fn)
{
List<String> outImagePaths = new List<string>();
try
{
string fn_only = Path.GetFileNameWithoutExtension(fn);
//MeanShift
MeanShiftMultiThreads mt = new MeanShiftMultiThreads();
outImagePaths.Add(mt.ApplyYIQMT(input_dir + fn, 8, 3, 15, output_dir + fn_only + "_ms.png"));
mt = null;
GC.Collect();
// Median Cut
MedianCutMultiThreads mcq = new MedianCutMultiThreads();
List<int> qnum_list = new List<int>();
qnum_list.Add(1024);
mcq.GenerateColorPalette(output_dir + fn_only + "_ms.png", qnum_list);
string[] mcqImagePaths = mcq.quantizeImageMT(8, output_dir, output_dir, fn_only + "_mc");
mcq = null;
GC.Collect();
/* Parin
List<int> qnum_list = new List<int>();
qnum_list.Add(1024);
for (int i = 0; i < qnum_list.Count; i++)
{
Console.WriteLine(dir + fn_only + "_ms.png");
Image<Bgr, Byte> inpImage = new Image<Bgr, Byte>(dir + fn_only + "_ms.png");
Image<Rgb, Byte> dst = new Image<Rgb, Byte>(inpImage.Size);
CvInvoke.cvSmooth(inpImage.Ptr, dst.Ptr, Emgu.CV.CvEnum.SMOOTH_TYPE.CV_MEDIAN, 31, 31, 1.5, 1);
dst.ToBitmap().Save(dir + fn_only + "_mc" + qnum_list[i] + ".png", ImageFormat.Png);
}
*/
for (int i = 0; i < mcqImagePaths.Length; i++)
outImagePaths.Add(mcqImagePaths[i]);
// KMeans
for (int i = 0; i < qnum_list.Count; i++)
{
int km = 128;//qnum_list[i];
for (int k = 0; k < 10; k++)
{
MyKMeans kmeans = new MyKMeans();
km /= 2;
if (km < 4) break;
Console.WriteLine(km);
string kmeansInputFN= output_dir + fn_only + "_mc" + qnum_list[i] + ".png";
string kmeansOutputFN = output_dir + fn_only + "_mc" + qnum_list[i] + "_k" + km + ".png";
kmeans.Apply(km,kmeansInputFN, kmeansOutputFN);
outImagePaths.Add(kmeansOutputFN);
kmeans = null;
GC.Collect();
}
}
}
catch (Exception e)
{
//Console.WriteLine(e.ToString());
}
return outImagePaths.ToArray();
}