working with color

src/main/java/CorrectionColorProc.java

@@ -100,7 +100,7 @@ public class CorrectionColorProc {
     	}
 
 
-//public void showArrays(double[][] pixels, int width, int height,  boolean asStack, String title) {
+    	//public void showArrays(double[][] pixels, int width, int height,  boolean asStack, String title) {
 
 
 
@@ -138,7 +138,7 @@ public class CorrectionColorProc {
 
     	/* Convert to YPbPr */
     	double Y,Pb,Pr;
-//        double Kg=1.0-colorProcParameters.kr-colorProcParameters.kb;
+    	//        double Kg=1.0-colorProcParameters.kr-colorProcParameters.kb;
     	double Sb=0.5/(1.0-colorProcParameters.kb)*colorProcParameters.saturationBlue;
     	double Sr=0.5/(1.0-colorProcParameters.kr)*colorProcParameters.saturationRed;
     	double Yr,Yg,Yb,Wr,Wg,Wb,S;
@@ -271,7 +271,7 @@ public class CorrectionColorProc {
     	stack.addSlice("Pr", fpixels_pr);
     	stack.addSlice("Pb", fpixels_pb);
     	stack.addSlice("Y",  fpixels_y);
-        stack.addSlice("Y0", fpixels_y0); // not filtered by low-pass, preliminary (for comaprison only)
+    	stack.addSlice("Y0", fpixels_y0); // not filtered by low-pass, preliminary (for comparison only)
     	if (debugLevel>2) {
     		stack.addSlice("Yr",fpixels_yR);
     		stack.addSlice("Yg",fpixels_yG);

src/main/java/EyesisCorrectionParameters.java

@@ -1802,7 +1802,13 @@ public class EyesisCorrectionParameters {
   		public boolean convolve_direct = false; // do not apply symmetrical correction
   		
   		public double vignetting_max    = 0.4; // value in vignetting data to correspond to 1x in the kernel
-  		public double vignetting_range  = 3.0; // do not try to correct vignetting less than vignetting_max/vignetting_range
+  		public double vignetting_range  = 5.0; // do not try to correct vignetting less than vignetting_max/vignetting_range
+  		
+  		public boolean color_DCT        = true; // false - use old color processing mode
+  		public double  sigma_rb =         0.5; // additional (to G) blur for R and B
+  		public double  sigma_y =          0.5; // blur for G contribution to Y
+  		public double  sigma_color =      1.0; // blur for Pb and Pr in addition to that of Y
+  		public double  line_thershold =   1.0; // line detection amplitude to apply line enhancement
 
   		public DCTParameters(
   				int dct_size,
@@ -1858,6 +1864,12 @@ public class EyesisCorrectionParameters {
   			properties.setProperty(prefix+"vignetting_max",   this.vignetting_max+"");
   			properties.setProperty(prefix+"vignetting_range",   this.vignetting_range+"");
 
+  			properties.setProperty(prefix+"color_DCT",          this.color_DCT+"");
+  			properties.setProperty(prefix+"sigma_rb",           this.sigma_rb+"");
+  			properties.setProperty(prefix+"sigma_y",            this.sigma_y+"");
+  			properties.setProperty(prefix+"sigma_color",        this.sigma_color+"");
+  			properties.setProperty(prefix+"line_thershold",     this.line_thershold+"");
+  			
   		}
   		public void getProperties(String prefix,Properties properties){
   			if (properties.getProperty(prefix+"dct_size")!=null) this.dct_size=Integer.parseInt(properties.getProperty(prefix+"dct_size"));
@@ -1894,6 +1906,11 @@ public class EyesisCorrectionParameters {
   			if (properties.getProperty(prefix+"convolve_direct")!=null) this.convolve_direct=Boolean.parseBoolean(properties.getProperty(prefix+"convolve_direct"));
   			if (properties.getProperty(prefix+"vignetting_max")!=null) this.vignetting_max=Double.parseDouble(properties.getProperty(prefix+"vignetting_max"));
   			if (properties.getProperty(prefix+"vignetting_range")!=null) this.vignetting_range=Double.parseDouble(properties.getProperty(prefix+"vignetting_range"));
+  			if (properties.getProperty(prefix+"color_DCT")!=null)      this.color_DCT=Boolean.parseBoolean(properties.getProperty(prefix+"color_DCT"));
+  			if (properties.getProperty(prefix+"sigma_rb")!=null)       this.sigma_rb=Double.parseDouble(properties.getProperty(prefix+"sigma_rb"));
+  			if (properties.getProperty(prefix+"sigma_y")!=null)        this.sigma_y=Double.parseDouble(properties.getProperty(prefix+"sigma_y"));
+  			if (properties.getProperty(prefix+"sigma_color")!=null)    this.sigma_color=Double.parseDouble(properties.getProperty(prefix+"sigma_color"));
+  			if (properties.getProperty(prefix+"line_thershold")!=null) this.line_thershold=Double.parseDouble(properties.getProperty(prefix+"line_thershold"));
 
   		}
   		public boolean showDialog() {
@@ -1933,6 +1950,12 @@ public class EyesisCorrectionParameters {
   			gd.addNumericField("Value (max) in vignetting data to correspond to 1x in the kernel",this.vignetting_max,      3);
   			gd.addNumericField("Do not try to correct vignetting smaller than this fraction of max",this.vignetting_range,  3);
   			
+  			gd.addCheckbox    ("Use DCT-base color conversion",                                   this.color_DCT             );
+  			gd.addNumericField("Gaussian sigma to apply to R and B (in addition to G), pix",      this.sigma_rb,            3);
+  			gd.addNumericField("Gaussian sigma to apply to Y in the MDCT domain, pix",            this.sigma_y,             3);
+  			gd.addNumericField("Gaussian sigma to apply to Pr and Pb in the MDCT domain, pix",    this.sigma_color,         3);
+  			gd.addNumericField("Threshold for line detection",                                    this.line_thershold,      3);
+
   			WindowTools.addScrollBars(gd);
   			gd.showDialog();
   			
@@ -1971,6 +1994,13 @@ public class EyesisCorrectionParameters {
   			this.convolve_direct=       gd.getNextBoolean();
   			this.vignetting_max=        gd.getNextNumber();
   			this.vignetting_range=      gd.getNextNumber();
+
+  			this.color_DCT=             gd.getNextBoolean();
+  			this.sigma_rb=              gd.getNextNumber();
+  			this.sigma_y=               gd.getNextNumber();
+  			this.sigma_color=           gd.getNextNumber();
+  			this.line_thershold=        gd.getNextNumber();
+  			
   			//  	    MASTER_DEBUG_LEVEL= (int) gd.getNextNumber();
   			return true;
   		}  

src/main/java/EyesisCorrections.java

@@ -1390,7 +1390,8 @@ public class EyesisCorrections {
 	 /* ======================================================================== */
 	  
 	  
-	  private boolean fixSliceSequence (
+//	  private boolean fixSliceSequence (
+	public boolean fixSliceSequence ( // for EyesisDCT
 			  ImageStack stack,
 			  int debugLevel){
 		  int i,j;
@@ -2254,7 +2255,7 @@ public class EyesisCorrections {
 	 			correctionsParameters.JPEG_quality);
 	   }
 
-	   private void saveAndShow(
+	   void saveAndShow(
 //	   public void saveAndShow(
 			   ImagePlus             imp,
 			   EyesisCorrectionParameters.CorrectionParameters  correctionsParameters,
@@ -2263,7 +2264,7 @@ public class EyesisCorrections {
 		   saveAndShow(imp, correctionsParameters,  save,  show, -1);
 	   } 
 	   
-	   private void saveAndShow(
+	   void saveAndShow(
 	 		  ImagePlus             imp,
 	 		 EyesisCorrectionParameters.CorrectionParameters  correctionsParameters,
 	 		  boolean               save,

src/main/java/EyesisDCT.java

@@ -23,10 +23,14 @@
  */
 
 import java.util.concurrent.atomic.AtomicInteger;
+
+import ij.CompositeImage;
 import ij.IJ;
 import ij.ImagePlus;
 import ij.ImageStack;
 import ij.Prefs;
+import ij.process.FloatProcessor;
+import ij.process.ImageProcessor;
 
 
 public class EyesisDCT {
@@ -233,7 +237,6 @@ public class EyesisDCT {
 					  factorConvKernel.setDCWeight         (dct_parameters.dc_weight);
 					  
 					  int chn,tileY,tileX;
-					  double kscale;
 //					  int chn0=-1;
 //					  int i;
 //					  double sum;
@@ -241,7 +244,6 @@ public class EyesisDCT {
 						  chn=nTile/numberOfKernelsInChn;
 						  tileY =(nTile % numberOfKernelsInChn)/kernelNumHor;
 						  tileX = nTile % kernelNumHor;
-						  kscale = 1.0;
 /*						  
 						  if (vignetting != null){
 							  int vh = vgn_left + vgn_step * tileX;
@@ -255,7 +257,7 @@ public class EyesisDCT {
 						  }
 						  kscale = vgn_max/kscale * ((chn == chn_green)? 2:4);
 */						  
-						  kscale = (chn == chn_green)? 2:4;
+////						  kscale = (chn == chn_green)? 2:4;
 						  if (tileX==0) {
 							  if (updateStatus) IJ.showStatus("Processing kernels, channel "+(chn+1)+" of "+nChn+", row "+(tileY+1)+" of "+kernelNumVert);
 							  if (globalDebugLevel>2) System.out.println("Processing kernels, channel "+(chn+1)+" of "+nChn+", row "+(tileY+1)+" of "+kernelNumVert+" : "+IJ.d2s(0.000000001*(System.nanoTime()-startTime),3));
@@ -291,7 +293,7 @@ public class EyesisDCT {
 							  for (int i = 0; i < pre_target_kernel.length; i++){
 								  s+=pre_target_kernel[i];
 							  }
-							  s =  kscale/s;
+							  s =  1.0 / s;
 							  for (int i = 0; i < pre_target_kernel.length; i++){
 								  pre_target_kernel[i] *= s;
 							  }
@@ -632,8 +634,10 @@ public class EyesisDCT {
 					
 					ImageStack kernel_sym_stack=  imp_kernel_sym.getStack();
 					ImageStack kernel_asym_stack= imp_kernel_asym.getStack();
-					System.out.println(                           " kernel_asym_stack.getWidth() = "+kernel_asym_stack.getWidth()+
+					if (debugLevel>0){
+						System.out.println(" kernel_asym_stack.getWidth() = "+kernel_asym_stack.getWidth()+
 								" kernel_asym_stack.getHeight() = "+kernel_asym_stack.getHeight());
+					}
 					int nColors = kernel_sym_stack.getSize();
 					kernels[chn]=  new DCTKernels();
 					kernels[chn].size = dct_parameters.dct_size;
@@ -673,6 +677,7 @@ public class EyesisDCT {
 					kernels[chn].asym_indx =  new int [nColors][numVert][numHor][asym_nonzero];
 					int sym_kernel_inc_index =   numHor * dct_size;
 					int asym_kernel_inc_index =   numHor * asym_size;
+					if (debugLevel>0) {
 						System.out.println("readDCTKernels() debugLevel = "+debugLevel+
 								" kernels["+chn+"].size = "+kernels[chn].size+
 								" kernels["+chn+"].img_step = "+kernels[chn].img_step+
@@ -680,7 +685,7 @@ public class EyesisDCT {
 								" nColors = "+ nColors+
 								" numVert = "+ numVert+
 								" numHor =  "+ numHor);
-
+					}
 					for (int nc = 0; nc < nColors; nc++){
 						for (int tileY = 0; tileY < numVert; tileY++){
 							for (int tileX = 0; tileX < numHor; tileX++){
@@ -691,7 +696,7 @@ public class EyesisDCT {
 									for (int j = 0; (j < dct_parameters.asym_size) && (indx < asym_nonzero); j++){
 										double v = kernels[chn].asym_kernels[nc][asym_kernel_start_index + i * asym_kernel_inc_index +j];
 										if (v!=0.0){
-											if ((tileY==67) && (tileX==125)) {
+											if ((debugLevel>0) && (tileY==67) && (tileX==125)) {
 												System.out.println("i="+i+" j="+j+" v="+v+" indx="+indx+" i * asym_size + j="+(i * asym_size + j));
 												System.out.println("asym_kernel_start_index + i * asym_kernel_inc_index +j="+(asym_kernel_start_index + i * asym_kernel_inc_index +j));
 											}
@@ -701,7 +706,7 @@ public class EyesisDCT {
 										}
 									}
 								}
-								if ((tileY==67) && (tileX==125)) {
+								if ((debugLevel>0) && (tileY==67) && (tileX==125)) {
 									for (int i=0; i<kernels[chn].asym_indx[nc][tileY][tileX].length; i++){
 										System.out.println("kernels["+chn+"].asym_val["+nc+"]["+tileY+"]["+tileX+"]["+i+"]="+kernels[chn].asym_val[nc][tileY][tileX][i]);
 										System.out.println("kernels["+chn+"].asym_indx["+nc+"]["+tileY+"]["+tileX+"]["+i+"]="+kernels[chn].asym_indx[nc][tileY][tileX][i]);
@@ -712,15 +717,17 @@ public class EyesisDCT {
 								if (dct_parameters.normalize) {
 									for (int i = 0; i < kernels[chn].asym_val[nc][tileY][tileX].length;i++){
 										scale_asym += kernels[chn].asym_val[nc][tileY][tileX][i];
-										if ((tileY==67) && (tileX==125)) {
+										if ((debugLevel>0) && (tileY==67) && (tileX==125)) {
 											System.out.println("i="+i+", sum="+scale_asym);
 										}
 									}
+									double k = ((nc == 2)? 1.0:2.0) / scale_asym;
 									for (int i = 0; i < kernels[chn].asym_val[nc][tileY][tileX].length;i++){
-										kernels[chn].asym_val[nc][tileY][tileX][i] /= scale_asym;
+//										kernels[chn].asym_val[nc][tileY][tileX][i] /= scale_asym;
+										kernels[chn].asym_val[nc][tileY][tileX][i] *= k; // includes correction for different number of pixels in r,b(1/4) and G (2/4)
 									}
-									if ((tileY==67) && (tileX==125)) {
-										System.out.println("sum="+scale_asym+", normalized:");
+									if ((debugLevel>0) && (tileY==67) && (tileX==125)) {
+										System.out.println("nc="+nc+" sum="+scale_asym+", normalized:");
 
 										for (int i=0; i<kernels[chn].asym_indx[nc][tileY][tileX].length; i++){
 											System.out.println("kernels["+chn+"].asym_val["+nc+"]["+tileY+"]["+tileX+"]["+i+"]="+kernels[chn].asym_val[nc][tileY][tileX][i]);
@@ -781,8 +788,10 @@ public class EyesisDCT {
 						}
 					}
 					// Debug will be removed later, the
+					if (debugLevel > 0) {
 						sdfa_instance.showArrays(kernels[chn].sym_kernels,  sym_width, sym_height, true, symKernelPaths[chn]);
 						sdfa_instance.showArrays(kernels[chn].asym_kernels,  asym_width, asym_height, true, asymKernelPaths[chn]);
+					}
 					kernels[chn].sym_kernels = null;  // not needed anymore
 					kernels[chn].asym_kernels = null; // not needed anymore
 				}
@@ -848,11 +857,13 @@ public class EyesisDCT {
 						for (int i=0;i<asym_kernel.length; i++) asym_kernel[i] = 0.0;
 						for (int i = 0; i<kernels[chn].asym_indx[nc][tileY][tileX].length; i++){
 							asym_kernel[kernels[chn].asym_indx[nc][tileY][tileX][i]] = kernels[chn].asym_val[nc][tileY][tileX][i];
+							/*
 							if ((tileY==67) && (tileX==125)) {
 								System.out.println("kernels["+chn+"].asym_val["+nc+"]["+tileY+"]["+tileX+"]["+i+"]="+kernels[chn].asym_val[nc][tileY][tileX][i]);
 								System.out.println("kernels["+chn+"].asym_indx["+nc+"]["+tileY+"]["+tileX+"]["+i+"]="+kernels[chn].asym_indx[nc][tileY][tileX][i]);
 								System.out.println("asym_kernel["+(kernels[chn].asym_indx[nc][tileY][tileX][i])+"]="+asym_kernel[kernels[chn].asym_indx[nc][tileY][tileX][i]]);
 							}
+							*/
 						}
 						int asym_kernel_start_index = (asym_kernel_inc_index * tileY + tileX)* asym_size;
 						for (int i = 0; i < asym_size;i++){
@@ -1064,9 +1075,23 @@ public class EyesisDCT {
 					System.out.println("Vignetting data for channel "+channel+" has "+eyesisCorrections.channelVignettingCorrection[channel].length+" pixels, image "+path+" has "+pixels.length);
 					return null;
 				}
+				// TODO: Move to do it once:
+				double min_non_zero = 0.0;
 				for (int i=0;i<pixels.length;i++){
-					pixels[i]*=eyesisCorrections.channelVignettingCorrection[channel][i];
+					double d = eyesisCorrections.channelVignettingCorrection[channel][i];
+					if ((d > 0.0) && ((min_non_zero == 0) || (min_non_zero > d))){
+						min_non_zero = d;
+					}
 				}
+				double max_vign_corr = dct_parameters.vignetting_range*min_non_zero;
+				
+				System.out.println("Vignetting data: channel="+channel+", min = "+min_non_zero);
+				for (int i=0;i<pixels.length;i++){
+					double d = eyesisCorrections.channelVignettingCorrection[channel][i];
+					if (d > max_vign_corr) d = max_vign_corr;
+					pixels[i]*=d;
+				}
+
 			}
 			String title=name+"-"+String.format("%02d", channel);
 			ImagePlus result=imp_src;
@@ -1106,7 +1131,19 @@ public class EyesisDCT {
 	        		threadsMax,
 	        		debugLevel,
 	        		updateStatus);
-	        
+	        System.out.println("dctdc_data.length="+dctdc_data.length+" dctdc_data[0].length="+dctdc_data[0].length
+	        		+" dctdc_data[0][0].length="+dctdc_data[0][0].length+" dctdc_data[0][0][0].length="+dctdc_data[0][0][0].length);
+			if (dct_parameters.color_DCT){ // convert RBG -> YPrPb
+				dctdc_data = image_dtt.dct_color_convert(
+						dctdc_data,
+						colorProcParameters.kr,
+						colorProcParameters.kb,
+						dct_parameters.sigma_rb,        // blur of channels 0,1 (r,b) in addition to 2 (g)
+						dct_parameters.sigma_y,         // blur of Y from G
+						dct_parameters.sigma_color,     // blur of Pr, Pb in addition to Y
+						threadsMax,
+						debugLevel);
+			} else { // just LPF RGB
 				for (int chn = 0; chn < dctdc_data.length; chn++) {
 					image_dtt.dct_lpf(
 							dct_parameters.dbg_sigma,
@@ -1114,7 +1151,7 @@ public class EyesisDCT {
 							threadsMax,
 							debugLevel);
 				}
-	        
+			}
 	        
 	        int tilesY = stack.getHeight()/dct_parameters.dct_size - 1;
 	        int tilesX = stack.getWidth()/dct_parameters.dct_size - 1;
@@ -1125,11 +1162,13 @@ public class EyesisDCT {
 	        double [][] dct_dc = new double [dctdc_data.length][];
 	        double [][] dct_ac = new double [dctdc_data.length][];
 	        for (int chn = 0; chn < dct_dc.length; chn++) {
+	        	if (!dct_parameters.color_DCT){ // convert RBG -> YPrPb
 	        		dct_dc[chn] = image_dtt.lapped_dct_dcac(
 	        				false, //       out_ac, // false - output DC, true - output AC
 	        				dctdc_data [chn],
 	        				threadsMax,
 	        				debugLevel);
+	        	}
 	        	dct_ac[chn] = image_dtt.lapped_dct_dcac(
 	        			true, //       out_ac, // false - output DC, true - output AC
 	        			dctdc_data [chn],
@@ -1137,16 +1176,20 @@ public class EyesisDCT {
 	        			debugLevel);
 	        }
 //	        System.out.println("dct_dc.length="+dct_dc.length+" dct_ac.length="+dct_ac.length);
+	        if (debugLevel > 0){
 	        	sdfa_instance.showArrays(dct_ac,
 	        			tilesX*dct_parameters.dct_size,
 	        			tilesY*dct_parameters.dct_size,
 	        			true,
 	        			result.getTitle()+"-DCT_AC");
+	        	if (!dct_parameters.color_DCT){ // convert RBG -> YPrPb
 	        		sdfa_instance.showArrays(dct_dc,
 	        				tilesX,
 	        				tilesY,
 	        				true,
 	        				result.getTitle()+"-DCT_DC");
+	        	}
+	        }
 	        double [][] idct_data = new double [dctdc_data.length][];
 	        for (int chn=0; chn<idct_data.length;chn++){
 	        	idct_data[chn] = image_dtt.lapped_idctdc(
@@ -1156,15 +1199,272 @@ public class EyesisDCT {
 	        			threadsMax,
 	        			debugLevel);
 	        }
+			if (dct_parameters.color_DCT){ // convert RBG -> YPrPb
 				sdfa_instance.showArrays(idct_data,
 						(tilesX + 1) * dct_parameters.dct_size,
 						(tilesY + 1) * dct_parameters.dct_size,
 						true,
-	        		result.getTitle()+"-IDCTDC");  
+						result.getTitle()+"-IDCTDC-YPrPb");
+				// temporary convert back to RGB
+				idct_data = YPrPbToRBG(idct_data,
+						colorProcParameters.kr,        // 0.299;
+						colorProcParameters.kb,        // 0.114;
+						(tilesX + 1) * dct_parameters.dct_size);
+				
+			}
+			sdfa_instance.showArrays(idct_data,
+					(tilesX + 1) * dct_parameters.dct_size,
+					(tilesY + 1) * dct_parameters.dct_size,
+					true,
+					result.getTitle()+"-IDCTDC-RGB");
+			
+	        // convert to ImageStack of 3 slices
+	        String [] sliceNames = {"red", "blue", "green"};
+	        stack = sdfa_instance.makeStack(
+	        		idct_data,
+	        		(tilesX + 1) * dct_parameters.dct_size,
+	        		(tilesY + 1) * dct_parameters.dct_size,
+	        		sliceNames); // or use null to get chn-nn slice names
+	        if (!this.correctionsParameters.colorProc){
+	        	result= new ImagePlus(titleFull, stack);    			  
+	        	eyesisCorrections.saveAndShow(
+	        			result,
+	        			this.correctionsParameters);
 	        	return result;
 	        }
+	        System.out.println("before colors.1");
+	        //Processing colors - changing stack sequence to r-g-b (was r-b-g)
+	        if (!eyesisCorrections.fixSliceSequence(
+	        		stack,
+	        		debugLevel)){
+	        	if (debugLevel > -1) System.out.println("fixSliceSequence() returned false");
+	        	return null;
+	        }
+	        System.out.println("before colors.2");
+	        if (debugLevel > -1){
+	        	ImagePlus imp_dbg=new ImagePlus(imp_src.getTitle()+"-"+channel+"-preColors",stack);
+	        	eyesisCorrections.saveAndShow(
+	        			imp_dbg,
+	        			this.correctionsParameters);
+	        }
+	        System.out.println("before colors.3, scaleExposure="+scaleExposure+" scale = "+(255.0/eyesisCorrections.psfSubpixelShouldBe4/eyesisCorrections.psfSubpixelShouldBe4/scaleExposure));
+			CorrectionColorProc correctionColorProc=new CorrectionColorProc(eyesisCorrections.stopRequested);
+			double [][] yPrPb=new double [3][];
+//			if (dct_parameters.color_DCT){
+// need to get YPbPr - not RGB here				
+//			} else {
+				correctionColorProc.processColorsWeights(stack, // just gamma convert? TODO: Cleanup? Convert directly form the linear YPrPb
+						//					  255.0/this.psfSubpixelShouldBe4/this.psfSubpixelShouldBe4, //  double scale,     // initial maximal pixel value (16))
+						//					  255.0/eyesisCorrections.psfSubpixelShouldBe4/eyesisCorrections.psfSubpixelShouldBe4/scaleExposure, //  double scale,     // initial maximal pixel value (16))
+						//					  255.0/2/2/scaleExposure, //  double scale,     // initial maximal pixel value (16))
+						255.0/scaleExposure, //  double scale,     // initial maximal pixel value (16))
+						colorProcParameters,
+						channelGainParameters,
+						channel,
+						null, //correctionDenoise.getDenoiseMask(),
+						this.correctionsParameters.blueProc,
+						debugLevel);
+				if (debugLevel > -1) System.out.println("Processed colors to YPbPr, total number of slices="+stack.getSize());
+				if (debugLevel > 0){
+					ImagePlus imp_dbg=new ImagePlus("procColors",stack);
+					eyesisCorrections.saveAndShow(
+							imp_dbg,
+							this.correctionsParameters);
+				}
+				float [] fpixels;
+				int [] slices_YPrPb = {8,6,7};
+				yPrPb=new double [3][];
+				for (int n = 0; n < slices_YPrPb.length; n++){
+					fpixels = (float[]) stack.getPixels(slices_YPrPb[n]);
+					yPrPb[n] = new double [fpixels.length];
+					for (int i = 0; i < fpixels.length; i++) yPrPb[n][i] = fpixels[i];
+				}
+//			}
+			String [] slice_names_YPrPb={"Y","Pr","Pb"};
+	        sdfa_instance.showArrays(idct_data,
+	        		stack.getWidth(), // (tilesX + 1) * dct_parameters.dct_size,
+	        		stack.getHeight(), // (tilesY + 1) * dct_parameters.dct_size,
+	        		true,
+	        		result.getTitle()+"-YPrPb",
+	        		slice_names_YPrPb);
 
 
+			if (toRGB) {
+				System.out.println("correctionColorProc.YPrPbToRGB");
+				stack =  YPrPbToRGB(yPrPb,
+						colorProcParameters.kr,        // 0.299;
+						colorProcParameters.kb,        // 0.114;
+			    		stack.getWidth());
 				
+				/*
+				correctionColorProc.YPrPbToRGB(stack,
+						colorProcParameters.kr,        // 0.299;
+						colorProcParameters.kb,        // 0.114;
+						colorProcParameters.useFirstY?9:8,        //  int sliceY,
+								6, // int slicePr,
+								7// int slicePb
+						);
+				
+				*/
+				
+				title=titleFull; // including "-DECONV" or "-COMBO"
+				titleFull=title+"-RGB-float";
+				//Trim stack to just first 3 slices
+				if (debugLevel > 0){ // 2){
+					ImagePlus imp_dbg=new ImagePlus("YPrPbToRGB",stack);
+					eyesisCorrections.saveAndShow(
+							imp_dbg,
+							this.correctionsParameters);
+				}
+				while (stack.getSize() > 3) stack.deleteLastSlice();
+				if (debugLevel > -1) System.out.println("Trimming color stack");
+			} else {
+				title=titleFull; // including "-DECONV" or "-COMBO"
+				titleFull=title+"-YPrPb"; // including "-DECONV" or "-COMBO"
+				if (debugLevel > -1) System.out.println("Using full stack, including YPbPr");
+			}
+
+			result= new ImagePlus(titleFull, stack);    			  
+			// Crop image to match original one (scaled to oversampling)
+			if (crop){ // always crop if equirectangular
+				System.out.println("cropping");
+				stack = eyesisCorrections.cropStack32(stack,splitParameters);
+				if (debugLevel > -1) { // 2){
+					ImagePlus imp_dbg=new ImagePlus("cropped",stack);
+					eyesisCorrections.saveAndShow(
+							imp_dbg,
+							this.correctionsParameters);
+				}
+			}
+			// rotate the result			  
+			if (rotate){ // never rotate for equirectangular
+				stack=eyesisCorrections.rotateStack32CW(stack);
+			}
+			if (!toRGB && !this.correctionsParameters.jpeg){ // toRGB set for equirectangular
+				System.out.println("!toRGB && !this.correctionsParameters.jpeg");
+				eyesisCorrections.saveAndShow(result, this.correctionsParameters);
+				return result;
+			} else { // that's not the end result, save if required
+				System.out.println("!toRGB && !this.correctionsParameters.jpeg - else");
+				eyesisCorrections.saveAndShow(result,
+						eyesisCorrections.correctionsParameters,
+						eyesisCorrections.correctionsParameters.save32,
+						false,
+						eyesisCorrections.correctionsParameters.JPEG_quality); // save, no show
+			}
+			// convert to RGB48 (16 bits per color component)
+			ImagePlus imp_RGB;
+			stack=eyesisCorrections.convertRGB32toRGB16Stack(
+					stack,
+					rgbParameters); 
+
+			titleFull=title+"-RGB48";
+			result= new ImagePlus(titleFull, stack);
+			//			  ImagePlus imp_RGB24;
+			result.updateAndDraw();
+			System.out.println("result.updateAndDraw(), "+titleFull+"-RGB48");
+
+			CompositeImage compositeImage=eyesisCorrections.convertToComposite(result);
+
+			if (!this.correctionsParameters.jpeg && !advanced){ // RGB48 was the end result
+				System.out.println("if (!this.correctionsParameters.jpeg && !advanced)");
+				eyesisCorrections.saveAndShow(compositeImage, this.correctionsParameters);
+				return result;
+			} else { // that's not the end result, save if required
+				System.out.println("if (!this.correctionsParameters.jpeg && !advanced) - else");
+				eyesisCorrections.saveAndShow(compositeImage, this.correctionsParameters, this.correctionsParameters.save16, false); // save, no show
+				//				  eyesisCorrections.saveAndShow(compositeImage, this.correctionsParameters, this.correctionsParameters.save16, true); // save, no show
+			}
+
+			imp_RGB=eyesisCorrections.convertRGB48toRGB24(
+					stack,
+					title+"-RGB24",
+					0, 65536, // r range 0->0, 65536->256
+					0, 65536, // g range
+					0, 65536);// b range
+			if (JPEG_scale!=1.0){
+				ImageProcessor ip=imp_RGB.getProcessor();
+				ip.setInterpolationMethod(ImageProcessor.BICUBIC);
+				ip=ip.resize((int)(ip.getWidth()*JPEG_scale),(int) (ip.getHeight()*JPEG_scale));
+				imp_RGB= new ImagePlus(imp_RGB.getTitle(),ip);
+				imp_RGB.updateAndDraw();
+			}
+			eyesisCorrections.saveAndShow(imp_RGB, this.correctionsParameters);
+
+			return result;
+		}
+
+		public ImageStack  YPrPbToRGB(double [][] yPrPb,
+				double Kr,        // 0.299;
+				double Kb,        // 0.114;
+				int width
+				) {
+			int length = yPrPb[0].length;
+			int height = length/width;
+
+			float [] fpixels_r= new float [length];
+			float [] fpixels_g= new float [length];
+			float [] fpixels_b= new float [length];
+			double Kg=1.0-Kr-Kb;
+			int i;
+			/**
+	R= Y+ Pr*2.0*(1-Kr)
+	B= Y+ Pb*2.0*(1-Kb)
+	G= Y  +Pr*(- 2*Kr*(1-Kr))/Kg + Pb*(-2*Kb*(1-Kb))/Kg
+
+			 */
+			double KPrR=  2.0*(1-Kr);
+			double KPbB=  2.0*(1-Kb);
+			double KPrG= -2.0*Kr*(1-Kr)/Kg;
+			double KPbG= -2.0*Kb*(1-Kb)/Kg;
+			double Y,Pr,Pb;
+			for (i=0;i<length;i++) {
+				Pb=yPrPb[2][i];
+				Pr=yPrPb[1][i];
+				Y =yPrPb[0][i];
+				fpixels_r[i]=(float) (Y+ Pr*KPrR);
+				fpixels_b[i]=(float) (Y+ Pb*KPbB);
+				fpixels_g[i]=(float) (Y+ Pr*KPrG + Pb*KPbG);
+			}
+			ImageStack stack=new ImageStack(width,height);
+			stack.addSlice("red",   fpixels_r);
+			stack.addSlice("green", fpixels_g);
+			stack.addSlice("blue",  fpixels_b);
+			return stack;
+
+		}
+
+		public double [][]  YPrPbToRBG(double [][] yPrPb,
+				double Kr,        // 0.299;
+				double Kb,        // 0.114;
+				int width
+				) {
+			int length = yPrPb[0].length;
+			int height = length/width;
+			
+			double [][]rbg = new double[3][length];
+			double Kg=1.0-Kr-Kb;
+			int i;
+			/**
+	R= Y+ Pr*2.0*(1-Kr)
+	B= Y+ Pb*2.0*(1-Kb)
+	G= Y  +Pr*(- 2*Kr*(1-Kr))/Kg + Pb*(-2*Kb*(1-Kb))/Kg
+
+			 */
+			double KPrR=  2.0*(1-Kr);
+			double KPbB=  2.0*(1-Kb);
+			double KPrG= -2.0*Kr*(1-Kr)/Kg;
+			double KPbG= -2.0*Kb*(1-Kb)/Kg;
+			double Y,Pr,Pb;
+			for (i=0;i<length;i++) {
+				Pb=yPrPb[2][i];
+				Pr=yPrPb[1][i];
+				Y =yPrPb[0][i];
+				rbg[0][i]=(float) (Y+ Pr*KPrR);
+				rbg[1][i]=(float) (Y+ Pb*KPbB);
+				rbg[2][i]=(float) (Y+ Pr*KPrG + Pb*KPbG);
+			}
+			return rbg;
+		}
 
 }

src/main/java/Eyesis_Correction.java

@@ -2758,6 +2758,7 @@ private Panel panel1,panel2,panel3,panel4,panel5,panel5a, panel6,panel7,panelPos
         			DEBUG_LEVEL);
         }
 //        System.out.println("dct_dc.length="+dct_dc.length+" dct_ac.length="+dct_ac.length);
+        if (DEBUG_LEVEL > 0){
         	SDFA_INSTANCE.showArrays(dct_ac,
         			tilesX*DCT_PARAMETERS.dct_size,
         			tilesY*DCT_PARAMETERS.dct_size,
@@ -2768,6 +2769,7 @@ private Panel panel1,panel2,panel3,panel4,panel5,panel5a, panel6,panel7,panelPos
         			tilesY,
         			true,
         			DBG_IMP.getTitle()+"-DCT_DC");
+        }
         double [][] idct_data = new double [dctdc_data.length][];
         for (int chn=0; chn<idct_data.length;chn++){
         	idct_data[chn] = image_dtt.lapped_idctdc(

src/main/java/ImageDtt.java

@@ -129,7 +129,7 @@ public class ImageDtt {
 		final int tilesY=dct_data.length/(dct_width*dct_size);
 		final int width=  (tilesX+1)*dct_size;
 		final int height= (tilesY+1)*dct_size;
-
+		if (globalDebugLevel > 0) {
 			System.out.println("lapped_idct():dct_width="+dct_width);
 			System.out.println("lapped_idct():tilesX=   "+tilesX);
 			System.out.println("lapped_idct():tilesY=   "+tilesY);
@@ -141,6 +141,7 @@ public class ImageDtt {
 			}
 			debug0 = Math.sqrt(debug0)/dct_data.length;
 			System.out.println("lapped_idct():debug0=   "+debug0+" (dct_data.length= "+dct_data.length+")");
+		}
 		
 		final double [] dpixels = new double[width*height];
 		final Thread[] threads = newThreadArray(threadsMax);
@@ -282,20 +283,16 @@ public class ImageDtt {
 		dtt0.set_window(window_type);
 		final double [] dciii = dtt0.dttt_iii  (dc, dct_size);
 		final double [] dciiie = dtt0.dttt_iiie  (dc, dct_size);
-		if (color ==2) {
+		if ((globalDebugLevel > 0) && (color ==2)) {
 			double [][]dcx = {dc,dciii,dciiie, dtt0.dttt_ii(dc, dct_size),dtt0.dttt_iie(dc, dct_size)}; 
 			showDoubleFloatArrays sdfa_instance0 = new showDoubleFloatArrays(); // just for debugging?
 			sdfa_instance0.showArrays(dcx,  dct_size, dct_size, true, "dcx");
 		}
 
 		
-/*
-						tile_out=dtt.dttt_iv  (tile_folded, dct_mode, dct_size);
-		
- */
-		
-		
+		if (globalDebugLevel > 0) {
 			System.out.println("lapped_dctdc(): width="+width+" height="+height);
+		}
 
 		for (int ithread = 0; ithread < threads.length; ithread++) {
 			threads[ithread] = new Thread() {
@@ -325,7 +322,7 @@ public class ImageDtt {
 							int asym_center = dct_kernels.asym_size/2; // 7 for 15
 							kernelTileY = kernel_margin + (tileY * dct_size) / dct_kernels.img_step;
 							kernelTileX = kernel_margin + (tileX * dct_size) / dct_kernels.img_step;
-							if ((tileY == debug_tileY) && (tileX == debug_tileX) && (color == 2)) {
+							if ((globalDebugLevel > 0) && (tileY == debug_tileY) && (tileX == debug_tileX) && (color == 2)) {
 								System.out.println("kernelTileY="+kernelTileY+" kernelTileX="+kernelTileX+" width="+width);
 							}
 							for (int i = 0; i < n2; i++){
@@ -336,7 +333,7 @@ public class ImageDtt {
 									double [] asym_val = dct_kernels.asym_val[color][kernelTileY][kernelTileX];
 									for (int indx = 0; indx < asym_indx.length; indx++){
 										int xy = asym_indx[indx];
-										if ((tileY == debug_tileY) && (tileX == debug_tileX) && (color == 2)) {
+										if ((globalDebugLevel > 0) && (tileY == debug_tileY) && (tileX == debug_tileX) && (color == 2)) {
 											System.out.println("i="+i+" j="+j+" indx="+indx+" xy="+xy);
 										}
 										if (xy >= 0) {
@@ -349,7 +346,7 @@ public class ImageDtt {
 											if (y >= height) y = (height - 2) + (y & 1);
 											if (x >= width)  x = (width - 2) +  (x & 1);
 											tile_in[i*n2 + j] += asym_val[indx] * dpixels[ y * width + x]; 
-											if ((tileY == debug_tileY) && (tileX == debug_tileX) && (color == 2)) {
+											if ((globalDebugLevel > 0) && (tileY == debug_tileY) && (tileX == debug_tileX) && (color == 2)) {
 												System.out.println("dy= "+dy+" dx="+dx+" x = "+x+" y="+y+" y*width + x="+(y*width + x));
 												System.out.println("asym_val["+indx+"]="+asym_val[indx]+
 														"  dpixels["+(y * width + x)+"]="+ dpixels[ y * width + x]+
@@ -371,26 +368,6 @@ public class ImageDtt {
 											int ady = (dy>=0)?dy:-dy;
 											int sgny = 1;
 											int y = i - dy;
-/*
-											
-											if (y < 0){
-												y = -1 -y;
-												sgny = -sgny;
-												if (y < 0) {
-													y = 0;
-													sgny = 0;
-												}
-											}
-											if (y >= n2){
-												y = 2*n2 - y;
-												sgny = -sgny;
-												if (y >= n2) {
-													y = n2-1;
-													sgny = 0;
-												}
-											}
-											
- */
 											if (y < 0){
 												y = -1 -y;
 												sgny = -sgny;
@@ -403,25 +380,6 @@ public class ImageDtt {
 												int adx = (dx >= 0)? dx:-dx;
 												int sgn = sgny;
 												int x = j - dx;
-/*
-												if (x < 0){
-													x = -1 -x;
-													sgn = -sgn;
-													if (x <0) {
-														x = 0;
-														sgn = 0;
-													}
-												}
-												if (x >= n2){
-													x = 2*n2 - x;
-													sgn = -sgn;
-													if (x >= n2) {
-														x = n2-1;
-														sgn = 0;
-													}
-												}
-												
- */
 												if (x < 0){
 													x = -1 -x;
 													sgn = -sgn;
@@ -432,7 +390,7 @@ public class ImageDtt {
 												}
 												sym_conv[indx] += sgn*dir_sym[ady * dct_size + adx] * tile_in[y * n2 + x];
 												s0+=dir_sym[ady * dct_size + adx];
-												if ((tileY == debug_tileY) && (tileX == debug_tileX) && (color == 2) &&
+												if ((globalDebugLevel > 0) && (tileY == debug_tileY) && (tileX == debug_tileX) && (color == 2) &&
 														(i == dct_size) && (j== dct_size)) {
 													System.out.println("i="+i+" j="+j+" dy="+dy+" dx="+dx+" ady="+ady+" adx="+adx+
 															" y="+y+" x="+x+" sgny="+sgny+" sgn="+sgn+
@@ -447,7 +405,7 @@ public class ImageDtt {
 								}
 
 
-								if ((tileY == debug_tileY) && (tileX == debug_tileX) && (color == 2)) {
+								if ((globalDebugLevel > 0) && (tileY == debug_tileY) && (tileX == debug_tileX) && (color == 2)) {
 									//								if ((tileY == debug_tileY) && (tileX == debug_tileX)) {
 									double [][] pair = {tile_in, sym_conv};
 									sdfa_instance.showArrays(pair,  n2, n2, true, "dconv-X"+tileX+"Y"+tileY+"C"+color);
@@ -535,6 +493,7 @@ public class ImageDtt {
 									dct_kernels.st_kernels[color][kernelTileY][kernelTileX],
 									tile_out_copy,
 									tile_out};
+							if (globalDebugLevel > 0){
 								sdfa_instance.showArrays(tile_in,  n2, n2, "tile_in-X"+tileX+"Y"+tileY+"C"+color);
 								sdfa_instance.showArrays(dbg_tile,  dct_size, dct_size, true, "dbg-X"+tileX+"Y"+tileY+"C"+color);
 								System.out.println("tileY="+tileY+" tileX="+tileX+" kernelTileY="+kernelTileY+" kernelTileX="+kernelTileX);
@@ -552,6 +511,7 @@ public class ImageDtt {
 								}
 								System.out.println("s0="+s0+" s1="+s1+" s2="+s2+" s3="+s3);
 							}
+						}
 						System.arraycopy(tile_out, 0, dctdc_data[tileY][tileX], 0, tile_out.length);
 						dctdc_data[tileY][tileX][tile_out.length] = dc;
 					}
@@ -623,7 +583,7 @@ public class ImageDtt {
 				}
 			}
 		}
-		if (globalDebugLevel>2) {
+		if (globalDebugLevel > -1) {
 			for (int i=0; i<filter_direct.length;i++){
 				System.out.println("dct_lpf_psf() "+i+": "+filter_direct[i]); 
 			}
@@ -633,7 +593,7 @@ public class ImageDtt {
 		final double [] filter= dtt.dttt_iiie(filter_direct);
 		for (int i=0; i < filter.length;i++) filter[i] *= dct_size;  
 		
-		if (globalDebugLevel>2) {
+		if (globalDebugLevel > -1) {
 			for (int i=0; i<filter.length;i++){
 				System.out.println("dct_lpf_psf() "+i+": "+filter[i]); 
 			}
@@ -662,6 +622,119 @@ public class ImageDtt {
 		startAndJoin(threads);
 	}
 	
+	public double [][][][] dct_color_convert(
+			final double [][][][] dctdc_data,
+			final double kr,
+			final double kb,
+			final double sigma_rb,        // blur of channels 0,1 (r,b) in addition to 2 (g)
+			final double sigma_y,         // blur of Y from G
+			final double sigma_color,     // blur of Pr, Pb in addition to Y
+			final int       threadsMax,     // maximal number of threads to launch                         
+			final int       globalDebugLevel)
+	{
+		final int tilesY=dctdc_data[0].length;
+		final int tilesX=dctdc_data[0][0].length;
+		final int nTiles=tilesX*tilesY;
+		final int dct_size = (int) Math.round(Math.sqrt(dctdc_data[0][0][0].length-1));
+		final int dct_len = dct_size*dct_size;
+		final double [][][][] yPrPb = new double [3][tilesY][tilesX][dct_len];
+		final double [][][] filters = new double [3][3][dct_len];
+		final double kg = 1.0 - kr - kb;
+		final double [][] filters_proto_direct = new double[3][dct_len];
+		final double [][] filters_proto = new double[3][];
+		System.out.println("dct_color_convert(): kr="+kr+" kg="+kg+" kb="+kb);
+		final double [] sigmas = {sigma_rb,sigma_y,sigma_color};
+		for (int n = 0; n<3; n++) {
+			double s = 0.0;
+			for (int i = 0; i < dct_size; i++){
+				for (int j = 0; j < dct_size; j++){
+					double d;
+					if (sigmas[n] == 0.0)   d = ((i == 0) && (j==0))? 1.0:0.0;
+					else                    d = Math.exp(-(i*i+j*j)/(2*sigmas[n]));
+					filters_proto_direct[n][i*dct_size+j] = d;
+					if (i > 0) d*=2;
+					if (j > 0) d*=2;
+					s += d;
+				}
+				
+			}
+			System.out.println("dct_color_convert(): sigmas["+n+"]="+sigmas[n]+", sum="+s);
+			for (int i = 0; i < dct_len; i++){
+				filters_proto_direct[n][i] /=s;
+			}
+		}
+		
+		DttRad2 dtt = new DttRad2(dct_size);
+		for (int i = 0; i < filters_proto.length; i++){
+			filters_proto[i] = dtt.dttt_iiie(filters_proto_direct[i]);
+			System.out.println("filters_proto.length="+filters_proto.length+" filters_proto["+i+"].length="+filters_proto[i].length+" dct_len="+dct_len+" dct_size="+dct_size);
+			for (int j=0; j < dct_len; j++) filters_proto[i][j] *= 2*dct_size;  
+
+		}
+		if (globalDebugLevel > -1) {
+			showDoubleFloatArrays sdfa_instance = new showDoubleFloatArrays(); // just for debugging?
+			double [][] ff = {filters_proto_direct[0],filters_proto_direct[1],filters_proto_direct[2],filters_proto[0],filters_proto[1],filters_proto[2]};
+			sdfa_instance.showArrays(ff,  dct_size,dct_size, true, "filters_proto");
+		}
+
+		double [][] coeff_arr ={
+				{ kr,              kb,               kg             },  // Y = R*Kr+G*Hg+B*Kb
+				{ 0.5,            -kb/(2.0*(1-kr)), -kg/(2.0*(1-kr))},  // Pr =  R* 0.5  - G* Kg/(2.0*(1-Kr)) - B *Kb/(2.0*(1-Kr))
+				{-kr/(2.0*(1-kb)), 0.5,             -kg/(2.0*(1-kb))}}; // Pb =  B* 0.5  - G* Kg/(2.0*(1-Kb)) - R *Kr/(2.0*(1-Kb))
+		for (int k = 0; k < dct_len; k++){
+			for (int i = 0; i < coeff_arr.length; i++){
+				for (int j = 0; j < coeff_arr.length; j++){
+					filters[i][j][k] = coeff_arr[i][j]* filters_proto[1][k];      // minimal blur - for all sigma_y
+					if (i > 0){
+						filters[i][j][k] *= filters_proto[2][k]; // for Pr, Pb sigma_color
+					}
+					if (j <2){ // all but green 
+						filters[i][j][k] *= filters_proto[0][k]; // for R,B sigma_rb
+					}
+					
+				}
+			}
+		}
+		if (globalDebugLevel > -1) {
+			showDoubleFloatArrays sdfa_instance = new showDoubleFloatArrays(); // just for debugging?
+			double [][] ff = {
+					filters[0][0], filters[0][1], filters[0][2],
+					filters[1][0], filters[1][1], filters[1][2],
+					filters[2][0], filters[2][1], filters[2][2]};
+			sdfa_instance.showArrays(ff,  dct_size,dct_size, true, "filters");
+		}
+		
+		final Thread[] threads = newThreadArray(threadsMax);
+		final AtomicInteger ai = new AtomicInteger(0);
+
+		for (int ithread = 0; ithread < threads.length; ithread++) {
+			threads[ithread] = new Thread() {
+				public void run() {
+					int tileY,tileX;
+					for (int nTile = ai.getAndIncrement(); nTile < nTiles; nTile = ai.getAndIncrement()) {
+						tileY = nTile/tilesX;
+						tileX = nTile - tileY * tilesX;
+						for (int i = 0; i < filters.length; i++){
+							for (int k = 0; k <dct_len; k++){
+								yPrPb[i][tileY][tileX][k]=0.0;
+								for (int j = 0; j < filters[i].length; j++){
+									yPrPb[i][tileY][tileX][k] += filters[i][j][k] * dctdc_data[j][tileY][tileX][k];
+//									yPrPb[i][tileY][tileX][k] += filters[i][j][k] * dctdc_data[2][tileY][tileX][k]; // make it grey level (r=g=b)
+								}
+							}
+							
+						}
+					}
+				}
+			};
+		}		      
+		startAndJoin(threads);
+		return yPrPb;
+	}
+	
+
+	
+	
 	
 	
 	// Restore DC
@@ -679,11 +752,12 @@ public class ImageDtt {
 
 		final int width=  (tilesX+1)*dct_size;
 		final int height= (tilesY+1)*dct_size;
-
+		if (globalDebugLevel > 0) {
 			System.out.println("lapped_idct():tilesX=   "+tilesX);
 			System.out.println("lapped_idct():tilesY=   "+tilesY);
 			System.out.println("lapped_idct():width=    "+width);
 			System.out.println("lapped_idct():height=   "+height);
+		}
 		final double [] dpixels = new double[width*height];
 		final Thread[] threads = newThreadArray(threadsMax);
 		final AtomicInteger ai = new AtomicInteger(0);
@@ -718,7 +792,8 @@ public class ImageDtt {
 							tileX = tiles_list[nser.get()][nTile][0];
 							tileY = tiles_list[nser.get()][nTile][1];
 							System.arraycopy(dctdc_data[tileY][tileX], 0, tile_in, 0, tile_in.length);
-							double dc = dctdc_data[tileY][tileX][tile_in.length];
+							// will get rid of the DC eventually
+							double dc = (dctdc_data[tileY][tileX].length > tile_in.length)?dctdc_data[tileY][tileX][tile_in.length]:0.0;
 							tile_dct=dtt.dttt_iv  (tile_in, 0, dct_size);
 							for (int i = 0; i<tile_dct.length; i++) tile_dct[i] += dc;
 							tile_out=dtt.unfold_tile(tile_dct, dct_size);

src/main/java/showDoubleFloatArrays.java

@@ -175,7 +175,28 @@ import ij.process.*;
 		  }
 	  }
   }
+  public ImageStack makeStack(double[][] pixels, int width, int height) {
+	  return makeStack(pixels, width,height, null);
+  }
 
+  public ImageStack makeStack(double[][] pixels, int width, int height, String [] titles) {
+      float [] fpixels;
+      ImageStack array_stack=new ImageStack(width,height);
+      for (int i=0;i<pixels.length;i++) if (pixels[i]!=null) {
+          if (pixels[i].length!=(width*height)){
+        	  System.out.println("showArrays(): pixels["+i+"].length="+pixels[i].length+" != width (+"+width+") * height("+height+")="+(width*height));
+        	  return null;
+          }
+        fpixels=new float[pixels[i].length];
+        for (int j=0;j<fpixels.length;j++) fpixels[j]=(float)pixels[i][j];
+        if (titles!=null){
+            array_stack.addSlice(titles[i],    fpixels);
+        } else {
+        	array_stack.addSlice("chn-"+i,    fpixels);
+        }
+      }
+      return array_stack;
+  }
 
   public ImagePlus [] makeArrays(double[][] pixels, int width, int height, String title) {
 	  int i,j;