melreport.cc

/*  MELODIC - Multivariate exploratory linear optimized decomposition into 
    independent components
   
    melreport.cc - report generation

    Christian F. Beckmann, FMRIB Analysis Group
    
    Copyright (C) 1999-2013 University of Oxford */

/*  CCOPYRIGHT  */

#include "newimage/newimageall.h"
#include "utils/log.h"
#include "melreport.h"
#include "melhlprfns.h"
#include "miscmaths/miscprob.h"

namespace Melodic{
  
	void MelodicReport::IC_rep(MelGMix &mmodel, int cnum, int dim, Matrix ICstats){

		if( bool(opts.genreport.value()) ){
    	addlink(mmodel.get_prefix()+".html",num2str(cnum));
			IChtml.setDir(report.getDir(),mmodel.get_prefix()+".html");

      {//start IC page
				IChtml << "<HTML><HEAD><link REL=stylesheet TYPE=text/css href=file:" +
					(string) getenv("FSLDIR") +"/doc/fsl.css>" << endl
					<< "<style type=\"text/css\">OBJECT { width: 100% }</style>"
	       	<< "<TITLE>FSL</TITLE></HEAD>" << endl
	  			<< "<IFRAME  height=" << int(melodat.get_numfiles()/30 + 1)*50 
					<<"px width=100% src=nav.html frameborder=0></IFRAME><BR>"<< endl
	       	<< "<Center>" << endl;
			
				if(cnum>1)
	  			IChtml << "<a href=\"" << string("IC_")+num2str(cnum-1)
					<<".html\">&#60;</a>&nbsp;-&nbsp;";
				else
	  			IChtml << "<a href=\"" << string("IC_")+num2str(melodat.get_mix().Ncols())
					<<".html\">&#60;</a>&nbsp;-&nbsp;";
	
				if(cnum<dim)
	  			IChtml << "<a href=\"" << string("IC_")+num2str(cnum+1)
					<<".html\">&#62;</a>";
				else 
	  			IChtml << "<a href=\"" << string("IC_")+num2str(1)
					<<".html\">&#62;</a>";
				IChtml << "<p><H3>MELODIC Component " << num2str(cnum)
				<< "<br></b></H3><hr><p>" << endl;
			}
      {//output IC stats
    		if(ICstats.Storage()>0&&ICstats.Nrows()>=cnum){
	  			IChtml << fixed << setprecision(2) << std::abs(ICstats(cnum,1)) << " % of explained variance";
	  			if(ICstats.Ncols()>1)
	    			IChtml << "; &nbsp; &nbsp; " << std::abs(ICstats(cnum,2)) << " % of total variance";
					if(ICstats.Ncols()>2&&opts.addsigchng.value()){
	    			IChtml << "<p>" <<endl;
	    			IChtml << " &nbsp; &nbsp; " << ICstats(cnum,3) << " % signal change (pos peak voxel); &nbsp; &nbsp;" << ICstats(cnum,4) << "% signal change (peak neg. voxel)" << endl ;
	  			}
	  			IChtml << "<hr><p>" << endl;
				}
      }
      
      volume4D<float> tempVol;       
      if(mmodel.get_threshmaps().Storage()>0&&
	    (mmodel.get_threshmaps().Ncols() == mmodel.get_data().Ncols()))
	    {//Output thresholded IC map	
				tempVol.setmatrix(mmodel.get_threshmaps().Row(1),melodat.get_mask());
				volume<float> map1;
				volume<float> map2;
				map1 = threshold(tempVol[0],float(0.0), tempVol[0].max());
				map2 = threshold(tempVol[0],tempVol[0].min(), float(0.0));
	
				volume<float> newvol;

				miscpic newpic;
	
				float map1min = std::max((map1 + binarise(tempVol[0],tempVol[0].min(), 
						    	float(0.0)) * map1.max()).min(),float(0.001));
			  float map1max = std::max(map1.max(),float(0.001));
				float map2min = std::min(map2.min(),float(-0.001));
				float map2max = std::min((map2 + binarise(tempVol[0],float(0.0), 
						  		tempVol[0].max()) * map2.min()).max(),float(-0.001));
	
    		newpic.overlay(newvol, melodat.get_bg(), map1, map2, 
		       		melodat.get_bg().percentile(0.02),
		       		melodat.get_bg().percentile(0.98),
		       		map1min, map1max, map2max, map2min, 
		       		0, 0);
				char instr[10000];
	
				sprintf(instr," ");
				strcat(instr,axials_instr.c_str());
				strcat(instr,string(report.appendDir(mmodel.get_prefix()+
					     	"_thresh.png")).c_str());
				newpic.set_title(string("Component No. "+num2str(cnum)+
								" - thresholded IC map  ") + mmodel.get_infstr(1));
				newpic.set_cbar(string("ysb"));
	
				if((std::abs(map1.max()-map1.min())>0.01) || (std::abs(map2.max()-map2.min())>0.01))
	  			newpic.slicer(newvol, instr); 
				else
	  			newpic.slicer(newvol, instr);
	  		IChtml << "<a href=\""+mmodel.get_prefix()+"_MM.html\">";
	    	IChtml << "<img BORDER=0 SRC=\""+mmodel.get_prefix()
	    		+"_thresh.png\" ALT=\"MMfit\"></A><p>" << endl;
	    }	
			
      if ( !opts.migp.value() ) {//plot time course
    	IChtml << "<H3> Temporal mode </H3><p>" << endl <<endl;     	
		miscplot newplot;
		
			Matrix tmptc = melodat.get_Tmodes(cnum-1).Column(1).t();

			newplot.col_replace(0,0xFF0000);

			newplot.add_label(string("IC ")+num2str(cnum)+" time course");
			//add GLM OLS fit
			if(melodat.Tdes.Storage()>0 &&
		  melodat.glmT.get_beta().Nrows() == melodat.Tdes.Ncols()){
				tmptc &= melodat.glmT.get_beta().Column(cnum).t() * melodat.Tdes.t();
				newplot.add_label("full model fit");
			}

			//add deviation around time course
			if(melodat.get_Tmodes(cnum-1).Ncols()>1 && opts.varplots.value()){
				Matrix tmp = stdev(melodat.get_Tmodes(cnum-1).Columns(2,melodat.get_Tmodes(cnum-1).Ncols()).t(),1);
				tmptc &= melodat.get_Tmodes(cnum-1).Column(1).t()+tmp;
				tmptc &= melodat.get_Tmodes(cnum-1).Column(1).t()-tmp;
				newplot.add_label("std error across subjects");
				newplot.col_replace(tmptc.Nrows()-1,0x808080);
				newplot.col_replace(tmptc.Nrows()-2,0x808080);				
			}
		
	    if(opts.tr.value()>0.0)
				newplot.add_xlabel(string("Time (seconds); TR = ")+
				float2str(opts.tr.value(),0,2,0)+" s");
			else 
		  	newplot.add_xlabel(string("Time (TRs)"));
			
			newplot.add_ylabel("Normalised Response");
			newplot.set_yrange(tmptc.Row(1).Minimum()-0.05*(tmptc.Row(1).Maximum() - 
				tmptc.Row(1).Minimum()),tmptc.Row(1).Maximum()+
				0.05*(tmptc.Row(1).Maximum()-tmptc.Row(1).Minimum()));
			newplot.grid_swapdefault();
			
			newplot.set_xysize(750,150);
			
	        newplot.timeseries(tmptc,
			  report.appendDir(string("t")+num2str(cnum)+".png"),
			  string("Timecourse No. ")+num2str(cnum), 
			  opts.tr.value(),150,12,1,false);

			if(melodat.get_Tmodes(cnum-1).Ncols()>1)
				tmptc &= melodat.get_Tmodes(cnum-1).Columns(2,melodat.get_Tmodes(cnum-1).Ncols()).t();
	     write_ascii_matrix(report.appendDir(string("t")
				+num2str(cnum)+".txt"),tmptc.t());
	     IChtml << "<A HREF=\"" << string("t")
	  	  +num2str(cnum)+".txt" << "\"> ";
			 IChtml << "<img BORDER=0 SRC=\"" 
	  	  +string("t")+num2str(cnum)+".png\"></A><p>" << endl;	
	
			if(melodat.get_numfiles()>1 && melodat.explained_var.Storage()>0 
				&& melodat.explained_var.Ncols()>=cnum && opts.varvals.value())
				IChtml << "Rank-1 approximation of individual time courses explains " 
				<< std::abs(melodat.explained_var(cnum)) << "% of variance.<p>" << endl;
			}//time series plot

      if(!opts.migp.value() && !opts.pspec.value()) {//plot frequency  
    		miscplot newplot;
	    	RowVector empty(1);
	 			empty = 0.0;
				int fact = int(std::pow(10.0,int(std::log10(float(melodat.get_Tmodes(0).Nrows())))));
				if(opts.logPower.value())
					newplot.add_ylabel(string("log-Power"));
				else
					newplot.add_ylabel(string("Power"));
		
				Matrix fmixtc = calc_FFT(melodat.get_Tmodes(cnum-1).Column(1), opts.logPower.value());
			  
				newplot.set_Ylabel_fmt("%.0f");
				newplot.set_yrange(0.0,1.02*fmixtc.Maximum());
				newplot.grid_swapdefault();
				newplot.set_xysize(750,150);
				
				if(opts.tr.value()>0.0){
					newplot.add_xlabel(string("Frequency (in Hz / ")+num2str(fact)+ " )");
	  			newplot.timeseries(empty | fmixtc.t(),
			  	report.appendDir(string("f")+
						num2str(cnum)+".png"),
			     	string("Powerspectrum of timecourse"),
			     	fact/(opts.tr.value()*melodat.get_Tmodes(0).Nrows()), 150,0,2);
				}else{	
					newplot.add_xlabel(string("Frequency (in cycles); ")
					+"frequency(Hz)=cycles/("
			    +num2str(melodat.get_Tmodes(0).Nrows())
			    +"* TR); period(s)=("
			    +num2str(melodat.get_Tmodes(0).Nrows())
			    +"* TR)/cycles"
					);
	  			newplot.timeseries(fmixtc.t(),
			    report.appendDir(string("f")+num2str(cnum)+".png"),
			     	string("Powerspectrum of timecourse"));
				}
				write_ascii_matrix(report.appendDir(string("f")
			 		+num2str(cnum)+".txt"), fmixtc);
				IChtml << "<A HREF=\"" << string("f")
	  			+num2str(cnum)+".txt" << "\"> ";
				IChtml << "<img BORDER=0 SRC=\"" 
	  			+string("f")+num2str(cnum)+".png\"></A><p>" << endl;
      }//frequency plot
   		{//add T-mode GLM F-stats for full model fit & contrasts
				if(melodat.Tdes.Storage() > 0 &&
					melodat.glmT.get_beta().Nrows() == melodat.Tdes.Ncols()){
							IChtml << " <TABLE border=1 bgcolor=ffffff cellpadding=5>" <<
								"<CAPTION><EM> <b>GLM (OLS) on time series </b></EM></CAPTION>" << endl
								<< "<TR valign=middle><TH ><EM>GLM &beta;'s</EM> <TH> <EM> F-test on <br> full model fit </em>";
							if(melodat.Tcon.Storage() > 0)
								IChtml << "<TH ><EM>Contrasts</EM>"<<endl;
							IChtml << "<TR><TD><TABLE border=0><TR><TD align=right>" << endl; 
							for(int ctr=1;ctr <= melodat.Tdes.Ncols();ctr++)
								IChtml << " PE(" <<num2str(ctr)+"): <br>" << endl;
							IChtml << "<TD align=right>" << endl;
							for(int ctr=1;ctr <= melodat.Tdes.Ncols();ctr++)
								IChtml << melodat.glmT.get_beta().Column(cnum).Row(ctr) << "<br>" <<endl;
							IChtml << "</TABLE>" <<
								" <TD align=center> F = "<< melodat.glmT.get_f_fmf().Column(cnum) << 
								" <BR> dof1 = " << melodat.Tdes.Ncols() << "; dof2 = " 
								<< melodat.glmT.get_dof() << "<BR>" <<endl;
							if(melodat.glmT.get_pf_fmf().Column(cnum).AsScalar() < 0.05)
								IChtml << fixed << setprecision(5) <<"<b> p < " << melodat.glmT.get_pf_fmf().Column(cnum) <<
								"<BR> (uncorrected for #comp.)<b></TD>" << endl;
							else
								IChtml << fixed << setprecision(5) << " p < " << 
								melodat.glmT.get_pf_fmf().Column(cnum) << 
								"<BR> (uncorrected for #comp.)</TD>" << endl;
						if(melodat.Tcon.Storage() > 0	&&
						melodat.Tdes.Ncols() == melodat.Tcon.Ncols()){
							IChtml << fixed << setprecision(2) << "<TD><TABLE border=0><TR><TD align=right>" <<endl;
							for(int ctr=1; ctr <= melodat.Tcon.Nrows() ; ctr++)
								IChtml << "COPE(" << num2str(ctr) << "): <br>" << endl;
							IChtml << "<td align=right>" << endl;
							for(int ctr=1; ctr <= melodat.Tcon.Nrows() ; ctr++)
								IChtml <<" z = <BR>" <<endl;
							IChtml << "<td align=right>" << endl;						
							for(int ctr=1; ctr <= melodat.Tcon.Nrows() ; ctr++)
								IChtml << melodat.glmT.get_z().Column(cnum).Row(ctr) <<";<BR>" <<endl;
							IChtml << "<td align=right>" << endl;
							for(int ctr=1; ctr <= melodat.Tcon.Nrows() ; ctr++)
								if(melodat.glmT.get_p().Column(cnum).Row(ctr).AsScalar() < 0.05)
									IChtml << fixed << setprecision(5) << "<b> p < " << melodat.glmT.get_p().Column(cnum).Row(ctr) << 
									"</b><BR>" << endl;
								else
									IChtml << fixed << setprecision(5) <<" p < " << melodat.glmT.get_p().Column(cnum).Row(ctr) << 
									"<BR>" << endl;
							IChtml << "</TABLE></td></tr>" << endl;
					  }
					}
				IChtml << "</TABLE><p>" << endl;
			}
  
      if(cnum <= (int)melodat.get_Smodes().size())
	    {//plot subject mode 
			  
	  		Matrix smode;
	  		smode = melodat.get_Smodes(cnum-1);
	
	  		if(smode.Nrows() > 1){
	  	  	IChtml << "<hr><H3> Sessions/Subjects mode </H3><p>" << endl <<endl;
		    	miscplot newplot;

					//add GLM OLS fit
					//newplot.setscatter(smode,2);

					if(melodat.Sdes.Storage() > 0&&
					melodat.glmS.get_beta().Nrows() == melodat.Sdes.Ncols()){
						smode |= melodat.Sdes * melodat.glmS.get_beta().Column(cnum);
						newplot.add_label(string("IC ")+num2str(cnum)+" subject/session-mode");
						newplot.add_label("full model fit");
					}
					newplot.grid_swapdefault();
					newplot.set_Ylabel_fmt("%.2f");
					newplot.add_xlabel(" Subject Number");
					

					newplot.set_xysize(750,150);
	      	newplot.timeseries(smode.t(), 
			    	report.appendDir(string("s")+num2str(cnum)+".png"),
			      string("Subject/Session mode No. ") + num2str(cnum));
					newplot.clear_xlabel();
					newplot.clear_labels();
					newplot.set_xysize(120,200);
					newplot.set_minmaxscale(1.1);

					newplot.boxplot((Matrix)smode.Column(1),
			    	report.appendDir(string("b")+num2str(cnum)+".png"),
			        string("Subject/Session mode"));
	      	write_ascii_matrix(report.appendDir(string("s")
		 				+num2str(cnum)+".txt"),  smode);
	      	IChtml << "<A HREF=\"" << string("s")
	        	+num2str(cnum)+".txt" << "\"> ";
	      	IChtml << "<img BORDER=0 SRC=\"" 
	      		+string("s")+num2str(cnum)+".png\"></A>" << endl;
					IChtml << "<A HREF=\"" << string("s")
	        	+num2str(cnum)+".txt" << "\"> ";
	      	IChtml << "<img BORDER=0 SRC=\"" 
	      		+string("b")+num2str(cnum)+".png\"></A><p>" << endl;
	    	}
   			{//add S-mode GLM F-stats for full model fit & contrasts
			  	if(melodat.Sdes.Storage() > 0 &&
					melodat.glmS.get_beta().Nrows() == melodat.Sdes.Ncols()){
							IChtml << " <TABLE border=1 bgcolor=ffffff cellpadding=5>" <<
								"<CAPTION><EM> <b>GLM (OLS) on subject/session-mode </b></EM></CAPTION>" << endl
								<< "<TR valign=middle><TH ><EM>GLM &beta;'s</EM> <TH> <EM> F-test on <br> full model fit </em>";
							if(melodat.Scon.Storage() > 0)
								IChtml << "<TH ><EM>Contrasts</EM>"<<endl;
							IChtml << "<TR><TD><TABLE border=0><TR><TD align=right>" << endl; 
							for(int ctr=1;ctr <= melodat.Sdes.Ncols();ctr++)
								IChtml << " PE(" <<num2str(ctr)+"): <br>" << endl;
							IChtml << "<TD align=right>" << endl;
							for(int ctr=1;ctr <= melodat.Sdes.Ncols();ctr++)
								IChtml << melodat.glmS.get_beta().Column(cnum).Row(ctr) << "<br>" <<endl;
							IChtml << "</TABLE>" <<
								" <TD align=center> F = "<< melodat.glmS.get_f_fmf().Column(cnum) << 
								" <BR> dof1 = " << melodat.Sdes.Ncols() << "; dof2 = " 
								<< melodat.glmS.get_dof() << "<BR>" <<endl;
							if(melodat.glmS.get_pf_fmf().Column(cnum).AsScalar() < 0.05)
								IChtml << fixed << setprecision(5) <<"<b> p < " << melodat.glmS.get_pf_fmf().Column(cnum) <<
								"<BR> (uncorrected for #comp.)<b></TD>" << endl;
							else
								IChtml << fixed << setprecision(5) << " p < " << 
								melodat.glmS.get_pf_fmf().Column(cnum) << 
								"<BR> (uncorrected for #comp.)</TD>" << endl;
				  if(melodat.Scon.Storage() > 0 	&& melodat.Sdes.Storage() > 0 &&
							melodat.Sdes.Ncols() == melodat.Scon.Ncols()){
							IChtml << fixed << setprecision(2) << "<TD><TABLE border=0><TR><TD align=right>" <<endl;
							for(int ctr=1; ctr <= melodat.Scon.Nrows() ; ctr++)
								IChtml << "COPE(" << num2str(ctr) << "): <br>" << endl;
							IChtml << "<td align=right>" << endl;
							for(int ctr=1; ctr <= melodat.Scon.Nrows() ; ctr++)
								IChtml <<" z = <BR>" <<endl;
							IChtml << "<td align=right>" << endl;						
							for(int ctr=1; ctr <= melodat.Scon.Nrows() ; ctr++)
								IChtml << melodat.glmS.get_z().Column(cnum).Row(ctr) <<";<BR>" <<endl;
							IChtml << "<td align=right>" << endl;
							for(int ctr=1; ctr <= melodat.Scon.Nrows() ; ctr++)
								if(melodat.glmS.get_p().Column(cnum).Row(ctr).AsScalar() < 0.05)
									IChtml << fixed << setprecision(5) << "<b> p < " << melodat.glmS.get_p().Column(cnum).Row(ctr) << 
									"</b><BR>" << endl;
								else
									IChtml << fixed << setprecision(5) <<" p < " << melodat.glmS.get_p().Column(cnum).Row(ctr) << 
									"<BR>" << endl;
							IChtml << "</TABLE></td></tr>" << endl;
					}
				}
				IChtml << "</TABLE><p>" << endl;
				}
	    }//subject mode plot
   
      if(mmodel.get_threshmaps().Storage()>0&&
	 			(mmodel.get_threshmaps().Ncols() == mmodel.get_data().Ncols())&&
	 			(mmodel.get_threshmaps().Nrows()>1))
	    {//Output other thresholded IC map
	  
	  	for(int tctr=2; tctr<=mmodel.get_threshmaps().Nrows(); tctr++){
	    	tempVol.setmatrix(mmodel.get_threshmaps().Row(tctr),melodat.get_mask());
	    	volume<float> map1;
	    	volume<float> map2;
	    	map1 = threshold(tempVol[0],float(0.0), tempVol[0].max());
	    	map2 = threshold(tempVol[0],tempVol[0].min(), float(0.0));

	    	volume<float> newvol; 
	    	miscpic newpic;
	    
	    	float map1min = (map1 + binarise(tempVol[0],tempVol[0].min(), 
					     	float(0.0)) * map1.max()).min();
	    	float map1max = map1.max();
	    	float map2min = map2.min();
	    	float map2max = (map2 + binarise(tempVol[0],float(0.0), 
					     	tempVol[0].max()) * map2.min()).max();
	    
	    	//cerr << endl << map1min << " " << map1max << endl
	    	//  << map2min << " " << map2max << endl;
	    
	    	//	    if(map1.max()-map1.min()>0.01)
	    	newpic.overlay(newvol, melodat.get_bg(), map1, map2, 
			   	melodat.get_bg().percentile(0.02),
			   	melodat.get_bg().percentile(0.98),
			   	map1min, map1max, map2max, map2min, 
			   	0, 0);
	    
	    	char instr[10000];
	    
	    	sprintf(instr," ");
	    	strcat(instr,axials_instr.c_str());
	    	strcat(instr,string(report.appendDir(mmodel.get_prefix()+"_thresh"+
						 	num2str(tctr)+".png")).c_str());
	    	newpic.set_title(string("Component No. "+num2str(cnum)+
				    	" - thresholded IC map ("+
				    	num2str(tctr)+")  ")+
			     		mmodel.get_infstr(tctr));
	    	newpic.set_cbar(string("ysb"));
	    	//cerr << instr << endl;
	    	newpic.slicer(newvol, instr); 
	    
	    	IC_rep_det(mmodel, cnum, dim);
	    	IChtml << "<a href=\""+mmodel.get_prefix()+"_MM.html\">";
	    	IChtml << "<img BORDER=0 SRC=\""+mmodel.get_prefix()
	      		+"_thresh"+num2str(tctr)+".png\" ALT=\"MMfit\"></A><p>" << endl;
	  	}
      }
      
      { //finish IC page
	    	IChtml<< "<HR><FONT SIZE=1>This page produced automatically by "
	      	<< "<A HREF=\"http://www.fmrib.ox.ac.uk/fsl/melodic/index.html\"> MELODIC</A> Version "  
	      	<< version << " - a part of <A HREF=\"http://www.fmrib.ox.ac.uk/fsl\">FSL - "
	      	<< "FMRIB Software Library</A>.</FONT></Center>" << endl
	      		<< "</BODY></HTML>" << endl;
      } //finish IC page
      IC_rep_det(mmodel, cnum, dim);
		}	
	}

  void MelodicReport::IC_rep_det(MelGMix &mmodel, int cnum, int dim){
    if( bool(opts.genreport.value()) ){

      {//start IC2 page
				IChtml2.setDir(report.getDir(),mmodel.get_prefix()+"_MM.html");
				IChtml2 << "<HTML><HEAD><link REL=stylesheet TYPE=text/css href=file:" +
					(string) getenv("FSLDIR") +"/doc/fsl.css>" << endl
					<< "<style type=\"text/css\">OBJECT { width: 100% }</style>"
	       	<< "<TITLE>FSL</TITLE></HEAD>" << endl
					<< "<IFRAME  height="<< int(melodat.get_numfiles()/30 + 1)*50 
					<<"px width=100% src=nav.html frameborder=0></IFRAME><p>"<< endl	
					<< "<CENTER>";
				if(cnum>1)
	  			IChtml2 << "<b><a href=\"" << string("IC_")+num2str(cnum-1)
					<<"_MM.html\">&#60;</a>&nbsp;-&nbsp;";
				else
					IChtml2 << "<b><a href=\"" << string("IC_")+num2str(melodat.get_mix().Ncols())
					<<"_MM.html\">&#60;</a>&nbsp;-&nbsp;";
			//	IChtml << "<a href=\"00index.html\">&nbsp;index&nbsp;</a>" ;
	
				if(cnum<dim)
	  			IChtml2 << "<a href=\"" << string("IC_")+num2str(cnum+1)
					<<"_MM.html\">&#62;</a>";
				else 
					IChtml2 << "<a href=\"" << string("IC_")+num2str(1)
					<<"_MM.html\">&#62;</a>";
				IChtml2 << "<p><H3>Component " << num2str(cnum)
				<< " Mixture Model fit <br></b></H3><hr><p>" << endl;
			}

      volume4D<float> tempVol; 

      if(melodat.get_IC().Storage()>0)
			{//Output raw IC map

	  		//	tempVol.setmatrix(melodat.get_IC().Row(cnum),
	  		//	  melodat.get_mask());
	  		tempVol.setmatrix(mmodel.get_data(),
			  	melodat.get_mask());
	  		volume<float> map1;
	  		volume<float> map2;
	  		map1 = threshold(tempVol[0],float(0.0), 
			   	tempVol[0].max());
	  		map2 = threshold(tempVol[0],tempVol[0].min(), 
			   	float(-0.0));

	  		volume<float> newvol; 
	  		miscpic newpic;

	  		//	float map1min = (map1 + binarise(tempVol[0],tempVol[0].min(), 
	  		//		float(0.0)) * map1.max()).robustmin();
	  		float map1max = map1.percentile(0.99);
	  		float map2min = map2.percentile(0.01);
	  		//float map2max = (map2 + binarise(tempVol[0],float(0.0), 
	  		//		tempVol[0].max()) * map2.min()).robustmax();
	
	  		newpic.overlay(newvol, melodat.get_bg(), map1, map2, 
			 		float(0.0),
			 		float(0.0),
			 		float(0.01), map1max, float(-0.01), map2min, 
			 		0, 0);

	  		char instr[10000];
       
	  		sprintf(instr," ");
	  		strcat(instr,axials_instr.c_str());
	  		strcat(instr,string(report.appendDir(mmodel.get_prefix()+
		 			".png")).c_str());
	  		newpic.set_title(string("Component No. "+num2str(cnum)+
				  " - raw Z transformed IC map (1 - 99 percentile)"));
	  		newpic.set_cbar(string("ysb"));
		
	  		newpic.slicer(newvol, instr);
			}
      IChtml2 << "<a href=\""+mmodel.get_prefix()+".html\">";
      IChtml2 << "<img BORDER=0 SRC=\""+ mmodel.get_prefix()+
				".png\"><A><p>" << endl;

      if(mmodel.get_probmap().Storage()>0&&
	 			(mmodel.get_probmap().Ncols() == mmodel.get_data().Ncols())&&
	 			(mmodel.get_probmap().Nrows() == mmodel.get_data().Nrows()))
			{//Output probmap  
	  		tempVol.setmatrix(mmodel.get_probmap(),melodat.get_mask());
	  
	  		volume<float> map;
	  		map = tempVol[0];
      
	  		volume<float> newvol; 
	  		miscpic newpic;

	  		newpic.overlay(newvol, melodat.get_bg(), map, map, 
			 		melodat.get_bg().percentile(0.02),
			 		melodat.get_bg().percentile(0.98),
			 		float(0.1), float(1.0), float(0.0), float(0.0),
			 		0, 0);

	  		char instr[10000];

	  		sprintf(instr," ");
	  		strcat(instr,"-l render1 ");
	  		strcat(instr,axials_instr.c_str());
	  		strcat(instr,string(report.appendDir(mmodel.get_prefix()+
					"_prob.png")).c_str());      
	  		newpic.set_title(string("Component No. "+num2str(cnum)+
				  " - Mixture Model probability map"));
      
	  		newpic.set_cbar(string("y"));
	  		newpic.slicer(newvol, instr); 

	  		IChtml2 << "<a href=\""+mmodel.get_prefix()+".html\">";
	  		IChtml2 << "<img BORDER=0 SRC=\""+ mmodel.get_prefix()+
	    		"_prob.png\">" << endl;
	
	  		IChtml2 << "</A><p>" << endl;
			}

			RowVector dat = mmodel.get_data().Row(1);
			if(dat.Maximum()>dat.Minimum())
      {//Output GGM/GMM fit
				miscplot newplot;

				if(mmodel.get_type()=="GGM"){
	  		newplot.add_label("IC map histogram");
	  		newplot.add_label("full GGM fit");
	  		newplot.add_label("background Gaussian");
	  		newplot.add_label("Gamma distributions");
	  		newplot.gmmfit(mmodel.get_data().Row(1),
			 		mmodel.get_means(),
			 		mmodel.get_vars(),
			 		mmodel.get_pi(),
			 		report.appendDir(mmodel.get_prefix()+"_MMfit.png"),
			 		string(mmodel.get_prefix() +
					" Gaussian/Gamma Mixture Model("+num2str(mmodel.mixtures())+") fit"),
			 		true, float(0.0), float(0.0)); 
   
			}
				else{
	  		newplot.add_label("IC map histogram");
	  		newplot.add_label("full GMM fit");
	  		newplot.add_label("individual Gaussians");
	  		newplot.gmmfit(mmodel.get_data().Row(1),
			 		mmodel.get_means(),
			 		mmodel.get_vars(),
			 		mmodel.get_pi(),
			 		report.appendDir(mmodel.get_prefix()+"_MMfit.png"),
			 		string(mmodel.get_prefix() +
					" Gaussian Mixture Model("+num2str(mmodel.mixtures())+") fit"), 
			 		false, float(0.0), float(2.0));
   
			}

			//	IChtml2 << "<A HREF=\"" +mmodel.get_prefix()+"_MMfit_detail.png\"> ";
				IChtml2 << "<img BORDER=0 SRC=\""+ mmodel.get_prefix()+
	  			"_MMfit.png\"><p>" << endl;
      } //GGM/GMM plot
      
      {//MM parameters
				IChtml2 << "<br> &nbsp;" << mmodel.get_prefix() 
					<< " Mixture Model fit <br>" << endl
					<< "<br> &nbsp; Means :  " << mmodel.get_means() << endl
					<< "<br> &nbsp;  Vars  :  " << mmodel.get_vars()  << endl
					<< "<br> &nbsp;  Prop. :  " << mmodel.get_pi()    << endl;
	    }

      { //finish IC2 page
				IChtml2<< "<HR><FONT SIZE=1>This page produced automatically by "
	       	<< "<A HREF=\"http://www.fmrib.ox.ac.uk/fsl/melodic/index.html\"> MELODIC</A> Version " 
	       	<< version << " - a part of <A HREF=\"http://www.fmrib.ox.ac.uk/fsl\">FSL - "
	       	<< "FMRIB Software Library</A>.</FONT></CENTER>" << endl
	       		<< "</BODY></HTML>" << endl;
      } //finish IC2 page
    }
  }

  void MelodicReport::IC_simplerep(string prefix, int cnum, int dim){
    if( bool(opts.genreport.value()) ){
      addlink(prefix+".html",num2str(cnum));
      IChtml.setDir(report.getDir(),prefix+".html");
      
      {//start IC page
	
				IChtml << "<HTML> " << endl
	       	<< "<TITLE>MELODIC Component " << num2str(cnum)
	       	<< "</TITLE>" << endl
	       	<< "<BODY BACKGROUND=\"file:" << getenv("FSLDIR") 
	    		<< "/doc/images/fsl-bg.jpg\">" << endl 
	     		<< "<hr><CENTER><H1>MELODIC Component " << num2str(cnum)
	       	<< "</H1>"<< endl;
	
				if(cnum>1)
	  			IChtml << "<a href=\"" << string("IC_")+num2str(cnum-1)
		 			<<".html\">previous</a>&nbsp;-&nbsp;";
	
				IChtml << "<a href=\"00index.html\">&nbsp;index&nbsp;</a>" ;
	
				if(cnum<dim)
	  			IChtml << "&nbsp;-&nbsp;<a href=\"" << string("IC_")+num2str(cnum+1)
		 				<<".html\">next</a><p>";
	
					IChtml << "<hr><p>" << endl;
      }

      volume4D<float> tempVol; 

      if(melodat.get_IC().Storage()>0)
			{//Output raw IC map

	  		tempVol.setmatrix(melodat.get_IC().Row(cnum),
			    melodat.get_mask());
	  		volume<float> map1;
	  		volume<float> map2;
	  		map1 = threshold(tempVol[0],float(0.0), 
			   	tempVol[0].max());
	  		map2 = threshold(tempVol[0],tempVol[0].min(), 
			   	float(-0.0));

	  		volume<float> newvol; 
	  		miscpic newpic;

	  		//	float map1min = (map1 + binarise(tempVol[0],tempVol[0].min(), 
	  		//		float(0.0)) * map1.max()).robustmin();
	  		float map1max = map1.percentile(0.99);
	  		float map2min = map2.percentile(0.01);
	  		//float map2max = (map2 + binarise(tempVol[0],float(0.0), 
	  		//		tempVol[0].max()) * map2.min()).robustmax();
	
	  		newpic.overlay(newvol, melodat.get_bg(), map1, map2, 
			 		float(0.0),
			 		float(0.0),
			 		float(0.01), map1max, float(-0.01), map2min, 
			 		0, 0);

	  		char instr[10000];
	
	  		sprintf(instr," ");
	  		strcat(instr,axials_instr.c_str());
	  		strcat(instr,string(report.appendDir(prefix+
					".png")).c_str());
	  		newpic.set_title(string("Component No. "+num2str(cnum)+
				  " - raw Z transformed IC map (1 - 99 percentile)"));
	  		newpic.set_cbar(string("ysb"));
	
	  		newpic.slicer(newvol, instr);
			}
     
      IChtml << "<img BORDER=0 SRC=\""+ prefix+
				".png\"><p>" << endl;
	
      {//plot time course
				miscplot newplot;
	
				if(opts.tr.value()>0.0)
	  			newplot.timeseries(melodat.get_Tmodes(cnum-1).t(),
			     	report.appendDir(string("t")+
				     	num2str(cnum)+".png"),
			     		string("Timecourse (in seconds); TR = ")+
			     		float2str(opts.tr.value(),0,2,0)+" s", 
			     		opts.tr.value(),150,4,1);
				else
	  			newplot.timeseries(melodat.get_Tmodes(cnum-1).t(),
			     	report.appendDir(string("t")+
					   	num2str(cnum)+".png"),
			     		string("Timecourse (in TRs)"));
				write_ascii_matrix(report.appendDir(string("t")
			 		+num2str(cnum)+".txt"),
			   	melodat.get_Tmodes(cnum-1));
				IChtml << "<A HREF=\"" << string("t")
	  			+num2str(cnum)+".txt" << "\"> ";
				IChtml << "<img BORDER=0 SRC=\"" 
	  			+string("t")+num2str(cnum)+".png\"></A><p>" << endl;
      }//time series plot
      
      {//plot frequency 
				miscplot newplot;
				int fact = int(std::pow(10.0,
					int(std::log10(float(melodat.get_Tmodes(0).Nrows())))));
	
				if(opts.tr.value()>0.0)
	  			newplot.timeseries(melodat.get_fmix().Column(cnum).t(),
			     	report.appendDir(string("f")+
					  num2str(cnum)+".png"),
			     	string("FFT of timecourse (in Hz / ") +
			     	num2str(fact)+")",
			     	fact/(opts.tr.value()*melodat.get_Tmodes(0).Nrows()),
			     	150,0,2);
				else
	  			newplot.timeseries(melodat.get_fmix().Column(cnum).t(),
			     	report.appendDir(string("f")+
			   		num2str(cnum)+".png"),
			     	string(string("FFT of timecourse (in cycles); ")
				    +"frequency(Hz)=cycles/("
				    +num2str(melodat.get_Tmodes(0).Nrows())
				    +"* TR); period(s)=("
				    +num2str(melodat.get_Tmodes(0).Nrows())
				    +"* TR)/cycles"));
				write_ascii_matrix(report.appendDir(string("f")
			 		+num2str(cnum)+".txt"),
			   	melodat.get_Tmodes(cnum-1));
				IChtml << "<A HREF=\"" << string("f")
	  			+num2str(cnum)+".txt" << "\"> ";
				IChtml << "<img BORDER=0 SRC=\"" 
	  			+string("f")+num2str(cnum)+".png\"></A><p>" << endl;
      }//frequency plot
 
      { //finish IC page
				IChtml<< "<HR><FONT SIZE=1>This page produced automatically by "
	      	<< "<A HREF=\"http://www.fmrib.ox.ac.uk/fsl/melodic/index.html\"> MELODIC</A> Version " 
	      	<< version << " - a part of <A HREF=\"http://www.fmrib.ox.ac.uk/fsl\">FSL - "
	      	<< "FMRIB Software Library</A>.</FONT>" << endl
	      		<< "</BODY></HTML>" << endl;
      } //finish IC page 
    } 
  }

  void MelodicReport::PPCA_rep(){
    
    {//plot time course
      report << "<p><hr><b>PCA estimates </b> <p>" << endl;
 
      Matrix what;
      miscplot newplot;

      what  = melodat.get_EV();
      what &= melodat.get_EVP();

      newplot.add_label("ordered Eigenvalues");
      newplot.add_label("% of expl. variance");

      if(melodat.get_PPCA().Storage()>0){
				what = what.Columns(1,melodat.get_PPCA().Nrows());
				if(opts.allPPCA.value()&&melodat.get_PPCA().Ncols()==7){
					what &= melodat.get_PPCA().Columns(3,7).t();
					newplot.add_label("Laplace");
					newplot.add_label("BIC");
					newplot.add_label("MDL");
					newplot.add_label("RRN");
					newplot.add_label("AIC");
				}else{
					what &= melodat.get_PPCA().Column(1).t();
					newplot.add_label("dim. estimate");
				}
      }
			
			newplot.set_Ylabel_fmt("%.2f");
			newplot.add_xlabel("Number of included components");
			newplot.set_yrange(0.0,1.02);
      newplot.grid_swapdefault();
      newplot.timeseries(what,
			 	report.appendDir("EVplot.png"),
			 	string("Eigenspectrum Analysis"), 
			 	0,450,4,0);

      report << "<img BORDER=0 SRC=\"EVplot.png\"><p>" << endl;
    }//time series plot
  }
	
	void MelodicReport::Smode_rep(){
	  if(melodat.get_Smodes().size()>0){
		report << "<p><hr><b>TICA Subject/Session modes </b> <br>" << endl;
		miscplot newplot;
		report << "Boxplots show the relative response amplitudes across the "
			<< "session/subject domain (" << melodat.get_numfiles() 
			<< " input files). Components have been sorted in decreasing order of "
			<< " the median response per component. <br><br>";
			
		outMsize("Smode.at(0)", melodat.get_Smodes().at(0));
		Matrix allmodes = melodat.get_Smodes().at(0);
		for(int ctr = 1; ctr < (int)melodat.get_Smodes().size();++ctr)
			allmodes |= melodat.get_Smodes().at(ctr);
	
		outMsize("allmodes", allmodes);
		newplot.add_xlabel("Component No.");
		newplot.add_ylabel("");
		if(allmodes.Ncols()<100)
			newplot.set_xysize(100+30*allmodes.Ncols(),300);
		else
			newplot.set_xysize(1200,300);
		newplot.boxplot(allmodes,report.appendDir(string("bp_Smodes.png")),
  			string("Subject/Session modes"));
  		report << "<img BORDER=0 SRC=\"bp_Smodes.png\"><p>" << endl;
      }
	}
}