// @(#)root/treeviewer:$Id: TParallelCoordRange.cxx 20882 2007-11-19 11:31:26Z rdm $
// Author: Bastien Dalla Piazza  02/08/2007

/*************************************************************************
 * Copyright (C) 1995-2007, Rene Brun and Fons Rademakers.               *
 * All rights reserved.                                                  *
 *                                                                       *
 * For the licensing terms see $ROOTSYS/LICENSE.                         *
 * For the list of contributors see $ROOTSYS/README/CREDITS.             *
 *************************************************************************/

#include "TParallelCoordRange.h"
#include "TParallelCoord.h"
#include "TParallelCoordVar.h"

#include "TBox.h"
#include "TPolyLine.h"
#include "TList.h"
#include "TVirtualPad.h"
#include "TVirtualX.h"
#include "TPoint.h"
#include "TFrame.h"
#include "Riostream.h"
#include "TCanvas.h"
#include "TString.h"

ClassImp(TParallelCoordRange)

//////////////////////////////////////////////////////////////////////////
//                                                                      //
// TParallelCoordRange                                                  //
//                                                                      //
// A TParallelCoordRange is a range used for parallel                   //
// coordinates plots.                                                   //
//                                                                      //
//////////////////////////////////////////////////////////////////////////


//______________________________________________________________________________
TParallelCoordRange::TParallelCoordRange()
   :TNamed("Range","Range"), TAttLine(), fSize(0.01)
{
   // default constructor.

   fMin = 0;
   fMax = 0;
   fVar = NULL;
   fSelect = NULL;
   SetBit(kShowOnPad,kTRUE);
   SetBit(kLiveUpdate,kFALSE);
}


//______________________________________________________________________________
TParallelCoordRange::~TParallelCoordRange()
{
   // Destructor.
}


//______________________________________________________________________________
TParallelCoordRange::TParallelCoordRange(TParallelCoordVar *var, Double_t min, Double_t max, TParallelCoordSelect *sel)
   :TNamed("Range","Range"), TAttLine(1,1,1), fSize(0.01)
{
   // Normal constructor.

   if(min == max) {
      min = var->GetCurrentMin();
      max = var->GetCurrentMax();
   }
   fMin = min;
   fMax = max;
   
   fVar = var;
   if (!sel) fSelect = var->GetParallel()->GetCurrentSelection();
   else fSelect = sel;
   
   SetLineColor(fSelect->GetLineColor());
   
   SetBit(kShowOnPad,kTRUE);
   SetBit(kLiveUpdate,var->GetParallel()->TestBit(TParallelCoord::kLiveUpdate));
}


//______________________________________________________________________________
void TParallelCoordRange::BringOnTop()
{
   // Make the selection which owns the range to be drawn on top of the others.

   TList *list = fVar->GetParallel()->GetSelectList();
   list->Remove(fSelect);
   list->AddLast(fSelect);
   gPad->Update();
}


//______________________________________________________________________________
void TParallelCoordRange::Delete(const Option_t* /*options*/)
{
   // Delete the range.

   fVar->GetRanges()->Remove(this);
   fVar->GetParallel()->CleanUpSelections(this);
   delete this;
}


//______________________________________________________________________________
Int_t TParallelCoordRange::DistancetoPrimitive(Int_t px, Int_t py)
{
   // Compute the distance to the primitive.
   
   if(TestBit(kShowOnPad)){
      Double_t xx,yy,thisx,thisy;
      xx = gPad->AbsPixeltoX(px);
      yy = gPad->AbsPixeltoY(py);
      fVar->GetXYfromValue(fMin,thisx,thisy);
      Int_t dist = 9999;
      if(fVar->GetVert()){
         if(xx > thisx-2*fSize && xx < thisx && yy > thisy-fSize && yy<thisy+fSize) dist = 0;
         fVar->GetXYfromValue(fMax,thisx,thisy);
         if(xx > thisx-2*fSize && xx < thisx && yy > thisy-fSize && yy<thisy+fSize) dist = 0;
      } else {
         if(yy > thisy-2*fSize && yy < thisy && xx > thisx-fSize && xx<thisx+fSize) dist = 0;
         fVar->GetXYfromValue(fMax,thisx,thisy);
         if(yy > thisy-2*fSize && yy < thisy && xx > thisx-fSize && xx<thisx+fSize) dist = 0;
      }
      return dist;
   } else return 9999;
}


//______________________________________________________________________________
void TParallelCoordRange::Draw(Option_t* options)
{
   // Draw a TParallelCoordRange.

   AppendPad(options);
}


//______________________________________________________________________________
void TParallelCoordRange::ExecuteEvent(Int_t entry, Int_t px, Int_t py)
{
   // Execute the entry.

   if (!gPad) return;
   if (!gPad->IsEditable() && entry!=kMouseEnter) return;
   
   Bool_t vert = fVar->GetVert();
   static Int_t pxold, pyold;
   static Int_t mindragged = -1; //-1:nothing dragged, 0:max dragged, 1:mindragged, 2:both dragged;
   Int_t plx1,plx2,ply1,ply2;
   
   Double_t xx,yy,txxmin,txxmax,tyymin,tyymax;
   TFrame *frame = gPad->GetFrame();
   xx = gPad->AbsPixeltoX(px);
   yy = gPad->AbsPixeltoY(py);
   fVar->GetXYfromValue(fMin,txxmin,tyymin);
   fVar->GetXYfromValue(fMax,txxmax,tyymax);
   if (vert) {
      plx1 = gPad->XtoAbsPixel(txxmin-2*fSize);
      plx2 = gPad->XtoAbsPixel(txxmax-2*fSize);
      ply1 = gPad->YtoAbsPixel(tyymin+fSize);
      ply2 = gPad->YtoAbsPixel(tyymax-fSize);
   } else {
      plx1 = gPad->XtoAbsPixel(txxmin+fSize);
      plx2 = gPad->XtoAbsPixel(txxmax-fSize);
      ply1 = gPad->YtoAbsPixel(tyymin-2*fSize);
      ply2 = gPad->YtoAbsPixel(tyymax-2*fSize);
   }
   
   gPad->SetCursor(kPointer);
   gVirtualX->SetLineColor(-1);
   gVirtualX->SetLineWidth(1);
   TPoint *p = NULL;
   switch (entry) {
      case kButton1Down:
         fVar->GetParallel()->SetCurrentSelection(fSelect);
         ((TCanvas*)gPad)->Selected(gPad,fVar->GetParallel(),1);
         if ((vert && yy<tyymax-fSize) || (!vert && xx < txxmax-fSize)) {     //checks if the min slider is clicked.
            mindragged = 1;
            p = GetSliderPoints(fMin);
            gVirtualX->DrawPolyLine(5,p);
            delete [] p;
         } else {
            mindragged = 0;
            p = GetSliderPoints(fMax);
            gVirtualX->DrawPolyLine(5,p);
            delete [] p;
         }
         gVirtualX->DrawLine(plx1,ply1,plx2,ply2);
         break;
      case kButton1Up: {
         Double_t min = fMin, max= fMax;
         if (mindragged == 1) min = fVar->GetValuefromXY(xx,yy);
         if (mindragged == 0) max = fVar->GetValuefromXY(xx,yy);
         if(fMin!=min || fMax != max) {
            if (min>max) {
               Double_t mem = min;
               min = max;
               max = mem;
            }
            fMin = min;
            fMax = max;
            gPad->Modified();
         }
         mindragged = -1;
         break;
      }
      case kMouseMotion:
         pxold = px;
         pyold = py;
         break;
      /*case  7: // == Button1Down + shift
         mindragged = 2;
         if ((vert && yy<tyymax-fSize) || (!vert && xx < txxmax-fSize)) mouseonmin = kTRUE;    //checks if the min slider is clicked.
         else mouseonmin = kFALSE;
         p = GetSliderPoints(fMin);
         gVirtualX->DrawPolyLine(5,p);
         p = GetSliderPoints(fMax);
         gVirtualX->DrawPolyLine(5,p);
         gVirtualX->DrawLine(plx1,ply1,plx2,ply2);
         if (vert) pminmax = gPad->YtoAbsPixel(tyymax-tyymin);
         else pminmax = gPad->XtoAbsPixel(txxmax-txxmin);
         break;
      case 8: // == Button1Motion + shift
         if((vert && yy > frame->GetY1() && yy < frame->GetY2()) ||
            (!vert && xx > frame->GetX1() && xx < frame->GetX2())){
            if (vert) p = GetSliderPoints(pyold);
            else      p = GetSliderPoints(pxold);
            gVirtualX->DrawPolyLine(5,p);
            delete [] p;
            if (vert) p = GetBindingLinePoints(pyold,mindragged);
            else p = GetBindingLinePoints(pxold,mindragged);
            gVirtualX->DrawPolyLine(2,p);
            delete [] p;
            if (mouseonmin) {
               if (vert) p = GetSliderPoints(pyold+pminmax);
               else      p = GetSliderPoints(pxold+pminmax);
               gVirtualX->DrawPolyLine(5,p);
               delete [] p;
            } else {
               if (vert) p = GetSliderPoints(pyold-pminmax);
               else      p = GetSliderPoints(pxold-pminmax);
               gVirtualX->DrawPolyLine(5,p);
               delete [] p;
            }
            if (vert) p = GetSliderPoints(py);
            else      p = GetSliderPoints(px);
            gVirtualX->DrawPolyLine(5,p);
            delete [] p;
            if (vert) p = GetBindingLinePoints(py,mindragged);
            else p = GetBindingLinePoints(px,mindragged);
            gVirtualX->DrawPolyLine(2,p);
            delete [] p;
            if (mouseonmin) {
               if (vert) p = GetSliderPoints(py+pminmax);
               else      p = GetSliderPoints(px+pminmax);
               gVirtualX->DrawPolyLine(5,p);
               delete [] p;
            } else {
               if (vert) p = GetSliderPoints(py-pminmax);
               else      p = GetSliderPoints(px-pminmax);
               gVirtualX->DrawPolyLine(5,p);
               delete [] p;
            }
         }
         pxold = px;
         pyold = py;
         break*/;
      case kButton1Motion:
         if((vert && yy > frame->GetY1() && yy < frame->GetY2()) ||
            (!vert && xx > frame->GetX1() && xx < frame->GetX2())){
            if (vert) p = GetSliderPoints(pyold);
            else      p = GetSliderPoints(pxold);
            gVirtualX->DrawPolyLine(5,p);
            delete [] p;
            if (vert) p = GetBindingLinePoints(pyold,mindragged);
            else p = GetBindingLinePoints(pxold,mindragged);
            gVirtualX->DrawPolyLine(2,p);
            delete [] p;
            if (vert) p = GetSliderPoints(py);
            else      p = GetSliderPoints(px);
            gVirtualX->DrawPolyLine(5,p);
            delete [] p;
            if (vert) p = GetBindingLinePoints(py,mindragged);
            else p = GetBindingLinePoints(px,mindragged);
            gVirtualX->DrawPolyLine(2,p);
            delete [] p;
            if (TestBit(kLiveUpdate)){
               Double_t min = fMin, max= fMax;
               if (mindragged == 1) min = fVar->GetValuefromXY(xx,yy);
               if (mindragged == 0) max = fVar->GetValuefromXY(xx,yy);
               if(fMin!=min || fMax != max) {
                  if (min>max) {
                     Double_t mem = min;
                     min = max;
                     max = mem;
                  }
                  fMin = min;
                  fMax = max;
                  gPad->Modified();
                  gPad->Update();
               }
            }
         }
         pxold = px;
         pyold = py;
         break;
      default:
         //cout<<"entry: "<<entry<<endl;
         break;
   }
}


//______________________________________________________________________________
TPoint* TParallelCoordRange::GetBindingLinePoints(Int_t pos,Int_t mindragged)
{
   // return the points of the line binding the two niddles of the range.

   Double_t txx,tyy,txxo,tyyo;
   if (fVar->GetVert()){
      txx = fVar->GetX();
      tyy = gPad->AbsPixeltoY(pos);
   } else {
      tyy = fVar->GetY();
      txx = gPad->AbsPixeltoX(pos);
   }
   if (mindragged==1) fVar->GetXYfromValue(fMax,txxo,tyyo);
   else fVar->GetXYfromValue(fMin,txxo,tyyo);
   
   TPoint *bindline = new TPoint[2];
   if (fVar->GetVert()) {
      if (mindragged==1) {
         bindline[0] = TPoint(gPad->XtoAbsPixel(txx-2*fSize),gPad->YtoAbsPixel(tyy+fSize));
         bindline[1] = TPoint(gPad->XtoAbsPixel(txx-2*fSize),gPad->YtoAbsPixel(tyyo-fSize));
      } else {
         bindline[0] = TPoint(gPad->XtoAbsPixel(txx-2*fSize),gPad->YtoAbsPixel(tyyo+fSize));
         bindline[1] = TPoint(gPad->XtoAbsPixel(txx-2*fSize),gPad->YtoAbsPixel(tyy-fSize));
      }
   } else {
      if (mindragged==1) {
         bindline[0] = TPoint(gPad->XtoAbsPixel(txx+fSize),gPad->YtoAbsPixel(tyy-2*fSize));
         bindline[1] = TPoint(gPad->XtoAbsPixel(txxo-fSize),gPad->YtoAbsPixel(tyy-2*fSize));
      } else {
         bindline[0] = TPoint(gPad->XtoAbsPixel(txxo+fSize),gPad->YtoAbsPixel(tyy-2*fSize));
         bindline[1] = TPoint(gPad->XtoAbsPixel(txx-fSize),gPad->YtoAbsPixel(tyy-2*fSize));
      }
   }
   return bindline;
}


//______________________________________________________________________________
TPoint* TParallelCoordRange::GetSliderPoints(Double_t value)
{
   // return the points to paint the niddle at "value".

   Double_t txx,tyy;
   fVar->GetXYfromValue(value,txx,tyy);
   Int_t tx[5];
   Int_t ty[5];
   if (fVar->GetVert()) {
      tx[0]=gPad->XtoAbsPixel(txx);
      tx[1]=tx[4]=gPad->XtoAbsPixel(txx-fSize);
      ty[0]=ty[1]=ty[4]=gPad->YtoAbsPixel(tyy);
      tx[2]=tx[3]=gPad->XtoAbsPixel(txx-2*fSize);
      ty[2]=gPad->YtoAbsPixel(tyy+fSize);
      ty[3]=gPad->YtoAbsPixel(tyy-fSize);
   } else {
      ty[0]=gPad->YtoAbsPixel(tyy);
      ty[1]=ty[4]=gPad->YtoAbsPixel(tyy-fSize);
      tx[0]=tx[1]=tx[4]=gPad->XtoAbsPixel(txx);
      ty[2]=ty[3]=gPad->YtoAbsPixel(tyy-2*fSize);
      tx[2]=gPad->XtoAbsPixel(txx-fSize);
      tx[3]=gPad->XtoAbsPixel(txx+fSize);
   }
   TPoint *slider = new TPoint[5];
   for(UInt_t ui=0;ui<5;++ui) slider[ui] = TPoint(tx[ui],ty[ui]);
   return slider;
}


//______________________________________________________________________________
TPoint* TParallelCoordRange::GetSliderPoints(Int_t pos)
{
   //  return the points to paint the niddle at "pos".

   Double_t txx,tyy;
   if (fVar->GetVert()){
      txx = fVar->GetX();
      tyy = gPad->AbsPixeltoY(pos);
   } else {
      tyy = fVar->GetY();
      txx = gPad->AbsPixeltoX(pos);
   }
   
   Int_t tx[5];
   Int_t ty[5];
   if (fVar->GetVert()) {
      tx[0]=gPad->XtoAbsPixel(txx);
      tx[1]=tx[4]=gPad->XtoAbsPixel(txx-fSize);
      ty[0]=ty[1]=ty[4]=gPad->YtoAbsPixel(tyy);
      tx[2]=tx[3]=gPad->XtoAbsPixel(txx-2*fSize);
      ty[2]=gPad->YtoAbsPixel(tyy+fSize);
      ty[3]=gPad->YtoAbsPixel(tyy-fSize);
   } else {
      ty[0]=gPad->YtoAbsPixel(tyy);
      ty[1]=ty[4]=gPad->YtoAbsPixel(tyy-fSize);
      tx[0]=tx[1]=tx[4]=gPad->XtoAbsPixel(txx);
      ty[2]=ty[3]=gPad->YtoAbsPixel(tyy-2*fSize);
      tx[2]=gPad->XtoAbsPixel(txx-fSize);
      tx[3]=gPad->XtoAbsPixel(txx+fSize);
   }
   TPoint *slider = new TPoint[5];
   for(UInt_t ui=0;ui<5;++ui) slider[ui] = TPoint(tx[ui],ty[ui]);
   return slider;
}


//______________________________________________________________________________
Bool_t TParallelCoordRange::IsIn(Double_t evtval)
{
   // Evaluate if the given value is within the range or not.

   return evtval>=fMin && evtval<=fMax;
}


//______________________________________________________________________________
void TParallelCoordRange::Paint(Option_t* /*options*/)
{
   // Paint a TParallelCoordRange

   if(TestBit(kShowOnPad)){
      PaintSlider(fMin,kTRUE);
      PaintSlider(fMax,kTRUE);
   }
}


//______________________________________________________________________________
void TParallelCoordRange::PaintSlider(Double_t value, Bool_t fill)
{
   // Paint a slider.
   
   SetLineColor(fSelect->GetLineColor());
   
   TPolyLine *p= new TPolyLine();
   p->SetLineStyle(1);
   p->SetLineColor(1);
   p->SetLineWidth(1);
   
   Double_t *x = new Double_t[5];
   Double_t *y = new Double_t[5];
   
   Double_t xx,yy;
   
   fVar->GetXYfromValue(value,xx,yy);
   if(fVar->GetVert()){
      x[0] = xx; x[1]=x[4]=xx-fSize; x[2]=x[3]=xx-2*fSize;
      y[0]=y[1]=y[4]=yy; y[2] = yy+fSize; y[3] = yy-fSize;
   } else {
      y[0] = yy; y[1]=y[4]=yy-fSize; y[2]=y[3]= yy-2*fSize;
      x[0]=x[1]=x[4]=xx; x[2]=xx-fSize; x[3] = xx+fSize;
   }
   if (fill) {     
      p->SetFillStyle(1001);
      p->SetFillColor(0);
      p->PaintPolyLine(4,&x[1],&y[1],"f");
      p->SetFillColor(GetLineColor());
      p->SetFillStyle(3001);
      p->PaintPolyLine(4,&x[1],&y[1],"f");
   }
   p->PaintPolyLine(5,x,y);
   
   delete p;
   delete [] x;
   delete [] y;
}


//______________________________________________________________________________
void TParallelCoordRange::Print(Option_t* /*options*/) const
{
   // Print info about the range.
   
   printf("On \"%s\" : min = %f, max = %f\n", fVar->GetTitle(), fMin, fMax);
}


//______________________________________________________________________________
void TParallelCoordRange::SendToBack()
{
   // Make the selection which owns the range to be drawn under all the others.

   TList *list = fVar->GetParallel()->GetSelectList();
   list->Remove(fSelect);
   list->AddFirst(fSelect);
   gPad->Update();
}


//______________________________________________________________________________
void  TParallelCoordRange::SetLineColor(Color_t col)
{
   // Set the selection line color.

   fSelect->SetLineColor(col);
   TAttLine::SetLineColor(col);
}


//______________________________________________________________________________
void  TParallelCoordRange::SetLineWidth(Width_t wid)
{
   // Set the selection line width.

   fSelect->SetLineWidth(wid);
}


ClassImp(TParallelCoordSelect)
//______________________________________________________________________________
/* Begin_Html
<center><h2>Selections:</h2></center>
<p>
A TParallelCoordSelect is a specialised TList to hold TParallelCoordRanges used by TParallelCoord.
<p>
Selections of specific entries can be defined over the data se using parallel coordinates. With that representation, a selection is an ensemble of ranges defined on the axes. Ranges defined on the same axis are conjugated with OR (an entry must be in one or the other ranges to be selected). Ranges on different axes are are conjugated with AND (an entry must be in all the ranges to be selected). Several selections can be defined with different colors. It is possible to generate an entry list from a given selection and apply it to the tree using the editor ("Apply to tree" button).
End_Html
*/


//______________________________________________________________________________
TParallelCoordSelect::TParallelCoordSelect()
   : TList(), TAttLine(kBlue,1,1)
{
   // Default constructor.
   
   fTitle = "Selection";
   SetBit(kActivated,kTRUE);
   SetBit(kShowRanges,kTRUE);
}


//______________________________________________________________________________
TParallelCoordSelect::TParallelCoordSelect(const char* title)
   : TList(), TAttLine(kBlue,1,1)
{
   // Normal constructor.
   
   fTitle = title;
   SetBit(kActivated,kTRUE);
   SetBit(kShowRanges,kTRUE);
}


//______________________________________________________________________________
TParallelCoordSelect::~TParallelCoordSelect()
{
   // Destructor.

   TIter next(this);
   TParallelCoordRange* range;
   while ((range = (TParallelCoordRange*)next())) range->GetVar()->GetRanges()->Remove(range);
   TList::Delete();
}


//______________________________________________________________________________
void TParallelCoordSelect::SetActivated(Bool_t on)
{
   // Activate the selection.

   TIter next(this);
   TParallelCoordRange* range;
   while ((range = (TParallelCoordRange*)next())) range->SetBit(TParallelCoordRange::kShowOnPad,on);
   SetBit(kActivated,on);
}


//______________________________________________________________________________
void TParallelCoordSelect::SetShowRanges(Bool_t s)
{
   // Show the ranges niddles.

   TIter next(this);
   TParallelCoordRange* range;
   while ((range = (TParallelCoordRange*)next())) range->SetBit(TParallelCoordRange::kShowOnPad,s);
   SetBit(kShowRanges,s);
}

Last update: Thu Jan 17 09:00:58 2008

This page has been automatically generated. If you have any comments or suggestions about the page layout send a mail to ROOT support, or contact the developers with any questions or problems regarding ROOT.