doc/v610/TEveCaloLegoGL_8cxx_source.html

 // @(#)root/eve:$Id$
 // Author: Alja Mrak-Tadel 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 "TAxis.h"
 #include "TH2.h"
 #include "THLimitsFinder.h"

 #include "TGLViewer.h"
 #include "TGLIncludes.h"
 #include "TGLPhysicalShape.h"
 #include "TGLRnrCtx.h"
 #include "TGLSelectRecord.h"
 #include "TGLScene.h"
 #include "TGLCamera.h"
 #include "TGLUtil.h"
 #include "TColor.h"
 #include "TROOT.h"


 #include "TEveCaloLegoGL.h"
 #include "TEveCalo.h"
 #include "TEveManager.h"
 #include "TEveRGBAPalette.h"

 #include <algorithm>

 /** \class TEveCaloLegoGL
 \ingroup TEve
 OpenGL renderer class for TEveCaloLego.
 */

 ClassImp(TEveCaloLegoGL);

 ////////////////////////////////////////////////////////////////////////////////
 /// Constructor.

 TEveCaloLegoGL::TEveCaloLegoGL() :
    TGLObject(),

    fGridColor(-1),
    fFontColor(-1),

    fEtaAxis(0),
    fPhiAxis(0),
    fZAxis(0),
    fM(0),
    fDLCacheOK(kFALSE),
    fMaxVal(0),
    fValToPixel(0),
    fCurrentPixelsPerBin(0),
    fCells3D(kTRUE),
    fBinStep(-1)
 {
    fDLCache = kFALSE;

    fEtaAxis = new TAxis();
    fPhiAxis = new TAxis();
    fZAxis   = new TAxis();

    fAxisPainter.SetFontMode(TGLFont::kPixmap);
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Destructor.

 TEveCaloLegoGL::~TEveCaloLegoGL()
 {
    DLCachePurge();

    delete fEtaAxis;
    delete fPhiAxis;
    delete fZAxis;
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Set model object.

 Bool_t TEveCaloLegoGL::SetModel(TObject* obj, const Option_t* /*opt*/)
 {
    fM = SetModelDynCast<TEveCaloLego>(obj);
    return kTRUE;
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Set bounding box.

 void TEveCaloLegoGL::SetBBox()
 {
    SetAxisAlignedBBox(((TEveCaloLego*)fExternalObj)->AssertBBox());
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Drop all display-list definitions.

 void TEveCaloLegoGL::DLCacheDrop()
 {
    fDLCacheOK = kFALSE;
    for (SliceDLMap_i i = fDLMap.begin(); i != fDLMap.end(); ++i)
       i->second = 0;

    TGLObject::DLCacheDrop();
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Unregister all display-lists.

 void TEveCaloLegoGL::DLCachePurge()
 {
    // all lego cells
    fDLCacheOK = kFALSE;
    if (! fDLMap.empty()) {
       for (SliceDLMap_i i = fDLMap.begin(); i != fDLMap.end(); ++i) {
          if (i->second) {
             PurgeDLRange(i->second, 1);
             i->second = 0;
          }
       }
    }
    TGLObject::DLCachePurge();
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Draw an axis-aligned box using quads.
 /// ~~~ {.cpp}
 ///    z
 ///    |
 ///    |
 ///    |________y
 ///   /  6-------7
 ///  /  /|      /|
 /// x  5-------4 |
 ///    | 2-----|-3
 ///    |/      |/
 ///    1-------0
 /// ~~~

 void TEveCaloLegoGL::MakeQuad(Float_t x1, Float_t y1, Float_t z1,
       Float_t xw, Float_t yw, Float_t h) const
 {
    Float_t x2 = x1 + xw;
    Float_t y2 = y1 + yw;
    Float_t z2 = z1 + h;

    if (x1 < fM->GetEtaMin()) x1 = fM->GetEtaMin();
    if (x2 > fM->GetEtaMax()) x2 = fM->GetEtaMax();

    if (y1 < fM->GetPhiMin()) y1 = fM->GetPhiMin();
    if (y2 > fM->GetPhiMax()) y2 = fM->GetPhiMax();

    glBegin(GL_QUADS);
    {
       // bottom 0123
       glNormal3f(0, 0, -1);
       glVertex3f(x2, y2, z1);
       glVertex3f(x2, y1, z1);
       glVertex3f(x1, y1, z1);
       glVertex3f(x1, y2, z1);
       // top 4765
       glNormal3f(0, 0, 1);
       glVertex3f(x2, y2, z2);
       glVertex3f(x1, y2, z2);
       glVertex3f(x1, y1, z2);
       glVertex3f(x2, y1, z2);

       // back 0451
       glNormal3f(1, 0, 0);
       glVertex3f(x2, y2, z1);
       glVertex3f(x2, y2, z2);
       glVertex3f(x2, y1, z2);
       glVertex3f(x2, y1, z1);
       // front 3267
       glNormal3f(-1, 0, 0);
       glVertex3f(x1, y2, z1);
       glVertex3f(x1, y1, z1);
       glVertex3f(x1, y1, z2);
       glVertex3f(x1, y2, z2);

       // left  0374
       glNormal3f(0, 1, 0);
       glVertex3f(x2, y2, z1);
       glVertex3f(x1, y2, z1);
       glVertex3f(x1, y2, z2);
       glVertex3f(x2, y2, z2);
       // right 1562
       glNormal3f(0, -1, 0);
       glVertex3f(x2, y1, z1);
       glVertex3f(x2, y1, z2);
       glVertex3f(x1, y1, z2);
       glVertex3f(x1, y1, z1);
    }
    glEnd();
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Create display-list that draws histogram bars for non-rebinned data.
 /// It is used for filled and outline passes.

 void TEveCaloLegoGL::Make3DDisplayList(TEveCaloData::vCellId_t& cellList, SliceDLMap_t& dlMap, Bool_t selection) const
 {
    TEveCaloData::CellData_t cellData;
    Int_t   prevTower = 0;
    Float_t offset = 0;

    // ids in eta phi rng
    Int_t nSlices = fM->fData->GetNSlices();
    for (Int_t s = 0; s < nSlices; ++s)
    {
       if (dlMap.empty() || dlMap[s] == 0)
          dlMap[s] = glGenLists(1);

       glNewList(dlMap[s], GL_COMPILE);

       for (UInt_t i = 0; i < cellList.size(); ++i)
       {
          if (cellList[i].fSlice > s) continue;
          if (cellList[i].fTower != prevTower) {
             offset = 0;
             prevTower = cellList[i].fTower;
          }

          fM->fData->GetCellData(cellList[i], cellData);
          if (s == cellList[i].fSlice)
          {
             if (selection) glLoadName(i);

             WrapTwoPi(cellData.fPhiMin, cellData.fPhiMax);
             MakeQuad(cellData.EtaMin(), cellData.PhiMin(), offset,
                      cellData.EtaDelta(), cellData.PhiDelta(), cellData.Value(fM->fPlotEt));
          }
          offset += cellData.Value(fM->fPlotEt);
       }
       glEndList();
    }
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Create display-list that draws histogram bars for rebinned data.
 /// It is used for filled and outline passes.

 void TEveCaloLegoGL::Make3DDisplayListRebin(TEveCaloData::RebinData_t& rebinData, SliceDLMap_t& dlMap, Bool_t selection) const
 {
    Int_t nSlices = fM->fData->GetNSlices();
    Float_t *vals;
    Float_t offset;
    Float_t y0, y1;

    for (Int_t s = 0; s < nSlices; ++s)
    {
       if (dlMap.empty() || dlMap[s] == 0)
          dlMap[s] = glGenLists(1);

       glNewList(dlMap[s], GL_COMPILE);

       for (Int_t i = 1; i <= fEtaAxis->GetNbins(); ++i)
       {
          for (Int_t j = 1; j <= fPhiAxis->GetNbins(); ++j)
          {
             const Int_t bin = (i)+(j)*(fEtaAxis->GetNbins()+2);

             if (rebinData.fBinData[bin] !=-1)
             {
                vals = rebinData.GetSliceVals(bin);
                offset =0;
                for (Int_t t = 0; t < s; ++t)
                   offset += vals[t];

                y0 = fPhiAxis->GetBinLowEdge(j);
                y1 = fPhiAxis->GetBinUpEdge(j);
                WrapTwoPi(y0, y1);

                if (selection) glLoadName(bin);

                MakeQuad(fEtaAxis->GetBinLowEdge(i), y0, offset,
                         fEtaAxis->GetBinWidth(i), y1-y0, vals[s]);
             }
          }
       }
       glEndList();
    }
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Set the axis 3D title position.

 void TEveCaloLegoGL::SetAxis3DTitlePos(TGLRnrCtx &rnrCtx, Float_t x0, Float_t x1, Float_t y0, Float_t y1) const
 {
    const GLdouble *pm = rnrCtx.RefCamera().RefLastNoPickProjM().CArr();
    GLdouble mm[16];
    GLint    vp[4];
    glGetDoublev(GL_MODELVIEW_MATRIX,  mm);
    glGetIntegerv(GL_VIEWPORT, vp);
    GLdouble projX[4], projY[4], projZ[4];

    GLdouble cornerX[4];
    GLdouble cornerY[4];
    cornerX[0] = x0; cornerY[0] = y0;
    cornerX[1] = x1; cornerY[1] = y0;
    cornerX[2] = x1; cornerY[2] = y1;
    cornerX[3] = x0; cornerY[3] = y1;

    gluProject(cornerX[0], cornerY[0], 0, mm, pm, vp, &projX[0], &projY[0], &projZ[0]);
    gluProject(cornerX[1], cornerY[1], 0, mm, pm, vp, &projX[1], &projY[1], &projZ[1]);
    gluProject(cornerX[2], cornerY[2], 0, mm, pm, vp, &projX[2], &projY[2], &projZ[2]);
    gluProject(cornerX[3], cornerY[3], 0, mm, pm, vp, &projX[3], &projY[3], &projZ[3]);


    // Z axis location (left most corner)
    //
    Int_t idxLeft = 0;
    Float_t xt = projX[0];
    for (Int_t i = 1; i < 4; ++i) {
       if (projX[i] < xt) {
          xt  = projX[i];
          idxLeft = i;
       }
    }
    fZAxisTitlePos.Set(cornerX[idxLeft], cornerY[idxLeft], 1.05 * fMaxVal);


    // XY axis location (closest to eye) first
    //
    Float_t zt = 1.f;
    Float_t zMin = 0.f;
    Int_t idxFront = 0;
    for (Int_t i = 0; i < 4; ++i) {
       if (projZ[i] < zt) {
          zt  = projZ[i];
          idxFront = i;
       }
       if (projZ[i] > zMin) zMin = projZ[i];
    }


    Int_t xyIdx = idxFront;
    if (zMin - zt < 1e-2) xyIdx = 0; // avoid flipping in front view


    switch (xyIdx) {
       case 0:
          fXAxisTitlePos.fX = x1;
          fXAxisTitlePos.fY = y0;
          fYAxisTitlePos.fX = x0;
          fYAxisTitlePos.fY = y1;
          break;
       case 1:
          fXAxisTitlePos.fX = x0;
          fXAxisTitlePos.fY = y0;
          fYAxisTitlePos.fX = x1;
          fYAxisTitlePos.fY = y1;
          break;
       case 2:
          fXAxisTitlePos.fX = x0;
          fXAxisTitlePos.fY = y1;
          fYAxisTitlePos.fX = x1;
          fYAxisTitlePos.fY = y0;
          break;
       case 3:
          fXAxisTitlePos.fX = x1;
          fXAxisTitlePos.fY = y1;
          fYAxisTitlePos.fX = x0;
          fYAxisTitlePos.fY = y0;
          break;
    }

    // move title 5% over the axis length
    Float_t off = 0.05;
    Float_t tOffX = (x1-x0) * off; if (fYAxisTitlePos.fX > x0) tOffX = -tOffX;
    Float_t tOffY = (y1-y0) * off; if (fXAxisTitlePos.fY > y0) tOffY = -tOffY;
    fXAxisTitlePos.fX += tOffX;
    fYAxisTitlePos.fY += tOffY;


    // frame box
    //
    if (fM->fBoxMode)
    {
       // get corner closest to eye excluding left corner
       Double_t zm = 1.f;
       Int_t idxDepthT = 0;
       for (Int_t i = 0; i < 4; ++i)
       {
          if (projZ[i] < zm && projZ[i] >= zt && i != idxFront )
          {
             zm  = projZ[i];
             idxDepthT = i;
          }
       }
       if (idxFront == idxLeft)  idxFront =idxDepthT;

       switch (idxFront)
       {
          case 0:
             fBackPlaneXConst[0].Set(x1, y0, 0); fBackPlaneXConst[1].Set(x1, y1, 0);
             fBackPlaneYConst[0].Set(x0, y1, 0); fBackPlaneYConst[1].Set(x1, y1, 0);
             break;
          case 1:
             fBackPlaneXConst[0].Set(x0, y0, 0); fBackPlaneXConst[1].Set(x0, y1, 0);
             fBackPlaneYConst[0].Set(x0, y1, 0); fBackPlaneYConst[1].Set(x1, y1, 0);
             break;
          case 2:
             fBackPlaneXConst[0].Set(x0, y0, 0); fBackPlaneXConst[1].Set(x0, y1, 0);
             fBackPlaneYConst[0].Set(x0, y0, 0); fBackPlaneYConst[1].Set(x1, y0, 0);
             break;
          case 3:
             fBackPlaneXConst[0].Set(x1, y0, 0); fBackPlaneXConst[1].Set(x1, y1, 0);
             fBackPlaneYConst[0].Set(x0, y0, 0); fBackPlaneYConst[1].Set(x1, y0, 0);
             break;
       }
    }
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Draw z-axis and z-box at the appropriate grid corner-point including
 /// tick-marks and labels.

 void TEveCaloLegoGL::DrawAxis3D(TGLRnrCtx & rnrCtx) const
 {
    // set font size first depending on size of projected axis

    TGLMatrix mm;
    GLdouble pm[16];
    glGetDoublev(GL_MODELVIEW_MATRIX, mm.Arr());
    glGetDoublev(GL_PROJECTION_MATRIX, pm);
    Int_t* vp = rnrCtx.RefCamera().RefViewport().CArr();
    GLdouble dn[3];
    GLdouble up[3];
    gluProject(fXAxisTitlePos.fX, fXAxisTitlePos.fY, fXAxisTitlePos.fZ, mm.Arr(), pm, vp, &up[0], &up[1], &up[2]);
    gluProject(fYAxisTitlePos.fX, fYAxisTitlePos.fY, fYAxisTitlePos.fZ, mm.Arr(), pm, vp, &dn[0], &dn[1], &dn[2]);
    Float_t len = TMath::Sqrt((up[0] - dn[0]) * (up[0] - dn[0])
                               + (up[1] - dn[1]) * (up[1] - dn[1])
                               + (up[2] - dn[2]) * (up[2] - dn[2]));
    len = TMath::Min(len, rnrCtx.RefCamera().RefViewport().Diagonal()*0.7f);
    len /= TMath::Sqrt2();

    TGLVertex3 worldRef(fZAxisTitlePos.fX, fZAxisTitlePos.fY, fZAxisTitlePos.fZ);
    fAxisPainter.RefTMOff(0) = rnrCtx.RefCamera().ViewportDeltaToWorld(worldRef, -len, 0,  &mm);
    fAxisPainter.SetLabelPixelFontSize(TMath::Nint(TMath::Max(len*fM->GetData()->GetEtaBins()->GetLabelSize(), 0.02f)));
    fAxisPainter.SetTitlePixelFontSize(TMath::Nint(TMath::Max(len*fM->GetData()->GetEtaBins()->GetLabelSize(), 0.02f)));

    Float_t tickLength = TMath::Max(fM->GetData()->GetEtaBins()->GetTickLength(), 0.02f);
    Float_t labelOffset = TMath::Max(fM->GetData()->GetEtaBins()->GetLabelOffset(), 0.02f);

    // Z axis
    //
    if (fM->fData->Empty() == kFALSE)
    {
       Int_t    ondiv;
       Double_t omin=0, omax=0, bw1;
       THLimitsFinder::Optimize(0, fMaxVal, fM->fNZSteps, omin, omax, ondiv, bw1);
       worldRef.Set(fZAxisTitlePos.fX, fZAxisTitlePos.fY, fZAxisTitlePos.fZ);
       TGLVector3 zto = rnrCtx.RefCamera().ViewportDeltaToWorld(worldRef, 0, fAxisPainter.GetLabelPixelFontSize(),  &mm);
       // check z axis title does not overalp with label
       if ( fZAxisTitlePos.fZ - omax <   fAxisPainter.GetLabelPixelFontSize())
          fZAxisTitlePos.fZ = omax + zto.Z();


       fZAxis->SetAxisColor(fGridColor);
       fZAxis->SetLabelColor(fFontColor);
       fZAxis->SetTitleColor(fFontColor);
       fZAxis->SetNdivisions(fM->fNZSteps*100 + 10);
       fZAxis->SetLimits(0, fMaxVal);
       fZAxis->SetTitle(fM->GetPlotEt() ? "Et[GeV]" : "E[GeV]");

       fAxisPainter.SetTMNDim(1);
       fAxisPainter.RefDir().Set(0., 0., 1.);
       fAxisPainter.SetLabelAlign(TGLFont::kRight, TGLFont::kCenterV);
       glPushMatrix();
       glTranslatef(fZAxisTitlePos.fX, fZAxisTitlePos.fY, 0);

       // tickmark vector = 10 pixels left
       fAxisPainter.RefTitlePos().Set(fAxisPainter.RefTMOff(0).X()*0.05,  fAxisPainter.RefTMOff(0).Y()*0.05, fZAxisTitlePos.fZ);
       fZAxis->SetLabelOffset(labelOffset);
       fZAxis->SetTickLength(tickLength);
       fAxisPainter.PaintAxis(rnrCtx, fZAxis);
       glPopMatrix();

       // draw box frame
       //
       if (fM->fBoxMode) {

          glPushAttrib(GL_ENABLE_BIT | GL_LINE_BIT);

          // box verticals
          TGLUtil::LineWidth(1);
          glBegin(GL_LINES);
          TGLUtil::Color(fGridColor);

          glVertex3f(fBackPlaneXConst[0].fX   ,fBackPlaneXConst[0].fY   ,0);
          glVertex3f(fBackPlaneXConst[0].fX   ,fBackPlaneXConst[0].fY   ,fMaxVal);
          glVertex3f(fBackPlaneXConst[1].fX   ,fBackPlaneXConst[1].fY   ,0);
          glVertex3f(fBackPlaneXConst[1].fX   ,fBackPlaneXConst[1].fY   ,fMaxVal);


          glVertex3f(fBackPlaneYConst[0].fX   ,fBackPlaneYConst[0].fY   ,0);
          glVertex3f(fBackPlaneYConst[0].fX   ,fBackPlaneYConst[0].fY   ,fMaxVal);
          glVertex3f(fBackPlaneYConst[1].fX   ,fBackPlaneYConst[1].fY   ,0);
          glVertex3f(fBackPlaneYConst[1].fX   ,fBackPlaneYConst[1].fY   ,fMaxVal);

          // box top
          glVertex3f(fBackPlaneXConst[0].fX   ,fBackPlaneXConst[0].fY   ,fMaxVal);
          glVertex3f(fBackPlaneXConst[1].fX   ,fBackPlaneXConst[1].fY   ,fMaxVal);
          glVertex3f(fBackPlaneYConst[0].fX   ,fBackPlaneYConst[0].fY   ,fMaxVal);
          glVertex3f(fBackPlaneYConst[1].fX   ,fBackPlaneYConst[1].fY   ,fMaxVal);

          glEnd();

          // box horizontals stippled
          glEnable(GL_LINE_STIPPLE);
          glLineStipple(1, 0x5555);
          glBegin(GL_LINES);
          Float_t hz  = bw1;
          for (Int_t i = 1; i <= ondiv; ++i, hz += bw1) {
             glVertex3f(fBackPlaneXConst[0].fX   ,fBackPlaneXConst[0].fY   ,hz);
             glVertex3f(fBackPlaneXConst[1].fX   ,fBackPlaneXConst[1].fY   ,hz);
             glVertex3f(fBackPlaneYConst[0].fX   ,fBackPlaneYConst[0].fY   ,hz);
             glVertex3f(fBackPlaneYConst[1].fX   ,fBackPlaneYConst[1].fY   ,hz);
          }
          glEnd();

          glPopAttrib();
       }
    }

    // XY Axis
    //

    Float_t yOff  = fM->GetPhiRng();
    if (fXAxisTitlePos.fY < fM->GetPhiMax()) yOff = -yOff;

    Float_t xOff  = fM->GetEtaRng();
    if (fYAxisTitlePos.fX < fM->GetEtaMax()) xOff = -xOff;

    TAxis ax;
    ax.SetAxisColor(fGridColor);
    ax.SetLabelColor(fFontColor);
    ax.SetTitleColor(fFontColor);
    ax.SetTitleFont(fM->GetData()->GetEtaBins()->GetTitleFont());
    ax.SetLabelOffset(labelOffset);
    ax.SetTickLength(tickLength);
    fAxisPainter.SetTMNDim(2);
    fAxisPainter.RefTMOff(1).Set(0, 0, -fMaxVal);
    fAxisPainter.SetLabelAlign(TGLFont::kCenterH, TGLFont::kBottom);

    // eta
    glPushMatrix();
    fAxisPainter.RefDir().Set(1, 0, 0);
    fAxisPainter.RefTMOff(0).Set(0, yOff, 0);
    glTranslatef(0, fXAxisTitlePos.fY, 0);

    ax.SetNdivisions(fM->GetData()->GetEtaBins()->GetNdivisions());
    ax.SetLimits(fM->GetEtaMin(), fM->GetEtaMax());
    ax.SetTitle(fM->GetData()->GetEtaBins()->GetTitle());
    fAxisPainter.RefTitlePos().Set(fXAxisTitlePos.fX, yOff*1.5*ax.GetTickLength(), -fMaxVal*ax.GetTickLength());
    fAxisPainter.PaintAxis(rnrCtx, &ax);
    glPopMatrix();

    // phi
    fAxisPainter.RefDir().Set(0, 1, 0);
    fAxisPainter.RefTMOff(0).Set(xOff, 0, 0);
    ax.SetNdivisions(fM->GetData()->GetPhiBins()->GetNdivisions());
    ax.SetLimits(fM->GetPhiMin(), fM->GetPhiMax());
    ax.SetTitle(fM->GetData()->GetPhiBins()->GetTitle());
    glPushMatrix();
    glTranslatef(fYAxisTitlePos.fX, 0, 0);
    fAxisPainter.RefTitlePos().Set( xOff*1.5*ax.GetTickLength(), fYAxisTitlePos.fY,  -fMaxVal*ax.GetTickLength());
    fAxisPainter.PaintAxis(rnrCtx, &ax);
    glPopMatrix();

 } // DrawAxis3D

 ////////////////////////////////////////////////////////////////////////////////
 /// Get scale for matrix.

 void  TEveCaloLegoGL::GetScaleForMatrix(Float_t& sx, Float_t& sy, Float_t& sz) const
 {
    Double_t em, eM, pm, pM;
    fM->fData->GetEtaLimits(em, eM);
    fM->fData->GetPhiLimits(pm, pM);
    Double_t unit = ((eM - em) < (pM - pm)) ? (eM - em) : (pM - pm);
    sx = (eM - em) / (fM->GetEtaRng() * unit);
    sy = (pM - pm) / (fM->GetPhiRng() * unit);

    sz = 1;
    if (fM->fScaleAbs)
    {
       sz = fM->GetMaxTowerH() / fM->fMaxValAbs;
    }
    else if (!fM->fData->Empty())
    {
       sz = fM->GetMaxTowerH() / fMaxVal;
    }
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Draw XY axis.

 void TEveCaloLegoGL::DrawAxis2D(TGLRnrCtx & rnrCtx) const
 {
    if (fM->GetData()->Empty())
       fAxisPainter.SetTMNDim(1);

    TGLCamera& cam  = rnrCtx.RefCamera();

    TAxis ax;
    ax.SetAxisColor(fGridColor);
    ax.SetLabelColor(fFontColor);
    ax.SetTitleColor(fFontColor);
    ax.SetTitleFont(fM->GetData()->GetEtaBins()->GetTitleFont());
    ax.SetTitleSize(TMath::Max(fM->GetData()->GetEtaBins()->GetTitleSize(), 0.02f));
    ax.SetLabelOffset(TMath::Max(fM->GetData()->GetEtaBins()->GetLabelOffset(), 0.02f));
    ax.SetTickLength(TMath::Max(fM->GetData()->GetEtaBins()->GetTickLength(), 0.05f));

    // set fonts
    fAxisPainter.SetAttAxis(&ax);

    // get projected length of diagonal to determine
    TGLMatrix mm;
    GLdouble pm[16];
    GLint    vp[4];
    glGetDoublev(GL_MODELVIEW_MATRIX, mm.Arr());
    glGetDoublev(GL_PROJECTION_MATRIX, pm);
    glGetIntegerv(GL_VIEWPORT, vp);

    GLdouble dn[3];
    GLdouble up[3];
    gluProject(fM->GetEtaMin(), fM->GetPhiMin(), 0, mm.Arr(), pm, vp, &dn[0], &dn[1], &dn[2]);
    gluProject(fM->GetEtaMax(), fM->GetPhiMax(), 0, mm.Arr(), pm, vp, &up[0], &up[1], &up[2]);
    Double_t len = TMath::Sqrt((up[0] - dn[0]) * (up[0] - dn[0])
                               + (up[1] - dn[1]) * (up[1] - dn[1])
                               + (up[2] - dn[2]) * (up[2] - dn[2]));

    // lock upper limit to of relative font size relative to viewport diagonal
    Double_t vpLimit = cam.RefViewport().Diagonal()*0.5/TMath::Sqrt2();
    len = TMath::Min(len, vpLimit);

    // eta
    fAxisPainter.SetLabelPixelFontSize(TMath::Nint(len*fM->GetData()->GetEtaBins()->GetLabelSize()));
    fAxisPainter.SetTitlePixelFontSize(TMath::Nint(len*fM->GetData()->GetEtaBins()->GetTitleSize()));
    ax.SetNdivisions(fM->GetData()->GetEtaBins()->GetNdivisions());
    ax.SetLimits(fM->GetEtaMin(), fM->GetEtaMax());
    ax.SetTitle(fM->GetData()->GetEtaBins()->GetTitle());
    fAxisPainter.RefTitlePos().Set(fM->GetEtaMax(), -fM->GetPhiRng()*(ax.GetTickLength()+ ax.GetLabelOffset()), 0 );
    fAxisPainter.RefDir().Set(1, 0, 0);

    Float_t tmOffFrustX = cam.FrustumPlane(TGLCamera::kRight).D() + cam.FrustumPlane(TGLCamera::kLeft).D();
    fAxisPainter.RefTMOff(0).Set(0,  -TMath::Min(fM->GetPhiRng(), tmOffFrustX), 0);
    fAxisPainter.SetLabelAlign(TGLFont::kCenterH, TGLFont::kBottom);

    glPushMatrix();
    glTranslatef(0, fM->GetPhiMin(), 0);
    fAxisPainter.PaintAxis(rnrCtx, &ax);
    glPopMatrix();

    // phi
    ax.SetNdivisions(fM->GetData()->GetPhiBins()->GetNdivisions());
    ax.SetLimits(fM->GetPhiMin(), fM->GetPhiMax());
    ax.SetTitle(fM->GetData()->GetPhiBins()->GetTitle());
    fAxisPainter.RefTitlePos().Set(-fM->GetEtaRng()*(ax.GetTickLength()+ ax.GetLabelOffset()), fM->GetPhiMax(), 0);
    fAxisPainter.RefDir().Set(0, 1, 0);
    Float_t tmOffFrustY = cam.FrustumPlane(TGLCamera::kTop).D() + cam.FrustumPlane(TGLCamera::kBottom).D();
    fAxisPainter.RefTMOff(0).Set(-TMath::Min(fM->GetEtaRng(), tmOffFrustY), 0, 0);
    fAxisPainter.SetLabelAlign(TGLFont::kRight, TGLFont::kCenterV);

    glPushMatrix();
    glTranslatef(fM->GetEtaMin(), 0, 0);
    fAxisPainter.PaintAxis(rnrCtx, &ax);
    glPopMatrix();

    fAxisPainter.SetTMNDim(2);
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Calculate view-dependent grid density.

 Int_t TEveCaloLegoGL::GetGridStep(TGLRnrCtx &rnrCtx) const
 {
    TGLCamera &camera = rnrCtx.RefCamera();
    Float_t l = -camera.FrustumPlane(TGLCamera::kLeft).D();
    Float_t r =  camera.FrustumPlane(TGLCamera::kRight).D();
    Float_t t =  camera.FrustumPlane(TGLCamera::kTop).D();
    Float_t b = -camera.FrustumPlane(TGLCamera::kBottom).D();
    Float_t frustD    = TMath::Hypot(r-l, t-b);

    GLint   vp[4]; glGetIntegerv(GL_VIEWPORT, vp);
    Float_t viewportD = TMath::Sqrt((vp[1] - vp[0]) * (vp[1] - vp[0]) + (vp[3] - vp[1]) * (vp[3] - vp[1]));
    Float_t deltaToViewport = viewportD/frustD;

    // average bin width
    GLdouble em, eM, pm, pM;
    fM->GetData()->GetEtaLimits(pm, pM);
    fM->GetData()->GetPhiLimits(em, eM);
    Int_t i0 = fM->fData->GetEtaBins()->FindBin(fM->GetEtaMin());
    Int_t i1 = fM->fData->GetEtaBins()->FindBin(fM->GetEtaMax());
    Int_t j0 = fM->fData->GetPhiBins()->FindBin(fM->GetPhiMin());
    Int_t j1 = fM->fData->GetPhiBins()->FindBin(fM->GetPhiMax());

    Float_t averageBinWidth = TMath::Hypot(eM - em, pM - pm)/TMath::Sqrt((i0 - i1) * (i0 - i1) + (j0 - j1) * (j0 - j1));
    Float_t ppb = deltaToViewport*averageBinWidth;

    Int_t ngroup = 1;
    if (fM->fAutoRebin && fM->fPixelsPerBin > ppb)
    {
       // limit rebin realtive to number of axis bins
       Int_t maxGroup = TMath::Min(fM->fData->GetEtaBins()->GetNbins(), fM->fData->GetPhiBins()->GetNbins())/4;
       if (maxGroup > 1) {
          ngroup = TMath::Nint(fM->fPixelsPerBin*0.5/ppb); // symetrical rebin factor 2
          if (ngroup  > maxGroup) ngroup = maxGroup;
       }
    }
    fCurrentPixelsPerBin = TMath::Nint(ppb);

    return ngroup;
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Rebin eta, phi axis.

 void TEveCaloLegoGL::RebinAxis(TAxis *orig, TAxis *curr) const
 {
    Double_t center = 0.5 * (orig->GetXmin() + orig->GetXmax());
    Int_t    idx0   = orig->FindBin(center);
    Double_t bc     = orig->GetBinCenter(idx0);
    if (bc > center) --idx0;

    Int_t nbR = TMath::FloorNint(idx0/fBinStep) + TMath::FloorNint((orig->GetNbins() - idx0)/fBinStep);
    Int_t off = idx0 - TMath::FloorNint(idx0/fBinStep)*fBinStep;
    std::vector<Double_t> bins(nbR + 1);
    for (Int_t i = 0; i <= nbR; ++i)
    {
       bins[i] = orig->GetBinUpEdge(off + i*fBinStep);
    }
    curr->Set(nbR, &bins[0]);
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Draw basic histogram components: x-y grid

 void TEveCaloLegoGL::DrawHistBase(TGLRnrCtx &rnrCtx) const
 {
    Float_t eta0 = fM->fEtaMin;
    Float_t eta1 = fM->fEtaMax;
    Float_t phi0 = fM->GetPhiMin();
    Float_t phi1 = fM->GetPhiMax();

    // XY grid
    //
    TGLUtil::Color(fGridColor);
    TGLUtil::LineWidth(1);
    glBegin(GL_LINES);
    glVertex2f(eta0, phi0);
    glVertex2f(eta0, phi1);
    glVertex2f(eta1, phi0);
    glVertex2f(eta1, phi1);

    glVertex2f(eta0, phi0);
    glVertex2f(eta1, phi0);
    glVertex2f(eta0, phi1);
    glVertex2f(eta1, phi1);

    // eta grid
    Float_t val;
    Int_t neb = fEtaAxis->GetNbins();
    for (Int_t i = 0; i<= neb; i++)
    {
       val = fEtaAxis->GetBinUpEdge(i);
       if (val > eta0 && val < eta1 )
       {
          glVertex2f(val, phi0);
          glVertex2f(val, phi1);
       }
    }

    // phi grid
    Int_t npb = fPhiAxis->GetNbins();
    for (Int_t i = 1; i <= npb; i++) {
        val = fPhiAxis->GetBinUpEdge(i);
       if (val > phi0 && val < phi1)
       {
          glVertex2f(eta0, val);
          glVertex2f(eta1, val);
       }
    }

    glEnd();

    // XYZ axes
    //
    glPushAttrib(GL_ENABLE_BIT | GL_LINE_BIT | GL_POLYGON_BIT);
    TGLUtil::LineWidth(2);
    if (fCells3D)
    {
       SetAxis3DTitlePos(rnrCtx, eta0, eta1, phi0, phi1);
       DrawAxis3D(rnrCtx);
    }
    else
    {
       DrawAxis2D(rnrCtx);
    }
    glPopAttrib();
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Render the calo lego-plot with OpenGL.

 void TEveCaloLegoGL::DrawCells3D(TGLRnrCtx & rnrCtx) const
 {
    // quads
    {
       for (SliceDLMap_i i = fDLMap.begin(); i != fDLMap.end(); ++i) {
          TGLUtil::ColorTransparency(fM->GetDataSliceColor(i->first), fM->GetData()->GetSliceTransparency(i->first));
          glLoadName(i->first);
          glPushName(0);
          glCallList(i->second);
          glPopName();
       }
    }
    // outlines
    {
       if (rnrCtx.SceneStyle() == TGLRnrCtx::kFill) {
          glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
          glDisable(GL_POLYGON_OFFSET_FILL);
          TGLUtil::Color(1);
          for (SliceDLMap_i i = fDLMap.begin(); i != fDLMap.end(); ++i)
             glCallList(i->second);
       }
    }
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Prepare cells 2D data non-rebinned for drawing.

 void TEveCaloLegoGL::PrepareCell2DData(TEveCaloData::vCellId_t& cellList, vCell2D_t& cells2D) const
 {
    Int_t   max_energy_slice, cellID=0;
    Float_t sum, max_energy;

    TEveCaloData::vCellId_t::iterator currentCell = cellList.begin();
    TEveCaloData::vCellId_t::iterator nextCell    = currentCell;
    ++nextCell;

    while (true)
    {
       TEveCaloData::CellData_t currentCellData;
       TEveCaloData::CellData_t nextCellData;

       fM->fData->GetCellData(*currentCell, currentCellData);
       sum = max_energy = currentCellData.Value(fM->fPlotEt);
       max_energy_slice = currentCell->fSlice;
       while (nextCell != cellList.end() && currentCell->fTower == nextCell->fTower)
       {
          fM->fData->GetCellData(*nextCell, nextCellData);
          Float_t energy = nextCellData.Value(fM->fPlotEt);
          sum += energy;
          if (energy > max_energy)
          {
             max_energy       = energy;
             max_energy_slice = nextCell->fSlice;
          }
          ++nextCell;
          ++cellID;
       }

       WrapTwoPi(currentCellData.fPhiMin, currentCellData.fPhiMax);
       cells2D.push_back(Cell2D_t(cellID, sum, max_energy_slice));
       cells2D.back().SetGeom(currentCellData.fEtaMin, currentCellData.fEtaMax,
                              currentCellData.fPhiMin, currentCellData.fPhiMax);

       if (nextCell == cellList.end())
          break;

       currentCell = nextCell;
       ++nextCell;
       ++cellID;
    }
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Prepare cells 2D rebinned data for drawing.

 void TEveCaloLegoGL::PrepareCell2DDataRebin(TEveCaloData::RebinData_t& rebinData, vCell2D_t& cells2D) const
 {
    const Int_t nEta = fEtaAxis->GetNbins();
    const Int_t nPhi = fPhiAxis->GetNbins();
    std::vector<Float_t> vec;
    vec.assign((nEta + 2)*(nPhi + 2), 0.f);
    std::vector<Float_t> max_e;
    std::vector<Int_t>   max_e_slice;
    max_e.assign((nEta + 2) * (nPhi + 2), 0.f);
    max_e_slice.assign((nEta + 2) * (nPhi + 2), -1);

    for (UInt_t bin = 0; bin < rebinData.fBinData.size(); ++bin) {
       Float_t ssum = 0;
       if (rebinData.fBinData[bin] != -1) {
          Float_t *val = rebinData.GetSliceVals(bin);
          for (Int_t s = 0; s < rebinData.fNSlices; ++s) {
             ssum += val[s];
             if (val[s] > max_e[bin]) {
                max_e[bin]       = val[s];
                max_e_slice[bin] = s;
             }
          }
       }
       vec[bin] = ssum;
    }

    // smallest threshold
    Float_t threshold = fM->GetDataSliceThreshold(0);
    for (Int_t s = 1; s < fM->fData->GetNSlices(); ++s) {
       if (threshold > fM->GetDataSliceThreshold(s))
          threshold = fM->GetDataSliceThreshold(s);
    }

    // write cells
    for (Int_t i = 1; i <= fEtaAxis->GetNbins(); ++i) {
       for (Int_t j = 1; j <= fPhiAxis->GetNbins(); ++j) {
          const Int_t bin = j * (nEta + 2) + i;
          if (vec[bin] > threshold && rebinData.fBinData[bin] != -1) {
             cells2D.push_back(Cell2D_t(bin, vec[bin], max_e_slice[bin]));
             cells2D.back().SetGeom(fEtaAxis->GetBinLowEdge(i), fEtaAxis->GetBinUpEdge(i),
                                    fPhiAxis->GetBinLowEdge(j), fPhiAxis->GetBinUpEdge(j));
          }
       }
    }
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Draw cells in top view.

 void TEveCaloLegoGL::DrawCells2D(TGLRnrCtx &rnrCtx, vCell2D_t& cells2D) const
 {
    Float_t bws    = -1; //smallest bin
    Float_t logMax = -1;

    Float_t baseOffset = fM->GetFixedHeightValIn2DMode()*fMaxVal;

    if (fM->f2DMode == TEveCaloLego::kValColor)
    {
       fM->AssertPalette();
       UChar_t col[4];

       for (vCell2D_i i = cells2D.begin(); i != cells2D.end(); ++i)
       {
          if (rnrCtx.SecSelection()) glLoadName(i->fId);
          glBegin(GL_POLYGON);
          fM->fPalette->ColorFromValue(TMath::FloorNint(i->fSumVal), col);
          col[3] = fM->GetData()->GetSliceTransparency(i->fMaxSlice);
          TGLUtil::Color4ubv(col);
          Float_t z = fM->GetHasFixedHeightIn2DMode() ? baseOffset : i->fSumVal;
          glVertex3f(i->fX0, i->fY0, z);
          glVertex3f(i->fX1, i->fY0, z);
          glVertex3f(i->fX1, i->fY1, z);
          glVertex3f(i->fX0, i->fY1, z);
          glEnd();
       }
    }
    else
    {
       Float_t maxv = 0;
       bws = 1e5;
       for (vCell2D_i i = fCells2D.begin(); i != fCells2D.end(); ++i)
       {
          if (i->MinSize() < bws)   bws  = i->MinSize();
          if (i->fSumVal   > maxv)  maxv = i->fSumVal;
       }
       bws   *= 0.5f;
       logMax = TMath::Log10(maxv + 1);
       fValToPixel = bws / logMax;

       if (rnrCtx.SecSelection())
       {
          // Special draw for name stack.

          for (vCell2D_i i = cells2D.begin(); i != cells2D.end(); ++i)
          {
             glLoadName(i->fMaxSlice);
             glPushName(i->fId);

             glBegin(GL_QUADS);
             Float_t z = fM->GetHasFixedHeightIn2DMode() ? baseOffset : i->fSumVal;
             glVertex3f(i->fX0, i->fY0, z);
             glVertex3f(i->fX1, i->fY0, z);
             glVertex3f(i->fX1, i->fY1, z);
             glVertex3f(i->fX0, i->fY1, z);
             glEnd();

             glPopName();
          }
       }
       else
       {
          // Optimised draw without name stack.

          if ( ! rnrCtx.Highlight())
          {
             glBegin(GL_POINTS);
             for (vCell2D_i i = cells2D.begin(); i != cells2D.end(); ++i)
             {
                TGLUtil::ColorTransparency(fM->fData->GetSliceColor(i->fMaxSlice), fM->fData->GetSliceTransparency(i->fMaxSlice));
                Float_t z = fM->GetHasFixedHeightIn2DMode() ? baseOffset : i->fSumVal;
                glVertex3f(i->X(), i->Y() , z);
             }
             glEnd();
          }

          glBegin(GL_QUADS);
          for (vCell2D_i i = cells2D.begin(); i != cells2D.end(); ++i)
          {
             TGLUtil::ColorTransparency(fM->fData->GetSliceColor(i->fMaxSlice), fM->fData->GetSliceTransparency(i->fMaxSlice));
             Float_t bw = fValToPixel*TMath::Log10(i->fSumVal+1);
             Float_t x = i->X();
             Float_t y = i->Y();
             Float_t z = fM->GetHasFixedHeightIn2DMode() ? baseOffset : i->fSumVal;
             glVertex3f(x - bw, y - bw, z);
             glVertex3f(x + bw, y - bw, z);
             glVertex3f(x + bw, y + bw, z);
             glVertex3f(x - bw, y + bw, z);
          }
          glEnd();

          if (fM->f2DMode == TEveCaloLego::kValSizeOutline)
          {
             glPushAttrib(GL_ENABLE_BIT | GL_POLYGON_BIT);
             Float_t z    = 0;
             Float_t zOff = fMaxVal*0.001 ; // avoid polygon stipling
             glBegin(GL_QUADS);
             for ( vCell2D_i i = cells2D.begin(); i != cells2D.end(); ++i) {
                Char_t transp = TMath::Min(100, 80 + fM->fData->GetSliceTransparency(i->fMaxSlice) / 5);
                TGLUtil::ColorTransparency(fM->fData->GetSliceColor(i->fMaxSlice), transp);
                z = fM->GetHasFixedHeightIn2DMode() ? baseOffset : i->fSumVal;
                z -=  zOff;
                glVertex3f(i->fX0, i->fY0, z);
                glVertex3f(i->fX1, i->fY0, z);
                glVertex3f(i->fX1, i->fY1, z);
                glVertex3f(i->fX0, i->fY1, z);
             }
             glEnd();

             glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
             glBegin(GL_QUADS);
             for ( vCell2D_i i = cells2D.begin(); i != cells2D.end(); ++i) {
                TGLUtil::ColorTransparency(fM->fData->GetSliceColor(i->fMaxSlice), 60);
                z = fM->GetHasFixedHeightIn2DMode() ? baseOffset : i->fSumVal;
                z +=  zOff;
                glVertex3f(i->fX0, i->fY0, z);
                glVertex3f(i->fX1, i->fY0, z);
                glVertex3f(i->fX1, i->fY1, z);
                glVertex3f(i->fX0, i->fY1, z);
             }
             glEnd();
             glPopAttrib();
          }
       }
    }

    // text
    if (fCurrentPixelsPerBin > fM->fDrawNumberCellPixels &&
        ! rnrCtx.Selection() && ! rnrCtx.Highlight())
    {
       TGLUtil::Color(rnrCtx.ColorSet().Markup().GetColorIndex());
       TGLFont font;
       rnrCtx.RegisterFontNoScale(fM->fCellPixelFontSize, "arial", TGLFont::kPixmap, font);
       const char* txt;
       for (vCell2D_i i = cells2D.begin(); i != cells2D.end(); ++i) {

          Float_t val = i->fSumVal;
          if (val > 10)
             txt = Form("%d", TMath::Nint(val));
          else if (val > 1 )
             txt = Form("%.1f", val);
          else if (val > 0.01 )
             txt = Form("%.2f", 0.01*TMath::Nint(val*100));
          else
             txt = Form("~1e%d", TMath::Nint(TMath::Log10(val)));

          font.Render(txt, i->X(), i->Y(), val*1.2, TGLFont::kCenterH, TGLFont::kCenterV);
       }
    }
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Draw highligted cells.

 void TEveCaloLegoGL::DrawHighlight(TGLRnrCtx& rnrCtx, const TGLPhysicalShape* /*pshp*/, Int_t /*lvl*/) const
 {
    if (fM->fData->GetCellsSelected().empty() && fM->fData->GetCellsHighlighted().empty())
    {
       return;
    }

    // modelview matrix
    glPushMatrix();
    Float_t sx, sy, sz;
    GetScaleForMatrix(sx, sy, sz);
    glScalef(sx, sy, sz);
    glTranslatef(-fM->GetEta(), -fM->fPhi, 0);

    if (fCells3D)
    {
       glPushAttrib(GL_ENABLE_BIT | GL_LINE_BIT | GL_POLYGON_BIT);
       glDisable(GL_LIGHTING);
       glDisable(GL_CULL_FACE);
       glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
       TGLUtil::LineWidth(2);
    }

    TGLUtil::LockColor();
    if (!fM->fData->GetCellsHighlighted().empty())
    {
       glColor4ubv(rnrCtx.ColorSet().Selection(3).CArr());
       DrawSelectedCells(rnrCtx, fM->fData->GetCellsHighlighted());
    }
    if (!fM->fData->GetCellsSelected().empty())
    {
       glColor4ubv(rnrCtx.ColorSet().Selection(1).CArr());
       DrawSelectedCells(rnrCtx, fM->fData->GetCellsSelected());
    }
    TGLUtil::UnlockColor();

    if (fCells3D)
    {
       glPopAttrib();
    }

    glPopMatrix();
 }


 ////////////////////////////////////////////////////////////////////////////////
 /// Draw selected cells in highlight mode.

 void TEveCaloLegoGL::DrawSelectedCells(TGLRnrCtx & rnrCtx, TEveCaloData::vCellId_t cellsSelectedInput) const
 {
    // check eta&phi range of selected cells
    TEveCaloData::vCellId_t  cellsSelected;
    TEveCaloData::CellData_t cellData;
    for (TEveCaloData::vCellId_i i = cellsSelectedInput.begin(); i != cellsSelectedInput.end(); ++i)
    {
       fM->fData->GetCellData((*i), cellData);
       if (fM->CellInEtaPhiRng(cellData))
          cellsSelected.push_back(*i);
    }

    // prepare rebin for 2D or 3D if necessary
    TEveCaloData::RebinData_t rebinDataSelected;
    if (fBinStep > 1)
    {
       fM->fData->Rebin(fEtaAxis, fPhiAxis, cellsSelected, fM->fPlotEt, rebinDataSelected);
       if (fM->fNormalizeRebin) {
          Float_t scale = 1.f / (fBinStep * fBinStep);
          for (std::vector<Float_t>::iterator it = rebinDataSelected.fSliceData.begin(); it != rebinDataSelected.fSliceData.end(); it++)
             (*it) *= scale;
       }
    }

    if (fCells3D)
    {
       Float_t offset =  0;
       if (fBinStep == 1)
       {
          for (TEveCaloData::vCellId_i j = cellsSelected.begin(); j != cellsSelected.end(); ++j)
          {
             offset = 0;
             {
                Int_t   orig_slice = j->fSlice;
                for (Int_t s = 0; s < orig_slice; ++s)
                {
                   j->fSlice = s;
                   fM->fData->GetCellData(*j, cellData);
                   offset += cellData.Value(fM->fPlotEt);
                }
                j->fSlice = orig_slice;
             }
             fM->fData->GetCellData(*j, cellData);
             WrapTwoPi(cellData.fPhiMin, cellData.fPhiMax);
             MakeQuad(cellData.EtaMin(), cellData.PhiMin(), offset,
                      cellData.EtaDelta(), cellData.PhiDelta(), cellData.Value(fM->fPlotEt));
          }
       }
       else
       {
          Float_t *vals;
          Float_t *valsRef;
          Float_t  y0, y1;
          Int_t    nSlices = fM->fData->GetNSlices();
          for (Int_t i = 1; i <= fEtaAxis->GetNbins(); ++i)
          {
             for (Int_t j = 1; j <= fPhiAxis->GetNbins(); ++j)
             {
                const Int_t bin = (i)+(j)*(fEtaAxis->GetNbins()+2);
                if (rebinDataSelected.fBinData[bin] !=-1)
                {
                   offset  = 0;
                   vals    = rebinDataSelected.GetSliceVals(bin);
                   valsRef = fRebinData.GetSliceVals(bin);
                   for (Int_t s = 0; s < nSlices; ++s)
                   {
                      if (vals[s] > 0)
                      {
                         y0 = fPhiAxis->GetBinLowEdge(j);
                         y1 = fPhiAxis->GetBinUpEdge(j);
                         WrapTwoPi(y0, y1);
                         MakeQuad(fEtaAxis->GetBinLowEdge(i), y0, offset,
                                  fEtaAxis->GetBinWidth(i), y1-y0, vals[s]);
                      }
                      offset += valsRef[s];
                   }
                }
             }
          }
       }
    }
    else
    {
       vCell2D_t cells2DSelected;
       if (fBinStep == 1)
       {
          // but is confusing since top view does not draw all slices at same time
          TEveCaloData::vCellId_i j    = cellsSelectedInput.begin();
          TEveCaloData::vCellId_i jEnd = cellsSelectedInput.end();
          std::set<Int_t> towers;
          while (j != jEnd)
          {
             towers.insert(j->fTower);
             ++j;
          }
          for (vCell2D_i i = fCells2D.begin(); i != fCells2D.end(); ++i)
          {
             TEveCaloData::CellId_t cell = fM->fCellList[i->fId];
             // std::set<Int_t>::iterator ti = towers.find(cell.fTower);
             if (towers.find(cell.fTower) != towers.end())
             {
                cells2DSelected.push_back(*i);
             }
          }
       }
       else
       {
          PrepareCell2DDataRebin(rebinDataSelected, cells2DSelected);
       }
       DrawCells2D(rnrCtx, cells2DSelected);
    }
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Draw the object.

 void TEveCaloLegoGL::DirectDraw(TGLRnrCtx & rnrCtx) const
 {
    if (! fM->fData || ! fM->fData->GetEtaBins() || ! fM->fData->GetPhiBins())
       return;

    // projection type
    if (fM->fProjection == TEveCaloLego::kAuto)
       fCells3D = (!(rnrCtx.RefCamera().IsOrthographic() && rnrCtx.RefCamera().GetCamBase().GetBaseVec(1).Z()));
    else if (fM->fProjection == TEveCaloLego::k2D)
       fCells3D = kFALSE;
    else if (fM->fProjection == TEveCaloLego::k3D)
       fCells3D = kTRUE;

    // rebin axsis , check limits, fix TwoPi cycling
    Int_t new_bin_step = GetGridStep(rnrCtx);

    // rebin data
    if (fM->AssertCellIdCache() || fBinStep != new_bin_step)
    {
       fBinStep = new_bin_step;
       fDLCacheOK   = kFALSE;
       fRebinData.Clear();

       RebinAxis(fM->fData->GetEtaBins(), fEtaAxis);
       RebinAxis(fM->fData->GetPhiBins(), fPhiAxis);

       if (fBinStep > 1)
       {
          fM->fData->Rebin(fEtaAxis, fPhiAxis, fM->fCellList, fM->fPlotEt, fRebinData);

          fMaxVal = 0;
          for (UInt_t i = 0; i < fRebinData.fSliceData.size(); i += fRebinData.fNSlices)
          {
             Double_t sum = 0;
             for (Int_t s = 0; s < fRebinData.fNSlices; s++)
             {
                sum += fRebinData.fSliceData[i+s];
             }
             if (sum > fMaxVal) fMaxVal = sum;
          }

          if (fM->fNormalizeRebin)
          {
             Float_t scale = 1.f / (fBinStep * fBinStep);
             for (std::vector<Float_t>::iterator it = fRebinData.fSliceData.begin(); it != fRebinData.fSliceData.end(); it++)
             {
                (*it) *= scale;
             }
             fMaxVal *= scale;
          }
       }
       else
       {
          fMaxVal = fM->GetMaxVal();
       }
    }

    // modelview matrix
    glPushMatrix();
    Float_t sx, sy, sz;
    GetScaleForMatrix(sx, sy, sz);
    glScalef(sx, sy, sz);
    glTranslatef(-fM->GetEta(), -fM->fPhi, 0);

    fFontColor = fM->fFontColor;
    fGridColor = fM->fGridColor;
    if (fGridColor < 0 || fFontColor < 0)
    {
       TColor* c1 = gROOT->GetColor(rnrCtx.ColorSet().Markup().GetColorIndex());
       TColor* c2 = gROOT->GetColor(rnrCtx.ColorSet().Background().GetColorIndex());
       Float_t f1, f2;
       if (fFontColor < 0) {
          f1 = 0.8; f2 = 0.2;
          fFontColor = TColor::GetColor(c1->GetRed()  *f1  + c2->GetRed()  *f2,
                                        c1->GetGreen()*f1  + c2->GetGreen()*f2,
                                        c1->GetBlue() *f1  + c2->GetBlue() *f2);
       }
       if (fGridColor < 0) {
          f1 = 0.3; f2 = 0.3;
          fGridColor = TColor::GetColor(c1->GetRed()  *f1  + c2->GetRed()  *f2,
                                        c1->GetGreen()*f1  + c2->GetGreen()*f2,
                                        c1->GetBlue() *f1  + c2->GetBlue() *f2);
       }
    }

    glPushAttrib(GL_ENABLE_BIT | GL_LINE_BIT | GL_POLYGON_BIT);
    TGLUtil::LineWidth(1);
    glEnable(GL_BLEND);
    glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
    if (!fM->fData->Empty())
    {
       glPushName(0);
       if (fCells3D)
       {
          if (fDLCacheOK == kFALSE)
          {
             if (fBinStep == 1)
                Make3DDisplayList(fM->fCellList, fDLMap, kTRUE);
             else
                Make3DDisplayListRebin(fRebinData, fDLMap, kTRUE);
             fDLCacheOK = kTRUE;
          }
          glEnable(GL_NORMALIZE);
          glEnable(GL_POLYGON_OFFSET_FILL);
          glPolygonOffset(0.8, 1);

          DrawCells3D(rnrCtx);
       }
       else
       {
          glDisable(GL_LIGHTING);

          fCells2D.clear();
          if (fBinStep == 1)
             PrepareCell2DData(fM->fCellList, fCells2D);
          else
             PrepareCell2DDataRebin(fRebinData, fCells2D);

          DrawCells2D(rnrCtx, fCells2D);
       }
       glPopName();
    }
    glPopAttrib();

    // draw histogram base
    if (rnrCtx.Selection() == kFALSE && rnrCtx.IsDrawPassFilled())
    {
       glPushAttrib(GL_ENABLE_BIT | GL_LINE_BIT | GL_POLYGON_BIT);
       glDisable(GL_LIGHTING);
       DrawHistBase(rnrCtx);
       if (fM->fDrawHPlane) {
          glBlendFunc(GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
          glPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
          glDisable(GL_CULL_FACE);
          TGLUtil::ColorTransparency(fM->fPlaneColor, fM->fPlaneTransparency);
          Float_t zhp = fM->fHPlaneVal * fMaxVal;
          glBegin(GL_POLYGON);
          glVertex3f(fM->fEtaMin, fM->GetPhiMin(), zhp);
          glVertex3f(fM->fEtaMax, fM->GetPhiMin(), zhp);
          glVertex3f(fM->fEtaMax, fM->GetPhiMax(), zhp);
          glVertex3f(fM->fEtaMin, fM->GetPhiMax(), zhp);
          glEnd();
       }
       glPopAttrib();
    }

    glPopMatrix();
 }

 ////////////////////////////////////////////////////////////////////////////////
 /// Processes tower selection from TGLViewer.

 void TEveCaloLegoGL::ProcessSelection(TGLRnrCtx & /*rnrCtx*/, TGLSelectRecord & rec)
 {
    TEveCaloData::vCellId_t sel;
    if (rec.GetN() > 2)
    {
       Int_t slice = rec.GetItem(1);
       Int_t cell  = rec.GetItem(2);

       if (fBinStep == 1)
       {
          Int_t tower = fM->fCellList[cell].fTower;
          while (cell > 0 && tower == fM->fCellList[cell].fTower)
          {
             sel.push_back(fM->fCellList[cell]);
             if (fCells3D) break;
             --cell;
          }
       }
       else
       {
          if (cell > 0)
          {
             Int_t nEta   = fEtaAxis->GetNbins();
             Int_t phiBin = Int_t(cell/(nEta+2));
             Int_t etaBin = cell - phiBin*(nEta+2);
             TEveCaloData::vCellId_t sl;
             fM->fData->GetCellList(fEtaAxis->GetBinCenter(etaBin), fEtaAxis->GetBinWidth(etaBin),
                                    fPhiAxis->GetBinCenter(phiBin), fPhiAxis->GetBinWidth(phiBin),
                                    sl);

             for (TEveCaloData::vCellId_i it = sl.begin(); it != sl.end(); ++it)
             {
                if (fCells3D) {
                   if ((*it).fSlice == slice ) sel.push_back(*it);
                } else {
                   if ((*it).fSlice <= slice ) sel.push_back(*it);
                }
             }
          }
       }
    }
    fM->fData->ProcessSelection(sel, rec);
 }
TEveCaloViz::AssertPalette
TEveRGBAPalette * AssertPalette()
Make sure the TEveRGBAPalette pointer is not null.
Definition: TEveCalo.cxx:378

TGLLogicalShape::DLCacheDrop
virtual void DLCacheDrop()
Drop all entries for all LODs for this drawable from the display list cache, WITHOUT returning the re...
Definition: TGLLogicalShape.cxx:311

TEveCaloLego::fGridColor
Color_t fGridColor
Definition: TEveCalo.h:267

TEveCaloLegoGL::DrawSelectedCells
void DrawSelectedCells(TGLRnrCtx &rnrCtx, TEveCaloData::vCellId_t cells) const
Draw selected cells in highlight mode.
Definition: TEveCaloLegoGL.cxx:1139

TGLRnrCtx::Highlight
Bool_t Highlight() const
Definition: TGLRnrCtx.h:218

TAttAxis::GetTickLength
virtual Float_t GetTickLength() const
Definition: TAttAxis.h:44

TEveCaloData::GetCellsSelected
vCellId_t & GetCellsSelected()
Definition: TEveCaloData.h:188

TEveCaloViz::GetData
TEveCaloData * GetData() const
Definition: TEveCalo.h:86

TEveCaloViz::GetMaxTowerH
Float_t GetMaxTowerH() const
Definition: TEveCalo.h:112

TEveCaloLegoGL::Make3DDisplayListRebin
void Make3DDisplayListRebin(TEveCaloData::RebinData_t &rebinData, SliceDLMap_t &map, Bool_t select) const
Create display-list that draws histogram bars for rebinned data.
Definition: TEveCaloLegoGL.cxx:248

TGLRnrCtx
The TGLRnrCtx class aggregates data for a given redering context as needed by various parts of the RO...
Definition: TGLRnrCtx.h:40

TEveCaloData::RebinData_t::Clear
void Clear()
Definition: TEveCaloData.h:137

sum
static long int sum(long int i)
Definition: Factory.cxx:2162

TGLRnrCtx::SecSelection
Bool_t SecSelection() const
Definition: TGLRnrCtx.h:224

TEveCaloViz::GetEta
Float_t GetEta() const
Definition: TEveCalo.h:135

TEveCaloData::GetEtaBins
virtual TAxis * GetEtaBins() const
Definition: TEveCaloData.h:218

TGLCamera
Abstract base camera class - concrete classes for orthographic and perspective cameras derive from it...
Definition: TGLCamera.h:43

TGLUtil::Color
static void Color(const TGLColor &color)
Set color from TGLColor.
Definition: TGLUtil.cxx:1658

TEveCaloData::vCellId_i
std::vector< CellId_t >::iterator vCellId_i
Definition: TEveCaloData.h:147

TColor::GetRed
Float_t GetRed() const
Definition: TColor.h:56

TAxis::SetLimits
virtual void SetLimits(Double_t xmin, Double_t xmax)
Definition: TAxis.h:154

TEveCaloData::CellGeom_t::fPhiMax
Float_t fPhiMax
Definition: TEveCaloData.h:77

TGLUtil::ColorTransparency
static void ColorTransparency(Color_t color_index, Char_t transparency=0)
Set color from color_index and ROOT-style transparency (default 0).
Definition: TGLUtil.cxx:1702

TEveCaloLegoGL::fValToPixel
Float_t fValToPixel
Definition: TEveCaloLegoGL.h:86

TEveVectorT::Set
void Set(const Float_t *v)
Definition: TEveVector.h:59

Float_t
float Float_t
Definition: RtypesCore.h:53

TEveCaloLego::fFontColor
Color_t fFontColor
Definition: TEveCalo.h:266

TEveCaloLegoGL::~TEveCaloLegoGL
virtual ~TEveCaloLegoGL()
Destructor.
Definition: TEveCaloLegoGL.cxx:74

TAttAxis::GetLabelOffset
virtual Float_t GetLabelOffset() const
Definition: TAttAxis.h:40

TGLAxisPainter::SetTitlePixelFontSize
void SetTitlePixelFontSize(Int_t fs)
Definition: TGLAxisPainter.h:99

TMath::Sqrt2
constexpr Double_t Sqrt2()
Definition: TMath.h:68

TEveCaloLego::GetHasFixedHeightIn2DMode
bool GetHasFixedHeightIn2DMode() const
Definition: TEveCalo.h:330

Option_t
const char Option_t
Definition: RtypesCore.h:62

TEveCaloLegoGL::PrepareCell2DDataRebin
void PrepareCell2DDataRebin(TEveCaloData::RebinData_t &rebinData, vCell2D_t &cells2D) const
Prepare cells 2D rebinned data for drawing.
Definition: TEveCaloLegoGL.cxx:888

TAxis::GetBinLowEdge
virtual Double_t GetBinLowEdge(Int_t bin) const
Return low edge of bin.
Definition: TAxis.cxx:504

c1
return c1
Definition: legend1.C:41

TEveCaloLegoGL::DLCachePurge
virtual void DLCachePurge()
Unregister all display-lists.
Definition: TEveCaloLegoGL.cxx:115

TGLCamera.h

TEveCaloLegoGL
OpenGL renderer class for TEveCaloLego.
Definition: TEveCaloLegoGL.h:26

TGLRnrCtx::Selection
Bool_t Selection() const
Definition: TGLRnrCtx.h:222

TGLRnrCtx.h

TEveCaloLegoGL::MakeQuad
void MakeQuad(Float_t x, Float_t y, Float_t z, Float_t xw, Float_t yw, Float_t zh) const
Draw an axis-aligned box using quads.
Definition: TEveCaloLegoGL.cxx:145

TEveCaloLegoGL::fGridColor
Color_t fGridColor
Definition: TEveCaloLegoGL.h:65

TGLMatrix
16 component (4x4) transform matrix - column MAJOR as per GL.
Definition: TGLUtil.h:596

TEveCaloData::RebinData_t::fBinData
std::vector< Int_t > fBinData
Definition: TEveCaloData.h:133

h
TH1 * h
Definition: legend2.C:5

TEveCaloData::CellGeom_t::fPhiMin
Float_t fPhiMin
Definition: TEveCaloData.h:76

TAttAxis::SetLabelColor
virtual void SetLabelColor(Color_t color=1, Float_t alpha=1.)
Set color of labels.
Definition: TAttAxis.cxx:173

TEveCaloLegoGL::DrawCells3D
void DrawCells3D(TGLRnrCtx &rnrCtx) const
Render the calo lego-plot with OpenGL.
Definition: TEveCaloLegoGL.cxx:813

TGLRnrCtx::RefCamera
TGLCamera & RefCamera()
Definition: TGLRnrCtx.h:157

TAttAxis::SetNdivisions
virtual void SetNdivisions(Int_t n=510, Bool_t optim=kTRUE)
Set the number of divisions for this axis.
Definition: TAttAxis.cxx:229

TEveCaloLego::fNormalizeRebin
Bool_t fNormalizeRebin
Definition: TEveCalo.h:276

TEveCaloViz::GetPhiMax
Float_t GetPhiMax() const
Definition: TEveCalo.h:145

THLimitsFinder::Optimize
static void Optimize(Double_t A1, Double_t A2, Int_t nold, Double_t &BinLow, Double_t &BinHigh, Int_t &nbins, Double_t &BWID, Option_t *option="")
static function to compute reasonable axis limits
Definition: THLimitsFinder.cxx:185

TGLFont::kPixmap
Definition: TGLFontManager.h:29

TEveCaloData::CellId_t::fTower
Int_t fTower
Definition: TEveCaloData.h:61

gROOT
#define gROOT
Definition: TROOT.h:375

TGLAxisPainter::SetFontMode
void SetFontMode(TGLFont::EMode m)
Definition: TGLAxisPainter.h:94

TEveCaloLegoGL::TEveCaloLegoGL
TEveCaloLegoGL()
Constructor.
Definition: TEveCaloLegoGL.cxx:45

TGLObject::SetAxisAlignedBBox
void SetAxisAlignedBBox(Float_t xmin, Float_t xmax, Float_t ymin, Float_t ymax, Float_t zmin, Float_t zmax)
Set axis-aligned bounding-box.
Definition: TGLObject.cxx:86

TEveVectorT::fY
TT fY
Definition: TEveVector.h:29

TAttAxis::SetTitleFont
virtual void SetTitleFont(Style_t font=62)
Set the title font.
Definition: TAttAxis.cxx:290

TMath::Min
Short_t Min(Short_t a, Short_t b)
Definition: TMathBase.h:168

Int_t
int Int_t
Definition: RtypesCore.h:41

Bool_t
bool Bool_t
Definition: RtypesCore.h:59

TGLAxisPainter::RefDir
TGLVector3 & RefDir()
Definition: TGLAxisPainter.h:90

TEveCaloData::GetSliceTransparency
Char_t GetSliceTransparency(Int_t slice) const
Get transparency for given slice.
Definition: TEveCaloData.cxx:358

TEveCaloLegoGL::vCell2D_i
std::vector< Cell2D_t >::iterator vCell2D_i
Definition: TEveCaloLegoGL.h:59

TGLRnrCtx::RegisterFontNoScale
void RegisterFontNoScale(Int_t size, Int_t file, Int_t mode, TGLFont &out)
Get font in the GL rendering context.
Definition: TGLRnrCtx.cxx:367

TGLCamera::RefViewport
TGLRect & RefViewport()
Definition: TGLCamera.h:128

TMath::FloorNint
Int_t FloorNint(Double_t x)
Definition: TMath.h:603

TAttAxis::GetLabelSize
virtual Float_t GetLabelSize() const
Definition: TAttAxis.h:41

TEveCaloLegoGL::fAxisPainter
TGLAxisPainter fAxisPainter
Definition: TEveCaloLegoGL.h:77

TGLColorSet::Markup
TGLColor & Markup()
Definition: TGLUtil.h:852

TEveCaloLego::fCellPixelFontSize
Int_t fCellPixelFontSize
Definition: TEveCalo.h:289

TEveCaloLego::fPlaneTransparency
Char_t fPlaneTransparency
Definition: TEveCalo.h:269

TEveCaloData::CellGeom_t::PhiMin
Float_t PhiMin() const
Definition: TEveCaloData.h:95

TGLCamera::kBottom
Definition: TGLCamera.h:52

TGLVertex3::Set
void Set(Double_t x, Double_t y, Double_t z)
Definition: TGLUtil.h:209

TAttAxis::SetLabelOffset
virtual void SetLabelOffset(Float_t offset=0.005)
Set distance between the axis and the labels The distance is expressed in per cent of the pad width...
Definition: TAttAxis.cxx:193

TColor::GetBlue
Float_t GetBlue() const
Definition: TColor.h:58

TEveCaloViz::GetEtaRng
Float_t GetEtaRng() const
Definition: TEveCalo.h:138

TEveCaloViz::fMaxValAbs
Float_t fMaxValAbs
Definition: TEveCalo.h:58

TEveCaloLegoGL::fZAxis
TAxis * fZAxis
Definition: TEveCaloLegoGL.h:70

TEveCaloLegoGL::DrawHistBase
void DrawHistBase(TGLRnrCtx &rnrCtx) const
Draw basic histogram components: x-y grid.
Definition: TEveCaloLegoGL.cxx:746

TAxis::GetBinUpEdge
virtual Double_t GetBinUpEdge(Int_t bin) const
Return up edge of bin.
Definition: TAxis.cxx:514

TGLPhysicalShape
Concrete physical shape - a GL drawable.
Definition: TGLPhysicalShape.h:31

TEveCaloLegoGL::fMaxVal
Float_t fMaxVal
Definition: TEveCaloLegoGL.h:85

TEveCaloViz::GetEtaMin
Float_t GetEtaMin() const
Definition: TEveCalo.h:136

TGLAxisPainter::RefTMOff
TGLVector3 & RefTMOff(Int_t i)
Definition: TGLAxisPainter.h:91

TEveCaloData::CellGeom_t::EtaDelta
Float_t EtaDelta() const
Definition: TEveCaloData.h:93

TAttAxis::GetTitleFont
virtual Style_t GetTitleFont() const
Definition: TAttAxis.h:46

TEveCaloLegoGL::PrepareCell2DData
void PrepareCell2DData(TEveCaloData::vCellId_t &cellList, vCell2D_t &cells2D) const
Prepare cells 2D data non-rebinned for drawing.
Definition: TEveCaloLegoGL.cxx:840

TEveCaloLegoGL::Make3DDisplayList
void Make3DDisplayList(TEveCaloData::vCellId_t &cellList, SliceDLMap_t &map, Bool_t select) const
Create display-list that draws histogram bars for non-rebinned data.
Definition: TEveCaloLegoGL.cxx:206

TGLRnrCtx::IsDrawPassFilled
Bool_t IsDrawPassFilled() const
Returns true if current render-pass uses filled polygon style.
Definition: TGLRnrCtx.cxx:153

TEveCaloData::GetCellList
virtual void GetCellList(Float_t etaMin, Float_t etaMax, Float_t phi, Float_t phiRng, vCellId_t &out) const =0

TAxis::GetXmin
Double_t GetXmin() const
Definition: TAxis.h:133

x2
static const double x2[5]
Definition: RooGaussKronrodIntegrator1D.cxx:345

TEveCaloLegoGL::RebinAxis
void RebinAxis(TAxis *orig, TAxis *curr) const
Rebin eta, phi axis.
Definition: TEveCaloLegoGL.cxx:726

TEveCaloLego::GetFixedHeightValIn2DMode
float GetFixedHeightValIn2DMode() const
Definition: TEveCalo.h:333

x
Double_t x[n]
Definition: legend1.C:17

TEveCaloData::CellGeom_t::PhiDelta
Float_t PhiDelta() const
Definition: TEveCaloData.h:98

THLimitsFinder.h

TGLPlane::D
Double_t D() const
Definition: TGLUtil.h:555

TEveCaloLego::fPixelsPerBin
Int_t fPixelsPerBin
Definition: TEveCalo.h:275

TEveCaloLego::fBoxMode
EBoxMode_e fBoxMode
Definition: TEveCalo.h:280

TColor::GetGreen
Float_t GetGreen() const
Definition: TColor.h:57

em
you should not use this method at all Int_t Int_t Double_t Double_t em
Definition: TRolke.cxx:630

TGLVertex3
3 component (x/y/z) vertex class.
Definition: TGLUtil.h:82

TEveCaloLego::kValColor
Definition: TEveCalo.h:256

TEveCaloLegoGL::fDLMap
SliceDLMap_t fDLMap
Definition: TEveCaloLegoGL.h:89

TEveCaloData::Empty
Bool_t Empty() const
Definition: TEveCaloData.h:216

TEveCaloLegoGL::fCurrentPixelsPerBin
Int_t fCurrentPixelsPerBin
Definition: TEveCaloLegoGL.h:87

TGLColor::CArr
const UChar_t * CArr() const
Definition: TGLUtil.h:799

TEveCaloLegoGL::Cell2D_t
Definition: TEveCaloLegoGL.h:31

TEveCaloLego::kValSizeOutline
Definition: TEveCalo.h:256

TMath::Log10
Double_t Log10(Double_t x)
Definition: TMath.h:652

TEveCaloViz::GetPhiMin
Float_t GetPhiMin() const
Definition: TEveCalo.h:144

TAxis::GetBinCenter
virtual Double_t GetBinCenter(Int_t bin) const
Return center of bin.
Definition: TAxis.cxx:464

TEveCaloLegoGL::fXAxisTitlePos
TEveVector fXAxisTitlePos
Definition: TEveCaloLegoGL.h:71

TEveCaloLegoGL::DrawCells2D
void DrawCells2D(TGLRnrCtx &rnrCtx, vCell2D_t &cells2D) const
Draw cells in top view.
Definition: TEveCaloLegoGL.cxx:937

TEveCaloLegoGL::DrawAxis2D
void DrawAxis2D(TGLRnrCtx &rnrCtx) const
Draw XY axis.
Definition: TEveCaloLegoGL.cxx:605

TGLObject
Base-class for direct OpenGL renderers.
Definition: TGLObject.h:21

TEveCaloLegoGL::fYAxisTitlePos
TEveVector fYAxisTitlePos
Definition: TEveCaloLegoGL.h:72

TGLAxisPainter::RefTitlePos
TGLVector3 & RefTitlePos()
Definition: TGLAxisPainter.h:102

TEveCaloLego::fAutoRebin
Bool_t fAutoRebin
Definition: TEveCalo.h:274

TGLMatrix::Arr
Double_t * Arr()
Definition: TGLUtil.h:664

TGLVector3
3 component (x/y/z) vector class.
Definition: TGLUtil.h:246

TGLCamera::kLeft
Definition: TGLCamera.h:49

TEveCaloViz::fPlotEt
Float_t fPlotEt
Definition: TEveCalo.h:54

TEveCaloData::vCellId_t
std::vector< CellId_t > vCellId_t
Definition: TEveCaloData.h:146

TGLCamera::GetCamBase
const TGLMatrix & GetCamBase() const
Definition: TGLCamera.h:166

TEveRGBAPalette::ColorFromValue
const UChar_t * ColorFromValue(Int_t val) const
Definition: TEveRGBAPalette.h:177

TEveCaloData::RebinData_t
Definition: TEveCaloData.h:128

TEveCaloData::GetPhiLimits
virtual void GetPhiLimits(Double_t &min, Double_t &max) const =0

TGLUtil::LockColor
static UInt_t LockColor()
Prevent further color changes.
Definition: TGLUtil.cxx:1630

TGLUtil::UnlockColor
static UInt_t UnlockColor()
Allow color changes.
Definition: TGLUtil.cxx:1638

TEveCaloLegoGL::GetScaleForMatrix
void GetScaleForMatrix(Float_t &sx, Float_t &sy, Float_t &sz) const
Get scale for matrix.
Definition: TEveCaloLegoGL.cxx:582

TEveCaloLegoGL::fRebinData
TEveCaloData::RebinData_t fRebinData
Definition: TEveCaloLegoGL.h:84

TGLLogicalShape::DLCachePurge
virtual void DLCachePurge()
Purge all entries for all LODs for this drawable from the display list cache, returning the reserved ...
Definition: TGLLogicalShape.cxx:325

TGLLogicalShape::fExternalObj
TObject * fExternalObj
first replica
Definition: TGLLogicalShape.h:49

TEveCaloLegoGL::fBackPlaneYConst
TEveVector fBackPlaneYConst[2]
Definition: TEveCaloLegoGL.h:75

TEveCaloLegoGL::DrawAxis3D
void DrawAxis3D(TGLRnrCtx &rnrCtx) const
Draw z-axis and z-box at the appropriate grid corner-point including tick-marks and labels...
Definition: TEveCaloLegoGL.cxx:424

TEveCaloLegoGL::SetAxis3DTitlePos
void SetAxis3DTitlePos(TGLRnrCtx &rnrCtx, Float_t x0, Float_t x1, Float_t y0, Float_t y1) const
Set the axis 3D title position.
Definition: TEveCaloLegoGL.cxx:293

TAttAxis::GetNdivisions
virtual Int_t GetNdivisions() const
Definition: TAttAxis.h:36

TGLCamera::kRight
Definition: TGLCamera.h:50

TGLCamera::ViewportDeltaToWorld
TGLVector3 ViewportDeltaToWorld(const TGLVertex3 &worldRef, Double_t viewportXDelta, Double_t viewportYDelta, TGLMatrix *modviewMat=0) const
Apply a 2D viewport delta (shift) to the projection of worldRef onto viewport, returning the resultan...
Definition: TGLCamera.cxx:546

TGLAxisPainter::PaintAxis
void PaintAxis(TGLRnrCtx &ctx, TAxis *ax)
GL render TAxis.
Definition: TGLAxisPainter.cxx:327

TEveCaloViz::fEtaMin
Double_t fEtaMin
Definition: TEveCalo.h:42

TEveCaloLegoGL::DLCacheDrop
virtual void DLCacheDrop()
Drop all display-list definitions.
Definition: TEveCaloLegoGL.cxx:103

TEveRGBAPalette.h

TEveCaloLegoGL.h

TGLIncludes.h

TEveCaloLegoGL::fBinStep
Int_t fBinStep
Definition: TEveCaloLegoGL.h:92

r
TRandom2 r(17)

TAxis::GetTitle
const char * GetTitle() const
Returns title of object.
Definition: TAxis.h:129

TEveCaloLegoGL::fM
TEveCaloLego * fM
Definition: TEveCaloLegoGL.h:80

TAxis
Class to manage histogram axis.
Definition: TAxis.h:30

TGLRnrCtx::SceneStyle
Short_t SceneStyle() const
Definition: TGLRnrCtx.h:184

TROOT.h

TEveCaloData::ProcessSelection
void ProcessSelection(vCellId_t &sel_cells, TGLSelectRecord &rec)
Process newly selected cells with given select-record.
Definition: TEveCaloData.cxx:207

TEveCaloLegoGL::fFontColor
Color_t fFontColor
Definition: TEveCaloLegoGL.h:66

TGLSelectRecord
Standard selection record including information about containing scene and details ob out selected ob...
Definition: TGLSelectRecord.h:74

TGLAxisPainter::GetLabelPixelFontSize
Int_t GetLabelPixelFontSize() const
Definition: TGLAxisPainter.h:98

TEveCaloLegoGL::WrapTwoPi
void WrapTwoPi(Float_t &min, Float_t &max) const
Definition: TEveCaloLegoGL.h:145

TGLMatrix::CArr
const Double_t * CArr() const
Definition: TGLUtil.h:663

TGLFont::kRight
Definition: TGLFontManager.h:33

TH2.h

TEveCaloLego::k3D
Definition: TEveCalo.h:255

UInt_t
unsigned int UInt_t
Definition: RtypesCore.h:42

TEveCaloViz::GetPlotEt
Bool_t GetPlotEt() const
Definition: TEveCalo.h:108

Form
char * Form(const char *fmt,...)

TEveCaloLegoGL::SliceDLMap_t
std::map< Int_t, UInt_t > SliceDLMap_t
Definition: TEveCaloLegoGL.h:61

TEveCaloLego::fCellList
TEveCaloData::vCellId_t fCellList
Definition: TEveCalo.h:264

TEveCaloData::GetCellData
virtual void GetCellData(const CellId_t &id, CellData_t &data) const =0

l
TLine * l
Definition: textangle.C:4

TColor::GetColor
static Int_t GetColor(const char *hexcolor)
Static method returning color number for color specified by hex color string of form: "#rrggbb"...
Definition: TColor.cxx:1707

TEveCaloLegoGL::DrawHighlight
virtual void DrawHighlight(TGLRnrCtx &rnrCtx, const TGLPhysicalShape *ps, Int_t lvl=-1) const
Draw highligted cells.
Definition: TEveCaloLegoGL.cxx:1091

TEveCaloLego::fDrawNumberCellPixels
Int_t fDrawNumberCellPixels
Definition: TEveCalo.h:288

TEveCaloLegoGL::fCells3D
Bool_t fCells3D
Definition: TEveCaloLegoGL.h:90

TEveCaloLego::fNZSteps
Int_t fNZSteps
Definition: TEveCalo.h:271

TEveCaloLego::fProjection
EProjection_e fProjection
Definition: TEveCalo.h:278

TEveCaloViz::fPhi
Double_t fPhi
Definition: TEveCalo.h:45

TAttAxis::SetAxisColor
virtual void SetAxisColor(Color_t color=1, Float_t alpha=1.)
Set color of the line axis and tick marks.
Definition: TAttAxis.cxx:163

TGLAxisPainter::SetLabelAlign
void SetLabelAlign(TGLFont::ETextAlignH_e, TGLFont::ETextAlignV_e)
Set label align.
Definition: TGLAxisPainter.cxx:70

TEveCaloData::GetCellsHighlighted
vCellId_t & GetCellsHighlighted()
Definition: TEveCaloData.h:189

TEveCaloLegoGL::SetBBox
virtual void SetBBox()
Set bounding box.
Definition: TEveCaloLegoGL.cxx:95

TEveCaloViz::GetDataSliceThreshold
Float_t GetDataSliceThreshold(Int_t slice) const
Get threshold for given slice.
Definition: TEveCalo.cxx:86

TAttAxis::SetTitleColor
virtual void SetTitleColor(Color_t color=1)
Set color of axis title.
Definition: TAttAxis.cxx:281

TAttAxis::SetTitleSize
virtual void SetTitleSize(Float_t size=0.04)
Set size of axis title The size is expressed in per cent of the pad width.
Definition: TAttAxis.cxx:272

TGLRect::Diagonal
Int_t Diagonal() const
Return the diagonal of the rectangle.
Definition: TGLUtil.cxx:316

TGLCamera::IsOrthographic
virtual Bool_t IsOrthographic() const
Definition: TGLCamera.h:118

TEveCaloLego::kAuto
Definition: TEveCalo.h:255

kFALSE
const Bool_t kFALSE
Definition: RtypesCore.h:92

TEveCaloLegoGL::vCell2D_t
std::vector< Cell2D_t > vCell2D_t
Definition: TEveCaloLegoGL.h:58

TAxis::FindBin
virtual Int_t FindBin(Double_t x)
Find bin number corresponding to abscissa x.
Definition: TAxis.cxx:279

TEveCaloLego
Visualization of calorimeter data as eta/phi histogram.
Definition: TEveCalo.h:249

TGLVertex3::Z
Double_t Z() const
Definition: TGLUtil.h:122

TEveCaloLego::fPlaneColor
Color_t fPlaneColor
Definition: TEveCalo.h:268

c2
return c2
Definition: legend2.C:14

x1
static const double x1[5]
Definition: RooGaussKronrodIntegrator1D.cxx:327

TEveCaloLegoGL::fDLCacheOK
Bool_t fDLCacheOK
Definition: TEveCaloLegoGL.h:81

ClassImp
#define ClassImp(name)
Definition: Rtypes.h:336

f
double f(double x)
Definition: testIntegration.cxx:12

TGLUtil.h

Double_t
double Double_t
Definition: RtypesCore.h:55

TGLPhysicalShape.h

TEveCaloViz::GetEtaMax
Float_t GetEtaMax() const
Definition: TEveCalo.h:137

TGLSelectRecordBase::GetItem
UInt_t GetItem(Int_t i) const
Definition: TGLSelectRecord.h:56

TEveCaloLego::k2D
Definition: TEveCalo.h:255

TEveCaloLego::fDrawHPlane
Bool_t fDrawHPlane
Definition: TEveCalo.h:282

TAxis.h

TEveCaloData::GetSliceColor
Color_t GetSliceColor(Int_t slice) const
Get color for given slice.
Definition: TEveCaloData.cxx:338

y
Double_t y[n]
Definition: legend1.C:17

TGLColor::GetColorIndex
Color_t GetColorIndex() const
Returns color-index representing the color.
Definition: TGLUtil.cxx:1240

e
you should not use this method at all Int_t Int_t Double_t Double_t Double_t e
Definition: TRolke.cxx:630

TColor
The color creation and management class.
Definition: TColor.h:19

TEveCaloViz::CellInEtaPhiRng
Bool_t CellInEtaPhiRng(TEveCaloData::CellData_t &) const
Returns true if given cell is in the ceta phi range.
Definition: TEveCalo.cxx:307

TEveCaloData::GetPhiBins
virtual TAxis * GetPhiBins() const
Definition: TEveCaloData.h:221

TAttAxis::GetTitleSize
virtual Float_t GetTitleSize() const
Definition: TAttAxis.h:43

TMath::Hypot
Double_t Hypot(Double_t x, Double_t y)
Definition: TMath.cxx:60

TEveCaloLegoGL::SliceDLMap_i
std::map< Int_t, UInt_t >::iterator SliceDLMap_i
Definition: TEveCaloLegoGL.h:62

TEveCaloLego::fHPlaneVal
Float_t fHPlaneVal
Definition: TEveCalo.h:283

TGLColorSet::Background
TGLColor & Background()
Definition: TGLUtil.h:849

TEveCaloViz::AssertCellIdCache
Bool_t AssertCellIdCache() const
Assert cell id cache is ok.
Definition: TEveCalo.cxx:293

TObject
Mother of all ROOT objects.
Definition: TObject.h:37

TEveCaloLegoGL::SetModel
virtual Bool_t SetModel(TObject *obj, const Option_t *opt=0)
Set model object.
Definition: TEveCaloLegoGL.cxx:86

z
you should not use this method at all Int_t Int_t z
Definition: TRolke.cxx:630

TEveCaloData::RebinData_t::fSliceData
std::vector< Float_t > fSliceData
Definition: TEveCaloData.h:132

Char_t
char Char_t
Definition: RtypesCore.h:29

TEveCaloData::GetEtaLimits
virtual void GetEtaLimits(Double_t &min, Double_t &max) const =0

TGLColorSet::Selection
TGLColor & Selection(Int_t i)
Definition: TGLUtil.h:853

TEveCalo.h

TEveCaloLegoGL::ProcessSelection
virtual void ProcessSelection(TGLRnrCtx &rnrCtx, TGLSelectRecord &rec)
Processes tower selection from TGLViewer.
Definition: TEveCaloLegoGL.cxx:1407

TEveCaloViz::GetMaxVal
Float_t GetMaxVal() const
Definition: TEveCalo.cxx:159

TAxis::GetBinWidth
virtual Double_t GetBinWidth(Int_t bin) const
Return bin width.
Definition: TAxis.cxx:526

TGLRnrCtx::kFill
Definition: TGLRnrCtx.h:46

TEveCaloLegoGL::fPhiAxis
TAxis * fPhiAxis
Definition: TEveCaloLegoGL.h:69

TEveVectorT::fX
TT fX
Definition: TEveVector.h:29

TGLScene.h

f2
double f2(const double *x)
Definition: testIntegration.cxx:16

TMath::Max
Short_t Max(Short_t a, Short_t b)
Definition: TMathBase.h:200

TEveCaloLegoGL::GetGridStep
Int_t GetGridStep(TGLRnrCtx &rnrCtx) const
Calculate view-dependent grid density.
Definition: TEveCaloLegoGL.cxx:683

TGLSelectRecordBase::GetN
Int_t GetN() const
Definition: TGLSelectRecord.h:54

TGLCamera::FrustumPlane
const TGLPlane & FrustumPlane(EFrustumPlane plane) const
Definition: TGLCamera.h:219

TEveCaloViz::GetPhiRng
Float_t GetPhiRng() const
Definition: TEveCalo.h:146

TEveCaloData::CellGeom_t::fEtaMax
Float_t fEtaMax
Definition: TEveCaloData.h:79

TColor.h

TGLAxisPainter::SetLabelPixelFontSize
void SetLabelPixelFontSize(Int_t fs)
Definition: TGLAxisPainter.h:97

f1
TF1 * f1
Definition: legend1.C:11

b
you should not use this method at all Int_t Int_t Double_t Double_t Double_t Int_t Double_t Double_t Double_t Double_t b
Definition: TRolke.cxx:630

TGLFont::kBottom
Definition: TGLFontManager.h:34

TAttAxis::SetTickLength
virtual void SetTickLength(Float_t length=0.03)
Set tick mark length The length is expressed in per cent of the pad width.
Definition: TAttAxis.cxx:249

TGLLogicalShape::PurgeDLRange
void PurgeDLRange(UInt_t base, Int_t size) const
External object is a fake.
Definition: TGLLogicalShape.cxx:339

TGLFont::kCenterV
Definition: TGLFontManager.h:34

TEveManager.h

TEveCaloData::RebinData_t::fNSlices
Int_t fNSlices
Definition: TEveCaloData.h:130

TEveCaloLegoGL::fBackPlaneXConst
TEveVector fBackPlaneXConst[2]
Definition: TEveCaloLegoGL.h:74

TEveCaloData::CellData_t
Cell data inner structure.
Definition: TEveCaloData.h:114

TEveCaloViz::GetDataSliceColor
Color_t GetDataSliceColor(Int_t slice) const
Get slice color from data.
Definition: TEveCalo.cxx:121

TGLUtil::LineWidth
static Float_t LineWidth()
Get the line-width, taking the global scaling into account.
Definition: TGLUtil.cxx:1904

UChar_t
unsigned char UChar_t
Definition: RtypesCore.h:34

TGLLogicalShape::fDLCache
Bool_t fDLCache
display-list validity bit-field
Definition: TGLLogicalShape.h:55

TGLFont
A wrapper class for FTFont.
Definition: TGLFontManager.h:23

TEveCaloLegoGL::DirectDraw
virtual void DirectDraw(TGLRnrCtx &rnrCtx) const
Draw the object.
Definition: TEveCaloLegoGL.cxx:1255

TGLAxisPainter::SetTMNDim
void SetTMNDim(Int_t x)
Definition: TGLAxisPainter.h:88

TEveCaloViz::fPalette
TEveRGBAPalette * fPalette
Definition: TEveCalo.h:61

TMath::Sqrt
Double_t Sqrt(Double_t x)
Definition: TMath.h:591

TEveVectorT::fZ
TT fZ
Definition: TEveVector.h:29

TAxis::GetNbins
Int_t GetNbins() const
Definition: TAxis.h:121

TGLRnrCtx::ColorSet
TGLColorSet & ColorSet()
Return reference to current color-set (top of the stack).
Definition: TGLRnrCtx.cxx:278

TEveCaloLegoGL::fZAxisTitlePos
TEveVector fZAxisTitlePos
Definition: TEveCaloLegoGL.h:73

TEveCaloData::CellData_t::Value
Float_t Value(Bool_t) const
Return energy value associated with the cell, usually Et.
Definition: TEveCaloData.cxx:71

TAxis::Set
virtual void Set(Int_t nbins, Double_t xmin, Double_t xmax)
Initialize axis with fix bins.
Definition: TAxis.cxx:717

TGLFont::kCenterH
Definition: TGLFontManager.h:33

TGLSelectRecord.h

TNamed::SetTitle
virtual void SetTitle(const char *title="")
Set the title of the TNamed.
Definition: TNamed.cxx:155

TGLCamera::RefLastNoPickProjM
TGLMatrix & RefLastNoPickProjM() const
Definition: TGLCamera.h:174

TGLVertex3::Y
Double_t Y() const
Definition: TGLUtil.h:120

TEveCaloData::CellGeom_t::fEtaMin
Float_t fEtaMin
Definition: TEveCaloData.h:78

TEveCaloViz::fData
TEveCaloData * fData
Definition: TEveCalo.h:39

kTRUE
const Bool_t kTRUE
Definition: RtypesCore.h:91

TEveCaloLegoGL::fEtaAxis
TAxis * fEtaAxis
Definition: TEveCaloLegoGL.h:68

TMath::Nint
Int_t Nint(T x)
Definition: TMath.h:607

TEveCaloData::CellId_t
Definition: TEveCaloData.h:57

TAxis::GetXmax
Double_t GetXmax() const
Definition: TAxis.h:134

TEveCaloData::Rebin
virtual void Rebin(TAxis *ax, TAxis *ay, vCellId_t &in, Bool_t et, RebinData_t &out) const =0

TEveCaloData::CellGeom_t::EtaMin
Float_t EtaMin() const
Definition: TEveCaloData.h:90

TGLUtil::Color4ubv
static void Color4ubv(const UChar_t *rgba)
Wrapper for glColor4ubv.
Definition: TGLUtil.cxx:1740

TGLCamera::kTop
Definition: TGLCamera.h:51

TEveCaloData::GetNSlices
Int_t GetNSlices() const
Definition: TEveCaloData.h:202

TEveCaloLego::f2DMode
E2DMode_e f2DMode
Definition: TEveCalo.h:279

TEveCaloData::RebinData_t::GetSliceVals
Float_t * GetSliceVals(Int_t bin)
Definition: TEveCaloData.cxx:89

TGLMatrix::GetBaseVec
TGLVector3 GetBaseVec(Int_t b) const
Definition: TGLUtil.h:753

TEveCaloViz::fScaleAbs
Bool_t fScaleAbs
Definition: TEveCalo.h:57

TEveCaloLegoGL::fCells2D
vCell2D_t fCells2D
Definition: TEveCaloLegoGL.h:82

TGLAxisPainter::SetAttAxis
void SetAttAxis(TAttAxis *a)
Definition: TGLAxisPainter.h:110

TGLViewer.h

TEveCaloViz::fEtaMax
Double_t fEtaMax
Definition: TEveCalo.h:43

TGLRect::CArr
const Int_t * CArr() const
Definition: TGLUtil.h:444

TGLVertex3::X
Double_t X() const
Definition: TGLUtil.h:118