54 ::Error(
"TEveCaloData::CellGeom_t::Configure",
"phiMin and phiMax should be between -2*pi and 2*pi (min=%f, max=%f). RhoZ projection will be wrong.",
84 printf(
"%f, %f %f, %f \n", fEtaMin, fEtaMax, fPhiMin, fPhiMax);
92 if (fBinData[bin] == -1)
94 fBinData[bin] = fSliceData.size();
96 for (
Int_t i=0; i<fNSlices; i++)
97 fSliceData.push_back(0.f);
100 return &fSliceData[fBinData[bin]];
164 cellData.
Eta(), cellData.
Phi());
166 if (single)
return s;
182 impSelSet.insert(*i);
197 printf(
"Tower [%d] Slice [%d] Value [%.2f] ", i->fTower, i->fSlice, cellData.
fValue);
209 typedef std::set<CellId_t> sCellId_t;
210 typedef std::set<CellId_t>::iterator sCellId_i;
214 static void fill_cell_set(sCellId_t& cset,
vCellId_t& cvec)
216 for (
vCellId_i i = cvec.begin(); i != cvec.end(); ++i)
219 static void fill_cell_vec(
vCellId_t& cvec, sCellId_t& cset)
221 for (sCellId_i i = cset.begin(); i != cset.end(); ++i)
230 if (!sel_cells.empty())
232 cells.swap(sel_cells);
238 if (!sel_cells.empty())
243 helper::fill_cell_set(cs, cells);
244 for (
vCellId_i i = sel_cells.begin(); i != sel_cells.end(); ++i)
246 std::set<CellId_t>::iterator csi = cs.find(*i);
259 helper::fill_cell_vec(cells, cs);
266 if (cells.size() == sel_cells.size())
269 helper::fill_cell_set(cs, cells);
270 for (
vCellId_i i = sel_cells.begin(); i != sel_cells.end(); ++i)
272 if (cs.find(*i) == cs.end())
285 cells.swap(sel_cells);
413 using namespace TMath;
416 return Pi() - 2*ATan(Exp(- Abs(eta)));
418 return 2*ATan(Exp(- Abs(eta)));
444 fSliceVec.assign(nslices, std::vector<Float_t> ());
462 fSliceVec.push_back(std::vector<Float_t> ());
473 assert (etaMin < etaMax);
474 assert (phiMin < phiMax);
515 using namespace TMath;
517 Float_t etaMin = eta - etaD*0.5;
518 Float_t etaMax = eta + etaD*0.5;
520 Float_t phiMin = phi - phiD*0.5;
521 Float_t phiMax = phi + phiD*0.5;
526 Float_t fracx=0, fracy=0, frac;
542 minQ += TwoPi(); maxQ += TwoPi();
544 else if (minQ > phiMax)
546 minQ -= TwoPi(); maxQ -= TwoPi();
550 if (maxQ >= phiMin && minQ <= phiMax)
556 for (
Int_t s=0; s<nS; s++)
559 out.push_back(
CellId_t(tower, s, frac));
577 for (
vCellId_i it = ids.begin(); it != ids.end(); ++it)
584 for (
Int_t i = iMin; i <= iMax; ++i)
586 if (i < 0 || i > ax->
GetNbins())
continue;
587 for (
Int_t j = jMin; j <= jMax; ++j)
589 if (j < 0 || j > ay->
GetNbins())
continue;
597 slices[(*it).fSlice] += ratio * cd.
Value(et);
610 cellData.CellGeom_t::operator=(
fGeomVec[
id.fTower] );
619 using namespace TMath;
650 std::vector<Double_t> binX;
651 std::vector<Double_t> binY;
657 binX.push_back(ch.
EtaMin());
658 binX.push_back(ch.
EtaMax());
659 binY.push_back(ch.
PhiMin());
660 binY.push_back(ch.
PhiMax());
663 std::sort(binX.begin(), binX.end());
664 std::sort(binY.begin(), binY.end());
671 Double_t dx = binX.back() - binX.front();
673 std::vector<Double_t> newX;
674 newX.push_back(binX.front());
675 Int_t nX = binX.size()-1;
676 for(
Int_t i=0; i<nX; i++)
678 val = (
sum +binX[i])/(cnt+1);
679 if (binX[i+1] -val > epsX)
691 newX.push_back(binX.back());
696 std::vector<Double_t> newY;
697 Double_t dy = binY.back() - binY.front();
699 newY.push_back(binY.front());
700 Int_t nY = binY.size()-1;
701 for(
Int_t i=0 ; i<nY; i++)
703 val = (
sum +binY[i])/(cnt+1);
704 if (binY[i+1] -val > epsY )
717 newY.push_back(binY.back());
761 using namespace TMath;
802 using namespace TMath;
817 for (
Int_t ieta = 1; ieta <= nEta; ++ieta)
821 for (
Int_t iphi = 1; iphi <= nPhi; ++iphi)
836 for (
Int_t s = 0; s < nSlices; ++s)
839 bin = hist->
GetBin(ieta, iphi);
862 for (
vCellId_i it=ids.begin(); it!=ids.end(); ++it)
865 GetHist(it->fSlice)->GetBinXYZ((*it).fTower, i, j, w);
873 val[(*it).fSlice] += cd.
Value(et)*ratio;
917 assert(slice >= 0 && slice < fHStack->GetHists()->GetSize());
virtual void SetNdivisions(Int_t n=510, Bool_t optim=kTRUE)
Set the number of divisions for this axis.
virtual Color_t GetLineColor() const
Return the line color.
Class to manage histogram axis.
virtual Double_t GetBinCenter(Int_t bin) const
Return center of bin.
virtual Int_t FindBin(Double_t x)
Find bin number corresponding to abscissa x.
virtual Double_t GetBinLowEdge(Int_t bin) const
Return low edge of bin.
virtual Double_t GetBinUpEdge(Int_t bin) const
Return up edge of bin.
A central manager for calorimeter data of an event written in TH2F.
TH2F * GetHist(Int_t slice) const
Get histogram in given slice.
virtual void GetEtaLimits(Double_t &min, Double_t &max) const
Get eta limits.
virtual void Rebin(TAxis *ax, TAxis *ay, vCellId_t &in, Bool_t et, RebinData_t &out) const
Rebin.
Int_t AddHistogram(TH2F *hist)
Add new slice to calo tower.
virtual ~TEveCaloDataHist()
Destructor.
TEveCaloDataHist()
Constructor.
virtual void GetCellList(Float_t etaMin, Float_t etaMax, Float_t phi, Float_t phiRng, vCellId_t &out) const
Get list of cell IDs in given eta and phi range.
virtual void DataChanged()
Update limits and notify data users.
virtual void GetCellData(const TEveCaloData::CellId_t &id, TEveCaloData::CellData_t &data) const
Get cell geometry and value from cell ID.
virtual void GetPhiLimits(Double_t &min, Double_t &max) const
Get phi limits.
Calo data for universal cell geometry.
Int_t AddSlice()
Add new slice.
void SetAxisFromBins(Double_t epsX=0.001, Double_t epsY=0.001)
Set XY axis from cells geometry.
virtual void GetCellList(Float_t etaMin, Float_t etaMax, Float_t phi, Float_t phiRng, vCellId_t &out) const
Get list of cell-ids for given eta/phi range.
TEveCaloDataVec(const TEveCaloDataVec &)
std::vector< vFloat_t >::iterator vvFloat_i
virtual void Rebin(TAxis *ax, TAxis *ay, vCellId_t &in, Bool_t et, RebinData_t &out) const
Rebin cells.
void FillSlice(Int_t slice, Float_t value)
Fill given slice in the current tower.
virtual ~TEveCaloDataVec()
Destructor.
Int_t AddTower(Float_t etaMin, Float_t etaMax, Float_t phiMin, Float_t phiMax)
Add tower within eta/phi range.
virtual void GetCellData(const TEveCaloData::CellId_t &id, TEveCaloData::CellData_t &data) const
Get cell geometry and value from cell ID.
virtual void DataChanged()
Update limits and notify data users.
A central manager for calorimeter event data.
TEveCaloData(const TEveCaloData &)
virtual TString GetHighlightTooltip()
std::vector< CellId_t > vCellId_t
static Float_t EtaToTheta(Float_t eta)
void SetSliceColor(Int_t slice, Color_t col)
Set color for given slice.
virtual void UnHighlighted()
Virtual method TEveElement::UnHighlighted.
void ProcessSelection(vCellId_t &sel_cells, TGLSelectRecord &rec)
Process newly selected cells with given select-record.
virtual void GetCellData(const CellId_t &id, CellData_t &data) const =0
Char_t GetSliceTransparency(Int_t slice) const
Get transparency for given slice.
vCellId_t fCellsHighlighted
void SetSliceTransparency(Int_t slice, Char_t t)
Set transparency for given slice.
void SetSliceThreshold(Int_t slice, Float_t threshold)
Set threshold for given slice.
virtual void InvalidateUsersCellIdCache()
Invalidate cell ids cache on back ptr references.
Color_t GetSliceColor(Int_t slice) const
Get color for given slice.
virtual void DataChanged()
Tell users (TEveCaloViz instances using this data) that data has changed and they should update the l...
virtual void UnSelected()
Virtual method TEveElement::UnSelect.
std::vector< CellGeom_t >::const_iterator vCellGeom_ci
virtual void CellSelectionChanged()
Tell users (TEveCaloViz instances using this data) that cell selection has changed and they should up...
Float_t GetSliceThreshold(Int_t slice) const
Get threshold for given slice.
virtual void FillImpliedSelectedSet(Set_t &impSelSet)
Populate set impSelSet with derived / dependant elements.
void PrintCellsSelected()
Print selected cells info.
std::vector< CellId_t >::iterator vCellId_i
Base class for calorimeter data visualization.
virtual void CellSelectionChanged()
void InvalidateCellIdCache()
void DataChanged()
Update setting and cache on data changed.
Base class for TEveUtil visualization elements, providing hierarchy management, rendering control and...
void StampColorSelection()
std::set< TEveElement * > Set_t
List_t::const_iterator List_ci
static Float_t GetFraction(Float_t minM, Float_t maxM, Float_t minQ, Float_t maxQ)
Get fraction of interval [minQ, maxQ] in [minM, maxM].
static Bool_t IsU1IntervalContainedByMinMax(Float_t minM, Float_t maxM, Float_t minQ, Float_t maxQ)
Return true if interval Q is contained within interval M for U1 variables.
Standard selection record including information about containing scene and details ob out selected ob...
@ kModifyingInternalSelection
Bool_t GetHighlight() const
Bool_t GetMultiple() const
ESecSelResult GetSecSelResult() const
void SetSecSelResult(ESecSelResult r)
TAxis * GetXaxis()
Get the behaviour adopted by the object about the statoverflows. See EStatOverflows for more informat...
virtual void GetBinXYZ(Int_t binglobal, Int_t &binx, Int_t &biny, Int_t &binz) const
Return binx, biny, binz corresponding to the global bin number globalbin see TH1::GetBin function abo...
2-D histogram with a float per channel (see TH1 documentation)}
Service class for 2-D histogram classes.
virtual Int_t GetBin(Int_t binx, Int_t biny, Int_t binz=0) const
Return Global bin number corresponding to binx,y,z.
virtual Double_t GetBinContent(Int_t bin) const
Return content of bin number bin.
The Histogram stack class.
virtual void Add(TH1 *h, Option_t *option="")
add a new histogram to the list Only 1-d and 2-d histograms currently supported.
virtual TObject * At(Int_t idx) const
Returns the object at position idx. Returns 0 if idx is out of range.
The TNamed class is the base class for all named ROOT classes.
virtual const char * GetName() const
Returns name of object.
virtual void Error(const char *method, const char *msgfmt,...) const
Issue error message.
static TString Format(const char *fmt,...)
Static method which formats a string using a printf style format descriptor and return a TString.
constexpr Double_t TwoPi()
Cell data inner structure.
Float_t Value(Bool_t) const
Return energy value associated with the cell, usually Et.
virtual void Dump() const
Print member data.
Cell geometry inner structure.
virtual void Dump() const
Print member data.
void Configure(Float_t etaMin, Float_t etaMax, Float_t phiMin, Float_t phiMax)
std::vector< Int_t > fBinData
Float_t * GetSliceVals(Int_t bin)
static uint64_t sum(uint64_t i)