# include <TArrow.h>
#else
class TGraph;
+class TFile;
#endif
/**
kSteps = 0x020,
kResults = 0x040,
kCentral = 0x080,
- kNormal = 0x0FF
+ kESDFixer = 0x100,
+ kNormal = 0x1FF
};
SummaryAODDrawer()
: SummaryDrawer(),
fSums(0),
fResults(0)
{}
-
//__________________________________________________________________
- /**
- *
- *
- * @param fname
- * @param what
- */
- void Run(const char* fname, UShort_t what=kNormal)
+ TFile* Init(const char* fname)
{
// --- Open the file ---------------------------------------------
TString filename(fname);
TFile* file = TFile::Open(filename, "READ");
if (!file) {
Error("Run", "Failed to open \"%s\"", filename.Data());
- return;
+ return 0;
}
-
// --- Get top-level collection ----------------------------------
fSums = GetCollection(file, "ForwardSums");
if (!fSums) {
Info("Run", "Trying old name Forward");
fSums = GetCollection(file, "Forward");
- if (!fSums) return;
+ if (!fSums) return 0;
}
// --- Do the results ----------------------------------------------
fResults = GetCollection(file, "ForwardResults");
if (!fResults) fResults = fSums; // Old-style
+ return file;
+ }
+ void SummarizeSharing(const char* fname, UShort_t what=0)
+ {
+ // --- Initialize ------------------------------------------------
+ TFile* file = 0;
+ if (!(file = Init(fname))) return;
+
// --- Make our canvas -------------------------------------------
- TString pdfName(filename);
+ TString pdfName("sharing.pdf");
+ pdfName.ReplaceAll(".root", ".pdf");
+ CreateCanvas(pdfName, what & kLandscape, true, false);
+
+ TCollection* c = GetCollection(fSums, "fmdSharingFilter");
+ if (!c) return;
+ TCollection* rc = GetCollection(fResults, "fmdSharingFilter");
+ if (!rc) rc = c;
+
+ Int_t nFiles = 0;
+ TParameter<int>* pnFiles =
+ static_cast<TParameter<int>*>(GetObject(c, "nFiles"));
+ if (pnFiles) {
+ nFiles = pnFiles->GetVal();
+ }
+
+ TCollection* lc = GetCollection(c, "lCuts");
+ TCollection* hc = GetCollection(c, "hCuts");
+ Int_t lm = 0;
+ Int_t hm = 0;
+ TH2* hLow = GetH2(c, "lowCuts");
+ TH2* hHigh = GetH2(c, "highCuts");
+ GetParameter(lc, "method", lm);
+ GetParameter(hc, "method", hm);
+ if (hLow && nFiles > 0 && !hLow->TestBit(BIT(20)))
+ hLow->Scale(1. / nFiles);
+ if (hHigh && nFiles > 0 && !hHigh->TestBit(BIT(20)))
+ hHigh->Scale(1. / nFiles);
+
+ DivideForRings(true,true);
+ const char** ptr = GetRingNames(false);
+ UShort_t iq = 1;
+ while (*ptr) {
+ TCollection* sc = GetCollection(c, *ptr);
+ if (!sc) { ptr++; iq++; continue; }
+ UShort_t d = Int_t((*ptr)[3])-48;
+ Char_t r = (*ptr)[4];
+
+ TH1* esdELoss = GetH1(sc, "esdEloss");
+ TH1* anaELoss = GetH1(sc, "anaEloss");
+ TGraph* lowCut = CreateCutGraph(lm, iq, hLow, esdELoss, kYellow+1);
+ TGraph* highCut = CreateCutGraph(hm, iq, hHigh, esdELoss, kCyan+1);
+ // Double_t ignCut = TMath::Max(lowCut->GetX()[3],0.);
+ // Int_t esdLow = esdELoss->FindBin(ignCut);
+ // Int_t anaLow = anaELoss->FindBin(ignCut);
+ // Double_t esdInt = esdELoss->Integral(esdLow,esdELoss->GetNbinsX()+1);
+ // Double_t anaInt = anaELoss->Integral(anaLow,anaELoss->GetNbinsX()+1);
+ // Double_t frac = esdInt > 0 ? (esdInt-anaInt)/esdInt : 1;
+ esdELoss->GetXaxis()->SetRangeUser(-.1, 2);
+
+ DrawInRingPad(d,r, esdELoss, "", kLogy, *ptr);
+ // "#Delta/#Delta_{mip} reconstructed and merged");
+ DrawInRingPad(d, r, anaELoss, "same");
+ DrawInRingPad(d, r, lowCut, "lf same");
+ DrawInRingPad(d, r, highCut, "lf same");
+ ptr++;
+ iq++;
+ }
+ TVirtualPad* p = RingPad(0,0);
+ p->cd();
+ TLegend* l = new TLegend(0.1, 0.1, 0.98, 0.98, "");
+ l->SetFillStyle(0);
+ l->SetFillColor(0);
+ l->SetBorderSize(0);
+ TLegendEntry* e = 0;
+ e = l->AddEntry("dummy", "ESD signal", "f");
+ e->SetFillStyle(3002);
+ e->SetFillColor(kBlack);
+ e = l->AddEntry("dummy", "Merged signal", "f");
+ e->SetFillStyle(3001);
+ e->SetFillColor(kBlack);
+ e = l->AddEntry("dummy", "Low cut", "f");
+ e->SetFillStyle(3002);
+ e->SetFillColor(kYellow+1);
+ e->SetLineWidth(0);
+ e->SetLineColor(kWhite);
+ e = l->AddEntry("dummy", "High cut", "f");
+ e->SetFillStyle(3002);
+ e->SetFillColor(kCyan+1);
+ e->SetLineWidth(0);
+ e->SetLineColor(kWhite);
+ l->Draw();
+
+ PrintCanvas("Summary of sharing filter");
+ CloseCanvas();
+
+ }
+ void SummarizeSteps(const char* fname, UShort_t what=0)
+ {
+ // --- Initialize ------------------------------------------------
+ TFile* file = 0;
+ if (!(file = Init(fname))) return;
+
+ // --- Make our canvas -------------------------------------------
+ TString pdfName("steps.pdf");
+ pdfName.ReplaceAll(".root", ".pdf");
+ CreateCanvas(pdfName, what & kLandscape, true, false);
+ DrawSteps();
+ CloseCanvas();
+ }
+
+ //__________________________________________________________________
+ /**
+ *
+ *
+ * @param fname
+ * @param what
+ */
+ void Run(const char* fname, UShort_t what=kNormal)
+ {
+ // --- Initialize ------------------------------------------------
+ TFile* file = 0;
+ if (!(file = Init(fname))) return;
+
+ // --- Make our canvas -------------------------------------------
+ TString pdfName(fname);
pdfName.ReplaceAll(".root", ".pdf");
CreateCanvas(pdfName, what & kLandscape);
DrawTitlePage(file);
// --- Set pause flag --------------------------------------------
fPause = what & kPause;
+ // Plot status if found
+ TH1* hStatus = GetH1(fSums, "status", false);
+ if (hStatus) {
+ hStatus->SetMaximum(hStatus->GetMaximum()*1.2);
+ fBody->SetRightMargin(0.10);
+ DrawInPad(fBody,0,hStatus, "hist text30");
+ PrintCanvas("Status");
+ }
+
// --- Do each sub-algorithm -------------------------------------
if (what & kEventInspector) DrawEventInspector(fSums);
+ if (what & kESDFixer) DrawESDFixer(fSums);
if (what & kSharingFilter) DrawSharingFilter();
if (what & kDensityCalculator) DrawDensityCalculator();
if (what & kCorrector) DrawCorrector();
Double_t y1 = eloss->GetMaximum();
Double_t min = 1000;
Double_t max = 0;
+ Int_t iiy = (iy == 4 ? 5 : iy == 5 ? 4 : iy);
if (method == 0) { // Fixed value
- max = cuts->GetBinContent(1, iy);
+ max = cuts->GetBinContent(1, iiy);
min = eloss->GetXaxis()->GetXmin();
}
else {
for (Int_t ix=1; ix <= cuts->GetNbinsX(); ix++) {
- Double_t c = cuts->GetBinContent(ix, iy);
+ Double_t c = cuts->GetBinContent(ix, iiy);
if (c <= 0.0001) continue;
min = TMath::Min(c, min);
max = TMath::Max(c, max);
const Char_t* CutMethodName(Int_t lm) const
{
switch (lm) {
- case 0: return "fixed";
- case 1: return "fraction of MPV";
- case 2: return "fit range";
- case 3: return "Landau width";
- case 4: return "Probability";
+ case 0: return "c=X";
+ case 1: return "c=X#times#Delta_{p}";
+ case 2: return "c:Lower bound of fit range";
+ case 3: return "c=#Delta_{p}-X#times#xi";
+ case 4: return "c=#Delta_{p}-X#times(#xi+#sigma)";
+ case 5: return "c:P(#Delta<c)<X";
}
return "unknown";
}
Int_t method = 0;
if (!GetParameter(c, "method", method)) return -1;
-
- Double_t val = 0;
- Bool_t sig = false;
- switch (method) {
- case 0: // Fixed
- DrawParameter(y, name, "fixed", size);
- break;
- case 1: // MPV
- GetParameter(c, "frac", val);
- DrawParameter(y, name, Form("Fraction of #Delta_{p} (%3d%%)",
- Int_t(val*100)), size);
- break;
- case 2: // Fit range
- DrawParameter(y, name, "Fit range");
- break;
- case 3: // Landau width
- GetParameter(c, "nXi", val);
- GetParameter(c, "sigma", sig);
- DrawParameter(y, name, Form("N#times%s#xi%s (N=%4.1f)",
- (sig ? "(" : ""),
- (sig ? "+#sigma)" : ""),
- val), size);
- break;
- case 4: // Probability;
- GetParameter(c, "probability", val);
- DrawParameter(y, name, Form("P(#Delta)<%f", val), size);
- break;
- default:
- DrawParameter(y, name, "Unknown", size);
- break;
+ DrawParameter(y, name, CutMethodName(method), size);
+
+ TString params;
+ const char* cuts[] = { "fmd1i", "fmd2i", "fmd2o", "fmd3i", "fmd3o", 0 };
+ const char** pcut = cuts;
+ while (*pcut) {
+ Double_t cut;
+ GetParameter(c, *pcut, cut, false);
+ if (pcut != cuts) params.Append(", ");
+ params.Append(Form("%5.2f", cut));
+ pcut++;
}
+ if (params.IsNull()) {
+ Double_t frac = 0;
+ GetParameter(c, "frac", frac);
+ params = Form("%f", frac);
+ }
+ DrawParameter(y, "Parameters", params, size);
return method;
}
//____________________________________________________________________
+ void DrawCut(TVirtualPad* parent, Int_t sub, TH2* cuts)
+ {
+ if (!cuts) return;
+ THStack* stack = new THStack(cuts,"x");
+ stack->SetTitle(cuts->GetTitle());
+ for (Int_t i = 1; i <= cuts->GetNbinsY(); i++) {
+ TH1* hist = static_cast<TH1*>(stack->GetHists()->At(i-1));
+ TString name(cuts->GetYaxis()->GetBinLabel(i));
+ UShort_t det = UShort_t(name[3]-48);
+ Char_t rng = name[4];
+ Color_t col = RingColor(det, rng);
+ hist->SetDirectory(0);
+ hist->SetTitle(name);
+ hist->SetMarkerStyle(20);
+ hist->SetMarkerColor(col);
+ hist->SetLineColor(col);
+ hist->SetFillColor(col);
+ hist->SetLineWidth(0);
+ hist->SetFillStyle(0);
+ hist->SetXTitle("#eta");
+ hist->SetYTitle(cuts->GetZaxis()->GetTitle());
+ }
+ DrawInPad(parent, sub, stack, "nostack p", kLegend|kCenter|kSouth);
+ }
+ //____________________________________________________________________
void DrawSharingFilter()
{
Info("DrawSharingFilter", "Drawing sharing filter");
fBody->Divide(1, 3, 0, 0);
fBody->cd(1);
- Double_t y = .8;
+ Double_t y = .95;
Bool_t angle=false, lowSignal=false, disabled=false;
-
+ Int_t nFiles = 0;
if (GetParameter(c, "angle", angle))
DrawParameter(y, "Angle correct", (angle ? "yes" : "no"));
if (GetParameter(c, "lowSignal", lowSignal))
DrawParameter(y, "Lower signal", (lowSignal ? "yes" : "no"));
- TParameter<int>* nFiles =
+ TParameter<int>* pnFiles =
static_cast<TParameter<int>*>(GetObject(c, "nFiles"));
- if (nFiles)
- DrawParameter(y, "# files merged", Form("%d", nFiles->GetVal()));
- if (GetParameter(c, "disabled", disabled))
+ if (pnFiles) {
+ nFiles = pnFiles->GetVal();
+ DrawParameter(y, "# files merged", Form("%d", nFiles));
+ }
+ if (GetParameter(c, "disabled", disabled, false))
DrawParameter(y, "Merging disabled", (disabled ? "yes" : "no"));
Int_t lm = 0;
DrawParameter(y, "Simple method", (simple ? "yes" : "no"));
if (GetParameter(c, "sumThree", three))
DrawParameter(y, "3-strip merging", (three ? "yes" : "no"));
-
+
TCollection* lc = GetCollection(c, "lCuts");
TCollection* hc = GetCollection(c, "hCuts");
lm = PrintCut(lc, y, "Low cut");
hm = PrintCut(hc, y, "High cut");
hLow = GetH2(c, "lowCuts");
hHigh = GetH2(c, "highCuts");
- // if (hLow && nFiles) hLow->Scale(1. / nFiles->GetVal());
- // if (hHigh && nFiles) hHigh->Scale(1. / nFiles->GetVal());
- DrawInPad(fBody, 2, hLow, "colz");
- DrawInPad(fBody, 3, hHigh, "colz");
+ if (hLow && nFiles > 0 && !hLow->TestBit(BIT(20)))
+ hLow->Scale(1. / nFiles);
+ if (hHigh && nFiles > 0 && !hHigh->TestBit(BIT(20)))
+ hHigh->Scale(1. / nFiles);
+ DrawCut(fBody, 2, hLow);
+ DrawCut(fBody, 3, hHigh);
}
PrintCanvas("Sharing filter");
else fBody->Divide(2,3);
TH1* esdELoss = GetH1(sc, "esdEloss");
- esdELoss->GetXaxis()->SetRangeUser(-.1, 2);
+ TH1* anaELoss = GetH1(sc, "anaEloss");
TGraph* lowCut = CreateCutGraph(lm, iq, hLow, esdELoss, kYellow+1);
TGraph* highCut = CreateCutGraph(hm, iq, hHigh, esdELoss, kCyan+1);
+ Double_t ignCut = TMath::Max(lowCut->GetX()[3],0.);
+ Int_t esdLow = esdELoss->FindBin(ignCut);
+ Int_t anaLow = anaELoss->FindBin(ignCut);
+ Double_t esdInt = esdELoss->Integral(esdLow,esdELoss->GetNbinsX()+1);
+ Double_t anaInt = anaELoss->Integral(anaLow,anaELoss->GetNbinsX()+1);
+ Double_t frac = esdInt > 0 ? (esdInt-anaInt)/esdInt : 1;
+ esdELoss->GetXaxis()->SetRangeUser(-.1, 2);
DrawInPad(fBody, 1, esdELoss, "", kLogy,
"#Delta/#Delta_{mip} reconstructed and merged");
- DrawInPad(fBody, 1, GetH1(sc, "anaEloss"), "same");
+ DrawInPad(fBody, 1, anaELoss, "same");
DrawInPad(fBody, 1, lowCut, "lf same");
- DrawInPad(fBody, 1, highCut, "lf same", kLogy|kLegend);
-
- DrawInPad(fBody, 2, GetH1(sc, "singleEloss"), "", kLogy,
+ DrawInPad(fBody, 1, highCut, "lf same", kLogy|kLegend|kNorth|kWest);
+ TVirtualPad* p = fBody->GetPad(1);
+ p->cd();
+ TLatex* l = new TLatex(1-p->GetRightMargin(),
+ 0.5, Form("Loss: %5.1f%%", frac*100));
+ l->SetNDC();
+ l->SetTextAlign(32);
+ l->Draw();
+ l->DrawLatex(1-p->GetRightMargin(), 0.45,
+ Form("%f #rightarrow #infty", ignCut));
+
+ TH1* singles = GetH1(sc, "singleEloss");
+ TH1* doubles = GetH1(sc, "doubleEloss");
+ TH1* tripples = GetH1(sc, "tripleEloss");
+ Double_t int1 = singles->Integral(0,singles->GetNbinsX()+1);
+ Double_t int2 = doubles->Integral(0,doubles->GetNbinsX()+1);
+ Double_t int3 = tripples->Integral(0,tripples->GetNbinsX()+1);
+ Double_t intT = int1 + int2 + int3;
+ Double_t f1 = intT > 0 ? int1 / intT : 0;
+ Double_t f2 = intT > 0 ? int2 / intT : 0;
+ Double_t f3 = intT > 0 ? int3 / intT : 0;
+
+ singles->GetXaxis()->SetRangeUser(-.1, 2);
+ DrawInPad(fBody, 2, singles, "", kLogy,
"#Delta/#Delta_{mip} for single, double, and tripple hits");
- DrawInPad(fBody, 2, GetH1(sc, "doubleEloss"), "same",kLogy);
- DrawInPad(fBody, 2, GetH1(sc, "tripleEloss"), "same",kLogy|kLegend);
+ DrawInPad(fBody, 2, doubles, "same", kLogy);
+ DrawInPad(fBody, 2, tripples, "same", kLogy);
+ DrawInPad(fBody, 2, lowCut, "lf same", kLogy);
+ DrawInPad(fBody, 2, highCut, "lf same", kLogy|kLegend|kNorth|kWest);
+ fBody->cd(2);
+ Double_t nameX = fParName->GetX();
+ Double_t valX = fParVal->GetX();
+ Double_t intY = 0.4;
+ fParName->SetX(0.5);
+ fParVal->SetX(0.7);
+ DrawParameter(intY, "Singles", Form("%5.1f%%", 100*f1), 0.05);
+ DrawParameter(intY, "Doubles", Form("%5.1f%%", 100*f2), 0.05);
+ DrawParameter(intY, "Tripples", Form("%5.1f%%", 100*f3), 0.05);
+ fParName->SetX(nameX);
+ fParVal->SetX(valX);
+
DrawInPad(fBody, 3, GetH2(sc, "singlePerStrip"), "colz",kLogz);
// DrawInPad(fBody, 4, GetH1(sc, "distanceBefore"), "", 0x2);
// DrawInPad(fBody, 4, GetH1(sc, "distanceAfter"), "same", 0x12);
TH2* nB = GetH2(sc, "neighborsBefore");
if (nB) {
- nB->GetXaxis()->SetRangeUser(0,8);
- nB->GetYaxis()->SetRangeUser(0,8);
+ nB->GetXaxis()->SetRangeUser(0,2);
+ nB->GetYaxis()->SetRangeUser(0,2);
+ }
+ DrawInPad(fBody, 5, nB, "colz cont3", kLogz,
+ "Correlation of neighbors before merging");
+
+ TH2* nA = GetH2(sc, "neighborsAfter");
+ if (nA) {
+ nA->GetXaxis()->SetRangeUser(0,2);
+ nA->GetYaxis()->SetRangeUser(0,2);
}
- DrawInPad(fBody, 5, nB, "colz", kLogz);
- DrawInPad(fBody, 5, GetH2(sc, "neighborsAfter"), "p same", kLogz,
- "Correlation of neighbors before and after merging");
- DrawInPad(fBody, 6, GetH2(sc, "beforeAfter"), "colz", kLogz);
+ DrawInPad(fBody, 6, nA, "colz cont3", kLogz,
+ "Correlation of neighbors after merging");
+
+ // DrawInPad(fBody, 6, GetH2(sc, "beforeAfter"), "colz", kLogz);
PrintCanvas(Form("Sharing filter - %s", *ptr));
ptr++;
// --- MC --------------------------------------------------------
TCollection* cc = GetCollection(c, "esd_mc_comparion", false); // Spelling!
- if (!cc) return; // Not MC
+ if (!cc) {
+ cc = GetCollection(c, "esd_mc_comparison", false); // Spelling!
+ if (!cc) return; // Not MC
+ }
DivideForRings(false, false);
const char** ptr = GetRingNames(false);
while (*ptr) {
- DrawInRingPad(GetH2(cc, Form("%s_corr", *ptr)), "colz", kLogz);
+ TString nam(Form("%s_corr", *ptr));
+ TH2* hc = GetH2(cc, nam, false);
+ if (!hc) {
+ nam[4] = (nam[4] == 'I' ? 'i' : 'o');
+ hc = GetH2(cc, nam, false);
+ if (!hc) {
+ ptr++;
+ continue;
+ }
+ }
+ DrawInRingPad(hc, "colz", kLogz);
ptr++;
}
// --- MC --------------------------------------------------------
DrawTrackDensity(c);
}
-
+ //__________________________________________________________________
+ /**
+ * Draw a slice fit on a 2D histogram
+ *
+ * @param inY Whether to slice in Y
+ * @param h 2D histogram
+ * @param nVar Number of variances
+ * @param p Master pad to draw in
+ * @param sub Sub pad number
+ * @param flags Flags
+ * @param cut Cut value
+ */
void ShowSliceFit(Bool_t inY, TH2* h, Double_t nVar,
TVirtualPad* p, Int_t sub, UShort_t flags=0,
Double_t cut=-1)
{
if (!h) return;
+ TAxis* indep = (inY ? h->GetXaxis() : h->GetYaxis());
+ TAxis* dep = (inY ? h->GetYaxis() : h->GetXaxis());
+
TObjArray* fits = new TObjArray;
fits->SetOwner();
- if (inY) h->FitSlicesY(0, 1, -1, 10, "QN", fits);
- else h->FitSlicesX(0, 1, -1, 10, "QN", fits);
+ // FitSlicesX sets onX to true. If onX is true, then it calls
+ // ProjectionX for each Y bin. That is, we fit each X slice.
+ Int_t minB = dep->FindBin(0.)+1;
+ Int_t maxB = dep->GetNbins();
+ Info("", "Bin range: %d - %d", minB, maxB);
+ if (inY) h->FitSlicesY(0, minB, maxB, 10, "QN", fits);
+ else h->FitSlicesX(0, minB, maxB, 10, "QN", fits);
if (!fits) {
Warning("ShowSliceFit", "No fits returned");
return;
}
+
+ // If inY is true then this is the mean,variance as a function of X
TH1* mean = static_cast<TH1*>(fits->At(1));
TH1* var = static_cast<TH1*>(fits->At(2));
if (!mean || !var) {
fits->Delete();
return;
}
+#if 0
+ TH1* hh[] = { mean, var, 0 };
+ for (Int_t ib=1; ib<=mean->GetNbinsX();ib++) {
+ TH1** hp = hh;
+ while (*hp) {
+ if ((*hp)->GetBinContent(ib) <= 0) {
+ (*hp)->SetBinContent(ib,0);
+ (*hp)->SetBinError(ib,0);
+ }
+ hp++;
+ }
+ }
+#endif
+
+ // If inY is true then this is the mean,variance as a function of X
TF1* fmean = new TF1("mean", "pol1");
TF1* fvar = new TF1("var", "pol1");
mean->Fit(fmean, "Q0+");
TGraphErrors* g = new TGraphErrors(h->GetNbinsX());
g->SetName(Form("g%s", h->GetName()));
- TString xTit = h->GetXaxis()->GetTitle();
- TString yTit = h->GetYaxis()->GetTitle();
- g->SetTitle(Form("Correlation of %s and %s",
- inY ? xTit.Data() : yTit.Data(),
- !inY ? xTit.Data() : yTit.Data()));
+ TString xTit = indep->GetTitle();
+ TString yTit = dep->GetTitle();
+ g->SetTitle(Form("Correlation of %s and %s",xTit.Data(),yTit.Data()));
g->SetFillColor(kBlue-10);
g->SetFillStyle(3001);
- TGraph* up = (cut > 0 ? new TGraph(h->GetNbinsX()) : 0);
- TGraph* low = (cut > 0 ? new TGraph(h->GetNbinsX()) : 0);
+ TGraph* up = (cut > 0 ? new TGraph(indep->GetNbins()) : 0);
+ TGraph* low = (cut > 0 ? new TGraph(indep->GetNbins()) : 0);
if (up) {
up ->SetLineColor(kBlack);
up ->SetLineWidth(2);
low->SetLineStyle(2);
}
for (Int_t i = 1; i <= h->GetNbinsX(); i++) {
- Double_t x = h->GetXaxis()->GetBinCenter(i);
+ Double_t x = indep->GetBinCenter(i);
Double_t y = fmean->Eval(x);
Double_t e = fvar->Eval(x);
+ // Double_t y = mean->GetBinContent(i);
+ // Double_t e = var->GetBinContent(i);
Double_t ee = nVar * e;
if (flags & 0x8000) ee *= e > 0 ? TMath::Log10(e) : 1;
- g->SetPoint(i-1, x, y);
- g->SetPointError(i-1, 0, ee);
-
- if (up) up ->SetPoint(i-1,x,x+cut*x);
- if (low) low->SetPoint(i-1,x,x-cut*x);
+ if (inY) {
+ g->SetPoint(i-1, x, y);
+ g->SetPointError(i-1, 0, ee);
+ }
+ else {
+ g->SetPoint(i-1, y, x);
+ g->SetPointError(i-1, ee, 0);
+ }
+ if (up) {
+ if (inY) up->SetPoint(i-1,x,x+cut*x);
+ else up->SetPoint(i-1,y+cut*y,y);
+ }
+ if (low) {
+ if (inY) low->SetPoint(i-1,x,x-cut*x);
+ else low->SetPoint(i-1,y-cut*y,y);
+ }
}
DrawInPad(p, sub, g, "3", flags);
if (up) DrawInPad(p, sub, up, "l", flags);
if (low) DrawInPad(p, sub, low, "l", flags);
- fmean->SetRange(h->GetXaxis()->GetXmin(), h->GetXaxis()->GetXmax());
+ fmean->SetRange(indep->GetXmin(), indep->GetXmax());
fmean->SetLineWidth(2);
DrawInPad(p, sub, fmean, "same", flags);
fmean->GetParameter(1), xTit.Data()));
l->SetNDC();
l->SetTextAlign(13);
- l->SetTextSize(0.04);
+ l->SetTextSize(fParVal->GetTextSize());
l->SetTextFont(42);
l->Draw();
l->DrawLatex(0.15, y-0.07,
fBody->Divide(2, 2);
fBody->cd(1);
- Double_t y = .8;
+ Double_t y = .9;
Int_t maxParticles=0, phiAcceptance=0, etaLumping=0, phiLumping=0;
- Bool_t method=false, recalcEta=false, recalcPhi=false;
- Double_t maxOutliers=0, outlierCut=0;
- Double_t size = fLandscape ? 0.06 : 0.04;
+ Bool_t method=false, recalcPhi=false;
+ Double_t maxOutliers=0, outlierCut=-1;
+ Double_t size = fLandscape ? 0.05 : 0.03;
GetParameter(c, "maxParticle", maxParticles);
Form("%2d #times %2d", phiLumping, etaLumping), size);
if (GetParameter(c, "method", method))
DrawParameter(y, "Method", (method ? "Poisson" : "#DeltaE"), size);
- if (GetParameter(c, "recalcEta", recalcEta))
- DrawParameter(y, "Recalculate #eta",(recalcEta ? "yes" : "no"),size);
if (GetParameter(c, "recalcPhi", recalcPhi))
DrawParameter(y, "Recalculate #phi",(recalcPhi ? "yes" : "no"),size);
- if (GetParameter(c, "maxOutliers", maxOutliers))
+ if (GetParameter(c, "maxOutliers", maxOutliers, false))
DrawParameter(y, "Max relative N_{outlier}",
Form("%5.3f",maxOutliers),size);
- if (GetParameter(c, "outlierCut", outlierCut))
+ Bool_t hasOutCut = false;
+ if ((hasOutCut = GetParameter(c, "outlierCut", outlierCut, false)))
DrawParameter(y, "Max relative deviation",Form("%5.3f",outlierCut),size);
DrawParameter(y, "# files merged", Form("%d", nFiles->GetVal()), size);
TCollection* lc = GetCollection(c, "lCuts");
- PrintCut(lc, y, "Threshold", size);
+ Int_t tm = PrintCut(lc, y, "Threshold", size);
TVirtualPad* p = fBody; // fBody->cd(2);
// p->Divide(3,1);
accI->Scale(scale);
accO->Scale(scale);
accI->SetMinimum(0);
+ accI->SetMaximum(1.3);
}
TH2* lCuts = GetH2(c, "lowCuts");
TH2* maxW = GetH2(c, "maxWeights");
if (nFiles && lCuts) lCuts->Scale(1. / nFiles->GetVal());
if (nFiles && maxW) maxW->Scale(1. / nFiles->GetVal());
DrawInPad(p, 2, accI);
- DrawInPad(p, 2, accO, "same", kLegend);
- DrawInPad(p, 3, lCuts, "colz");
- DrawInPad(p, 4, maxW, "colz");
+ DrawInPad(p, 2, accO, "same", kLegend|kNorth|kCenter);
+ DrawCut(p, 3, lCuts);
+ DrawCut(p, 4, maxW);
PrintCanvas("Density calculator");
+ Float_t save = fParVal->GetTextSize();
+ fParVal->SetTextSize(0.03);
+ UShort_t iq = 1;
const char** ptr = GetRingNames(false);
while (*ptr) {
TCollection* sc = GetCollection(c, *ptr);
else fBody->Divide(2,3);
TH2* corr = GetH2(sc, "elossVsPoisson");
- TH2* corrOut = GetH2(sc, "elossVsPoissonOutlier");
+ TH2* corrOut = GetH2(sc, "elossVsPoissonOutlier", false);
TH1* diff = GetH1(sc, "diffElossPoisson");
- TH1* diffOut = GetH1(sc, "diffElossPoissonOutlier");
+ TH1* diffOut = GetH1(sc, "diffElossPoissonOutlier", false);
TH1* eloss = GetH1(sc, "eloss");
TH1* elossUsed = GetH1(sc, "elossUsed");
TH1* occ = GetH1(sc, "occupancy");
if (eloss) eloss ->SetLineWidth(1);
if (elossUsed) elossUsed->SetLineWidth(1);
+ if (eloss) eloss->GetXaxis()->SetRangeUser(0.05, 2);
- DrawInPad(fBody, 1, corr, "colz", kLogz);
- DrawInPad(fBody, 1, corrOut, "same", kLogz);
- DrawInPad(fBody, 2, diff, "HIST E", kLogy);
- DrawInPad(fBody, 2, diffOut, "HIST E SAME", kLogy|kLegend);
- DrawInPad(fBody, 3, occ, "", kLogy);
- DrawInPad(fBody, 4, eloss, "", kLogy,
+ corr->SetXTitle("N_{ch,#Delta}");
+ corr->SetYTitle("N_{ch,Poisson}");
+ DrawInPad(fBody, 1, corr, "colz", kLogz);
+ if (corrOut)
+ DrawInPad(fBody,1, corrOut, "same", kLogz);
+ ShowSliceFit(true, corr, 10, fBody, 1, kLogz, outlierCut);
+
+ DrawInPad(fBody, 2, diff, "HIST E", kLogy);
+ if (diffOut)
+ DrawInPad(fBody,2, diffOut, "HIST E SAME", kLogy|kLegend|kNorth|kWest);
+ DrawInPad(fBody, 3, occ, "", kLogy);
+ DrawInPad(fBody, 4, eloss, "", kLogy,
"#Delta/#Delta_{mip} before and after cuts");
- DrawInPad(fBody, 4, elossUsed, "same", kLogy|kLegend);
+ DrawInPad(fBody, 4, elossUsed, "same", kLogy);
+ TGraph* thres = CreateCutGraph(tm, iq, lCuts, eloss, kYellow+1);
+ DrawInPad(fBody, 4, thres, "lf same", kLogy|kLegend|kNorth|kWest);
+
+ if (eloss && elossUsed) {
+ Int_t lowBin = eloss->GetXaxis()->FindBin(0.)+1;
+ Int_t upBin = eloss->GetNbinsX()+1;
+ Double_t beforeInt = eloss->Integral(lowBin,upBin);
+ Double_t afterInt = elossUsed->Integral(lowBin,upBin);
+ Double_t frac = beforeInt > 0 ? (beforeInt-afterInt)/beforeInt : 1;
+ TVirtualPad* pp = fBody->GetPad(4);
+ pp->cd();
+ TLatex* l = new TLatex(1-pp->GetRightMargin(),
+ 0.5, Form("Loss: %5.1f%%", frac*100));
+ l->SetNDC();
+ l->SetTextAlign(32);
+ l->Draw();
+ }
+
+
TH1* phiB = GetH1(sc, "phiBefore");
TH1* phiA = GetH1(sc, "phiAfter");
- TH1* outliers = GetH1(sc, "outliers");
+ TH1* outliers = GetH1(sc, "outliers", false);
if (outliers)
DrawInPad(fBody, 5, outliers, "hist", kLogy);
else if (phiB && phiA) {
}
DrawInPad(fBody, 6, GetH2(sc, "phiAcc"), "colz", kLogz);
- ShowSliceFit(true, corr, 10, fBody, 1, kLogz, outlierCut);
if (diff && diffOut) {
fBody->cd(2);
}
PrintCanvas(Form("Density calculator - %s", *ptr));
ptr++;
+ iq++;
}
TCollection* cc = GetCollection(c, "esd_mc_comparison", false);
- if (!cc) return; // Not MC
+ if (!cc) {
+ fParVal->SetTextSize(save);
+ return; // Not MC
+ }
- fBody->Divide(2,5);
ptr = GetRingNames(false);
- Int_t cnt = 0;
+ THStack* profiles = new THStack("profiles", "MC-ESD");
+ // Int_t cnt = 0;
while (*ptr) {
- DrawInPad(fBody, 2*cnt+1, GetH2(cc, Form("%s_corr_mc_esd", *ptr)),
- "colz", kLogz);
- DrawInPad(fBody, 2*(cnt+1), GetH2(cc, Form("%s_diff_mc_esd", *ptr)),
- "", kLogz);
+ fBody->Divide(2,1);
+
+ TH2* corr = GetH2(cc, Form("%s_corr_mc_esd", *ptr));
+ if (corr) {
+ // corr->GetXaxis()->SetRangeUser(-1,51);
+ // corr->GetYaxis()->SetRangeUser(-1,51);
+ corr->SetXTitle("MC");
+ corr->SetYTitle("ANA");
+ TH1* h = new TH1F("",Form("Correlation of N_{ch,incl} for %s", *ptr),
+ corr->GetNbinsX(),
+ corr->GetXaxis()->GetXmin(),
+ corr->GetXaxis()->GetXmax());
+ h->SetMinimum(corr->GetYaxis()->GetXmin());
+ h->SetMaximum(1.2*corr->GetYaxis()->GetXmax());
+ h->SetXTitle("MC"); // corr->GetXaxis()->GetTitle());
+ h->SetYTitle(corr->GetYaxis()->GetTitle());
+ DrawInPad(fBody, 1, h, "", kLogz);
+ DrawInPad(fBody, 1, corr, "colz same", kLogz);
+ ShowSliceFit(true, corr, 1, fBody, 1, 0, -1);
+ }
+ TH1* diff = GetH1(cc, Form("%s_diff_mc_esd", *ptr));
+ if (diff && diff->GetEntries() > 0) {
+ // diff->Rebin(2);
+ diff->Smooth(3);
+ diff->Scale(1./diff->GetEntries(), "width");
+ TF1* f = new TF1(Form("%s_tri", *ptr),
+ "[0]*TMath::Exp(-TMath::Abs(x-[1])/[2])",-20,20);
+ f->SetParNames("A", "x_{0}", "w");
+ f->SetParameters(1, diff->GetMean(), diff->GetRMS());
+ diff->Fit(f,"RQ0+");
+ DrawInPad(fBody, 2, diff, "", kLogy);
+ DrawInPad(fBody, 2, f, "same", kLogy);
+ Double_t py = .88;
+ TLatex* l = new TLatex(.89, py, "Ae^{-|x-x_{0}|/w}");
+ l->SetTextAlign(33);
+ l->SetTextSize(fParVal->GetTextSize());
+ l->SetTextFont(42);
+ l->SetNDC();
+ l->Draw();
+ py -= fParVal->GetTextSize();
+ l->DrawLatex(.89, py, Form("#chi^{2}/#nu=%f", f->GetNDF()>0 ?
+ f->GetChisquare()/f->GetNDF() : 0));
+ for (Int_t i = 0; i < 3; i++) {
+ py -= fParVal->GetTextSize();
+ l->DrawLatex(.89, py, Form("%s: %f #pm %f", f->GetParName(i),
+ f->GetParameter(i), f->GetParError(i)));
+ }
+ }
+ TH2* vs = GetH2(cc, Form("%s_esd_vs_mc", *ptr));
+ if (vs) {
+ const Double_t lVs = -0.3;
+ const Double_t hVs = +0.4;
+ Int_t nX = vs->GetNbinsX();
+ Int_t nY = vs->GetNbinsY();
+ TProfile* vsp = new TProfile(Form("%s_esd_vs_mc_px", *ptr), *ptr,
+ nX, vs->GetXaxis()->GetXmin(),
+ vs->GetXaxis()->GetXmax());
+ vsp->SetXTitle(vs->GetXaxis()->GetTitle());
+ vsp->SetYTitle("#LT#deltaN_{ch}#GT");
+ vsp->SetLineColor(diff->GetLineColor());
+ vsp->SetMarkerColor(diff->GetLineColor());
+ vsp->SetFillColor(diff->GetLineColor());
+ vsp->SetDirectory(0);
+ Bool_t hasSome = false;
+ for (Int_t ix = 1; ix <= nX; ix++) {
+ Double_t vsx = vs->GetXaxis()->GetBinCenter(ix);
+ for (Int_t iy = 1; iy <= nY; iy++) {
+ Double_t vsc = vs->GetBinContent(ix, iy);
+ Double_t vse = vs->GetBinError(ix, iy);
+ if (vsc < lVs || vsc > hVs) continue;
+ hasSome = true;
+ vsp->Fill(vsx, vsc, vse);
+ }
+ }
+ if (hasSome) profiles->Add(vsp);
+ else delete vsp;
+ }
+ PrintCanvas(Form("Density calculator - MC vs Reco - %s", *ptr));
ptr++;
- cnt++;
+ // cnt++;
}
-
- PrintCanvas("Density calculator - MC vs Reco");
+ if (profiles->GetHists() && profiles->GetHists()->GetEntries() > 0) {
+ Double_t pmax = profiles->GetMaximum("nostack")*1.3;
+ profiles->SetMaximum(+pmax);
+ profiles->SetMinimum(-pmax);
+ DrawInPad(fBody, 0, profiles, "nostack");
+ PrintCanvas("Density calculator - MC vs Reco - All");
+ }
+
+ fParVal->SetTextSize(save);
}
//____________________________________________________________________
// p->cd(2);
// Printf("Drawing skipped");
- TH1* skipped = GetH1(c, "skipped");
+ TH1* skipped = GetH1(c, "skipped", false);
if (skipped) {
skipped->SetFillColor(kRed+1);
skipped->SetFillStyle(3001);
// MakeChapter(can, "Steps");
THStack* esds = GetStack(GetCollection(fResults, "fmdSharingFilter"),
- "sumsESD", "summedESD");
+ "sumsESD", "summedESD",false);
THStack* deltas = GetStack(GetCollection(fResults, "fmdSharingFilter"),
- "sums", "summed");
+ "sums", "summed",false);
THStack* nchs = GetStack(GetCollection(fResults,
"fmdDensityCalculator"),
- "sums", "inclDensity");
+ "sums", "inclDensity",false);
THStack* prims = GetStack(GetCollection(fResults, "fmdCorrector"),
- "sums", "primaryDensity");
- THStack* rings = GetStack(GetCollection(fResults, "ringResults"), "all");
+ "sums", "primaryDensity",false);
+ THStack* rings = GetStack(GetCollection(fResults, "ringResults"),
+ "all",0, false);
THStack* mcRings = GetStack(GetCollection(fResults, "mcRingResults", false),
"all","dndeta_eta", false);
- TH1* dndeta = GetH1(fResults, "dNdeta");
+ TH1* dndeta = GetH1(fResults, "dNdeta", false);
if (dndeta) dndeta->SetMarkerColor(kBlack);
+ if (!(esds || deltas || nchs || prims || rings)) return;
FixStack(esds, "#sum_{s} #Delta/#Delta_{mip}", "", 20);
FixStack(deltas, "#sum_{c} #Delta/#Delta_{mip}", "", 21);
l->SetBorderSize(0);
TLegendEntry* e = 0;
- TH1* h = 0;
- if (mcRings) {
- h = static_cast<TH1*>(mcRings->GetHists()->At(0));
- AddLegendEntry(l, h, mcRings->GetTitle());
- }
-
- if (esds) {
- h = static_cast<TH1*>(esds->GetHists()->At(0));
- AddLegendEntry(l, h, esds->GetTitle());
- }
-
- if (deltas) {
- h = static_cast<TH1*>(deltas->GetHists()->At(0));
- AddLegendEntry(l, h, deltas->GetTitle());
- }
-
- if (nchs) {
- h = static_cast<TH1*>(nchs->GetHists()->At(0));
- AddLegendEntry(l, h, nchs->GetTitle());
- }
-
- if (prims) {
- h = static_cast<TH1*>(prims->GetHists()->At(0));
- AddLegendEntry(l, h, prims->GetTitle());
- }
-
- if (rings) {
- h = static_cast<TH1*>(rings->GetHists()->At(0));
- AddLegendEntry(l, h, rings->GetTitle());
+ THStack* stacks[] = { mcRings,
+ esds,
+ deltas,
+ nchs,
+ prims,
+ rings };
+
+ Int_t nHist = 0;
+ for (Int_t i = 0; i < 6; i++) {
+ if (!stacks[i]) continue;
+ TH1* h = static_cast<TH1*>(stacks[i]->GetHists()->At(0));
+ AddLegendEntry(l, h, stacks[i]->GetTitle());
+ nHist++;
}
-
if (res) {
- h = res;
- AddLegendEntry(l, h, h->GetTitle());
+ AddLegendEntry(l, res, res->GetTitle());
+ nHist++;
}
- TObject* objs[] = { mcRings,
- esds,
- deltas,
- nchs,
- prims,
- rings,
+ TObject* objs[] = { stacks[0],
+ stacks[1],
+ stacks[2],
+ stacks[3],
+ stacks[4],
+ stacks[5],
dndeta };
const char* titles[] = { /* 1 */ "MC",
/* 2 */ "ESD input",
/* 5 */ "After corrections",
/* 6 */ "After normalization",
/* 7 */ "After combining" };
- Int_t nY = mcRings ? 4 : 3;
+ Int_t nY = nHist > 6 ? 4 : 3;
Int_t nX = 2;
if (fLandscape) {
Int_t tmp = nX;
TH1* c1 = GetH1(central, "dNdeta_");
TH1* f2 = GetH1(forward, "dNdeta");
TH1* c2 = GetH1(central, "dNdeta");
+ if (!f1 || !c1 || !f2 || !c2) return;
f1->SetLineColor(kBlack);
f2->SetLineColor(kBlack);
c1->SetLineColor(kBlack);