Changeset 3853 for trunk/MagicSoft/Mars
- Timestamp:
- 04/27/04 18:51:50 (21 years ago)
- Location:
- trunk/MagicSoft/Mars
- Files:
-
- 2 added
- 5 edited
Legend:
- Unmodified
- Added
- Removed
-
trunk/MagicSoft/Mars/Changelog
r3852 r3853 36 36 37 37 2004/04/27: Markus Gaug 38 39 * mjobs/MJCalibration.[h,cc] 40 - put the three camera drawing facilities into a separate base 41 class MGCamDisplays 42 43 * mjobs/MGCamDisplays.[h,cc] 44 * mjobs/Makefile 45 * mjobs/JobsLinkDef.h 46 - camera drawing facilities: CamDraw, DrawProjection and 47 DrawRadialProfile, used by all jobs 38 48 39 49 * mcalib/MCalibrationChargeCalc.cc -
trunk/MagicSoft/Mars/mjobs/JobsLinkDef.h
r2992 r3853 9 9 #pragma link C++ class MJExtractSignal+; 10 10 11 #pragma link C++ class MGCamDisplays+; 12 11 13 #endif -
trunk/MagicSoft/Mars/mjobs/MJCalibration.cc
r3851 r3853 158 158 } 159 159 160 // --------------------------------------------------------------------------161 //162 // Draw the MHCamera into the MStatusDisplay:163 //164 // 1) Draw it as histogram (MHCamera::DrawCopy("hist")165 // 2) Draw it as a camera, with MHCamera::SetPrettyPalette() set.166 // 3) If "rad" is not zero, draw its values vs. the radius from the camera center.167 // (DrawRadialProfile())168 // 4) Depending on the variable "fit", draw the values projection on the y-axis169 // (DrawProjection()):170 // 0: don't draw171 // 1: Draw fit to Single Gauss (for distributions flat-fielded over the whole camera)172 // 2: Draw and fit to Double Gauss (for distributions different for inner and outer pixels)173 // 3: Draw and fit to Triple Gauss (for distributions with inner, outer pixels and outliers)174 // 4: Draw and fit to Polynomial grade 0: (for the probability distributions)175 // >4: Draw and don;t fit.176 //177 void MJCalibration::CamDraw(TCanvas &c, const Int_t x, const Int_t y, const MHCamera &cam1,178 const Int_t fit, const Int_t rad)179 {180 181 c.cd(x);182 gPad->SetBorderMode(0);183 gPad->SetTicks();184 MHCamera *obj1=(MHCamera*)cam1.DrawCopy("hist");185 obj1->SetDirectory(NULL);186 187 c.cd(x+y);188 gPad->SetBorderMode(0);189 obj1->SetPrettyPalette();190 obj1->AddNotify(&fCalibrationCam);191 obj1->Draw();192 193 if (rad)194 {195 c.cd(x+2*y);196 gPad->SetBorderMode(0);197 gPad->SetTicks();198 DrawRadialProfile(obj1);199 }200 201 202 if (!fit)203 return;204 205 c.cd(rad ? x+3*y : x+2*y);206 gPad->SetBorderMode(0);207 gPad->SetTicks();208 DrawProjection(obj1, fit);209 }210 160 211 161 // -------------------------------------------------------------------------- … … 677 627 } 678 628 679 // --------------------------------------------------------------------------680 //681 // Draw a projection of MHCamera onto the y-axis values. Depending on the682 // variable fit, the following fits are performed:683 //684 // 1: Single Gauss (for distributions flat-fielded over the whole camera)685 // 2: Double Gauss (for distributions different for inner and outer pixels)686 // 3: Triple Gauss (for distributions with inner, outer pixels and outliers)687 // 4: flat (for the probability distributions)688 //689 // Moreover, sectors 6,1 and 2 of the camera and sectors 3,4 and 5 are690 // drawn separately, for inner and outer pixels.691 //692 void MJCalibration::DrawProjection(MHCamera *obj, Int_t fit) const693 {694 695 TH1D *obj2 = (TH1D*)obj->Projection(obj->GetName());696 obj2->SetDirectory(0);697 obj2->Draw();698 obj2->SetBit(kCanDelete);699 700 if (obj->GetGeomCam().InheritsFrom("MGeomCamMagic"))701 {702 TArrayI s0(3);703 s0[0] = 6;704 s0[1] = 1;705 s0[2] = 2;706 707 TArrayI s1(3);708 s1[0] = 3;709 s1[1] = 4;710 s1[2] = 5;711 712 TArrayI inner(1);713 inner[0] = 0;714 715 TArrayI outer(1);716 outer[0] = 1;717 718 // Just to get the right (maximum) binning719 TH1D *half[4];720 half[0] = obj->ProjectionS(s0, inner, "Sector 6-1-2 Inner");721 half[1] = obj->ProjectionS(s1, inner, "Sector 3-4-5 Inner");722 half[2] = obj->ProjectionS(s0, outer, "Sector 6-1-2 Outer");723 half[3] = obj->ProjectionS(s1, outer, "Sector 3-4-5 Outer");724 725 for (int i=0; i<4; i++)726 {727 half[i]->SetLineColor(kRed+i);728 half[i]->SetDirectory(0);729 half[i]->SetBit(kCanDelete);730 half[i]->Draw("same");731 }732 }733 734 const Double_t min = obj2->GetBinCenter(obj2->GetXaxis()->GetFirst());735 const Double_t max = obj2->GetBinCenter(obj2->GetXaxis()->GetLast());736 const Double_t integ = obj2->Integral("width")/2.5;737 const Double_t mean = obj2->GetMean();738 const Double_t rms = obj2->GetRMS();739 const Double_t width = max-min;740 741 const TString dgausformula = "([0]-[3])/[2]*exp(-0.5*(x-[1])*(x-[1])/[2]/[2])"742 "+[3]/[5]*exp(-0.5*(x-[4])*(x-[4])/[5]/[5])";743 744 const TString tgausformula = "([0]-[3]-[6])/[2]*exp(-0.5*(x-[1])*(x-[1])/[2]/[2])"745 "+[3]/[5]*exp(-0.5*(x-[4])*(x-[4])/[5]/[5])"746 "+[6]/[8]*exp(-0.5*(x-[7])*(x-[7])/[8]/[8])";747 TF1 *f=0;748 switch (fit)749 {750 case 1:751 f = new TF1("sgaus", "gaus(0)", min, max);752 f->SetLineColor(kYellow);753 f->SetBit(kCanDelete);754 f->SetParNames("Area", "#mu", "#sigma");755 f->SetParameters(integ/rms, mean, rms);756 f->SetParLimits(0, 0, integ);757 f->SetParLimits(1, min, max);758 f->SetParLimits(2, 0, width/1.5);759 760 obj2->Fit(f, "QLR");761 break;762 763 case 2:764 f = new TF1("dgaus",dgausformula.Data(),min,max);765 f->SetLineColor(kYellow);766 f->SetBit(kCanDelete);767 f->SetParNames("A_{tot}", "#mu1", "#sigma1", "A2", "#mu2", "#sigma2");768 f->SetParameters(integ,(min+mean)/2.,width/4.,769 integ/width/2.,(max+mean)/2.,width/4.);770 // The left-sided Gauss771 f->SetParLimits(0,integ-1.5 , integ+1.5);772 f->SetParLimits(1,min+(width/10.), mean);773 f->SetParLimits(2,0 , width/2.);774 // The right-sided Gauss775 f->SetParLimits(3,0 , integ);776 f->SetParLimits(4,mean, max-(width/10.));777 f->SetParLimits(5,0 , width/2.);778 obj2->Fit(f,"QLRM");779 break;780 781 case 3:782 f = new TF1("tgaus",tgausformula.Data(),min,max);783 f->SetLineColor(kYellow);784 f->SetBit(kCanDelete);785 f->SetParNames("A_{tot}","#mu_{1}","#sigma_{1}",786 "A_{2}","#mu_{2}","#sigma_{2}",787 "A_{3}","#mu_{3}","#sigma_{3}");788 f->SetParameters(integ,(min+mean)/2,width/4.,789 integ/width/3.,(max+mean)/2.,width/4.,790 integ/width/3.,mean,width/2.);791 // The left-sided Gauss792 f->SetParLimits(0,integ-1.5,integ+1.5);793 f->SetParLimits(1,min+(width/10.),mean);794 f->SetParLimits(2,width/15.,width/2.);795 // The right-sided Gauss796 f->SetParLimits(3,0.,integ);797 f->SetParLimits(4,mean,max-(width/10.));798 f->SetParLimits(5,width/15.,width/2.);799 // The Gauss describing the outliers800 f->SetParLimits(6,0.,integ);801 f->SetParLimits(7,min,max);802 f->SetParLimits(8,width/4.,width/1.5);803 obj2->Fit(f,"QLRM");804 break;805 806 case 4:807 obj2->Fit("pol0", "Q");808 obj2->GetFunction("pol0")->SetLineColor(kYellow);809 break;810 811 case 9:812 break;813 814 default:815 obj2->Fit("gaus", "Q");816 obj2->GetFunction("gaus")->SetLineColor(kYellow);817 break;818 }819 }820 821 // --------------------------------------------------------------------------822 //823 // Draw a projection of MHCamera vs. the radius from the central pixel.824 //825 // The inner and outer pixels are drawn separately, both fitted by a polynomial826 // of grade 1.827 //828 void MJCalibration::DrawRadialProfile(MHCamera *obj) const829 {830 831 TProfile *obj2 = (TProfile*)obj->RadialProfile(obj->GetName());832 obj2->SetDirectory(0);833 obj2->Draw();834 obj2->SetBit(kCanDelete);835 836 if (obj->GetGeomCam().InheritsFrom("MGeomCamMagic"))837 {838 839 TArrayI s0(6);840 s0[0] = 1;841 s0[1] = 2;842 s0[2] = 3;843 s0[3] = 4;844 s0[4] = 5;845 s0[5] = 6;846 847 TArrayI inner(1);848 inner[0] = 0;849 850 TArrayI outer(1);851 outer[0] = 1;852 853 // Just to get the right (maximum) binning854 TProfile *half[2];855 half[0] = obj->RadialProfileS(s0, inner,Form("%s%s",obj->GetName(),"Inner"));856 half[1] = obj->RadialProfileS(s0, outer,Form("%s%s",obj->GetName(),"Outer"));857 858 for (Int_t i=0; i<2; i++)859 {860 Double_t min = obj->GetGeomCam().GetMinRadius(i);861 Double_t max = obj->GetGeomCam().GetMaxRadius(i);862 863 half[i]->SetLineColor(kRed+i);864 half[i]->SetDirectory(0);865 half[i]->SetBit(kCanDelete);866 half[i]->Draw("same");867 half[i]->Fit("pol1","Q","",min,max);868 half[i]->GetFunction("pol1")->SetLineColor(kRed+i);869 half[i]->GetFunction("pol1")->SetLineWidth(1);870 }871 }872 }873 629 874 630 -
trunk/MagicSoft/Mars/mjobs/MJCalibration.h
r3836 r3853 14 14 #include "MBadPixelsCam.h" 15 15 #endif 16 #ifndef MARS_MGCamDisplays 17 #include "MGCamDisplays.h" 18 #endif 16 19 17 class TCanvas;18 class MHCamera;19 class MCamEvent;20 20 class MRunIter; 21 21 class MParList; 22 22 class MPedestalCam; 23 class MJCalibration : public MParContainer 23 class MJCalibration : public MParContainer, public MGCamDisplays 24 24 { 25 25 private: … … 46 46 UInt_t fExtractorLevel; // Level signal extractor (e.g. MExtractSignal2) 47 47 UInt_t fArrivalTimeLevel; // Level arr. time extractor (e.g. MArrivalTimeCalc2) 48 49 void DrawProjection ( MHCamera *obj, Int_t fit) const; // Draw projection of pixels values50 void DrawRadialProfile( MHCamera *obj) const; // Draw projection of pixels values onto camera radius51 void CamDraw(TCanvas &c, const Int_t x, const Int_t y, const MHCamera &cam1,52 const Int_t fit, const Int_t rad=0); // Draw histograms into the MStatusDisplay53 48 54 49 void DisplayResult(MParList &plist); -
trunk/MagicSoft/Mars/mjobs/Makefile
r3816 r3853 34 34 SRCFILES = MJPedestal.cc \ 35 35 MJCalibration.cc \ 36 MJExtractSignal.cc 36 MJExtractSignal.cc \ 37 MGCamDisplays.cc 37 38 38 39 SRCS = $(SRCFILES)
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