1 #if !defined(__CINT__) || defined(__MAKECINT__)
14 #include <TObjArray.h>
15 #include "AliCDBEntry.h"
16 #include "AliITSDriftSpeedArraySDD.h"
17 #include "AliITSDriftSpeedSDD.h"
18 #include "AliITSgeomTGeo.h"
21 // Macro to plot the calibration parameters from the OCDB file
22 // created from an INJECTOR run (OCDB/ITS/Calib/DriftSpeedSDD)
23 // Two methods ShowDriftSpeedSDD:
24 // - the first takes the name of the file to be displayed
25 // - the second builds the alien path+name from run number and file version
27 // Origin: F. Prino (prino@to.infn.it)
29 Bool_t kNoDraw = kFALSE; // set to kTRUE to eliminate module dependent plots
32 void ShowDriftSpeedSDD(Char_t filnam[150]="$ALICE_ROOT/ITS/Calib/DriftSpeedSDD/Run0_9999999_v0_s0.root", Int_t firstmod=0, Int_t lastmod=260,Int_t nrun=0){
33 TFile *f= TFile::Open(filnam);
34 AliCDBEntry *ent=(AliCDBEntry*)f->Get("AliCDBEntry");
35 TObjArray *drspSDD = (TObjArray *)ent->GetObject();
36 AliITSDriftSpeedArraySDD *vdriftarr0;
37 AliITSDriftSpeedArraySDD *vdriftarr1;
39 TH2F* hlay3=new TH2F("hlay3","Injector Status Layer 3",12,-0.5,5.5,14,-0.5,13.5);
40 hlay3->GetXaxis()->SetTitle("Detector");
41 hlay3->GetYaxis()->SetTitle("Ladder");
42 hlay3->GetXaxis()->SetTickLength(0);
43 hlay3->GetYaxis()->SetTickLength(0);
45 hlay3->SetMinimum(-0.01);
46 hlay3->SetMaximum(7.);
47 TH2F* hlay4=new TH2F("hlay4","Injector Status Layer 4",16,-0.5,7.5,22,-0.5,21.5);
48 hlay4->GetXaxis()->SetTitle("Detector");
49 hlay4->GetYaxis()->SetTitle("Ladder");
50 hlay4->GetXaxis()->SetTickLength(0);
51 hlay4->GetYaxis()->SetTickLength(0);
52 hlay4->GetYaxis()->SetTitle("Ladder");
54 hlay4->SetMinimum(-0.01);
55 hlay4->SetMaximum(7.);
57 TGraph **gvdr0=new TGraph*[260];
58 TGraph **gvdr1=new TGraph*[260];
60 if(!kNoDraw)c0=new TCanvas("c0","Module Drift Speed",700,1000);
62 TGraph *tempvsmod0=new TGraph(0);
63 TGraph *tempvsmod1=new TGraph(0);
64 TGraph *vvsmod0=new TGraph(0);
65 TGraph *vvsmod1=new TGraph(0);
66 TGraph *poldegvsmod0=new TGraph(0);
67 TGraph *poldegvsmod1=new TGraph(0);
68 TGraph *anmaxvsmod0=new TGraph(0);
69 TGraph *anmaxvsmod1=new TGraph(0);
70 TGraph *dvcevsmod0=new TGraph(0);
71 TGraph *dvcevsmod1=new TGraph(0);
72 TGraph *dveevsmod0=new TGraph(0);
73 TGraph *dveevsmod1=new TGraph(0);
76 sprintf(tit0,"Temperature vs. mod. number");
77 if(nrun!=0)sprintf(tit0,"Temperature vs. mod. number - Run %d",nrun);
78 tempvsmod0->SetTitle(tit0);
79 tempvsmod1->SetTitle(tit0);
81 sprintf(tit0,"Drift Speed vs. mod. number");
82 if(nrun!=0)sprintf(tit0,"Drift Speed vs. mod. number - Run %d",nrun);
83 vvsmod0->SetTitle(tit0);
84 vvsmod1->SetTitle(tit0);
86 sprintf(tit0,"Degree of poly fit vs. mod. number");
87 if(nrun!=0)sprintf(tit0,"Degree of poly fit vs. mod. number - Run %d",nrun);
88 poldegvsmod0->SetTitle(tit0);
89 poldegvsmod1->SetTitle(tit0);
91 sprintf(tit0,"Anode with max. vdrift vs. mod. number");
92 if(nrun!=0)sprintf(tit0,"Anode with max. vdrift vs. mod. number - Run %d",nrun);
93 anmaxvsmod0->SetTitle(tit0);
94 anmaxvsmod1->SetTitle(tit0);
96 sprintf(tit0,"Delta Vdrift 128-0 vs. mod. number");
97 if(nrun!=0)sprintf(tit0,"Delta Vdrift 128-0 vs. mod. number - Run %d",nrun);
98 dvcevsmod0->SetTitle(tit0);
99 dvcevsmod1->SetTitle(tit0);
101 sprintf(tit0,"Delta Vdrift 256-0 vs. mod. number");
102 if(nrun!=0)sprintf(tit0,"Delta Vdrift 256-0 vs. mod. number - Run %d",nrun);
103 dveevsmod0->SetTitle(tit0);
104 dveevsmod1->SetTitle(tit0);
106 TF1* fPoly=new TF1("fPoly","pol3",0.,256.);
108 TString psnm0 = "vdriftSDD.ps[";
109 TString psnm1 = "vdriftSDD.ps";
110 TString psnm2 = "vdriftSDD.ps]";
111 if(!kNoDraw) c0->Print(psnm0.Data());
115 TLatex* tleft=new TLatex(0.2,0.82,"Side 0");
117 tleft->SetTextColor(1);
118 TLatex* tright=new TLatex(0.2,0.75,"Side 1");
120 tright->SetTextColor(2);
122 for(Int_t i=firstmod; i<lastmod; i++){
125 AliITSgeomTGeo::GetModuleId(iMod,lay,lad,det);
128 vdriftarr0=(AliITSDriftSpeedArraySDD*)drspSDD->At(i0);
129 vdriftarr1=(AliITSDriftSpeedArraySDD*)drspSDD->At(i1);
130 AliITSDriftSpeedSDD* vdrift0=0x0;
131 if(vdriftarr0) vdrift0=vdriftarr0->GetDriftSpeedObject(0);
132 AliITSDriftSpeedSDD* vdrift1=0x0;
133 if(vdriftarr1) vdrift1=vdriftarr1->GetDriftSpeedObject(0);
135 gvdr0[i]=new TGraph(0);
136 gvdr1[i]=new TGraph(0);
137 gvdr0[i]->SetMarkerStyle(7);
138 gvdr1[i]->SetMarkerStyle(7);
139 gvdr0[i]->SetMarkerColor(kBlack);
140 gvdr0[i]->SetLineColor(kBlack);
141 gvdr0[i]->SetMinimum(5.);
142 gvdr1[i]->SetMinimum(5.);
143 gvdr0[i]->SetMaximum(7.5);
144 gvdr1[i]->SetMaximum(7.5);
145 sprintf(tit,"Mod %d\n",iMod);
146 gvdr0[i]->SetTitle(tit);
147 gvdr1[i]->SetTitle(tit);
148 gvdr1[i]->SetMarkerColor(kRed);
149 gvdr1[i]->SetLineColor(kRed);
151 for(Int_t iAn=0; iAn<256; iAn++){
153 if(vdrift0) vel0=vdrift0->GetDriftSpeedAtAnode(iAn);
155 if(vdrift1) vel1=vdrift1->GetDriftSpeedAtAnode(iAn);
156 gvdr0[i]->SetPoint(iAn,(Float_t)iAn,vel0);
157 gvdr1[i]->SetPoint(iAn,(Float_t)iAn,vel1);
159 Int_t statusInj0=vdriftarr0->GetInjectorStatus();
160 Int_t statusInj1=vdriftarr1->GetInjectorStatus();
161 if(statusInj0>0) iGoodInj++;
163 if(statusInj1>0) iGoodInj++;
166 printf(" Mod. %d \tStatusLR=%X %X \t v(an 128l)= %f",iMod,statusInj0,statusInj1,vdriftarr0->GetDriftSpeed(0,128));
167 printf(" \t v(an 128r)= %f Degree=%d %d\n",vdriftarr1->GetDriftSpeed(0,128),vdrift0->GetDegreeofPoly(),vdrift1->GetDegreeofPoly());
169 Int_t n7=(statusInj0&(0x1F<<25))>>25;
170 Int_t n6=(statusInj0&(0x1F<<20))>>20;
171 Int_t n5=(statusInj0&(0x1F<<15))>>15;
172 Int_t n4=(statusInj0&(0x1F<<5))>>10;
173 Int_t n3=(statusInj0&(0x1F<<5))>>5;
174 Int_t n2=statusInj0&0x1F;
175 Float_t aveStatus0=(7.*n7+6.*n6+5.*n5+4.*n4+3.*n3+2.*n2)/32.;
176 n7=(statusInj1&(0x1F<<25))>>25;
177 n6=(statusInj1&(0x1F<<20))>>20;
178 n5=(statusInj1&(0x1F<<15))>>15;
179 n4=(statusInj1&(0x1F<<5))>>10;
180 n3=(statusInj1&(0x1F<<5))>>5;
182 Float_t aveStatus1=(7.*n7+6.*n6+5.*n5+4.*n4+3.*n3+2.*n2)/32.;
184 Int_t index=1+(det-1)*2;
186 hlay3->SetBinContent(index,lad,aveStatus0);
187 hlay3->SetBinContent(index+1,lad,aveStatus1);
190 hlay4->SetBinContent(index,lad,aveStatus0);
191 hlay4->SetBinContent(index+1,lad,aveStatus1);
200 if (i) c0->Print(psnm1.Data());
206 gvdr0[i]->Draw("AP");
207 gvdr0[i]->GetXaxis()->SetTitle("Anode");
208 gvdr0[i]->GetYaxis()->SetTitle("Vdrift (#mum/ns)");
209 gvdr1[i]->Draw("P same");
210 gvdr1[i]->GetXaxis()->SetTitle("Anode");
211 gvdr1[i]->GetYaxis()->SetTitle("Vdrift (#mum/ns)");
219 vel0=vdrift0->GetDriftSpeedAtAnode(128);
220 pd0=vdrift0->GetDegreeofPoly();
225 vel1=vdrift1->GetDriftSpeedAtAnode(128);
226 pd1=vdrift1->GetDegreeofPoly();
228 Float_t Edrift=(1800-45)/291/0.012;
229 Float_t mob0=vel0*1.E5/Edrift;
230 Float_t temper0=293.15*TMath::Power((mob0/1350.),-1/2.4);
231 Float_t mob1=vel1*1.E5/Edrift;
232 Float_t temper1=293.15*TMath::Power((mob1/1350.),-1/2.4);
233 tempvsmod0->SetPoint(tempvsmod0->GetN(),(Float_t)iMod,temper0);
234 tempvsmod1->SetPoint(tempvsmod1->GetN(),(Float_t)iMod,temper1);
235 vvsmod0->SetPoint(vvsmod0->GetN(),(Float_t)iMod,vel0);
236 vvsmod1->SetPoint(vvsmod1->GetN(),(Float_t)iMod,vel1);
237 poldegvsmod0->SetPoint(poldegvsmod0->GetN(),(Float_t)iMod,pd0);
238 poldegvsmod1->SetPoint(poldegvsmod1->GetN(),(Float_t)iMod,pd1);
240 for(Int_t ipar=0; ipar<=vdrift0->GetDegreeofPoly(); ipar++){
241 fPoly->SetParameter(ipar,vdrift0->GetDriftSpeedParameter(ipar));
243 if(vdrift0->GetDegreeofPoly()<3){
244 for(Int_t ipar=vdrift0->GetDegreeofPoly()+1; ipar<=3; ipar++) fPoly->SetParameter(ipar,0.);
247 anmaxvsmod0->SetPoint(anmaxvsmod0->GetN(),(Float_t)iMod,fPoly->GetMaximumX(0.,256.));
248 dvcevsmod0->SetPoint(dvcevsmod0->GetN(),(Float_t)iMod,fPoly->Eval(128)-fPoly->Eval(0));
249 dveevsmod0->SetPoint(dveevsmod0->GetN(),(Float_t)iMod,fPoly->Eval(256)-fPoly->Eval(0));
251 for(Int_t ipar=0; ipar<=vdrift1->GetDegreeofPoly(); ipar++){
252 fPoly->SetParameter(ipar,vdrift1->GetDriftSpeedParameter(ipar));
254 if(vdrift1->GetDegreeofPoly()<3){
255 for(Int_t ipar=vdrift1->GetDegreeofPoly()+1; ipar<=3; ipar++) fPoly->SetParameter(ipar,0.);
257 anmaxvsmod1->SetPoint(anmaxvsmod1->GetN(),(Float_t)iMod,fPoly->GetMaximumX(0.,256.));
258 dvcevsmod1->SetPoint(dvcevsmod1->GetN(),(Float_t)iMod,fPoly->Eval(128)-fPoly->Eval(0));
259 dveevsmod1->SetPoint(dveevsmod1->GetN(),(Float_t)iMod,fPoly->Eval(256)-fPoly->Eval(0));
267 c0->Print(psnm2.Data());
269 printf("Number of half-modules with drift speed from injectors = %d\n",iGoodInj);
270 printf("Number of half-modules with average drift speed = %d\n",iAverSpeed);
272 gStyle->SetPalette(59);
274 TCanvas* clay=new TCanvas("clay","Injector Status",900,600);
278 TLine** linv3=new TLine*[5];
279 for(Int_t i=0;i<5;i++){
280 linv3[i]=new TLine(i+0.5,-0.5,i+0.5,13.5);
281 linv3[i]->SetLineColor(kGray+1);
284 TLine** linh3=new TLine*[13];
285 for(Int_t i=0;i<13;i++){
286 linh3[i]=new TLine(-0.5,i+0.5,5.5,i+0.5);
287 linh3[i]->SetLineColor(kGray+1);
292 TLine** linv4=new TLine*[7];
293 for(Int_t i=0;i<7;i++){
294 linv4[i]=new TLine(i+0.5,-0.5,i+0.5,21.5);
295 linv4[i]->SetLineColor(kGray+1);
298 TLine** linh4=new TLine*[21];
299 for(Int_t i=0;i<21;i++){
300 linh4[i]=new TLine(-0.5,i+0.5,7.5,i+0.5);
301 linh4[i]->SetLineColor(kGray+1);
308 c2=new TCanvas("c2","Vdrift vs. mod",1000,700);
309 vvsmod0->SetMarkerStyle(20);
311 vvsmod0->GetXaxis()->SetTitle("Module Number");
312 vvsmod0->GetYaxis()->SetTitle("Vdrift (#mum/ns)");
313 vvsmod1->SetMarkerStyle(21);
314 vvsmod1->SetMarkerColor(2);
315 vvsmod1->Draw("SAMEP");
320 c2t=new TCanvas("c2t","Temper vs. mod",1000,700);
321 tempvsmod0->SetMarkerStyle(20);
322 tempvsmod0->Draw("AP");
323 tempvsmod0->GetXaxis()->SetTitle("Module Number");
324 tempvsmod0->GetYaxis()->SetTitle("Temperature (K)");
325 tempvsmod1->SetMarkerStyle(21);
326 tempvsmod1->SetMarkerColor(2);
327 tempvsmod1->Draw("SAMEP");
332 c3=new TCanvas("c3","Params vs. mod",900,900);
336 gPad->SetLeftMargin(0.14);
337 poldegvsmod0->SetMarkerStyle(20);
338 poldegvsmod0->Draw("AP");
339 poldegvsmod0->GetXaxis()->SetTitle("Module Number");
340 poldegvsmod0->GetYaxis()->SetTitle("Degree of Polynomial fit");
341 poldegvsmod0->GetYaxis()->SetTitleOffset(1.4);
342 poldegvsmod1->SetMarkerStyle(21);
343 poldegvsmod1->SetMarkerColor(2);
344 poldegvsmod1->Draw("SAMEP");
348 gPad->SetLeftMargin(0.14);
349 anmaxvsmod0->SetMarkerStyle(20);
350 anmaxvsmod0->Draw("AP");
351 anmaxvsmod0->GetXaxis()->SetTitle("Module Number");
352 anmaxvsmod0->GetYaxis()->SetTitle("Anode with max. drift speed");
353 anmaxvsmod0->GetYaxis()->SetTitleOffset(1.4);
354 anmaxvsmod1->SetMarkerStyle(21);
355 anmaxvsmod1->SetMarkerColor(2);
356 anmaxvsmod1->Draw("SAMEP");
360 gPad->SetLeftMargin(0.14);
361 dvcevsmod0->SetMarkerStyle(20);
362 dvcevsmod0->Draw("AP");
363 dvcevsmod0->GetXaxis()->SetTitle("Module Number");
364 dvcevsmod0->GetYaxis()->SetTitle("vdrift(anode128)-vdrift(anode0)");
365 dvcevsmod0->GetYaxis()->SetTitleOffset(1.4);
366 dvcevsmod1->SetMarkerStyle(21);
367 dvcevsmod1->SetMarkerColor(2);
368 dvcevsmod1->Draw("SAMEP");
372 gPad->SetLeftMargin(0.14);
373 dveevsmod0->SetMarkerStyle(20);
374 dveevsmod0->Draw("AP");
375 dveevsmod0->GetYaxis()->SetTitleOffset(1.4);
376 dveevsmod0->GetXaxis()->SetTitle("Module Number");
377 dveevsmod0->GetYaxis()->SetTitle("vdrift(anode256)-vdrift(anode0)");
378 dveevsmod1->SetMarkerStyle(21);
379 dveevsmod1->SetMarkerColor(2);
380 dveevsmod1->Draw("SAMEP");
389 void ShowDriftSpeedSDD(Int_t nrun, Int_t year=2010, Int_t nv=-1){
390 TGrid::Connect("alien:",0,0,"t");
391 TString cmd=Form("gbbox find \"/alice/data/%d/OCDB/ITS/Calib/DriftSpeedSDD\" \"Run%d*.root\" > run.txt",year,nrun);
393 cmd.Form("gbbox find \"/alice/data/%d/OCDB/ITS/Calib/DriftSpeedSDD\" \"Run%d_999999999_v%d_s0.root\" > run.txt",year,nrun,nv);
395 gSystem->Exec(cmd.Data());
397 Char_t filnam[200],filnamalien[200];
398 FILE* runtxt=fopen("run.txt","r");
399 fscanf(runtxt,"%s\n",filnam);
400 if(!strstr(filnam,"/alice/data/")){
401 printf("Bad run number\n");
402 gSystem->Exec("rm run.txt");
405 sprintf(filnamalien,"alien://%s",filnam);
407 printf("Open file: %s\n",filnamalien);
408 ShowDriftSpeedSDD(filnamalien,0,260,nrun);
410 gSystem->Exec("rm run.txt");