// --- AliRoot header files ---
#include "AliLog.h"
+#include "AliCDBManager.h"
+#include "AliCDBEntry.h"
#include "AliQAv1.h"
#include "AliQAChecker.h"
+#include "AliQAThresholds.h"
#include "AliEMCALQAChecker.h"
ClassImp(AliEMCALQAChecker)
//__________________________________________________________________
AliEMCALQAChecker::AliEMCALQAChecker() :
AliQACheckerBase("EMCAL","EMCAL Quality Assurance Data Maker"),
-fTextSM(new TText*[fknSM]),
+fTextSM(new TText*[fgknSM]),
fLineCol(new TLine(47.5,-0.5,47.5,119.5)),
fText(new TPaveText(0.2,0.7,0.8,0.9,"NDC"))
{
fTextSM[2]= new TText(20, 60, "SM A2");
fTextSM[3]= new TText(20, 84, "SM A3");
fTextSM[4]= new TText(20, 108,"SM A4");
+ fTextSM[5]= new TText(20, 132,"SM A5");
- fTextSM[5]= new TText(64, 12, "SM C0");
- fTextSM[6]= new TText(64, 36, "SM C1");
- fTextSM[7]= new TText(64, 60, "SM C2");
- fTextSM[8]= new TText(64, 84, "SM C3");
- fTextSM[9]= new TText(64, 108,"SM C4");
+ fTextSM[6]= new TText(64, 12, "SM C0");
+ fTextSM[7]= new TText(64, 36, "SM C1");
+ fTextSM[8]= new TText(64, 60, "SM C2");
+ fTextSM[9]= new TText(64, 84, "SM C3");
+ fTextSM[10]= new TText(64, 108,"SM C4");
+ fTextSM[11]= new TText(64, 132,"SM C5");
- for(int i = 0; i < 4; i++) {
+ for(int i = 0; i < 5; i++) {
fLineRow[i] = new TLine(-0.5,23.5+(24*i),95.5,23.5+(24*i));
fLineRow[i]->SetLineColor(1);
fLineRow[i]->SetLineWidth(2);
}
+ for(int i = 0; i < 3; i++) {
+ fTextL1[i] = new TPaveText(0.2,0.8,0.8,0.9,"NDC");
+ }
+
}
/// dtor
delete [] fTextSM ;
delete fLineCol ;
- for (Int_t i=0; i<4; ++i) delete fLineRow[i] ;
+ for (Int_t i=0; i<5; ++i) delete fLineRow[i] ;
delete fText ;
}
-//__________________________________________________________________
-AliEMCALQAChecker::AliEMCALQAChecker(const AliEMCALQAChecker& qac) :
-AliQACheckerBase(qac.GetName(), qac.GetTitle()),
-fTextSM(new TText*[fknSM]) ,
-fLineCol(static_cast<TLine*>(qac.fLineCol->Clone())) ,
-fText(new TPaveText(0.2,0.7,0.8,0.9,"NDC"))
-{
- // copy ctor
- for (Int_t sm = 0 ; sm < fknSM ; sm++){
- fTextSM[sm] = static_cast<TText *>(qac.fTextSM[sm]->Clone()) ;
- }
- for(Int_t i = 0 ; i < 4 ; i++) {
-
- fLineRow[i] = static_cast<TLine*>(qac.fLineRow[i]->Clone()) ;
- }
-}
-//__________________________________________________________________
-AliEMCALQAChecker& AliEMCALQAChecker::operator = (const AliEMCALQAChecker &qac)
-{
- fTextSM = new TText*[fknSM] ;
- fLineCol = static_cast<TLine*>(qac.fLineCol->Clone()) ;
- fText = new TPaveText(0.2,0.7,0.8,0.9,"NDC") ;
- for (Int_t sm = 0 ; sm < fknSM ; sm++){
- fTextSM[sm] = static_cast<TText *>(qac.fTextSM[sm]->Clone()) ;
- }
- for(Int_t i = 0; i < 4; i++) {
-
- fLineRow[i] = static_cast<TLine*>(qac.fLineRow[i]->Clone()) ;
- }
- return *this ;
-}
-
//______________________________________________________________________________
void AliEMCALQAChecker::Check(Double_t * test, AliQAv1::ALITASK_t index, TObjArray ** list, const AliDetectorRecoParam * /*recoParam*/)
{
if ( index == AliQAv1::kRAW )
{
CheckRaws(test, list);
- printf ("checkers for task %d \n", index) ;
+ //printf ("checkers for task %d \n", index) ;
}
if ( index == AliQAv1::kREC)
{
CheckESD(test, list);
}
- AliWarning(Form("Checker for task %d not implement for the moment",index));
+ //AliWarning(Form("Checker for task %d not implement for the moment",index));
}
//______________________________________________________________________________
//adding new checking method: 25/04/2010, Yaxian Mao
//Comparing the amplitude from current run to the reference run, if the ratio in the range [0.8, .12], count as a good tower.
//If more than 90% towers are good, EMCAL works fine, otherwise experts should be contacted.
+
+
+ // Retrieve the thresholds
+ Float_t ratioThresh = 0.9; // threshold for calibration ratio = good towers/all towers (default 0.9)
+ Float_t ThreshG = 0.5; // threshold for L1 Gamma triggers (default 0.5)
+ Float_t ThreshJ = 0.5; // threshold for L1 Jet triggers (default 0.5)
+ Int_t badLinkThresh = 1; // threshold for bad links (default 1)
+
+ AliCDBManager* man = AliCDBManager::Instance();
+ if(man){
+ AliCDBEntry* entry = man->Get("GRP/Calib/QAThresholds");
+ if(entry){
+ TObjArray* branch = (TObjArray*) entry->GetObject();
+ if(branch){
+ AliQAThresholds* thresholds = (AliQAThresholds*) branch->FindObject("EMC");
+ if(thresholds){
+ TParameter<float>* ParamR = (TParameter<float>*) thresholds->GetThreshold(0);
+ TParameter<float>* ParamG = (TParameter<float>*) thresholds->GetThreshold(1);
+ TParameter<float>* ParamJ = (TParameter<float>*) thresholds->GetThreshold(2);
+ TParameter<int>* ParamL = (TParameter<int>*) thresholds->GetThreshold(3);
+ if(ParamR)
+ ratioThresh = ParamR->GetVal();
+ if(ParamG)
+ ThreshG = ParamG->GetVal();
+ if(ParamJ)
+ ThreshJ = ParamJ->GetVal();
+ if(ParamL)
+ badLinkThresh = ParamL->GetVal();
+ }
+ }
+ }
+ }
-
- //Float_t kThreshold = 80. ;
Int_t nTowersPerSM = 24*48; // number of towers in a SuperModule; 24x48
- Double_t nTot = fknSM * nTowersPerSM ;
+ Double_t nTot = fgknSM * nTowersPerSM ;
+ TList *lstF = 0;
+ Int_t calibSpecieId = (Int_t)TMath::Log2( AliRecoParam::kCalib );
for (Int_t specie = 0 ; specie < AliRecoParam::kNSpecies ; specie++) {
+
test[specie] = 0.0 ;
- if ( !AliQAv1::Instance()->IsEventSpecieSet(specie))
- continue ;
- if (list[specie]->GetEntries() == 0)
- test[specie] = 0. ; // nothing to check
+ if ( !AliQAv1::Instance()->IsEventSpecieSet(specie)) continue ;
+ if (list[specie]->GetEntries() == 0) test[specie] = 0. ; // nothing to check
else {
+ //get calib histos
TH2F * hdata = (TH2F*)list[specie]->At(k2DRatioAmp) ;
TH1F * ratio = (TH1F*)list[specie]->At(kRatioDist) ;
- if(hdata->GetEntries()==0 || ratio->GetEntries()==0)
- continue;
- //adding the lines to distinguish different SMs
- if ( hdata->GetListOfFunctions()->GetEntries() == 0 ){
- hdata->GetListOfFunctions()->Add(fLineCol);
- for(Int_t iLine = 0; iLine < 4; iLine++) {
- hdata->GetListOfFunctions()->Add(fLineRow[iLine]);
- }
- //Now adding the text to for each SM
- for(Int_t iSM = 0 ; iSM < fknSM ; iSM++){ //number of SMs loop start
- hdata->GetListOfFunctions()->Add(fTextSM[iSM]);
- }
- }
- if ( ratio->GetListOfFunctions()->GetEntries() == 0 ){ //adding the object at the beginning
- ratio->GetListOfFunctions()->Add(fText) ;
- }
-
- //now check the ratio histogram
- Double_t binContent = 0. ;
- Int_t NGoodTower = 0 ;
- Double_t rv = 0. ;
- for(Int_t ix = 1; ix <= hdata->GetNbinsX(); ix++) {
- for(Int_t iy = 1; iy <= hdata->GetNbinsY(); iy++) {
- binContent = hdata->GetBinContent(ix, iy) ;
- if (binContent < 1.2 && binContent > 0.8)
- NGoodTower++ ;
- }
- }
- rv = NGoodTower/nTot ;
- printf("%2.2f %% towers out of range [0.8, 1.2]\n", (1-rv)*100);
- if(fText){
- fText->Clear() ;
-
- fText->AddText(Form("%2.2f %% towers out of range [0.8, 1.2]", (1-rv)*100));
- if (rv < 0.9) {
- test[specie] = 0.9 ;
- // 2 lines text info for quality
- fText->SetFillColor(2) ;
- fText->AddText(Form("EMCAL = NOK, CALL EXPERTS!!!"));
- }
- else {
- test[specie] = 0.1 ;
- fText->SetFillColor(3) ;
- fText->AddText(Form("EMCAL = OK, ENJOY..."));
- }
- //hdata->Reset("ICE");
- //ratio->Reset("ICE");
- }//fText
- }
- } //finish the checking
+
+ //get L1 histos
+ TH2F *hL1GammaPatch = (TH2F*)list[specie]->At(kGL1);
+ TH2F *hL1JetPatch = (TH2F*)list[specie]->At(kJL1);
+ TH1I *hFrameR = (TH1I*)list[specie]->At(kSTUTRU);
+
+
+ // =======================================================================================
+ //calib histo checker first:
+ if( hdata && ratio ){
+
+ // first clean lines, text (functions)
+ lstF = hdata->GetListOfFunctions();
+ CleanListOfFunctions(lstF);
+ lstF = ratio->GetListOfFunctions();
+ CleanListOfFunctions(lstF);
+
+ if(hdata->GetEntries()!=0 && ratio->GetEntries()!=0) {
+
+ lstF = hdata->GetListOfFunctions();
+
+ //adding the lines to distinguish different SMs
+ lstF->Add(fLineCol->Clone());
+ for(Int_t iLine = 0; iLine < 5; iLine++) {
+ lstF->Add(fLineRow[iLine]->Clone());
+ }
+ //Now adding the text to for each SM
+ for(Int_t iSM = 0 ; iSM < fgknSM ; iSM++){ //number of SMs loop start
+ lstF->Add(fTextSM[iSM]->Clone());
+ }
+
+
+ //now check the ratio histogram
+ lstF = ratio->GetListOfFunctions();
+
+ Double_t binContent = 0. ;
+ Int_t nGoodTower = 0 ;
+ Double_t rv = 0. ;
+ for(Int_t ix = 1; ix <= hdata->GetNbinsX(); ix++) {
+ for(Int_t iy = 1; iy <= hdata->GetNbinsY(); iy++) {
+ binContent = hdata->GetBinContent(ix, iy) ;
+ if (binContent < 1.2 && binContent > 0.8) nGoodTower++ ;
+ }
+ }
+ rv = nGoodTower/nTot ;
+ //printf("%2.2f %% towers out of range [0.8, 1.2]\n", (1-rv)*100);
+ if(fText){
+ lstF->Add(fText->Clone()) ;
+ fText->Clear() ;
+
+ fText->AddText(Form("%2.2f %% towers out of range [0.8, 1.2]", (1-rv)*100));
+ if (rv < ratioThresh) {
+ test[specie] = ratioThresh;
+ // 2 lines text info for quality
+ fText->SetFillColor(2) ;
+ fText->AddText(Form("EMCAL = NOK, CALL EXPERTS!!!"));
+ }
+ else {
+ test[specie] = 1 - ratioThresh;
+ fText->SetFillColor(3) ;
+ fText->AddText(Form("EMCAL = OK, ENJOY..."));
+ }
+ }//fText
+ }//calib histo checking done
+ }//histograms NOT NULL
+
+ // ========================================================================================
+ // now L1 checks:
+
+ if( hL1GammaPatch ){
+
+ // first clean lines, text (functions)
+ lstF = hL1GammaPatch->GetListOfFunctions();
+ CleanListOfFunctions(lstF);
+
+ if (specie != calibSpecieId) {
+ //if(hL1GammaPatch->GetEntries() !=0 ) {
+ if(hL1GammaPatch->GetEntries() > 10) { // need some statistics for hot spot calculation
+ lstF = hL1GammaPatch->GetListOfFunctions();
+
+ // Checker for L1GammaPatch
+ //Double_t dL1GmeanTrig = 1./2961.;
+ //Double_t dL1GmeanTrigTRU = 1./32.;
+ //Int_t sigmaG = 100; // deviation from mean value (increased to 100)
+ //Int_t sigmaGTRU = 5; // deviation from mean value for TRUs
+ Double_t dL1GEntries = hL1GammaPatch->GetEntries();
+ Int_t badL1G[48][64] = {{0}} ;
+ Int_t badL1GTRU[2][16] = {{0}} ;
+ Int_t nBadL1G = 0;
+ Int_t nBadL1GTRU = 0;
+ Double_t binContentTRU[2][16] = {{0.}};
+ for(Int_t ix = 1; ix <= hL1GammaPatch->GetNbinsX(); ix++) {
+ for(Int_t iy = 1; iy <= hL1GammaPatch->GetNbinsY(); iy++) {
+ Double_t binContent = hL1GammaPatch->GetBinContent(ix, iy) ;
+ if (binContent != 0) {
+
+ // fill counter for TRUs
+ binContentTRU[(Int_t)((ix-1)/24)][(Int_t)((iy-1)/4)] += binContent;
+
+ // OLD METHOD (if a patch triggers > sigmaG * mean value (1/#patch positions total) says "hot spot !")
+ // if ((double)binContent/(double)dL1GEntries > sigmaG*dL1GmeanTrig) {
+ // badL1G[ix-1][iy-1] += 1;
+ // nBadL1G += 1;
+ // }
+
+ // NEW METHOD (if Rate > Threshold * ( (Number of towers or TRUs * Average rate) - Rate ) --> "hot spot !")
+ // Thresold = how much does the noisy tower/TRU contribute to the rate
+ // 1.0 --> Rate of noisy tower/TRU = Rate of all other towers/TRUs
+ if (binContent/dL1GEntries > ThreshG / ( 1 + ThreshG )) {
+ badL1G[ix-1][iy-1] += 1;
+ nBadL1G += 1;
+ }
+ }
+ }
+ }
+
+ // check TRUs
+ for(Int_t ix = 1; ix <= 2; ix++) {
+ for(Int_t iy = 1; iy <= 16; iy++) {
+ if(binContentTRU[ix-1][iy-1]/dL1GEntries > ThreshG / ( 1 + ThreshG )) {
+ badL1GTRU[ix-1][iy-1] += 1;
+ nBadL1GTRU += 1;
+ }
+ }
+ }
+
+ if(fTextL1[0]){
+ lstF->Add(fTextL1[0]->Clone()) ;
+ fTextL1[0]->Clear() ;
+
+ if (nBadL1G == 0 && nBadL1GTRU == 0 ) {
+ fTextL1[0]->SetFillColor(3) ;
+ fTextL1[0]->AddText(Form("L1 GAMMA TRIGGER = OK, ENJOY..."));
+ }
+ else if (nBadL1G == 0){
+ fTextL1[0]->SetFillColor(2) ;
+ fTextL1[0]->AddText(Form("HOT SPOT IN L1 GAMMA TRIGGER (TRU) = CALL EXPERT!!"));
+
+ }
+ else{
+ fTextL1[0]->SetFillColor(2) ;
+ fTextL1[0]->AddText(Form("HOT SPOT IN L1 GAMMA TRIGGER = CALL EXPERT!!"));
+ /*
+ for(Int_t ix = 1; ix <= hL1GammaPatch->GetNbinsX(); ix++) {
+ for(Int_t iy = 1; iy <= hL1GammaPatch->GetNbinsY(); iy++) {
+ if(badL1G[ix-1][iy-1] != 0) printf("L1 Gamma patch with position x = %d, y = %d is out of range\n",ix,iy);
+ }
+ }
+ */
+ }
+ }//fTextL1[0]
+ }// L1 gamma patch checking done
+ }// if (specie != calibSpecieId) ..
+ }//hL1GammaPatch NOT NULL
+
+ if( hL1JetPatch ){
+
+ lstF = hL1JetPatch->GetListOfFunctions();
+ CleanListOfFunctions(lstF);
+
+ if (specie != calibSpecieId) {
+
+ //if(hL1JetPatch->GetEntries() !=0) {
+ if(hL1JetPatch->GetEntries() > 10) { // need some statistics for hot spot calculation
+
+ lstF = hL1JetPatch->GetListOfFunctions();
+
+ // Checker for L1JetPatch
+ //Double_t dL1JmeanTrig = 1/126.;
+ //Int_t sigmaJ = 5; // deviation from mean value
+ Double_t dL1JEntries = hL1JetPatch->GetEntries();
+ Int_t badL1J[12][16] = {{0}} ;
+ Int_t nBadL1J = 0;
+ for(Int_t ix = 1; ix <= hL1JetPatch->GetNbinsX(); ix++) {
+ for(Int_t iy = 1; iy <= hL1JetPatch->GetNbinsY(); iy++) {
+ Double_t binContent = hL1JetPatch->GetBinContent(ix, iy) ;
+ if (binContent != 0) {
+
+ // OLD METHOD (if a patch triggers > sigmaJ * mean value (1/#patch positions total) says "hot spot !")
+ // if ((double)binContent/(double)dL1JEntries > sigmaJ*dL1JmeanTrig) {
+ // badL1J[ix-1][iy-1] += 1 ;
+ // nBadL1J += 1;
+ // }
+
+ // NEW METHOD (if Rate > Threshold * ( (Number of towers or TRUs * Average rate) - Rate ) --> "hot spot !")
+ // Threshold: same definitionas for Gamma
+ if ((double)binContent/(double)dL1JEntries > ThreshJ / ( 1 + ThreshJ )) {
+ badL1J[ix-1][iy-1] += 1 ;
+ nBadL1J += 1;
+ }
+ }
+ }
+ }
+
+ if(fTextL1[1]){
+ lstF->Add(fTextL1[1]->Clone()) ;
+ fTextL1[1]->Clear() ;
+
+ if (nBadL1J == 0) {
+ fTextL1[1]->SetFillColor(3) ;
+ fTextL1[1]->AddText(Form("L1 JET TRIGGER = OK, ENJOY..."));
+ }
+ else {
+ fTextL1[1]->SetFillColor(2) ;
+ fTextL1[1]->AddText(Form("HOT SPOT IN L1 JET TRIGGER = CALL EXPERT!!"));
+ /*
+ for(Int_t ix = 1; ix <= hL1JetPatch->GetNbinsX(); ix++) {
+ for(Int_t iy = 1; iy <= hL1JetPatch->GetNbinsY(); iy++) {
+ if(badL1J[ix-1][iy-1] != 0) printf("L1 Jet patch with position x = %d, y = %d is out of range\n",(4*ix-4),(4*iy-4));
+ }
+ }
+ */
+
+ }
+ }//fTextL1[1]
+ } // L1 Jet patch checking done
+ } // if (specie != calibSpecieId) ..
+ }// hL1JetPatch NOT NULL
+
+ if(hFrameR){
+
+ lstF = hFrameR->GetListOfFunctions();
+ CleanListOfFunctions(lstF);
+
+ if(hFrameR->GetEntries() !=0) {
+ lstF = hFrameR->GetListOfFunctions();
+
+ Int_t badLink[32] = {0};
+ Int_t nBadLink = 0;
+ for(Int_t ix = 1; ix <= hFrameR->GetNbinsX(); ix++) {
+ Double_t binContent = hFrameR->GetBinContent(ix) ;
+ if (binContent == 0) {
+ badLink[ix-1] += 1;
+ nBadLink += 1;
+ }
+ }
+ if(fTextL1[2]){
+ lstF->Add(fTextL1[2]->Clone()) ;
+ fTextL1[2]->Clear() ;
+
+ if (nBadLink < badLinkThresh) {
+ fTextL1[2]->SetFillColor(3) ;
+ fTextL1[2]->AddText(Form("LINK TRU-STU = OK, ENJOY..."));
+ }
+ else {
+ fTextL1[2]->SetFillColor(2) ;
+ fTextL1[2]->AddText(Form("PROBLEM WITH TRU-STU LINK = CALL EXPERT!!"));
+ /*
+ for(Int_t ix = 0; ix <= hFrameR->GetNbinsX(); ix++) {
+ if(badLink[ix] != 0) printf("STU link with TRU %d is out\n",ix);
+ }
+ */
+ }
+ }//fTextL1[2]
+ } // Checker for link TRU-STU done
+ }//hFrameR NOT NULL
+ } // species processed
+ } // specie
}
-
//______________________________________________________________________________
+
void AliEMCALQAChecker::Init(const AliQAv1::DETECTORINDEX_t det)
{
/// intialises QA and QA checker settings
SetHiLo(&hiValue[0], &lowValue[0]) ;
}
+//______________________________________________________________________________
+
+void AliEMCALQAChecker::CleanListOfFunctions(TList *list)
+{ // clean up
+
+ if (list) {
+ TObject *stats = list->FindObject("stats"); list->Remove(stats);
+ TObject *obj;
+ while ((obj = list->First())) { while(list->Remove(obj)) { } delete obj; }
+ if (stats) list->Add(stats);
+ }
+ else {
+ AliWarning(Form("Checker : empty list of data functions; returning"));
+ return;
+ }
+
+}
+
+