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GenABIO.cc File Reference
#include <iostream>
#include <fstream>
#include <sstream>
#include <vector>
#include <cassert>
#include <cstdlib>
#include <cstring>
#include "ecalDccMap.h"
#include <errno.h>

Go to the source code of this file.

Macros

#define SIZE_MAX   ((size_t) -1)
 
#define SSIZE_MAX   ((ssize_t) (SIZE_MAX / 2))
 

Enumerations

enum  roAction_t {
  suppress =0, sr2, sr1, full,
  fsuppress, fsr2, fsr1, ffull
}
 

Functions

void abConnect (int iAB, int iABCh, int &iOtherAB, int &iOtherABCh)
 
int abNum (int iABEta, int iABPhi)
 
void fillABIOFiles (const char ttFlags[nTTInEta][nTTInPhi], const char barrelSrFlags[nBarrelTTInEta][nTTInPhi], const char endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins], ofstream files[])
 
void fillABSRPFiles (const char barrelSrFlags[nBarrelTTInEta][nTTInPhi], const char endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins], ofstream files[])
 
void fillABSRPFiles (const char barrelSrFlags[nBarrelTTInEta][nTTInPhi], const char endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins], ofstream files[nAB])
 
void fillABTTFFiles (const char ttFlags[nTTInEta][nTTInPhi], ofstream files[])
 
string getABABInputStream (const char tccFlags[nTTInEta][nTTInPhi], int iABEta, int iABPhi, int iABCh)
 
string getABABOutputStream (const char tccFlags[nTTInEta][nTTInPhi], int iABEta, int iABPhi, int iABCh)
 
string getABDCCOutputStream (const char barrelSrFlags[nBarrelTTInEta][nTTInPhi], const char endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins], int iABEta, int iABPhi, int DCCCh)
 
string getABTCCInputStream (const char tccFlags[nTTInEta][nTTInPhi], int iABEta, int iABPhi, int iTCCCh)
 
void getABTTPhiBounds (int iABPhi, int &iTTPhiMin, int &iTTPhiMax)
 
string getFlagStream (char flags[nTTInEta][nTTInPhi], int iEtaMin, int iEtaMax, int iPhiMin, int iPhiMax)
 
int main (int argc, char *argv[])
 
bool readSRF (FILE *file, char barrelSrFlags[nBarrelTTInEta][nTTInPhi], char endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins])
 
bool readTTF (FILE *file, char ttFlags[nTTInEta][nTTInPhi])
 
void writeABIOFileHeader (ofstream &f, int abNum)
 
void writeABSRFFileHeader (ofstream &f, int abNum)
 
void writeABTTFFileHeader (ofstream &f, int abNum)
 

Variables

const char * abIOFilePostfix = ".txt"
 
const char * abIOFilePrefix = "IO_AB"
 
const char * abSRFFilePostfix = ".txt"
 
const char * abSRFFilePrefix = "AF_AB"
 
const char * abTTFFilePostfix = ".txt"
 
const char * abTTFFilePrefix = "TTF_AB"
 
roAction_t actions [nactions]
 
vector< pair< int, int > > ecalDccSC [nEndcaps][nDCCEE]
 
int iEvent = 0
 
const int iTCCEtaBounds [nTCCInEta+1] = {0,7,11,28,45,49,56}
 
const int iTTEtaMax [nABInEta] = {10,27,44,55}
 
const int iTTEtaMin [nABInEta] = {0,11,28,45}
 
const int iTTEtaSign [nABInEta] = {-1,-1,1,1}
 
const int nAB = nABInPhi*nABInEta
 
const int nABABCh = 8
 
const int nABInEta =4
 
const int nABInPhi =3
 
const int nABTCCCh = 12
 
const int nactions = 8
 
static const int nBarrelTTInEta = 34
 
const int nDCCCh = 12
 
const int nDCCEE = 9
 
static const int nEndcaps = 2
 
static const int nEndcapTTInEta = 11
 
static const int nEndcapXBins = 100
 
static const int nEndcapYBins = 100
 
static const int nSupercrystalXBins = nEndcapXBins/supercrystalEdge
 
static const int nSupercrystalYBins = nEndcapYBins/supercrystalEdge
 
const int nTCCInEta = 6
 
const int nTTInABAlongPhi =nTTInPhi/nABInPhi
 
static const int nTTInEta
 
static const int nTTInPhi = 72
 
char roFlagMarker []
 
const char * srfFilename = "SRF.txt"
 
char srp2roFlags [128]
 
const char srpFlagMarker [] = {'.', 'S', 'N', 'C', '4','5','6','7'}
 
static const int supercrystalEdge = 5
 
const char tccFlagMarker [] = {'.', 'S', '?', 'C', '4', '5', '6', '7'}
 
int theAB = -1
 
const char * ttfFilename = "TTF.txt"
 
const char * xconnectFilename = "xconnect_universal.txt"
 

Detailed Description

GenABIO is a standalone program to produce individual SRP card trigger tower and selective readout action flags from TTF.txt and SRF.txt global flag files. Run 'GenABIO -h' for usage.

Definition in file GenABIO.cc.

Macro Definition Documentation

#define SIZE_MAX   ((size_t) -1)

Definition at line 25 of file GenABIO.cc.

#define SSIZE_MAX   ((ssize_t) (SIZE_MAX / 2))

Definition at line 28 of file GenABIO.cc.

Enumeration Type Documentation

enum roAction_t
Enumerator
suppress 
sr2 
sr1 
full 
fsuppress 
fsr2 
fsr1 
ffull 

Definition at line 180 of file GenABIO.cc.

Definition: GenABIO.cc:180
Definition: GenABIO.cc:180
Definition: GenABIO.cc:180
Definition: GenABIO.cc:180
Definition: GenABIO.cc:180
roAction_t
Definition: GenABIO.cc:180

Function Documentation

void abConnect ( int  iAB,
int  iABCh,
int &  iOtherAB,
int &  iOtherABCh 
)

Definition at line 838 of file GenABIO.cc.

References EnergyCorrector::c, MessageLogger_cfi::cerr, cmsRelvalreport::exit, f, mps_fire::i, nAB, nABABCh, and xconnectFilename.

Referenced by abNum(), and getABABInputStream().

838  {
839  static bool firstCall = true;
840  static int xconnectMap[nAB][nABABCh][2];
841  if(firstCall){
842  FILE* f = fopen(xconnectFilename, "r");
843  if(f==nullptr){
844  cerr << "Error. Failed to open xconnect definition file,"
845  << xconnectFilename << endl;
846  exit(EXIT_FAILURE);
847  }
848  //skips two first lines:
849  for(int i=0; i<2; ++i){
850  int c;
851  while((c=getc(f))!='\n' && c >=0);
852  }
853  int ilink = 0 ;
854  while(!feof(f)){
855  int abIn;
856  int pinIn;
857  int abOut;
858  int pinOut;
859  if(4==fscanf(f, "%d\t%d\t%d\t%d", &abIn, &pinIn, &abOut, &pinOut)){
860  xconnectMap[abIn][pinIn][0] = abOut;
861  xconnectMap[abIn][pinIn][1] = pinOut;
862  ++ilink;
863  }
864  }
865  if(ilink!=nAB*nABABCh){
866  cerr << "Error cross-connect definition file " << xconnectFilename
867  << " contains an unexpected number of link definition."
868  << endl;
869  exit(EXIT_FAILURE);
870  }
871  firstCall = false;
872  }
873 
874  iOtherAB = xconnectMap[iAB][iABCh][0];
875  iOtherABCh = xconnectMap[iAB][iABCh][1];
876 }
double f[11][100]
const char * xconnectFilename
Definition: GenABIO.cc:173
const int nAB
Definition: GenABIO.cc:153
const int nABABCh
Definition: GenABIO.cc:149
int abNum ( int  iABEta,
int  iABPhi 
)
inline
void fillABIOFiles ( const char  ttFlags[nTTInEta][nTTInPhi],
const char  barrelSrFlags[nBarrelTTInEta][nTTInPhi],
const char  endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins],
ofstream  files[] 
)

Definition at line 459 of file GenABIO.cc.

References abNum(), getABABInputStream(), getABABOutputStream(), getABDCCOutputStream(), getABTCCInputStream(), iEvent, nABABCh, nABInEta, nABInPhi, nABTCCCh, and nDCCCh.

Referenced by main().

462  {
463  for(int iABEta=0; iABEta < nABInEta; ++iABEta){
464  for(int iABPhi=0; iABPhi < nABInPhi; ++iABPhi){
465  int iAB = abNum(iABEta, iABPhi);
466  // writeABIOFileHeader(files[iAB], iAB);
467  files[iAB] << "# Event " << iEvent << "\n";
468  //TCC inputs:
469  for(int iTCC=0; iTCC< nABTCCCh; ++iTCC){
470  files[iAB] << "ITCC" << iTCC+1 << ":"
471  << getABTCCInputStream(ttFlags, iABEta, iABPhi, iTCC)
472  << "\n";
473  }
474  //AB inputs:
475  for(int iABCh=0; iABCh<nABABCh; ++iABCh){
476  files[iAB] << "IAB" << iABCh+1 << ":"
477  << getABABInputStream(ttFlags, iABEta, iABPhi, iABCh)
478  << "\n";
479  }
480  //AB outputs:
481  for(int iABCh=0; iABCh<nABABCh; ++iABCh){
482  files[iAB] << "OAB" << iABCh+1 << ":"
483  << getABABOutputStream(ttFlags, iABEta, iABPhi, iABCh)
484  << "\n";
485  }
486  //DCC output:
487  for(int iDCCCh=0; iDCCCh<nDCCCh; ++iDCCCh){
488  files[iAB] << "ODCC";
489  files[iAB]<< (iDCCCh<=8?"0":"") << iDCCCh+1 << ":"
490  << getABDCCOutputStream(barrelSrFlags, endcapSrFlags, iABEta, iABPhi,iDCCCh)
491  << "\n";
492  }
493  files[iAB] << "#\n";
494  }
495  }
496 }
string getABABInputStream(const char tccFlags[nTTInEta][nTTInPhi], int iABEta, int iABPhi, int iABCh)
Definition: GenABIO.cc:821
const int nABInEta
Definition: GenABIO.cc:142
int iEvent
Definition: GenABIO.cc:230
const int nABTCCCh
Definition: GenABIO.cc:150
string getABABOutputStream(const char tccFlags[nTTInEta][nTTInPhi], int iABEta, int iABPhi, int iABCh)
Definition: GenABIO.cc:753
const int nDCCCh
Definition: GenABIO.cc:151
string getABTCCInputStream(const char tccFlags[nTTInEta][nTTInPhi], int iABEta, int iABPhi, int iTCCCh)
Definition: GenABIO.cc:723
const int nABInPhi
Definition: GenABIO.cc:145
int abNum(int iABEta, int iABPhi)
Definition: GenABIO.cc:204
const int nABABCh
Definition: GenABIO.cc:149
string getABDCCOutputStream(const char barrelSrFlags[nBarrelTTInEta][nTTInPhi], const char endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins], int iABEta, int iABPhi, int DCCCh)
Definition: GenABIO.cc:878
void fillABSRPFiles ( const char  barrelSrFlags[nBarrelTTInEta][nTTInPhi],
const char  endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins],
ofstream  files[] 
)

Referenced by main().

void fillABSRPFiles ( const char  barrelSrFlags[nBarrelTTInEta][nTTInPhi],
const char  endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins],
ofstream  files[nAB] 
)

Definition at line 389 of file GenABIO.cc.

References abNum(), abOfDcc(), dccIndexOfRU(), PatBasicFWLiteAnalyzer::files, getABTTPhiBounds(), mps_fire::i, iEvent, createfilelist::int, iTTEtaMax, iTTEtaMin, iTTEtaSign, mod(), nAB, nABInPhi, nEndcaps, nEndcapTTInEta, nSupercrystalXBins, nSupercrystalYBins, nTTInABAlongPhi, and srp2roFlags.

392  {
393  //event headers:
394  for(int iAB=0; iAB < nAB; ++iAB){
395  files[iAB] << "# Event " << iEvent << "\n";
396  }
397 
398  bool lineAppended[nAB];
399  for(int i=0; i< nAB; lineAppended[i++]=false)/*empty*/;
400 
401  //EE:
402  for(int iEE = 0; iEE < nEndcaps; ++iEE){
403  for(int iX = 0; iX < nSupercrystalXBins; ++iX){
404  for(int iY=0; iY < nSupercrystalYBins; ++iY){
405  // int iDCC = dccIndex(iEE==0?0:2,iX*5,iY*5);
406  int iDCC = dccIndexOfRU(iEE==0?0:2,iX,iY);
407  if(iDCC>=0){
408  int iAB = abOfDcc(iDCC);
409  if(!lineAppended[iAB]){
410  for(int i=0; i< iY; ++i) files[iAB] << ' ';
411  }
412  files[iAB] << srp2roFlags[(int)endcapSrFlags[iEE][iX][iY]];
413  lineAppended[iAB] = true;
414  }
415  }//next iY
416  for(int iFile=0; iFile< nAB; ++iFile){
417  if(lineAppended[iFile]){
418  files[iFile] << "\n";
419  lineAppended[iFile] = false;
420  }
421  }
422  }//next iX
423  }
424 
425  //EB:
426  for(int iABEta=1; iABEta<3; ++iABEta){
427  for(int iABPhi=0; iABPhi<nABInPhi; ++iABPhi){
428  int iAB = abNum(iABEta,iABPhi);
429  int iTTPhiMin;
430  int iTTPhiMax;
431  getABTTPhiBounds(iABPhi, iTTPhiMin, iTTPhiMax);
432  //writeEventHeader(files[iAB], iEvent, nTTInABAlongPhi);
433  for(int i = 0 ; i <= iTTEtaMax[iABEta]-iTTEtaMin[iABEta];
434  ++i){
435  int iTTEta;
436  if(iTTEtaSign[iABEta]>0){
437  iTTEta = iTTEtaMin[iABEta] + i;
438  } else{
439  iTTEta = iTTEtaMax[iABEta] - i;
440  }
441  for(int iTTPhi = iTTPhiMin;
442  mod(iTTPhiMax-iTTPhi,nTTInPhi) < nTTInABAlongPhi;
443  iTTPhi = mod(++iTTPhi, nTTInPhi)){
444  files[iAB] << srp2roFlags[(int)barrelSrFlags[iTTEta-nEndcapTTInEta][iTTPhi]];
445  }
446  files[iAB] << "\n";
447  }
448  // writeEventTrailer(files[iAB], nTTInABAlongPhi);
449  files[iAB] << "#\n";
450  }
451  }
452 
453  //file trailers
454  for(int iAB=0; iAB < nAB; ++iAB){
455  files[iAB] << "#\n";
456  }
457 }
const int iTTEtaMin[nABInEta]
Definition: GenABIO.cc:155
static const int nSupercrystalXBins
Definition: GenABIO.cc:120
char srp2roFlags[128]
Definition: GenABIO.cc:178
void getABTTPhiBounds(int iABPhi, int &iTTPhiMin, int &iTTPhiMax)
Definition: GenABIO.cc:833
int iEvent
Definition: GenABIO.cc:230
const int iTTEtaMax[nABInEta]
Definition: GenABIO.cc:156
int abOfDcc(int iDCC)
Definition: ecalDccMap.h:104
int dccIndexOfRU(int iDet, int i, int j)
Definition: ecalDccMap.h:88
static const int nSupercrystalYBins
Definition: GenABIO.cc:123
const int iTTEtaSign[nABInEta]
Definition: GenABIO.cc:157
static const int nEndcaps
Definition: GenABIO.cc:126
const int nTTInABAlongPhi
Definition: GenABIO.cc:154
static const int nTTInPhi
Definition: GenABIO.cc:139
const int nABInPhi
Definition: GenABIO.cc:145
static const int nEndcapTTInEta
Definition: GenABIO.cc:129
const int nAB
Definition: GenABIO.cc:153
int abNum(int iABEta, int iABPhi)
Definition: GenABIO.cc:204
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
void fillABTTFFiles ( const char  ttFlags[nTTInEta][nTTInPhi],
ofstream  files[] 
)

Produces one file per AB. Each file contains the TT flags the AB receives from its inputs.

Definition at line 357 of file GenABIO.cc.

References abNum(), getABTTPhiBounds(), mps_fire::i, iEvent, iTTEtaMax, iTTEtaMin, iTTEtaSign, mod(), nABInEta, nABInPhi, and nTTInABAlongPhi.

Referenced by main().

358  {
359  for(int iABEta=0; iABEta<nABInEta; ++iABEta){
360  for(int iABPhi=0; iABPhi<nABInPhi; ++iABPhi){
361  int iAB = abNum(iABEta,iABPhi);
362  int iTTPhiMin;
363  int iTTPhiMax;
364  getABTTPhiBounds(iABPhi, iTTPhiMin, iTTPhiMax);
365  // writeEventHeader(files[iAB], iEvent, nTTInABAlongPhi);
366  files[iAB] << "# Event " << iEvent << "\n";
367 
368  for(int i = 0 ; i <= iTTEtaMax[iABEta]-iTTEtaMin[iABEta];
369  ++i){
370  int iTTEta;
371  if(iTTEtaSign[iABEta]>0){
372  iTTEta = iTTEtaMin[iABEta] + i;
373  } else{
374  iTTEta = iTTEtaMax[iABEta] - i;
375  }
376  for(int iTTPhi = iTTPhiMin;
377  mod(iTTPhiMax-iTTPhi,nTTInPhi) < nTTInABAlongPhi;
378  iTTPhi = mod(++iTTPhi, nTTInPhi)){
379  files[iAB] << ttFlags[iTTEta][iTTPhi];
380  }
381  files[iAB] << "\n";
382  }
383  files[iAB] << "#\n";
384  //writeEventTrailer(files[iAB], nTTInABAlongPhi);
385  }
386  }
387 }
const int iTTEtaMin[nABInEta]
Definition: GenABIO.cc:155
const int nABInEta
Definition: GenABIO.cc:142
void getABTTPhiBounds(int iABPhi, int &iTTPhiMin, int &iTTPhiMax)
Definition: GenABIO.cc:833
int iEvent
Definition: GenABIO.cc:230
const int iTTEtaMax[nABInEta]
Definition: GenABIO.cc:156
const int iTTEtaSign[nABInEta]
Definition: GenABIO.cc:157
const int nTTInABAlongPhi
Definition: GenABIO.cc:154
static const int nTTInPhi
Definition: GenABIO.cc:139
const int nABInPhi
Definition: GenABIO.cc:145
int abNum(int iABEta, int iABPhi)
Definition: GenABIO.cc:204
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
string getABABInputStream ( const char  tccFlags[nTTInEta][nTTInPhi],
int  iABEta,
int  iABPhi,
int  iABCh 
)

Definition at line 821 of file GenABIO.cc.

References abConnect(), abNum(), and getABABOutputStream().

Referenced by abNum(), and fillABIOFiles().

822  {
823  int iAB = abNum(iABEta, iABPhi);
824  int iOtherAB; //AB which this channel is connected to
825  int iOtherABCh; //ch # on the other side of the AB-AB link
826  abConnect(iAB,iABCh,iOtherAB,iOtherABCh);
827  int iOtherABEta = iOtherAB/3;
828  int iOtherABPhi = iOtherAB%3;
829  return getABABOutputStream(tccFlags, iOtherABEta, iOtherABPhi, iOtherABCh);
830 }
string getABABOutputStream(const char tccFlags[nTTInEta][nTTInPhi], int iABEta, int iABPhi, int iABCh)
Definition: GenABIO.cc:753
void abConnect(int iAB, int iABCh, int &iOtherAB, int &iOtherABCh)
Definition: GenABIO.cc:838
int abNum(int iABEta, int iABPhi)
Definition: GenABIO.cc:204
string getABABOutputStream ( const char  tccFlags[nTTInEta][nTTInPhi],
int  iABEta,
int  iABPhi,
int  iABCh 
)

Definition at line 753 of file GenABIO.cc.

References Reference_intrackfit_cff::barrel, edmScanValgrind::buffer, getABTCCInputStream(), and alignCSCRings::s.

Referenced by abNum(), fillABIOFiles(), and getABABInputStream().

754  {
755  stringstream buffer;
756  buffer.str("");
757  bool barrel = (iABEta==1 || iABEta==2); //true for barrel, false for endcap
758  switch(iABCh){
759  case 0:
760  //to AB ch #0 are sent the 16 1st TCC flags received on TCC input Ch. 0
761  buffer << getABTCCInputStream(tccFlags, iABEta, iABPhi, 0).substr(0,16);
762  break;
763  case 1:
764  //to AB ch #1 are sent the 16 1st TCC flags received on TCC input Ch. 0 to 5:
765  for(int iTCCCh=0; iTCCCh<6; ++iTCCCh){
766  buffer <<
767  getABTCCInputStream(tccFlags, iABEta, iABPhi, iTCCCh).substr(0,16);
768  }
769  break;
770  case 2:
771  //to AB ch #2 are sent the 16 1st TCC flags received on TCC input Ch. 5:
772  buffer << getABTCCInputStream(tccFlags, iABEta, iABPhi, 5).substr(0,16);
773  break;
774  case 3:
775  //to AB ch #3 are sent TCC flags received on TCC input Ch. 0 and 6:
776  buffer << getABTCCInputStream(tccFlags, iABEta, iABPhi, 0);
777  buffer << getABTCCInputStream(tccFlags, iABEta, iABPhi, 6);
778  break;
779  case 4:
780  //to AB ch #4 are sent TCC flags received on TCC input Ch 5 and 11:
781  buffer << getABTCCInputStream(tccFlags, iABEta, iABPhi, 5);
782  buffer << getABTCCInputStream(tccFlags, iABEta, iABPhi, 11);
783  break;
784  case 5:
785  //for endcaps AB output ch 5 is not used.
786  //for barrel, to AB ch #5 are sent the 16 last TCC flags received on TCC
787  //input Ch. 0:
788  if(barrel){//in barrel
789  string s = getABTCCInputStream(tccFlags, iABEta, iABPhi, 0);
790  assert(s.size()>=16);
791  buffer << s.substr(s.size()-16,16);
792  }
793  break;
794  case 6:
795  //for endcaps AB output ch 6 is not used.
796  //for barrel, to AB ch #6 are sent the 16 last TCC flags received on TCC
797  //input Ch. 0 to 5:
798  if(barrel){//in barrel
799  for(int iTCCCh=0; iTCCCh<6; ++iTCCCh){
800  string s = getABTCCInputStream(tccFlags, iABEta, iABPhi, iTCCCh);
801  buffer << s.substr(s.size()-16,16);
802  }
803  }
804  break;
805  case 7:
806  //for endcaps AB output ch 7 is not used.
807  //for barrel, to AB ch #7 are sent the 16 last TCC flags received on TCC
808  //input Ch. 5:
809  if(barrel){//in barrel
810  string s = getABTCCInputStream(tccFlags, iABEta, iABPhi, 5);
811  assert(s.size()>=16);
812  buffer << s.substr(s.size()-16,16);
813  }
814  break;
815  default:
816  assert(false);
817  }
818  return buffer.str();
819 }
string getABTCCInputStream(const char tccFlags[nTTInEta][nTTInPhi], int iABEta, int iABPhi, int iTCCCh)
Definition: GenABIO.cc:723
string getABDCCOutputStream ( const char  barrelSrFlags[nBarrelTTInEta][nTTInPhi],
const char  endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins],
int  iABEta,
int  iABPhi,
int  DCCCh 
)

Definition at line 878 of file GenABIO.cc.

References Reference_intrackfit_cff::barrel, edmScanValgrind::buffer, ecalDccSC, getABTCCInputStream(), mps_fire::i, createfilelist::int, nEndcapTTInEta, SimDataFormats::CaloAnalysis::sc, and srp2roFlags.

Referenced by abNum(), and fillABIOFiles().

881  {
882  bool barrel = (iABEta==1||iABEta==2);
883  if(barrel){
884  //same as TCC with same ch number but with TCC flags replaced by SRP flags:
885  string stream = getABTCCInputStream(barrelSrFlags-nEndcapTTInEta, iABEta, iABPhi, iDCCCh);
886  //converts srp flags to readout flags:
887  for(size_t i=0; i< stream.size(); ++i){
888  stream[i] = srp2roFlags[(int)stream[i]];
889  }
890  return stream;
891  } else{//endcap
892  if(iDCCCh<3){//used DCC output channel
893  //endcap index:
894  int iEE=(iABEta==0)?0:1;
895  stringstream buffer("");
896  //3 DCC per AB and AB DCC output channel in
897  //increasing DCC phi position:
898  int iDCCPhi = iABPhi*3+iDCCCh;
899  for(size_t iSC=0; iSC < ecalDccSC[iEE][iDCCPhi].size(); ++iSC){
900  pair<int,int> sc = ecalDccSC[iEE][iDCCPhi][iSC];
901  buffer << srp2roFlags[(int)endcapSrFlags[iEE][sc.first][sc.second]];
902  }
903  return buffer.str();
904  } else{//unused output channel
905  return "";
906  }
907  }
908 }
char srp2roFlags[128]
Definition: GenABIO.cc:178
string getABTCCInputStream(const char tccFlags[nTTInEta][nTTInPhi], int iABEta, int iABPhi, int iTCCCh)
Definition: GenABIO.cc:723
static const int nEndcapTTInEta
Definition: GenABIO.cc:129
vector< pair< int, int > > ecalDccSC[nEndcaps][nDCCEE]
Definition: GenABIO.cc:191
string getABTCCInputStream ( const char  tccFlags[nTTInEta][nTTInPhi],
int  iABEta,
int  iABPhi,
int  iTCCCh 
)

Definition at line 723 of file GenABIO.cc.

References getABTTPhiBounds(), getFlagStream(), hcalTTPDigis_cfi::iEtaMax, hcalTTPDigis_cfi::iEtaMin, and iTCCEtaBounds.

Referenced by abNum(), fillABIOFiles(), getABABOutputStream(), and getABDCCOutputStream().

724  {
725  //gets eta bounds for this tcc channel:
726  int iTCCEta;
727  if(iABEta==1 || iABEta==2){//barrel
728  if(iTCCCh>5) return ""; //only 6 TCCs per AB for barrel
729  iTCCEta = 1 + iABEta;
730  } else{//endcap
731  if(iABEta==0){//EE-
732  iTCCEta = (iTCCCh<6)?1:0;
733  } else{//EE+
734  iTCCEta = (iTCCCh<6)?4:5;
735  }
736  }
737  int iEtaMin = iTCCEtaBounds[iTCCEta];
738  int iEtaMax = iTCCEtaBounds[iTCCEta+1]-1;
739 
740  //gets phi bounds:
741  int iPhiMin;
742  int iPhiMax;
743  getABTTPhiBounds(iABPhi, iPhiMin, iPhiMax);
744  //phi is increasing with TTC channel number
745  //a TTC covers a 4TT-wide phi-sector
746  //=>iPhiMin(iTTCCh) = iPhiMin(AB) + 4*iTTCCh for iTCCCh<6
747  iPhiMin += 4*(iTCCCh%6);
748  iPhiMax = iPhiMin + 4 - 1;
749 
750  return getFlagStream(tccFlags, iEtaMin, iEtaMax, iPhiMin, iPhiMax);
751 }
void getABTTPhiBounds(int iABPhi, int &iTTPhiMin, int &iTTPhiMax)
Definition: GenABIO.cc:833
string getFlagStream(char flags[nTTInEta][nTTInPhi], int iEtaMin, int iEtaMax, int iPhiMin, int iPhiMax)
Definition: GenABIO.cc:689
const int iTCCEtaBounds[nTCCInEta+1]
Definition: GenABIO.cc:162
void getABTTPhiBounds ( int  iABPhi,
int &  iTTPhiMin,
int &  iTTPhiMax 
)

Definition at line 833 of file GenABIO.cc.

References mod(), nTTInABAlongPhi, and nTTInPhi.

Referenced by abNum(), fillABSRPFiles(), fillABTTFFiles(), and getABTCCInputStream().

833  {
834  iTTPhiMin = mod(-6+iABPhi*nTTInABAlongPhi,nTTInPhi);
835  iTTPhiMax = mod(iTTPhiMin+nTTInABAlongPhi-1, nTTInPhi);
836 }
const int nTTInABAlongPhi
Definition: GenABIO.cc:154
static const int nTTInPhi
Definition: GenABIO.cc:139
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
string getFlagStream ( char  flags[nTTInEta][nTTInPhi],
int  iEtaMin,
int  iEtaMax,
int  iPhiMin,
int  iPhiMax 
)

Definition at line 689 of file GenABIO.cc.

References edmScanValgrind::buffer, MessageLogger_cfi::cerr, cmsRelvalreport::exit, flags, hcalTTPDigis_cfi::iEtaMin, mod(), and nTTInEta.

Referenced by abNum(), and getABTCCInputStream().

690  {
691  assert(0<=iEtaMin && iEtaMin<=iEtaMax && iEtaMax<nTTInEta);
692  if(iEtaMin<=nTTInEta/2 && iEtaMax>nTTInEta){
693  cerr << "Implementation Errror:"
694  << __FILE__ << ":" << __LINE__
695  << ": A flag stream cannot covers parts of both half-ECAL!"
696  << endl;
697  exit(EXIT_FAILURE);
698  }
699 
700  bool zPos = (iEtaMin>=nTTInEta/2);
701 
702  stringstream buffer;
703  buffer.str("");
704  for(int jEta = 0; jEta <= iEtaMax-iEtaMin; ++jEta){
705  //loops on iEta in |eta| increasing order:
706  int iEta;
707  if(zPos){
708  iEta = iEtaMin + jEta;
709  } else{
710  iEta = iEtaMax - jEta;
711  }
712 
713  for(int iPhi = mod(iPhiMin,nTTInPhi);
714  mod(iPhiMax+1-iPhi,nTTInPhi) != 0;
715  iPhi = mod(++iPhi, nTTInPhi)){
716  buffer << flags[iEta][iPhi];
717  }
718  }
719 
720  return buffer.str();
721 }
std::vector< Variable::Flags > flags
Definition: MVATrainer.cc:135
static const int nTTInEta
Definition: GenABIO.cc:135
static const int nTTInPhi
Definition: GenABIO.cc:139
T mod(const T &a, const T &b)
Definition: ecalDccMap.h:4
int main ( int  argc,
char *  argv[] 
)

CALO JETS


PF JETS

Definition at line 234 of file GenABIO.cc.

References abIOFilePostfix, abIOFilePrefix, abSRFFilePostfix, abSRFFilePrefix, abTTFFilePostfix, abTTFFilePrefix, actions, MessageLogger_cfi::cerr, gather_cfg::cout, dccPhiIndexOfRU(), ecalDccSC, cmsRelvalreport::exit, fillABIOFiles(), fillABSRPFiles(), fillABTTFFiles(), mps_fire::i, iEvent, createfilelist::int, nAB, nactions, nBarrelTTInEta, nEndcaps, nEndcapXBins, nEndcapYBins, nSupercrystalXBins, nSupercrystalYBins, nTTInEta, nTTInPhi, MillePedeFileConverter_cfg::out, readSRF(), readTTF(), roFlagMarker, alignCSCRings::s, srfFilename, srp2roFlags, srpFlagMarker, theAB, ttfFilename, writeABIOFileHeader(), writeABSRFFileHeader(), and writeABTTFFileHeader().

234  {
235  char barrelSrFlags[nBarrelTTInEta][nTTInPhi];
236  char endcapSrFlags[nEndcaps][nEndcapXBins/5][nEndcapYBins/5];
237  char ttFlags[nTTInEta][nTTInPhi];
238  ofstream abTTFFiles[nAB];
239  ofstream abSRFFiles[nAB];
240  ofstream abIOFiles[nAB];
241 
242  int iarg = 0;
243  while(++iarg<argc){
244  if(strcmp(argv[iarg],"-h")==0||strcmp(argv[iarg],"--help")==0){
245  cout << "Usage: GenABIO [OPTIONS]\n\n"
246  "Produces TT and SR flag files for each SRP board from TTF.txt and "
247  "SRF.txt global flag files. Requires the SRP cross-connect description"
248  " description file (xconnect_universal.txt). TTF.txt, SRF.txt and "
249  "xconnect_universal.txt must be in the directory the command is "
250  "launched.\n\n"
251  "OPTIONS:\n"
252  " -A, --actions IJKLMNOP. IJKLMNOP I..P integers from 0 to 7.\n"
253  " I: action flag for low interest RUs\n"
254  " J: action flag for single RUs\n"
255  " K: action flag for neighbour RUs\n"
256  " L: action flag for centers RUs\n"
257  " M: action flag for forced low interest RUs\n"
258  " N: action flag for forced single RUs\n"
259  " O: action flag for forced neighbour RUs\n"
260  " P: action flag for forced centers RUs\n\n"
261  " -h, --help display this help\n"
262  " -a n, --ab n specifies indices of the AB whose file must be "
263  "produced. The ab number runs from 1 to 12. Use -1 to produce files "
264  "for every AB\n\n"
265  ;
266 
267  return 0;
268  }
269 
270  if(!strcmp(argv[iarg],"-A") || !strcmp(argv[iarg],"-A")){//actions
271  if(++iarg>=argc){ cout << "Option error. Try -h\n"; return 1; }
272  for(int i=0; i<8; ++i){
273  int act = argv[iarg][i]-'0';
274  if(act<0 || act>=nactions){
275  cout << "Error. Action argument is invalid.\n";
276  return 1;
277  } else{
278  actions[i] = (roAction_t)act;
279  }
280  }
281  continue;
282  }
283  if(!strcmp(argv[iarg],"-a")||!strcmp(argv[iarg],"--ab")){
284  if(++iarg>=argc){ cout << "Option error. Try -h\n"; return 1; }
285  theAB = strtoul(argv[iarg], nullptr, 0);
286  if(theAB>=0) --theAB;
287  if(theAB<-1 || theAB>11){
288  cout << "AB number is incorrect. Try -h option to get help.\n";
289  }
290  continue;
291  }
292  }
293 
294  for(size_t i=0; i<sizeof(srp2roFlags)/sizeof(srp2roFlags[0]); srp2roFlags[i++]='?');
295  for(size_t i=0; i<sizeof(actions)/sizeof(actions[0]); ++i){
297  }
298 
299  for(int iEE=0; iEE < nEndcaps; ++iEE){
300  for(int iY = 0; iY < nSupercrystalXBins; ++iY){
301  for(int iX = 0; iX < nSupercrystalYBins; ++iX){
302  int iDCCPhi = dccPhiIndexOfRU(iEE==0?0:2,iX,iY);
303  if(iDCCPhi>=0){//SC exists
304  ecalDccSC[iEE][iDCCPhi].push_back(pair<int,int>(iX,iY));
305  }
306  }
307  }
308  }
309 
310  stringstream s;
311  for(int iAB=0; iAB< nAB; ++iAB){
312  if(theAB!=-1 && theAB!=iAB) continue;
313  s.str("");
314  s << abTTFFilePrefix << (iAB<9?"0":"") << iAB+1 << abTTFFilePostfix;
315  abTTFFiles[iAB].open(s.str().c_str(), ios::out);
316  writeABTTFFileHeader(abTTFFiles[iAB], iAB);
317  s.str("");
318  s << abSRFFilePrefix << (iAB<9?"0":"") << iAB+1 << abSRFFilePostfix;
319  abSRFFiles[iAB].open(s.str().c_str(), ios::out);
320  writeABSRFFileHeader(abSRFFiles[iAB], iAB);
321  s.str("");
322  s << abIOFilePrefix << (iAB<9?"0":"") << iAB+1 << abIOFilePostfix;
323  abIOFiles[iAB].open(s.str().c_str(), ios::out);
324  writeABIOFileHeader(abIOFiles[iAB], iAB);
325  }
326 
327  FILE* srfFile = fopen(srfFilename, "r");
328  if(srfFile==nullptr){
329  cerr << "Failed to open SRF file, " << srfFilename << endl;
330  exit(EXIT_FAILURE);
331  }
332 
333  FILE* ttfFile = fopen(ttfFilename, "r");
334  if(ttfFile==nullptr){
335  cerr << "Failed to open TTF file, " << ttfFilename << endl;
336  exit(EXIT_FAILURE);
337  }
338 
339  iEvent = 0;
340  while(readSRF(srfFile,barrelSrFlags,endcapSrFlags)
341  && readTTF(ttfFile,ttFlags)){
342  if(iEvent%100==0){
343  cout << "Event " << iEvent << endl;
344  }
345  fillABTTFFiles(ttFlags,abTTFFiles);
346  fillABSRPFiles(barrelSrFlags, endcapSrFlags, abSRFFiles);
347  fillABIOFiles(ttFlags,barrelSrFlags,endcapSrFlags,abIOFiles);
348  ++iEvent;
349  }
350 
351  return 0;
352 }
bool readTTF(FILE *file, char ttFlags[nTTInEta][nTTInPhi])
Definition: GenABIO.cc:506
static const int nEndcapYBins
Definition: GenABIO.cc:114
void writeABSRFFileHeader(ofstream &f, int abNum)
Definition: GenABIO.cc:643
roAction_t actions[nactions]
Definition: GenABIO.cc:187
static const int nSupercrystalXBins
Definition: GenABIO.cc:120
static const int nEndcapXBins
Definition: GenABIO.cc:111
const char * abTTFFilePrefix
Definition: GenABIO.cc:164
const char * abSRFFilePrefix
Definition: GenABIO.cc:166
const char * abIOFilePostfix
Definition: GenABIO.cc:169
char srp2roFlags[128]
Definition: GenABIO.cc:178
int iEvent
Definition: GenABIO.cc:230
void writeABIOFileHeader(ofstream &f, int abNum)
Definition: GenABIO.cc:670
void fillABTTFFiles(const char ttFlags[nTTInEta][nTTInPhi], ofstream files[])
Definition: GenABIO.cc:357
int theAB
Definition: GenABIO.cc:232
roAction_t
Definition: GenABIO.cc:180
static const int nTTInEta
Definition: GenABIO.cc:135
static const int nSupercrystalYBins
Definition: GenABIO.cc:123
const char * abIOFilePrefix
Definition: GenABIO.cc:168
char roFlagMarker[]
Definition: GenABIO.cc:181
static const int nBarrelTTInEta
Definition: GenABIO.cc:132
void fillABIOFiles(const char ttFlags[nTTInEta][nTTInPhi], const char barrelSrFlags[nBarrelTTInEta][nTTInPhi], const char endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins], ofstream files[])
Definition: GenABIO.cc:459
static const int nEndcaps
Definition: GenABIO.cc:126
const int nactions
Definition: GenABIO.cc:185
static const int nTTInPhi
Definition: GenABIO.cc:139
const char * abTTFFilePostfix
Definition: GenABIO.cc:165
void writeABTTFFileHeader(ofstream &f, int abNum)
Definition: GenABIO.cc:630
const char * abSRFFilePostfix
Definition: GenABIO.cc:167
const char * srfFilename
Definition: GenABIO.cc:171
vector< pair< int, int > > ecalDccSC[nEndcaps][nDCCEE]
Definition: GenABIO.cc:191
const char * ttfFilename
Definition: GenABIO.cc:172
const int nAB
Definition: GenABIO.cc:153
void fillABSRPFiles(const char barrelSrFlags[nBarrelTTInEta][nTTInPhi], const char endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins], ofstream files[])
int dccPhiIndexOfRU(int iDet, int i, int j)
Definition: ecalDccMap.h:38
bool readSRF(FILE *file, char barrelSrFlags[nBarrelTTInEta][nTTInPhi], char endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins])
Definition: GenABIO.cc:540
const char srpFlagMarker[]
Definition: GenABIO.cc:175
bool readSRF ( FILE *  file,
char  barrelSrFlags[nBarrelTTInEta][nTTInPhi],
char  endcapSrFlags[nEndcaps][nSupercrystalXBins][nSupercrystalYBins] 
)

Definition at line 540 of file GenABIO.cc.

References edmScanValgrind::buffer, MessageLogger_cfi::cerr, cmsRelvalreport::exit, geometryCSVtoXML::line, nBarrelTTInEta, nEndcaps, nSupercrystalXBins, nSupercrystalYBins, nTTInPhi, and srfFilename.

Referenced by abNum(), and main().

543  {
544  char* buffer = nullptr;
545  size_t bufferSize = 0;
546  int read;
547  if(f==nullptr) exit(EXIT_FAILURE);
548  int line=0;
549  int iEta = 0;
550  int iXm = 0;
551  int iXp = 0;
552  int iReadLine = 0;//number of read line, comment lines excluded
553  //number of non-comment lines to read:
554  const int nReadLine = nBarrelTTInEta + nEndcaps*nSupercrystalXBins;
555  while(iReadLine<nReadLine && (read=getline(&buffer, &bufferSize,f))!=-1){
556  ++line;
557  char* pos = buffer;
558  while(*pos==' ' || *pos=='\t') ++pos; //skip spaces
559  if(*pos!='#' && *pos!='\n'){//not a comment line nor an empty line
560  //go back to beginning of line:
561  pos = buffer;
562  if(iReadLine<nSupercrystalXBins){//EE- reading
563  if(read-1!=nSupercrystalYBins){
564  cerr << "Error: line " << line
565  << " of file "<< srfFilename << " has incorrect length"
566  << " (" << read-1 << " instead of " << nSupercrystalYBins << ")"
567  << endl;
568  exit(EXIT_FAILURE);
569  }
570  for(int iY=0; iY<nSupercrystalYBins; ++iY){
571  endcapSrFlags[0][iXm][iY] = buffer[iY];
572  }
573  ++iXm;
574  } else if(iReadLine<nSupercrystalYBins+nBarrelTTInEta){//EB reading
575  if(read-1!=nTTInPhi){
576  cerr << "Error: line " << line
577  << " of file "<< srfFilename << " has incorrect length"
578  << " (" << read-1 << " instead of " << nTTInPhi << ")"
579  << endl;
580  exit(EXIT_FAILURE);
581  }
582  for(int iPhi=0; iPhi<nTTInPhi; ++iPhi){
583  barrelSrFlags[iEta][iPhi] = buffer[iPhi];
584  }
585  ++iEta;
586  } else if(iReadLine<2*nSupercrystalXBins+nBarrelTTInEta){ //EE+ reading
587  if(read-1!=nSupercrystalYBins){
588  cerr << "Error: line " << line
589  << " of file "<< srfFilename << " has incorrect length"
590  << " (" << read-1 << " instead of " << nSupercrystalYBins << ")"
591  << endl;
592  exit(EXIT_FAILURE);
593  }
594  for(int iY=0; iY<nSupercrystalYBins; ++iY){
595  endcapSrFlags[1][iXp][iY] = buffer[iY];
596  }
597  ++iXp;
598  }
599  ++iReadLine;
600  }//not a comment or empty line
601  }
602  //returns 0 if all TT were read:
603  return (iReadLine==nReadLine)?true:false;
604 }
static const int nSupercrystalXBins
Definition: GenABIO.cc:120
double f[11][100]
static const int nSupercrystalYBins
Definition: GenABIO.cc:123
static const int nBarrelTTInEta
Definition: GenABIO.cc:132
static const int nEndcaps
Definition: GenABIO.cc:126
static const int nTTInPhi
Definition: GenABIO.cc:139
const char * srfFilename
Definition: GenABIO.cc:171
bool readTTF ( FILE *  file,
char  ttFlags[nTTInEta][nTTInPhi] 
)

Definition at line 506 of file GenABIO.cc.

References edmScanValgrind::buffer, MessageLogger_cfi::cerr, cmsRelvalreport::exit, geometryCSVtoXML::line, nTTInEta, nTTInPhi, and ttfFilename.

Referenced by abNum(), and main().

506  {
507  char* buffer = nullptr;
508  size_t bufferSize = 0;
509  int read;
510  if(f==nullptr) exit(EXIT_FAILURE);
511  int line=0;
512  int iEta = 0;
513  while(iEta<nTTInEta && (read=getline(&buffer, &bufferSize,f))!=-1){
514  ++line;
515  char* pos = buffer;
516  while(*pos==' ' || *pos=='\t') ++pos; //skip spaces
517  if(*pos!='#' && *pos!='\n'){//not a comment line nor an empty line
518  if(read-1!=nTTInPhi){
519  cerr << "Error: line " << line
520  << " of file "<< ttfFilename << " has incorrect length"
521  // << " (" << read-1 << " instead of " << nTTInPhi << ")"
522  << endl;
523  exit(EXIT_FAILURE);
524  }
525  for(int iPhi=0; iPhi<nTTInPhi; ++iPhi){
526  ttFlags[iEta][iPhi] = buffer[iPhi];
527  // if(ttFlags[iEta][iPhi]!='.'){
528  // cout << __FILE__ << ":" << __LINE__ << ": "
529  // << iEta << "," << iPhi
530  // << " " << ttFlags[iEta][iPhi] << "\n";
531  // }
532  }
533  ++iEta;
534  }
535  }
536  //returns true if all TT were read (not at end of file)
537  return (iEta==nTTInEta)?true:false;
538 }
double f[11][100]
static const int nTTInEta
Definition: GenABIO.cc:135
static const int nTTInPhi
Definition: GenABIO.cc:139
const char * ttfFilename
Definition: GenABIO.cc:172
void writeABIOFileHeader ( ofstream &  f,
int  abNum 
)

Definition at line 670 of file GenABIO.cc.

References actions, indexGen::date, roFlagMarker, srpFlagMarker, lumiQTWidget::t, tccFlagMarker, and ntuplemaker::time.

Referenced by abNum(), and main().

670  {
671  time_t t;
672  time(&t);
673  const char* date = ctime(&t);
674  f << "# AB " << abNum+1 <<" I/O \n#\n"
675  "# Generated on : " << date << "#\n"
676  "# " << srpFlagMarker[0] << ": 000 (low interest) " << tccFlagMarker[0] << ": 000 (low interest) " << roFlagMarker[0] << ": 000 (suppress)\n"
677  "# " << srpFlagMarker[1] << ": 001 (single) " << tccFlagMarker[1] << ": 001 (mid interest) " << roFlagMarker[1] << ": 010 (SR Threshold 2)\n"
678  "# " << srpFlagMarker[2] << ": 010 (neighbour) " << tccFlagMarker[2] << ": 010 (not valid) " << roFlagMarker[2] << ": 001 (SR Threshold 1)\n"
679  "# " << srpFlagMarker[3] << ": 011 (center) " << tccFlagMarker[3] << ": 011 (high interest) " << roFlagMarker[3] << ": 011 (Full readout)\n"
680  "#\n"
681  "# action table (when forced):\n"
682  "# LI-> " << roFlagMarker[actions[0]] << " (" << roFlagMarker[actions[4]]<< ")" << "\n"
683  "# S -> " << roFlagMarker[actions[1]] << " (" << roFlagMarker[actions[5]]<< ")" << "\n"
684  "# N -> " << roFlagMarker[actions[2]] << " (" << roFlagMarker[actions[6]]<< ")" << "\n"
685  "# C -> " << roFlagMarker[actions[3]] << " (" << roFlagMarker[actions[7]]<< ")" << "\n"
686  "#\n";
687 }
roAction_t actions[nactions]
Definition: GenABIO.cc:187
const char tccFlagMarker[]
Definition: GenABIO.cc:176
double f[11][100]
char roFlagMarker[]
Definition: GenABIO.cc:181
int abNum(int iABEta, int iABPhi)
Definition: GenABIO.cc:204
const char srpFlagMarker[]
Definition: GenABIO.cc:175
void writeABSRFFileHeader ( ofstream &  f,
int  abNum 
)

Definition at line 643 of file GenABIO.cc.

References actions, indexGen::date, roFlagMarker, lumiQTWidget::t, and ntuplemaker::time.

Referenced by abNum(), and main().

643  {
644  time_t t;
645  time(&t);
646  const char* date = ctime(&t);
647  const char* xLabel;
648  const char* yLabel;
649  if(abNum<3 || abNum>8){//endcap
650  xLabel = "Y ";
651  yLabel = "X ";
652  } else{//barrel
653  xLabel = "Phi";
654  yLabel = "|Eta|";
655  }
656  f << "# SRF flag map covered by AB " << abNum+1 <<"\n#\n"
657  "# Generated on : " << date << "#\n"
658  "# +---> " << xLabel << " " << roFlagMarker[0] << ": 000 (suppress)\n"
659  "# | " << roFlagMarker[1] << ": 010 (SR Threshold 2)\n"
660  "# | " << roFlagMarker[2] << ": 001 (SR Threshold 1)\n"
661  "# V " << yLabel << " " << roFlagMarker[3] << ": 011 (Full readout)\n"
662  "#\n"
663  "# action table (when forced):\n"
664  "# LI-> " << roFlagMarker[actions[0]] << " (" << roFlagMarker[actions[4]]<< ")" << "\n"
665  "# S -> " << roFlagMarker[actions[1]] << " (" << roFlagMarker[actions[5]]<< ")" << "\n"
666  "# N -> " << roFlagMarker[actions[2]] << " (" << roFlagMarker[actions[6]]<< ")" << "\n"
667  "# C -> " << roFlagMarker[actions[3]] << " (" << roFlagMarker[actions[7]]<< ")" << "\n";
668 }
roAction_t actions[nactions]
Definition: GenABIO.cc:187
double f[11][100]
char roFlagMarker[]
Definition: GenABIO.cc:181
int abNum(int iABEta, int iABPhi)
Definition: GenABIO.cc:204
void writeABTTFFileHeader ( ofstream &  f,
int  abNum 
)

Definition at line 630 of file GenABIO.cc.

References indexGen::date, srpFlagMarker, lumiQTWidget::t, and ntuplemaker::time.

Referenced by abNum(), and main().

630  {
631  time_t t;
632  time(&t);
633  const char* date = ctime(&t);
634  f << "# TTF flag map covered by AB " << abNum+1 <<"\n#\n"
635  "# Generated on : " << date << "#\n"
636  "# +---> Phi " << srpFlagMarker[0] << ": 000 (low interest)\n"
637  "# | " << srpFlagMarker[1] << ": 001 (single)\n"
638  "# | " << srpFlagMarker[2] << ": 010 (neighbour)\n"
639  "# V |Eta| " << srpFlagMarker[3] << ": 011 (center)\n"
640  "#\n";
641 }
double f[11][100]
int abNum(int iABEta, int iABPhi)
Definition: GenABIO.cc:204
const char srpFlagMarker[]
Definition: GenABIO.cc:175

Variable Documentation

const char* abIOFilePostfix = ".txt"

Definition at line 169 of file GenABIO.cc.

Referenced by main().

const char* abIOFilePrefix = "IO_AB"

Definition at line 168 of file GenABIO.cc.

Referenced by main().

const char* abSRFFilePostfix = ".txt"

Definition at line 167 of file GenABIO.cc.

Referenced by main().

const char* abSRFFilePrefix = "AF_AB"

Definition at line 166 of file GenABIO.cc.

Referenced by main().

const char* abTTFFilePostfix = ".txt"

Definition at line 165 of file GenABIO.cc.

Referenced by main().

const char* abTTFFilePrefix = "TTF_AB"

Definition at line 164 of file GenABIO.cc.

Referenced by main().

roAction_t actions[nactions]
vector<pair<int, int> > ecalDccSC[nEndcaps][nDCCEE]

Definition at line 191 of file GenABIO.cc.

Referenced by getABDCCOutputStream(), and main().

int iEvent = 0

Definition at line 230 of file GenABIO.cc.

Referenced by cms::Phase2TrackerDigitizer::accumulate(), SiStripGainFromData::algoAnalyze(), RawDataConverter::analyze(), SiPixelPhase1HitsV::analyze(), SiPixelPhase1TrackingParticleV::analyze(), EcalSimRawData::analyze(), CastorDumpConditions::analyze(), FFTJetTreeDump::analyze(), HcalDigisValidation::analyze(), FSQ::BaseHandler::BaseHandler(), tnp::BaseTreeFiller::BaseTreeFiller(), pat::helper::BasicOverlapTest::BasicOverlapTest(), BeamFitter::BeamFitter(), DDCMSDetector::beginJob(), GeometricDetLoader::beginJob(), XMLGeometryReader::beginJob(), OutputMagneticFieldDDToDDL::beginJob(), OutputDDToDDL::beginJob(), cms::Phase2TrackerDigitizer::beginJob(), CSCSkim::beginJob(), RPCNoise::beginJob(), DigiVertexCorrHistogramMaker::book(), DigiLumiCorrHistogramMaker::book(), pat::LeptonVertexSignificance::calculate(), CandMergerCleanOthersByDR::CandMergerCleanOthersByDR(), reco::isodeposit::OtherCandidatesDeltaRVeto::centerOn(), reco::isodeposit::OtherCandVeto::centerOn(), CSCRecoIdealDBLoader::CSCRecoIdealDBLoader(), DTRecoIdealDBLoader::DTRecoIdealDBLoader(), EcalSimRawData::EcalSimRawData(), TTClusterBuilder< T >::endRun(), TTTrackAssociator< T >::endRun(), TTStubAssociator< T >::endRun(), TTClusterAssociator< T >::endRun(), VarSplitter::eval(), VariablePower::eval(), L1GtUtils::LogicalExpressionL1Results::expL1Triggers(), SimpleFlatTableProducer< T >::ExtVariable::ExtVariable(), ConfigurableHisto::fill(), fillABIOFiles(), fillABSRPFiles(), fillABTTFFiles(), l1t::L1TGlobalUtil::fillDescription(), PixelFitterByHelixProjectionsProducer::fillDescriptions(), PixelFitterByConformalMappingAndLineProducer::fillDescriptions(), MuonTimingFiller::fillTiming(), ConfigurableAnalysis::filter(), CSCSkim::filter(), RPCNoise::filter(), CSCEfficiency::filter(), FWFileEntry::filterEventsWithCustomParser(), GEMRecoIdealDBLoader::GEMRecoIdealDBLoader(), EcalSelectiveReadoutSuppressor::getEcalSelectiveReadout(), FWEventItem::getEvent(), PhotonMVAEstimatorRunIIFall17::getTag(), PhotonMVAEstimatorRun2Spring16NonTrig::getTag(), PhotonMVAEstimatorRun2Spring15NonTrig::getTag(), MVAValueMapProducer< ParticleType >::globalEndJob(), MuonDetLayerMeasurements::groupedMeasurements(), HcalParametersDBBuilder::HcalParametersDBBuilder(), LaserHitPairGenerator::hitPairs(), HLTPrescaler::initializeGlobalCache(), pat::CandidateSummaryTable::initializeGlobalCache(), VirtualJetProducer::jetType(), HLTPrescaleProvider::l1tGlobalUtil(), main(), GroupedCkfTrajectoryBuilder::mass(), ME0RecoIdealDBLoader::ME0RecoIdealDBLoader(), ParametersDefinerForTP::momentum(), tnp::ProbeFlag::name(), FWEventItemsManager::newEvent(), ElectronHEEPIDValueMapProducer::DataFormat::operator()(), PhysicsTowerOrganizer::towercmp::operator()(), SubjetFilterJetProducer::output(), cms::CompoundJetProducer::output(), VirtualJetProducer::output(), PCaloGeometryBuilder::PCaloGeometryBuilder(), PGeometricDetBuilder::PGeometricDetBuilder(), PGeometricDetExtraBuilder::PGeometricDetExtraBuilder(), PHGCalParametersDBBuilder::PHGCalParametersDBBuilder(), QcdLowPtDQM::print(), pf2pat::TopProjectorAlgo< Top, Bottom >::processCollection(), TtDilepEvtSolutionMaker::produce(), PFEGammaToCandidateRemapper::produce(), ConeIsolation::produce(), TtSemiEvtSolutionMaker::produce(), pat::MatcherUsingTracks::produce(), ImpactParameter::produce(), PFLinker::produce(), SiStripFineDelayHit::produce(), PhotonIDValueMapProducer::produce(), pf2pat::TopProjectorAlgo< Top, Bottom >::produce(), QuickTrackAssociatorByHitsProducer::produce(), PhotonRegressionValueMapProducer::produce(), ElectronRegressionValueMapProducer::produce(), FFTJetPatRecoProducer::produce(), TriggerSummaryProducerAOD::produce(), FFTJetProducer::produce(), SiStripFineDelayHit::produceNoTracking(), PTrackerParametersDBBuilder::PTrackerParametersDBBuilder(), PVFitter::PVFitter(), MuonDetLayerMeasurements::recHits(), L1Analysis::L1AnalysisL1Menu::Reset(), RPCRecoIdealDBLoader::RPCRecoIdealDBLoader(), pat::helper::AnyNumberAssociationAdaptor::run(), FWEventItem::setEvent(), XMLConfigReader::setEventsFile(), BaseCkfTrajectoryBuilder::setNavigationSchool(), TTStubBuilder< T >::SortStubsBend(), Splitter::Splitter(), TableOutputBranches::TableOutputBranches(), TrackingNtuple::tpHitIndexListLessSort(), tnp::TPTreeFiller::TPTreeFiller(), TrackingSeedCandidates::TrackingSeedCandidates(), TriggerOutputBranches::TriggerOutputBranches(), GlobalVariablesTableProducer::Variable::Variable(), VarSplitter::VarSplitter(), VertexBeamspotOrigins::VertexBeamspotOrigins(), __class__< T >::~__class__(), AlCaElectronsTest::~AlCaElectronsTest(), AlignmentMonitorBase::~AlignmentMonitorBase(), AlignmentMonitorMuonResiduals::~AlignmentMonitorMuonResiduals(), AlignmentMonitorMuonSystemMap1D::~AlignmentMonitorMuonSystemMap1D(), AlignmentMonitorMuonVsCurvature::~AlignmentMonitorMuonVsCurvature(), AlignmentMonitorSegmentDifferences::~AlignmentMonitorSegmentDifferences(), AlignmentMonitorTemplate::~AlignmentMonitorTemplate(), AlignmentMonitorTracksFromTrajectories::~AlignmentMonitorTracksFromTrajectories(), pat::helper::AnythingToValueMap< Adaptor, Collection, value_type >::~AnythingToValueMap(), BadGlobalMuonTagger::~BadGlobalMuonTagger(), cms::BHFilter::~BHFilter(), calcTopMass::~calcTopMass(), CalibratedElectronProducerT< T >::~CalibratedElectronProducerT(), CalibratedPhotonProducerT< T >::~CalibratedPhotonProducerT(), CaloMuonMerger::~CaloMuonMerger(), cms::CATopJetProducer::~CATopJetProducer(), CosmicGenFilterLowE::~CosmicGenFilterLowE(), CosmicParametersDefinerForTP::~CosmicParametersDefinerForTP(), cms::CosmicTIFTrigFilter::~CosmicTIFTrigFilter(), CSCTightHalo2015Filter::~CSCTightHalo2015Filter(), CSCTightHaloFilter::~CSCTightHaloFilter(), CSCTightHaloTrkMuUnvetoFilter::~CSCTightHaloTrkMuUnvetoFilter(), cms::CSJetProducer::~CSJetProducer(), DiJetMonitor::~DiJetMonitor(), EcalBadCalibFilter::~EcalBadCalibFilter(), EcalLaserCorrFilter::~EcalLaserCorrFilter(), edm::EDLooper::~EDLooper(), EEBadScFilter::~EEBadScFilter(), EENoiseFilter::~EENoiseFilter(), ElectronIDExternalProducer< algo >::~ElectronIDExternalProducer(), reco::isodeposit::EventDependentAbsVeto::~EventDependentAbsVeto(), FakeTrackProducer< T >::~FakeTrackProducer(), pat::GenJetFlavourInfoPreserver::~GenJetFlavourInfoPreserver(), GlobalSuperTightHalo2016Filter::~GlobalSuperTightHalo2016Filter(), GlobalTightHalo2016Filter::~GlobalTightHalo2016Filter(), HcalStripHaloFilter::~HcalStripHaloFilter(), HGCalEgammaIDHelper::~HGCalEgammaIDHelper(), HistoFillerReco< l1extra::L1EmParticleCollection >::~HistoFillerReco(), pat::HLTL1MuonMatcher::~HLTL1MuonMatcher(), cms::HTTTopJetProducer::~HTTTopJetProducer(), JetCollectionReducerT< T >::~JetCollectionReducerT(), KFBasedPixelFitterProducer::~KFBasedPixelFitterProducer(), pat::L1MuonMatcher::~L1MuonMatcher(), LogErrorEventFilter::~LogErrorEventFilter(), pat::helper::ManyThingsToValueMaps< Adaptor, Collection, value_type >::~ManyThingsToValueMaps(), pat::MatcherUsingTracks::~MatcherUsingTracks(), METplusTrackMonitor::~METplusTrackMonitor(), MultiEventFilter::~MultiEventFilter(), modules::MuonCleanerBySegmentsT< T >::~MuonCleanerBySegmentsT(), cms::MuonMETValueMapProducer::~MuonMETValueMapProducer(), MuonReSeeder::~MuonReSeeder(), MuonSelectorVertex::~MuonSelectorVertex(), NjettinessAdder::~NjettinessAdder(), NTupler::~NTupler(), OutsideInMuonSeeder::~OutsideInMuonSeeder(), pat::helper::OverlapTest::~OverlapTest(), pat::PackedPFCandidateRefMixer::~PackedPFCandidateRefMixer(), ParticleListDrawer::~ParticleListDrawer(), pat::PATCleaner< PATObjType >::~PATCleaner(), PatElectronEAIsoCorrectionProducer::~PatElectronEAIsoCorrectionProducer(), pat::PATElectronSlimmer::~PATElectronSlimmer(), pat::PATGenJetSlimmer::~PATGenJetSlimmer(), pat::PATJetSlimmer::~PATJetSlimmer(), pat::PATMETSlimmer::~PATMETSlimmer(), pat::PATMuonSlimmer::~PATMuonSlimmer(), pat::PATObjectUserDataEmbedder< T >::~PATObjectUserDataEmbedder(), pat::PATPhotonSlimmer::~PATPhotonSlimmer(), pat::PATTauSlimmer::~PATTauSlimmer(), pat::PATTriggerEventProducer::~PATTriggerEventProducer(), pat::PATTriggerMatchEmbedder< PATObjectType >::~PATTriggerMatchEmbedder(), pat::PATTriggerObjectStandAloneSlimmer::~PATTriggerObjectStandAloneSlimmer(), pat::PATTriggerObjectStandAloneUnpacker::~PATTriggerObjectStandAloneUnpacker(), pat::PATTriggerProducer::~PATTriggerProducer(), pat::PATUserDataHelper< pat::pat::PFParticle >::~PATUserDataHelper(), pat::PATUserDataMerger< pat::pat::MET, pat::helper::AddUserInt >::~PATUserDataMerger(), PFEGammaToCandidateRemapper::~PFEGammaToCandidateRemapper(), PhotonIsolationCalculator::~PhotonIsolationCalculator(), PhotonMIPHaloTagger::~PhotonMIPHaloTagger(), PileUpSubtractor::~PileUpSubtractor(), Plotter::~Plotter(), QjetsAdder::~QjetsAdder(), RazorBox::~RazorBox(), RazorComputer::~RazorComputer(), SimpleFlatTableProducerBase< T, T >::~SimpleFlatTableProducerBase(), SiPixelPhase1Base::~SiPixelPhase1Base(), cms::SubJetProducer::~SubJetProducer(), tnp::TagProbePairMaker::~TagProbePairMaker(), pf2pat::TopProjectorAlgo< Top, Bottom >::~TopProjectorAlgo(), fastsim::TrackerSimHitProducer::~TrackerSimHitProducer(), TrackFitterProducer::~TrackFitterProducer(), TrackingFailureFilter::~TrackingFailureFilter(), TrackingRegionsFromSuperClustersProducer::~TrackingRegionsFromSuperClustersProducer(), TriggerObjectFilterByCollection::~TriggerObjectFilterByCollection(), VariableComputer::~VariableComputer(), VariableComputerTest::~VariableComputerTest(), VariablePower::~VariablePower(), and XtoFFbarFilter::~XtoFFbarFilter().

const int iTCCEtaBounds[nTCCInEta+1] = {0,7,11,28,45,49,56}

Definition at line 162 of file GenABIO.cc.

Referenced by getABTCCInputStream().

const int iTTEtaMax[nABInEta] = {10,27,44,55}

Definition at line 156 of file GenABIO.cc.

Referenced by fillABSRPFiles(), and fillABTTFFiles().

const int iTTEtaMin[nABInEta] = {0,11,28,45}

Definition at line 155 of file GenABIO.cc.

Referenced by fillABSRPFiles(), and fillABTTFFiles().

const int iTTEtaSign[nABInEta] = {-1,-1,1,1}

Definition at line 157 of file GenABIO.cc.

Referenced by fillABSRPFiles(), and fillABTTFFiles().

const int nAB = nABInPhi*nABInEta

Definition at line 153 of file GenABIO.cc.

Referenced by abConnect(), fillABSRPFiles(), and main().

const int nABABCh = 8

Definition at line 149 of file GenABIO.cc.

Referenced by abConnect(), and fillABIOFiles().

const int nABInEta =4

Number of ABs in a phi-sector

Definition at line 142 of file GenABIO.cc.

Referenced by fillABIOFiles(), and fillABTTFFiles().

const int nABInPhi =3

Number of ABs in an eta slice

Definition at line 145 of file GenABIO.cc.

Referenced by fillABIOFiles(), fillABSRPFiles(), and fillABTTFFiles().

const int nABTCCCh = 12

Definition at line 150 of file GenABIO.cc.

Referenced by fillABIOFiles().

const int nactions = 8

Definition at line 185 of file GenABIO.cc.

Referenced by main().

const int nBarrelTTInEta = 34
static

Number of barrel trigger towers along eta

Definition at line 132 of file GenABIO.cc.

Referenced by abNum(), main(), and readSRF().

const int nDCCCh = 12

Definition at line 151 of file GenABIO.cc.

Referenced by fillABIOFiles().

const int nDCCEE = 9

Number of DCCs in an endcap

Definition at line 148 of file GenABIO.cc.

const int nEndcaps = 2
static
const int nEndcapTTInEta = 11
static

Number of trigger towers along eta in one endcap

Definition at line 129 of file GenABIO.cc.

Referenced by fillABSRPFiles(), and getABDCCOutputStream().

const int nEndcapXBins = 100
static

Range of the x-index of endcap crystals (xman-xmin+1).

Definition at line 111 of file GenABIO.cc.

Referenced by main().

const int nEndcapYBins = 100
static

Range of the y-index of endcap crystals (yman-ymin+1).

Definition at line 114 of file GenABIO.cc.

Referenced by main().

const int nSupercrystalXBins = nEndcapXBins/supercrystalEdge
static

Range of endcap supercrystal x-index (xmax-xmin+1)

Definition at line 120 of file GenABIO.cc.

Referenced by abNum(), fillABSRPFiles(), main(), and readSRF().

const int nSupercrystalYBins = nEndcapYBins/supercrystalEdge
static

Range of endcap supercrystal y-index (ymay-ymin+1)

Definition at line 123 of file GenABIO.cc.

Referenced by abNum(), fillABSRPFiles(), main(), and readSRF().

const int nTCCInEta = 6

Definition at line 152 of file GenABIO.cc.

const int nTTInABAlongPhi =nTTInPhi/nABInPhi

Definition at line 154 of file GenABIO.cc.

Referenced by fillABSRPFiles(), fillABTTFFiles(), and getABTTPhiBounds().

const int nTTInEta
static
Initial value:
=
static const int nBarrelTTInEta
Definition: GenABIO.cc:132
static const int nEndcapTTInEta
Definition: GenABIO.cc:129

Number of trigger towers along eta for the whole ECAL

Definition at line 135 of file GenABIO.cc.

Referenced by abNum(), getFlagStream(), main(), and readTTF().

const int nTTInPhi = 72
static

Number of trigger towers in an eta ring

Definition at line 139 of file GenABIO.cc.

Referenced by abNum(), getABTTPhiBounds(), main(), readSRF(), and readTTF().

char roFlagMarker[]
Initial value:
= {'.', 'z', 'Z', 'F',
'4', '5', '6', '7'
}

Definition at line 181 of file GenABIO.cc.

Referenced by main(), writeABIOFileHeader(), and writeABSRFFileHeader().

const char* srfFilename = "SRF.txt"

Definition at line 171 of file GenABIO.cc.

Referenced by main(), and readSRF().

char srp2roFlags[128]

Definition at line 178 of file GenABIO.cc.

Referenced by fillABSRPFiles(), getABDCCOutputStream(), and main().

const char srpFlagMarker[] = {'.', 'S', 'N', 'C', '4','5','6','7'}
const int supercrystalEdge = 5
static

Edge size of a supercrystal. A supercrystal is a tower of 5x5 crystals.

Definition at line 117 of file GenABIO.cc.

const char tccFlagMarker[] = {'.', 'S', '?', 'C', '4', '5', '6', '7'}
int theAB = -1

Definition at line 232 of file GenABIO.cc.

Referenced by main().

const char* ttfFilename = "TTF.txt"

Definition at line 172 of file GenABIO.cc.

Referenced by main(), and readTTF().

const char* xconnectFilename = "xconnect_universal.txt"

Definition at line 173 of file GenABIO.cc.

Referenced by abConnect().