---

ROSDebugUtility.h File Reference

Go to the source code of this file.

Functions
std::string	itoa (int current)
void	ROS_L1A_Frequency (int ROS_number, int ROSDebug_BcntResCnt, int neventsROS25, double &frequency, float &trigger_counter)
void	ROSWords_t (double &ResetCount_unfolded, int ROS_number, int ROSDebug_BcntResCnt, int nevents)
Variables
int	cont = 0
int	cont10 = 0
int	cont11 = 0
int	cont12 = 0
int	cont2 = 0
int	cont3 = 0
int	cont4 = 0
int	cont5 = 0
int	cont6 = 0
int	cont7 = 0
int	cont8 = 0
int	cont9 = 0
int	cycle = 1495
long double	first_evt = 0
long double	first_evt10 = 0
long double	first_evt11 = 0
long double	first_evt12 = 0
long double	first_evt2 = 0
long double	first_evt3 = 0
long double	first_evt4 = 0
long double	first_evt5 = 0
long double	first_evt6 = 0
long double	first_evt7 = 0
long double	first_evt8 = 0
long double	first_evt9 = 0
int	freq1
int	freq10
int	freq11
int	freq12
int	freq2
int	freq3
int	freq4
int	freq5
int	freq6
int	freq7
int	freq8
int	freq9
float	peso = 1
double	ResetCount_unfolded = 0
double	ResetCount_unfolded_comp = 0
double	ResetCount_unfolded_comp10 = 0
double	ResetCount_unfolded_comp11 = 0
double	ResetCount_unfolded_comp12 = 0
double	ResetCount_unfolded_comp2 = 0
double	ResetCount_unfolded_comp3 = 0
double	ResetCount_unfolded_comp4 = 0
double	ResetCount_unfolded_comp5 = 0
double	ResetCount_unfolded_comp6 = 0
double	ResetCount_unfolded_comp7 = 0
double	ResetCount_unfolded_comp8 = 0
double	ResetCount_unfolded_comp9 = 0
float	trigger_counter1 = 0
float	trigger_counter10 = 0
float	trigger_counter11 = 0
float	trigger_counter12 = 0
float	trigger_counter2 = 0
float	trigger_counter3 = 0
float	trigger_counter4 = 0
float	trigger_counter5 = 0
float	trigger_counter6 = 0
float	trigger_counter7 = 0
float	trigger_counter8 = 0
float	trigger_counter9 = 0

---

Function Documentation

std::string itoa

(

int

current

)

Referenced by VisHepMCProductTwig::update().

void ROS_L1A_Frequency	(	int	ROS_number,
		int	ROSDebug_BcntResCnt,
		int	neventsROS25,
		double &	frequency,
		float &	trigger_counter
	)

Definition at line 211 of file ROSDebugUtility.h.

References first_evt, first_evt10, first_evt11, first_evt12, first_evt2, first_evt3, first_evt4, first_evt5, first_evt6, first_evt7, first_evt8, first_evt9, max_bx, peso, trigger_counter1, trigger_counter10, trigger_counter11, trigger_counter12, trigger_counter2, trigger_counter3, trigger_counter4, trigger_counter5, trigger_counter6, trigger_counter7, trigger_counter8, and trigger_counter9.

Referenced by DTDataIntegrityTask::processROS25().

{

 trigger_counter = 0.;
 
// first ROS
 if (ROS_number == 1)
 {  
  long double second_evt = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt - first_evt)<(1/(0.0000891*peso))){        
     trigger_counter1 += 1;
     trigger_counter = trigger_counter1;
     }
     else{ //window change
     frequency = trigger_counter1;
     first_evt = second_evt;
     trigger_counter1 = 0;} 
   }
  else{
    long double second_evt_neg = second_evt + max_bx;      

    if ((second_evt_neg - first_evt)<(1/(0.0000891*peso))){
     trigger_counter1 +=1;
     trigger_counter = trigger_counter1;
     frequency = first_evt*0.0000891;
     }
     else {
     first_evt = second_evt;
     trigger_counter1 = 0;}
  }
  return;
 }



// second ROS
 else if (ROS_number == 2){ 
  long double second_evt2 = ROSDebug_BcntResCnt;
                   
   if (neventsROS25==1) first_evt2 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt2 - first_evt2)<(1/(0.0000891*peso))){        
     trigger_counter2 += 1;
     trigger_counter = trigger_counter2;
     }
     else{ //window change
     frequency = trigger_counter2;
     first_evt2 = second_evt2;
     trigger_counter2 = 0;} 
   }
  else{
    long double second_evt_neg2 = second_evt2 + max_bx;   

    if ((second_evt_neg2 - first_evt2)<(1/(0.0000891*peso))){
     trigger_counter2 +=1;
     trigger_counter = trigger_counter2;
     frequency = first_evt2*0.0000891;
     }
     else {
     first_evt2 = second_evt2;
     trigger_counter2 = 0;}
  }
 }     
 
// third ROS
 else if (ROS_number == 3){
  
  long double second_evt3 = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt3 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt3 - first_evt3)<(1/(0.0000891*peso))){        
     trigger_counter3 += 1;
     trigger_counter = trigger_counter3;
     }
     else{ //window change
     frequency = trigger_counter3;
     first_evt3 = second_evt3;
     trigger_counter3 = 0;} 
   }
  else{
    long double second_evt_neg3 = second_evt3 + max_bx; 

    if ((second_evt_neg3 - first_evt3)<(1/(0.0000891*peso))){
     trigger_counter3 +=1;
     trigger_counter = trigger_counter3;
     frequency = first_evt3*0.0000891;
     }
     else {
     first_evt3 = second_evt3;
     trigger_counter3 = 0;}
  }
 }

 
// 4th ROS
 else if (ROS_number == 4){
  
  long double second_evt4 = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt4 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt4 - first_evt4)<(1/(0.0000891*peso))){        
     trigger_counter4 += 1;
     trigger_counter = trigger_counter4;
     }
     else{ //window change
     frequency = trigger_counter4;
     first_evt4 = second_evt4;
     trigger_counter4 = 0;} 
   }
  else{
    long double second_evt_neg4 = second_evt4 + max_bx;      

    if ((second_evt_neg4 - first_evt4)<(1/(0.0000891*peso))){
     trigger_counter4 +=1;
     trigger_counter = trigger_counter4;
     frequency = first_evt4*0.0000891;
     }
     else {
     first_evt4 = second_evt4;
     trigger_counter4 = 0;}
  }
 }
                   
// 5th ROS
 else if (ROS_number == 5){
  
  long double second_evt5 = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt5 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt5 - first_evt5)<(1/(0.0000891*peso))){        
     trigger_counter5 += 1;
     trigger_counter = trigger_counter5;
     }
     else{ //window change
     frequency = trigger_counter5;
     first_evt5 = second_evt5;
     trigger_counter5 = 0;} 
   }
  else{
    long double second_evt_neg5 = second_evt5 + max_bx;      

    if ((second_evt_neg5 - first_evt5)<(1/(0.0000891*peso))){
     trigger_counter5 +=1;
     trigger_counter = trigger_counter5;
     frequency = first_evt5*0.0000891;
     }
     else {
     first_evt5 = second_evt5;
     trigger_counter5 = 0;}
  }
 }
                   
// 6th ROS
 else if (ROS_number == 6){
  
  long double second_evt6 = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt6 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt6 - first_evt6)<(1/(0.0000891*peso))){        
     trigger_counter6 += 1;
     trigger_counter = trigger_counter6;
     }
     else{ //window change
     frequency = trigger_counter6;
     first_evt6 = second_evt6;
     trigger_counter6 = 0;} 
   }
  else{
    long double second_evt_neg6 = second_evt6 + max_bx;      

    if ((second_evt_neg6 - first_evt6)<(1/(0.0000891*peso))){
     trigger_counter6 +=1;
     trigger_counter = trigger_counter6;
     frequency = first_evt6*0.0000891;
     }
     else {
     first_evt6 = second_evt6;
     trigger_counter6 = 0;}
  }
 }
                   

// 7th ROS
 else if (ROS_number == 7){
  
  long double second_evt7 = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt7 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt7 - first_evt7)<(1/(0.0000891*peso))){        
     trigger_counter7 += 1;
     trigger_counter = trigger_counter7;
     }
     else{ //window change
     frequency = trigger_counter7;
     first_evt7 = second_evt7;
     trigger_counter7 = 0;} 
   }
  else{
    long double second_evt_neg7 = second_evt7 + max_bx;      

    if ((second_evt_neg7 - first_evt7)<(1/(0.0000891*peso))){
     trigger_counter7 +=1;
     trigger_counter = trigger_counter7;
     frequency = first_evt7*0.0000891;
     }
     else {
     first_evt7 = second_evt7;
     trigger_counter7 = 0;}
  }
 }

// 8th ROS
 else if (ROS_number == 8){
  
  long double second_evt8 = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt8 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt8 - first_evt8)<(1/(0.0000891*peso))){        
     trigger_counter8 += 1;
     trigger_counter = trigger_counter8;
     }
     else{ //window change
     frequency = trigger_counter8;
     first_evt8 = second_evt8;
     trigger_counter8 = 0;} 
   }
  else{
    long double second_evt_neg8 = second_evt8 + max_bx;      

    if ((second_evt_neg8 - first_evt8)<(1/(0.0000891*peso))){
     trigger_counter8 +=1;
     trigger_counter = trigger_counter8;
     frequency = first_evt8*0.0000891;
     }
     else {
     first_evt8 = second_evt8;
     trigger_counter8 = 0;}
  }
 }

// 9th ROS
 else if (ROS_number == 9){
  
  long double second_evt9 = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt9 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt9 - first_evt9)<(1/(0.0000891*peso))){        
     trigger_counter9 += 1;
     trigger_counter = trigger_counter9;
     }
     else{ //window change
     frequency = trigger_counter9;
     first_evt9 = second_evt9;
     trigger_counter9 = 0;} 
   }
  else{
    long double second_evt_neg9 = second_evt9 + max_bx;      

    if ((second_evt_neg9 - first_evt9)<(1/(0.0000891*peso))){
     trigger_counter9 +=1;
     trigger_counter = trigger_counter9;
     frequency = first_evt9*0.0000891;
     }
     else {
     first_evt9 = second_evt9;
     trigger_counter9 = 0;}
  }
 }


// 10th ROS
 else if (ROS_number == 10){
  
  long double second_evt10 = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt10 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt10 - first_evt10)<(1/(0.0000891*peso))){        
     trigger_counter10 += 1;
     trigger_counter = trigger_counter10;
     }
     else{ //window change
     frequency = trigger_counter10;
     first_evt10 = second_evt10;
     trigger_counter10 = 0;} 
   }
  else{
    long double second_evt_neg10 = second_evt10 + max_bx;      

    if ((second_evt_neg10 - first_evt10)<(1/(0.0000891*peso))){
     trigger_counter10 +=1;
     trigger_counter = trigger_counter10;
     frequency = first_evt10*0.0000891;
     }
     else {
     first_evt10 = second_evt10;
     trigger_counter10 = 0;}
  }
 }

 
// 11th ROS
 else if (ROS_number == 11){
  
  long double second_evt11 = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt11 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt11 - first_evt11)<(1/(0.0000891*peso))){        
     trigger_counter11 += 1;
     trigger_counter = trigger_counter11;
     }
     else{ //window change
     frequency = trigger_counter11;
     first_evt11 = second_evt11;
     trigger_counter11 = 0;} 
   }
  else{
    long double second_evt_neg11 = second_evt11 + max_bx;      

    if ((second_evt_neg11 - first_evt11)<(1/(0.0000891*peso))){
     trigger_counter11 +=1;
     trigger_counter = trigger_counter11;
     frequency = first_evt11*0.0000891;
     }
     else {
     first_evt11 = second_evt11;
     trigger_counter11 = 0;}
  }
 }

 
// 12th ROS
 else if (ROS_number == 12){
  
  long double second_evt12 = ROSDebug_BcntResCnt;
   if (neventsROS25==1) first_evt12 = ROSDebug_BcntResCnt;
                   
  if (ROSDebug_BcntResCnt<16777215) {

    if ((second_evt12 - first_evt12)<(1/(0.0000891*peso))){        
     trigger_counter12 += 1;
     trigger_counter = trigger_counter12;
     }
     else{ //window change
     frequency = trigger_counter12;
     first_evt12 = second_evt12;
     trigger_counter12 = 0;} 
   }
  else{
    long double second_evt_neg12 = second_evt12 + max_bx;      

    if ((second_evt_neg12 - first_evt12)<(1/(0.0000891*peso))){
     trigger_counter12 +=1;
     trigger_counter = trigger_counter12;
     frequency = first_evt12*0.0000891;
     }
     else {
     first_evt12 = second_evt12;
     trigger_counter12 = 0;}
  }
 }
}

void ROSWords_t	(	double &	ResetCount_unfolded,
		int	ROS_number,
		int	ROSDebug_BcntResCnt,
		int	nevents
	)			[inline]

Definition at line 41 of file ROSDebugUtility.h.

References cont, cont10, cont11, cont12, cont2, cont3, cont4, cont5, cont6, cont7, cont8, cont9, cycle, ResetCount_unfolded_comp, ResetCount_unfolded_comp10, ResetCount_unfolded_comp11, ResetCount_unfolded_comp12, ResetCount_unfolded_comp2, ResetCount_unfolded_comp3, ResetCount_unfolded_comp4, ResetCount_unfolded_comp5, ResetCount_unfolded_comp6, ResetCount_unfolded_comp7, ResetCount_unfolded_comp8, and ResetCount_unfolded_comp9.

Referenced by DTDataIntegrityTask::processROS25().

{

// synchronize with evt #
// if (neventsROS25 ==1) ResetCount_unfolded_comp.first=ROS_number;

// Processing first ROS
 if (ROS_number == 1){
  double ResetCount = ROSDebug_BcntResCnt*0.0000891;
 
  if (ResetCount_unfolded_comp <= (ResetCount)) {
  cont = cont;  
   ResetCount_unfolded = ResetCount + cycle*cont;
   }
  else { cont = cont + 1;
   ResetCount_unfolded = ResetCount + cycle*cont;
   }  
  ResetCount_unfolded_comp = ResetCount; 
   }
    
// second ROS  
 else if (ROS_number == 2){
  double ResetCount2 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp2 <= (ResetCount2)) {
  cont2 = cont2;  
   ResetCount_unfolded = ResetCount2 + cycle*cont2;
   }
  else { cont2 = cont2 + 1;
   ResetCount_unfolded = ResetCount2 + cycle*cont2;
    }
  ResetCount_unfolded_comp2 = ResetCount2;    
   }

// third ROS  
 else if (ROS_number == 3){
  double ResetCount3 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp3 <= (ResetCount3)) {
  cont3 = cont3;  
   ResetCount_unfolded = ResetCount3 + cycle*cont3;
   }
  else { cont3 = cont3 + 1;
   ResetCount_unfolded = ResetCount3 + cycle*cont3;
    }
  ResetCount_unfolded_comp3 = ResetCount3;  
   }
  

// 4th ROS  
 else if (ROS_number == 4){
  double ResetCount4 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp4 <= (ResetCount4)) {
  cont4 = cont4;  
   ResetCount_unfolded = ResetCount4 + cycle*cont4;
   }
  else { cont4 = cont4 + 1;
   ResetCount_unfolded = ResetCount4 + cycle*cont4;
    }
  ResetCount_unfolded_comp = ResetCount4;  
    }

// 5th ROS  
 else if (ROS_number == 5){
  double ResetCount5 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp5 <= (ResetCount5)) {
  cont5 = cont5;  
   ResetCount_unfolded = ResetCount5 + cycle*cont5;
   }
  else { cont5 = cont5 + 1;
   ResetCount_unfolded = ResetCount5 + cycle*cont5;
    }
  ResetCount_unfolded_comp5 = ResetCount5;  
   }

// 6th ROS  
 else if (ROS_number == 6){
  double ResetCount6 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp6 <= (ResetCount6)) {
  cont6 = cont6;  
   ResetCount_unfolded = ResetCount6 + cycle*cont6;
   }
  else { cont6 = cont6 + 1;
   ResetCount_unfolded = ResetCount6 + cycle*cont6;
    }
  ResetCount_unfolded_comp6 = ResetCount6;  
   }
       
// 7th ROS  
 else if (ROS_number == 7){
  double ResetCount7 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp7 <= (ResetCount7)) {
  cont7 = cont7;  
   ResetCount_unfolded = ResetCount7 + cycle*cont7;
   }
  else { cont7 = cont7 + 1;
   ResetCount_unfolded = ResetCount7 + cycle*cont7;
    }
   ResetCount_unfolded_comp7 = ResetCount7;
   }

// 8th ROS  
 else if (ROS_number == 8){
  double ResetCount8 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp8 <= (ResetCount8)) {
  cont8 = cont8;  
   ResetCount_unfolded = ResetCount8 + cycle*cont8;
   }
  else { cont8 = cont8 + 1;
   ResetCount_unfolded = ResetCount8 + cycle*cont8;
    }
  ResetCount_unfolded_comp8 = ResetCount8;
   }

// 9th ROS  
 else if (ROS_number == 9){
  double ResetCount9 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp9 <= (ResetCount9)) {
  cont9 = cont9;  
   ResetCount_unfolded = ResetCount9 + cycle*cont9;
   }
  else { cont9 = cont9 + 1;
   ResetCount_unfolded = ResetCount9 + cycle*cont9;
    }
  ResetCount_unfolded_comp9 = ResetCount9;  
   }

// 10th ROS  
 else if (ROS_number == 10){
  double ResetCount10 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp10 <= (ResetCount10)) {
  cont10 = cont10;  
   ResetCount_unfolded = ResetCount10 + cycle*cont10;
   }
  else { cont10 = cont10 + 1;
   ResetCount_unfolded = ResetCount10 + cycle*cont10;
    }
  ResetCount_unfolded_comp10 = ResetCount10;  
   }

// 11th ROS  
 else if (ROS_number == 11){
  double ResetCount11 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp11 <= (ResetCount11)) {
  cont11 = cont11;  
   ResetCount_unfolded = ResetCount11 + cycle*cont11;
   }
  else { cont11 = cont11 + 1;
   ResetCount_unfolded = ResetCount11 + cycle*cont11;
    }
  ResetCount_unfolded_comp11 = ResetCount11;  
   }
  
  // 12th ROS  
 else if (ROS_number == 12){
  double ResetCount12 = ROSDebug_BcntResCnt*0.0000891;
  if (ResetCount_unfolded_comp12 <= (ResetCount12)) {
  cont12 = cont12;  
   ResetCount_unfolded = ResetCount12 + cycle*cont12;
   }
  else { cont12 = cont12 + 1;
   ResetCount_unfolded = ResetCount12 + cycle*cont12;
    }
  ResetCount_unfolded_comp12 = ResetCount12;  
   }  
}

---

Variable Documentation

int cont = 0

Definition at line 22 of file ROSDebugUtility.h.

Referenced by HFPreLightCal::endJob(), PostProcessor::limitedFit(), cond::XMLAuthenticationService::XMLAuthenticationService::processFile(), TrackProducerWithSCAssociation::produce(), ROSWords_t(), DAFTrackProducerAlgorithm::runWithCandidate(), and SiStripHistoricInfoWebInterface::SiStripHistoricInfoWebInterface().

int cont10 = 0

Definition at line 23 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cont11 = 0

Definition at line 23 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cont12 = 0

Definition at line 23 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cont2 = 0

Definition at line 22 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cont3 = 0

Definition at line 22 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cont4 = 0

Definition at line 22 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cont5 = 0

Definition at line 22 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cont6 = 0

Definition at line 22 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cont7 = 0

Definition at line 23 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cont8 = 0

Definition at line 23 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cont9 = 0

Definition at line 23 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

int cycle = 1495

Definition at line 23 of file ROSDebugUtility.h.

Referenced by GctDigiToPsbText::analyze(), GtPsbTextToDigi::produce(), and ROSWords_t().

long double first_evt = 0

Definition at line 27 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt10 = 0

Definition at line 36 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt11 = 0

Definition at line 37 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt12 = 0

Definition at line 38 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt2 = 0

Definition at line 28 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt3 = 0

Definition at line 29 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt4 = 0

Definition at line 30 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt5 = 0

Definition at line 31 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt6 = 0

Definition at line 32 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt7 = 0

Definition at line 33 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt8 = 0

Definition at line 34 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

long double first_evt9 = 0

Definition at line 35 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

int freq1

Definition at line 26 of file ROSDebugUtility.h.

int freq10

Definition at line 26 of file ROSDebugUtility.h.

int freq11

Definition at line 26 of file ROSDebugUtility.h.

int freq12

Definition at line 26 of file ROSDebugUtility.h.

int freq2

Definition at line 26 of file ROSDebugUtility.h.

int freq3

Definition at line 26 of file ROSDebugUtility.h.

int freq4

Definition at line 26 of file ROSDebugUtility.h.

int freq5

Definition at line 26 of file ROSDebugUtility.h.

int freq6

Definition at line 26 of file ROSDebugUtility.h.

int freq7

Definition at line 26 of file ROSDebugUtility.h.

int freq8

Definition at line 26 of file ROSDebugUtility.h.

int freq9

Definition at line 26 of file ROSDebugUtility.h.

float peso = 1

Definition at line 39 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

double ResetCount_unfolded = 0

Definition at line 21 of file ROSDebugUtility.h.

Referenced by DTDataIntegrityTask::processROS25().

double ResetCount_unfolded_comp = 0

Definition at line 9 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp10 = 0

Definition at line 18 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp11 = 0

Definition at line 19 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp12 = 0

Definition at line 20 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp2 = 0

Definition at line 10 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp3 = 0

Definition at line 11 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp4 = 0

Definition at line 12 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp5 = 0

Definition at line 13 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp6 = 0

Definition at line 14 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp7 = 0

Definition at line 15 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp8 = 0

Definition at line 16 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

double ResetCount_unfolded_comp9 = 0

Definition at line 17 of file ROSDebugUtility.h.

Referenced by ROSWords_t().

float trigger_counter1 = 0

Definition at line 24 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter10 = 0

Definition at line 25 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter11 = 0

Definition at line 25 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter12 = 0

Definition at line 25 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter2 = 0

Definition at line 24 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter3 = 0

Definition at line 24 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter4 = 0

Definition at line 24 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter5 = 0

Definition at line 24 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter6 = 0

Definition at line 24 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter7 = 0

Definition at line 25 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter8 = 0

Definition at line 25 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

float trigger_counter9 = 0

Definition at line 25 of file ROSDebugUtility.h.

Referenced by ROS_L1A_Frequency().

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