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//-------------------------------------------------
//
// Class: L1MuBMAddressArray
//
// Description: Array of relative Addresses
//
//
//
// Author :
// N. Neumeister CERN EP
//
//--------------------------------------------------
//-----------------------
// This Class's Header --
//-----------------------
#include "DataFormats/L1TMuon/interface/BMTF/L1MuBMAddressArray.h"
//---------------
// C++ Headers --
//---------------
#include <iostream>
#include <iomanip>
#include <vector>
#include <cassert>
//-------------------------------
// Collaborating Class Headers --
//-------------------------------
using namespace std;
// --------------------------------
// class L1MuBMAddressArray
//---------------------------------
//----------------
// Constructors --
//----------------
L1MuBMAddressArray::L1MuBMAddressArray() { reset(); }
L1MuBMAddressArray::L1MuBMAddressArray(const L1MuBMAddressArray& addarray) {
for (int stat = 1; stat <= 4; stat++) {
m_station[stat - 1] = addarray.m_station[stat - 1];
}
}
//--------------
// Destructor --
//--------------
L1MuBMAddressArray::~L1MuBMAddressArray() {}
//--------------
// Operations --
//--------------
//
// assignment operator
//
L1MuBMAddressArray& L1MuBMAddressArray::operator=(const L1MuBMAddressArray& addarray) {
if (this != &addarray) {
for (int stat = 1; stat <= 4; stat++) {
m_station[stat - 1] = addarray.m_station[stat - 1];
}
}
return *this;
}
//
//
//
bool L1MuBMAddressArray::operator==(const L1MuBMAddressArray& addarray) const {
for (int stat = 1; stat <= 4; stat++) {
if (m_station[stat - 1] != addarray.m_station[stat - 1])
return false;
}
return true;
}
//
//
//
bool L1MuBMAddressArray::operator!=(const L1MuBMAddressArray& addarray) const {
for (int stat = 1; stat <= 4; stat++) {
if (m_station[stat - 1] != addarray.m_station[stat - 1])
return true;
}
return false;
}
//
// reset AddressArray
//
void L1MuBMAddressArray::reset() {
for (int stat = 1; stat <= 4; stat++) {
m_station[stat - 1] = 15;
}
}
//
// set Address of a given station
//
void L1MuBMAddressArray::setStation(int stat, int adr) {
// assert( stat > 0 && stat <= 4 );
// assert( adr >= 0 && adr <= 15 );
m_station[stat - 1] = adr;
}
//
// set Addresses of all four stations
//
void L1MuBMAddressArray::setStations(int adr1, int adr2, int adr3, int adr4) {
setStation(1, adr1);
setStation(2, adr2);
setStation(3, adr3);
setStation(4, adr4);
}
//
// get track address code (for eta track finder)
//
int L1MuBMAddressArray::trackAddressCode() const {
int code = -1;
int s1 = m_station[0];
s1 = (s1 == 15) ? 0 : ((s1 / 2) % 2) + 1;
int s2 = m_station[1];
s2 = (s2 == 15) ? 0 : ((s2 / 2) % 2) + 1;
int s3 = m_station[2];
s3 = (s3 == 15) ? 0 : ((s3 / 2) % 2) + 1;
int s4 = m_station[3];
s4 = (s4 == 15) ? 0 : ((s4 / 2) % 2) + 1;
// 0 ... empty track segment
// 1 ... same wheel
// 2 ... next wheel
if (s1 == 0 && s2 == 0 && s3 == 0 && s4 == 0)
code = 0;
if (s1 == 0 && s2 == 0 && s3 == 2 && s4 == 1)
code = 0;
if (s1 == 0 && s2 == 0 && s3 == 2 && s4 == 2)
code = 0;
if (s1 == 0 && s2 == 2 && s3 == 0 && s4 == 1)
code = 0;
if (s1 == 0 && s2 == 2 && s3 == 0 && s4 == 2)
code = 0;
if (s1 == 0 && s2 == 2 && s3 == 1 && s4 == 0)
code = 0;
if (s1 == 0 && s2 == 2 && s3 == 2 && s4 == 0)
code = 0;
if (s1 == 0 && s2 == 1 && s3 == 2 && s4 == 1)
code = 0;
if (s1 == 0 && s2 == 2 && s3 == 1 && s4 == 1)
code = 0;
if (s1 == 0 && s2 == 2 && s3 == 1 && s4 == 2)
code = 0;
if (s1 == 0 && s2 == 2 && s3 == 2 && s4 == 1)
code = 0;
if (s1 == 0 && s2 == 2 && s3 == 2 && s4 == 2)
code = 0;
if (s1 == 1 && s2 == 0 && s3 == 2 && s4 == 1)
code = 0;
if (s1 == 1 && s2 == 2 && s3 == 0 && s4 == 1)
code = 0;
if (s1 == 1 && s2 == 2 && s3 == 1 && s4 == 0)
code = 0;
if (s1 == 1 && s2 == 1 && s3 == 2 && s4 == 1)
code = 0;
if (s1 == 1 && s2 == 2 && s3 == 1 && s4 == 1)
code = 0;
if (s1 == 1 && s2 == 2 && s3 == 1 && s4 == 2)
code = 0;
if (s1 == 1 && s2 == 2 && s3 == 2 && s4 == 1)
code = 0;
if (s1 == 0 && s2 == 0 && s3 == 1 && s4 == 1)
code = 1;
if (s1 == 0 && s2 == 0 && s3 == 1 && s4 == 2)
code = 2;
if (s1 == 0 && s2 == 1 && s3 == 0 && s4 == 1)
code = 3;
if (s1 == 0 && s2 == 1 && s3 == 0 && s4 == 2)
code = 4;
if (s1 == 0 && s2 == 1 && s3 == 1 && s4 == 0)
code = 5;
if (s1 == 0 && s2 == 1 && s3 == 1 && s4 == 1)
code = 6;
if (s1 == 0 && s2 == 1 && s3 == 1 && s4 == 2)
code = 7;
if (s1 == 0 && s2 == 1 && s3 == 2 && s4 == 0)
code = 8;
if (s1 == 0 && s2 == 1 && s3 == 2 && s4 == 2)
code = 8;
if (s1 == 1 && s2 == 0 && s3 == 0 && s4 == 1)
code = 9;
if (s1 == 1 && s2 == 0 && s3 == 0 && s4 == 2)
code = 10;
if (s1 == 1 && s2 == 0 && s3 == 1 && s4 == 0)
code = 11;
if (s1 == 1 && s2 == 0 && s3 == 1 && s4 == 1)
code = 12;
if (s1 == 1 && s2 == 0 && s3 == 1 && s4 == 2)
code = 13;
if (s1 == 1 && s2 == 0 && s3 == 2 && s4 == 0)
code = 14;
if (s1 == 1 && s2 == 0 && s3 == 2 && s4 == 2)
code = 14;
if (s1 == 1 && s2 == 1 && s3 == 0 && s4 == 0)
code = 15;
if (s1 == 1 && s2 == 1 && s3 == 0 && s4 == 1)
code = 16;
if (s1 == 1 && s2 == 1 && s3 == 0 && s4 == 2)
code = 17;
if (s1 == 1 && s2 == 1 && s3 == 1 && s4 == 0)
code = 18;
if (s1 == 1 && s2 == 1 && s3 == 1 && s4 == 1)
code = 19;
if (s1 == 1 && s2 == 1 && s3 == 1 && s4 == 2)
code = 20;
if (s1 == 1 && s2 == 1 && s3 == 2 && s4 == 0)
code = 21;
if (s1 == 1 && s2 == 1 && s3 == 2 && s4 == 2)
code = 21;
if (s1 == 1 && s2 == 2 && s3 == 0 && s4 == 0)
code = 22;
if (s1 == 1 && s2 == 2 && s3 == 0 && s4 == 2)
code = 22;
if (s1 == 1 && s2 == 2 && s3 == 2 && s4 == 0)
code = 22;
if (s1 == 1 && s2 == 2 && s3 == 2 && s4 == 2)
code = 22;
return code;
}
//
// get converted Addresses
//
L1MuBMAddressArray L1MuBMAddressArray::converted() const {
unsigned short int adr1 = L1MuBMAddressArray::convert(m_station[0]);
unsigned short int adr2 = L1MuBMAddressArray::convert(m_station[1]);
unsigned short int adr3 = L1MuBMAddressArray::convert(m_station[2]);
unsigned short int adr4 = L1MuBMAddressArray::convert(m_station[3]);
L1MuBMAddressArray newaddressarray;
newaddressarray.setStations(adr1, adr2, adr3, adr4);
return newaddressarray;
}
//
//
//
ostream& operator<<(ostream& s, const L1MuBMAddressArray& adrarr) {
s.setf(ios::right, ios::adjustfield);
for (int stat = 1; stat <= 4; stat++) {
s << "stat " << stat << ": " << setw(2) << adrarr.station(stat) << " ";
}
return s;
}
//
// convert address to corresponding VHDL address
//
unsigned short int L1MuBMAddressArray::convert(unsigned short int adr) {
unsigned short int newaddress = 15;
switch (adr) {
case 0: {
newaddress = 8;
break;
}
case 1: {
newaddress = 9;
break;
}
case 2: {
newaddress = 0;
break;
}
case 3: {
newaddress = 1;
break;
}
case 4: {
newaddress = 10;
break;
}
case 5: {
newaddress = 11;
break;
}
case 6: {
newaddress = 2;
break;
}
case 7: {
newaddress = 3;
break;
}
case 8: {
newaddress = 12;
break;
}
case 9: {
newaddress = 13;
break;
}
case 10: {
newaddress = 4;
break;
}
case 11: {
newaddress = 5;
break;
}
case 15: {
newaddress = 15;
break;
}
default: {
newaddress = 15;
break;
}
}
return newaddress;
}
//
// is it a same wheel address?
//
bool L1MuBMAddressArray::sameWheel(unsigned short int adr) {
// if ( adr > 15 ) cerr << "L1MuBMAddressArray : Error wrong address " << adr << endl;
return ((adr / 2) % 2 == 0);
}
//
// is it a next wheel address?
//
bool L1MuBMAddressArray::nextWheel(unsigned short int adr) {
// if ( adr > 15 ) cerr << "L1MuBMAddressArray : Error wrong address " << adr << endl;
return ((adr / 2) % 2 == 1);
}
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