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CSCBadWiresConditions.h
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1 #ifndef _CSCBADWIRESCONDITIONS_H
2 #define _CSCBADWIRESCONDITIONS_H
3 
4 #include <memory>
5 #include <cmath>
15 
19 
21  public:
24 
25 
26  inline static CSCBadWires * prefillBadWires();
27 
28  typedef const CSCBadWires * ReturnType;
29 
30  ReturnType produceBadWires(const CSCBadWiresRcd&);
31 
32  private:
33  // ----------member data ---------------------------
36 
37 };
38 
39 #include<fstream>
40 #include<vector>
41 #include<iostream>
42 
43 // to workaround plugin library
45 {
46  CSCBadWires * cndbbadwires = new CSCBadWires();
47 
48  int new_index,new_chan;
49  int new_layer,new_channel, new_flag1, new_flag2, new_flag3,new_pointer;
50  std::vector<int> new_index_id;
51  std::vector<short int> new_layer_id;
52  std::vector<short int> new_chan_id;
53  std::vector<int> new_badchannels;
54  std::vector<short int> new_flag1_id;
55  std::vector<short int> new_flag2_id;
56  std::vector<short int> new_flag3_id;
57  std::vector<int> new_cham_id;
58  std::vector<int> new_point;
59 
60  //when bad channels exist use the following
61  int new_nrlines1=0;
62  int new_nrlines2=0;
63  //when empty
64  //int new_nrlines1=-1;
65  //int new_nrlines2=-1;
66 
67  std::ifstream newdata1;
68  std::ifstream newdata2;
69 
70  newdata1.open("badwires1.dat",std::ios::in);
71  if(!newdata1) {
72  std::cerr <<"Error: badwires1.dat -> no such file!"<< std::endl;
73  exit(1);
74  }
75  newdata2.open("badwires2.dat",std::ios::in); //channelcontainer
76  if(!newdata2) {
77  std::cerr <<"Error: badwires2.dat -> no such file!"<< std::endl;
78  exit(1);
79  }
80 
81  while (!newdata1.eof() ) {
82  newdata1 >> new_index >> new_pointer >> new_chan;
83  new_index_id.push_back(new_index);
84  new_point.push_back(new_pointer);
85  new_badchannels.push_back(new_chan);
86  new_nrlines1++;
87  }
88  newdata1.close();
89 
90  while (!newdata2.eof() ) {
91  newdata2 >> new_layer >> new_channel >> new_flag1 >> new_flag2 >> new_flag3;
92  new_layer_id.push_back(new_layer);
93  new_chan_id.push_back(new_channel);
94  new_flag1_id.push_back(new_flag1);
95  new_flag2_id.push_back(new_flag2);
96  new_flag3_id.push_back(new_flag3);
97  new_nrlines2++;
98  }
99  newdata2.close();
100 
101 
102  CSCBadWires::BadChamberContainer & itemvector1 = cndbbadwires->chambers;
103  itemvector1.resize(new_nrlines1);
104 
105 
106  CSCBadWires::BadChannelContainer & itemvector2 = cndbbadwires->channels;
107  itemvector2.resize(new_nrlines2);
108 
109  cndbbadwires->numberOfBadChannels = new_nrlines2;
110 
111  for(int i=0; i<new_nrlines1;i++){
112  itemvector1[i].chamber_index = new_index_id[i];
113  itemvector1[i].pointer = new_point[i];
114  itemvector1[i].bad_channels = new_badchannels[i];
115 
116  }
117 
118  for(int j=0; j<new_nrlines2;++j){
119  itemvector2[j].layer = new_layer_id[j];
120  itemvector2[j].channel = new_chan_id[j];
121  itemvector2[j].flag1 = new_flag1_id[j];
122  itemvector2[j].flag2 = new_flag2_id[j];
123  itemvector2[j].flag3 = new_flag3_id[j];
124  }
125 
126  return cndbbadwires;
127 }
128 
129 #endif
130 
int i
Definition: DBlmapReader.cc:9
std::vector< BadChamber > BadChamberContainer
Definition: CSCBadWires.h:32
static CSCBadWires * prefillBadWires()
void setIntervalFor(const edm::eventsetup::EventSetupRecordKey &, const edm::IOVSyncValue &, edm::ValidityInterval &)
BadChamberContainer chambers
Definition: CSCBadWires.h:35
CSCBadWiresConditions(const edm::ParameterSet &)
const CSCBadWires * ReturnType
int j
Definition: DBlmapReader.cc:9
ReturnType produceBadWires(const CSCBadWiresRcd &)
BadChannelContainer channels
Definition: CSCBadWires.h:36
int numberOfBadChannels
Definition: CSCBadWires.h:30
std::vector< BadChannel > BadChannelContainer
Definition: CSCBadWires.h:33