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DataReducer.h
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1 #ifndef DataReducer_h
2 #define DataReducer_h
3 
6 
7 // #include <list>
8 
9 #include <vector>
10 #include <string>
11 #include <map>
12 #include <iostream>
13 #include <list>
14 #include <cctype>
15 
16 // this class is used to reduce the DCS data to a
17 // reasonable amount of offline DB IOVs
18 
19 template <typename T>
20 class DataReducer {
21 public:
22  typedef DataReducer<T> self;
23  typedef typename std::pair<EcalLogicID, T> DataItem;
24  typedef typename std::map<EcalLogicID, T> DataMap;
25  typedef typename std::list<std::pair<Tm, DataMap> >::iterator list_iterator;
26  typedef typename std::map<EcalLogicID, T>::iterator map_iterator;
27 
28  template <typename U>
29  class MyData {
30  public:
31  typedef MyData<U> self;
32  bool operator<(const MyData& rhs) {
33  Tm t1 = m_iData.first;
34  Tm t2 = rhs.m_iData.first;
35  long long diff_time = (t1.microsTime() - t2.microsTime());
36  return (diff_time < 0);
37  };
38 
39  std::pair<Tm, std::pair<EcalLogicID, U> > m_iData;
40  };
41 
42  typedef typename std::list<MyData<T> >::iterator iterator;
43 
44  DataReducer() { m_printout = false; };
46 
47  static const int TIMELIMIT = 60; // the time limit in seconds to consider two events in the same IOV creation
48 
49  void setDataList(std::list<MyData<T> > _list) {
50  m_list = _list;
51  m_list.sort();
52  };
53 
54  void getReducedDataList(std::list<std::pair<Tm, DataMap> >* my_new_list) {
55  /* ***************************************
56  to get reduced data list
57  *************************************** */
58 
59  std::cout << " we are in getReducedDataList " << std::endl;
60  // std::list< std::pair< Tm, DataMap > > my_new_list ;
61  iterator i;
62  std::cout << " created iterator " << std::endl;
63 
64  bool firstpass = true;
65  unsigned int s_old = 0;
66  for (i = m_list.begin(); i != m_list.end(); i++) {
67  Tm t = (*i).m_iData.first;
68  DataItem d = (*i).m_iData.second;
69  bool new_time_change = true;
70 
71  DataMap the_data;
72  list_iterator it_good = my_new_list->end();
73 
74  if (!firstpass) {
75  list_iterator it;
76  int last_state = -1;
77  for (it = my_new_list->begin(); it != my_new_list->end(); ++it) {
78  // check on the state
79 
80  std::pair<Tm, DataMap> pair_new_list = *it;
81 
82  Tm t_l = pair_new_list.first;
83  DataMap dd = pair_new_list.second;
84  map_iterator ip;
85  for (ip = dd.begin(); ip != dd.end(); ++ip) {
86  EcalLogicID ecid = ip->first;
87  T dcs_dat = ip->second;
88  if (ecid.getLogicID() == d.first.getLogicID())
89  last_state = dcs_dat.getStatus();
90  }
91 
92  long long diff_time = (t.microsTime() - t_l.microsTime()) / 1000000;
93  if (diff_time < 0)
94  diff_time = -diff_time;
95  if (diff_time < TIMELIMIT) {
96  // data change happened at the same moment
97 
98  new_time_change = false;
99  // add data to the list
100  the_data = pair_new_list.second;
101  it_good = it;
102  }
103  }
104 
105  if (last_state != d.second.getStatus()) {
106  if (!new_time_change) {
107  std::pair<Tm, DataMap> pair_new_list = *it_good;
108  Tm t_good = pair_new_list.first;
109  the_data = pair_new_list.second;
110  the_data.insert(d);
111  std::pair<Tm, DataMap> pair_new_good;
112  pair_new_good.first = t_good;
113  pair_new_good.second = the_data;
114 
115  my_new_list->erase(it_good);
116  my_new_list->push_back(pair_new_good);
117 
118  } else if (new_time_change) {
119  std::pair<Tm, DataMap> p_new;
120  p_new.first = t;
121  DataMap a_map;
122  a_map.insert(d);
123  p_new.second = a_map;
124  my_new_list->push_back(p_new);
125  }
126  }
127  list_iterator it3;
128  if (my_new_list->size() > s_old) {
129  s_old = my_new_list->size();
130  if (m_printout) {
131  std::cout << "************" << std::endl;
132  for (it3 = my_new_list->begin(); it3 != my_new_list->end(); ++it3) {
133  std::pair<Tm, DataMap> pair_new_list3 = *it3;
134  Tm t3 = pair_new_list3.first;
135  std::cout << " T =" << t3.str() << std::endl;
136  }
137  std::cout << "************" << std::endl;
138  }
139  }
140 
141  } else {
142  // first pass write it anyway
143  std::pair<Tm, DataMap> p_new;
144  p_new.first = t;
145  DataMap a_map;
146  a_map.insert(d);
147  p_new.second = a_map;
148  my_new_list->insert(my_new_list->begin(), p_new);
149  firstpass = false;
150  }
151  }
152 
153  if (m_printout) {
154  list_iterator it3;
155  for (it3 = my_new_list->begin(); it3 != my_new_list->end(); ++it3) {
156  std::pair<Tm, DataMap> pair_new_list3 = *it3;
157  Tm t3 = pair_new_list3.first;
158  std::cout << " T =" << t3.str() << std::endl;
159  }
160  }
161  };
162 
163 private:
164  // std::list< std::pair< Tm, DataItem > > m_list;
165  std::list<MyData<T> > m_list;
167 };
168 
169 #endif
static const int TIMELIMIT
Definition: DataReducer.h:47
void setDataList(std::list< MyData< T > > _list)
Definition: DataReducer.h:49
std::map< EcalLogicID, T >::iterator map_iterator
Definition: DataReducer.h:26
string dd
Definition: createTree.py:154
std::map< EcalLogicID, T > DataMap
Definition: DataReducer.h:24
int getLogicID() const
Definition: EcalLogicID.cc:28
bool m_printout
Definition: DataReducer.h:166
std::pair< EcalLogicID, T > DataItem
Definition: DataReducer.h:23
std::list< std::pair< Tm, DataMap > >::iterator list_iterator
Definition: DataReducer.h:25
std::list< MyData< T > > m_list
Definition: DataReducer.h:161
void getReducedDataList(std::list< std::pair< Tm, DataMap > > *my_new_list)
Definition: DataReducer.h:54
d
Definition: ztail.py:151
bool operator<(const MyData &rhs)
Definition: DataReducer.h:32
std::pair< Tm, std::pair< EcalLogicID, U > > m_iData
Definition: DataReducer.h:37
uint64_t microsTime() const
Definition: Tm.cc:94
std::list< MyData< T > >::iterator iterator
Definition: DataReducer.h:42
long double T
Definition: Tm.h:13