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/data/refman/pasoursint/CMSSW_5_2_7_hltpatch1/src/OnlineDB/EcalCondDB/interface/DataReducer.h

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00001 #ifndef DataReducer_h
00002 #define DataReducer_h
00003 
00004 #include "OnlineDB/EcalCondDB/interface/EcalLogicID.h"
00005 #include "OnlineDB/EcalCondDB/interface/Tm.h"
00006 
00007 // #include <list>
00008 
00009 #include <vector>
00010 #include <string>
00011 #include <map>
00012 #include <iostream>
00013 #include <list>
00014 #include <cctype>
00015 
00016 
00017 
00018 // this class is used to reduce the DCS data to a 
00019 // reasonable amount of offline DB IOVs 
00020 
00021 
00022 template < typename T > 
00023 class DataReducer
00024 {
00025 
00026  public:
00027 
00028   typedef DataReducer<T> self;
00029   typedef typename std::pair< EcalLogicID, T >  DataItem;
00030   typedef typename std::map<  EcalLogicID, T >  DataMap ;
00031   typedef typename  std::list< std::pair< Tm, DataMap > >::iterator list_iterator; 
00032   typedef typename std::map<  EcalLogicID, T >::iterator map_iterator; 
00033 
00034   
00035   template < typename U > 
00036     class MyData
00037     {
00038     public:
00039       typedef MyData<U> self;
00040       bool operator < (const MyData& rhs)
00041         {
00042           Tm t1=m_iData.first;
00043           Tm t2=rhs.m_iData.first;
00044           long long diff_time= (t1.microsTime() - t2.microsTime())  ;
00045           return ( diff_time<0 );
00046         };
00047 
00048       std::pair< Tm, std::pair< EcalLogicID, U > > m_iData;
00049 
00050     };
00051   
00052   typedef typename std::list< MyData<T> >::iterator iterator;
00053 
00054 
00055   DataReducer() { m_printout=false; };
00056   ~DataReducer() {};
00057 
00058   static const int TIMELIMIT=60; // the time limit in seconds to consider two events in the same IOV creation
00059 
00060   void setDataList( std::list< MyData<T> > _list ){ 
00061 
00062     m_list = _list;
00063     m_list.sort();
00064 
00065   };
00066 
00067   void getReducedDataList(std::list< std::pair< Tm, DataMap > >* my_new_list) {
00068     /* *************************************** 
00069            to get reduced data list 
00070        *************************************** */
00071 
00072     std::cout << " we are in getReducedDataList "<< std::endl; 
00073     //  std::list< std::pair< Tm, DataMap > > my_new_list ;
00074     iterator i;
00075     std::cout << " created iterator "<< std::endl; 
00076 
00077     bool firstpass=true; 
00078     unsigned int s_old=0;
00079     for ( i=m_list.begin(); i!=m_list.end(); i++){
00080 
00081       Tm t = (*i).m_iData.first;
00082       DataItem d = (*i).m_iData.second;
00083       bool new_time_change=true;
00084 
00085       DataMap the_data;
00086       list_iterator it_good=my_new_list->end(); 
00087 
00088 
00089       if(!firstpass) {
00090 
00091         list_iterator it; 
00092         int last_state=-1;
00093         for(it =my_new_list->begin(); it!= my_new_list->end(); ++it) {
00094           
00095           // check on the state 
00096            
00097 
00098           std::pair< Tm, DataMap > pair_new_list = *it;
00099 
00100           Tm t_l = pair_new_list.first;
00101           DataMap dd =  pair_new_list.second;
00102           map_iterator ip; 
00103           for(ip =dd.begin(); ip!= dd.end(); ++ip) {
00104             EcalLogicID ecid = ip->first;
00105             T dcs_dat = ip->second;
00106             if(ecid.getLogicID()==d.first.getLogicID() ) last_state= dcs_dat.getStatus();
00107           }
00108 
00109           long long diff_time= (t.microsTime() - t_l.microsTime()) /1000000  ;
00110           if(diff_time<0) diff_time=-diff_time;
00111           if( diff_time  < TIMELIMIT ) {
00112             // data change happened at the same moment
00113 
00114             
00115             new_time_change=false;
00116             // add data to the list
00117             the_data = pair_new_list.second;
00118             it_good=it;
00119 
00120           }
00121           
00122         }
00123 
00124         if(last_state != d.second.getStatus()){
00125           if(!new_time_change ) {
00126             std::pair< Tm, DataMap > pair_new_list = *it_good;
00127             Tm t_good = pair_new_list.first;
00128             the_data = pair_new_list.second;
00129             the_data.insert(d);
00130             std::pair< Tm, DataMap > pair_new_good;
00131             pair_new_good.first=t_good;
00132             pair_new_good.second=the_data;
00133             
00134             my_new_list->erase(it_good);
00135             my_new_list->push_back(pair_new_good);
00136 
00137             
00138           } else if(new_time_change) {
00139             
00140             std::pair< Tm, DataMap >  p_new;
00141             p_new.first=t;
00142             DataMap a_map;
00143             a_map.insert( d );
00144             p_new.second=a_map;
00145             my_new_list->push_back(p_new);
00146 
00147           }
00148         }
00149         list_iterator it3; 
00150         if(my_new_list->size() > s_old) {
00151           s_old=my_new_list->size();
00152           if(m_printout){
00153             std::cout << "************"<< std::endl;
00154             for(it3 =my_new_list->begin(); it3!= my_new_list->end(); ++it3) {
00155               std::pair< Tm, DataMap > pair_new_list3 = *it3;
00156               Tm t3 = pair_new_list3.first;
00157               std::cout << " T =" << t3.str()<< std::endl;
00158             } 
00159             std::cout << "************"<< std::endl;
00160           }
00161         }
00162 
00163 
00164       } else {
00165         // first pass write it anyway 
00166           std::pair< Tm, DataMap >  p_new;
00167           p_new.first=t;
00168           DataMap a_map;
00169           a_map.insert( d );
00170           p_new.second=a_map;
00171           my_new_list->insert(my_new_list->begin(),p_new);
00172           firstpass=false; 
00173           
00174       }
00175 
00176     }
00177 
00178 
00179     if(m_printout) {
00180       list_iterator it3; 
00181       for(it3 =my_new_list->begin(); it3!= my_new_list->end(); ++it3) {
00182         std::pair< Tm, DataMap > pair_new_list3 = *it3;
00183         Tm t3 = pair_new_list3.first;
00184         std::cout << " T =" << t3.str()<< std::endl;
00185       } 
00186     }
00187 
00188   };
00189 
00190 
00191  private:
00192   //  std::list< std::pair< Tm, DataItem >  > m_list;
00193   std::list< MyData<T>  > m_list;
00194   bool m_printout;
00195 };
00196 
00197 
00198 #endif
00199