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OneToManyWithQualityGeneric.h
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1 #ifndef DataFormats_Common_OneToManyWithQualityGeneric_h
2 #define DataFormats_Common_OneToManyWithQualityGeneric_h
6 #include <functional>
7 #include <map>
8 #include <vector>
9 #include <algorithm>
11 
12 namespace edm {
13  template<typename CKey, typename CVal, typename Q, typename index = unsigned int,
14  typename KeyRefProd = typename helper::MapRefViewTrait<CKey>::refprod_type,
15  typename ValRefProd = typename helper::MapRefViewTrait<CVal>::refprod_type,
16  typename KeyRef = typename helper::MapRefViewTrait<CKey>::ref_type,
17  typename ValRef = typename helper::MapRefViewTrait<CVal>::ref_type >
20  typedef KeyRefProd keyrefprod_type;
22  typedef ValRefProd valrefprod_type;
24  typedef std::vector<std::pair<index, Q> > map_assoc;
25 
26  public:
28  typedef std::vector<std::pair<ValRef, Q> > val_type;
30  typedef KeyRef key_type;
32  typedef std::pair<ValRef, Q> data_type;
34  typedef index index_type;
36  typedef std::map<index_type, map_assoc> map_type;
40  typedef std::map<const typename CKey::value_type *,
41  std::vector<std::pair<const typename CVal::value_type *, Q > >
44  typedef std::vector<const typename CKey::value_type *> transient_key_vector;
46  typedef std::vector<std::vector<std::pair<const typename CVal::value_type *, Q > >
49  static void insert(ref_type& ref, map_type & m,
50  const key_type & k, const data_type & v) {
51  const ValRef & vref = v.first;
52  if (k.isNull() || vref.isNull())
54  "can't insert null references in AssociationMap");
55  if(ref.key.isNull()) {
56  if(k.isTransient() || vref.isTransient()) {
58  "can't insert transient references in uninitialized AssociationMap");
59  }
60  //another thread might cause productGetter() to return a different value
61  EDProductGetter const* getter = ref.key.productGetter();
62  if(getter == nullptr) {
64  "Can't insert into AssociationMap unless it was properly initialized.\n"
65  "The most common fix for this is to add arguments to the call to the\n"
66  "AssociationMap constructor that are valid Handle's to the containers.\n"
67  "If you don't have valid handles or either template parameter to the\n"
68  "AssociationMap is a View, then see the comments in AssociationMap.h.\n"
69  "(note this was a new requirement added in the 7_5_X release series)\n");
70  }
71  ref.key = KeyRefProd(k.id(), getter);
72  ref.val = ValRefProd(vref.id(), ref.val.productGetter());
73  }
74  helpers::checkRef(ref.key, k); helpers::checkRef(ref.val, vref);
75  index_type ik = index_type(k.key()), iv = index_type(vref.key());
76  m[ik].push_back(std::make_pair(iv, v.second));
77  }
78  static void insert(ref_type & ref, map_type & m, const key_type & k, const val_type & v) {
79  for(typename val_type::const_iterator i = v.begin(), iEnd = v.end(); i != iEnd; ++i)
80  insert(ref, m, k, *i);
81  }
83  static val_type val(const ref_type & ref, const map_assoc & iv) {
84  val_type v;
85  for(typename map_assoc::const_iterator idx = iv.begin(), idxEnd = iv.end(); idx != idxEnd; ++idx)
86  v.push_back(std::make_pair(ValRef(ref.val, idx->first), idx->second));
87  return v;
88  }
90  static typename map_type::size_type size(const map_assoc & v) { return v.size(); }
91 
93  // Note the Framework automatically calls this after putting the object
94  // into the event using AssociationMap::post_insert. It sorts in reverse
95  // order of the quality.
96  static void sort(map_type & m) {
97  // using namespace boost::lambda;
98  for(typename map_type::iterator i = m.begin(), iEnd = m.end(); i != iEnd; ++i) {
99  using std::placeholders::_1;
100  using std::placeholders::_2;
101  map_assoc & v = i->second;
102  // Q std::pair<index, Q>::*quality = &std::pair<index, Q>::second;
103  // std::sort(v.begin(), v.end(),
104  // bind(quality, boost::lambda::_2) < bind(quality, boost::lambda::_1));
105  std::sort(v.begin(), v.end(),
106  std::bind(std::less<Q>(),
107  std::bind(&std::pair<index, Q>::second,_2), std::bind( &std::pair<index, Q>::second,_1)
108  )
109  );
110 
111  }
112  }
114  static transient_map_type transientMap(const ref_type & ref, const map_type & map) {
116  if(!map.empty()) {
117  const CKey & ckey = * ref.key;
118  const CVal & cval = * ref.val;
119  for(typename map_type::const_iterator i = map.begin(); i != map.end(); ++ i) {
120  const map_assoc & a = i->second;
121  const typename CKey::value_type * k = & ckey[i->first];
122  std::vector<std::pair<const typename CVal::value_type *, Q> > v;
123  for(typename map_assoc::const_iterator j = a.begin(); j != a.end(); ++j) {
124  const typename CVal::value_type * val = & cval[j->first];
125  v.push_back(std::make_pair(val, j->second));
126  }
127  m.insert(std::make_pair(k, v));
128  }
129  }
130  return m;
131  }
133  static transient_key_vector transientKeyVector(const ref_type & ref, const map_type & map) {
134  transient_key_vector m;
135  if(!map.empty()) {
136  const CKey & ckey = * ref.key;
137  for(typename map_type::const_iterator i = map.begin(); i != map.end(); ++ i)
138  m.push_back(& ckey[i->first]);
139  }
140  return m;
141  }
143  static transient_val_vector transientValVector(const ref_type & ref, const map_type & map) {
145  if(!map.empty()) {
146  const CVal & cval = * ref.val;
147  for(typename map_type::const_iterator i = map.begin(); i != map.end(); ++ i) {
148  const map_assoc & a = i->second;
149  std::vector<std::pair<const typename CVal::value_type *, Q> > v;
150  m.push_back(v);
151  for(typename map_assoc::const_iterator j = a.begin(); j != a.end(); ++j)
152  m.back().push_back(std::make_pair(& cval[ j->first ], j->second));
153  }
154  }
155  return m;
156  }
157  };
158 }
159 
160 #endif
static map_type::size_type size(const map_assoc &v)
size of data_type
KeyRefProd keyrefprod_type
reference to "key" collection
uint16_t size_type
static transient_val_vector transientValVector(const ref_type &ref, const map_type &map)
fill transient val vector
static val_type val(const ref_type &ref, const map_assoc &iv)
return values collection
static void throwThis(Code category, char const *message0="", char const *message1="", char const *message2="", char const *message3="", char const *message4="")
std::vector< std::pair< ValRef, Q > > val_type
values reference collection type
U second(std::pair< T, U > const &p)
static transient_key_vector transientKeyVector(const ref_type &ref, const map_type &map)
fill transient key vector
static void insert(ref_type &ref, map_type &m, const key_type &k, const val_type &v)
helpers::KeyVal< keyrefprod_type, valrefprod_type > ref_type
reference set type
int k[5][pyjets_maxn]
std::vector< std::pair< index, Q > > map_assoc
internal map associated data
static transient_map_type transientMap(const ref_type &ref, const map_type &map)
fill transient map
std::pair< ValRef, Q > data_type
insert val type
std::vector< std::vector< std::pair< const typename CVal::value_type *, Q > > > transient_val_vector
transient val vector
HLT enums.
double a
Definition: hdecay.h:121
std::vector< const typename CKey::value_type * > transient_key_vector
transient key vector
void checkRef(const RP &rp, const R &r)
throw if r hasn&#39;t the same id as rp
static void insert(ref_type &ref, map_type &m, const key_type &k, const data_type &v)
insert in the map
std::map< index_type, map_assoc > map_type
map type
ValRefProd valrefprod_type
reference to "value" collection
std::map< const typename CKey::value_type *, std::vector< std::pair< const typename CVal::value_type *, Q > > > transient_map_type
transient map type