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SequentialCombinationGenerator.h
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1 #ifndef SequentialCombinationGenerator_H
2 #define SequentialCombinationGenerator_H
3 
5 #include <vector>
6 #include <list>
7 #include <algorithm>
8 #include <numeric>
9 #include <functional>
10 #include <iostream>
11 
21 template<class T> class SequentialCombinationGenerator {
22 public:
24  typedef std::vector<T> Collection;
25  typedef std::vector<Collection> Combination;
26  typedef std::vector<int> Vecint;
27 
29  the_part ( part ), the_k ( part.size() ),
30  the_n ( accumulate ( part.begin(), part.end(), 0 ) )
31  {
32  sort(the_part.begin(),the_part.end());
33  the_comb.reserve(the_n);
34  };
35 
40  {
41  dbg=false;
44  the_comb=newcomb;
45  if (newcomb.size()==0) {
47  return empty;
48  }
49  int i=0;
50  for (int j=0;j<the_k;j++)
51  {
53  for (int l=0;l<the_part[j];l++)
54  {
55  temp.push_back(coll[the_comb[i]-1]);
56  i++;
57  }
58  comb.push_back(temp);
59  }
60  return comb;
61  };
62 
63 private:
64  Vecint next_combi( Vecint & cold, int n, const Partition & p )
65  {
66  Vecint empty;
67  if (cold.size()==0) { // first entry, initialize
68  cold.reserve(n);
69  for (int i=0;i<n;cold.push_back(++i));
70  return cold;
71  }
72  int k=p.size();
73  if (k==1) return empty;
74  Vecint cnew(cold);
75  int n1=n-p[0];
76  Vecint cold1(cold.begin()+p[0],cold.end());
77  Vecint cnew1(n1);
78  Partition p1(p.begin()+1,p.end());
79  cnew1=next_combi(cold1,n1,p1);
80  if (cnew1.size()!=0) {
81  copy(cnew1.begin(),cnew1.end(),cnew.begin()+p[0]);
82  return cnew;
83  }
84  Vecint cold2(cold.begin(),cold.begin()+p[0]);
85  Vecint cnew2(p[0]);
86  sort(cold.begin(),cold.end());
87  sort(cold2.begin(),cold2.end());
88  cnew2=next_subset(cold,cold2);
89  if (cnew2.size()==0) return empty;
90  copy(cnew2.begin(),cnew2.begin()+p[0],cnew.begin());
91  Vecint ss(n1);
92  set_difference(cold.begin(),cold.end(),
93  cnew2.begin(),cnew2.end(),ss.begin());
94  int ip=p[0];
95  for (int i=1;i<k;i++) {
96  if (p[i]!=p[i-1]) {
97  copy(ss.begin(),ss.end(),&cnew[ip]);
98  return cnew;
99  }
100  int mincnew2=cnew2[0];
101  if (ss[n1-1]<mincnew2) return empty;
102  Vecint::iterator j1=find_if(ss.begin(),ss.end(),bind2nd(std::greater<int>(),mincnew2));
103  if (ss.end()-j1 < p[i]) return empty;
104  Vecint sss(j1,ss.end());
105  for (int j=0;j<p[i];cnew[ip+j]=cnew2[j]=sss[j++]);
106  int n2=ss.size()-cnew2.size();
107  if (n2==0) return cnew;
108  Vecint s(n2);
109  set_difference(ss.begin(),ss.end(),cnew2.begin(),cnew2.end(),s.begin());
110  ss=s;
111  ip+=p[i];
112  }
113 
114  return empty;
115 
116  };
117 
118  Vecint next_subset(const Vecint& _g, const Vecint& _c)
119  {
120  Vecint g = _g;
121  Vecint c = _c;
122  Vecint empty;
123  int n=g.size();
124  int k=c.size();
125  typename Vecint::iterator ind;
126  for (int i=k-1;i>=0;i--) {
127  if (c[i]<g[n-k+i]) {
128 
129 
130 // ind=find(&g[0],&g[n-k+i],c[i])+1;
131 
132  Vecint::iterator g2 = g.begin();
133  advance(g2,n-k+i);
134 
135  ind=find(g.begin(),g2,c[i]);
136 
137  ind++;
138 
139 
140 
141  copy(ind,ind+k-i,&c[i]);
142  return c;
143  }
144  }
145  return empty;
146  };
147 
148  void vecprint(const Vecint & v) const
149  {
150  int n=v.size();
151  for (int i=0;i<n;std::cout << v[i++]);
152  std::cout << std::endl;
153  };
154 
155 private:
156  int the_n;
157  int the_k;
159  mutable Vecint the_comb;
160  mutable bool dbg;
161 };
162 
163 #endif
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