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implemented cliques in a graph

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This commit is contained in:
Jiri Pittner 2023-07-26 23:09:15 +02:00
parent 6fad3847cf
commit 9d51ef6fbd
4 changed files with 166 additions and 2 deletions
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1
.gitignore vendored
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@ -52,6 +52,7 @@ libla.la
version.cc version.cc
t t
test test
fi
tX tX
*.tar.bz2 *.tar.bz2
.*.swp .*.swp

128
graph.cc
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@ -24,7 +24,133 @@
#include <string.h> #include <string.h>
#include <math.h> #include <math.h>
namespace LA { namespace LA {
template<typename G>
NRVec<int> neighbors(const G &adjacency, const int v)
{
if(v<0||v>=adjacency.nrows()) laerror("invalid vertex number in neighbors");
int n=0;
for(int i=0; i<adjacency.nrows(); ++i) if(adjacency(v,i) && v!=i) ++n;
int ii=0;
NRVec<int> r(n);
for(int i=0; i<adjacency.nrows(); ++i) if(adjacency(v,i) && v!=i) r[ii++]=i;
return r;
}
template<typename G>
NRVec<int> nonneighbors(const G &adjacency, const int v)
{
if(v<0||v>=adjacency.nrows()) laerror("invalid vertex number in nonneighbors");
int n=0;
for(int i=0; i<adjacency.nrows(); ++i) if(!adjacency(v,i) && v!=i) ++n;
int ii=0;
NRVec<int> r(n);
for(int i=0; i<adjacency.nrows(); ++i) if(!adjacency(v,i) && v!=i) r[ii++]=i;
return r;
}
//heuristic algorithm by Boppana and Halldorsson, BIT 32, 180, (1992)
template<typename G>
NRVec<int> findclique(const G &adjacency, const int v)
{
NRVec<int> r(0);
if(adjacency.nrows())
{
if(v<0||v>=adjacency.nrows()) laerror("invalid vertex number in findclique");
NRVec<int> neighb = neighbors(adjacency,v);
NRVec<int> nonneighb = nonneighbors(adjacency,v);
NRVec<int> c1(0),c2(0);
if(neighb.size())
{
G subg1 = adjacency.submatrix(neighb);
c1 = findclique(subg1);
//reindex to original graph
for(int i=0; i<c1.size(); ++i) c1[i] = neighb[c1[i]];
}
if(nonneighb.size())
{
G subg2 = adjacency.submatrix(nonneighb);
c2 = findclique(subg2);
//reindex to original graph
for(int i=0; i<c2.size(); ++i) c2[i] = nonneighb[c2[i]];
}
c1.append(v);
c1.sort();
c2.sort();
if(c1.size()>=c2.size()) r=c1; else r=c2;
}
return (r);
}
template<typename G>
NRVec<int> complement(const G &adjacency, const NRVec<int> & vertexlist)
{
int n=adjacency.nrows();
NRVec<char> occ(n);
occ.clear();
for(int i=0; i<vertexlist.size(); ++i)
{
if(vertexlist[i]<0||vertexlist[i]>=n) laerror("illegal vertex in complement");
occ[vertexlist[i]]=1;
}
int m=0;
for(int i=0; i<n; ++i) if(!occ[i]) ++m;
NRVec<int> r(m);
m=0;
for(int i=0; i<n; ++i) if(!occ[i]) r[m++]=i;
return r;
}
//found cliques releatedly until the whole graph is covered
//could be recursive but we made it iterative
template<typename G>
NRVec<int> cliquecover(const G &adjacency)
{
int n=adjacency.nrows();
NRVec<int> r(n); r.clear();
G graph = adjacency;
int cliquenumber=1;
int remaining=n;
NRVec<int> cliques(0);
NRVec<int> notincliques(n);
for(int i=0; i<n; ++i) notincliques[i]=i;
while(remaining)
{
NRVec<int> clique = findclique(graph);
NRVec<int> cliqueorignum(clique.size());
for(int i=0; i<clique.size(); ++i) cliqueorignum[i] = notincliques[clique[i]];
cliques.concatme(cliqueorignum);
for(int i=0; i<clique.size(); ++i) r[cliqueorignum[i]] = cliquenumber;
++cliquenumber;
notincliques = complement(adjacency,cliques);
remaining=notincliques.size();
if(remaining)
{
graph= adjacency.submatrix(notincliques);
}
}
return r;
}
//force instantization
#define INSTANTIZE(T) \
template NRVec<int> neighbors(const NRSMat<T> &adjacency, const int v); \
template NRVec<int> nonneighbors(const NRSMat<T> &adjacency, const int v); \
template NRVec<int> findclique(const NRSMat<T> &adjacency, const int v); \
template NRVec<int> complement(const NRSMat<T> &adjacency, const NRVec<int> & vertexlist); \
template NRVec<int> cliquecover(const NRSMat<T> &adjacency); \
INSTANTIZE(char)
}//namespace }//namespace

17
graph.h
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@ -30,6 +30,23 @@
namespace LA { namespace LA {
//presently I am not sure what the best general class for a graph would be, so leave it purely templated algorithms
//where the class G is adjacency supporting operator() and submatrix() operations
template<typename G>
NRVec<int> neighbors(const G &adjacency, const int v);
template<typename G>
NRVec<int> nonneighbors(const G &adjacency, const int v);
template<typename G>
NRVec<int> findclique(const G &adjacency, const int v=0);
template<typename G>
NRVec<int> complement(const G &adjacency, const NRVec<int> & vertexlist);
template<typename G>
NRVec<int> cliquecover(const G &adjacency);

22
t.cc
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@ -26,6 +26,8 @@
#include "polynomial.h" #include "polynomial.h"
#include "contfrac.h" #include "contfrac.h"
#include "simple.h" #include "simple.h"
#include "graph.h"
using namespace std; using namespace std;
using namespace LA_Vecmat3; using namespace LA_Vecmat3;
@ -1954,7 +1956,7 @@ cin >>v;
cout <<v; cout <<v;
} }
if(1) if(0)
{ {
Quaternion<double> v,r,tmp,q,q1; Quaternion<double> v,r,tmp,q,q1;
cin >>q; cin >>q;
@ -2746,5 +2748,23 @@ if(0)
laerror("test exception"); laerror("test exception");
} }
if(1)
{
NRSMat<char> adj;
cin >>adj;
NRVec<int> clique = findclique(adj);
cout <<"First clique is "<<clique<<endl;
cout <<"Check adjacency of the clique: "<<adj.submatrix(clique)<<endl;
NRVec<int> cover = cliquecover(adj);
cout <<"Clique cover is "<<cover<<endl;
NRPerm<int> p(cover.size());
cover.sort(0,p);
cout<<"permutation to disentabgle the cliques = "<<p<<endl;
NRVec<int> perm1(p.size());
for(int i=0; i<p.size(); ++i) perm1[i] = p[i+1]-1;
NRSMat<char> adjperm = adj.submatrix(perm1);
cout <<"resorted graph = "<<adjperm<<endl;
}
} }