#include "Snap.h"

Classes
class	TSweepCut

class	MotifCluster

class	ChibaNishizekiWeighter

Typedefs
typedef TVec< THash< TInt, TInt > >	WeightVH

Enumerations
enum	MotifType { UniDE, BiDE, DE, DE_any, M1, M2, M3, M4, M5, M6, M7, triad, cycle, FFLoop, UEdge, clique3, clique4, clique5, clique6, clique7, clique8, clique9, M1, M2, M3, M4, M5, M6, M7, M8, M9, M10, M11, M12, M13, bifan, semiclique, triangle, clique3, clique4, clique5, clique6, clique7, clique8, clique9, edge }

Functions
void	SymeigsSmallest (const TSparseColMatrix &A, int nev, TFltV &evals, TFullColMatrix &evecs, double tol=kDefaultTol, int maxiter=kMaxIter)

Variables
const double	kDefaultTol = 1e-12

const int	kMaxIter = 300

Typedef Documentation

typedef TVec< THash<TInt, TInt> > WeightVH

Definition at line 8 of file motifcluster.h.

Enumeration Type Documentation

enum MotifType

Enumerator
UniDE
BiDE
DE
DE_any
M1
M2
M3
M4
M5
M6
M7
triad
cycle
FFLoop
UEdge
clique3
clique4
clique5
clique6
clique7
clique8
clique9
M1
M2
M3
M4
M5
M6
M7
M8
M9
M10
M11
M12
M13
bifan
semiclique
triangle
clique3
clique4
clique5
clique6
clique7
clique8
clique9
edge

Definition at line 10 of file motifcluster.h.

                {
   M1,         // u  --> v, v  --> w, w  --> u
   M2,         // u <--> v, v  --> w, w  --> u
   M3,         // u <--> v, v <--> w, w  --> u
   M4,         // u <--> v, v <--> w, w <--> u
   M5,         // u  --> v, v  --> w, u  --> w
   M6,         // u <--> v, w  --> u, w  --> v
   M7,         // u <--> v, u  --> w, v  --> w
   M8,         // u  --> v, u  --> w
   M9,         // u  --> v, w  --> u
   M10,        // v  --> u, w  --> u
   M11,        // u <--> v, u  --> w
   M12,        // u <--> v, w  --> u
   M13,        // u <--> v, u <--> w
   bifan,      // u  --> w, u  --> x, v  --> w, v  --> x
   semiclique, // u  --  v, u  --  w, u  --  x, v  --  w, v  --  x
   triangle,   // undirected cliques
   clique3,    //       |
   clique4,    //       |
   clique5,    //       |
   clique6,    //       |
   clique7,    //       |
   clique8,    //       |
   clique9,    //       |
   edge,       // (undirected) edges
 };

Function Documentation

void SymeigsSmallest	(	const TSparseColMatrix &	A,
		int	nev,
		TFltV &	evals,
		TFullColMatrix &	evecs,
		double	tol = `kDefaultTol`,
		int	maxiter = `kMaxIter`
	)

Definition at line 955 of file motifcluster.cpp.

                                                                      {
   // type of problem
   int mode = 1;
   // communication variable
   int ido = 0;
   // standard eigenvalue problem
   char bmat = 'I';
   // dimension of problem
   int n = A.GetCols();
   // type of eigenvector (smallest algebraic)  
   char which[] = "SA";
   // Space for residual
   double *resid = new double[n];
   // Number of lanczos vectors  
   int ncv = MIN(MAX(2 * nev, 20), n - 1);
   // Space for Lanczos basis vectors
   double *V = new double[ncv * n];
   
   // dimension of basis vectors
   int ldv = n;
   // Various input / output data
   int *iparam = new int[11];
   // exact shifts  
   iparam[0] = 1;
   // maximum number of iterations
   iparam[2] = maxiter;
   // mode
   iparam[6] = mode;
   // Output data
   int *ipntr = new int[11];
   // work array
   double *workd = new double[3 * n];
   // output workspace
   int lworkl = ncv * (ncv + 8);
   double *workl = new double[lworkl];
   // Communication information
   int info = 0;
 
   TFltV Ax(n);
   // Communication loop.  We keep applying A * x until ARPACK tells us to stop.
   while (true) {
     F77_NAME(dsaupd)(&ido, &bmat, &n, &which[0], &nev, &tol, &resid[0], &ncv,
                      &V[0], &ldv, &iparam[0], &ipntr[0], &workd[0], &workl[0],
                      &lworkl, &info);
     TFltV result(n);
     result.PutAll(0.0);
     double *load = &workd[ipntr[0] - 1];
     for (int i = 0; i < n; i++) {
       result[i] = load[i];
     }
 
     if (ido == 1) {
       // Need another matrix-vector product.
       A.Multiply(result, Ax);
       double *store = &workd[ipntr[1] - 1];
       for (int i = 0; i < n; i++) {
         store[i] = Ax[i];
       }
     } else if (ido == 99) {
       // We have finished.
       break;
     } else {
       // There was an error.
       TExcept::Throw("ARPACK error");
     }
   }
   
   // Extract the eigenvectors and eigenvalues
   
   // compute Ritz vectors
   int rvec(true);
   // Form of Ritz vectors
   char howmny = 'A';
   // select doesn't matter with howmny set to A
   int *select = new int[ncv];
   // Store Ritz values
   double *d = new double[nev];
   // Shift
   double sigmar = 0;
 
   F77_NAME(dseupd)(&rvec, &howmny, select, &d[0], &V[0], &ldv, &sigmar, &bmat,
                    &n, &which[0], &nev, &tol, &resid[0], &ncv, &V[0], &ldv,
                    &iparam[0], &ipntr[0], &workd[0], &workl[0], &lworkl, &info);
   if (info != 0) {
     TExcept::Throw("ARPACK error");
   }
 
   // Get eigenvalues and eigenvalues in sorted order
   TVec< TKeyDat<TFlt, TInt> > d_inds(nev);
   for (int i = 0; i < nev; i++) {
     d_inds[i] = TKeyDat<TFlt, TInt>(d[i], i);
   }
   d_inds.Sort();
 
   evals = TFltV(nev);
   evecs.ColV = TVec<TFltV>(nev);
   for (int i = 0; i < nev; i++) {
     double eval = d_inds[i].Key;
     int ind = d_inds[i].Dat;
     evals[ind] = eval;
     TFltV& col = evecs.ColV[ind];
     for (int j = ind * n; j < ind * n + n; j++) {
       col.Add(V[j]);
     }
   }
   evecs.RowN = n;
   evecs.ColN = nev;
 
   // Clean up
   delete[] resid;
   delete[] V;
   delete[] iparam;
   delete[] ipntr;
   delete[] workd;
   delete[] workl;
   delete[] select;
   delete[] d;
 }

Variable Documentation

const double kDefaultTol = 1e-12

Definition at line 5 of file motifcluster.h.

const int kMaxIter = 300

Definition at line 6 of file motifcluster.h.

Classes

Typedefs

Enumerations

Functions

Variables

Typedef Documentation

Enumeration Type Documentation

Function Documentation

Variable Documentation