GetSngVec (SWIG)ΒΆ
-
GetSngVec(Graph, SngVecs, SngValV, LeftSV, RightSV)
Computes the singular values and left and right singular vectors of the adjacency matrix representing a directed Graph.
Parameters:
- Graph: graph (input)
A Snap.py graph or a network.
- SngVecs: int (input)
The number of singular values/vectors to compute
- SngValV: TFltV (output)
Computed singular values stored as a vector of floats
- LeftSV: TFltVFltV (output)
Computed left singular vectors stored as a vector of vectors of floats
- RightSV: TFltVTFltV (output)
Computed right singular vectors stored as a vector of vectors of floats
Return value:
None
The following example shows how to fetch the in-degrees for nodes in
TNGraph, TUNGraph, and TNEANet:
import snap
Graph = snap.GenRndGnm(snap.PNGraph, 100, 1000)
SngVecs = 5
SngValV = snap.TFltV()
LeftSV = snap.TFltVFltV()
RightSV = snap.TFltVFltV()
snap.GetSngVec(Graph, SngVecs, SngValV, LeftSV, RightSV)
for value in SngValV:
print("Singular value: %f" % value)
for vector in LeftSV:
for value in vector:
print("Left Singular Vector Value %f" % value)
for vector in RightSV:
for value in vector:
print("Right Singular Vector Value %f" % value)
Graph = snap.GenRndGnm(snap.PUNGraph, 100, 1000)
SngVecs = 5
SngValV = snap.TFltV()
LeftSV = snap.TFltVFltV()
RightSV = snap.TFltVFltV()
snap.GetSngVec(Graph, SngVecs, SngValV, LeftSV, RightSV)
for value in SngValV:
print("Singular value: %f" % value)
for vector in LeftSV:
for value in vector:
print("Left Singular Vector Value %f" % value)
for vector in RightSV:
for value in vector:
print("Right Singular Vector Value %f" % value)
Graph = snap.GenRndGnm(snap.PNEANet, 100, 1000)
SngVecs = 5
SngValV = snap.TFltV()
LeftSV = snap.TFltVFltV()
RightSV = snap.TFltVFltV()
snap.GetSngVec(Graph, SngVecs, SngValV, LeftSV, RightSV)
for value in SngValV:
print("Singular value: %f" % value)
for vector in LeftSV:
for value in vector:
print("Left Singular Vector Value %f" % value)
for vector in RightSV:
for value in vector:
print("Right Singular Vector Value %f" % value)