This function can return a sparse or dense incidence matrix of a bipartite network. The incidence matrix is an \(n\) times \(m\) matrix, \(n\) and \(m\) are the number of vertices of the two kinds.
as_incidence_matrix(
graph,
types = NULL,
attr = NULL,
names = TRUE,
sparse = FALSE
)
A sparse or dense matrix.
The input graph. The direction of the edges is ignored in directed graphs.
An optional vertex type vector to use instead of the
type
vertex attribute. You must supply this argument if the graph has
no type
vertex attribute.
Either NULL
or a character string giving an edge
attribute name. If NULL
, then a traditional incidence matrix is
returned. If not NULL
then the values of the given edge attribute are
included in the incidence matrix. If the graph has multiple edges, the edge
attribute of an arbitrarily chosen edge (for the multiple edges) is
included.
Logical scalar, if TRUE
and the vertices in the graph
are named (i.e. the graph has a vertex attribute called name
), then
vertex names will be added to the result as row and column names. Otherwise
the ids of the vertices are used as row and column names.
Logical scalar, if it is TRUE
then a sparse matrix is
created, you will need the Matrix
package for this.
Gabor Csardi csardi.gabor@gmail.com
Bipartite graphs have a type
vertex attribute in igraph, this is
boolean and FALSE
for the vertices of the first kind and TRUE
for vertices of the second kind.
graph_from_incidence_matrix
for the opposite operation.
g <- make_bipartite_graph( c(0,1,0,1,0,0), c(1,2,2,3,3,4) )
as_incidence_matrix(g)
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