Use this if you are using igraph from R
connect {igraph} | R Documentation |
These functions find the vertices not farther than a given limit from another fixed vertex, these are called the neighborhood of the vertex.
connect(graph, order, mode = c("all", "out", "in", "total"))
ego_size(
graph,
order = 1,
nodes = V(graph),
mode = c("all", "out", "in"),
mindist = 0
)
ego(
graph,
order = 1,
nodes = V(graph),
mode = c("all", "out", "in"),
mindist = 0
)
make_ego_graph(
graph,
order = 1,
nodes = V(graph),
mode = c("all", "out", "in"),
mindist = 0
)
graph |
The input graph. |
order |
Integer giving the order of the neighborhood. |
mode |
Character constant, it specifies how to use the direction of
the edges if a directed graph is analyzed. For ‘out’ only the
outgoing edges are followed, so all vertices reachable from the source
vertex in at most |
nodes |
The vertices for which the calculation is performed. |
mindist |
The minimum distance to include the vertex in the result. |
The neighborhood of a given order o
of a vertex v
includes all
vertices which are closer to v
than the order. Ie. order 0 is always
v
itself, order 1 is v
plus its immediate neighbors, order 2
is order 1 plus the immediate neighbors of the vertices in order 1, etc.
ego_size
calculates the size of the neighborhoods for the
given vertices with the given order.
ego
calculates the neighborhoods of the given vertices with
the given order parameter.
make_ego_graph
is creates (sub)graphs from all neighborhoods of
the given vertices with the given order parameter. This function preserves
the vertex, edge and graph attributes.
connect
creates a new graph by connecting each vertex to
all other vertices in its neighborhood.
ego_size
returns with an integer vector.
ego
returns A list of igraph.vs
or a list of numeric
vectors depending on the value of igraph_opt("return.vs.es")
,
see details for performance characteristics.
make_ego_graph
returns with a list of graphs.
connect
returns with a new graph object.
Gabor Csardi csardi.gabor@gmail.com, the first version was done by Vincent Matossian
g <- make_ring(10)
ego_size(g, order = 0, 1:3)
ego_size(g, order = 1, 1:3)
ego_size(g, order = 2, 1:3)
ego(g, order = 0, 1:3)
ego(g, order = 1, 1:3)
ego(g, order = 2, 1:3)
# attributes are preserved
V(g)$name <- c("a", "b", "c", "d", "e", "f", "g", "h", "i", "j")
make_ego_graph(g, order = 2, 1:3)
# connecting to the neighborhood
g <- make_ring(10)
g <- connect(g, 2)