#

Note

This documents the development version of NetworkX. Documentation for the current release can be found here.

#

networkx.algorithms.structuralholes.constraint¶

constraint(G, nodes=None, weight=None)[source]¶

Returns the constraint on all nodes in the graph G.

The constraint is a measure of the extent to which a node v is invested in those nodes that are themselves invested in the neighbors of v. Formally, the constraint on v, denoted c(v), is defined by

\[c(v) = \sum_{w \in N(v) \setminus \{v\}} \ell(v, w)\]

where N(v) is the subset of the neighbors of v that are either predecessors or successors of v and ell(v, w) is the local constraint on v with respect to w 1. For the definition of local constraint, see local_constraint().

Parameters

G (NetworkX graph) – The graph containing v. This can be either directed or undirected.
nodes (container, optional) – Container of nodes in the graph G to compute the constraint. If None, the constraint of every node is computed.
weight (None or string, optional) – If None, all edge weights are considered equal. Otherwise holds the name of the edge attribute used as weight.

Returns

Dictionary with nodes as keys and the constraint on the node as values.

Return type

dict