networkx.readwrite.adjlist.read_adjlist¶
-
read_adjlist
(path, comments='#', delimiter=None, create_using=None, nodetype=None, encoding='utf-8')[source]¶ Read graph in adjacency list format from path.
- Parameters
path (string or file) – Filename or file handle to read. Filenames ending in .gz or .bz2 will be uncompressed.
create_using (NetworkX graph constructor, optional (default=nx.Graph)) – Graph type to create. If graph instance, then cleared before populated.
nodetype (Python type, optional) – Convert nodes to this type.
comments (string, optional) – Marker for comment lines
delimiter (string, optional) – Separator for node labels. The default is whitespace.
- Returns
G – The graph corresponding to the lines in adjacency list format.
- Return type
NetworkX graph
Examples
>>> G=nx.path_graph(4) >>> nx.write_adjlist(G, "test.adjlist") >>> G=nx.read_adjlist("test.adjlist")
The path can be a filehandle or a string with the name of the file. If a filehandle is provided, it has to be opened in ‘rb’ mode.
>>> fh=open("test.adjlist", 'rb') >>> G=nx.read_adjlist(fh)
Filenames ending in .gz or .bz2 will be compressed.
>>> nx.write_adjlist(G,"test.adjlist.gz") >>> G=nx.read_adjlist("test.adjlist.gz")
The optional nodetype is a function to convert node strings to nodetype.
For example
>>> G=nx.read_adjlist("test.adjlist", nodetype=int)
will attempt to convert all nodes to integer type.
Since nodes must be hashable, the function nodetype must return hashable types (e.g. int, float, str, frozenset - or tuples of those, etc.)
The optional create_using parameter indicates the type of NetworkX graph created. The default is
nx.Graph
, an undirected graph. To read the data as a directed graph use>>> G=nx.read_adjlist("test.adjlist", create_using=nx.DiGraph)
Notes
This format does not store graph or node data.
See also