Mercurial > repos > shellac > guppy_basecaller
view env/lib/python3.7/site-packages/networkx/readwrite/p2g.py @ 3:758bc20232e8 draft
"planemo upload commit 2a0fe2cc28b09e101d37293e53e82f61762262ec"
author | shellac |
---|---|
date | Thu, 14 May 2020 16:20:52 -0400 |
parents | 26e78fe6e8c4 |
children |
line wrap: on
line source
""" This module provides the following: read and write of p2g format used in metabolic pathway studies. See https://web.archive.org/web/20080626113807/http://www.cs.purdue.edu/homes/koyuturk/pathway/ for a description. The summary is included here: A file that describes a uniquely labeled graph (with extension ".gr") format looks like the following: name 3 4 a 1 2 b c 0 2 "name" is simply a description of what the graph corresponds to. The second line displays the number of nodes and number of edges, respectively. This sample graph contains three nodes labeled "a", "b", and "c". The rest of the graph contains two lines for each node. The first line for a node contains the node label. After the declaration of the node label, the out-edges of that node in the graph are provided. For instance, "a" is linked to nodes 1 and 2, which are labeled "b" and "c", while the node labeled "b" has no outgoing edges. Observe that node labeled "c" has an outgoing edge to itself. Indeed, self-loops are allowed. Node index starts from 0. """ # Copyright (C) 2008-2012 by # Aric Hagberg <hagberg@lanl.gov> # Dan Schult <dschult@colgate.edu> # Pieter Swart <swart@lanl.gov> # All rights reserved. # BSD license. import networkx from networkx.utils import is_string_like, open_file __author__ = '\n'.join(['Willem Ligtenberg (w.p.a.ligtenberg@tue.nl)', 'Aric Hagberg (aric.hagberg@gmail.com)']) @open_file(1, mode='w') def write_p2g(G, path, encoding='utf-8'): """Write NetworkX graph in p2g format. Notes ----- This format is meant to be used with directed graphs with possible self loops. """ path.write(("%s\n" % G.name).encode(encoding)) path.write(("%s %s\n" % (G.order(), G.size())).encode(encoding)) nodes = list(G) # make dictionary mapping nodes to integers nodenumber = dict(zip(nodes, range(len(nodes)))) for n in nodes: path.write(("%s\n" % n).encode(encoding)) for nbr in G.neighbors(n): path.write(("%s " % nodenumber[nbr]).encode(encoding)) path.write("\n".encode(encoding)) @open_file(0, mode='r') def read_p2g(path, encoding='utf-8'): """Read graph in p2g format from path. Returns ------- MultiDiGraph Notes ----- If you want a DiGraph (with no self loops allowed and no edge data) use D=networkx.DiGraph(read_p2g(path)) """ lines = (line.decode(encoding) for line in path) G = parse_p2g(lines) return G def parse_p2g(lines): """Parse p2g format graph from string or iterable. Returns ------- MultiDiGraph """ description = next(lines).strip() # are multiedges (parallel edges) allowed? G = networkx.MultiDiGraph(name=description, selfloops=True) nnodes, nedges = map(int, next(lines).split()) nodelabel = {} nbrs = {} # loop over the nodes keeping track of node labels and out neighbors # defer adding edges until all node labels are known for i in range(nnodes): n = next(lines).strip() nodelabel[i] = n G.add_node(n) nbrs[n] = map(int, next(lines).split()) # now we know all of the node labels so we can add the edges # with the correct labels for n in G: for nbr in nbrs[n]: G.add_edge(n, nodelabel[nbr]) return G