Mercurial > repos > shellac > sam_consensus_v3
view env/lib/python3.9/site-packages/networkx/readwrite/multiline_adjlist.py @ 0:4f3585e2f14b draft default tip
"planemo upload commit 60cee0fc7c0cda8592644e1aad72851dec82c959"
| author | shellac |
|---|---|
| date | Mon, 22 Mar 2021 18:12:50 +0000 |
| parents | |
| children |
line wrap: on
line source
""" ************************* Multi-line Adjacency List ************************* Read and write NetworkX graphs as multi-line adjacency lists. The multi-line adjacency list format is useful for graphs with nodes that can be meaningfully represented as strings. With this format simple edge data can be stored but node or graph data is not. Format ------ The first label in a line is the source node label followed by the node degree d. The next d lines are target node labels and optional edge data. That pattern repeats for all nodes in the graph. The graph with edges a-b, a-c, d-e can be represented as the following adjacency list (anything following the # in a line is a comment):: # example.multiline-adjlist a 2 b c d 1 e """ __all__ = [ "generate_multiline_adjlist", "write_multiline_adjlist", "parse_multiline_adjlist", "read_multiline_adjlist", ] from networkx.utils import open_file import networkx as nx def generate_multiline_adjlist(G, delimiter=" "): """Generate a single line of the graph G in multiline adjacency list format. Parameters ---------- G : NetworkX graph delimiter : string, optional Separator for node labels Returns ------- lines : string Lines of data in multiline adjlist format. Examples -------- >>> G = nx.lollipop_graph(4, 3) >>> for line in nx.generate_multiline_adjlist(G): ... print(line) 0 3 1 {} 2 {} 3 {} 1 2 2 {} 3 {} 2 1 3 {} 3 1 4 {} 4 1 5 {} 5 1 6 {} 6 0 See Also -------- write_multiline_adjlist, read_multiline_adjlist """ if G.is_directed(): if G.is_multigraph(): for s, nbrs in G.adjacency(): nbr_edges = [ (u, data) for u, datadict in nbrs.items() for key, data in datadict.items() ] deg = len(nbr_edges) yield str(s) + delimiter + str(deg) for u, d in nbr_edges: if d is None: yield str(u) else: yield str(u) + delimiter + str(d) else: # directed single edges for s, nbrs in G.adjacency(): deg = len(nbrs) yield str(s) + delimiter + str(deg) for u, d in nbrs.items(): if d is None: yield str(u) else: yield str(u) + delimiter + str(d) else: # undirected if G.is_multigraph(): seen = set() # helper dict used to avoid duplicate edges for s, nbrs in G.adjacency(): nbr_edges = [ (u, data) for u, datadict in nbrs.items() if u not in seen for key, data in datadict.items() ] deg = len(nbr_edges) yield str(s) + delimiter + str(deg) for u, d in nbr_edges: if d is None: yield str(u) else: yield str(u) + delimiter + str(d) seen.add(s) else: # undirected single edges seen = set() # helper dict used to avoid duplicate edges for s, nbrs in G.adjacency(): nbr_edges = [(u, d) for u, d in nbrs.items() if u not in seen] deg = len(nbr_edges) yield str(s) + delimiter + str(deg) for u, d in nbr_edges: if d is None: yield str(u) else: yield str(u) + delimiter + str(d) seen.add(s) @open_file(1, mode="wb") def write_multiline_adjlist(G, path, delimiter=" ", comments="#", encoding="utf-8"): """ Write the graph G in multiline adjacency list format to path Parameters ---------- G : NetworkX graph comments : string, optional Marker for comment lines delimiter : string, optional Separator for node labels encoding : string, optional Text encoding. Examples -------- >>> G = nx.path_graph(4) >>> nx.write_multiline_adjlist(G, "test.adjlist") The path can be a file handle or a string with the name of the file. If a file handle is provided, it has to be opened in 'wb' mode. >>> fh = open("test.adjlist", "wb") >>> nx.write_multiline_adjlist(G, fh) Filenames ending in .gz or .bz2 will be compressed. >>> nx.write_multiline_adjlist(G, "test.adjlist.gz") See Also -------- read_multiline_adjlist """ import sys import time pargs = comments + " ".join(sys.argv) header = ( f"{pargs}\n" + comments + f" GMT {time.asctime(time.gmtime())}\n" + comments + f" {G.name}\n" ) path.write(header.encode(encoding)) for multiline in generate_multiline_adjlist(G, delimiter): multiline += "\n" path.write(multiline.encode(encoding)) def parse_multiline_adjlist( lines, comments="#", delimiter=None, create_using=None, nodetype=None, edgetype=None ): """Parse lines of a multiline adjacency list representation of a graph. Parameters ---------- lines : list or iterator of strings Input data in multiline adjlist format 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: NetworkX graph The graph corresponding to the lines in multiline adjacency list format. Examples -------- >>> lines = [ ... "1 2", ... "2 {'weight':3, 'name': 'Frodo'}", ... "3 {}", ... "2 1", ... "5 {'weight':6, 'name': 'Saruman'}", ... ] >>> G = nx.parse_multiline_adjlist(iter(lines), nodetype=int) >>> list(G) [1, 2, 3, 5] """ from ast import literal_eval G = nx.empty_graph(0, create_using) for line in lines: p = line.find(comments) if p >= 0: line = line[:p] if not line: continue try: (u, deg) = line.strip().split(delimiter) deg = int(deg) except BaseException as e: raise TypeError(f"Failed to read node and degree on line ({line})") from e if nodetype is not None: try: u = nodetype(u) except BaseException as e: raise TypeError( f"Failed to convert node ({u}) to " f"type {nodetype}" ) from e G.add_node(u) for i in range(deg): while True: try: line = next(lines) except StopIteration as e: msg = f"Failed to find neighbor for node ({u})" raise TypeError(msg) from e p = line.find(comments) if p >= 0: line = line[:p] if line: break vlist = line.strip().split(delimiter) numb = len(vlist) if numb < 1: continue # isolated node v = vlist.pop(0) data = "".join(vlist) if nodetype is not None: try: v = nodetype(v) except BaseException as e: raise TypeError( f"Failed to convert node ({v}) " f"to type {nodetype}" ) from e if edgetype is not None: try: edgedata = {"weight": edgetype(data)} except BaseException as e: raise TypeError( f"Failed to convert edge data ({data}) " f"to type {edgetype}" ) from e else: try: # try to evaluate edgedata = literal_eval(data) except: edgedata = {} G.add_edge(u, v, **edgedata) return G @open_file(0, mode="rb") def read_multiline_adjlist( path, comments="#", delimiter=None, create_using=None, nodetype=None, edgetype=None, encoding="utf-8", ): """Read graph in multi-line 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. edgetype : Python type, optional Convert edge data to this type. comments : string, optional Marker for comment lines delimiter : string, optional Separator for node labels. The default is whitespace. Returns ------- G: NetworkX graph Examples -------- >>> G = nx.path_graph(4) >>> nx.write_multiline_adjlist(G, "test.adjlist") >>> G = nx.read_multiline_adjlist("test.adjlist") The path can be a file or a string with the name of the file. If a file s provided, it has to be opened in 'rb' mode. >>> fh = open("test.adjlist", "rb") >>> G = nx.read_multiline_adjlist(fh) Filenames ending in .gz or .bz2 will be compressed. >>> nx.write_multiline_adjlist(G, "test.adjlist.gz") >>> G = nx.read_multiline_adjlist("test.adjlist.gz") The optional nodetype is a function to convert node strings to nodetype. For example >>> G = nx.read_multiline_adjlist("test.adjlist", nodetype=int) will attempt to convert all nodes to integer type. The optional edgetype is a function to convert edge data strings to edgetype. >>> G = nx.read_multiline_adjlist("test.adjlist") The optional create_using parameter is a NetworkX graph container. The default is Graph(), an undirected graph. To read the data as a directed graph use >>> G = nx.read_multiline_adjlist("test.adjlist", create_using=nx.DiGraph) Notes ----- This format does not store graph, node, or edge data. See Also -------- write_multiline_adjlist """ lines = (line.decode(encoding) for line in path) return parse_multiline_adjlist( lines, comments=comments, delimiter=delimiter, create_using=create_using, nodetype=nodetype, edgetype=edgetype, )