/usr/lib/python3/dist-packages/pygraphviz/agraph.py is in python3-pygraphviz 1.4~rc1-1build2.
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"""
A Python interface to Graphviz.
"""
# Copyright (C) 2006-2011 by
# Aric Hagberg <hagberg@lanl.gov>
# Dan Schult <dschult@colgate.edu>
# Manos Renieris, http://www.cs.brown.edu/~er/
# Distributed with BSD license.
# All rights reserved, see LICENSE for details.
from __future__ import print_function
import re
import shlex
import subprocess
import sys
import threading
import warnings
from collections import MutableMapping
from . import graphviz as gv
_DEFAULT_ENCODING = 'UTF-8'
_PY2 = sys.version_info[0] == 2
_TEXT_TYPE = unicode if _PY2 else str
_STRING_TYPES = (basestring,) if _PY2 else (str,)
def is_string_like(obj):
return isinstance(obj, _STRING_TYPES)
class PipeReader(threading.Thread):
"""Read and write pipes using threads.
"""
def __init__(self, result, pipe):
threading.Thread.__init__(self)
self.result = result
self.pipe = pipe
def run(self):
try:
while True:
chunk = self.pipe.read()
if not chunk:
break
self.result.append(chunk)
finally:
self.pipe.close()
class _Action(object):
find, create = 0, 1
class DotError(ValueError):
"""Dot data parsing error"""
class AGraph(object):
"""Class for Graphviz agraph type.
Example use
>>> from pygraphviz import *
>>> G=AGraph()
>>> G=AGraph(directed=True)
>>> G=AGraph("file.dot") # doctest: +SKIP
Graphviz graph keyword parameters are processed so you may add
them like
>>> G=AGraph(landscape='true',ranksep='0.1')
or alternatively
>>> G=AGraph()
>>> G.graph_attr.update(landscape='true',ranksep='0.1')
and
>>> G.node_attr.update(color='red')
>>> G.edge_attr.update(len='2.0',color='blue')
See http://www.graphviz.org/doc/info/attrs.html
for a list of attributes.
Keyword parameters:
thing is a generic input type (filename, string, handle to pointer,
dictionary of dictionaries). An attempt is made to automaticaly
detect the type so you may write for example:
>>> d={'1': {'2': None}, '2': {'1': None, '3': None}, '3': {'2': None}}
>>> A=AGraph(d)
>>> s=A.to_string()
>>> B=AGraph(s)
>>> h=B.handle
>>> C=AGraph(h)
Parameters::
name: Name for the graph
strict: True|False (True for simple graphs)
directed: True|False
data: Dictionary of dictionaries or dictionary of lists
representing nodes or edges to load into initial graph
string: String containing a dot format graph
handle: Swig pointer to an agraph_t data structure
"""
def __init__(self, thing=None,
filename=None, data=None, string=None, handle=None,
name='', strict=True, directed=False, **attr):
self.handle = None # assign first in case the __init__ bombs
# initialization can take no arguments (gives empty graph) or
# a file name
# a string of graphviz dot language
# a swig pointer (handle) to a graph
# a dict of dicts (or dict of lists) data structure
self.has_layout = False # avoid creating members outside of init
# backward compability
filename = attr.pop('file', filename)
# guess input type if specified as first (nonkeyword) argument
if thing is not None:
# can't specify first argument and also file,data,string,handle
filename = None
data = None
string = None
handle = None
if isinstance(thing, dict):
data = thing # a dictionary of dictionaries (or lists)
elif hasattr(thing, 'own'): # a Swig pointer - graph handle
handle = thing
elif is_string_like(thing):
pattern = re.compile('(strict)?\s*(graph|digraph).*{.*}\s*',
re.DOTALL)
if pattern.match(thing):
string = thing # this is a dot format graph in a string
else:
filename = thing # assume this is a file name
else:
raise TypeError('Unrecognized input %s' % thing)
if handle is not None:
# if handle was specified, reference it
self.handle = handle
elif filename is not None:
# load new graph from file (creates self.handle)
self.read(filename)
elif string is not None:
# load new graph from string (creates self.handle)
# get the charset from the string to properly encode it for
# writing to the temporary file in from_string()
match = re.search(r'charset\s*=\s*"([^"]+)"', string)
if match is not None:
self.encoding = match.group(1)
else:
self.encoding = _DEFAULT_ENCODING
self.from_string(string)
else:
# no handle, need to
self.handle = None
if self.handle is not None:
# the handle was specified or created
# get the encoding from the "charset" graph attribute
item = gv.agget(self.handle, b'charset')
if item is not None:
self.encoding = item
else:
self.encoding = _DEFAULT_ENCODING
else:
# no handle was specified or created
# get encoding from the "charset" kwarg
self.encoding = attr.get('charset', _DEFAULT_ENCODING)
try:
if name is None:
name = ''
# instantiate a new, empty graph
self.handle = gv.agraphnew(name.encode(self.encoding),
strict, directed)
except TypeError:
raise TypeError("Graph name must be a string: %s" % name)
# encoding is already set but if it was specified explicitly
# as an attr, then set it explicitly for the graph
if 'charset' in attr:
gv.agattr_label(self.handle, 0, 'charset', self.encoding)
# if data is specified, populate the newly created graph
if data is not None:
# load from dict of dicts or dict of lists
for node in data:
for nbr in data[node]:
self.add_edge(node, nbr)
self.add_nodes_from(data.keys())
# throw away the charset attribute, if one exists,
# since we've already set it, and now it should not be changed
if 'charset' in attr:
del attr['charset']
# assign any attributes specified through keywords
self.graph_attr = Attribute(self.handle, 0) # default graph attributes
self.graph_attr.update(attr) # apply attributes passed to init
self.node_attr = Attribute(self.handle, 1) # default node attributes
self.edge_attr = Attribute(self.handle, 2) # default edge attribtes
def __enter__(self):
return self
def __exit__(self, ext_type, exc_value, traceback):
self.close()
if _PY2:
def __unicode__(self):
return self.string()
def __str__(self):
return unicode(self).encode(self.encoding, 'replace')
else:
def __str__(self):
return self.string()
def __repr__(self):
name = gv.agnameof(self.handle)
if name is None:
return '<AGraph %s>' % self.handle
return '<AGraph %s %s>' % (name, self.handle)
def __eq__(self, other):
# two graphs are equal if they have exact same string representation
# this is not graph isomorphism
return self.string() == other.string()
def __hash__(self):
# hash the string representation for id
return hash(self.string())
def __iter__(self):
# provide "for n in G"
return self.nodes_iter()
def __contains__(self, n):
# provide "n in G"
return self.has_node(n)
def __len__(self):
return self.number_of_nodes()
def __getitem__(self, n):
# "G[n]" returns nodes attached to n
return self.neighbors(n)
# not implemented, but could be...
# def __setitem__(self,u,v):
# self.add_edge(u,v)
def get_name(self):
name = gv.agnameof(self.handle)
if name is not None:
name = name.decode(self.encoding)
return name
name = property(get_name)
def add_node(self, n, **attr):
"""Add a single node n.
If n is not a string, conversion to a string will be attempted.
String conversion will work if n has valid string representation
(try str(n) if you are unsure).
>>> G=AGraph()
>>> G.add_node('a')
>>> G.nodes() # doctest: +IGNORE_UNICODE
[u'a']
>>> G.add_node(1) # will be converted to a string
>>> G.nodes() # doctest: +IGNORE_UNICODE
[u'a', u'1']
Attributes can be added to nodes on creation or updated after creation
(attribute values must be strings)
>>> G.add_node(2,color='red')
See http://www.graphviz.org/doc/info/attrs.html
for a list of attributes.
Anonymous Graphviz nodes are currently not implemented.
"""
if not is_string_like(n):
n = str(n)
n = n.encode(self.encoding)
try:
nh = gv.agnode(self.handle, n, _Action.find)
except KeyError:
nh = gv.agnode(self.handle, n, _Action.create)
node = Node(self, nh=nh)
node.attr.update(**attr)
def add_nodes_from(self, nbunch, **attr):
"""Add nodes from a container nbunch.
nbunch can be any iterable container such as a list or dictionary
>>> G=AGraph()
>>> nlist=['a','b',1,'spam']
>>> G.add_nodes_from(nlist)
>>> sorted(G.nodes()) # doctest: +IGNORE_UNICODE
[u'1', u'a', u'b', u'spam']
Attributes can be added to nodes on creation or updated after creation
>>> G.add_nodes_from(nlist, color='red') # set all nodes in nlist red
"""
for n in nbunch:
self.add_node(n, **attr)
def remove_node(self, n):
"""Remove the single node n.
Attempting to remove a node that isn't in the graph will produce
an error.
>>> G=AGraph()
>>> G.add_node('a')
>>> G.remove_node('a')
"""
if not is_string_like(n):
n = str(n)
n = n.encode(self.encoding)
try:
nh = gv.agnode(self.handle, n, _Action.find)
gv.agdelnode(self.handle, nh)
except KeyError:
raise KeyError("Node %s not in graph." % n.decode(self.encoding))
delete_node = remove_node
def remove_nodes_from(self, nbunch):
"""Remove nodes from a container nbunch.
nbunch can be any iterable container such as a list or dictionary
>>> G=AGraph()
>>> nlist=['a','b',1,'spam']
>>> G.add_nodes_from(nlist)
>>> G.remove_nodes_from(nlist)
"""
for n in nbunch:
self.remove_node(n)
delete_nodes_from = remove_nodes_from
def nodes_iter(self):
"""Return an iterator over all the nodes in the graph.
Note: modifying the graph structure while iterating over
the nodes may produce unpredictable results. Use nodes()
as an alternative.
"""
nh = gv.agfstnode(self.handle)
while nh is not None:
yield Node(self, nh=nh)
nh = gv.agnxtnode(self.handle, nh)
raise StopIteration
iternodes = nodes_iter
def nodes(self):
"""Return a list of all nodes in the graph."""
return list(self.nodes_iter())
def number_of_nodes(self):
"""Return the number of nodes in the graph."""
return gv.agnnodes(self.handle)
def order(self):
"""Return the number of nodes in the graph."""
return self.number_of_nodes()
def has_node(self, n):
"""Return True if n is in the graph or False if not.
>>> G=AGraph()
>>> G.add_node('a')
>>> G.has_node('a')
True
>>> 'a' in G # same as G.has_node('a')
True
"""
try:
node = Node(self, n)
return True
except KeyError:
return False
def get_node(self, n):
"""Return a node object (Node) corresponding to node n.
>>> G=AGraph()
>>> G.add_node('a')
>>> node=G.get_node('a')
>>> print(node)
a
"""
return Node(self, n)
def add_edge(self, u, v=None, key=None, **attr):
"""Add a single edge between nodes u and v.
If the nodes u and v are not in the graph they will added.
If u and v are not strings, conversion to a string will be attempted.
String conversion will work if u and v have valid string representation
(try str(u) if you are unsure).
>>> G=AGraph()
>>> G.add_edge('a','b')
>>> G.edges() # doctest: +IGNORE_UNICODE
[(u'a', u'b')]
The optional key argument allows assignment of a key to the
edge. This is especially useful to distinguish between
parallel edges in multi-edge graphs (strict=False).
>>> G=AGraph(strict=False)
>>> G.add_edge('a','b','first')
>>> G.add_edge('a','b','second')
>>> sorted(G.edges(keys=True)) # doctest: +IGNORE_UNICODE
[(u'a', u'b', u'first'), (u'a', u'b', u'second')]
Attributes can be added when edges are created or updated after creation
>>> G.add_edge('a','b',color='green')
Attributes must be valid strings.
See http://www.graphviz.org/doc/info/attrs.html
for a list of attributes.
"""
if v is None:
(u, v) = u # no v given, assume u is an edge tuple
try:
uh = Node(self, u).handle
except:
self.add_node(u)
uh = Node(self, u).handle
try:
vh = Node(self, v).handle
except:
self.add_node(v)
vh = Node(self, v).handle
if key is not None:
if not is_string_like(key):
key = str(key)
key = key.encode(self.encoding)
try:
# new
eh = gv.agedge(self.handle, uh, vh, key, _Action.create)
except KeyError:
# for strict graph, or already added
eh = gv.agedge(self.handle, uh, vh, key, _Action.find)
e = Edge(self, eh=eh)
e.attr.update(**attr)
def add_edges_from(self, ebunch, **attr):
"""Add nodes to graph from a container ebunch.
ebunch is a container of edges such as a list or dictionary.
>>> G=AGraph()
>>> elist=[('a','b'),('b','c')]
>>> G.add_edges_from(elist)
Attributes can be added when edges are created or updated after creation
>>> G.add_edges_from(elist, color='green')
"""
for e in ebunch:
self.add_edge(e, **attr)
def get_edge(self, u, v, key=None):
"""Return an edge object (Edge) corresponding to edge (u,v).
>>> G=AGraph()
>>> G.add_edge('a','b')
>>> edge=G.get_edge('a','b')
>>> print(edge) # doctest: +IGNORE_UNICODE
(u'a', u'b')
With optional key argument will only get edge matching (u,v,key).
"""
return Edge(self, u, v, key)
def remove_edge(self, u, v=None, key=None):
"""Remove edge between nodes u and v from the graph.
With optional key argument will only remove an edge
matching (u,v,key).
"""
if v is None:
(u, v) = u # no v given, assume u is an edge tuple
e = Edge(self, u, v, key)
try:
gv.agdeledge(self.handle, e.handle)
except KeyError:
raise KeyError("Edge %s-%s not in graph." % (u, v))
delete_edge = remove_edge
def remove_edges_from(self, ebunch):
"""Remove edges from ebunch (a container of edges)."""
for e in ebunch:
self.remove_edge(e)
delete_edges_from = remove_edges_from
def has_edge(self, u, v=None, key=None):
"""Return True an edge u-v is in the graph or False if not.
>>> G=AGraph()
>>> G.add_edge('a','b')
>>> G.has_edge('a','b')
True
Optional key argument will restrict match to edges (u,v,key).
"""
if v is None:
(u, v) = u # no v given, assume u is an edge tuple
try:
Edge(self, u, v, key)
return True
except KeyError:
return False
def edges(self, nbunch=None, keys=False):
"""Return list of edges in the graph.
If the optional nbunch (container of nodes) only edges
adjacent to nodes in nbunch will be returned.
>>> G=AGraph()
>>> G.add_edge('a','b')
>>> G.add_edge('c','d')
>>> print(sorted(G.edges())) # doctest: +IGNORE_UNICODE
[(u'a', u'b'), (u'c', u'd')]
>>> print(G.edges('a')) # doctest: +IGNORE_UNICODE
[(u'a', u'b')]
"""
return list(self.edges_iter(nbunch=nbunch, keys=keys))
def has_neighbor(self, u, v, key=None):
"""Return True if u has an edge to v or False if not.
>>> G=AGraph()
>>> G.add_edge('a','b')
>>> G.has_neighbor('a','b')
True
Optional key argument will only find edges (u,v,key).
"""
return self.has_edge(u, v)
def neighbors_iter(self, n):
"""Return iterator over the nodes attached to n.
Note: modifying the graph structure while iterating over
node neighbors may produce unpredictable results. Use neighbors()
as an alternative.
"""
n = Node(self, n)
nh = n.handle
eh = gv.agfstedge(self.handle, nh)
while eh is not None:
(s, t) = Edge(self, eh=eh)
if s == n:
yield Node(self, t)
else:
yield Node(self, s)
eh = gv.agnxtedge(self.handle, eh, nh)
raise StopIteration
def neighbors(self, n):
"""Return a list of the nodes attached to n."""
return list(self.neighbors_iter(n))
iterneighbors = neighbors_iter
def out_edges_iter(self, nbunch=None, keys=False):
"""Return iterator over out edges in the graph.
If the optional nbunch (container of nodes) only out edges
adjacent to nodes in nbunch will be returned.
Note: modifying the graph structure while iterating over
edges may produce unpredictable results. Use out_edges()
as an alternative.
"""
if nbunch is None: # all nodes
nh = gv.agfstnode(self.handle)
while nh is not None:
eh = gv.agfstout(self.handle, nh)
while eh is not None:
e = Edge(self, eh=eh)
if keys:
yield (e[0], e[1], e.name)
else:
yield e
eh = gv.agnxtout(self.handle, eh)
nh = gv.agnxtnode(self.handle, nh)
elif nbunch in self: # if nbunch is a single node
n = Node(self, nbunch)
nh = n.handle
eh = gv.agfstout(self.handle, nh)
while eh is not None:
e = Edge(self, eh=eh)
if keys:
yield (e[0], e[1], e.name)
else:
yield e
eh = gv.agnxtout(self.handle, eh)
else: # if nbunch is a sequence of nodes
try:
bunch = [n for n in nbunch if n in self]
except TypeError:
raise TypeError("nbunch is not a node or a sequence of nodes.")
for n in nbunch:
try:
nh = Node(self, n).handle
except KeyError:
continue
eh = gv.agfstout(self.handle, nh)
while eh is not None:
e = Edge(self, eh=eh)
if keys:
yield (e[0], e[1], e.name)
else:
yield e
eh = gv.agnxtout(self.handle, eh)
raise StopIteration
iteroutedges = out_edges_iter
def in_edges_iter(self, nbunch=None, keys=False):
"""Return iterator over out edges in the graph.
If the optional nbunch (container of nodes) only out edges
adjacent to nodes in nbunch will be returned.
Note: modifying the graph structure while iterating over
edges may produce unpredictable results. Use in_edges()
as an alternative.
"""
if nbunch is None: # all nodes
nh = gv.agfstnode(self.handle)
while nh is not None:
eh = gv.agfstin(self.handle, nh)
while eh is not None:
e = Edge(self, eh=eh)
if keys:
yield (e[0], e[1], e.name)
else:
yield e
eh = gv.agnxtin(self.handle, eh)
nh = gv.agnxtnode(self.handle, nh)
elif nbunch in self: # if nbunch is a single node
n = Node(self, nbunch)
nh = n.handle
eh = gv.agfstin(self.handle, nh)
while eh is not None:
e = Edge(self, eh=eh)
if keys:
yield (e[0], e[1], e.name)
else:
yield e
eh = gv.agnxtin(self.handle, eh)
else: # if nbunch is a sequence of nodes
try:
bunch = [n for n in nbunch if n in self]
except TypeError:
raise TypeError("nbunch is not a node or a sequence of nodes.")
for n in nbunch:
try:
nh = Node(self, n).handle
except KeyError:
continue
eh = gv.agfstin(self.handle, nh)
while eh is not None:
e = Edge(self, eh=eh)
if keys:
yield (e[0], e[1], e.name)
else:
yield e
eh = gv.agnxtin(self.handle, eh)
raise StopIteration
def edges_iter(self, nbunch=None, keys=False):
"""Return iterator over edges in the graph.
If the optional nbunch (container of nodes) only edges
adjacent to nodes in nbunch will be returned.
Note: modifying the graph structure while iterating over
edges may produce unpredictable results. Use edges()
as an alternative.
"""
if nbunch is None: # all nodes
for e in self.out_edges_iter(keys=keys):
yield e
elif nbunch in self: # only one node
for e in self.out_edges_iter(nbunch, keys=keys):
yield e
for e in self.in_edges_iter(nbunch, keys=keys):
if e != (nbunch, nbunch):
yield e
else: # a group of nodes
used = set()
for e in self.out_edges_iter(nbunch, keys=keys):
yield e
used.add(e)
for e in self.in_edges_iter(nbunch, keys=keys):
if e not in used:
yield e
iterinedges = in_edges_iter
iteredges = edges_iter
def out_edges(self, nbunch=None, keys=False):
"""Return list of out edges in the graph.
If the optional nbunch (container of nodes) only out edges
adjacent to nodes in nbunch will be returned.
"""
return list(self.out_edges_iter(nbunch=nbunch, keys=keys))
def in_edges(self, nbunch=None, keys=False):
"""Return list of in edges in the graph.
If the optional nbunch (container of nodes) only in edges
adjacent to nodes in nbunch will be returned.
"""
return list(self.in_edges_iter(nbunch=nbunch, keys=keys))
def predecessors_iter(self, n):
"""Return iterator over predecessor nodes of n.
Note: modifying the graph structure while iterating over
node predecessors may produce unpredictable results. Use
predecessors() as an alternative.
"""
n = Node(self, n)
nh = n.handle
eh = gv.agfstin(self.handle, nh)
while eh is not None:
(s, t) = Edge(self, eh=eh)
if s == n:
yield Node(self, t)
else:
yield Node(self, s)
eh = gv.agnxtin(self.handle, eh)
raise StopIteration
iterpred = predecessors_iter
def successors_iter(self, n):
"""Return iterator over successor nodes of n.
Note: modifying the graph structure while iterating over
node successors may produce unpredictable results. Use
successors() as an alternative.
"""
n = Node(self, n)
nh = n.handle
eh = gv.agfstout(self.handle, nh)
while eh is not None:
(s, t) = Edge(self, eh=eh)
if s == n:
yield Node(self, t)
else:
yield Node(self, s)
eh = gv.agnxtout(self.handle, eh)
raise StopIteration
itersucc = successors_iter
def successors(self, n):
"""Return list of successor nodes of n."""
return list(self.successors_iter(n))
def predecessors(self, n):
"""Return list of predecessor nodes of n."""
return list(self.predecessors_iter(n))
# digraph definitions
out_neighbors = successors
in_neighbors = predecessors
def degree_iter(self, nbunch=None, indeg=True, outdeg=True):
"""Return an iterator over the degree of the nodes given in
nbunch container.
Returns paris of (node,degree).
"""
# prepare nbunch
if nbunch is None: # include all nodes via iterator
bunch = [n for n in self.nodes_iter()]
elif nbunch in self: # if nbunch is a single node
bunch = [Node(self, nbunch)]
else: # if nbunch is a sequence of nodes
try:
bunch = [Node(self, n) for n in nbunch if n in self]
except TypeError:
raise TypeError("nbunch is not a node or a sequence of nodes.")
for n in bunch:
yield (Node(self, n), gv.agdegree(self.handle,
n.handle, indeg, outdeg))
def in_degree_iter(self, nbunch=None):
"""Return an iterator over the in-degree of the nodes given in
nbunch container.
Returns paris of (node,degree).
"""
return self.degree_iter(nbunch, indeg=True, outdeg=False)
def out_degree_iter(self, nbunch=None):
"""Return an iterator over the out-degree of the nodes given in
nbunch container.
Returns paris of (node,degree).
"""
return self.degree_iter(nbunch, indeg=False, outdeg=True)
iteroutdegree = out_degree_iter
iterindegree = in_degree_iter
def out_degree(self, nbunch=None, with_labels=False):
"""Return the out-degree of nodes given in nbunch container.
Using optional with_labels=True returns a dictionary
keyed by node with value set to the degree.
"""
if with_labels:
return dict(self.out_degree_iter(nbunch))
else:
dlist = list(d for n, d in self.out_degree_iter(nbunch))
if nbunch in self:
return dlist[0]
else:
return dlist
def in_degree(self, nbunch=None, with_labels=False):
"""Return the in-degree of nodes given in nbunch container.
Using optional with_labels=True returns a dictionary
keyed by node with value set to the degree.
"""
if with_labels:
return dict(self.in_degree_iter(nbunch))
else:
dlist = list(d for n, d in self.in_degree_iter(nbunch))
if nbunch in self:
return dlist[0]
else:
return dlist
def reverse(self):
"""Return copy of directed graph with edge directions reversed."""
if self.directed:
# new empty DiGraph
H = self.__class__(strict=self.strict, directed=True, name=self.name)
H.graph_attr.update(self.graph_attr)
H.node_attr.update(self.node_attr)
H.edge_attr.update(self.edge_attr)
for n in self.nodes():
H.add_node(n)
new_n = Node(H, n)
new_n.attr.update(n.attr)
for e in self.edges():
(u, v) = e
H.add_edge(v, u)
uv = H.get_edge(v, u)
uv.attr.update(e.attr)
return H
else:
return self
def degree(self, nbunch=None, with_labels=False):
"""Return the degree of nodes given in nbunch container.
Using optional with_labels=True returns a dictionary
keyed by node with value set to the degree.
"""
if with_labels:
return dict(self.degree_iter(nbunch))
else:
dlist = list(d for n, d in self.degree_iter(nbunch))
if nbunch in self:
return dlist[0]
else:
return dlist
iterdegree = degree_iter
def number_of_edges(self):
"""Return the number of edges in the graph."""
return gv.agnedges(self.handle)
def clear(self):
"""Remove all nodes, edges, and attributes from the graph."""
self.remove_edges_from(self.edges())
self.remove_nodes_from(self.nodes())
# now "close" existing graph and create a new graph
name = gv.agnameof(self.handle)
strict = self.strict
directed = self.directed
gv.agclose(self.handle)
self.handle = gv.agraphnew(name, strict, directed)
self.graph_attr.handle = self.handle
self.node_attr.handle = self.handle
self.edge_attr.handle = self.handle
def close(self):
# may be useful to clean up graphviz data
# this should completely remove all of the existing graphviz data
gv.agclose(self.handle)
def copy(self):
"""Return a copy of the graph."""
from tempfile import TemporaryFile
fh = TemporaryFile()
# Cover TemporaryFile wart: on 'nt' we need the file member
if hasattr(fh, 'file'):
fhandle = fh.file
else:
fhandle = fh
self.write(fhandle)
fh.seek(0)
return self.__class__(filename=fhandle)
def add_path(self, nlist):
"""Add the path of nodes given in nlist."""
fromv = nlist.pop(0)
while len(nlist) > 0:
tov = nlist.pop(0)
self.add_edge(fromv, tov)
fromv = tov
def add_cycle(self, nlist):
"""Add the cycle of nodes given in nlist."""
self.add_path(nlist + [nlist[0]])
def prepare_nbunch(self, nbunch=None):
# private function to build bunch from nbunch
if nbunch is None: # include all nodes via iterator
bunch = self.nodes_iter()
elif nbunch in self: # if nbunch is a single node
bunch = [Node(self, nbunch)]
else: # if nbunch is a sequence of nodes
try: # capture error for nonsequence/iterator entries.
bunch = [Node(self, n) for n in nbunch if n in self]
# bunch=(n for n in nbunch if n in self) # need python 2.4
except TypeError:
raise TypeError("nbunch is not a node or a sequence of nodes.")
return bunch
def add_subgraph(self, nbunch=None, name=None, **attr):
"""Return subgraph induced by nodes in nbunch.
"""
if name is not None:
name = name.encode(self.encoding)
try:
handle = gv.agsubg(self.handle, name, _Action.create)
except TypeError:
raise TypeError("Subgraph name must be a string: %s" % name.decode(self.encoding))
H = self.__class__(strict=self.strict,
directed=self.directed,
handle=handle, name=name,
**attr)
if nbunch is None: return H
# add induced subgraph on nodes in nbunch
bunch = self.prepare_nbunch(nbunch)
for n in bunch:
node = Node(self, n)
nh = gv.agsubnode(handle, node.handle, _Action.create)
for (u, v, k) in self.edges(keys=True):
if u in H and v in H:
edge = Edge(self, u, v, k)
eh = gv.agsubedge(handle, edge.handle, _Action.create)
return H
def remove_subgraph(self, name):
"""Remove subgraph with given name."""
try:
handle = gv.agsubg(self.handle, name.encode(self.encoding),
_Action.find)
except TypeError:
raise TypeError("Subgraph name must be a string: %s" % name)
if handle is None:
raise KeyError("Subgraph %s not in graph." % name)
gv.agdelsubg(self.handle, handle)
delete_subgraph = remove_subgraph
subgraph = add_subgraph
def subgraph_parent(self, nbunch=None, name=None):
"""Return parent graph of subgraph or None if graph is root graph.
"""
handle = gv.agparent(self.handle)
if handle is None:
return None
H = self.__class__(strict=self.strict,
directed=self.directed,
handle=handle,
name=name)
return H
def subgraph_root(self, nbunch=None, name=None):
"""Return root graph of subgraph or None if graph is root graph.
"""
handle = gv.agroot(self.handle)
if handle is None:
return None
H = self.__class__(strict=self.strict,
directed=self.directed,
handle=handle, name=name)
return H
def get_subgraph(self, name):
"""Return existing subgraph with specified name or None if it
doesn't exist.
"""
try:
handle = gv.agsubg(self.handle, name.encode(self.encoding)
, _Action.find)
except TypeError:
raise TypeError("Subgraph name must be a string: %s" % name)
if handle is None:
return None
H = self.__class__(strict=self.strict,
directed=self.directed,
handle=handle)
return H
def subgraphs_iter(self):
"""Iterator over subgraphs."""
handle = gv.agfstsubg(self.handle)
while handle is not None:
yield self.__class__(strict=self.strict,
directed=self.directed,
handle=handle)
handle = gv.agnxtsubg(handle)
raise StopIteration
def subgraphs(self):
"""Return a list of all subgraphs in the graph."""
return list(self.subgraphs_iter())
# directed, undirected tests and conversions
def is_strict(self):
"""Return True if graph is strict or False if not.
Strict graphs do not allow parallel edges or self loops.
"""
if gv.agisstrict(self.handle) == 1:
return True
else:
return False
strict = property(is_strict)
def is_directed(self):
"""Return True if graph is directed or False if not."""
if gv.agisdirected(self.handle) == 1:
return True
else:
return False
directed = property(is_directed)
def is_undirected(self):
"""Return True if graph is undirected or False if not."""
if gv.agisundirected(self.handle) == 1:
return True
else:
return False
def to_undirected(self):
"""Return undirected copy of graph."""
if not self.directed:
return self.copy()
else:
U = AGraph(strict=self.strict)
U.graph_attr.update(self.graph_attr)
U.node_attr.update(self.node_attr)
U.edge_attr.update(self.edge_attr)
for n in self.nodes():
U.add_node(n)
new_n = Node(U, n)
new_n.attr.update(n.attr)
for e in self.edges():
(u, v) = e
U.add_edge(u, v)
uv = U.get_edge(u, v)
uv.attr.update(e.attr)
return U
def to_directed(self, **kwds):
"""Return directed copy of graph.
Each undirected edge u-v is represented as two directed
edges u->v and v->u.
"""
if not self.directed:
D = AGraph(strict=self.strict, directed=True)
D.graph_attr.update(self.graph_attr)
D.node_attr.update(self.node_attr)
D.edge_attr.update(self.edge_attr)
for n in self.nodes():
D.add_node(n)
new_n = Node(D, n)
new_n.attr.update(n.attr)
for e in self.edges():
(u, v) = e
D.add_edge(u, v)
D.add_edge(v, u)
uv = D.get_edge(u, v)
vu = D.get_edge(v, u)
uv.attr.update(e.attr)
uv.attr.update(e.attr)
vu.attr.update(e.attr)
return D
else:
return self.copy()
# io
def read(self, path):
"""Read graph from dot format file on path.
path can be a file name or file handle
use::
G.read('file.dot')
"""
fh = self._get_fh(path)
try:
if self.handle is not None:
gv.agclose(self.handle)
try:
self.handle = gv.agread(fh, None)
except ValueError:
raise DotError
except IOError:
print("IO error reading file")
def write(self, path=None):
"""Write graph in dot format to file on path.
path can be a file name or file handle
use::
G.write('file.dot')
"""
if path is None:
path = sys.stdout
fh = self._get_fh(path, 'w')
try:
gv.agwrite(self.handle, fh)
except IOError:
print("IO error writing file")
finally:
if hasattr(fh, 'close') and not hasattr(path, 'write'):
fh.close()
def string_nop(self):
"""Return a string (unicode) representation of graph in dot format."""
# this will fail for graphviz-2.8 because of a broken nop
# so use tempfile version below
return self.draw(format='dot', prog='nop').decode(self.encoding)
def to_string(self):
"""Return a string (unicode) representation of graph in dot format."""
from tempfile import TemporaryFile
fh = TemporaryFile()
# Cover TemporaryFile wart: on 'nt' we need the file member
if hasattr(fh, 'file'):
self.write(fh.file)
else:
self.write(fh)
fh.seek(0)
data = fh.read()
fh.close()
return data.decode(self.encoding)
def string(self):
"""Return a string (unicode) representation of graph in dot format."""
# return self.to_string()
return self.string_nop()
def from_string(self, string):
"""Load a graph from a string in dot format.
Overwrites any existing graph.
To make a new graph from a string use
>>> s='digraph {1 -> 2}'
>>> A=AGraph()
>>> t=A.from_string(s)
>>> A=AGraph(string=s) # specify s is a string
>>> A=AGraph(s) # s assumed to be a string during initialization
"""
# allow either unicode or encoded string
try:
string = string.decode(self.encoding)
except (UnicodeEncodeError, AttributeError):
pass
from tempfile import TemporaryFile
fh = TemporaryFile()
fh.write(string.encode(self.encoding))
fh.seek(0)
# Cover TemporaryFile wart: on 'nt' we need the file member
if hasattr(fh, 'file'):
self.read(fh.file)
else:
self.read(fh)
fh.close()
return self
def _get_prog(self, prog):
# private: get path of graphviz program
progs = ['neato', 'dot', 'twopi', 'circo', 'fdp', 'nop',
'wc', 'acyclic', 'gvpr', 'gvcolor', 'ccomps', 'sccmap', 'tred',
'sfdp']
if prog not in progs:
raise ValueError("Program %s is not one of: %s." %
(prog, ', '.join(progs)))
try: # user must pick one of the graphviz programs...
runprog = self._which(prog)
except:
raise ValueError("Program %s not found in path." % prog)
return runprog
def _run_prog(self, prog='nop', args=''):
"""Apply graphviz program to graph and return the result as a string.
>>> A = AGraph()
>>> s = A._run_prog() # doctest: +SKIP
>>> s = A._run_prog(prog='acyclic') # doctest: +SKIP
Use keyword args to add additional arguments to graphviz programs.
"""
runprog = r'"%s"' % self._get_prog(prog)
cmd = ' '.join([runprog, args])
dotargs = shlex.split(cmd)
p = subprocess.Popen(dotargs,
shell=False,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
close_fds=False)
(child_stdin,
child_stdout,
child_stderr) = (p.stdin, p.stdout, p.stderr)
# Use threading to avoid blocking
data = []
errors = []
threads = [PipeReader(data, child_stdout),
PipeReader(errors, child_stderr)]
for t in threads:
t.start()
self.write(child_stdin)
child_stdin.close()
for t in threads:
t.join()
if not data:
raise IOError(b"".join(errors).decode(self.encoding))
if len(errors) > 0:
warnings.warn(b"".join(errors).decode(self.encoding), RuntimeWarning)
return b"".join(data)
def layout(self, prog='neato', args=''):
"""Assign positions to nodes in graph.
Optional prog=['neato'|'dot'|'twopi'|'circo'|'fdp'|'nop']
will use specified graphviz layout method.
>>> A=AGraph()
>>> A.layout() # uses neato
>>> A.layout(prog='dot')
Use keyword args to add additional arguments to graphviz programs.
The layout might take a long time on large graphs.
"""
fmt = 'dot'
data = self._run_prog(prog, ' '.join([args, "-T", fmt]))
self.from_string(data)
self.has_layout = True
return
def tred(self, args='', copy=False):
"""Transitive reduction of graph. Modifies existing graph.
To create a new graph use
>>> A=AGraph()
>>> B=A.tred(copy=True) # doctest: +SKIP
See the graphviz "tred" program for details of the algorithm.
"""
data = self._run_prog('tred', args)
if copy:
return self.__class__(string=data)
else:
return self.from_string(data)
def acyclic(self, args='', copy=False):
"""Reverse sufficient edges in digraph to make graph acyclic.
Modifies existing graph.
To create a new graph use
>>> A=AGraph()
>>> B=A.acyclic(copy=True) # doctest: +SKIP
See the graphviz "acyclic" program for details of the algorithm.
"""
data = self._run_prog('acyclic', args)
if copy:
return self.__class__(string=data)
else:
return self.from_string(data)
def draw(self, path=None, format=None, prog=None, args=''):
"""Output graph to path in specified format.
An attempt will be made to guess the output format based on the file
extension of `path`. If that fails, then the `format` parameter will
be used.
Note, if `path` is a file object returned by a call to os.fdopen(),
then the method for discovering the format will not work. In such
cases, one should explicitly set the `format` parameter; otherwise, it
will default to 'dot'.
Formats (not all may be available on every system depending on
how Graphviz was built)
'canon', 'cmap', 'cmapx', 'cmapx_np', 'dia', 'dot',
'fig', 'gd', 'gd2', 'gif', 'hpgl', 'imap', 'imap_np',
'ismap', 'jpe', 'jpeg', 'jpg', 'mif', 'mp', 'pcl', 'pdf',
'pic', 'plain', 'plain-ext', 'png', 'ps', 'ps2', 'svg',
'svgz', 'vml', 'vmlz', 'vrml', 'vtx', 'wbmp', 'xdot', 'xlib'
If prog is not specified and the graph has positions
(see layout()) then no additional graph positioning will
be performed.
Optional prog=['neato'|'dot'|'twopi'|'circo'|'fdp'|'nop']
will use specified graphviz layout method.
>>> G = AGraph()
>>> G.layout()
# use current node positions, output ps in 'file.ps'
>>> G.draw('file.ps')
# use dot to position, output png in 'file'
>>> G.draw('file', format='png',prog='dot')
# use keyword 'args' to pass additional arguments to graphviz
>>> G.draw('test.ps',prog='twopi',args='-Gepsilon=1')
The layout might take a long time on large graphs.
"""
import os
# try to guess format from extension
if format is None and path is not None:
p = path
# in case we got a file handle get its name instead
if not is_string_like(p):
p = path.name
format = os.path.splitext(p)[-1].lower()[1:]
if format is None or format == '':
format = 'dot'
if prog is None:
if self.has_layout:
prog = 'neato'
args += "-n2"
else:
raise AttributeError(
"""Graph has no layout information, see layout() or specify prog=%s.""" %
("|".join(['neato', 'dot', 'twopi', 'circo', 'fdp', 'nop'])))
else:
if self.number_of_nodes() > 1000:
sys.stderr.write(
"Warning: graph has %s nodes...layout may take a long time.\n" %
self.number_of_nodes())
if prog == 'nop': # nop takes no switches
args = ''
else:
args = ' '.join([args, "-T" + format])
data = self._run_prog(prog, args)
if path is not None:
fh = self._get_fh(path, 'w+b')
fh.write(data)
if is_string_like(path):
fh.close()
d = None
else:
d = data
return d
# some private helper functions
def _get_fh(self, path, mode='r'):
""" Return a file handle for given path.
Path can be a string or a file handle.
Attempt to uncompress/compress files ending in '.gz' and '.bz2'.
"""
import os
if is_string_like(path):
if path.endswith('.gz'):
#import gzip
#fh = gzip.open(path,mode=mode) # doesn't return real fh
fh = os.popen("gzcat " + path) # probably not portable
elif path.endswith('.bz2'):
#import bz2
#fh = bz2.BZ2File(path,mode=mode) # doesn't return real fh
fh = os.popen("bzcat " + path) # probably not portable
else:
fh = open(path, mode=mode)
elif hasattr(path, 'write'):
# Note, mode of file handle is unchanged.
fh = path
else:
raise TypeError('path must be a string or file handle.')
return fh
def _which(self, name):
"""Searches for name in exec path and returns full path"""
import os
import glob
paths = os.environ["PATH"]
if os.name == "nt":
exe = ".exe"
else:
exe = ""
for path in paths.split(os.pathsep):
match = glob.glob(os.path.join(path, name + exe))
if match:
return match[0]
raise ValueError("No prog %s in path." % name)
class Node(_TEXT_TYPE):
"""Node object based on unicode.
If G is a graph
>>> G=AGraph()
then
>>> G.add_node(1)
will create a node object labeled by the string "1".
To get the object use
>>> node=Node(G,1)
or
>>> node=G.get_node(1)
The node object is derived from a string and can be manipulated as such.
Each node has attributes that can be directly accessed through
the attr dictionary:
>>> node.attr['color']='red'
"""
def __new__(self, graph, name=None, nh=None):
if nh is not None:
n = super(Node, self).__new__(self, gv.agnameof(nh), graph.encoding)
else:
n = super(Node, self).__new__(self, name)
try:
nh = gv.agnode(graph.handle, n.encode(graph.encoding), _Action.find)
except KeyError:
raise KeyError("Node %s not in graph." % n)
n.ghandle = graph.handle
n.attr = ItemAttribute(nh, 1)
n.handle = nh
n.encoding = graph.encoding
return n
def get_handle(self):
"""Return pointer to graphviz node object."""
return gv.agnode(self.ghandle, self.encode(self.encoding), _Action.find)
# handle=property(get_handle)
def get_name(self):
name = gv.agnameof(self.handle)
if name is not None:
name = name.decode(self.encoding)
return name
name = property(get_name)
class Edge(tuple):
"""Edge object based on tuple.
If G is a graph
>>> G=AGraph()
then
>>> G.add_edge(1,2)
will add the edge 1-2 to the graph.
>>> edge=Edge(G,1,2)
or
>>> edge=G.get_edge(1,2)
will get the edge object.
An optional key can be used
>>> G.add_edge(2,3,'spam')
>>> edge=Edge(G,2,3,'spam')
The edge is represented as a tuple (u,v) or (u,v,key)
and can be manipulated as such.
Each edge has attributes that can be directly accessed through
the attr dictionary:
>>> edge.attr['color']='red'
"""
def __new__(self, graph, source=None, target=None, key=None, eh=None):
# edge handle given, reconstruct node object
if eh is not None:
(source, target) = (gv.agtail(eh), gv.aghead(eh))
s = Node(graph, nh=source)
t = Node(graph, nh=target)
# no edge handle, search for edge and construct object
else:
s = Node(graph, source)
t = Node(graph, target)
if key is not None:
if not is_string_like(key):
key = str(key)
key = key.encode(graph.encoding)
try:
eh = gv.agedge(graph.handle,
s.handle,
t.handle,
key,
_Action.find)
except KeyError:
raise KeyError("Edge %s-%s not in graph." % (source, target))
tp = tuple.__new__(self, (s, t))
tp.ghandle = graph.handle
tp.handle = eh
tp.attr = ItemAttribute(eh, 3)
tp.encoding = graph.encoding
return tp
def get_name(self):
name = gv.agnameof(self.handle)
if name is not None:
name = name.decode(self.encoding)
return name
name = property(get_name)
key = property(get_name)
class Attribute(MutableMapping):
"""Default attributes for graphs.
Assigned on initialization of AGraph class.
and manipulated through the class data.
>>> G=AGraph() # initialize, G.graph_attr, G.node_attr, G.edge_attr
>>> G.graph_attr['splines']='true'
>>> G.node_attr['shape']='circle'
>>> G.edge_attr['color']='red'
See
http://graphviz.org/doc/info/attrs.html
for a list of all attributes.
"""
# use for graph, node, and edge default attributes
# atype:graph=0, node=1,edge=3
def __init__(self, handle, atype):
self.handle = handle
self.type = atype
# get the encoding
ghandle = gv.agraphof(handle)
root_handle = gv.agroot(ghandle) # get root graph
try:
ah = gv.agattr(root_handle, 0, b'charset', None)
self.encoding = gv.agattrdefval(ah)
except KeyError:
self.encoding = _DEFAULT_ENCODING
def __setitem__(self, name, value):
if name == 'charset' and self.type == 0:
raise ValueError('Graph charset is immutable!')
if not is_string_like(value):
value = str(value)
ghandle = gv.agroot(self.handle) # get root graph
if ghandle == self.handle:
gv.agattr_label(self.handle, self.type,
name.encode(self.encoding),
value.encode(self.encoding))
else:
gv.agsafeset_label(ghandle, self.handle,
name.encode(self.encoding),
value.encode(self.encoding), b'')
def __getitem__(self, name):
item = gv.agget(self.handle, name.encode(self.encoding))
if item is None:
ah = gv.agattr(self.handle, self.type,
name.encode(self.encoding),
None)
item = gv.agattrdefval(ah)
return item.decode(self.encoding)
def __delitem__(self, name):
gv.agattr(self.handle, self.type, name.encode(self.encoding), b'')
def __contains__(self, name):
try:
self.__getitem__(name)
return True
except:
return False
def __len__(self):
return len(list(self.__iter__()))
def has_key(self, name):
return self.__contains__(name)
def keys(self):
return list(self.__iter__())
def __iter__(self):
for (k, v) in self.iteritems():
yield k
def iteritems(self):
ah = None
while True:
try:
ah = gv.agnxtattr(self.handle, self.type, ah)
yield (gv.agattrname(ah).decode(self.encoding),
gv.agattrdefval(ah).decode(self.encoding))
except KeyError: # gv.agattrdefval returned KeyError, skip
continue
class ItemAttribute(Attribute):
"""Attributes for individual nodes and edges.
Assigned on initialization of Node or Edge classes
and manipulated through the class data.
>>> G=AGraph()
>>> G.add_edge('a','b')
>>> n=Node(G,'a')
>>> n.attr['shape']='circle'
>>> e=Edge(G,'a','b')
>>> e.attr['color']='red'
See
http://graphviz.org/doc/info/attrs.html
for a list of all attributes.
"""
# use for individual item attributes - either a node or an edge
# graphs and default node and edge attributes use Attribute
def __init__(self, handle, atype):
self.handle = handle
self.type = atype
self.ghandle = gv.agraphof(handle)
# get the encoding
root_handle = gv.agroot(self.ghandle) # get root graph
try:
ah = gv.agattr(root_handle, 0, b'charset', None)
self.encoding = gv.agattrdefval(ah)
except KeyError:
self.encoding = _DEFAULT_ENCODING
def __setitem__(self, name, value):
if not is_string_like(value):
value = str(value)
if self.type == 1 and name == 'label':
default = '\\N'
else:
default = ''
gv.agsafeset_label(self.ghandle, self.handle,
name.encode(self.encoding),
value.encode(self.encoding),
default.encode(self.encoding))
def __getitem__(self, name):
val = gv.agget(self.handle, name.encode(self.encoding))
if val is not None:
val = val.decode(self.encoding)
return val
def __delitem__(self, name):
gv.agset(self.handle, name.encode(self.encoding), b'')
def iteritems(self):
ah = None
while 1:
try:
ah = gv.agnxtattr(self.ghandle, self.type, ah)
value = gv.agxget(self.handle, ah)
try:
defval = gv.agattrdefval(ah) # default value
if defval == value:
continue # don't report default
except: # no default, gv.getattrdefval raised error
pass
# unique value for this edge
yield (gv.agattrname(ah).decode(self.encoding),
value.decode(self.encoding))
except KeyError: # gv.agxget returned KeyError, skip
continue
def _test_suite():
import doctest
suite = doctest.DocFileSuite('tests/graph.txt',
'tests/attributes.txt',
'tests/layout_draw.txt',
'tests/subgraph.txt',
package='pygraphviz')
doctest.testmod() # test docstrings in module
return suite
if __name__ == "__main__":
import os
import sys
import unittest
if sys.version_info[:2] < (2, 4):
print("Python version 2.4 or later required for tests (%d.%d detected)." % sys.version_info[:2])
sys.exit(-1)
# directory of package (relative to this)
nxbase = sys.path[0] + os.sep + os.pardir
sys.path.insert(0, nxbase) # prepend to search path
unittest.TextTestRunner().run(_test_suite())
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