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# copyright 2003-2010 LOGILAB S.A. (Paris, FRANCE), all rights reserved.
# contact http://www.logilab.fr/ -- mailto:contact@logilab.fr
#
# This file is part of logilab-common.
#
# logilab-common is free software: you can redistribute it and/or modify it under
# the terms of the GNU Lesser General Public License as published by the Free
# Software Foundation, either version 2.1 of the License, or (at your option) any
# later version.
#
# logilab-common is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
# details.
#
# You should have received a copy of the GNU Lesser General Public License along
# with Foobar. If not, see <http://www.gnu.org/licenses/>.
"""Graph manipulation utilities.
(dot generation adapted from pypy/translator/tool/make_dot.py)
"""
__docformat__ = "restructuredtext en"
__metaclass__ = type
import os.path as osp
import os
import subprocess
import sys
import tempfile
def escape(value):
"""Make <value> usable in a dot file."""
lines = [line.replace('"', '\\"') for line in value.split('\n')]
data = '\\l'.join(lines)
return '\\n' + data
def target_info_from_filename(filename):
"""Transforms /some/path/foo.png into ('/some/path', 'foo.png', 'png')."""
basename = osp.basename(filename)
storedir = osp.dirname(osp.abspath(filename))
target = filename.split('.')[-1]
return storedir, basename, target
class DotBackend:
"""Dot File backend."""
def __init__(self, graphname, rankdir=None, size=None, ratio=None,
charset='utf-8', renderer='dot', additionnal_param={}):
self.graphname = graphname
self.renderer = renderer
self.lines = []
self._source = None
self.emit("digraph %s {" % normalize_node_id(graphname))
if rankdir:
self.emit('rankdir=%s' % rankdir)
if ratio:
self.emit('ratio=%s' % ratio)
if size:
self.emit('size="%s"' % size)
if charset:
assert charset.lower() in ('utf-8', 'iso-8859-1', 'latin1'), \
'unsupported charset %s' % charset
self.emit('charset="%s"' % charset)
for param in additionnal_param.iteritems():
self.emit('='.join(param))
def get_source(self):
"""returns self._source"""
if self._source is None:
self.emit("}\n")
self._source = '\n'.join(self.lines)
del self.lines
return self._source
source = property(get_source)
def generate(self, outputfile=None, dotfile=None, mapfile=None):
"""Generates a graph file.
:param outputfile: filename and path [defaults to graphname.png]
:param dotfile: filename and path [defaults to graphname.dot]
:rtype: str
:return: a path to the generated file
"""
name = self.graphname
if not dotfile:
# if 'outputfile' is a dot file use it as 'dotfile'
if outputfile and outputfile.endswith(".dot"):
dotfile = outputfile
else:
dotfile = '%s.dot' % name
if outputfile is not None:
storedir, basename, target = target_info_from_filename(outputfile)
if target != "dot":
pdot, dot_sourcepath = tempfile.mkstemp(".dot", name)
os.close(pdot)
else:
dot_sourcepath = osp.join(storedir, dotfile)
else:
target = 'png'
pdot, dot_sourcepath = tempfile.mkstemp(".dot", name)
ppng, outputfile = tempfile.mkstemp(".png", name)
os.close(pdot)
os.close(ppng)
pdot = open(dot_sourcepath,'w')
if isinstance(self.source, unicode):
pdot.write(self.source.encode('UTF8'))
else:
pdot.write(self.source)
pdot.close()
if target != 'dot':
if mapfile:
subprocess.call('%s -Tcmapx -o%s -T%s %s -o%s' % (self.renderer, mapfile,
target, dot_sourcepath, outputfile), shell=True)
else:
subprocess.call('%s -T%s %s -o%s' % (self.renderer, target,
dot_sourcepath, outputfile), shell=True)
os.unlink(dot_sourcepath)
return outputfile
def emit(self, line):
"""Adds <line> to final output."""
self.lines.append(line)
def emit_edge(self, name1, name2, **props):
"""emit an edge from <name1> to <name2>.
edge properties: see http://www.graphviz.org/doc/info/attrs.html
"""
attrs = ['%s="%s"' % (prop, value) for prop, value in props.items()]
n_from, n_to = normalize_node_id(name1), normalize_node_id(name2)
self.emit('%s -> %s [%s];' % (n_from, n_to, ", ".join(attrs)) )
def emit_node(self, name, **props):
"""emit a node with given properties.
node properties: see http://www.graphviz.org/doc/info/attrs.html
"""
attrs = ['%s="%s"' % (prop, value) for prop, value in props.items()]
self.emit('%s [%s];' % (normalize_node_id(name), ", ".join(attrs)))
def normalize_node_id(nid):
"""Returns a suitable DOT node id for `nid`."""
return '"%s"' % nid
class GraphGenerator:
def __init__(self, backend):
# the backend is responsible to output the graph in a particular format
self.backend = backend
def generate(self, visitor, propshdlr, outputfile=None, mapfile=None):
# the visitor
# the property handler is used to get node and edge properties
# according to the graph and to the backend
self.propshdlr = propshdlr
for nodeid, node in visitor.nodes():
props = propshdlr.node_properties(node)
self.backend.emit_node(nodeid, **props)
for subjnode, objnode, edge in visitor.edges():
props = propshdlr.edge_properties(edge, subjnode, objnode)
self.backend.emit_edge(subjnode, objnode, **props)
return self.backend.generate(outputfile=outputfile, mapfile=mapfile)
class UnorderableGraph(Exception):
def __init__(self, cycles):
self.cycles = cycles
def __str__(self):
return 'cycles in graph: %s' % self.cycles
def ordered_nodes(graph):
"""takes a dependency graph dict as arguments and return an ordered tuple of
nodes starting with nodes without dependencies and up to the outermost node.
If there is some cycle in the graph, :exc:`UnorderableGraph` will be raised.
Also the given graph dict will be emptied.
"""
cycles = get_cycles(graph)
if cycles:
cycles = '\n'.join(' -> '.join(cycle) for cycle in cycles)
raise UnorderableGraph(cycles)
ordered = []
while graph:
# sorted to get predictable results
for node, deps in sorted(graph.items()):
if not deps:
ordered.append(node)
del graph[node]
for deps in graph.itervalues():
try:
deps.remove(node)
except KeyError:
continue
return tuple(reversed(ordered))
def get_cycles(graph_dict, vertices=None):
'''given a dictionary representing an ordered graph (i.e. key are vertices
and values is a list of destination vertices representing edges), return a
list of detected cycles
'''
if not graph_dict:
return ()
result = []
if vertices is None:
vertices = graph_dict.keys()
for vertice in vertices:
_get_cycles(graph_dict, vertice, [], result)
return result
def _get_cycles(graph_dict, vertice=None, path=None, result=None):
"""recursive function doing the real work for get_cycles"""
if vertice in path:
cycle = [vertice]
for node in path[::-1]:
if node == vertice:
break
cycle.insert(0, node)
# make a canonical representation
start_from = min(cycle)
index = cycle.index(start_from)
cycle = cycle[index:] + cycle[0:index]
# append it to result if not already in
if not cycle in result:
result.append(cycle)
return
path.append(vertice)
try:
for node in graph_dict[vertice]:
_get_cycles(graph_dict, node, path, result)
except KeyError:
pass
path.pop()
def has_path(graph_dict, fromnode, tonode, path=None):
"""generic function taking a simple graph definition as a dictionary, with
node has key associated to a list of nodes directly reachable from it.
Return None if no path exists to go from `fromnode` to `tonode`, else the
first path found (as a list including the destination node at last)
"""
if path is None:
path = []
elif fromnode in path:
return None
path.append(fromnode)
for destnode in graph_dict[fromnode]:
if destnode == tonode or has_path(graph_dict, destnode, tonode, path):
return path[1:] + [tonode]
path.pop()
return None
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