NetworkX

Source code for networkx.readwrite.graphml

"""
*******
GraphML
*******
Read and write graphs in GraphML format.

This implementation does not support mixed graphs (directed and unidirected
edges together), hyperedges, nested graphs, or ports.

"GraphML is a comprehensive and easy-to-use file format for graphs. It
consists of a language core to describe the structural properties of a
graph and a flexible extension mechanism to add application-specific
data. Its main features include support of

    * directed, undirected, and mixed graphs,
    * hypergraphs,
    * hierarchical graphs,
    * graphical representations,
    * references to external data,
    * application-specific attribute data, and
    * light-weight parsers.

Unlike many other file formats for graphs, GraphML does not use a
custom syntax. Instead, it is based on XML and hence ideally suited as
a common denominator for all kinds of services generating, archiving,
or processing graphs."

http://graphml.graphdrawing.org/

Format
------
GraphML is an XML format.  See
http://graphml.graphdrawing.org/specification.html for the specification and
http://graphml.graphdrawing.org/primer/graphml-primer.html
for examples.
"""
__author__ = """\n""".join(['Salim Fadhley',
                            'Aric Hagberg (hagberg@lanl.gov)'
                            ])

__all__ = ['write_graphml', 'read_graphml', 'generate_graphml',
           'parse_graphml', 'GraphMLWriter', 'GraphMLReader']

import networkx as nx
from networkx.utils import open_file, make_str
import warnings
try:
    from xml.etree.cElementTree import Element, ElementTree, tostring, fromstring
except ImportError:
    try:
        from xml.etree.ElementTree import Element, ElementTree, tostring, fromstring
    except ImportError:
        pass

@open_file(1,mode='wb')
[docs]def write_graphml(G, path, encoding='utf-8',prettyprint=True): """Write G in GraphML XML format to path Parameters ---------- G : graph A networkx graph path : file or string File or filename to write. Filenames ending in .gz or .bz2 will be compressed. encoding : string (optional) Encoding for text data. prettyprint : bool (optional) If True use line breaks and indenting in output XML. Examples -------- >>> G=nx.path_graph(4) >>> nx.write_graphml(G, "test.graphml") Notes ----- This implementation does not support mixed graphs (directed and unidirected edges together) hyperedges, nested graphs, or ports. """ writer = GraphMLWriter(encoding=encoding,prettyprint=prettyprint) writer.add_graph_element(G) writer.dump(path)
def generate_graphml(G, encoding='utf-8',prettyprint=True): """Generate GraphML lines for G Parameters ---------- G : graph A networkx graph encoding : string (optional) Encoding for text data. prettyprint : bool (optional) If True use line breaks and indenting in output XML. Examples -------- >>> G=nx.path_graph(4) >>> linefeed=chr(10) # linefeed=\n >>> s=linefeed.join(nx.generate_graphml(G)) # doctest: +SKIP >>> for line in nx.generate_graphml(G): # doctest: +SKIP ... print(line) Notes ----- This implementation does not support mixed graphs (directed and unidirected edges together) hyperedges, nested graphs, or ports. """ writer = GraphMLWriter(encoding=encoding,prettyprint=prettyprint) writer.add_graph_element(G) for line in str(writer).splitlines(): yield line @open_file(0,mode='rb')
[docs]def read_graphml(path,node_type=str): """Read graph in GraphML format from path. Parameters ---------- path : file or string File or filename to write. Filenames ending in .gz or .bz2 will be compressed. node_type: Python type (default: str) Convert node ids to this type Returns ------- graph: NetworkX graph If no parallel edges are found a Graph or DiGraph is returned. Otherwise a MultiGraph or MultiDiGraph is returned. Notes ----- This implementation does not support mixed graphs (directed and unidirected edges together), hypergraphs, nested graphs, or ports. For multigraphs the GraphML edge "id" will be used as the edge key. If not specified then they "key" attribute will be used. If there is no "key" attribute a default NetworkX multigraph edge key will be provided. Files with the yEd "yfiles" extension will can be read but the graphics information is discarded. yEd compressed files ("file.graphmlz" extension) can be read by renaming the file to "file.graphml.gz". """ reader = GraphMLReader(node_type=node_type) # need to check for multiple graphs glist=list(reader(path=path)) return glist[0]
def parse_graphml(graphml_string,node_type=str): """Read graph in GraphML format from string. Parameters ---------- graphml_string : string String containing graphml information (e.g., contents of a graphml file). node_type: Python type (default: str) Convert node ids to this type Returns ------- graph: NetworkX graph If no parallel edges are found a Graph or DiGraph is returned. Otherwise a MultiGraph or MultiDiGraph is returned. Examples -------- >>> G=nx.path_graph(4) >>> linefeed=chr(10) # linefeed=\n >>> s=linefeed.join(nx.generate_graphml(G)) >>> H=nx.parse_graphml(s) Notes ----- This implementation does not support mixed graphs (directed and unidirected edges together), hypergraphs, nested graphs, or ports. For multigraphs the GraphML edge "id" will be used as the edge key. If not specified then they "key" attribute will be used. If there is no "key" attribute a default NetworkX multigraph edge key will be provided. """ reader = GraphMLReader(node_type=node_type) # need to check for multiple graphs glist=list(reader(string=graphml_string)) return glist[0] class GraphML(object): NS_GRAPHML = "http://graphml.graphdrawing.org/xmlns" NS_XSI = "http://www.w3.org/2001/XMLSchema-instance" #xmlns:y="http://www.yworks.com/xml/graphml" NS_Y = "http://www.yworks.com/xml/graphml" SCHEMALOCATION = \ ' '.join(['http://graphml.graphdrawing.org/xmlns', 'http://graphml.graphdrawing.org/xmlns/1.0/graphml.xsd']) try: chr(12345) # Fails on Py!=3. unicode = str # Py3k's str is our unicode type long = int # Py3K's int is our long type except ValueError: # Python 2.x pass types=[(int,"integer"), # for Gephi GraphML bug (str,"yfiles"),(str,"string"), (unicode,"string"), (int,"int"), (long,"long"), (float,"float"), (float,"double"), (bool, "boolean")] xml_type = dict(types) python_type = dict(reversed(a) for a in types) convert_bool={'true':True,'false':False, 'True': True, 'False': False} class GraphMLWriter(GraphML): def __init__(self, graph=None, encoding="utf-8",prettyprint=True): try: import xml.etree.ElementTree except ImportError: raise ImportError('GraphML writer requires ' 'xml.elementtree.ElementTree') self.prettyprint=prettyprint self.encoding = encoding self.xml = Element("graphml", {'xmlns':self.NS_GRAPHML, 'xmlns:xsi':self.NS_XSI, 'xsi:schemaLocation':self.SCHEMALOCATION} ) self.keys={} if graph is not None: self.add_graph_element(graph) def __str__(self): if self.prettyprint: self.indent(self.xml) s=tostring(self.xml).decode(self.encoding) return s def get_key(self, name, attr_type, scope, default): keys_key = (name, attr_type, scope) try: return self.keys[keys_key] except KeyError: new_id = "d%i" % len(list(self.keys)) self.keys[keys_key] = new_id key_kwargs = {"id":new_id, "for":scope, "attr.name":name, "attr.type":attr_type} key_element=Element("key",**key_kwargs) # add subelement for data default value if present if default is not None: default_element=Element("default") default_element.text=make_str(default) key_element.append(default_element) self.xml.insert(0,key_element) return new_id def add_data(self, name, element_type, value, scope="all", default=None): """ Make a data element for an edge or a node. Keep a log of the type in the keys table. """ if element_type not in self.xml_type: raise nx.NetworkXError('GraphML writer does not support ' '%s as data values.'%element_type) key_id = self.get_key(name, self.xml_type[element_type], scope, default) data_element = Element("data", key=key_id) data_element.text = make_str(value) return data_element def add_attributes(self, scope, xml_obj, data, default): """Appends attributes to edges or nodes. """ for k,v in data.items(): default_value=default.get(k) obj=self.add_data(make_str(k), type(v), make_str(v), scope=scope, default=default_value) xml_obj.append(obj) def add_nodes(self, G, graph_element): for node,data in G.nodes_iter(data=True): node_element = Element("node", id = make_str(node)) default=G.graph.get('node_default',{}) self.add_attributes("node", node_element, data, default) graph_element.append(node_element) def add_edges(self, G, graph_element): if G.is_multigraph(): for u,v,key,data in G.edges_iter(data=True,keys=True): edge_element = Element("edge",source=make_str(u), target=make_str(v)) default=G.graph.get('edge_default',{}) self.add_attributes("edge", edge_element, data, default) self.add_attributes("edge", edge_element, {'key':key}, default) graph_element.append(edge_element) else: for u,v,data in G.edges_iter(data=True): edge_element = Element("edge",source=make_str(u), target=make_str(v)) default=G.graph.get('edge_default',{}) self.add_attributes("edge", edge_element, data, default) graph_element.append(edge_element) def add_graph_element(self, G): """ Serialize graph G in GraphML to the stream. """ if G.is_directed(): default_edge_type='directed' else: default_edge_type='undirected' graphid=G.graph.pop('id',None) if graphid is None: graph_element = Element("graph", edgedefault = default_edge_type) else: graph_element = Element("graph", edgedefault = default_edge_type, id=graphid) default={} data=dict((k,v) for (k,v) in G.graph.items() if k not in ['node_default','edge_default']) self.add_attributes("graph", graph_element, data, default) self.add_nodes(G,graph_element) self.add_edges(G,graph_element) self.xml.append(graph_element) def add_graphs(self, graph_list): """ Add many graphs to this GraphML document. """ for G in graph_list: self.add_graph_element(G) def dump(self, stream): if self.prettyprint: self.indent(self.xml) document = ElementTree(self.xml) header='<?xml version="1.0" encoding="%s"?>'%self.encoding stream.write(header.encode(self.encoding)) document.write(stream, encoding=self.encoding) def indent(self, elem, level=0): # in-place prettyprint formatter i = "\n" + level*" " if len(elem): if not elem.text or not elem.text.strip(): elem.text = i + " " if not elem.tail or not elem.tail.strip(): elem.tail = i for elem in elem: self.indent(elem, level+1) if not elem.tail or not elem.tail.strip(): elem.tail = i else: if level and (not elem.tail or not elem.tail.strip()): elem.tail = i class GraphMLReader(GraphML): """Read a GraphML document. Produces NetworkX graph objects. """ def __init__(self, node_type=str): try: import xml.etree.ElementTree except ImportError: raise ImportError('GraphML reader requires ' 'xml.elementtree.ElementTree') self.node_type=node_type self.multigraph=False # assume multigraph and test for parallel edges def __call__(self, path=None, string=None): if path is not None: self.xml = ElementTree(file=path) elif string is not None: self.xml = fromstring(string) else: raise ValueError("Must specify either 'path' or 'string' as kwarg.") (keys,defaults) = self.find_graphml_keys(self.xml) for g in self.xml.findall("{%s}graph" % self.NS_GRAPHML): yield self.make_graph(g, keys, defaults) def make_graph(self, graph_xml, graphml_keys, defaults): # set default graph type edgedefault = graph_xml.get("edgedefault", None) if edgedefault=='directed': G=nx.MultiDiGraph() else: G=nx.MultiGraph() # set defaults for graph attributes G.graph['node_default']={} G.graph['edge_default']={} for key_id,value in defaults.items(): key_for=graphml_keys[key_id]['for'] name=graphml_keys[key_id]['name'] python_type=graphml_keys[key_id]['type'] if key_for=='node': G.graph['node_default'].update({name:python_type(value)}) if key_for=='edge': G.graph['edge_default'].update({name:python_type(value)}) # hyperedges are not supported hyperedge=graph_xml.find("{%s}hyperedge" % self.NS_GRAPHML) if hyperedge is not None: raise nx.NetworkXError("GraphML reader does not support hyperedges") # add nodes for node_xml in graph_xml.findall("{%s}node" % self.NS_GRAPHML): self.add_node(G, node_xml, graphml_keys) # add edges for edge_xml in graph_xml.findall("{%s}edge" % self.NS_GRAPHML): self.add_edge(G, edge_xml, graphml_keys) # add graph data data = self.decode_data_elements(graphml_keys, graph_xml) G.graph.update(data) # switch to Graph or DiGraph if no parallel edges were found. if not self.multigraph: if G.is_directed(): return nx.DiGraph(G) else: return nx.Graph(G) else: return G def add_node(self, G, node_xml, graphml_keys): """Add a node to the graph. """ # warn on finding unsupported ports tag ports=node_xml.find("{%s}port" % self.NS_GRAPHML) if ports is not None: warnings.warn("GraphML port tag not supported.") # find the node by id and cast it to the appropriate type node_id = self.node_type(node_xml.get("id")) # get data/attributes for node data = self.decode_data_elements(graphml_keys, node_xml) G.add_node(node_id, data) def add_edge(self, G, edge_element, graphml_keys): """Add an edge to the graph. """ # warn on finding unsupported ports tag ports=edge_element.find("{%s}port" % self.NS_GRAPHML) if ports is not None: warnings.warn("GraphML port tag not supported.") # raise error if we find mixed directed and undirected edges directed = edge_element.get("directed") if G.is_directed() and directed=='false': raise nx.NetworkXError(\ "directed=false edge found in directed graph.") if (not G.is_directed()) and directed=='true': raise nx.NetworkXError(\ "directed=true edge found in undirected graph.") source = self.node_type(edge_element.get("source")) target = self.node_type(edge_element.get("target")) data = self.decode_data_elements(graphml_keys, edge_element) # GraphML stores edge ids as an attribute # NetworkX uses them as keys in multigraphs too if no key # attribute is specified edge_id = edge_element.get("id") if edge_id: data["id"] = edge_id if G.has_edge(source,target): # mark this as a multigraph self.multigraph=True if edge_id is None: # no id specified, try using 'key' attribute as id edge_id=data.pop('key',None) G.add_edge(source, target, key=edge_id, **data) def decode_data_elements(self, graphml_keys, obj_xml): """Use the key information to decode the data XML if present.""" data = {} for data_element in obj_xml.findall("{%s}data" % self.NS_GRAPHML): key = data_element.get("key") try: data_name=graphml_keys[key]['name'] data_type=graphml_keys[key]['type'] except KeyError: raise nx.NetworkXError("Bad GraphML data: no key %s"%key) text=data_element.text # assume anything with subelements is a yfiles extension if text is not None and len(list(data_element))==0: if data_type==bool: data[data_name] = self.convert_bool[text] else: data[data_name] = data_type(text) elif len(list(data_element)) > 0: # Assume yfiles as subelements, try to extract node_label node_label = None for node_type in ['ShapeNode', 'SVGNode', 'ImageNode']: geometry = data_element.find("{%s}%s/{%s}Geometry" % (self.NS_Y, node_type, self.NS_Y)) if geometry is not None: data['x'] = geometry.get('x') data['y'] = geometry.get('y') if node_label is None: node_label = data_element.find("{%s}%s/{%s}NodeLabel" % (self.NS_Y, node_type, self.NS_Y)) if node_label is not None: data['label'] = node_label.text # check all the diffrent types of edges avaivable in yEd. for e in ['PolyLineEdge', 'SplineEdge', 'QuadCurveEdge', 'BezierEdge', 'ArcEdge']: edge_label = data_element.find("{%s}%s/{%s}EdgeLabel"% (self.NS_Y, e, (self.NS_Y))) if edge_label is not None: break if edge_label is not None: data['label'] = edge_label.text return data def find_graphml_keys(self, graph_element): """Extracts all the keys and key defaults from the xml. """ graphml_keys = {} graphml_key_defaults = {} for k in graph_element.findall("{%s}key" % self.NS_GRAPHML): attr_id = k.get("id") attr_type=k.get('attr.type') attr_name=k.get("attr.name") yfiles_type=k.get("yfiles.type") if yfiles_type is not None: attr_name = yfiles_type attr_type = 'yfiles' if attr_type is None: attr_type = "string" warnings.warn("No key type for id %s. Using string"%attr_id) if attr_name is None: raise nx.NetworkXError("Unknown key for id %s in file."%attr_id) graphml_keys[attr_id] = { "name":attr_name, "type":self.python_type[attr_type], "for":k.get("for")} # check for "default" subelement of key element default=k.find("{%s}default" % self.NS_GRAPHML) if default is not None: graphml_key_defaults[attr_id]=default.text return graphml_keys,graphml_key_defaults # fixture for nose tests def setup_module(module): from nose import SkipTest try: import xml.etree.ElementTree except: raise SkipTest("xml.etree.ElementTree not available") # fixture for nose tests def teardown_module(module): import os try: os.unlink('test.graphml') except: pass