einarr
a45743c31e
- Navigator - Aplication - Workflow - Project - Options Corresponding changes have been added in lots of other files to account for this, but the access to these objects should now be a lot easier.
262 lines
7.2 KiB
Python
262 lines
7.2 KiB
Python
import gobject
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import gtk
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import networkx
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import re
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class GOTerm:
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def __init__(self):
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self.d = {}
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## Create empty lists for all list values
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for l in GOTerm.lists:
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self.d[l] = []
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for s in GOTerm.scalars:
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self.d[l] = None
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def __getitem__(self, key):
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if self.d.has_key(key):
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return self.d[key]
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return None
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def __setitem__(self, key, value):
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self.d[key] = value
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GOTerm.lists = ['is_a', 'alt_id', 'exact_synonym', 'broad_synonym',
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'narrow_synonym', 'related_synonym', 'relationship',
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'subset', 'synonym', 'xref_analog', 'xref_unknown']
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GOTerm.scalars = ['name', 'id', 'namespace', 'def', 'is_transitive',
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'comment', 'is_obsolete']
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class GeneOntology(networkx.XDiGraph):
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def __init__(self):
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networkx.XDiGraph.__init__(self)
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self.by_id = {}
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self.undirected = None
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def add_term(self, term):
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self.add_node(term)
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self.by_id[term['id']] = term
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def link_ontology(self, linkattr, obsolete=False):
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for node in self.nodes():
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for link in node[linkattr]:
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self.add_edge(self.by_id[link], node, linkattr)
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def link_relationships(self):
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for node in self.nodes():
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for link in node['relationship']:
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link_type, term = link.split(' ')
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self.add_edge(self.by_id[term.strip()], node, link_type.strip())
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def get_bp(self):
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"""Returns the root node of the biological_process tree"""
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return self.by_id['GO:0008150']
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def get_cc(self):
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"""Returns the root node of the cellular_component tree"""
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return self.by_id['id: GO:0005575']
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def get_mf(self):
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"""Returns the root node of the molecular_function tree"""
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return self.by_id['GO:0003674']
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def _subsumer(self, t1, t2, heap):
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while heap != []:
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t = heap[0]
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heap = heap[1:]
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p1 = networkx.shortest_path(self, t, t1)
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p2 = networkx.shortest_path(self, t, t2)
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if p1 and p2:
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return t
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heap += self.in_neighbors(t)
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return None
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def subsumer(self, t1, t2):
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if t1 == t2:
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return t1
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if networkx.shortest_path(self, t1, t2):
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return t1
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elif networkx.shortest_path(self, t2, t1):
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return t2
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return self._subsumer(t1, t2, self.in_neighbors(t1))
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def old_subsumer(self, t1, t2):
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if t1 == t2:
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return t1
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if self.undirected == None:
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self.undirected = self.to_undirected()
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path = networkx.shortest_path(self.undirected, t1, t2)
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if not path:
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print "Woah, path not found."
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return None
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if path == [1]:
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print "This shouldn't happen"
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return t1
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for t in path:
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if networkx.shortest_path(self, t, t1) and \
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networkx.shortest_path(self, t, t2):
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return t
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print "GeneOntology.subsumer: should not reach this point"
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print "path is now: %s" % path
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print "ids are: %s " % [x['id'] for x in path]
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def _split_obo_line(line):
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"""Splits a line from an obo file in its three constituent parts.
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@param line: A string containing a line from an obo file. The line must
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either be a section definition field with a section name in brackets
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or a line of the form: keyword: value ! comment
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@returns: A tuple of four strings conaining the section, key, value and
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description defined in the string. If the section part is None, all
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the other fields are strings and if section is a string, all the other
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fields are None.
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"""
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attrib_re = re.compile(r'^\s*([\w-]+)\s*:\s*([^!]*)!?(.*$)')
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s = line.strip()
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if s == "":
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return (None, None, None, None)
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elif s.startswith('[') and s.endswith(']'):
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return (s[1:-1], None, None, None)
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else:
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m = attrib_re.match(s)
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if m:
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key, value, comment = [x.strip() for x in m.groups()]
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return (None, key, value, comment)
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else:
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raise Exception('Unparsable line: %s' % line)
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def _add_term_attribute(term, key, value, comment):
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if key in GOTerm.scalars:
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term[key] = value
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elif key in GOTerm.lists:
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term[key].append(value)
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else:
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raise Exception('Unknown key %s: %s' % (key, value))
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def read_gene_ontology(fd):
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"""Reads the Gene Ontology from an obo file.
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@param fd: An open file object to the obo file.
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"""
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go = GeneOntology()
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term = None
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section = None
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line = fd.readline()
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while line:
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s, k, v, c = _split_obo_line(line)
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if s == None and k == None:
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pass
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elif s:
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if term:
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go.add_term(term)
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section = s
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if s == 'Term':
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term = GOTerm()
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else:
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term = None
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print "ignoring: %s" %s
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else:
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if term:
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_add_term_attribute(term, k, v, c)
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line = fd.readline()
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if term:
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go.add_term(term)
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return go
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def pickle_gene_ontology(go, fn):
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fd = open(fn, 'wb')
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pickle.dump(go, fd)
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fd.close()
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def load_pickled_ontology(fn):
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fd = open(fn, 'rb')
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go = pickle.load(fd)
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fd.close()
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return go
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def read_default_go():
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f = open("/usr/share/gene-ontology/gene_ontology.obo")
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go = read_gene_ontology(f)
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go.link_ontology('is_a')
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go.link_relationships()
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f.close()
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return go
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def _add_subgraphs(treestore, ontology, parent, nodes):
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for n in nodes:
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i = treestore.insert(parent, 0, (n['id'], n['name'], False, n))
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_add_subgraphs(treestore, ontology, i, ontology.successors(n))
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def get_go_treestore(ontology):
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ts = gtk.TreeStore(gobject.TYPE_STRING, ## ID
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gobject.TYPE_STRING, ## Name
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gobject.TYPE_BOOLEAN, ## Selected
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gobject.TYPE_PYOBJECT) ## Node
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_add_subgraphs(ts, ontology, None, [ontology.get_bp()])
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return ts
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class NetworkTreeModel(gtk.GenericTreeModel):
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def __init__(self, network, root):
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gtk.GenericTreeModel.__init__(self)
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self._network = network
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self._root = root
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def on_get_flags(self):
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return 0
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def on_get_n_columns(self):
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return 1
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def on_get_column_type(self, index):
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if index==0:
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return gobject.TYPE_STRING
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def on_get_iter(self, path):
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node = self._root
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for p in path[1:]:
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children = self._network.predecessors(node)
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node = children[p]
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return node
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def on_get_path(self, rowref):
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pass
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def on_get_value(self, rowref, column):
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print 'get_value'
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return rowref['id']
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def on_iter_next(self, rowref):
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pass
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def on_iter_children(self, parent):
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pass
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def on_iter_has_child(self, rowref):
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pass
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def on_iter_n_children(self, rowref):
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pass
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def on_iter_nth_child(self, parent, n):
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pass
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def on_iter_parent(self, child):
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pass
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