# Find incident edges of given vertex in a directed graph using Python iterator

I am writing a class to find the incident edges of a given vertex in a directed graph. The class uses an iterator to traverse the adjacency lists in the graph. However, I am having trouble returning the result in a correct format. Currently, I use a list `found` to determine if a given edge is an incident edge to the vertex under consideration. This approach gives the correct result, but I would like to avoid having the `next` method returning a list and instead return `self.ptr.data` (currently commented out).

`class IncidentDirectedEdgeIterator(IncidentEdgeIterator):`

``````"""
The interface of an incident directed edge iterator data structure.
"""

def __init__( self, graph, index ):
"""
Constructs an incident edge iterator for the specified graph.

@param graph: The graph including the incident edges.
@type: L{Graph}
@param index: The index specifying the vertex of the incident edges.
@type: C{int}
"""
super(IncidentDirectedEdgeIterator, self).__init__( graph, index )
self.ptr = None
self.graph = graph

def next( self ):
"""
Returns the next incident edge in the graph. If there are no
further edges, the StopIteration exception is raised.

@raises: StopIteration if all incident edges have been enumerated.
@type: C{StopIteration}
@return: The next incident edge in the graph.
@rtype: C{object}
"""
found = []
if self.ptr is None:
i = 0
while i >= 0 and i < self.graph.getNumberOfVertices():
while ptr is not None:
if self.index == ptr.data.getV1().getVertexNumber():
if ptr not in found:
found.append( ptr )
self.ptr = ptr
ptr = ptr.next
i += 1
else:
self.ptr = self.ptr.next
if self.ptr is None:
raise StopIteration
if len( found ) == 0:
raise StopIteration
#return self.ptr.data
return found
``````

Using the `found` list is rather ugly and I would like to avoid it completely. Suggestions is much appreciated.

Using a generator function instead of the iterator class:

``````def generatorTest( self, index ):
i = 0
while i >= 0 and i < self.getNumberOfVertices():
while ptr is not None:
if index == ptr.data.getV1().getVertexNumber():
yield ptr
ptr = ptr.next
i += 1
``````
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