If you have (or can add) a link back to the parents, you can list all the parents the first time you encounter a node, then skip it on recurring visits. You have multiple options to keep track of whether a node has been visited:
maintain a set of visited nodes and check if the current one is in the set. If not, process it and add it to the set; otherwise skip.
Advantage: general approach
Disadvantage: might take a significant amount of memory to maintain the set if the graph is large
isVisited member value to the node (set to
false by default) and check it when encountering a node: if the value is
false, process the node and set
isVisited to true; otherwise skip.
Advantage: less additional memory
Disadvantage: intrusive, task-specific, the extra variable is there even when not needed, does not scale well for tasks that require multiple such "has-it-been-processed-yet" decisions simultaneously
If the parent-link option is not available, you can maintain the child-to-parent relationship in an extra map: you map from the child to the set of parents as you process the nodes. Once done with the initial processing (of building the map), you iterate the map and list each node and its parents.
The advantage over the direct parent links is that there is no extra maintenance when building/modifying the graph (unless you want to keep the mapping up-to-date as well)
The disadvantage is that you will have to re-build the map every time you want to process the graph after a series of modifications to the structure of the graph (unless -- see the note for adventage)
Note: traversing a general graph by traversing all the children can lead to infinite loops if there is a directed (parent-to-child) circle in the graph. I imagine this is not the case for your problem, but just to cover all bases: you can maintain a set of "visited" nodes as you process the graph. The discussion of the available options is identical to the one in the first ("link back to the parents") part