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Apologies if this is an obvious error--I'm a Python newbie. Anyways, I'm working with the NetworkX package in Python to generate a sequence of graphs. Essentially what I'm doing is growing a graph up to "n" vertices by preferential attachment, but saving each "slice" as it goes along. My code looks like this:

# function to generate a sequence of barabasi-albert random graphs
import networkx as nx

def pa_graph_seq(n, m, c=0, G=None, seed=None, seq=True):

    # Note: seq = True means function returns a list of
    #       networkx graph objects. Otherwise returns the
    #       graph from the final time slice

    # Some preliminary checks
    if m<1 or m>=n:
        raise nx.NetworkXError(\
            "BA network must have m>=1 and m<n, m=%d,n=%d"%(m,n))
    if seed is not None:
        random.seed(seed)
    if G is not None and len(G) >= n:
        raise nx.NetworkXError(\
             "G must have strictly less than n nodes")

    # If initial graph was not specified, initialize empty graph
    if G==None: G = nx.MultiGraph()

    # If seq==True, initialize the list with the initial graph
    if seq==True: Gseq = [G]

    # Grow the graph
    step = len(G)+1
    while step <= n:
        # Add a single node
        G.add_node(1)

        # Add edges
        for i in range(m):
            # Get degree sequence of current graph
            deg = nx.degree(G)
            d = deg.values()       

            # Increment degree of new node by 1
            d[len(d)-1] = d[len(d)-1]+1        

            # Sample node and attach edge           
            newnode = deg_sample(d,c)
            G.add_edge(step,deg_sample(d,c))

        # If seq==True, append onto Gseq
        if seq==True: Gseq.append(G)

        step += 1

    # Next loop for debugging only
    for i in range(len(Gseq)):
        print nx.nodes(Gseq[i])

    if seq == True:
        return Gseq
    else:
        return G

The weird problem I'm running up to is that the final Gseq list seems to consist of just n copies of the final graph. For example, the output in the small debugging loop (# Next loop for...) looks like:

[1, 2, 3, 4, 5]
[1, 2, 3, 4, 5]
[1, 2, 3, 4, 5]
[1, 2, 3, 4, 5]
[1, 2, 3, 4, 5]
[1, 2, 3, 4, 5]

Whereas really the first element should have length 0, the second element has length 1, etc... (since we add one node each time, according to preferential attachment). Is it obviously to anyone what error I am making here? I have confirmed that if I just add a print nx.nodes(G) inside the main for loop, then the output looks how I want it to...

Thanks for all your help and patience!

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To me, the problem seems to be that you're always working on the G graph. This means, that you're appending always the same graph to Gseq. What you should do, in each loop, is to instantiate a new graph that is the copy of G (like H=G.copy()) and then append this new graph to the list (Gseq.append(H)) –  markusian Apr 19 at 22:14
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1 Answer 1

up vote 1 down vote accepted

The code only appends a reference of G to GSeq and not actually append a new graph object. To get the behavior you want put if G==None: G = nx.MultiGraph() in the main loop.

For a better understanding of how python handles data read up on mutable vs immutable.

@markusian has the right idea I think. MultiGraph has a copy method that should get you the behavior you are looking for. Try something like

if seq==True: Gseq.append(G.copy())
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In the sense you're using "pass by reference" (which often only confuses discussions of Python's), "simple" python objects are passed by reference too. Try passing ints and floats to a function, for example, and compare id(i) and id(f) outside the function and inside it. –  DSM Apr 19 at 22:43
    
Hi John, thanks for this. I see what you mean. I read the thread you linked to, but it doesn't seem to really hit at the "pass by reference" thing you mentioned. I can implement the fix you suggested, but it involves moving a lot of other things around. Is there really no way to coerce Python into appending the actual graph object rather than just a reference? –  gogurt Apr 20 at 1:54
    
@gogurt, as DSM pointed out my use of the term "pass by reference" is misleading, better to think of it in terms of mutability vs immutability (i.e. objects that don't get new references when changed vs those that do). I've also made some edits to my answer, that should get the expected behavior. –  John Apr 20 at 6:28
    
@John: Thanks so much! That makes a lot of sense that it's now appending a "new" graph copy instead of just a reference to the existing graph G. Appreciate you sticking with me. –  gogurt Apr 20 at 20:24
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