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Hello I understand the concepts of adjacency list and matrix but I am confused as to how to implement them in Python:

An algorithm to achieve the following two examples achieve but without knowing the input from the start as they hard code it in their examples:

For adjacency list:

    a, b, c, d, e, f, g, h = range(8) 
    N = [ 
     {b:2, c:1, d:3, e:9, f:4},    # a 
     {c:4, e:3},                   # b 
     {d:8},                        # c 
     {e:7},                        # d 
     {f:5},                        # e 
     {c:2, g:2, h:2},              # f 
     {f:1, h:6},                   # g 
     {f:9, g:8}                    # h 

For adjacency matrix:

    a, b, c, d, e, f, g, h = range(8) 
    _ = float('inf') 
    #     a b c d e f g h
    W = [[0,2,1,3,9,4,_,_], # a 
        [_,0,4,_,3,_,_,_], # b 
        [_,_,0,8,_,_,_,_], # c 
        [_,_,_,0,7,_,_,_], # d 
        [_,_,_,_,0,5,_,_], # e 
        [_,_,2,_,_,0,2,2], # f 
        [_,_,_,_,_,1,0,6], # g 
        [_,_,_,_,_,9,8,0]] # h

Again any help will be much appreciated, Thank you!

share|improve this question
"Without knowing the input" <-- can you elaborate on this statement? – tommy.carstensen Nov 25 '12 at 0:41
For example I know that there is going to be an input in order to create the adjacency list or matrix but I don't know what the inputs are going to be, so basically in order to have an algorithm in which whenever I have an input of vertices and edges to creates the adjacency list or matrix... – Baraa Nov 25 '12 at 0:44
What does an infinity represent in an adjacency matrix? – Eric Nov 25 '12 at 0:50
That is just an example of it amounting to infinity for a missing edge, you can disregard that and think of it as it representing no edge. – Baraa Nov 25 '12 at 0:54
Ok, so what does a 0 represent? To me, it seems you have them the wrong way around. – Eric Nov 25 '12 at 0:55
up vote 3 down vote accepted


edges = [('a', 'b'), ('a', 'b'), ('a', 'c')]

Here's some code for the matrix:

from collections import defaultdict

matrix = defaultdict(int)
for edge in edges:
    matrix[edge] += 1

print matrix['a', 'b']

And for the "list":

from collections import defaultdict

adj_list = defaultdict(lambda: defaultdict(lambda: 0))
for start, end in edges:
    adj_list[start][end] += 1

print adj_list['a']
{'c': 1, 'b': 2}
share|improve this answer
Two of you have mentioned the defaultdict, and as I am new to Python I am not sure exactly what that means care to share some input on that? Thanks for the examples though they will help! – Baraa Nov 25 '12 at 1:25
@user1748026 The defaultdict type works just like a dictionary, but you provide it with a "factory function" when you set it up. Then, if you access a key that doesn't exist, it will call the factory function to create a default value for that key. – Blckknght Nov 25 '12 at 2:12
@Eric: I like your tuple index based solution for the matrix. For the list version, you can use int as the factory function for your inner defaultdict, rather than another lambda function. – Blckknght Nov 25 '12 at 2:16

Setting up your data structures can be pretty simple. For instance, the adjacency list example can be implemented using a defaultdict like this:

from collections import defaultdict

N = defaultdict(dict)

Then when you start getting input, just do N[start][end] = weight for each inputted edge. The set of nodes will be a little more tricky to come by, if you have some nodes with no outbound edges (you'll need to union the keys of the inner dictionaries with the outer one to be sure you have them all). But a lot of algorithms will work correctly even without a complete node list.

The adjacency matrix is a little more complicated, since you need to know the number of nodes there are in order to set its dimensions correctly. If you know it ahead of time, then its easy:

number_of_nodes = 8
_ = float("inf")

N = [[_]*number_of_nodes for i in number_of_nodes]

If you don't, you'll probably want to scan over the edges you get as input to find the highest numbered node, then use the same code above to make the matrix. For instance, if your edges are provided as a list of (start, end, weight) 3-tuples, you can use this:

number_of_nodes = max(max(start, end) for start, end, weight in edges)
share|improve this answer
Thank you for your input, it seems there is a lot more I need to learn when it comes to ways you can code things in python, things like number_of_nodes = max(max(start, end) for start, end, weight in edges), thanks for the input and I am going to try to work with some of the things you have provided! – Baraa Nov 25 '12 at 1:11

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