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My input is a list of lists. Some of them share common elements, eg.

L = [['a','b','c'],['b','d','e'],['k'],['o','p'],['e','f'],['p','a'],['d','g']]

I need to merge all lists, that share a common element, and repeat this procedure as long as there are no more lists with the same item. I thought about using boolean operations and a while loop, but couldn't come up with a good solution.

The final result should be:

L = [['a','b','c','d','e','f','g','o','p'],['k']] 
share|improve this question
What do you mean by merge? Union? Can you show the result you expect for your example data? – Mark Byers Jan 30 '11 at 11:23
In your sample, would you stop when you encounter [k]? Or do you go through all your lists? – sarnold Jan 30 '11 at 11:23
what about the list [[a, b, c], [b, d, e], [d, f, g]]. Should that all be merged down to one list? the first and last lists don't have an element in common. – aaronasterling Jan 30 '11 at 11:28
Either way, complexity will be at best expotential (likely worse). How about using sets instead to make at least the check for common elements fast? – delnan Jan 30 '11 at 11:58
You go through the whole list once, joining all lists that have a common element (if bool(set(A) & set(B)) == True). After that you check again and again as long as you cannot join the remaining list. If there is a list with no common elements to other lists, we keep it as it is. – Wistful Jesus Jan 30 '11 at 12:13

You can see your list as a notation for a Graph, ie ['a','b','c'] is a graph with 3 nodes connected to each other. The problem you are trying to solve is finding connected components in this graph.

You can use NetworkX for this, which has the advantage that it's pretty much guaranteed to be correct:

l = [['a','b','c'],['b','d','e'],['k'],['o','p'],['e','f'],['p','a'],['d','g']]

import networkx 
from networkx.algorithms.components.connected import connected_components

def to_graph(l):
    G = networkx.Graph()
    for part in l:
        # each sublist is a bunch of nodes
        # it also imlies a number of edges:
    return G

def to_edges(l):
        treat `l` as a Graph and returns it's edges 
        to_edges(['a','b','c','d']) -> [(a,b), (b,c),(c,d)]
    it = iter(l)
    last = next(it)

    for current in it:
        yield last, current
        last = current    

G = to_graph(l)
print connected_components(G)
# prints [['a', 'c', 'b', 'e', 'd', 'g', 'f', 'o', 'p'], ['k']]

To solve this efficiently yourself you have to convert the list into something graph-ish anyways, so you might as well use networkX from the start.

share|improve this answer
Actually I need this to create graphs afterwards. – Wistful Jesus Jan 30 '11 at 17:25
@Wistful Jesus: All the more reason to use the library. – Jochen Ritzel Jan 30 '11 at 18:24
Cool answer. As a small suggestion to make it even shorter, the to_edges function could be replaced by izip(part[:-1], part[1:]). – mtth Feb 17 '13 at 2:03


  1. take first set A from list
  2. for each other set B in the list do if B has common element(s) with A join B into A; remove B from list
  3. repeat 2. until no more overlap with A
  4. put A into outpup
  5. repeat 1. with rest of list

So you might want to use sets instead of list. The following program should do it.

l = [['a', 'b', 'c'], ['b', 'd', 'e'], ['k'], ['o', 'p'], ['e', 'f'], ['p', 'a'], ['d', 'g']]

out = []
while len(l)>0:
    first, *rest = l
    first = set(first)

    lf = -1
    while len(first)>lf:
        lf = len(first)

        rest2 = []
        for r in rest:
            if len(first.intersection(set(r)))>0:
                first |= set(r)
        rest = rest2

    l = rest

share|improve this answer
I like this answer. To me, the question feels like a set problem. One small point: the elegant first, *rest = l construct is Python 3 only, swapping it with first, rest = l[0], l[1:] seems to work fine on python 2.7 – Simon Whitaker Jan 30 '11 at 14:32

I came across the same issue of trying to merge down lists with common values. This example may be what you are looking for. It only loops over lists once and updates resultset as it goes.

lists = [['a','b','c'],['b','d','e'],['k'],['o','p'],['e','f'],['p','a'],['d','g']]
lists = sorted([sorted(x) for x in lists]) #Sorts lists in place so you dont miss things. Trust me, needs to be done.

resultslist = [] #Create the empty result list.

if len(lists) >= 1: # If your list is empty then you dont need to do anything.
    resultlist = [lists[0]] #Add the first item to your resultset
    if len(lists) > 1: #If there is only one list in your list then you dont need to do anything.
        for l in lists[1:]: #Loop through lists starting at list 1
            listset = set(l) #Turn you list into a set
            merged = False #Trigger
            for index in range(len(resultlist)): #Use indexes of the list for speed.
                rset = set(resultlist[index]) #Get list from you resultset as a set
                if len(listset & rset) != 0: #If listset and rset have a common value then the len will be greater than 1
                    resultlist[index] = list(listset | rset) #Update the resultlist with the updated union of listset and rset
                    merged = True #Turn trigger to True
                    break #Because you found a match there is no need to continue the for loop.
            if not merged: #If there was no match then add the list to the resultset, so it doesnt get left out.
print resultlist


resultset = [['a', 'b', 'c', 'd', 'e', 'g', 'f', 'o', 'p'], ['k']]
share|improve this answer

I think this can be solved by modelling the problem as a graph. Each sublist is a node and shares an edge with another node only if the two sublists have some element in common. Thus, a merged sublist is basically a connected component in the graph. Merging all of them is simply a matter of finding all connected components and listing them.

This can be done by a simple traversal over the graph. Both BFS and DFS can be used, but I'm using DFS here since it is somewhat shorter for me.

l = [['a','b','c'],['b','d','e'],['k'],['o','p'],['e','f'],['p','a'],['d','g']]

def dfs(node,index):
    for i,item in enumerate(l):
        if not taken[i] and not ret.isdisjoint(item):
    return ret

def merge_all():
    for i,node in enumerate(l):
        if not taken[i]:
    return ret

print merge_all()
share|improve this answer

My attempt. Has functional look to it.

from collections import defaultdict
l = [['a','b','c'],['b','d','e'],['k'],['o','p'],['e','f'],['p','a'],['d','g']]
hashdict = defaultdict(int)

def hashit(x, y):
    for i in y: x[i] += 1
    return x

def merge(x, y):
    sums = sum([hashdict[i] for i in y])
    if sums > len(y):
        x[0] = x[0].union(y)
        x[1] = x[1].union(y)
    return x

hashdict = reduce(hashit, l, hashdict)
sets = reduce(merge, l, [set(),set()])
print [list(sets[0]), list(sets[1])]
share|improve this answer

As Jochen Ritzel pointed out you are looking for connected components in a graph. Here is how you could implement it without using a graph library:

from collections import defaultdict

def connected_components(lists):
    neighbors = defaultdict(set)
    seen = set()
    for each in lists:
        for item in each:
    def component(node, neighbors=neighbors, seen=seen, see=seen.add):
        nodes = set([node])
        next_node = nodes.pop
        while nodes:
            node = next_node()
            nodes |= neighbors[node] - seen
            yield node
    for node in neighbors:
        if node not in seen:
            yield sorted(component(node))

L = [['a','b','c'],['b','d','e'],['k'],['o','p'],['e','f'],['p','a'],['d','g']]
print list(connected_components(L))
share|improve this answer

This is perhaps a simpler/faster algorithm and seems to work well -

l = [['a', 'b', 'c'], ['b', 'd', 'e'], ['k'], ['o', 'p'], ['e', 'f'], ['p', 'a'], ['d', 'g']]

len_l = len(l)
i = 0
while i < (len_l - 1):
    for j in range(i + 1, len_l):

        # i,j iterate over all pairs of l's elements including new 
        # elements from merged pairs. We use len_l because len(l)
        # may change as we iterate
        i_set = set(l[i])
        j_set = set(l[j])

        if len(i_set.intersection(j_set)) > 0:
            # Remove these two from list

            # Merge them and append to the orig. list
            ij_union = list(i_set.union(j_set))

            # len(l) has changed
            len_l -= 1

            # adjust 'i' because elements shifted
            i -= 1

            # abort inner loop, continue with next l[i]

    i += 1

print l
# prints [['k'], ['a', 'c', 'b', 'e', 'd', 'g', 'f', 'o', 'p']]
share|improve this answer

Without knowing quite what you want, I decided to just guess you meant: I want to find every element just once.


def clink(l, acc):
  for sub in l:
    if sub.__class__ == list:
      clink(sub, acc)

def clunk(l):
  acc = {}
  clink(l, acc)
  print acc.keys()

l = [['a', 'b', 'c'], ['b', 'd', 'e'], ['k'], ['o', 'p'], ['e', 'f'], ['p', 'a'], ['d', 'g']]


Output looks like:

['a', 'c', 'b', 'e', 'd', 'g', 'f', 'k', 'o', 'p']
share|improve this answer
.__class__ == list looks so incredibly wrong. At the very least, isinstance(sub, list). If only as a matter of principle. (Also, you could/should just use a set instead of a dict with bogus values.) – delnan Jan 30 '11 at 12:23
@delnan, guilty on both counts :) – sarnold Jan 30 '11 at 12:25

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