9

Say I have for example the following nested list:

L = [['John','Sayyed'], ['John' , 'Simon'] ,['bush','trump'],
     ['Sam','Suri','NewYork'],['Suri','Orlando','Canada']]

How can I group these sublists, by getting the union of sublists which have a common element with at least another sublist within the group? So for the previous example the result should be:

[['John','Sayyed','Simon'] ,['bush','trump'],
 ['Sam','Suri','NewYork','Orlando','Canada']]

Thus the first two sublists are joined as they share 'John'. Could someone please share their valuable thoughts ?

18

In many cases, modeling a problem as a graph, can make make fairly complicated tasks much easier. In this case, what we'd be looking for from a graph theory point of view, are the connected components of the graph.

So a simple way to go about this, is to generate a graph with NetworkX, and add your list as the graph edges using add_edges_from. Then use connected_components, which will precisely give you a list of sets of the connected components in the graph:

import networkx as nx 

L = [['John','Sayyed'], ['John' , 'Simon'] ,['bush','trump']]

G=nx.Graph()
G.add_edges_from(L)
list(nx.connected_components(G))

[{'John', 'Sayyed', 'Simon'}, {'bush', 'trump'}]

What about sublists with multiple (>2) items?

In the case of having sublists with more than 2 elements, you can add them as paths instead of nodes using nx.add_path, since they can connect multiple nodes:

L = [['John','Sayyed'], ['John' , 'Simon'] ,['bush','trump'],
     ['Sam','Suri','NewYork'],['Suri','Orlando','Canada']]

G=nx.Graph()
for l in L:
    nx.add_path(G, l)
list(nx.connected_components(G))

[{'John', 'Sayyed', 'Simon'},
 {'bush', 'trump'},
 {'Canada', 'NewYork', 'Orlando', 'Sam', 'Suri'}]

We can also vivisualize these connected components with nx.draw:

pos = nx.spring_layout(G, scale=20, k=2/np.sqrt(G.order()))
nx.draw(G, pos, node_color='lightgreen', node_size=1000, with_labels=True)

enter image description here


On connected components (graph theory)

More detailed explanation on connected components:

In graph theory, a connected component (or just component) of an undirected graph is a subgraph in which any two vertices are connected to each other by paths, and which is connected to no additional vertices in the supergraph

So essentially, this code creates a graph, with edges from the list, where each edge is composed by two values u,v where u and v will be nodes connected by this edge.

And hence, the union of sublists with at least one sublist with a common element can be translated into a Graph Theory problem as all nodes that are reachable between each other through the existing paths.

| improve this answer | |
  • 1
    Interesting approach, please explain what this does – Jab Dec 21 '18 at 14:10
  • 1
    What happens if the sub-list have more than two elements? – Dani Mesejo Dec 21 '18 at 14:21
  • 1
    @Aiyaz updated with a more generic case of having sublists with more than 2 elements – yatu Dec 22 '18 at 9:31
1

If order is important and the list are large, you can use this two pronged method:

 l = [['john', 'sayyid'], ['john', 'simon'], ['b', 't']]

 def join(l1, l2):
     mset = set(l1)
     result = l1[:] # deep copy
     for each in l2:
         if each in mset:
             continue
         else:
             result.append(each)
     return result

To merge within the master list, you can just call the list by their rank and pop the original list:

l1 = l.pop(0)
l2 = l.pop(0)
l.insert(0, join(l1, l2))
>>> l:
[['john', 'sayyid', 'simon'], ['b', 't']]
| improve this answer | |
0

To merge 2 lists:

merge = lambda l1, l2: l1 + [ x for x in l2 if x not in l1 ]

To be more efficient, create a set on l1;

| improve this answer | |
0

A simple approach

L = [['John','Sayyed'], [ 'John' , 'Simon'] ,['bush','trump']]
L[0].extend([x for x in L[1] if x not in L[0]])
L.pop(1)
print(L) 

See

List Comprehensions

Append vs Extend

| improve this answer | |
0

You can use the function connected_components in networkx:

import networkx as nx 
​
L = [['John','Sayyed'], ['John' , 'Simon'] ,['bush','trump'],
     ['Sam','Suri','NewYork'],['Suri','Orlando','Canada']]
​
G = nx.Graph()
​
for i in L:
    G.add_path(i)
​
lst = list(nx.connected_components(G))
print(lst)

Output:

[{'John', 'Sayyed', 'Simon'},
 {'bush', 'trump'},
 {'Canada', 'NewYork', 'Orlando', 'Sam', 'Suri'}]
| improve this answer | |

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