I have two lists as

listA = ['123', '345', '678']
listB = ['ABC123', 'CDE455', 'GHK678', 'CGH345']

I want to find the position of listB that matched with each element in listA. For example, the expected output is

0 3 2

where 123 appears in the fist element of listB so result returns 0, 345 appears in fourth postion of listB so it is 3. Note that the number of element in two list is very huge (about 500K elements) so the for loop is too slow. Have you suggest any faster solution? This is my solution

for i in range (len(listA)):
    for j in range (len(listB)):
        if listA[i] in listB[j]:
            print ('Postion ', j)
  • 1
    Is this the actual data or are these abbreviations? In other words, if I can walk over listB once and make a dict of last_3_numbers => idx then it's a linear algorithm. But if this data is just made up and the pattern could be anything I'd have to try plan B (and hopefully you could elaborate on what the data really looks like in that eventuality). – ggorlen Nov 23 '19 at 2:46
  • Hi, This is random data. – Moon Lee Nov 23 '19 at 3:01
  • 1
    All right--I recommend editing the post to explain that and hopefully post some snippets of the actual data. I can't think of a way to optimize this further without making use of some characteristics of the data itself. – ggorlen Nov 23 '19 at 3:03
  • Is either list static or are they continually changing? How many times do you have to do this operation - once, lots? Are listA strings always numeric? – wwii Nov 23 '19 at 17:20

You can try like this. We know finding something in dictionary is fastest so the solution should use dictionary for the task completion.

In [1]: import re                                                                        

In [2]: listA = ['123', '345', '678']                                                    

In [3]: listB = ['ABC123', 'CDE455', 'GHK678', 'CGH345']                                 

In [4]: # Mapping b/w number in listB to related index                                   

In [5]: mapping = {re.sub(r'\D+', '', value).strip(): index for index, value in enumerate(listB)}                                                                         

In [6]: mapping # Print mapping dictionary                                               
Out[6]: {'123': 0, '455': 1, '678': 2, '345': 3}

In [7]: # Find the desired output                                                        

In [8]: output = [mapping.get(item) for item in listA]                                   

In [9]: output                                                                           
Out[9]: [0, 3, 2]

In [10]:   

Attached screenshot »

enter image description here

  • 1
    Please don't post images of code/data/Tracebacks. Just copy the text, paste it in your question and format it as code. – wwii Nov 23 '19 at 17:18
  • Thank you very much @wwii. Will consider next time. – hygull Nov 23 '19 at 17:27

It essentially depends on your dataset. If you're given a sufficiently large enough dataset that you require low complexity, I'd suggest looking into the aho corasick algorithm. The gist of it is that you'd preprocess listA such that it becomes a trie whose nodes contain a failure link to the longest suffix of the current node in the trie. Because of this, you may simply iterate across each character in each word of listB and follow the trie you created from preprocessing. Thus your complexity adds the processing time of listA rather than it becoming multiplicative.

As a side note this doesn't decrease complexity in the case of a dynamic listA


Try adding all the elements in the list to a set() and searching it. It's supposed to have a much faster in test.

  • 3
    I don't believe that's an answer. – wwii Nov 23 '19 at 4:22

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