list1 = ["happy new year", "game over", "a happy story", "hold on"]
list2 = ["happy", "new", "hold"]

Assume I have two string lists, I want to use a new list to store the matched pairs of those two lists just like below:

list3=[["happy new year","happy"],["happy new year","new"],["a happy story","happy"],["hold on","hold"]]

which means I need to get all pairs of strings in one list with their substrings in another list.

Actually that is about some Chinese ancient scripts data. The first list contains names of people in 10th to 13th century, and the second list contains titles of all the poems at that period. Ancient Chinese people often record their social relations in the title of their works. For example, someone may write a poem titled "For my friend Wang Anshi". In this case, the people "Wang Anshi" in the first list should be matched with this title. Also their are cases like "For my friend Wang Anshi and Su Shi" which contains more than one people in the title. So basically that's a huge work involved 30,000 people and 160,000 poems.

Following is my code:

list3 = []

for i in list1:
        for j in list2:
            if str(i).count(str(j)) > 0:

I use str(i) because python always takes my Chinese strings as float. And this code does work but too too too slow. I must figure out another way to do that. Thanks!

  • 1
    because python always takes my Chinese strings as float: that's not actually possible, and I highly doubt that str(floatingpoint_value) would ever result in a useful name match. – Martijn Pieters Jun 16 at 21:24
  • More likely is that you have mixed data in your input structure somewhere and some of your data is actually a floating point value. – Martijn Pieters Jun 16 at 21:24
  • Are you open for a solution with pandas? – Erfan Jun 16 at 21:26
  • @Erfan Yes, I use that to get my data from an excel file – Yunfei Yang Jun 17 at 13:36
  • @MartijnPieters I tried the code with str(), and it returns the correct result. Before that, I got the error like 'float' object has no attribute 'count'. The name list is from a sqlite3 database and I converted that to a list. The title list is from an excel file and I used pandas to read it and then converted it to a list. Neither of those two lists contains floating point values I believe. – Yunfei Yang Jun 17 at 13:45

Use a regular expression to do the searching, via the re module. A regular expression engine can work out matching elements in a search through text much better than a nested for loop can.

I'm going to use better variable names here to make it clearer where what list has to go; titles are the poem titles you are searching through, and names the things you are trying to match. matched are the (title, name) pairs you want to produce:

import re

titles = ["happy new year", "game over", "a happy story", "hold on"]
names = ["happy", "new", "hold"]

by_reverse_length = sorted(names, key=len, reverse=True)
pattern = "|".join(map(re.escape, by_reverse_length))
any_name = re.compile("({})".format(pattern))
matches = []

for title in titles:
    for match in any_name.finditer(title):
        matches.append((title, match.group()))

The above produces your required output:

>>> matches
[('happy new year', 'happy'), ('happy new year', 'new'), ('a happy story', 'happy'), ('hold on', 'hold')]

The names are sorted by length, in reverse, so that longer names are found before shorter with the same prefix; e.g. Hollander is found before Holland is found before Holl.

The pattern string is created from your names to form a ...|...|... alternatives pattern, any one of those patterns can match, but the regex engine will find those listed earlier in the sequence over those put later, hence the need to reverse sort by length. The (...) parentheses around the whole pattern of names tells the regular expression engine to capture that part of the text, in a group. The match.group() call in the loop can then extract the matched text.

The re.escape() function call is there to prevent 'meta characters' in the names, characters with special meaning such as ^, $, (, ), etc, from being interpreted as their special regular expression meanings.

The re.finditer() function (and method on compiled patterns) then finds non-overlapping matches in order from left to right, so it'll never match shorter substrings, and gives us the opportunity to extract the match object for each. This gives you more options if you want to know about starting positions of the matches and other metadata as well, should you want those. Otherwise, re.findall() could also be used here.

If you are going to use the above on text with Western alphabets and not on Chinese, then you probably also want to add word boundary markers, \b:

any_name = re.compile("\b({})\b".format(pattern))

otherwise substrings part of a larger word can be matched. Since Chinese has no word boundary characters (such as spaces and punctuation) you don't want to use \b in such texts.

  • Thank you so much! I tried this approach and got the correct answer in about 32 seconds. The only question is that I still need to use str() towards my title list. Is that because of the pandas? – Yunfei Yang Jun 17 at 14:09
  • I tried to print types of all elements in my former title list, and they all showed <class 'str'>. But I still need the str() operation to avoid the error. – Yunfei Yang Jun 17 at 14:12
  • @YunfeiYang: without access to your exact dataset and code I can’t tell you where your float value is coming from, sorry. – Martijn Pieters Jun 17 at 23:17

If the lists are longer, it might be worth building a sort of "index" of the sentences a given word appears in. Creating the index takes about as long as finding the first word from list2 in all the sentences in list1 (it has to loop over all the words in all the sentences), and once created, you can get the sentences containing a word much faster in O(1).

list1 = ["happy new year", "game over", "a happy story", "hold on"]    
list2 = ["happy", "new", "hold"]

import collections    
index = collections.defaultdict(list)

for sentence in list1:
    for word in sentence.split():

res = [[sentence, word] for word in list2 for sentence in index[word]]


[['happy new year', 'happy'],
 ['a happy story', 'happy'],
 ['happy new year', 'new'],
 ['hold on', 'hold']]

This uses str.split to split the words at spaces, but if the sentences are more complex, e.g. if they contain punctuation, you might use a regular expression with word boundaries \b instead, and possibly normalize the sentences (e.g. convert to lowercase or apply a stemmer, not sure if this is applicable to Chinese, though).

  • Chinese text can’t be split into words that easily, though. That’s why I left out the \b boundary anchors from my regex solution. – Martijn Pieters Jun 17 at 7:46

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