# How to sort a list of sub-lists by the contents of sub-lists, where sub-lists contain strings and booleans?

I have a list containing thousands of sub-lists. Each of these sub-lists contain a combination of mixed strings and boolean values, for example:

lst1 = [['k', 'b', False], ['k', 'a', True], ['a', 'a', 'a'], ['a', 'b', 'a'], ['a', 'a' , False], ...]

I want to sort this list in accordance with the contents of the sub-lists, like:

lst2 = [['a', 'a', 'a'], ['a', 'a' , False], ['a', 'b', 'a'], ['k', 'a', True], ['k', 'b', False], ...]

I've tried sorting it like this:

lst2 = sorted([list(sorted(x)) for x in lst1])
print(lst2)

This doesn't work because of the combination of boolean values with strings in some fields, so I get TypeError: '<' not supported between instances of 'bool' and 'str'.

I've also tried a brute force method, creating every possible combination and then checking them to see if which are in the first list:

col1 = ['a', 'b', 'c', d, e, f, g, h, i, j, k, ..., True, False]
col2 = ['a', 'b', 'c', d, e, f, g, h, i, j, k, ..., True, False]
col3 = ['a', 'b', 'c', d, e, f, g, h, i, j, k, ..., True, False]
lst2 = list()
for t1 in col1:
for t2 in col2:
for t3 in col3:
test_sublist = [t1, t2, t3]
if test_sublist in lst1:
lst2.append(test_sublist)

This way works well enough, because I'm able to automatically create sorted lists for each column, col 1, col 2, and col 3, but it takes way too long to run (more than 3 days).

Is there a better solution for sorting mixed string/boolean lists like these?

• Are a-z, True and False the only possible elements? – r.ook Jan 17 at 15:45
• Not quite. a-z can actually be a string of any size, I just simplified the problem for ease of explanation. 'adverb', 'verb', 'adjective', 'noun', etc. are the types of things that are written. I actually think that the only boolean used is False, but I want to allow for the possibility that True could be used at some stage. – AdeDoyle Jan 17 at 15:51
• @AdeDoyle It might be useful to add this last comment of yours to the main body of the question. – Ev. Kounis Jan 17 at 16:29

These handle any lengths, not just length 3. And bools in any places, not just the last column. For keying, they turn each element of each sublist into a tuple.

Solution 1:

sorted(lst1, key=lambda s: [(e is False, e is True, e) for e in s])

Turns strings into (False, False, thestring) so they come first.
Turns True into (False, True, True) so it comes next.
Turns False into (True, False, False) so it comes last.

Though I think of it the reverse way, as in "First deprioritize False, then deprioritize True". The general form is key=lambda x: (shall_come_last(x), x).

Solution 2:

sorted(lst1, key=lambda s: [((e is True) + 2 * (e is False), e) for e in s])

Turns strings into (0, thestring) so they come first.
Turns True into (1, True) so it comes next.
Turns False into (2, False) so it comes last.

Solution 3:

sorted(lst1, key=lambda s: [(0, e) if isinstance(e, str) else (2 - e,) for e in s])

Turns strings into (0, thestring) so they come first.
Turns True into (1,) so it comes next.
Turns False into (2,) so it comes last.

If you don't mind that Booleans precede the strings in the sorted list, pandas would offer a simple interface for this task:

import pandas as pd
df = pd.DataFrame(lst1)
# Sort by all columns, from left to right.
df.sort_values(by=list(df.columns), inplace=True)
lst2 = df.values.tolist()

This results in the following output.

[['a', 'a', False],
['a', 'a', 'a'],
['a', 'b', 'a'],
['k', 'a', True],
['k', 'b', False]]

The approach generalizes well to None-values and numbers without modification.

If you really need the Booleans to appear at the end, you could rename the values temporarily. (I skip the inplace=True for better readability)

df = df.replace(False, "zFalse")
df = df.replace(True, "zTrue")
df = df.sort_values(by=list(df.columns))
df = df.replace("zFalse", False)
df = df.replace("zTrue", True)
lst2 = df.values.tolist()
[['a', 'a', 'a'],
['a', 'a', False],
['a', 'b', 'a'],
['k', 'a', True],
['k', 'b', False]]

I agree that this is less appealing, but would work. Unfortunately, sort_values() doesn't support a sort-key argument to control the sort precedence.

You can create a key handler for sorted that pads an element if it contains a boolean:

lst1 = [['k', 'b', False], ['k', 'a', True], ['a', 'a' , False], ['a', 'a', 'a'], ['a', 'b', 'a']]
result = sorted(lst1, key=lambda x:(x, False) if isinstance(x[-1], str) else (x[:-1]+[x[-2]], not x[-1]))

Output:

[['a', 'a', 'a'], ['a', 'a', False], ['a', 'b', 'a'], ['k', 'a', True], ['k', 'b', False]]
• Instead of using sorted(map(...)) and then doing a list comprehension to "undo" the map, you could just do sorted(lst1, key=Val). – kaya3 Jan 17 at 17:00
• @kaya3 That is much better than the comprehension, thank you – Ajax1234 Jan 17 at 17:01
• It doesn't look right. For example, you leave [['a', 'b', False], ['a', 'b', True]] as is, even though OP's code shows True coming before False. – Heap Overflow Jan 17 at 17:04
• @HeapOverflow I think that depends on how the OP wants to prioritize an actual occurrence of a comparison between True and False. The section from the OP's code that you are referring to has True before False because the second elements are being compared: 'a' and 'b'. Thus, the list with l[1] => 'a' comes before l1[1] => 'b'. I think the string comparison takes priority over the boolean. – Ajax1234 Jan 17 at 17:12
• Not sure what you mean. Are you talking about their example data? I'm talking about their solution. In particular their col1, col2 and col3. – Heap Overflow Jan 17 at 17:16
def sort(lst):
pad = len(max(lst, key=lambda l: len(l)))
def ssort(lst):
newlst = list(map(lambda item: item if isinstance(item, str) else 'Ӿ' if item == True else "ӿ", lst))
count = 0
for l in newlst:
if l == "ӿ" or l == "Ӿ":
count += 1
count = count + pad - len(newlst)
while(count > 0):
newlst.insert(0, 'ӿ')
count -= 1
return newlst
lst.sort(key=lambda lst: ssort(lst))

st1 = [['k', 'b', False], ['k', 'a', True], ['a', 'a', 'a'], ['a', 'b', 'a'], ['a', 'a' , False], ['a', 'a', True]]
sort(st1)
print(st1)

Output

[['a', 'a', 'a'], ['a', 'b', 'a'], ['a', 'a', True], ['a', 'a', False], ['k', 'a', True], ['k', 'b', False]]