I have a list of tuples where each tuple is a (start-time, end-time). I am trying to merge all overlapping time ranges and return a list of distinct time ranges. For example

[(1, 5), (2, 4), (3, 6)] --->  [(1,6)]
[(1, 3), (2, 4), (5, 8)] --->  [(1, 4), (5,8)]

Here is how I implemented it.

# Algorithm
# initialranges: [(a,b), (c,d), (e,f), ...]
# First we sort each tuple then whole list.
# This will ensure that a<b, c<d, e<f ... and a < c < e ... 
# BUT the order of b, d, f ... is still random
# Now we have only 3 possibilities
# b<c<d: a-------b           Ans: [(a,b),(c,d)]
#                  c---d
# c<=b<d: a-------b          Ans: [(a,d)]
#               c---d
# c<d<b: a-------b           Ans: [(a,b)]
#         c---d
def mergeoverlapping(initialranges):
    i = sorted(set([tuple(sorted(x)) for x in initialranges]))

    # initialize final ranges to [(a,b)]
    f = [i[0]]
    for c, d in i[1:]:
        a, b = f[-1]
        if c<=b<d:
            f[-1] = a, d
        elif b<c<d:
            # else case included for clarity. Since 
            # we already sorted the tuples and the list
            # only remaining possibility is c<d<b
            # in which case we can silently pass
    return f

I am trying to figure out if

  1. Is the a an built-in function in some python module that can do this more efficiently? or
  2. Is there a more pythonic way of accomplishing the same goal?

Your help is appreciated. Thanks!


A few ways to make it more efficient, Pythonic:

  1. Eliminate the set() construction, since the algorithm should prune out duplicates during in the main loop.
  2. If you just need to iterate over the results, use yield to generate the values.
  3. Reduce construction of intermediate objects, for example: move the tuple() call to the point where the final values are produced, saving you from having to construct and throw away extra tuples, and reuse a list saved for storing the current time range for comparison.


def merge(times):
    saved = list(times[0])
    for st, en in sorted([sorted(t) for t in times]):
        if st <= saved[1]:
            saved[1] = max(saved[1], en)
            yield tuple(saved)
            saved[0] = st
            saved[1] = en
    yield tuple(saved)

data = [
    [(1, 5), (2, 4), (3, 6)],
    [(1, 3), (2, 4), (5, 8)]

for times in data:
    print list(merge(times))
  • Thank you! Agreed that I should eliminate set(). The loop takes care of it. Like the idea of yielding the tuples as needed instead of appending to a list. – Praveen Gollakota Apr 15 '11 at 19:22
  • 2
    Unfortunately, this fails if len(times) == 0. – phihag May 28 '12 at 21:19
  • In addition it does not work if the input list is not sorted (for example [(3, 6), (2, 4)]). Initial value of saved must be the first element of the sorted list. – Alexander Fedotov Mar 10 '16 at 17:03
  • Beware! Using this technique will cause problems with Python 3.7+ since with PEP 479, the behaviour of generator will be changed and raise RuntimeError !!! See python.org/dev/peps/pep-0479/#transition-plan – Rmatt Mar 7 at 14:36

Sort tuples then list, if t1.right>=t2.left => merge and restart with the new list, ...


def f(l, sort = True):
    if sort:
        sl = sorted(tuple(sorted(i)) for i in l)
        sl = l
    if len(sl) > 1:
        if sl[0][1] >= sl[1][0]:
            sl[0] = (sl[0][0], sl[1][1])
            del sl[1]
            if len(sl) < len(l):
                return f(sl, False)
    return sl

The sort part: use standard sorting, it compares tuples the right way already.

sorted_tuples = sorted(initial_ranges)

The merge part. It eliminates duplicate ranges, too, so no need for a set. Suppose you have current_tuple and next_tuple.

c_start, c_end = current_tuple
n_start, n_end = next_tuple
if n_start <= c_end: 
  merged_tuple = min(c_start, n_start), max(c_end, n_end)

I hope the logic is clear enough.

To peek next tuple, you can use indexed access to sorted tuples; it's a wholly known sequence anyway.

  • I agree that I should eliminate set(). Logic is clear enough. Thank you! But I have to accept the answer from @samplebias instead of this (even though the idea is essentially the same) because he is the first to respond (and he has the full code!) :) – Praveen Gollakota Apr 15 '11 at 19:25
  • It's ok. Also, it looked a bit like a homework, so I left several bits as an exercise to the reader :) – 9000 Apr 15 '11 at 22:23

Sort all boundaries then take all pairs where a boundary end is followed by a boundary start.

def mergeOverlapping(initialranges):
    def allBoundaries():
        for r in initialranges:
            yield r[0], True
            yield r[1], False

    def getBoundaries(boundaries):
        yield boundaries[0][0]
        for i in range(1, len(boundaries) - 1):
            if not boundaries[i][1] and boundaries[i + 1][1]:
                yield boundaries[i][0]
                yield boundaries[i + 1][0]
        yield boundaries[-1][0]

    return getBoundaries(sorted(allBoundaries()))

Hm, not that beautiful but was fun to write at least!

EDIT: Years later, after an upvote, I realised my code was wrong! This is the new version just for fun:

def mergeOverlapping(initialRanges):
    def allBoundaries():
        for r in initialRanges:
            yield r[0], -1
            yield r[1], 1

    def getBoundaries(boundaries):
        openrange = 0
        for value, boundary in boundaries:
            if not openrange:
                yield value
            openrange += boundary
            if not openrange:
                yield value

    def outputAsRanges(b):
        while b:
            yield (b.next(), b.next())

    return outputAsRanges(getBoundaries(sorted(allBoundaries())))

Basically I mark the boundaries with -1 or 1 and then sort them by value and only output them when the balance between open and closed braces is zero.


Late, but might help someone looking for this. I had a similar problem but with dictionaries. Given a list of time ranges, I wanted to find overlaps and merge them when possible. A little modification to @samplebias answer led me to this:

Merge function:

def merge_range(ranges: list, start_key: str, end_key: str):
    ranges = sorted(ranges, key=lambda x: x[start_key])
    saved = dict(ranges[0])

    for range_set in sorted(ranges, key=lambda x: x[start_key]):
        if range_set[start_key] <= saved[end_key]:
            saved[end_key] = max(saved[end_key], range_set[end_key])
            yield dict(saved)
            saved[start_key] = range_set[start_key]
            saved[end_key] = range_set[end_key]
    yield dict(saved)


data = [
    {'start_time': '09:00:00', 'end_time': '11:30:00'},
    {'start_time': '15:00:00', 'end_time': '15:30:00'},
    {'start_time': '11:00:00', 'end_time': '14:30:00'},
    {'start_time': '09:30:00', 'end_time': '14:00:00'}


print(list(merge_range(ranges=data, start_key='start_time', end_key='end_time')))


    {'start_time': '09:00:00', 'end_time': '14:30:00'},
    {'start_time': '15:00:00', 'end_time': '15:30:00'}

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