# Merging a list of time-range tuples that have overlapping time-ranges

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:
f.append((c,d))
else:
# 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
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?

-
+1 Very interesting... – rubik Apr 15 '11 at 16:30

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.

Code:

``````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)
else:
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
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 at 17:03

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)
else:
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])
else:
yield dict(saved)
saved[start_key] = range_set[start_key]
saved[end_key] = range_set[end_key]
yield dict(saved)
``````

Data:

``````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'}
]
``````

Execution:

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

Output:

``````[
{'start_time': '09:00:00', 'end_time': '14:30:00'},
{'start_time': '15:00:00', 'end_time': '15:30:00'}
]
``````
-