# Merging Overlapping Intervals

Currently, I have intervals of:

``````temp_tuple = [[-25, -14], [-21, -16], [-20, -15], [-10, -7], [-8, -5], [-6, -3], [2, 4], [2, 3], [3, 6], [12, 15], [13, 18], [14, 17], [22, 27], [25, 30], [26, 29]]
``````

in an ascending order by the lower bound. My task is to merge overlapping intervals so that the outcome comes out to be:

``````[-25, -14]
[-10, -3]
[2, 6]
[12, 18]
[22, 30]
``````

My first attempt involved deleting intervals that are completely within previous intervals, like [-21, -16] which falls within [-25, -14]. But deleting objects within a list kept interfering with the loop condition. My second attempt at deleting unnecessary intervals was:

``````i = 0
j = 1
while i < len(temp_tuples):
while j < len(temp_tuples):
if temp_tuples[i][1] > temp_tuples[j][1]:
del temp_tuples[j]
j += 1
i += 1
``````

but this doesn't delete all the unnecessary intervals for some reason. What should I do?

• Instead of trying to delete from the list, build a new list with only the necessary elements. Apr 25, 2017 at 3:13
• Does this answer your question? Merging Overlapping Intervals in Python Jan 29, 2022 at 11:39
• @Guybrush the other direction of closure should be applied (already voted) Jan 29, 2022 at 18:31

It makes it a bit easier to process (as in think about) if you instead setup a new list. You additionally also get to keep your original data.

``````temp_tuple.sort(key=lambda interval: interval[0])
merged = [temp_tuple[0]]
for current in temp_tuple:
previous = merged[-1]
if current[0] <= previous[1]:
previous[1] = max(previous[1], current[1])
else:
merged.append(current)
``````

If you now `print(merged)` it would output:

``````[[-25, -14], [-10, -3], [2, 6], [12, 18], [22, 30]]
``````
• I know this is a dumb question, how come the "current" intervals change their upper bound if they were taken from the list temp_tuple? Apr 25, 2017 at 3:42
• I'm not sure I fully understand. But the order doesn't matter because of the `temp_tuple.sort(...)`. Thus why we only have to check the last interval in `merged`. Apr 25, 2017 at 3:44

This is a numpy solution I came up with:

``````import numpy as np

def merge_intervals(intervals):
starts = intervals[:,0]
ends = np.maximum.accumulate(intervals[:,1])
valid = np.zeros(len(intervals) + 1, dtype=np.bool)
valid[0] = True
valid[-1] = True
valid[1:-1] = starts[1:] >= ends[:-1]
return np.vstack((starts[:][valid[:-1]], ends[:][valid[1:]])).T

#example
a=[]
a.append([1,3])
a.append([4,10])
a.append([5,12])
a.append([6,8])
a.append([20,33])
a.append([30,35])

b = np.array(a)

print("intervals")
print(b)
print()
print("merged intervals")
print(merge_intervals(b))
``````

Output:

``````intervals
[[ 1  3]
[ 4 10]
[ 5 12]
[ 6  8]
[20 33]
[30 35]]

merged intervals
[[ 1  3]
[ 4 12]
[20 35]]
``````

Please note that the input array must be sorted by start positions.

The salient feature of the solution below is to run a list called `final` parallel to the input list. Before entering the `for` loop, the `final` list inserts the first array item in it. Then starts the comparison. That's it!

``````def merger(a):

final=[]

final.append(a[0])

for i in range(1,len(a)):

if a[i][0]<=final[-1][1]:

if a[i][1]>final[-1][1]:

low_limit=final[-1][0]
hi_limit=a[i][1]
final.pop()
final.append([low_limit,hi_limit])

if a[i][1]<=final[-1][1]:

low_limit=final[-1][0]
hi_limit=final[-1][1]
final.pop()
final.append([low_limit,hi_limit])

if final[-1][0]<a[i][1]<final[-1][1]:

low_limit=a[i][0]
hi_limit=final[-1][1]
final.pop()
final.append([low_limit,hi_limit])

else:
final.append(a[i])

return final

if __name__=="__main__":

array=[[-25, -14], [-21, -16], [-20, -15], [-10, -7], [-8, -5], [-6, -3], [2, 4], [2, 3], [3, 6], [12, 15], [13, 18], [14, 17], [22, 27], [25, 30], [26, 29]]
print(merger(array))
``````

Output:

``````[[-25, -14], [-10, -3], [2, 6], [12, 18], [22, 30]]
``````
``````#Given an array of intervals in sorted order and a new interval, return a sorted array after merging the interval

def mergeinter(intervals,newinter):
n = len(intervals)
start = newinter[0]# we mark the start and end of the new interval to be merged
end = newinter[1]
right,left = 0,0
while right < n:# we track where this new interval belongs, i.e. how many interval are to the left of it and how many are to the right
if start <= intervals[right][1]:# we find the first interval before which it fits
if end < intervals[right][0]:# this checks if the interval is disjoint and lies between two given intervals
break# in this case we have nothing to do and go to line 29 directly
start = min(start,intervals[right][0])# if it intersects with the given intervals then we just update and merge the ends
end = max(end,intervals[right][1])
else:# counting how many to the left continuing from line 20
left += 1
right += 1# moving right to find the fit continuation of line 20 and even if we merge in line 25, we go to the next interval before
return intervals[:left] + [(start,end)] + intervals[right:] # we return starting from the next interval

#Given a collection of intervals, merge all overlapping intervals and return sorted list of disjoint intervals.

def merge(I):
I.sort(key:lambda i:i[0])# sorting according to the start of all intervals
res = []# we start from the last of the given arr of lists and check the ends of the intervals and merge from the end
for i in I:
if not res or res[-1][0] < i[1]:# if res is empty then we put an elem in it from I
res.append(i)# if there is no overlap, just add it
else:
res[-1][1] = max(i[1], res[-1][1])# here we merge from the end so that res remains sorted
return res
``````

I made some improvements based on vallentin's answer, mainly using `copy.deepcopy` to prevent any changes to the input.

Note that using `sorted()` or `.copy()` is insufficient, as sub-elements get changed when any merge happens.

I also added a `.sort()` call on each interval to handle unsorted input, as well as a more explicit initial sort call for clarity.

Code:

``````import copy

def mergeIntervals(input_array, preserve_input=True):
'''
Python3 program for merging overlapping intervals.
If preserve_input is False, the input_array can be modified! Not just sorted, but even sub-elements can change!

See:
https://www.geeksforgeeks.org/merging-intervals/
https://stackoverflow.com/questions/43600878/merging-overlapping-intervals
'''
if preserve_input:
intervals = copy.deepcopy(input_array)
else:
intervals = input_array

# Sort the given list of time intervals in ascending order of starting time.
intervals.sort(key=lambda interval: interval[0])

intervals[0].sort() # deal with unsorted input

# Create a stack with the first interval
merged = [intervals[0]]

for current in intervals[1:]:
current.sort() # deal with unsorted input
previous = merged[-1]
# Check for overlapping interval
if current[0] <= previous[-1]: # If it’s overlapping, then merge them into one interval;
previous[-1] = max(previous[-1], current[-1])
else: # otherwise, push it in the stack.
merged.append(current)

return merged

##### Testing code:
A_list = []

# Example from original question:
input_array = [[-25, -14], [-21, -16], [-20, -15], [-10, -7], [-8, -5], [-6, -3], [2, 4], [2, 3], [3, 6], [12, 15], [13, 18], [14, 17], [22, 27], [25, 30], [26, 29]]
A_list.append(input_array)

# Example with unsorted elements and sub-elements:
input_array = [[4, 2], [3, 1]]
A_list.append(input_array)

for preserve_input in [False, True]:
print(f'==> preserve_input = {preserve_input}')
for idx, a in enumerate(A_list):
print('------> idx = ', idx)
input_array = copy.deepcopy(a)
print('input before:', input_array)
output_array = mergeIntervals(input_array, preserve_input=preserve_input)
print('input after:', input_array)
print('output', output_array)

if input_array != a:
print('Input modified!')
if preserve_input:
raise
else:
print('No change in input.')
``````

Output:

Note in particular the change of `[22, 27]` to `[22, 30]` in the first example, near the end.

``````==> preserve_input = False
------> idx =  0
input before: [[-25, -14], [-21, -16], [-20, -15], [-10, -7], [-8, -5], [-6, -3], [2, 4], [2, 3], [3, 6], [12, 15], [13, 18], [14, 17], [22, 27], [25, 30], [26, 29]]
input after: [[-25, -14], [-21, -16], [-20, -15], [-10, -3], [-8, -5], [-6, -3], [2, 6], [2, 3], [3, 6], [12, 18], [13, 18], [14, 17], [22, 30], [25, 30], [26, 29]]
output [[-25, -14], [-10, -3], [2, 6], [12, 18], [22, 30]]
Input modified!
------> idx =  1
input before: [[4, 2], [3, 1]]
input after: [[1, 4], [2, 4]]
output [[1, 4]]
Input modified!
==> preserve_input = True
------> idx =  0
input before: [[-25, -14], [-21, -16], [-20, -15], [-10, -7], [-8, -5], [-6, -3], [2, 4], [2, 3], [3, 6], [12, 15], [13, 18], [14, 17], [22, 27], [25, 30], [26, 29]]
input after: [[-25, -14], [-21, -16], [-20, -15], [-10, -7], [-8, -5], [-6, -3], [2, 4], [2, 3], [3, 6], [12, 15], [13, 18], [14, 17], [22, 27], [25, 30], [26, 29]]
output [[-25, -14], [-10, -3], [2, 6], [12, 18], [22, 30]]
No change in input.
------> idx =  1
input before: [[4, 2], [3, 1]]
input after: [[4, 2], [3, 1]]
output [[1, 4]]
No change in input.
``````