# how to overlap intervals efficiently

I require your help, I have a problem (see picture), I have let say two arrays and each of this array contains intervals with different length and real values and I need to find out how I'm gone overlap this intervals efficiently.

I'm open to ideas, or paper theory or concret algorithms which will let me find a way out! I'm guessing about to transform this somehow in waves and overlap them.

Its very important, its for my thesis.

as an example, here in numbers to explain it better:

1. Array: 1-2, 5-7, 9-12
2. Array: 3-4, 5-6, 13-17

The result will be then one single array containing the new intervals.

second interval (Array one and two) are overlapped.

result Array: 1-2, 3-4, 5-7, 9-12, 13-17

I'm thinking about "interval tree", but its not sufficent how I'm gone merge them.

-

1) Put all of your intervals in one array.

2) Sort that array by the lower bound of each interval.

3) Loop through the intervals from lowest lower bound to highest upper bound:

a) If the interval after this one starts before this one ends, merge them (delete the second one and extend this one to have its upper bound).

b) Repeat until the next interval starts after this one ends.

4) Repeat until you've reached the last interval.

-
Thanks dfan for your respond. –  Kais Kara Mar 16 '11 at 14:05
I have done another approach. I have used some tricks, that helped me find the solution. I have defined two "home" and "visitor" array and a third array called "match" then I have used an "overlapping" function (more details are introduced in section 14.3 (Interval Tree) in the book "Introduction in Programming"), to know if the first element of each array are overlapping. then according to this knowledge I have done something: "Its like I'm removing element and or changing the boundaries." And then that's it, contact me if you want to know the solution. –  Kais Kara Mar 16 '11 at 14:22

Here is a version in python (versions 2 and 3):

``````def aggregate(data):
data.sort()
i = 0
while i < len(data) - 1:
while i < len(data) - 1 and data[i][1] >= data[i+1][0]:
data[i] = (data[i][0], data[i+1][1])
data.pop(i+1)
i += 1

if __name__ == '__main__':
itervals = [(1,2), (5,7), (9,12), (3,4), (5,6), (13,17)]

formatted = lambda vals: '[{}]'.format(', '.join('({}-{})'.format(
iterval[0], iterval[1])
for iterval in sorted(vals)))
print(formatted(itervals))
aggregate(itervals)
print(formatted(itervals))
``````

Output:

``````[(1-2), (3-4), (5-6), (5-7), (9-12), (13-17)]
[(1-2), (3-4), (5-7), (9-12), (13-17)]
``````

Note: this mutates a list of tuples in-place. A slightly more generic one, that will work with a list of iterables can be done by changing the line:

``````data[i] = type(data[i])((data[i][0], data[i+1][1]))
``````

Alternatively, if you know you have a list of mutable iterables, you could use:

``````data[i][1] = data[i+1][1]
``````
-
Wouldn't it be a little better to replace the outer `while` with a `for i in xrange(len(data)):` and lose the `i += 1` at the end? Also the first portion of the inner `while`'s conditional, the `i < len(data) - 1` part, seems redundant. –  martineau Mar 8 '13 at 16:33
Not quite. Because the inner loop contains a `.pop()` on the list, it needs to re-check that it won't be exceeding the bounds of the list next time it tries to access `i+1`. Because this function mutates the original data structure, `xrange(len(data))` will not work (it is evaluated at the first iteration, but may end up with fewer iterations. –  Matthew Schinckel Mar 12 '13 at 0:15
Having said that, I'm happy to see a rewrite of this with tests:) [Note: I am using code very similar to this in production]. –  Matthew Schinckel Mar 12 '13 at 0:16
You're absolutely right -- I missed the inner `pop()`. Good generic answer! –  martineau Mar 12 '13 at 1:51
``````#include <vector>
using namespace std;

struct INTERVAL {
int a;
int b;
};

// v is a sorted vector of intervals (a<=b)
// i is an interval (a<=b) to be merged with v,
vector<INTERVAL> merge(vector<INTERVAL>& v, INTERVAL& i)
{
bool fMerged=false; // merged flag
INTERVAL r=i; // merged interval
vector<INTERVAL> out; // out vector
vector<INTERVAL>::size_type k=0; // iterator

for(k=0; k<v.size(); ++k) {
if (fMerged || v[k].b < r.a) {
out.push_back(v[k]); // v[k] comes first
}
else if (r.b<v[k].a) {
out.push_back(r); // r comes first
out.push_back(v[k]);
fMerged=true; // copy rest;
}
else { // intervals overlap, merge into r
r.a=min(v[k].a,r.a);
r.b=max(v[k].b,r.b);
}
}
// interval not merged, append to vector
if (!fMerged) out.push_back(r);
return out;
}
``````

this could be one way to do it

-