✨ For a production-ready implementation please see @chaimleib's repo: chaimleib/intervaltree
This is an implementation of an Interval Tree as described on Wikipedia.
Objects that can be loaded into the tree must implement:
-
`get_begin()`
-
`get_end()`
which return floats or ints.
Objects are loaded into the tree during initialization:
IntervalTree([Interval(1, 2), Interval(4, 7), Interval(1, 8)])
You can search the tree with:
-
`search(point)`
-
`search(begin, end)`
where point
, begin
, and end
are of type float or int.
from IntervalTree import IntervalTree
class ScheduleItem:
def __init__(self, course_number, start_time, end_time):
self.course_number = course_number
self.start_time = start_time
self.end_time = end_time
def get_begin(self):
return minutes_from_midnight(self.start_time)
def get_end(self):
return minutes_from_midnight(self.end_time)
def __repr__(self):
return ''.join(["{ScheduleItem: ", str((self.course_number, self.start_time, self.end_time)), "}"])
T = IntervalTree([ScheduleItem(28374, "9:00AM", "10:00AM"), \
ScheduleItem(43564, "8:00AM", "12:00PM"), \
ScheduleItem(53453, "1:00PM", "2:00PM")])
T.search(minutes_from_midnight("11:00AM"), minutes_from_midnight("1:30PM"))
Which returns:
[{ScheduleItem: (43564, "8:00AM", "12:00PM")}, {ScheduleItem: (53453, "1:00PM", "2:00PM")}]
- I need this data structure for a program I'm writing and couldn't find a good implementation that I could understand or easily extend
- This was a good exercise. I wanted to see if I could implement a data structure from a technical specification.
- Just started learning python - wanted to do something computer science-y
-
If you see anything wrong with the implementation, please comment. I have tested it on some large datasets and it seems to work as expected.
-
Currently this implementation lacks any sort of ability to add items after instantiation. Therefore this data structure is immutable. This could either be a feature or a bug depending on your perspective :) To add other intervals to an instantiated tree `k`, you could do something like `k = IntervalTree(k.search(S, L) + [Interval(8, 12), Interval(2, 3)])` where S and L are numerical values representing the the range of values in `k`.
Hope it's useful for someone (or that you learned something)!