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Editable interval tree data structure for Python 2 and 3

pip install intervaltree

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    intervaltree

    A mutable, self-balancing interval tree for Python 2 and 3. Queries may be by point, by range overlap, or by range envelopment.

    This library was designed to allow tagging text and time intervals, where the intervals include the lower bound but not the upper bound.

    Version 3 changes!

    • The search(begin, end, strict) method no longer exists. Instead, use one of these:
      • at(point)
      • overlap(begin, end)
      • envelop(begin, end)
    • The extend(items) method no longer exists. Instead, use update(items).
    • Methods like merge_overlaps() which took a strict argument consistently default to strict=True. Before, some methods defaulted to True and others to False.

    Installing

    pip install intervaltree
    

    Features

    • Supports Python 2.7 and Python 3.5+ (Tested under 2.7, and 3.5 thru 3.8)

    • Initializing

      • blank tree = IntervalTree()
      • from an iterable of Interval objects (tree = IntervalTree(intervals))
      • from an iterable of tuples (tree = IntervalTree.from_tuples(interval_tuples))
    • Insertions

      • tree[begin:end] = data
      • tree.add(interval)
      • tree.addi(begin, end, data)
    • Deletions

      • tree.remove(interval) (raises ValueError if not present)
      • tree.discard(interval) (quiet if not present)
      • tree.removei(begin, end, data) (short for tree.remove(Interval(begin, end, data)))
      • tree.discardi(begin, end, data) (short for tree.discard(Interval(begin, end, data)))
      • tree.remove_overlap(point)
      • tree.remove_overlap(begin, end) (removes all overlapping the range)
      • tree.remove_envelop(begin, end) (removes all enveloped in the range)
    • Point queries

      • tree[point]
      • tree.at(point) (same as previous)
    • Overlap queries

      • tree[begin:end]
      • tree.overlap(begin, end) (same as previous)
    • Envelop queries

      • tree.envelop(begin, end)
    • Membership queries

      • interval_obj in tree (this is fastest, O(1))
      • tree.containsi(begin, end, data)
      • tree.overlaps(point)
      • tree.overlaps(begin, end)
    • Iterable

      • for interval_obj in tree:
      • tree.items()
    • Sizing

      • len(tree)
      • tree.is_empty()
      • not tree
      • tree.begin() (the begin coordinate of the leftmost interval)
      • tree.end() (the end coordinate of the rightmost interval)
    • Set-like operations

      • union

        • result_tree = tree.union(iterable)
        • result_tree = tree1 | tree2
        • tree.update(iterable)
        • tree |= other_tree
      • difference

        • result_tree = tree.difference(iterable)
        • result_tree = tree1 - tree2
        • tree.difference_update(iterable)
        • tree -= other_tree
      • intersection

        • result_tree = tree.intersection(iterable)
        • result_tree = tree1 & tree2
        • tree.intersection_update(iterable)
        • tree &= other_tree
      • symmetric difference

        • result_tree = tree.symmetric_difference(iterable)
        • result_tree = tree1 ^ tree2
        • tree.symmetric_difference_update(iterable)
        • tree ^= other_tree
      • comparison

        • tree1.issubset(tree2) or tree1 <= tree2
        • tree1 <= tree2
        • tree1.issuperset(tree2) or tree1 > tree2
        • tree1 >= tree2
        • tree1 == tree2
    • Restructuring

      • chop(begin, end) (slice intervals and remove everything between begin and end, optionally modifying the data fields of the chopped-up intervals)
      • slice(point) (slice intervals at point)
      • split_overlaps() (slice at all interval boundaries, optionally modifying the data field)
      • merge_overlaps() (joins overlapping intervals into a single interval, optionally merging the data fields)
      • merge_equals() (joins intervals with matching ranges into a single interval, optionally merging the data fields)
    • Copying and typecasting

      • IntervalTree(tree) (Interval objects are same as those in tree)
      • tree.copy() (Interval objects are shallow copies of those in tree)
      • set(tree) (can later be fed into IntervalTree())
      • list(tree) (ditto)
    • Pickle-friendly

    • Automatic AVL balancing

    Examples

    • Getting started

      >>> from intervaltree import Interval, IntervalTree
      >>> t = IntervalTree()
      >>> t
      IntervalTree()
      
      
    • Adding intervals - any object works!

      >>> t[1:2] = "1-2"
      >>> t[4:7] = (4, 7)
      >>> t[5:9] = {5: 9}
      
      
    • Query by point

      The result of a query is a set object, so if ordering is important, you must sort it first.

      >>> sorted(t[6])
      [Interval(4, 7, (4, 7)), Interval(5, 9, {5: 9})]
      >>> sorted(t[6])[0]
      Interval(4, 7, (4, 7))
      
      
    • Query by range

      Note that ranges are inclusive of the lower limit, but non-inclusive of the upper limit. So:

      >>> sorted(t[2:4])
      []
      
      

      Since our search was over 2 ≤ x < 4, neither Interval(1, 2) nor Interval(4, 7) was included. The first interval, 1 ≤ x < 2 does not include x = 2. The second interval, 4 ≤ x < 7, does include x = 4, but our search interval excludes it. So, there were no overlapping intervals. However:

      >>> sorted(t[1:5])
      [Interval(1, 2, '1-2'), Interval(4, 7, (4, 7))]
      
      

      To only return intervals that are completely enveloped by the search range:

      >>> sorted(t.envelop(1, 5))
      [Interval(1, 2, '1-2')]
      
      
    • Accessing an Interval object

      >>> iv = Interval(4, 7, (4, 7))
      >>> iv.begin
      4
      >>> iv.end
      7
      >>> iv.data
      (4, 7)
      
      >>> begin, end, data = iv
      >>> begin
      4
      >>> end
      7
      >>> data
      (4, 7)
      
      
    • Constructing from lists of intervals

      We could have made a similar tree this way:

      >>> ivs = [(1, 2), (4, 7), (5, 9)]
      >>> t = IntervalTree(
      ...    Interval(begin, end, "%d-%d" % (begin, end)) for begin, end in ivs
      ... )
      
      

      Or, if we don't need the data fields:

      >>> t2 = IntervalTree(Interval(*iv) for iv in ivs)
      
      

      Or even:

      >>> t2 = IntervalTree.from_tuples(ivs)
      
      
    • Removing intervals

      >>> t.remove(Interval(1, 2, "1-2"))
      >>> sorted(t)
      [Interval(4, 7, '4-7'), Interval(5, 9, '5-9')]
      
      >>> t.remove(Interval(500, 1000, "Doesn't exist"))  # raises ValueError
      Traceback (most recent call last):
      ValueError
      
      >>> t.discard(Interval(500, 1000, "Doesn't exist"))  # quietly does nothing
      
      >>> del t[5]  # same as t.remove_overlap(5)
      >>> t
      IntervalTree()
      
      

      We could also empty a tree entirely:

      >>> t2.clear()
      >>> t2
      IntervalTree()
      
      

      Or remove intervals that overlap a range:

      >>> t = IntervalTree([
      ...     Interval(0, 10),
      ...     Interval(10, 20),
      ...     Interval(20, 30),
      ...     Interval(30, 40)])
      >>> t.remove_overlap(25, 35)
      >>> sorted(t)
      [Interval(0, 10), Interval(10, 20)]
      
      

      We can also remove only those intervals completely enveloped in a range:

      >>> t.remove_envelop(5, 20)
      >>> sorted(t)
      [Interval(0, 10)]
      
      
    • Chopping

      We could also chop out parts of the tree:

      >>> t = IntervalTree([Interval(0, 10)])
      >>> t.chop(3, 7)
      >>> sorted(t)
      [Interval(0, 3), Interval(7, 10)]
      
      

      To modify the new intervals' data fields based on which side of the interval is being chopped:

      >>> def datafunc(iv, islower):
      ...     oldlimit = iv[islower]
      ...     return "oldlimit: {0}, islower: {1}".format(oldlimit, islower)
      >>> t = IntervalTree([Interval(0, 10)])
      >>> t.chop(3, 7, datafunc)
      >>> sorted(t)[0]
      Interval(0, 3, 'oldlimit: 10, islower: True')
      >>> sorted(t)[1]
      Interval(7, 10, 'oldlimit: 0, islower: False')
      
      
    • Slicing

      You can also slice intervals in the tree without removing them:

      >>> t = IntervalTree([Interval(0, 10), Interval(5, 15)])
      >>> t.slice(3)
      >>> sorted(t)
      [Interval(0, 3), Interval(3, 10), Interval(5, 15)]
      
      

      You can also set the data fields, for example, re-using datafunc() from above:

      >>> t = IntervalTree([Interval(5, 15)])
      >>> t.slice(10, datafunc)
      >>> sorted(t)[0]
      Interval(5, 10, 'oldlimit: 15, islower: True')
      >>> sorted(t)[1]
      Interval(10, 15, 'oldlimit: 5, islower: False')
      
      

    Future improvements

    See the issue tracker on GitHub.

    Based on

    Copyright

    Licensed under the Apache License, version 2.0.

    The source code for this project is at https://github.com/chaimleib/intervaltree