Efficient implementation of the implicit treap data structure.
This package implements a tree-like data structure called implicit treap. This
data structure implements interface similar to random-access arrays, but with
fast (logarithmic time complexity)
insert
/delete
/split
/merge
/take
/drop
/rotate
operations. In addition,
treap allows you to specify and measure values of any monoids on a segment,
like a sum of elements or minimal element on some contiguous part of the array.
Use this package when you want the following operations to be fast:
take
or drop
or split
.Below you can find the table of time complexity for all operations (where n
is
the size of the treap):
Operation | Time complexity | Description |
---|---|---|
size |
O(1) |
Get number of elements in the treap |
at |
O(log n) |
Access by index |
insert |
O(log n) |
Insert by index |
delete |
O(log n) |
Delete by index |
query |
O(log n) |
Measure monoid on the segment |
splitAt |
O(log n) |
Split treap by index into two treaps |
merge |
O(log n) |
Merge two treaps into a single one |
take |
O(log n) |
Take first i elements of the treap |
drop |
O(log n) |
Drop first i elements of the treap |
rotate |
O(log n) |
Put first i elements to the end |
The package also comes with nice pretty-printing!
ghci> t = fromList [1..5] :: RTreap (Sum Int) Int
ghci> prettyPrint t
5,15:2
╱╲
╱ ╲
╱ ╲
╱ ╲
1,1:1 3,12:4
╱╲
╱ ╲
╱ ╲
1,3:3 1,5:5
If you don't need to calculate monoidal operations, you may alternatively use
Seq
from the containers
package as it provides more extended interface but doesn't
allow to measure monoidal values on segments.
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