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7bc0462e79
* Non-recursive Segment Tree implementation * Added type hints and explanations links
154 lines
4.3 KiB
Python
154 lines
4.3 KiB
Python
"""
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A non-recursive Segment Tree implementation with range query and single element update,
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works virtually with any list of the same type of elements with a "commutative" combiner.
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Explanation:
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https://www.geeksforgeeks.org/iterative-segment-tree-range-minimum-query/
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https://www.geeksforgeeks.org/segment-tree-efficient-implementation/
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>>> SegmentTree([1, 2, 3], lambda a, b: a + b).query(0, 2)
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6
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>>> SegmentTree([3, 1, 2], min).query(0, 2)
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1
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>>> SegmentTree([2, 3, 1], max).query(0, 2)
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3
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>>> st = SegmentTree([1, 5, 7, -1, 6], lambda a, b: a + b)
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>>> st.update(1, -1)
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>>> st.update(2, 3)
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>>> st.query(1, 2)
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2
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>>> st.query(1, 1)
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-1
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>>> st.update(4, 1)
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>>> st.query(3, 4)
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0
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>>> st = SegmentTree([[1, 2, 3], [3, 2, 1], [1, 1, 1]], lambda a, b: [a[i] + b[i] for i in range(len(a))])
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>>> st.query(0, 1)
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[4, 4, 4]
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>>> st.query(1, 2)
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[4, 3, 2]
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>>> st.update(1, [-1, -1, -1])
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>>> st.query(1, 2)
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[0, 0, 0]
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>>> st.query(0, 2)
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[1, 2, 3]
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"""
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from typing import List, Callable, TypeVar
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T = TypeVar("T")
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class SegmentTree:
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def __init__(self, arr: List[T], fnc: Callable[[T, T], T]) -> None:
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"""
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Segment Tree constructor, it works just with commutative combiner.
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:param arr: list of elements for the segment tree
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:param fnc: commutative function for combine two elements
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>>> SegmentTree(['a', 'b', 'c'], lambda a, b: '{}{}'.format(a, b)).query(0, 2)
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'abc'
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>>> SegmentTree([(1, 2), (2, 3), (3, 4)], lambda a, b: (a[0] + b[0], a[1] + b[1])).query(0, 2)
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(6, 9)
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"""
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self.N = len(arr)
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self.st = [None for _ in range(len(arr))] + arr
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self.fn = fnc
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self.build()
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def build(self) -> None:
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for p in range(self.N - 1, 0, -1):
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self.st[p] = self.fn(self.st[p * 2], self.st[p * 2 + 1])
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def update(self, p: int, v: T) -> None:
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"""
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Update an element in log(N) time
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:param p: position to be update
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:param v: new value
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>>> st = SegmentTree([3, 1, 2, 4], min)
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>>> st.query(0, 3)
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1
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>>> st.update(2, -1)
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>>> st.query(0, 3)
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-1
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"""
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p += self.N
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self.st[p] = v
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while p > 1:
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p = p // 2
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self.st[p] = self.fn(self.st[p * 2], self.st[p * 2 + 1])
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def query(self, l: int, r: int) -> T:
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"""
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Get range query value in log(N) time
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:param l: left element index
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:param r: right element index
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:return: element combined in the range [l, r]
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>>> st = SegmentTree([1, 2, 3, 4], lambda a, b: a + b)
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>>> st.query(0, 2)
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6
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>>> st.query(1, 2)
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5
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>>> st.query(0, 3)
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10
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>>> st.query(2, 3)
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7
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"""
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l, r = l + self.N, r + self.N
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res = None
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while l <= r:
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if l % 2 == 1:
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res = self.st[l] if res is None else self.fn(res, self.st[l])
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if r % 2 == 0:
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res = self.st[r] if res is None else self.fn(res, self.st[r])
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l, r = (l + 1) // 2, (r - 1) // 2
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return res
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if __name__ == "__main__":
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from functools import reduce
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test_array = [1, 10, -2, 9, -3, 8, 4, -7, 5, 6, 11, -12]
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test_updates = {
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0: 7,
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1: 2,
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2: 6,
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3: -14,
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4: 5,
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5: 4,
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6: 7,
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7: -10,
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8: 9,
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9: 10,
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10: 12,
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11: 1,
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}
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min_segment_tree = SegmentTree(test_array, min)
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max_segment_tree = SegmentTree(test_array, max)
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sum_segment_tree = SegmentTree(test_array, lambda a, b: a + b)
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def test_all_segments():
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"""
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Test all possible segments
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"""
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for i in range(len(test_array)):
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for j in range(i, len(test_array)):
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min_range = reduce(min, test_array[i : j + 1])
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max_range = reduce(max, test_array[i : j + 1])
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sum_range = reduce(lambda a, b: a + b, test_array[i : j + 1])
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assert min_range == min_segment_tree.query(i, j)
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assert max_range == max_segment_tree.query(i, j)
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assert sum_range == sum_segment_tree.query(i, j)
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test_all_segments()
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for index, value in test_updates.items():
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test_array[index] = value
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min_segment_tree.update(index, value)
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max_segment_tree.update(index, value)
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sum_segment_tree.update(index, value)
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test_all_segments()
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