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sort-an-array.py
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# Time: O(nlogn)
# Space: O(n)
# merge sort solution
class Solution(object):
def sortArray(self, nums):
"""
:type nums: List[int]
:rtype: List[int]
"""
def mergeSort(left, right, nums):
if left == right:
return
mid = left + (right-left)//2
mergeSort(left, mid, nums)
mergeSort(mid+1, right, nums)
r = mid+1
tmp = []
for l in xrange(left, mid+1):
while r <= right and nums[r] < nums[l]:
tmp.append(nums[r])
r += 1
tmp.append(nums[l])
nums[left:left+len(tmp)] = tmp
mergeSort(0, len(nums)-1, nums)
return nums
# Time: O(nlogn), on average
# Space: O(logn)
import random
# quick sort solution
class Solution2(object):
def sortArray(self, nums):
"""
:type nums: List[int]
:rtype: List[int]
"""
def nth_element(nums, left, n, right, compare=lambda a, b: a < b):
def tri_partition(nums, left, right, target):
i = left
while i <= right:
if compare(nums[i], target):
nums[i], nums[left] = nums[left], nums[i]
left += 1
i += 1
elif compare(target, nums[i]):
nums[i], nums[right] = nums[right], nums[i]
right -= 1
else:
i += 1
return left, right
while left <= right:
pivot_idx = random.randint(left, right)
pivot_left, pivot_right = tri_partition(nums, left, right, nums[pivot_idx])
if pivot_left <= n <= pivot_right:
return
elif pivot_left > n:
right = pivot_left-1
else: # pivot_right < n.
left = pivot_right+1
def quickSort(left, right, nums):
if left > right:
return
mid = left + (right-left)//2
nth_element(nums, left, mid, right)
quickSort(left, mid-1, nums)
quickSort(mid+1, right, nums)
quickSort(0, len(nums)-1, nums)
return nums