Python/searches/quick_select.py

import collections
import sys
import random
import time
import math
"""
A python implementation of the quick select algorithm, which is efficient for calculating the value that would appear in the index of a list if it would be sorted, even if it is not already sorted
https://en.wikipedia.org/wiki/Quickselect
"""
def _partition(data, pivot):
    """
    Three way partition the data into smaller, equal and greater lists,
    in relationship to the pivot
    :param data: The data to be sorted (a list)
    :param pivot: The value to partition the data on
    :return: Three list: smaller, equal and greater
    """
    less, equal, greater = [], [], []
    for element in data:
        if element.address < pivot.address:
            less.append(element)
        elif element.address > pivot.address:
            greater.append(element)
        else:
            equal.append(element)
    return less, equal, greater
    
    def quickSelect(list, k):
    #k = len(list) // 2 when trying to find the median (index that value would be when list is sorted)
      smaller = []
      larger = []
      pivot = random.randint(0, len(list) - 1)
      pivot = list[pivot]
      count = 0
      smaller, equal, larger =_partition(list, pivot)
      count = len(equal)
      m = len(smaller)

      #k is the pivot
      if m <= k < m + count:
        return pivot
    # must be in smaller
      elif m > k:
        return quickSelect(smaller, k)
    #must be in larger
      else:
        return quickSelect(larger, k - (m + count))
Create quick_select.py 2017-10-09 21:26:27 +00:00			`import collections`
			`import sys`
			`import random`
			`import time`
			`import math`
			`"""`
			`A python implementation of the quick select algorithm, which is efficient for calculating the value that would appear in the index of a list if it would be sorted, even if it is not already sorted`
			`https://en.wikipedia.org/wiki/Quickselect`
			`"""`
			`def _partition(data, pivot):`
			`"""`
			`Three way partition the data into smaller, equal and greater lists,`
			`in relationship to the pivot`
			`:param data: The data to be sorted (a list)`
			`:param pivot: The value to partition the data on`
			`:return: Three list: smaller, equal and greater`
			`"""`
			`less, equal, greater = [], [], []`
			`for element in data:`
			`if element.address < pivot.address:`
			`less.append(element)`
			`elif element.address > pivot.address:`
			`greater.append(element)`
			`else:`
			`equal.append(element)`
			`return less, equal, greater`

			`def quickSelect(list, k):`
			`#k = len(list) // 2 when trying to find the median (index that value would be when list is sorted)`
			`smaller = []`
			`larger = []`
			`pivot = random.randint(0, len(list) - 1)`
			`pivot = list[pivot]`
			`count = 0`
			`smaller, equal, larger =_partition(list, pivot)`
			`count = len(equal)`
			`m = len(smaller)`

			`#k is the pivot`
			`if m <= k < m + count:`
			`return pivot`
			`# must be in smaller`
			`elif m > k:`
			`return quickSelect(smaller, k)`
			`#must be in larger`
			`else:`
			`return quickSelect(larger, k - (m + count))`