堆(python)
2020-12-13 06:07
标签:nbsp lis max raise heap utf-8 sort min and 堆(python) 标签:nbsp lis max raise heap utf-8 sort min and 原文地址:https://www.cnblogs.com/muzinan110/p/11167044.html# -*- coding:utf-8 -*-
class Array(object):
def __init__(self, size=32):
self._size = size
self._items = [None] * size
def __getitem__(self, index):
return self._items[index]
def __setitem__(self, index, value):
self._items[index] = value
def __len__(self):
return self._size
def clear(self, value=None):
for i in range(len(self._items)):
self._items[i] = value
def __iter__(self):
for item in self._items:
yield item
class MaxHeap(object):
def __init__(self, maxsize=None):
self.maxsize = maxsize
self._elements = Array(maxsize)
self._count = 0
def __len__(self):
return self._count
def add(self, value):
if self._count >= self.maxsize:
raise Exception(‘full‘)
self._elements[self._count] = value
self._count += 1
self._siftup(self._count-1)
def _siftup(self, ndx):
if ndx > 0:
parent = int((ndx-1)/2)
if self._elements[ndx] > self._elements[parent]:
self._elements[ndx], self._elements[parent] = self._elements[parent], self._elements[ndx]
self._siftup(parent)
def extract(self):
if self._count 0:
raise Exception(‘empty‘)
value = self._elements[0]
self._count -= 1
self._elements[0] = self._elements[self._count]
self._siftdown(0)
return value
def _siftdown(self, ndx):
left = 2 * ndx + 1
right = 2 * ndx + 2
# determine which node contains the larger value
largest = ndx
if (left and # 有左孩子
self._elements[left] >= self._elements[largest] and
self._elements[left] >= self._elements[right]): # 原书这个地方没写实际上找的未必是largest
largest = left
elif right and self._elements[right] >= self._elements[largest]:
largest = right
if largest != ndx:
self._elements[ndx], self._elements[largest] = self._elements[largest], self._elements[ndx]
self._siftdown(largest)
def test_maxheap():
import random
n = 5
h = MaxHeap(n)
for i in range(n):
h.add(i)
for i in reversed(range(n)):
assert i == h.extract()
def heapsort_reverse(array):
length = len(array)
maxheap = MaxHeap(length)
for i in array:
maxheap.add(i)
res = []
for i in range(length):
res.append(maxheap.extract())
return res
def test_heapsort_reverse():
import random
l = list(range(10))
random.shuffle(l)
assert heapsort_reverse(l) == sorted(l, reverse=True)
def heapsort_use_heapq(iterable):
from heapq import heappush, heappop
items = []
for value in iterable:
heappush(items, value)
return [heappop(items) for i in range(len(items))]
def test_heapsort_use_heapq():
import random
l = list(range(10))
random.shuffle(l)
assert heapsort_use_heapq(l) == sorted(l)