cubo especie
Estas propiedades algoritmo
Este algoritmo es aplicable escena
la implementación del código
# 桶排序可以看成是基数排序的升级版,计数排序的一个单位是一个数,而桶排序的一个单位是一个区间
def bucktetSort(numList,bucketNum):
import math
if len(numList) <=0:
return numList
maxNum = max(numList)
minNum = min(numList)
bucketLength = len(numList)-1
bucketSize = ((maxNum - minNum) / bucketLength) # 根据桶的数量找到每个桶的取值范围
buckets = [[] for i in range(bucketLength)]
for i in range(len(numList)): # 将各个数分配到各个桶
# num_bucktes_local界定范围.只要大于第n个桶,就是在第n+1个桶里.所以是向上取整.
#比如说 numList = [1,40,50,60,200].
num_bucktes_local =math.ceil((numList[i] - minNum) / bucketSize)-1
if num_bucktes_local<=0: # 最小值是 == -1 的.
num_bucktes_local = 0
buckets[num_bucktes_local].append(numList[i])
# ---可删除---
print('桶的取值范围是:',bucketSize)
print('每个桶的藏的宝贝都是:',buckets)
# ---可删除---
for i in range(bucketLength):# 桶内排序,可以使用各种排序方法
buckets[i].sort()
res = []
for i in range(len(buckets)):# 分别将各个桶内的数提出来,压入结果
res.extend(buckets[i])
return res
# ---测试数据---
import unittest
class TestData(unittest.TestCase):
def test_one(self):
numlist = [1,50.76,75,150,200,321,321,32,992]
print(bucktetSort(numlist,5),'\n'*2)
def test_two(self):
numlist = [-13,321,43,6,9,99,12]
print(bucktetSort(numlist,5),'\n'*2)
def test_three(self):
numlist = [1,50.76,12,321,54,787,43]
print(bucktetSort(numlist,5),'\n'*2)
# ---测试数据结束---
if __name__ == "__main__":
unittest.main() # 调用测试数据
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