algorithm-in-python/dataStructure/binaryHeap.py
2019-01-31 12:09:46 +08:00

139 lines
5.0 KiB
Python

''' mbinary
#########################################################################
# File : binaryHeap.py
# Author: mbinary
# Mail: zhuheqin1@gmail.com
# Blog: https://mbinary.xyz
# Github: https://github.com/mbinary
# Created Time: 2018-05-19 23:06
# Description:
#########################################################################
'''
from collections import Iterable
class node:
def __init__(self,val,freq=1):
self.val=val
self.freq = freq
def __eq__(self,a):
return self.val == a.val
def __lt__(self,a):
return self.val<a.val
def __le__(self,a):
return self.val<=a.val
def __gt__(self,a):
return self.val>a.val
def __ge__(self,a):
return self.val>=a.val
def __ne__(self,a):
return not self == a
class binaryHeap:
def __init__(self,s=None,sortByFrequency = False,reverse=False):
self.sortByFrequency=sortByFrequency
self.reverse = reverse
self.data = [node(0)] # make index begin with 1
if s==None:return
if not isinstance(s,Iterable):s = [s]
for i in s:
self.insert(i)
def __bool__(self):
return len(self)!=1
def _cmp(self,a,b):
if self.sortByFrequency:
if self.reverse:return a.freq>b.freq
else:return a.freq<b.freq
else:
if self.reverse:return a>b
else:return a<b
def insert(self,k):
if not isinstance(k,node): k = node(k)
for j in range(self.data[0].val):
i = self.data[j+1]
if i==k:
i.freq+=1
if self.sortByFrequency:
idx = self.percolateDown(j+1)
self.percolateUp(idx)
return
self.data.append(k)
self.data[0].val += 1
self.percolateUp()
def percolateUp(self,n=None):
if n ==None:n=self.data[0].val
tmp = self.data[n]
while n!=1 and self._cmp(tmp,self.data[n//2]):
self.data[n] = self.data[n//2]
n = n//2
self.data[n] = tmp
def deleteTop(self):
tmp = self.data[1]
i = self.percolateDown(1)
self.data[i] = self.data[-1]
self.data[0].val-= 1
del self.data[-1]
return tmp
def percolateDown(self,i):
tmp = self.data[i]
while self.data[0].val>=2*i+1:
if self._cmp(self.data[i*2],self.data[2*i+1]):
self.data[i] = self.data[2*i]
i = 2*i
else:
self.data[i] = self.data[2*i+1]
i = 2*i+1
self.data[i] = tmp
return i
def __len__(self):
return self.data[0].val
def Nth(self,n=1):
tmp = []
for i in range(n):
tmp.append(self.deleteTop())
for i in tmp:
self.insert(i)
return tmp[-1]
def display(self):
val =self.data[0].val+1
if self.sortByFrequency:
info='heapSort by Frequency:'
else:info = 'heapSort by Value:'
if self.reverse:
info +=' From big to small'
else:info +=' From small to big'
print('*'*15)
print(info)
print('total items:%d\nval\tfreq'%(val-1))
fmt = '{}\t{}'
for i in range(1,val):
print(fmt.format(self.data[i].val,self.data[i].freq))
print('*'*15)
class Test:
def topKFrequent(self, words, k):
hp = binaryHeap(sortByFrequency = True,reverse=True)
for i in words:
hp.insert(i)
hp.display()
n = len(hp)
mp = {}
while hp:
top = hp.deleteTop()
if top.freq in mp:
mp[top.freq].append(top.val)
else:
mp[top.freq] = [top.val]
for i in mp:
mp[i].sort()
key = sorted(mp.keys(),reverse = True)
rst = []
count = 0
for i in key:
for j in mp[i]:
rst.append(j)
count+=1
if count == k:return rst
if __name__ == '__main__':
s=["plpaboutit","jnoqzdute","sfvkdqf","mjc","nkpllqzjzp","foqqenbey","ssnanizsav","nkpllqzjzp","sfvkdqf","isnjmy","pnqsz","hhqpvvt","fvvdtpnzx","jkqonvenhx","cyxwlef","hhqpvvt","fvvdtpnzx","plpaboutit","sfvkdqf","mjc","fvvdtpnzx","bwumsj","foqqenbey","isnjmy","nkpllqzjzp","hhqpvvt","foqqenbey","fvvdtpnzx","bwumsj","hhqpvvt","fvvdtpnzx","jkqonvenhx","jnoqzdute","foqqenbey","jnoqzdute","foqqenbey","hhqpvvt","ssnanizsav","mjc","foqqenbey","bwumsj","ssnanizsav","fvvdtpnzx","nkpllqzjzp","jkqonvenhx","hhqpvvt","mjc","isnjmy","bwumsj","pnqsz","hhqpvvt","nkpllqzjzp","jnoqzdute","pnqsz","nkpllqzjzp","jnoqzdute","foqqenbey","nkpllqzjzp","hhqpvvt","fvvdtpnzx","plpaboutit","jnoqzdute","sfvkdqf","fvvdtpnzx","jkqonvenhx","jnoqzdute","nkpllqzjzp","jnoqzdute","fvvdtpnzx","jkqonvenhx","hhqpvvt","isnjmy","jkqonvenhx","ssnanizsav","jnoqzdute","jkqonvenhx","fvvdtpnzx","hhqpvvt","bwumsj","nkpllqzjzp","bwumsj","jkqonvenhx","jnoqzdute","pnqsz","foqqenbey","sfvkdqf","sfvkdqf"]
test = Test()
print(test.topKFrequent(s,5))