Siema. Słuchajcie - naskrobałem takie sobie drzewo w pythonie. Niby wszystko git przy małych drzewach,ale przy drzewach generowanych losowo (np. 5000 nodeów) operacja usuwania się zapętla... Prawdopodobnie źle przepinam wskaźniki przy usuwaniu (np. parent.left=node.left etc). Ktoś mógłby mi pomóc przy lokalizacji buga? Nie mam już siły i pomysłów. Cały kod przestudiowałem już z kilkanaście/kilkadziesiąt razy.
```import random
class Node:
def __init__(self, val):
self.val = val
self.parent = None
self.right = None
self.left = None
# Class of node.
def str(self):
return str(self.val)
class MyTree:
def __init__(self, node):
self.root = node
def insert(self, node):
current = self.root
a = True
while a:
if node.val > current.val:
if current.right is not None:
current = current.right
continue
else:
current.right = node
node.parent = current
a = False
if node.val <= current.val:
if current.left is not None:
current = current.left
continue
else:
current.left = node
node.parent = current
a = False
def search(self, node):
current = self.root
while node.val != current.val:
if node.val > current.val:
current = current.right
continue
elif node.val <= current.val:
current = current.left
continue
if node.val == current.val:
return current
else:
print("There is no such node!")
def delete(self, node):
if isinstance(node, (float, int)):
node = self.search(node)
if node is self.root:
self.__deleteRoot()
return
else:
if node.right is None and node.left is None:
self.__deleteNN(node)
return
if node.right is None and node.left is not None:
self.__deleteLN(node)
return
if node.right is not None and node.left is None:
self.__deleteNR(node)
return
if node.right is not None and node.left is not None:
self.__deleteLR(node)
return
def __deleteNN(self, node):
if node.parent.left is node:
node.parent.left = None
if node.parent.right is node:
node.parent.right = None
def __deleteLN(self, node):
parent = node.parent
son = node.left
# parent replaced
if parent.left is node:
parent.left = son
if parent.right is node:
parent.right = son
son.parent = parent
def __deleteNR(self,node):
parent = node.parent
son = node.right
# replace parent
if parent.left is node:
parent.left = son
if parent.right is node:
parent.right = son
son.parent = parent
def __deleteLR(self, node):
minimal = self.getMinimal(node.right)
if minimal.parent.left is minimal:
minimal.parent.left = None
if minimal.parent.right is minimal:
minimal.parent.right = None
# parent of minimal done..
if node.parent.left is node:
node.parent.left = minimal
if node.parent.right is node:
node.parent.right = minimal
minimal.right = node.right
minimal.left = node.left
def getMinimal(self, node):
k = node
while k.left is not None:
k = k.left
return k
def getMax(self):
current = self.root
while current.right:
current = current.right
return current
def __trav(self, node):
if not node:
return
print(node.val)
self.__trav(node.left)
self.__trav(node.right)
def printTrav(self):
self.__trav(self.root)
def __deleteRoot(self):
if self.root.left is None and self.root.right is None:
self.root = None
return
if self.root.left is None and self.root.right is not None:
# left empty,right full
self.root.right.parent = None
self.root = self.root.right
return
if self.root.left is not None and self.root.right is None:
# right empty, left full
self.root.left.parent = None
self.root = self.root.left
return
# node has both children
if self.root.left is not None and self.root.right is not None:
temp = self.getMinimal(self.root.right) # minimal from right subtree
# sometimes it could be like this..
# r
# \
# x
if temp.parent.left is temp:
temp.parent.left = None
else:
temp.parent.right = None
self.root.left.parent = temp
self.root.right.parent = temp
temp.right = self.root.right
temp.left = self.root.left
self.root = temp
self.root.parent = None
return
def search(self, val):
node = self.root
if node.val == val:
return node
if val > node.val and node.right is not None:
node = node.right
if val < node.val and node.left is not None:
node = node.left
else:
print("There's no such value!")
return
def printMax(self):
print(self.getMax().val)
def printMin(self):
print(self.getMinimal(self.root).val)
arr=[None]*2500
for x in range(2500):
arr[x]=Node(random.randint(0,10000))
myTree = MyTree(arr[0])
for x in range(1,2500):
myTree.insert(arr[x])
for x in range(2500):
print(arr[x].val)
myTree.delete(arr[x])