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@BarclayII

BarclayII/rbtree.py

Last active September 30, 2022 06:20
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RBTree
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rbtree.py
class Node(object):
def __init__(self, key, red):
self.key = key
self.left = self.right = self.parent = None
self.red = red
@property
def grandparent(self):
if self.parent is None:
return None
return self.parent.parent
@property
def sibling(self):
if self.parent is None:
return None
parent = self.parent
if self is parent.left:
return parent.right
else:
return parent.left
@property
def uncle(self):
if self.parent is None:
return None
return self.parent.sibling
class RBTree(object):
def __init__(self):
self.root = None
def dump(self):
return self._dump(self.root)
def _dump(self, node):
if node is None:
return ''
if node.left is not None:
assert node.left.parent is node
if node.right is not None:
assert node.right.parent is node
return '( %s %s:%s %s )' % (
self._dump(node.left),
node.key,
'red' if node.red else 'black',
self._dump(node.right),
)
def insert(self, key):
node = Node(key, True)
if self.root is None:
self.root = node
return
cur = self.root
while True:
if cur.key == key:
return
elif cur.key < key:
if cur.right is None:
cur.right = node
node.parent = cur
break
else:
cur = cur.right
else:
if cur.left is None:
cur.left = node
node.parent = cur
break
else:
cur = cur.left
self._insert_repair(node)
self.root = node
while self.root.parent is not None:
self.root = self.root.parent
def _rol(self, node):
assert node.right is not None
parent = node.parent
child = node.right
node.right = child.left
if child.left is not None:
child.left.parent = node
child.left = node
node.parent = child
if parent is None:
child.parent = None
elif node is parent.left:
parent.left = child
child.parent = parent
else:
parent.right = child
child.parent = parent
def _ror(self, node):
assert node.left is not None
parent = node.parent
child = node.left
node.left = child.right
if child.right is not None:
child.right.parent = node
child.right = node
node.parent = child
if parent is None:
child.parent = None
elif node is parent.right:
parent.right = child
child.parent = parent
else:
parent.left = child
child.parent = parent
def _insert_repair(self, node):
cur = node
while True:
if cur.parent is None:
# root
break
elif not cur.parent.red:
# parent is black; adding a red node is fine
break
# parent is red...
elif cur.grandparent is None:
# children of the root; simply repaint the root node to black
cur.parent.red = False
break
# parent is red so grandparent must be black...
elif cur.uncle is not None and cur.uncle.red:
# uncle is red; simply repaint the nodes
cur.parent.red = cur.uncle.red = False
cur.grandparent.red = True
cur = cur.grandparent
# parent is red and uncle is black;
else:
if (cur.grandparent.left is not None and
cur is cur.grandparent.left.right):
self._rol(cur.parent)
cur = cur.left
elif (cur.grandparent.right is not None and
cur is cur.grandparent.right.left):
self._ror(cur.parent)
cur = cur.right
if (cur.grandparent.left is not None and
cur is cur.grandparent.left.left):
cur.grandparent.red = True
cur.parent.red = False
self._ror(cur.grandparent)
elif (cur.grandparent.right is not None and
cur is cur.grandparent.right.right):
cur.grandparent.red = True
cur.parent.red = False
self._rol(cur.grandparent)
break
def _remove_repair(self, node):
while node.parent is not None:
if node.sibling is not None and node.sibling.red:
node.parent.red = True
node.sibling.red = False
if node is node.parent.left:
self._rol(node.parent)
else:
self._ror(node.parent)
if not node.parent.red and not node.sibling.red and \
(node.sibling.left is None or not node.sibling.left.red) and \
(node.sibling.right is None or not node.sibling.right.red):
node.sibling.red = True
node = node.parent
continue
elif node.parent.red and not node.sibling.red and \
(node.sibling.left is None or not node.sibling.left.red) and \
(node.sibling.right is None or not node.sibling.right.red):
node.sibling.red = True
node.parent.red = False
else:
assert node.sibling is None or not node.sibling.red
if node is node.parent.left and (node.sibling.right is None or not node.sibling.right.red):
assert node.sibling.left.red
node.sibling.red = True
node.sibling.left.red = False
self._ror(node.sibling)
elif node is node.parent.right and (node.sibling.left is None or not node.sibling.left.red):
assert node.sibling.right.red
node.sibling.red = True
node.sibling.right.red = False
self._rol(node.sibling)
node.sibling.red = node.parent.red
node.parent.red = False
if node is node.parent.left:
node.right.red = False
self._rol(node.parent)
else:
node.left.red = False
self._ror(node.parent)
break
def remove(self, key):
cur = self.root
while cur is not None:
if cur.key == key:
break
elif cur.key < key:
cur = cur.right
else:
cur = cur.left
if cur is None:
return
# the node to be removed
if cur.left is not None:
node = cur.left
while node.right is not None:
node = node.right
child = node.left
elif cur.right is not None:
node = cur.right
while node.left is not None:
node = node.left
child = node.right
else:
node = cur
child = None
cur.key = node.key
if not node.red and child is None:
self._remove_repair(node)
if child is not None:
assert child.red
child.red = False
p = node.parent
if p is None:
self.root = child
elif p.left is node:
p.left = child
elif p.right is node:
p.right = child
if child is not None:
child.parent = p
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