# Binary search tree that holds status of sweep line. Only leaves hold values.
# Operations for finding left and right neighbors of a query point p and finding which segments contain p.
# Author: Sam Lichtenberg
# Email: splichte@princeton.edu
# Date: 09/02/2013
from pauvre.lsi.helper import *
ev = 0.00000001
class Q:
def __init__(self, key, value):
self.key = key
self.value = value
self.left = None
self.right = None
def find(self, key):
if self.key is None:
return False
c = compare_by_y(key, self.key)
if c==0:
return True
elif c==-1:
if self.left:
self.left.find(key)
else:
return False
else:
if self.right:
self.right.find(key)
else:
return False
def insert(self, key, value):
if self.key is None:
self.key = key
self.value = value
c = compare_by_y(key, self.key)
if c==0:
self.value += value
elif c==-1:
if self.left is None:
self.left = Q(key, value)
else:
self.left.insert(key, value)
else:
if self.right is None:
self.right = Q(key, value)
else:
self.right.insert(key, value)
# must return key AND value
def get_and_del_min(self, parent=None):
if self.left is not None:
return self.left.get_and_del_min(self)
else:
k = self.key
v = self.value
if parent:
parent.left = self.right
# i.e. is root node
else:
if self.right:
self.key = self.right.key
self.value = self.right.value
self.left = self.right.left
self.right = self.right.right
else:
self.key = None
return k,v
def print_tree(self):
if self.left:
self.left.print_tree()
print(self.key)
print(self.value)
if self.right:
self.right.print_tree()