#!/usr/bin/env python # coding: utf-8 # # Binary Search Trees # This is the code ot go along with the video explanation. Check out the video lecture for full details! # In[5]: class TreeNode: def __init__(self,key,val,left=None,right=None,parent=None): self.key = key self.payload = val self.leftChild = left self.rightChild = right self.parent = parent def hasLeftChild(self): return self.leftChild def hasRightChild(self): return self.rightChild def isLeftChild(self): return self.parent and self.parent.leftChild == self def isRightChild(self): return self.parent and self.parent.rightChild == self def isRoot(self): return not self.parent def isLeaf(self): return not (self.rightChild or self.leftChild) def hasAnyChildren(self): return self.rightChild or self.leftChild def hasBothChildren(self): return self.rightChild and self.leftChild def replaceNodeData(self,key,value,lc,rc): self.key = key self.payload = value self.leftChild = lc self.rightChild = rc if self.hasLeftChild(): self.leftChild.parent = self if self.hasRightChild(): self.rightChild.parent = self class BinarySearchTree: def __init__(self): self.root = None self.size = 0 def length(self): return self.size def __len__(self): return self.size def put(self,key,val): if self.root: self._put(key,val,self.root) else: self.root = TreeNode(key,val) self.size = self.size + 1 def _put(self,key,val,currentNode): if key < currentNode.key: if currentNode.hasLeftChild(): self._put(key,val,currentNode.leftChild) else: currentNode.leftChild = TreeNode(key,val,parent=currentNode) else: if currentNode.hasRightChild(): self._put(key,val,currentNode.rightChild) else: currentNode.rightChild = TreeNode(key,val,parent=currentNode) def __setitem__(self,k,v): self.put(k,v) def get(self,key): if self.root: res = self._get(key,self.root) if res: return res.payload else: return None else: return None def _get(self,key,currentNode): if not currentNode: return None elif currentNode.key == key: return currentNode elif key < currentNode.key: return self._get(key,currentNode.leftChild) else: return self._get(key,currentNode.rightChild) def __getitem__(self,key): return self.get(key) def __contains__(self,key): if self._get(key,self.root): return True else: return False def delete(self,key): if self.size > 1: nodeToRemove = self._get(key,self.root) if nodeToRemove: self.remove(nodeToRemove) self.size = self.size-1 else: raise KeyError('Error, key not in tree') elif self.size == 1 and self.root.key == key: self.root = None self.size = self.size - 1 else: raise KeyError('Error, key not in tree') def __delitem__(self,key): self.delete(key) def spliceOut(self): if self.isLeaf(): if self.isLeftChild(): self.parent.leftChild = None else: self.parent.rightChild = None elif self.hasAnyChildren(): if self.hasLeftChild(): if self.isLeftChild(): self.parent.leftChild = self.leftChild else: self.parent.rightChild = self.leftChild self.leftChild.parent = self.parent else: if self.isLeftChild(): self.parent.leftChild = self.rightChild else: self.parent.rightChild = self.rightChild self.rightChild.parent = self.parent def findSuccessor(self): succ = None if self.hasRightChild(): succ = self.rightChild.findMin() else: if self.parent: if self.isLeftChild(): succ = self.parent else: self.parent.rightChild = None succ = self.parent.findSuccessor() self.parent.rightChild = self return succ def findMin(self): current = self while current.hasLeftChild(): current = current.leftChild return current def remove(self,currentNode): if currentNode.isLeaf(): #leaf if currentNode == currentNode.parent.leftChild: currentNode.parent.leftChild = None else: currentNode.parent.rightChild = None elif currentNode.hasBothChildren(): #interior succ = currentNode.findSuccessor() succ.spliceOut() currentNode.key = succ.key currentNode.payload = succ.payload else: # this node has one child if currentNode.hasLeftChild(): if currentNode.isLeftChild(): currentNode.leftChild.parent = currentNode.parent currentNode.parent.leftChild = currentNode.leftChild elif currentNode.isRightChild(): currentNode.leftChild.parent = currentNode.parent currentNode.parent.rightChild = currentNode.leftChild else: currentNode.replaceNodeData(currentNode.leftChild.key, currentNode.leftChild.payload, currentNode.leftChild.leftChild, currentNode.leftChild.rightChild) else: if currentNode.isLeftChild(): currentNode.rightChild.parent = currentNode.parent currentNode.parent.leftChild = currentNode.rightChild elif currentNode.isRightChild(): currentNode.rightChild.parent = currentNode.parent currentNode.parent.rightChild = currentNode.rightChild else: currentNode.replaceNodeData(currentNode.rightChild.key, currentNode.rightChild.payload, currentNode.rightChild.leftChild, currentNode.rightChild.rightChild) # In[6]: mytree = BinarySearchTree() mytree[3]="red" mytree[4]="blue" mytree[6]="yellow" mytree[2]="at" print(mytree[6]) print(mytree[2]) # ** Check the video for full explanation! **