binary search tree python

class Binarytree: def __init__(self,data): self.data = data self.left = None self.right = None def addChild(self, data): if data == self.data: return if data < self.data: if self.left: self.left.addChild(data) else: self.left = Binarytree(data) else: if self.right: self.right.addChild(data) else: self.right = Binarytree(data) # This functions find element in binary tree def search(self,val): if val == self.data: return True if val < self.data: if self.left: return self.left.search(val) else: return False else: if self.right: return self.right.search(val) else: return False def buildtree(element): root = Binarytree(element[0]) for i in range(1,len(element)): root.addChild(element[i]) return root if __name__ == '__main__': element = [39, 87, 21, 42, 95, 52, 12] tree = buildtree(element) print(tree.search(38))

class Binarytree: def __init__(self,data): self.data = data self.left = None self.right = None def addChild(self, data): if data == self.data: return if data < self.data: if self.left: self.left.addChild(data) else: self.left = Binarytree(data) else: if self.right: self.right.addChild(data) else: self.right = Binarytree(data) def inorder(self): element = [ ] if self.left: element += self.left.inorder() element.append(self.data) if self.right: element += self.right.inorder() return element def search(self,val): if val == self.data: return True if val < self.data: if self.left: return self.left.search(val) else: return False else: if self.right: return self.right.search(val) else: return False def buildtree(element): root = Binarytree(element[0]) for i in range(1,len(element)): root.addChild(element[i]) return root if __name__ == '__main__': element = [39, 87, 21, 42, 95, 52, 12] tree = buildtree(element) print(tree.inorder()) print(tree.search(38))

class BinaryTree: def __init__(self, value): self.left = None self.right = None self.value = value def insert(self, value): if self.value: if data < self.value: if self.left is None: self.left = BinaryTree(value) else: self.left.insert(value) elif data > self.value: if self.right is None: self.right = BinaryTree(value) else: self.right.insert(value) else: self.value = value def PrintTree(self): if self.left: self.left.PrintTree() print( self.data), if self.right: self.right.PrintTree() root = BinaryTree(100) root.insert(50) root.insert(55) root.insert(60) root.insert(20) root.insert(52) root.PrintTree() PythonCopy

class Binary: def __init__(self, data): self.data = data self.left = None self.right = None def addChild(self, data): if data == self.data: return if data < self.data: if self.left: self.left.addChild(data) else: self.left = Binary(data) else: if self.right: self.right.addChild(data) else: self.right = Binary(data) def inorder(self): ele = [] if self.left: ele += self.left.inorder() ele.append(self.data) if self.right: ele += self.right.inorder() return ele def search(self, data): if data == self.data: return True if data < self.data: if self.left: return self.left.search(data) else: return False else: if self.right: return self.right.search(data) else: return False def find_min(self): if self.left is None: return self.data return self.left.find_min() def find_max(self): if self.right is None: return self.data return self.right.find_max() def delete(self, val): if val < self.data: if self.left: self.left = self.left.delete(val) elif val > self.data: if self.right: self.right = self.right.delete(val) else: if self.left is None and self.right is None: return None if self.left is None: return self.right if self.right is None: return self.left min_val = self.right.find_min() self.data = min_val self.right = self.right.delete(val) return self def build(element): root = Binary(element[0]) for i in range(1,len(element)): root.addChild(element[i]) return root if __name__ == '__main__': element = [32, 89, 12, 94, 23, 61, 2] tree = build(element) print(tree.inorder()) print(tree.search(62)) print(tree.find_min()) print(tree.find_max()) tree.delete(12) print(tree.inorder())

python code for binary search tree

#Complete Binary Search Tree Using Python 3

class node:
    def  __init__(self,data):
        self.data=data
        self.left=None
        self.right=None

class binarytree:
    def __init__(self):
        self.root=None

#INSERT

    def insert(self,data):
        if self.root==None:				
            self.root=node(data)
        else:
            self._insert(data,self.root)
    def _insert(self,data,cur_node):
        if data<cur_node.data:
            if cur_node.left==None:			
                cur_node.left=node(data)
            else:
                self._insert(data,cur_node.left) 
        elif data>cur_node.data:			
            if cur_node.right==None:
                cur_node.right=node(data)
            else:
                self._insert(data,cur_node.right)
        else:
            print('Data In Treee Already')

#REMOVE

    def remove(self,data):
        if self.root!=None:
            self._remove(data,self.root)
    def _remove(self,data,cur_node):
        if cur_node == None:
            return cur_node
        if data<cur_node.data:
            cur_node.left=self._remove(data,cur_node.left)
        elif data>cur_node.data:
            cur_node.right=self._remove(data,cur_node.right)
        else:
            if cur_node.left is None and cur_node.right is None:
                print('Removing Leaf Node')
                if cur_node==self.root:
                    self.root=None
                del cur_node
                return None
            if cur_node.left is None:
                print('Removing None with Right Child')
                if cur_node==self.root:
                    self.root=cur_node.right
                tempnode=cur_node.right
                del cur_node
                return tempnode
            elif cur_node.right is None:
                print('Removing None with Left Child')
                if cur_node==self.root:
                    self.root=cur_node.left
                tempnode=cur_node.left
                del cur_node
                return tempnode
            print('Removing Node with 2 Children')
            tempnode=self.getpred(cur_node.left)
            cur_node.data=tempnode.data
            cur_node.left=self._remove(cur_node.data,cur_node.left)
        return cur_node
    def getpred(self,cur_node):
        if cur_node.right!=None:
            return self.getpred(cur_node.right)
        return cur_node

#INORDER TRAVERSAL

    def inorder(self):
        if self.root!=None:
            self._inorder(self.root)
    def _inorder(self,cur_node):
        if cur_node!=None:
            self._inorder(cur_node.left)
            print(cur_node.data)
            self._inorder(cur_node.right)

#PREORDER TRAVERSAL

    def preorder(self):
        if self.root!=None:
            self._preorder(self.root)
    def _preorder(self,cur_node):
        if cur_node!=None:
            print(cur_node.data)
            self._preorder(cur_node.left)
            self._preorder(cur_node.right)

#POSTORDER TRAVERSAL

    def postorder(self):
        if self.root!=None:
            self._postorder(self.root)
    def _postorder(self,cur_node):
        if cur_node!=None:
            self._postorder(cur_node.left)
            self._postorder(cur_node.right)
            print(cur_node.data)

#MINIMUM VALUE

    def minval(self):
        if self.root!=None:
            return self._minval(self.root)
    def _minval(self,cur_node):
        if cur_node.left!=None:
            return self._minval(cur_node.left)
        return cur_node.data

#MAXIMUM VALUE

    def maxval(self):
        if self.root!=None:
            return self._maxval(self.root)
    def _maxval(self,cur_node):
        if cur_node.right!=None:
            return self._maxval(cur_node.right)
        return cur_node.data

tree=binarytree()

tree.insert(100)
tree.insert(90)					#			 100
tree.insert(110)				#			/	\
tree.insert(95)					#          90   110
tree.insert(30)					#		  /  \
								#		30    95 
tree.remove(110)
tree.remove(90)

tree.inorder()
#tree.preorder()
#tree.postorder()

print(tree.minval())
print(tree.maxval())

Posted by: Guest on January-01-2021

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