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I am trying to implement a 2-3 tree but I am having trouble with the find method. This method given an int as parameter should return the node that contains the int. The problem is that sometimes it works, sometimes it does't and I don't know why. I have added a test print. For a particular int that I know for sure that is part of the tree, the code executes the print statement, meaning that it has found the node, but does not return this node. Instead it return False which is at the end of the code.

Can you help me solving this ?

def find(self,data,node=0): #return problem ???

    if node==0:
        a=self.root
    else:
        a=node

    if a.data2==None:
        if data==a.data:   ### here is the problem
            print("qwertyuiop") ### it does not execute the return statement
            return a
        elif data < a.data:
            if a.left!=None:
                return self.find(data,a.left)
        elif data > a.data:
            if a.right!=None:
                return self.find(data,a.right)

    else:
        if a.data2!=None:
                if (data==a.data or data==a.data2):
                    return a
                elif data<a.data:
                    if a.left!=None:
                        return self.find(data,a.left)
                elif (data>a.data and data<a.data2):
                    if a.middle!=None:
                        return self.find(data,a.middle)
                elif data>a.data2:
                    if a.right!=None:
                        return self.find(data,a.right)
    print("Not Found") ### function executes this print
    return False

self.root is the root of the tree and is an object of the following class

class Node:

    def __init__(self, data=None, left=None, right=None):
        self.data = data
        self.data2 = None
        self.data3 = None
        self.left = left
        self.right = right
        self.middle = None
        self.middle2 = None

Binary Search Tree:

class Nodeee:

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

class BST:


def __init__(self, root=None):
    self.c=[]
    self.total=0
    self.root = None


def parent(self,data,node=5):

    def search(nodee,cc,data):

        if data==cc.data:
            return nodee
        else:
            if data<cc.data:
                nodee=cc
                return search(nodee,cc.left,data)
            elif data>cc.data:
                nodee=cc
                return search(nodee,cc.right,data)

        print("Parent Error")
        return False

    if node==self.root:
        print("Root has no parent")
    else:
        a=self.root
        c=self.root
        return search(a,c,data)


def lookup(self,data,node=0):

    if node==0:
        a=self.root
    else:
        a=node

    if data < a.data:
        if a.left==None:
            return a
        else:
            return self.lookup(data,a.left)
    elif data > a.data:
        if a.right==None:
            return a
        else:
            return self.lookup(data,a.right)

def find(self,data,node=0):

    if node==0:
        a=self.root
    else:
        a=node

    if data==a.data:
        print("WTF")
        return a
    elif data < a.data:
        if a.left!=None:
            return self.find(data,a.left)
    elif data > a.data:
        if a.right!=None:
            return self.find(data,a.right)
    print("Not Found")
    return False

def find2(self,data,node=0):

    if node==0:
        a=self.root
    else:
        a=node

    if data==a.data:
        return True
    elif data < a.data:
        return self.find2(data,a.left)
    elif data > a.data:
        return self.find2(data,a.right)
    return False

def is_empty(self):
    if self.root==None:
        return True


def is_leaf(self,n):
    if (n.left==None and n.right==None):
        return True
    return False

def delete(self):
    self.root=None

def insert(self, data):

    if self.root==None:
        self.root=Nodeee(data)
        self.total+=1
        return True
    else:
        b=self.lookup(data)
        if data < b.data:
            b.left=Nodeee(data)
            self.total+=1
            return True
        elif data > b.data:
            b.right=Nodeee(data)
            self.total+=1
            return True
    print("Insert Error !")
    return False


def inorder_swap(self,data):
    a=self.find(data)
    b=a.right
    while self.is_leaf(b)!=True:
        if b.left!=None:
            b=b.left
        elif b.left==None:
            b=b.right
    temp=a.data
    a.data=b.data
    b.data=temp

def remove(self,data):
    a=self.find(data)
    if self.is_leaf(a)==True:
        b=self.parent(data)
        if b.left==a:
            b.left=None
        elif b.right==a:
            b.right=None
    elif self.is_leaf(a)==False:
        if a.left==None:
            b=self.parent(data)
            if b.left==a:
                b.left=b.left.right
            elif b.right==a:
                b.right=b.right.right
        elif a.right==None:
            b=self.parent(data)
            if b.left==a:
                b.left=b.left.left
            elif b.right==a:
                b.right=b.right.left
        elif (a.left!=None and a.right!=None):
            self.inorder_swap(data)
            self.remove(data)

def inorder(self,node):
    if node!=None:
        self.inorder(node.left)
        self.c.append(node.data)
        self.inorder(node.right)

def inorder_print(self):
    self.c=[]
    self.inorder(self.root)
    print("\nStart")
    for x in range(len(self.c)):
            print(self.c[x], end=",")
    print("\nFinish\n")




a=BST()
print(a.insert(234)==True)
print(a.insert(13)==True)
print(a.insert(65)==True)
print(a.insert(658)==True)
print(a.insert(324)==True)
print(a.insert(86)==True)
print(a.insert(5)==True)
print(a.insert(76)==True)
print(a.insert(144)==True)
print(a.insert(546)==True)
print(a.insert(2344)==True)
print(a.insert(1213)==True)
print(a.insert(6345)==True)
print(a.insert(653348)==True)
print(a.insert(35324)==True)
print(a.insert(8463)==True)
print(a.insert(5555)==True)
print(a.insert(76539)==True)
print(a.insert(14499)==True)
print(a.insert(59999946)==True)

a.inorder_print()
a.remove(35324)
a.remove(1213)
a.remove(2344)
a.remove(144)
a.remove(5555)
a.remove(6345)
a.remove(59999946)
a.remove(76)
print(a.root.data)
a.inorder_print()
share|improve this question
    
The return statement does not get executed ! It also prints the "Not found" at the end of the code. – buster Jan 14 '14 at 23:37
    
If it doesn't print "qwertyuop" and prints Not Found, that means either it's really not found, or your function just can't find it. – aIKid Jan 14 '14 at 23:40
    
How many times does it print Not Found? – aIKid Jan 14 '14 at 23:41
    
@qla_alp Could you provide some code that instantiates some Node objects and runs find, but fails to find something when it should? – three_pineapples Jan 14 '14 at 23:42
1  
@qla_alp Please show us a full example of usage. You most likely have an error creating your tree. – Nabla Jan 14 '14 at 23:47
def inorder_swap(self,data):
    a=self.find(data)
    b=a.right
    while self.is_leaf(b)!=True:
        if b.left!=None:
            b=b.left
        elif b.left==None:
            b=b.right
    temp=a.data
    a.data=b.data
    b.data=temp

a here is the node containing the passed data. This method does nothing else than swapping a's data with some leaf's data (first one while finds), thereby distorting the tree order. A follow-up find on the same data therefore fails and returns False. Since your code has no error checks, this results in an AttributeError.

You probably want to move nodes around in inorder_swap. However you only assign to the local name b. If you want to change nodes, then you need to use b.left = or b.right =.

It might be that there are more problems, that I don't see right now.

Also your code has several style problems, some of them:

  1. You have four functions doing the same: find, find2, lookup and search in parent.

  2. Most of the naming is not informative or even confusing.

  3. Lines like if a.right==None: should be written as if not a.right: (or maybe if a.right is None:).

  4. Check the return value of functions and don't just assume they return a valid node if they might not (i.e. find might return False instead of a node). Or alternatively use exception handling.

  5. If you have an if ... elif ... elif block you don't have to check the last possibility if it is sure to be true, for example:

     if b.left!=None:
          # something
     elif b.left==None:
          # something else
    

    should be

     if b.left:
          # something
     else:
          # something else
    
share|improve this answer

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