# Function to find whether a tree is mono (all the elements are unique) or not?

Im trying to add Total function and isMono functions to this code. Did total already

Need help with function ismono which returns whether a tree is mono (all the elements are unique aka no element appears more than one time) or not. Please

``````#ifndef T_H

#define T_H

#include <iostream>
#include <iomanip>
using namespace std;

struct tnode {
int info ;
int count;
tnode * right, *left;
};

tnode * insert(int target,tnode * t);
tnode * makenode(int x);
tnode * tsearch(int x,tnode * t);
void inorder(tnode * t);
int height(tnode * t);
int count(tnode * t) ;
int total(tnode * t) ;

#endif

int main() {
int n,c;
tnode * t = NULL, *x;
while (cin >> n) {t=insert(n,t);cout << n <<' ';}
cout << endl;
inorder(t);
cout << endl;
c = count(t);
cout << "count: "<< c  <<endl;
cout << endl;
c = height(t);
cout << "height: "<< c  <<endl;
cout << endl;
c=200;
while (c-->0) if (x = tsearch(c,t)) cout << c << " is on the tree."<<endl;
return 0;
}

#include "t.h"

int count(tnode * t) {
if (t == NULL) return 0;
return 1 +  count(t->left) + count (t->right);
}

#include "t.h"

int height(tnode * t) {
if (t == NULL) return -1;
return 1 + max(height(t->left) , height (t->right));
}

#include "t.h"

//write out t in order
void inorder(tnode * t) {
if (t == NULL) return;
inorder (t->left);//write out lst in order
cout <<setw(5) << t->info <<setw(5) << t->count<< endl;
inorder (t->right);//write out rst in order
}

#include "t.h"

tnode * insert(int x, tnode * t) {
tnode * tmp = tsearch(x,t);
if (tmp != NULL) {
tmp->count++;
return t;
}
if (t == NULL) return makenode(x);
if ( x < t->info ) {
t->left = insert(x,t->left);
return t;
}
t->right = insert(x,t->right);
return t;
}

#include "t.h"

tnode * makenode(int x) {
tnode * t = new tnode;
t->info =x;
t->count =1;
t->right = t->left = NULL;
return t;
}
``````
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int compare(tree * t) { if(t == NULL) return true; then like compare left and right tree? –  user2661545 Aug 7 '13 at 19:16

# Just traverse the tree!

``````//Gets the value of the node at the leftmost node
int left_most_value(tnode * t) {
if (t == NULL) return (0); //Something went wrong
if (t->left == NULL) return(t->info);
else return(left_most_value(t));
}

//Gets the value of the node at the rightmost node
int right_most_value(tnode * t) {
if (t == NULL) return (0); //Something went wrong
if (t->right == NULL) return(t->info);
else return(right_most_value(t));
}

//Returns true (1) if node does NOT have duplicate
int node_is_mono(tnode * t) {
//Ignore leaf nodes
if (t->left == NULL && t->right == NULL) return 1;

//Check the left side
if (t->left != NULL && right_most_value(t->left) == t->info) return(0);

//Check the right side
if (t->right != NULL && left_most_value(t->right) == t->info) return(0);

//This node is mono
return(1);
}

int tree_is_mono(tnode * t) {
if (t == NULL) return(1);

//If one node has a duplicate, then the entire tree is NOT mono
if (node_is_mono(t) == 0) return 0;
else return(tree_is_mono(t->left) && tree_is_mono(t->right));
}
``````

# Explanation of the algoritm

At every node in the tree, you need to perform the following steps.

1. Find the node's left-most node from the node's children on the right. If they are equal in value then the tree is NOT mono (stop searching and `return false`)
2. Find the node's right-most node from the node's children on the left. If they are equal in value, then the tree is NOT mono (stop searching and `return false`)
3. We found no nodes equal in value, so the tree is mono! `return true`
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If you're using C++, you can simply use a `std::set` or `std::unordered_set` to store a list of objects in your tree. Then, you use a tree traversal (inorder, preorder, postorder, etc.) and for every object in the traversal, you do the following:

1. You check whether it is already in the `set`. If it is, then `return false;`.
2. You add the element to the `set`.

Then, when you're done with the traversal, you know that there aren't any duplicates, so simply `return true;`.

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