You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
 
 
 
 
 
 

2.0 KiB

sametree

WARNING! VERY IMPORTANT!

For this exercise a function will be tested with the exam own main. However the student still needs to submit a structured program:

This means that:

  • The package needs to be named package main.
  • The submitted code needs one declared function main(func main()) even if empty.
  • The function main declared needs to also pass the Restrictions Checker(illegal functions tester). It is advised for the student to just empty the function main after its own testing are done.
  • Every other rules are obviously the same than for a program.

Instructions

Given two binary trees, write a function to check if they are the same or not.

Two binary trees are considered the same if they are structurally identical and the nodes have the same value.

Write a function, IsSameTree, that returns bool.

Expected function

type TreeNodeL struct {
    Left    *TreeNodeL
    Val     int
    Right   *TreeNodeL
}


func IsSameTree(p *TreeNodeL, q *TreeNodeL) bool {

}

Example 1:

Input:

      1      
     / \  
    2   3  
   
   [1,2,3]  

      1      
     / \  
    2   3  
   
   [1,2,3]  

Output: true

Input:

       1                      
      /                          
     2                            
  
  [1,2],    

        1  
         \  
          2  
  
  [1,null,2]  

Output: false

Input:


           1  
          / \                     
         2   1                  
        
        [1,2,1],  

            1  
           / \  
          1   2  
        
         [1,1,2]  

Output: false

Usage

Here is a possible program to test your function :

package main

func main() {
  t1 := NewRandTree()
  t2 := NewRandTree()

  fmt.Println(IsSameTree(t1, t2))
}

Output

student@ubuntu:~/[[ROOT]]/test$ go build
student@ubuntu:~/[[ROOT]]/test$ ./test
true
student@ubuntu:~/[[ROOT]]/test$