The Monk is trying to explain to its users that even a single unit of time can be extremely important and to demonstrate this particular fact he gives them a challenging task.
There are N processes to be completed by you, the chosen one, since you're Monk's favorite student. All the processes have a unique number assigned to them from 1 to N.
Now, you are given two things:
PS: Executing a process takes 1 unit of time. Changing the position takes 1 unit of time.
Input format:
The first line a number N, denoting the number of processes. The second line contains the calling order of the processes. The third line contains the ideal order of the processes.
Output format:
Print the total time taken for the entire queue of processes to be executed.
Constraints:
1<=N<=100
There are N processes to be completed by you, the chosen one, since you're Monk's favorite student. All the processes have a unique number assigned to them from 1 to N.
Now, you are given two things:
- The calling order in which all the processes are called.
- The ideal order in which all the processes should have been executed.
- Iteration #1: Since the ideal order has process #1 to be executed firstly, the calling ordered is changed, i.e., the first element has to be pushed to the last place. Changing the position of the element takes 1 unit of time. The new calling order is: 2 - 1 - 3. Time taken in step #1: 1.
- Iteration #2: Since the ideal order has process #1 to be executed firstly, the calling ordered has to be changed again, i.e., the first element has to be pushed to the last place. The new calling order is: 1 - 3 - 2. Time taken in step #2: 1.
- Iteration #3: Since the first element of the calling order is same as the ideal order, that process will be executed. And it will be thus popped out. Time taken in step #3: 1.
- Iteration #4: Since the new first element of the calling order is same as the ideal order, that process will be executed. Time taken in step #4: 1.
- Iteration #5: Since the last element of the calling order is same as the ideal order, that process will be executed. Time taken in step #5: 1.
PS: Executing a process takes 1 unit of time. Changing the position takes 1 unit of time.
Input format:
The first line a number N, denoting the number of processes. The second line contains the calling order of the processes. The third line contains the ideal order of the processes.
Output format:
Print the total time taken for the entire queue of processes to be executed.
Constraints:
1<=N<=100
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