Little Johnny has a very long surname. Yet he is not the only such person in his milieu. As it turns out, one of his friends from kindergarten, Mary, has a surname of the same length, though different from Johnny's. Moreover, their surnames contain precisely the same number of letters of each kind - the same number of letters A, same of letters B, and so on.
Johnny and Mary took to one another and now often play together. One of their favourite games is to gather a large number of small pieces of paper, write successive letters of Johnny's surname on them, and then shift them so that they obtain Mary's surname in the end.
Since Johnny loves puzzles, he has begun to wonder how many swaps of adjacent letters are necessary to turn his surname into Mary's. For a child his age, answering such question is a formidable task. Therefore, soon he has asked you, the most skilled programmer in the kindergarten, to write a program that will help him.
Input
In the first line of the standard input there is a single integer $n$ ($2 \le n \le 1,000,000$) denoting the length of Johnny's surname. The second line contains Johnny's surname itself, i.e., contains its $n$ successive letters (without spaces). The third line contains Mary's surname in the same format: a string of $n$ letters (with no spaces either). Both strings consist only of capital (upper-case) letters of the English alphabet.
Output
Your program should print a single integer to the standard output: the minimum number of swaps of adjacent letters that transforms Johnny's surname into Mary's.
Example
Input
3 ABC BCA
Output
2