Problem - 1367E - Codeforces

Codeforces Round 650 (Div. 3)
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The store sells $$$n$$$ beads. The color of each bead is described by a lowercase letter of the English alphabet ("a"–"z"). You want to buy some beads to assemble a necklace from them.

A necklace is a set of beads connected in a circle.

For example, if the store sells beads "a", "b", "c", "a", "c", "c", then you can assemble the following necklaces (these are not all possible options):

$\text{[math]}$

And the following necklaces cannot be assembled from beads sold in the store:

$\text{[math]}$ The first necklace cannot be assembled because it has three beads "a" (of the two available). The second necklace cannot be assembled because it contains a bead "d", which is not sold in the store.

We call a necklace $$$k$$$-beautiful if, when it is turned clockwise by $$$k$$$ beads, the necklace remains unchanged. For example, here is a sequence of three turns of a necklace.

$\text{[math]}$ As you can see, this necklace is, for example, $$$3$$$-beautiful, $$$6$$$-beautiful, $$$9$$$-beautiful, and so on, but it is not $$$1$$$-beautiful or $$$2$$$-beautiful.

In particular, a necklace of length $$$1$$$ is $$$k$$$-beautiful for any integer $$$k$$$. A necklace that consists of beads of the same color is also beautiful for any $$$k$$$.

You are given the integers $$$n$$$ and $$$k$$$, and also the string $$$s$$$ containing $$$n$$$ lowercase letters of the English alphabet — each letter defines a bead in the store. You can buy any subset of beads and connect them in any order. Find the maximum length of a $$$k$$$-beautiful necklace you can assemble.

Input

The first line contains a single integer $$$t$$$ ($$$1 \le t \le 100$$$) — the number of test cases in the test. Then $$$t$$$ test cases follow.

The first line of each test case contains two integers $$$n$$$ and $$$k$$$ ($$$1 \le n, k \le 2000$$$).

The second line of each test case contains the string $$$s$$$ containing $$$n$$$ lowercase English letters — the beads in the store.

It is guaranteed that the sum of $$$n$$$ for all test cases does not exceed $$$2000$$$.

Output

Output $$$t$$$ answers to the test cases. Each answer is a positive integer — the maximum length of the $$$k$$$-beautiful necklace you can assemble.

Example

Input

6
6 3
abcbac
3 6
aaa
7 1000
abczgyo
5 4
ababa
20 10
aaebdbabdbbddaadaadc
20 5
ecbedececacbcbccbdec

Output

Note

The first test case is explained in the statement.

In the second test case, a $$$6$$$-beautiful necklace can be assembled from all the letters.

In the third test case, a $$$1000$$$-beautiful necklace can be assembled, for example, from beads "abzyo".