#P1350B. Orac and Models

    ID: 5346 Type: RemoteJudge 3000ms 256MiB Tried: 0 Accepted: 0 Difficulty: (None) Uploaded By: Tags>dpmathnumber theory*1400

Orac and Models

No submission language available for this problem.

Description

There are $n$ models in the shop numbered from $1$ to $n$, with sizes $s_1, s_2, \ldots, s_n$.

Orac will buy some of the models and will arrange them in the order of increasing numbers (i.e. indices, but not sizes).

Orac thinks that the obtained arrangement is beatiful, if for any two adjacent models with indices $i_j$ and $i_{j+1}$ (note that $i_j < i_{j+1}$, because Orac arranged them properly), $i_{j+1}$ is divisible by $i_j$ and $s_{i_j} < s_{i_{j+1}}$.

For example, for $6$ models with sizes $\{3, 6, 7, 7, 7, 7\}$, he can buy models with indices $1$, $2$, and $6$, and the obtained arrangement will be beautiful. Also, note that the arrangement with exactly one model is also considered beautiful.

Orac wants to know the maximum number of models that he can buy, and he may ask you these queries many times.

The first line contains one integer $t\ (1 \le t\le 100)$: the number of queries.

Each query contains two lines. The first line contains one integer $n\ (1\le n\le 100\,000)$: the number of models in the shop, and the second line contains $n$ integers $s_1,\dots,s_n\ (1\le s_i\le 10^9)$: the sizes of models.

It is guaranteed that the total sum of $n$ is at most $100\,000$.

Print $t$ lines, the $i$-th of them should contain the maximum number of models that Orac can buy for the $i$-th query.

Input

The first line contains one integer $t\ (1 \le t\le 100)$: the number of queries.

Each query contains two lines. The first line contains one integer $n\ (1\le n\le 100\,000)$: the number of models in the shop, and the second line contains $n$ integers $s_1,\dots,s_n\ (1\le s_i\le 10^9)$: the sizes of models.

It is guaranteed that the total sum of $n$ is at most $100\,000$.

Output

Print $t$ lines, the $i$-th of them should contain the maximum number of models that Orac can buy for the $i$-th query.

Samples

4
4
5 3 4 6
7
1 4 2 3 6 4 9
5
5 4 3 2 1
1
9
2
3
1
1

Note

In the first query, for example, Orac can buy models with indices $2$ and $4$, the arrangement will be beautiful because $4$ is divisible by $2$ and $6$ is more than $3$. By enumerating, we can easily find that there are no beautiful arrangements with more than two models.

In the second query, Orac can buy models with indices $1$, $3$, and $6$. By enumerating, we can easily find that there are no beautiful arrangements with more than three models.

In the third query, there are no beautiful arrangements with more than one model.