Fox Ciel is in the Amusement Park. And now she is in a queue in front of the Ferris wheel. There are n people (or foxes more precisely) in the queue: we use first people to refer one at the head of the queue, and n-th people to refer the last one in the queue.

There will be k gondolas, and the way we allocate gondolas looks like this:

• When the first gondolas come, the q₁ people in head of the queue go into the gondolas.
• Then when the second gondolas come, the q₂ people in head of the remain queue go into the gondolas.

      ...

• The remain q_k people go into the last (k-th) gondolas.

Note that q₁, q₂, ..., q_k must be positive. You can get from the statement that and q_i > 0.

You know, people don't want to stay with strangers in the gondolas, so your task is to find an optimal allocation way (that is find an optimal sequence q) to make people happy. For every pair of people i and j, there exists a value u_ij denotes a level of unfamiliar. You can assume u_ij = u_ji for all i, j (1 ≤ i, j ≤ n) and u_ii = 0 for all i (1 ≤ i ≤ n). Then an unfamiliar value of a gondolas is the sum of the levels of unfamiliar between any pair of people that is into the gondolas.

A total unfamiliar value is the sum of unfamiliar values for all gondolas. Help Fox Ciel to find the minimal possible total unfamiliar value for some optimal allocation.