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A. Great Graphs
time limit per test
2 seconds
memory limit per test
256 megabytes
input
standard input
output
standard output

Farmer John has a farm that consists of $$$n$$$ pastures connected by one-directional roads. Each road has a weight, representing the time it takes to go from the start to the end of the road. The roads could have negative weight, where the cows go so fast that they go back in time! However, Farmer John guarantees that it is impossible for the cows to get stuck in a time loop, where they can infinitely go back in time by traveling across a sequence of roads. Also, each pair of pastures is connected by at most one road in each direction.

Unfortunately, Farmer John lost the map of the farm. All he remembers is an array $$$d$$$, where $$$d_i$$$ is the smallest amount of time it took the cows to reach the $$$i$$$-th pasture from pasture $$$1$$$ using a sequence of roads. The cost of his farm is the sum of the weights of each of the roads, and Farmer John needs to know the minimal cost of a farm that is consistent with his memory.

Input

The first line contains one integer $$$t$$$ ($$$1 \leq t \leq 10^4$$$) — the number of test cases. Then $$$t$$$ cases follow.

The first line of each test case contains a single integer $$$n$$$ ($$$1 \leq n \leq 10^5$$$) — the number of pastures.

The second line of each test case contains $$$n$$$ space separated integers $$$d_1, d_2, \ldots, d_n$$$ ($$$0 \leq d_i \leq 10^9$$$) — the array $$$d$$$. It is guaranteed that $$$d_1 = 0$$$.

It is guaranteed that the sum of $$$n$$$ over all test cases does not exceed $$$10^5$$$.

Output

For each test case, output the minimum possible cost of a farm that is consistent with Farmer John's memory.

Example
Input
3
3
0 2 3
2
0 1000000000
1
0
Output
-3
0
0
Note

In the first test case, you can add roads

  • from pasture $$$1$$$ to pasture $$$2$$$ with a time of $$$2$$$,
  • from pasture $$$2$$$ to pasture $$$3$$$ with a time of $$$1$$$,
  • from pasture $$$3$$$ to pasture $$$1$$$ with a time of $$$-3$$$,
  • from pasture $$$3$$$ to pasture $$$2$$$ with a time of $$$-1$$$,
  • from pasture $$$2$$$ to pasture $$$1$$$ with a time of $$$-2$$$.
The total cost is $$$2 + 1 + -3 + -1 + -2 = -3$$$.

In the second test case, you can add a road from pasture $$$1$$$ to pasture $$$2$$$ with cost $$$1000000000$$$ and a road from pasture $$$2$$$ to pasture $$$1$$$ with cost $$$-1000000000$$$. The total cost is $$$1000000000 + -1000000000 = 0$$$.

In the third test case, you can't add any roads. The total cost is $$$0$$$.