Given an array `nums` of `n` integers, return _an array of all the unique quadruplets_ `[nums[a], nums[b], nums[c], nums[d]]` such that:

* `0 <= a, b, c, d < n`
* `a`, `b`, `c`, and `d` are distinct.
* `nums[a] + nums[b] + nums[c] + nums[d] == target`

You may return the answer in any order.

Example 1:
    
    Input: nums = [1,0,-1,0,-2,2], target = 0 Output: [[-2,-1,1,2],[-2,0,0,2],[-1,0,0,1]] 

Example 2:
    
    Input: nums = [2,2,2,2,2], target = 8 Output: [[2,2,2,2]] 

Constraints:

* `1 <= nums.length <= 200`
* `-109 <= nums[i] <= 109`
* `-109 <= target <= 109`