Quicksort is an efficient recursive algorithm for sorting arrays or lists of values. The algorithm is a *comparison* sort, where values are ordered by a comparison operation such as `>`

or `<`

.

Quicksort uses a *divide and conquer* strategy, breaking the problem into smaller sub-problems until the solution is so clear there’s nothing to solve.

The problem: many values in the array which are out of order.

The solution: break the array into sub-arrays containing **at most** one element. One element is sorted by default!

We choose a single *pivot* element from the list. Every other element is compared with the pivot, which *partitions* the array into three groups.

- A sub-array of elements
**smaller than**the pivot. - The pivot itself.
- A sub-array of elements
**greater than**the pivot.

The process is repeated on the sub-arrays until they contain zero or one element. Elements in the “smaller than” group **are never compared** with elements in the “greater than” group. If the smaller and greater groupings are roughly equal, this cuts the problem in half with each partition step!

[6,5,2,1,9,3,8,7] 6 # The pivot [5, 2, 1, 3] # lesser than 6 [9, 8, 7] # greater than 6 [5,2,1,3] # these values # will never be compared with [9,8,7] # these values

Depending on the implementation, the sub-arrays of one element each are recombined into a new array with sorted ordering, or values within the original array are swapped in-place, producing a sorted mutation of the original array.

### Instructions

What does it mean for a list of values to be sorted? Use the terminology from your language of choice.

Is it true that a list of one element is sorted? Why?

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