Telling you where the bug is would be giving you a fish, not teaching you to fish. Learning how to find bugs in your programs will serve you well.

There are many techniques that will help you find the bug.

## Technique #1: Small test cases

The key to finding the bug here is to start small and work your way up. There is exactly one array of integers with zero elements. Does your program sort it correctly? Since it has no elements, it is already sorted.

There is exactly one array of integers with one element. (What the element is doesn't matter, so `{1}`

is no different than `{123}`

.) Does your program sort it correctly? Again, it is already sorted, so this should be easy to verify.

There are *two* arrays of integers with two elements for your purposes, `{1, 2}`

and `{2, 1}`

. Does your program sort them correctly? If not, why not? Work out *by hand* what the program should do in each case, and then follow it along in the debugger and see where it goes wrong.

There are *six* arrays with three elements, `{1,2,3}`

,`{1,3,2}`

,`{2,1,3}`

,`{2,3,1}`

,`{3,1,2}`

,`{3,2,1}`

. Does your program sort all of them correctly? Again, there are few enough cases that you can work them all out by hand, and then follow in the debugger and see where you go wrong.

(The preceding paragraphs are wrong in a subtle way; there are actually *three* arrays of integers with two elements, and correspondingly there are more than six arrays with three elements. Do you see my mistake? Practice thinking like a software tester; you'll find bugs more easily. Answer below.)

## Technique #2: Organize your code better

The quicksort algorithm is:

- Choose a pivot
- Mutate the array so that elements smaller than the pivot are to its left and elements greater than the pivot are to its right.
- Recursively sort both subarrays

Your code makes it hard to understand where each of those operations is performed. Reorganize it so that each logical part of the algorithm has a clear place in the code.

## Technique #3: Use Debug.Assert() to find range violations

When you're sorting an array range from left to right, every index you use had better be between left and right. Every time you use an index, do a `Debug.Assert()`

that the index is in range. If you have an index-out-of-range bug, the assert will find it for you when you run the code.

## Technique #4: Use Debug.Assert() to find postcondition violations

A "postcondition" is something that must be true when a section of code finishes. The postcondition of the partitioning step is that the elements to the left of the pivot are smaller than the pivot, so *check that*. Write a helper method that checks that and returns true if the condition is met and false otherwise. Then assert that.

A postcondition of the recursive sort is that the range is sorted. Again, write a helper method that verifies it, and assert that the postcondition is true.

When the postcondition is violated the assertion will be helping you find the bug.

The answer to the puzzle posed above: none of my proposed test cases cover the case where there are two or more elements in the array range that are equal to the pivot. `{1, 1}`

should also be a test case.