# Correctness Of Minimum Number Of Swaps To Sort An Array

The question is from here: https://www.geeksforgeeks.org/minimum-number-swaps-required-sort-array/

I will repeat it below: Given an array of n distinct elements, find the minimum number of swaps required to sort the array.

Examples:

Input : {4, 3, 2, 1} Output : 2 Explanation : Swap index 0 with 3 and 1 with 2 to form the sorted array {1, 2, 3, 4}.

Input : {1, 5, 4, 3, 2} Output : 2

I have solved the problem by doing the following.

1. Sorting the array (n log(n)) time
2. Making a hash to keep track of the swaps required as I compare both the sorted array and the original array. This should be another O(n) time

Total Time Complexity should be: O(n + (n log n)) = O(n log(n))

Below is the code I have written for the same and it works for the test cases provided.

def solution(array)

sorted = array.sort
puts array.inspect
puts sorted.inspect

counter_parts_that_have_been_seen = {}

number_of_swaps_required = 0

array.each_with_index do | val, idx |
if counter_parts_that_have_been_seen[val] == true
next
end

array_val = val
sorted_val = sorted[idx]

if array_val != sorted_val
puts "A swap will be required: array val is #{array_val} and sorted_array_val is #{sorted_val}"
number_of_swaps_required += 1
counter_parts_that_have_been_seen[sorted_val] = true
end
end

puts "Number of swaps required are: #{number_of_swaps_required}"

end


Now, my question is, how does one verify the CORRECTNESS? I have no sense of weather this approach is correct.

Can anybody shed some light on this?

• I haven't really understood your code, but will it work for {3,1,2} ? noting that a position and a value needs to be swapped twice in for that input. – ROX Jan 29 '18 at 12:11
• Well, for that input, it gives 2 swaps. Now, even though technically that is correct. I do not know if my code reached there in the right way. Because, my code assumes that once a swap is made the swapped elements are in their correct position. But that is not the case for {3, 1, 2}. So in other words, let us expand the question: How does one prove that a particular answer is correct? – Khoj Badami Jan 29 '18 at 12:27
• Nswaps = Nout_of_place - Ncycles. So the problem can be reduced to finding the out_of_place elements, and the number of cycles. – joop Jan 29 '18 at 12:57
• Are you ONLY interested to find the minimal number of swaps, or also perform the sort in the most efficient way? – FDavidov Jan 29 '18 at 13:20
• @FDavidov only the min number of swaps as the problem states. Sort in the most efficient way will be O(n log(n)). It does not quite matter what the array is like. – Khoj Badami Jan 29 '18 at 14:16

## 2 Answers

Starting at the first element in the unsorted array, check if it is in the correct place, if not swap the correct value into that position. The test can either be done as you did by comparing to a sorted version of the collection, or the selected element can be compared to each element that follows it.

As you go along you may encounter elements that are in the correct position - either because they started in the correct place or they were swapped there when placing an earlier element (the last element must be by the time all other ones have been placed). Just leave those in place and move to the next element.

With this method every swap places at least one element correctly, some swaps will correctly place both.

An element in a correct place can be discounted from the problem - there is never a need to move it from its correct place to sort any other elements. Also a pair of elements that in each others places (e.g. 3 and 1 in {3,2,1} ) never need to be swapped with any of the other elements. They form their own independent set of elements.

Once you have a method, as above, for obtaining the correct answer, it can obviously be used to evaluate any alternative method.

• But my question is: How does one know that the answer is correct? As in, these are the min number of swaps? For an array of a million numbers, if the answer is 12213, there is no way for me to know if this answer is correct and optimal unless there is a proof of the method. That is what my question is about. – Khoj Badami Jan 29 '18 at 14:21
• You can use proof by induction. Discounting any elements at the start that do not require swapping, for n elements, the above method swaps the element that should be first into first place leaving n-1 elements after it. Consider the best way to swap these into order. That number cannot be reduced by the addition of the nth element, nor can the additional swap it requires be avoided. – ROX Jan 29 '18 at 19:09
Index :   0   1   2   3   4   5   6   7   8   9
------+-----+---+---+---+---+---+---+---+---+--
Array :   1  22  32  42  12  83  64  93  73  53
------+-----+---+---+---+---+---+---+---+---+--
A  BBBBBBBBBBBBBB  CC  DD  CCCCCCCCCC
Target:   0   2   3   4   1   8   6   9   7   5
Diffs :   0   1   1   1  -3   3   0   2  -1  -4
Source:   0   4   1   2   3   9   6   8   5   7


In this example, the array[] needs to be sorted.

• Target is the index where this position should go after the sort
• source is the position where this index shoul get its value from
• diffs is the relative movement that the item at this index does during the sort

You can see four (cyclic) groups:

• A : 1 member 1
• B : 4 members {22,32,42,12}
• C : 4 members: {83,93,73,53}
• D : 1 member: 64

The groups with 1 member are already sorted: zero swaps needed. The groups with 4 members can be sorted with 4 swaps each. (the final swap puts two elements to their final place) So the number of swaps needed is 0+3+3+0

Now you only need to prove that you can sort an N-cycle in N-1 swaps...