bubble_sort.markdown

Bubble Sort

Sorting algorithms are one of the common domains for studying Computer Science data structures and algorithms. The most straight forward is Bubble Sort.

Theory

Bubble sort works by comparing and possibly swapping two values in a set. Say we start with this set of numbers:

1 0 2 3 4 5

The algorithm would start with a variable previous pointing to the first element, 1 and current pointing to the second value 0. Then if current is less than previous then the two values are swapped. The swap would take place in this case. After that single swap the sequence would be:

0 1 2 3 4 5

The algorithm would restart with previous pointing at the first position and current at the second position. 1 is not less than 0, so the focus shifts one spot to the right. previous now holds 1 and current holds 2. They do not need to be swapped. This repeats moving right one space at a time until reaching the end of the set, meaning the set is sorted.

Richer Example

Let's look at the sequence for a more out-of-order sequence:

Pre-Sequence Previous Current Swap? Post-Sequence

4 3 5 0 1       4        3      Y    3 4 5 0 1
3 4 5 0 1       3        4      N    3 4 5 0 1
3 4 5 0 1       4        5      N    3 4 5 0 1
3 4 5 0 1       5        0      Y    3 4 0 5 1
3 4 0 5 1       3        4      N    3 4 0 5 1
3 4 0 5 1       4        0      Y    3 0 4 5 1
3 0 4 5 1       3        0      Y    0 3 4 5 1
0 3 4 5 1       0        3      N    0 3 4 5 1
0 3 4 5 1       3        4      N    0 3 4 5 1
0 3 4 5 1       4        5      N    0 3 4 5 1
0 3 4 5 1       5        1      Y    0 3 4 1 5
0 3 4 1 5       0        3      N    0 3 4 1 5
0 3 4 1 5       3        4      N    0 3 4 1 5
0 3 4 1 5       4        1      Y    0 3 1 4 5
0 3 1 4 5       0        3      N    0 3 1 4 5
0 3 1 4 5       3        1      Y    0 1 3 4 5
0 1 3 4 5       0        1      N    0 1 3 4 5
0 1 3 4 5       1        3      N    0 1 3 4 5
0 1 3 4 5       3        4      N    0 1 3 4 5
0 1 3 4 5       4        5      N    0 1 3 4 5
0 1 3 4 5       5        nil

Once that nil pops up in current then we're done! We'd say that this run of the algorithm made 7 swaps.

Challenge 1: Without Custom Classes

Write an implementation of bubble sort that does not use any custom classes. You'll likely want to use methods and will surely needs arrays and a while loop.

In addition to writing an implementation following the template below, answer the following questions:

• Given the numbers 0 through 5, what would be the worst case scenario for bubble sort (aka, what order would necessitate the most swaps)?
• How many swaps would that worst case take?
• The example above took 21 iterations to get to a result. Can you tweak the algorithm so that it takes the same number of swaps (7) but fewer total operations?

Template

sequence = [4, 3, 5, 0, 1]
swaps = 0

# Your Code Here

puts "Final result: #{result}"
puts "Swaps: #{swaps}"

Challenge 2: With Tests

Implement bubble sort using one or more classes and many tests. Remember to spiral up your design. What's the simplest possible case? What's the next smallest step from there?

Challenge 3: Full Collection Passes

The version of bubble sort described above is actually a slightly simplified version of the algorithm which uses a "short-circuiting" approach to making successive iterations. As soon as a number is swapped, go back to the beginning of the list and try again. According to the "real" algorithm, every pass should actually iterate completely through the list, and then decide whether another pass is needed.

See if you can write another, slightly modified, version of the algorithm which follows this pattern. You'll need to add some code to keep track during each pass of whether a swap has been made any time during that pass. The wikipedia entry on bubble sort has some useful visualizations of the process which you can refer to to aid your understanding.