Sorting Algorithms

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Bubble Sort Space Complexity

O(1) Space Complexity

Heap Sort Space Complexity

O(1) Space Complexity

Insertion Sort Space Complexity

O(1) Space Complexity

Selection Sort Space Complexity

O(1) Space Complexity

Quick Sort Space Complexity

O(lg(n)) Space Complexity

Merge Sort Space Complexity

O(n) for arrays. O(lg(n)) for Linked Lists. (Space Complexity)

Merge Sort Computational Complexity

O(n*lg(n))

Heap Sort Computational Complexity

O(n*log(n)) Computational Complexity

Selection Sort Computational Complexity

O(n^2) comparisons, O(n) swaps

Bubble Sort Computational Complexity

O(n^2) swaps and comparisons

Insertion Sort Computational Complexity

O(n^2) swaps and comparisons (Computational Complexity)

Quick Sort Computational Complexity

O(n^2), but typically O(n*lg(n))

Quick Sort Algorithm

Pick a pivot element. Rearrange the array so that all elements smaller than the pivot come before it, and all elements larger come after. Recursively go through each half (the half before the pivot, and the half after), and repeat.

Merge Sort Algorithm

Recursively cut the array in half, until it is a single element (which is implicitly sorted). As you come back up, merge each half together. Merge them by starting with indices at the leftmost element of each half. Put the lowest one into the new merged array first, and increment that index. The result will be a sorted merged array.

Unstable Sorting Algorithms

Selection Sort, Heap Sort, Quicksort

Non-Adaptive Sorting Algorithms

Selection Sort, Merge Sort, Heap Sort, Quick Sort

When to use Heap Sort

Slightly slower than quicksort, but has better worst case time. Less space complexity than merge sort.

Heap Sort Algorithm

Build a max heap from the list (takes O(n) operations). Remove the largest element from the heap, and put it into the array (takes O(lg(n)) operations). Do this n times to construct the sorted array.

Selection Sort Algorithm

Find the smallest element of the array and place it at position 0. Find the smallest element of the array from 1 - end, place it at position 1. Continue..

Adaptive Sorting Algorithms

Insertion Sort, Bubble Sort

Stable Sorting Algorithms

Insertion Sort, Bubble Sort, Merge Sort

Bubble Sort Algorithm

Iterate through the array, comparing every adjacent pair of elements. Swap the elements if they are unsorted. Continue iterating through the array until it is fully sorted.

Insertion Sort Algorithm

Like sorting a bridge hand. Start with the left-most card. At each card, move it left until it is higher than the card to its left.

When to use Bubble Sort

Never.

When to use Insertion Sort

When arrays are small, or nearly sorted.

When to use Merge Sort

When stability is important. Or when using a linked list. Or when random access is much more expensive than sequential access (Like external sorting on tape). Good for parallelization.

When to use Selection Sort

When swaps are very expensive, but comparisons are cheap. Selection sort is linear in swaps.

When to use Quick Sort

When you want the fastest average-case sort. When you want the data sorted in-place, better space complexity than merge sort.


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