Searching & Sorting Computational Complexity (JS)

Sorting Algorithms

Bubble Sort

Time Complexity: Quadratic O(n^2)

  • The inner for-loop contributes to O(n), however in a worst case scenario the while loop will need to run n times before bringing all n elements to their final resting spot.

Space Complexity: O(1)

  • Bubble Sort will always use the same amount of memory regardless of n.

  • The first major sorting algorithm one learns in introductory programming courses.

  • Gives an intro on how to convert unsorted data into sorted data.

It’s almost never used in production code because:

  • It’s not efficient

  • It’s not commonly used

  • There is stigma attached to it

  • Bubbling Up : Term that infers that an item is in motion, moving in some direction, and has some final resting destination.

  • Bubble sort, sorts an array of integers by bubbling the largest integer to the top.

https://gist.github.com/eengineergz/fd4acc0c89033bd219ebf9d3ec40b053https://gist.github.com/eengineergz/80934783c628c70ac2a5a48119a82d54

  • Worst Case & Best Case are always the same because it makes nested loops.

  • Double for loops are polynomial time complexity or more specifically in this case Quadratic (Big O) of: O(n²)

Selection Sort

Time Complexity: Quadratic O(n^2)

  • Our outer loop will contribute O(n) while the inner loop will contribute O(n / 2) on average. Because our loops are nested we will get O(n²);

Space Complexity: O(1)

  • Selection Sort will always use the same amount of memory regardless of n.

  • Selection sort organizes the smallest elements to the start of the array.

Summary of how Selection Sort should work:

  1. Set MIN to location 0

  2. Search the minimum element in the list.

  3. Swap with value at location Min

  4. Increment Min to point to next element.

  5. Repeat until list is sorted.

Insertion Sort

Time Complexity: Quadratic O(n^2)

  • Our outer loop will contribute O(n) while the inner loop will contribute O(n / 2) on average. Because our loops are nested we will get O(n²);

Space Complexity: O(n)

  • Because we are creating a subArray for each element in the original input, our Space Comlexity becomes linear.

Merge Sort

Time Complexity: Log Linear O(nlog(n))

  • Since our array gets split in half every single time we contribute O(log(n)). The while loop contained in our helper merge function contributes O(n) therefore our time complexity is O(nlog(n)); Space Complexity: O(n)

  • We are linear O(n) time because we are creating subArrays.

Example of Merge Sort

  • Merge sort is O(nlog(n)) time.

  • We need a function for merging and a function for sorting.

Steps:

  1. If there is only one element in the list, it is already sorted; return the array.

  2. Otherwise, divide the list recursively into two halves until it can no longer be divided.

  3. Merge the smallest lists into new list in a sorted order.

Quick Sort

Time Complexity: Quadratic O(n^2)

  • Even though the average time complexity O(nLog(n)), the worst case scenario is always quadratic.

Space Complexity: O(n)

  • Our space complexity is linear O(n) because of the partition arrays we create.

  • QS is another Divide and Conquer strategy.

  • Some key ideas to keep in mind:

  • It is easy to sort elements of an array relative to a particular target value.

  • An array of 0 or 1 elements is already trivially sorted.

Time Complexity: Log Time O(log(n))

Space Complexity: O(1)

Recursive Solution

Min Max Solution

  • Must be conducted on a sorted array.

  • Binary search is logarithmic time, not exponential b/c n is cut down by two, not growing.

  • Binary Search is part of Divide and Conquer.

Insertion Sort

  • Works by building a larger and larger sorted region at the left-most end of the array.

Steps:

  1. If it is the first element, and it is already sorted; return 1.

  2. Pick next element.

  3. Compare with all elements in the sorted sub list

  4. Shift all the elements in the sorted sub list that is greater than the value to be sorted.

  5. Insert the value

  6. Repeat until list is sorted.

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