Stooge sort

Stooge sort
	Visualization of Stooge sort (only shows swaps).
Class	Sorting algorithm
Data structure	Array
Worst-case performance	O(nlog 3/log 1.5)
Worst-case space complexity	O(n)

Stooge sort is a recursive sorting algorithm. It is notable for its exceptionally bad time complexity of O(n^{log 3 / log 1.5}) = O(n^2.7095...). The running time of the algorithm is thus slower compared to reasonable sorting algorithms, and is slower than Bubble sort, a canonical example of a fairly inefficient sort. It is however more efficient than Slowsort. The name comes from The Three Stooges.[1]

The algorithm is defined as follows:

If the value at the start is larger than the value at the end, swap them.
If there are 3 or more elements in the list, then:
- Stooge sort the initial 2/3 of the list
- Stooge sort the final 2/3 of the list
- Stooge sort the initial 2/3 of the list again

It is important to get the integer sort size used in the recursive calls by rounding the 2/3 upwards, e.g. rounding 2/3 of 5 should give 4 rather than 3, as otherwise the sort can fail on certain data.

Implementation

 function stoogesort(array L, i = 0, j = length(L)-1){
     if L[i] > L[j] then       // If the leftmost element is larger than the rightmost element
         L[i] ↔ L[j]           // Swap the leftmost element and the rightmost element
     if (j - i + 1) > 2 then       // If there are at least 3 elements in the array
         t = floor((j - i + 1) / 3)
         stoogesort(L, i  , j-t)  // Sort the first 2/3 of the array
         stoogesort(L, i+t, j)    // Sort the last 2/3 of the array
         stoogesort(L, i  , j-t)  // Sort the first 2/3 of the array again
     return L
 }

References

"CSE 373" (PDF). courses.cs.washington.edu. Retrieved 14 September 2020.

Sources

Black, Paul E. "stooge sort". Dictionary of Algorithms and Data Structures. National Institute of Standards and Technology. Retrieved 18 June 2011.
Cormen, Thomas H.; Leiserson, Charles E.; Rivest, Ronald L.; Stein, Clifford (2001) [1990]. "Problem 7-3". Introduction to Algorithms (2nd ed.). MIT Press and McGraw-Hill. pp. 161–162. ISBN 0-262-03293-7.

External links

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[1] "CSE 373" (PDF). courses.cs.washington.edu. Retrieved 14 September 2020.

Sorting algorithms
Theory	Computational complexity theory Big O notation Total order Lists Inplacement Stability Comparison sort Adaptive sort Sorting network Integer sorting X + Y sorting Transdichotomous model Quantum sort
Exchange sorts	Bubble sort Cocktail shaker sort Odd–even sort Comb sort Gnome sort Proportion extend sort Quicksort Slowsort Stooge sort Bogosort
Selection sorts	Selection sort Heapsort Smoothsort Cartesian tree sort Tournament sort Cycle sort Weak-heap sort
Insertion sorts	Insertion sort Shellsort Splaysort Tree sort Library sort Patience sorting
Merge sorts	Merge sort Cascade merge sort Oscillating merge sort Polyphase merge sort
Distribution sorts	American flag sort Bead sort Bucket sort Burstsort Counting sort Interpolation sort Pigeonhole sort Proxmap sort Radix sort Flashsort
Concurrent sorts	Bitonic sorter Batcher odd–even mergesort Pairwise sorting network Samplesort
Hybrid sorts	Block merge sort Kirkpatrick-Reisch sort Timsort Introsort Spreadsort Merge-insertion sort
Other	Topological sorting Pre-topological order Pancake sorting Spaghetti sort