Comb sort is a relatively simple sorting algorithm originally designed by Włodzimierz Dobosiewicz and Artur Borowy in 1980,[1][2] later rediscovered (and given the name "Combsort") by Stephen Lacey and Richard Box in 1991.[3] Comb sort improves on bubble sort in the same way that Shellsort improves on insertion sort, in that they both allow elements that start far away from their intended position to move more than one space per swap.
nist.gov's "diminishing increment sort" definition mentions the term 'comb sort' as visualizing iterative passes of the data, "where the teeth of a comb touch;" the former term is linked to Don Knuth.[4]
The basic idea is to eliminate turtles, or small values near the end of the list, since in a bubble sort these slow the sorting down tremendously. Rabbits, large values around the beginning of the list, do not pose a problem in bubble sort.
In bubble sort, when any two elements are compared, they always have a gap (distance from each other) of 1.[5] The basic idea of comb sort is that the gap can be much more than 1. The inner loop of bubble sort, which does the actual swap, is modified such that the gap between swapped elements goes down (for each iteration of outer loop) in steps of a "shrink factor" k: [n/k, n/k2, n/k3, ..., 1].
The gap starts out as the length of the list n being sorted divided by the shrink factor k (generally 1.3; see below) and one pass of the aforementioned modified bubble sort is applied with that gap. Then the gap is divided by the shrink factor again, the list is sorted with this new gap, and the process repeats until the gap is 1. At this point, comb sort continues using a gap of 1 until the list is fully sorted. The final stage of the sort is thus equivalent to a bubble sort, but by this time most turtles have been dealt with, so a bubble sort will be efficient.
The shrink factor has a great effect on the efficiency of comb sort. Dobosiewicz suggested k = 4/3 = 1.333…, while Lacey and Box suggest 1.3 as an ideal shrink factor after empirical testing on over 200,000 random lists of length approximately 1000. A value too small slows the algorithm down by making unnecessarily many comparisons, whereas a value too large fails to effectively deal with turtles, making it require many passes with a gap of 1.
The pattern of repeated sorting passes with decreasing gaps is similar to Shellsort, but in Shellsort the array is sorted completely each pass before going on to the next-smallest gap. Comb sort's passes do not completely sort the elements. This is the reason that Shellsort gap sequences have a larger optimal shrink factor of about 2.25.
One additional refinement suggested by Lacey and Box is the "rule of 11": always use a gap size of 11, rounding up gap sizes of 9 or 10 (reached by dividing gaps of 12, 13 or 14 by 1.3) to 11. This eliminates turtles surviving until the final gap-1 pass.
Pseudocodeedit
function combsort(array input) is gap := input.size // Initialize gap size shrink := 1.3 // Set the gap shrink factor sorted := false loop while sorted = false // Update the gap value for a next comb gap := floor(gap / shrink) if gap ≤ 1 then gap := 1 sorted := true // If there are no swaps this pass, we are doneelse if gap = 9 or gap = 10 then gap := 11 // The "rule of 11"end if// A single "comb" over the input list i := 0 loop while i + gap < input.size // See Shell sort for a similar ideaif input[i] > input[i+gap] thenswap(input[i], input[i+gap]) sorted := false // If this assignment never happens within the loop, // then there have been no swaps and the list is sorted.end if i := i + 1 end loopend loopend function
See alsoedit
The Wikibook Algorithm Implementation has a page on the topic of: Comb sort
Bubble sort, a generally slower algorithm, is the basis of comb sort.
Cocktail sort, or bidirectional bubble sort, is a variation of bubble sort that also addresses the problem of turtles, albeit less effectively.
Referencesedit
^ abcBrejová, Bronislava (15 September 2001). "Analyzing variants of Shellsort". Information Processing Letters. 79 (5): 223–227. doi:10.1016/S0020-0190(00)00223-4.
^Dobosiewicz, Wlodzimierz (29 August 1980). "An efficient variation of bubble sort". Information Processing Letters. 11 (1): 5–6. doi:10.1016/0020-0190(80)90022-8.
^Lacey, Stephen; Box, Richard (April 1991). . Hands On. Byte Magazine. Vol. 16, no. 4. pp. 315–318, 320. Archived from the original on 2021-09-27. Entire magazine available at archive.org.
^"diminishing increment sort". Retrieved March 9, 2021.
comb, sort, relatively, simple, sorting, algorithm, originally, designed, włodzimierz, dobosiewicz, artur, borowy, 1980, later, rediscovered, given, name, combsort, stephen, lacey, richard, 1991, improves, bubble, sort, same, that, shellsort, improves, inserti. Comb sort is a relatively simple sorting algorithm originally designed by Wlodzimierz Dobosiewicz and Artur Borowy in 1980 1 2 later rediscovered and given the name Combsort by Stephen Lacey and Richard Box in 1991 3 Comb sort improves on bubble sort in the same way that Shellsort improves on insertion sort in that they both allow elements that start far away from their intended position to move more than one space per swap Comb sortComb sort with shrink factor k 1 24733ClassSorting algorithmData structureArrayWorst case performanceO n2 displaystyle O n 2 1 Best case performance8 nlog n displaystyle Theta n log n Average performanceW n2 2p displaystyle Omega n 2 2 p where p is the number of increments 1 Worst case space complexityO 1 displaystyle O 1 nist gov s diminishing increment sort definition mentions the term comb sort as visualizing iterative passes of the data where the teeth of a comb touch the former term is linked to Don Knuth 4 Contents 1 Algorithm 1 1 Pseudocode 2 See also 3 ReferencesAlgorithm editThe basic idea is to eliminate turtles or small values near the end of the list since in a bubble sort these slow the sorting down tremendously Rabbits large values around the beginning of the list do not pose a problem in bubble sort In bubble sort when any two elements are compared they always have a gap distance from each other of 1 5 The basic idea of comb sort is that the gap can be much more than 1 The inner loop of bubble sort which does the actual swap is modified such that the gap between swapped elements goes down for each iteration of outer loop in steps of a shrink factor k n k n k2 n k3 1 The gap starts out as the length of the list n being sorted divided by the shrink factor k generally 1 3 see below and one pass of the aforementioned modified bubble sort is applied with that gap Then the gap is divided by the shrink factor again the list is sorted with this new gap and the process repeats until the gap is 1 At this point comb sort continues using a gap of 1 until the list is fully sorted The final stage of the sort is thus equivalent to a bubble sort but by this time most turtles have been dealt with so a bubble sort will be efficient The shrink factor has a great effect on the efficiency of comb sort Dobosiewicz suggested k 4 3 1 333 while Lacey and Box suggest 1 3 as an ideal shrink factor after empirical testing on over 200 000 random lists of length approximately 1000 A value too small slows the algorithm down by making unnecessarily many comparisons whereas a value too large fails to effectively deal with turtles making it require many passes with a gap of 1 The pattern of repeated sorting passes with decreasing gaps is similar to Shellsort but in Shellsort the array is sorted completely each pass before going on to the next smallest gap Comb sort s passes do not completely sort the elements This is the reason that Shellsort gap sequences have a larger optimal shrink factor of about 2 25 One additional refinement suggested by Lacey and Box is the rule of 11 always use a gap size of 11 rounding up gap sizes of 9 or 10 reached by dividing gaps of 12 13 or 14 by 1 3 to 11 This eliminates turtles surviving until the final gap 1 pass Pseudocode edit function combsort array input is gap input size Initialize gap size shrink 1 3 Set the gap shrink factor sorted false loop while sorted false Update the gap value for a next comb gap floor gap shrink if gap 1 then gap 1 sorted true If there are no swaps this pass we are done else if gap 9 or gap 10 then gap 11 The rule of 11 end if A single comb over the input list i 0 loop while i gap lt input size See Shell sort for a similar idea if input i gt input i gap then swap input i input i gap sorted false If this assignment never happens within the loop then there have been no swaps and the list is sorted end if i i 1 end loop end loop end functionSee also edit nbsp The Wikibook Algorithm Implementation has a page on the topic of Comb sort Bubble sort a generally slower algorithm is the basis of comb sort Cocktail sort or bidirectional bubble sort is a variation of bubble sort that also addresses the problem of turtles albeit less effectively References edit a b c Brejova Bronislava 15 September 2001 Analyzing variants of Shellsort Information Processing Letters 79 5 223 227 doi 10 1016 S0020 0190 00 00223 4 Dobosiewicz Wlodzimierz 29 August 1980 An efficient variation of bubble sort Information Processing Letters 11 1 5 6 doi 10 1016 0020 0190 80 90022 8 Lacey Stephen Box Richard April 1991 A Fast Easy Sort A novel enhancement makes a bubble sort into one of the fastest sorting routines Hands On Byte Magazine Vol 16 no 4 pp 315 318 320 Archived from the original on 2021 09 27 Entire magazine available at archive org diminishing increment sort Retrieved March 9 2021 comb sort National Institute of Standards and Technology nist gov Retrieved March 9 2021 Retrieved from https en wikipedia org w index php title Comb sort amp oldid 1218487070, wikipedia, wiki, book, books, library,
