An Introduction to Sorting

Chapter 8

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Chapter Contents Selection Sort

Iterative Selection Sort Recursive Selection Sort The Efficiency of Selection Sort

Insertion Sort Iterative Insertion Sort Recursive Insertion Sort The Efficiency of Insertion Sort Insertion Sort of a Chain of Linked Nodes

Shell Sort The Java Code The Efficiency of Shell Sort

Comparing the Algorithms

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Selection Sort

Sorting: Arrange things into either ascending or descending order

Task: rearrange books on shelf by height Shortest book on the left

Approach: Look at books, select shortest book Swap with first book Look at remaining books, select shortest Swap with second book Repeat …

4

Selection Sort

Before and after exchanging shortest book and the first book.

5

Selection Sort

A selection sort of an array of integers into

ascending order.

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Iterative Selection Sort

Iterative algorithm for selection sort

Algorithm selectionSort(a, n)

// Sorts the first n elements of an array a.

for (index = 0; index < n 1; index++){ indexOfNextSmallest = the index of the smallest value among

a[index], a[index+1], . . . , a[n1]Interchange the values of a[index] and a[indexOfNextSmallest]

// Assertion: a[0] a[1] . . . a[index], and these are the smallest

// of the original array elements. // The remaining array elements begin at a[index+1].

}

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Recursive Selection Sort Recursive algorithm for selection sort

Algorithm selectionSort(a, first, last)

// Sorts the array elements a[first] through a[last] recursively.

if (first < last){ indexOfNextSmallest = the index of the smallest value among

a[first], a[first+1], . . . , a[last]Interchange the values of a[first] and a[indexOfNextSmallest]// Assertion: a[0] a[1] . . . a[first] and these are the

smallest// of the original array elements. // The remaining array elements begin at a[first+1].selectionSort(a, first+1, last)

}

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The Efficiency of Selection Sort

Iterative method for loop executes n – 1 times For each of n – 1 calls, the indexOfSmallest is invoked, last

is n-1, and first ranges from 0 to n-2. For each indexOfSmallest, compares last – first times Total operations: (n – 1) + (n – 2) + …+ 1 = n(n – 1)/2 =

O(n2)

It does not depends on the nature of the data in the array.

Recursive selection sort performs same operations Also O(n2)

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Insertion Sort

If only one book, it is sorted. Consider the second book, if shorter than first one

Remove second book Slide first book to right Insert removed book into first slot

Then look at third book, if it is shorter than 2nd book Remove 3rd book Slide 2nd book to right Compare with the 1st book, if is taller than 3rd, slide 1st to

right, insert the 3rd book into first slot

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Insertion Sort

The placement of the third book during an

insertion sort.

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Insertion Sort

•Partitions the array into two parts. One part is sorted and initially contains the first element.

•The second part contains the remaining elements.

•Removes the first element from the unsorted part and inserts it into its proper sorted position within the sorted part by comparing with element from the end of sorted part and toward its beginning.

•The sorted part keeps expanding and unsorted part keeps shrinking by one element at each pass

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Iterative Insertion Sort Iterative algorithm for insertion sort

Algorithm insertionSort(a, first, last)

// Sorts the array elements a[first] through a[last] iteratively.

for (unsorted = first+1 through last){ firstUnsorted = a[unsorted]

insertInOrder(firstUnsorted, a, first, unsorted-1)}

Algorithm insertInOrder(element, a, begin, end)// Inserts element into the sorted array elements a[begin] through a[end].index = endwhile ( (index >= begin) and (element < a[index]) )

{ a[index+1] = a[index] // make roomindex - -

}// Assertion: a[index+1] is available.a[index+1] = element // insert

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Iterative Insertion Sort

An insertion sort inserts the next unsorted element into its proper location within the

sorted portion of an array

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Iterative Insertion Sort

An insertion sort of an array of integers into ascending order

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Recursive Insertion Sort

Algorithm for recursive insertion sort

Algorithm insertionSort(a, first, last)

// Sorts the array elements a[first] through a[last] recursively.

if (the array contains more than one element){ Sort the array elements a[first] through a[last-1]

Insert the last element a[last] into its correct sorted position within the rest of the array

}

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Recursive Insertion Sortpublic static void insertionSort( Comparable[] a, int first, int last){

If ( first < last){

//sort all but the last elementinsertionSort( a, first, last -1 );//insert the last element in sorted order from first through last positionsinsertInOrder(a[last], a, first, last-1);

}}

insertInorder( element, a, first, last)If (element >= a[last])

a[last+1] = element;else if (first < last){

a[last+1] = a[last];insertInOrder(element, a, first, last-1);

}else // first == last and element < a[last]{

a[last+1] = a[last];a[last] = element

}

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Recursive Insertion Sort

Inserting the first unsorted element into the sorted

portion of the array.

(a) The element is ≥ last sorted element;

(b) The element is < than last sorted element

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Efficiency of Insertion Sort

Best time efficiency is O(n) Worst time efficiency is O(n2) If array is closer to sorted order

Less work the insertion sort does More efficient the sort is

Insertion sort is acceptable for small array sizes

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Shell Sort

A variation of the insertion sort But faster than O(n2)

Done by sorting subarrays of equally spaced indices

Instead of moving to an adjacent location an element moves several locations away Results in an almost sorted array This array sorted efficiently with ordinary insertion

sort

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Shell Sort

Donald Shell suggested that the initial separation between indices be n/2 and halve this value at each pass until it is 1.

An array has 13 elements, and the subarrays formed by grouping elements whose indices are 6 apart.

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Shell Sort

The subarrays after they are sorted, and the array that contains them.

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Shell Sort

The subarrays by grouping elements whose indices are 3 apart

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Shell Sort

The subarrays after they are sorted, and the array that contains them.

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Efficiency of Shell Sort

Efficiency is O(n2) for worst case If n is a power of 2

Average-case behavior is O(n1.5) Shell sort uses insertion sort repeatedly. Initial sorts are much smaller, the later

sorts are on arrays that are partially sorted, the final sort is on an array that is almost entirely sorted.

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Comparing the Algorithms

Best Average WorstCase Case Case

Selection sort O(n2) O(n2) O(n2)

Insertion sort O(n) O(n2) O(n2)

Shell sort O(n) O(n1.5) O(n1.5) or O(n2)

The time efficiencies of three sorting algorithms, expressed in Big Oh notation.