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Data Structures Using C++1 Chapter 10 Sorting Algorithms.

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1 Data Structures Using C++1 Chapter 10 Sorting Algorithms

2 Data Structures Using C++2 Chapter Objectives Learn the various sorting algorithms Explore how to implement the selection, insertion, quick, merge, and heap sorting algorithms Discover how the sorting algorithms discussed in this chapter perform Learn how priority queues are implemented

3 Data Structures Using C++3 Selection Sort Sorts list by 1.Finding smallest (or equivalently largest) element in the list 2.Moving it to the beginning (or end) of the list by swapping it with element in beginning (or end) position

4 Data Structures Using C++4 class orderedArrayListType template class orderedArrayListType: public arrayListType { public: void selectionSort();... };

5 Data Structures Using C++5 Smallest Element in List Function template int orderedArrayListType ::minLocation(int first, int last) { int loc, minIndex; minIndex = first; for(loc = first + 1; loc <= last; loc++) if(list[loc] < list[minIndex]) minIndex = loc; return minIndex; }//end minLocation

6 Data Structures Using C++6 Swap Function template void orderedArrayListType ::swap(int first, int second) { elemType temp; temp = list[first]; list[first] = list[second]; list[second] = temp; }//end swap

7 Data Structures Using C++7 Selection Sort Function template void orderedArrayListType ::selectionSort() { int loc, minIndex; for(loc = 0; loc < length - 1; loc++) { minIndex = minLocation(loc, length - 1); swap(loc, minIndex); }

8 Data Structures Using C++8 Selection Sort Example: Array-Based Lists

9 Data Structures Using C++9 Selection Sort Example: Array-Based Lists

10 Data Structures Using C++10 Selection Sort Example: Array-Based Lists

11 Data Structures Using C++11 Selection Sort Example: Array-Based Lists

12 Data Structures Using C++12 Analysis: Selection Sort By analyzing the number of key comparisons, we see that selection sort is an O(n 2 ) algorithm:

13 Data Structures Using C++13 class orderedArrayListType template class orderedArrayListType: public arrayListType { public: void insertOrd(const elemType&); int binarySearch(const elemType& item); void selectionSort(); orderedArrayListType(int size = 100); private: void swap(int first, int second); int minLocation(int first, int last); };

14 Data Structures Using C++14 Insertion Sort Reduces number of key comparisons made in selection sort Can be applied to both arrays and linked lists (examples follow) Sorts list by –Finding first unsorted element in list –Moving it to its proper position

15 Data Structures Using C++15 Insertion Sort: Array-Based Lists

16 Data Structures Using C++16 Insertion Sort: Array-Based Lists

17 Data Structures Using C++17 Insertion Sort: Array-Based Lists

18 Data Structures Using C++18 Insertion Sort: Array-Based Lists

19 Data Structures Using C++19 Insertion Sort: Array-Based Lists for(firstOutOfOrder = 1; firstOutOfOrder < length; firstOutOfOrder++) if(list[firstOutOfOrder] is less than list[firstOutOfOrder - 1]) { copy list[firstOutOfOrder] into temp initialize location to firstOutOfOrder do { a. move list[location - 1] one array slot down b. decrement location by 1 to consider the next element of the sorted portion of the array } while(location > 0 && the element in the upper sublist at location - 1 is greater than temp) } copy temp into list[location]

20 Data Structures Using C++20 Insertion Sort: Array-Based Lists

21 Data Structures Using C++21 Insertion Sort: Array-Based Lists

22 Data Structures Using C++22 Insertion Sort: Array-Based Lists

23 Data Structures Using C++23 Insertion Sort: Array-Based Lists template void orderedArrayListType ::insertionSort() { int firstOutOfOrder, location; elemType temp; for(firstOutOfOrder = 1; firstOutOfOrder < length; firstOutOfOrder++) if(list[firstOutOfOrder] < list[firstOutOfOrder - 1]) { temp = list[firstOutOfOrder]; location = firstOutOfOrder; do { list[location] = list[location - 1]; location--; }while(location > 0 && list[location - 1] > temp); list[location] = temp; } }//end insertionSort

24 Data Structures Using C++24 Insertion Sort: Linked List-Based List

25 Data Structures Using C++25 Insertion Sort: Linked List-Based List if(firstOutOfOrder->info is less than first->info) move firstOutOfOrder before first else { set trailCurrent to first set current to the second node in the list //search the list while(current->info is less than firstOutOfOrder->info) { advance trailCurrent; advance current; } if(current is not equal to firstOutOfOrder) { //insert firstOutOfOrder between current and trailCurrent lastInOrder->link = firstOutOfOrder->link; firstOutOfOrder->link = current; trailCurrent->link = firstOutOfOrder; } else //firstOutOfOrder is already at the first place lastInOrder = lastInOrder->link; }

26 Data Structures Using C++26 Insertion Sort: Linked List-Based List

27 Data Structures Using C++27 Insertion Sort: Linked List-Based List

28 Data Structures Using C++28 Insertion Sort: Linked List-Based List

29 Data Structures Using C++29 Insertion Sort: Linked List-Based List

30 Data Structures Using C++30 Analysis: Insertion Sort

31 Data Structures Using C++31 Lower Bound on Comparison- Based Sort Algorithms Trace execution of comparison-based algorithm by using graph called comparison tree Let L be a list of n distinct elements, where n > 0. For any j and k, where 1 = j, k = n, either L[j] L[k] Each comparison of the keys has two outcomes; comparison tree is a binary tree Each comparison is a circle, called a node Node is labeled as j:k, representing comparison of L[j] with L[k] If L[j] < L[k], follow the left branch; otherwise, follow the right branch

32 Data Structures Using C++32 Lower Bound on Comparison- Based Sort Algorithms

33 Data Structures Using C++33 Lower Bound on Comparison- Based Sort Algorithms Top node in the figure is the root node Straight line that connects the two nodes is called a branch A sequence of branches from a node, x, to another node, y, is called a path from x to y Rectangle, called a leaf, represents the final ordering of the nodes Theorem: Let L be a list of n distinct elements. Any sorting algorithm that sorts L by comparison of the keys only, in its worst case, makes at least O(n*log2n) key comparisons

34 Data Structures Using C++34 Quick Sort Recursive algorithm Uses the divide-and-conquer technique to sort a list List is partitioned into two sublists, and the two sublists are then sorted and combined into one list in such a way so that the combined list is sorted

35 Data Structures Using C++35 Quick Sort: Array-Based Lists

36 Data Structures Using C++36 Quick Sort: Array-Based Lists

37 Data Structures Using C++37 Quick Sort: Array-Based Lists

38 Data Structures Using C++38 Quick Sort: Array-Based Lists

39 Data Structures Using C++39 Quick Sort: Array-Based Lists

40 Data Structures Using C++40 Quick Sort: Array-Based Lists

41 Data Structures Using C++41 Quick Sort: Array-Based Lists template int orderedArrayListType ::partition(int first, int last) { elemType pivot; int index, smallIndex; swap(first, (first + last)/2); pivot = list[first]; smallIndex = first; for(index = first + 1; index <= last; index++) if(list[index] < pivot) { smallIndex++; swap(smallIndex, index); } swap(first, smallIndex); return smallIndex; }

42 Data Structures Using C++42 Quick Sort: Array-Based Lists template void orderedArrayListType ::swap(int first,int second) { elemType temp; temp = list[first]; list[first] = list[second]; list[second] = temp; } //end swap

43 Data Structures Using C++43 Quick Sort: Array-Based Lists template void orderedArrayListType ::recQuickSort(int first, int last) { int pivotLocation; if(first <last) { pivotLocation = partition(first, last); recQuickSort(first, pivotLocation - 1); recQuickSort(pivotLocation + 1, last); } } //end recQuickSort template void orderedArrayListType ::quickSort() { recQuickSort(0, length - 1); }//end quickSort

44 Data Structures Using C++44 Quick Sort: Array-Based Lists

45 Data Structures Using C++45 Merge Sort Uses the divide-and-conquer technique to sort a list Merge sort algorithm also partitions the list into two sublists, sorts the sublists, and then combines the sorted sublists into one sorted list

46 Data Structures Using C++46 Merge Sort Algorithm

47 Data Structures Using C++47 Divide

48 Data Structures Using C++48 Divide

49 Data Structures Using C++49 Merge

50 Data Structures Using C++50 Merge

51 Data Structures Using C++51 Analysis of Merge Sort Suppose that L is a list of n elements, where n > 0. Let A(n) denote the number of key comparisons in the average case, and W(n) denote the number of key comparisons in the worst case to sort L. It can be shown that: A(n) = n*log2n – 1.26n = O(n*log2n) W(n) = n*log2n – (n–1) = O(n*log2n)

52 Data Structures Using C++52 Heap Sort Definition: A heap is a list in which each element contains a key, such that the key in the element at position k in the list is at least as large as the key in the element at position 2k + 1 (if it exists), and 2k + 2 (if it exists)

53 Data Structures Using C++53 Heap Sort: Array-Based Lists

54 Data Structures Using C++54 Heap Sort: Array-Based Lists

55 Data Structures Using C++55 Heap Sort: Array-Based Lists

56 Data Structures Using C++56 Heap Sort: Array-Based Lists

57 Data Structures Using C++57 Heap Sort: Array-Based Lists

58 Data Structures Using C++58 Heap Sort: Array-Based Lists

59 Data Structures Using C++59 Priority Queues: Insertion Assuming the priority queue is implemented as a heap: 1.Insert the new element in the first available position in the list. (This ensures that the array holding the list is a complete binary tree.) 2.After inserting the new element in the heap, the list may no longer be a heap. So to restore the heap: while (parent of new entry < new entry) swap the parent with the new entry

60 Data Structures Using C++60 Priority Queues: Remove Assuming the priority queue is implemented as a heap, to remove the first element of the priority queue: 1.Copy the last element of the list into the first array position. 2.Reduce the length of the list by 1. 3.Restore the heap in the list.

61 Data Structures Using C++61 Chapter Summary Sorting Algorithms –Selection sort –Insertion sort –Quick sort –Merge sort –heap sort Algorithm analysis Priority queues

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