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Sorting Rearrange a[0], a[1], …, a[n-1] into ascending order.

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Presentation on theme: "Sorting Rearrange a[0], a[1], …, a[n-1] into ascending order."— Presentation transcript:

1 Sorting Rearrange a[0], a[1], …, a[n-1] into ascending order.
When done, a[0] <= a[1] <= … <= a[n-1] 8, 6, 9, 4, 3 => 3, 4, 6, 8, 9 Strictly speaking, nondecreasing order: 2, 2, 3, 6, 8, 8, 10.

2 Sort Methods Insertion Sort Bubble Sort Selection Sort Count Sort
Shaker Sort Shell Sort Heap Sort Merge Sort Quick Sort First 5 are simple (conceptually and to program). First 4 done in chapters 2 and 3. Shaker sort and shell sort are in the enrichment section of the text’s Web site. The remaining three are done in the algorithm design chapters of the text.

3 Insert An Element Given a sorted list/sequence, insert a new element
Result 3, 5, 6, 9, 14

4 Insert an Element 3, 6, 9, 14 insert 5
Compare new element (5) and last one (14) Shift 14 right to get 3, 6, 9, , 14 Shift 9 right to get 3, 6, , 9, 14 Shift 6 right to get 3, , 6, 9, 14 Insert 5 to get 3, 5, 6, 9, 14

5 Insert An Element // insert t into a[0:i-1] int j;
for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; a[j + 1] = t;

6 Insertion Sort Start with a sequence of size 1
Repeatedly insert remaining elements

7 Insertion Sort Sort 7, 3, 5, 6, 1 Start with 7 and insert 3 => 3, 7

8 Insertion Sort for (int i = 1; i < a.length; i++)
{// insert a[i] into a[0:i-1] // code to insert comes here }

9 Insertion Sort for (int i = 1; i < a.length; i++)
{// insert a[i] into a[0:i-1] int t = a[i]; int j; for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; a[j + 1] = t; }

10 Complexity Space/Memory Time Count a particular operation
Count number of steps Asymptotic complexity Other types of complexity: programming complexity, debugging complexity, complexity of comprehension.

11 Comparison Count for (int i = 1; i < a.length; i++)
{// insert a[i] into a[0:i-1] int t = a[i]; int j; for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; a[j + 1] = t; }

12 Comparison Count Pick an instance characteristic … n, n = a.length for insertion sort Determine count as a function of this instance characteristic.

13 Comparison Count for (j = i - 1; j >= 0 && t < a[j]; j--)
a[j + 1] = a[j]; How many comparisons are made?

14 Comparison Count for (j = i - 1; j >= 0 && t < a[j]; j--)
a[j + 1] = a[j]; number of compares depends on a[]s and t as well as on i

15 Comparison Count Worst-case count = maximum count
Best-case count = minimum count Average count

16 Worst-Case Comparison Count
for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; a = [1, 2, 3, 4] and t = 0 => 4 compares a = [1,2,3,…,i] and t = 0 => i compares

17 Worst-Case Comparison Count
for (int i = 1; i < n; i++) for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; total compares = … + (n-1) = (n-1)n/2

18 Step Count A step is an amount of computing that does not depend on the instance characteristic n 10 adds, 100 subtracts, 1000 multiplies can all be counted as a single step n adds cannot be counted as 1 step

19 Step Count s/e for (int i = 1; i < a.length; i++)
{// insert a[i] into a[0:i-1] int t = a[i]; int j; for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; a[j + 1] = t; } for (int i = 1; i < a.length; i++) {// insert a[i] into a[0:i-1] int t = a[i]; int j; for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; a[j + 1] = t; }

20 Step Count s/e isn’t always 0 or 1 x = MyMath.sum(a, n);
where n is the instance characteristic has a s/e count of n

21 Step Count i+ 1 i s/e steps for (int i = 1; i < a.length; i++)
{// insert a[i] into a[0:i-1] int t = a[i]; int j; for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; a[j + 1] = t; } for (int i = 1; i < a.length; i++) {// insert a[i] into a[0:i-1] int t = a[i]; int j; for (j = i - 1; j >= 0 && t < a[j]; j--) a[j + 1] = a[j]; a[j + 1] = t; } i+ 1 i

22 Step Count for (int i = 1; i < a.length; i++) { 2i + 3}
is n step count for body of for loop is 2(1+2+3+…+n-1) + 3(n-1) = (n-1)n + 3(n-1) = (n-1)(n+3)

23 Asymptotic Complexity of Insertion Sort
What does this mean?

24 Complexity of Insertion Sort
Time or number of operations does not exceed c.n2 on any input of size n (n suitably large). Actually, the worst-case time is Theta(n2) and the best-case is Theta(n) So, the worst-case time is expected to quadruple each time n is doubled

25 Complexity of Insertion Sort
Is O(n2) too much time? Is the algorithm practical?

26 Practical Complexities
109 instructions/second Teraflop computer the 32yr time becomes approx 10 days.

27 Impractical Complexities
109 instructions/second

28 Faster Computer Vs Better Algorithm
Algorithmic improvement more useful than hardware improvement. E.g. 2n to n3

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