I'm working on the pointer chapter in "C How to Program" and I'm having trouble interpreting an exercise.
There is talk of developing a recursive function and the use of "subarrays." I'm not precisely sure what they mean when they say subarray. I'll write
out the whole exercise to give the whole context, and bolden the issue. I realize this is a little long but bare with me please.
Code:(Quicksort) In the examples and exercises of Chapter 6, we discussed the sorting techniques of bubble sort, bucket sort, and selection sort. We now present the recursive sorting technique called Quicksort. The basic algorithm for a single-subscripted array of values is as follows: a) Paritioning Step: Take the first element of the unsorted array and determine its final location in the sorted array(i.e., all values to the left of the element in the array are less than the element, and all values to the right of the element in the array are greater than the element). We now have one element in its proper location and two unsorted subarrays. b) Recursive Step: Perform step 1 on each unsorted subarray. Each time step 1 is performed on a subarray, another element is placed in its final location of the sorted array, and two unsorted subarrays are created. When a subarray consists of one element, it must be sorted; therefore that element is in its final location. The basic algorithm seems simple enough, but how do we determine the final position of the first element of each subarray. As an example, consider the following set of values (the elements in bold is the paritionting element--it will be placed in its final location in the sorted array): 37 2 6 4 89 8 10 12 68 45 a) Starting from the rightmost element of the array, compare each element with 37 until an element less than 37 is found. Then swap 37 and that element. The first element less than 37 is 12, so 37 and 12 are swapped. The new array is 12 2 6 4 89 8 10 37 68 45 b) Starting from the left of the array, but beginning with the element after 12, comopare each element with 37 until an element greater than 37 is found. Then swap 37 and that element. The first element greater than 37 is 89, so 37 and 89 are swapped. The new array is 12 2 6 4 37 8 10 89 68 45 c) Starting from the right, but beginning with the element before 89, compare each element with 37 until an element less than 37 is found. Then swap 37 and that elmeent. The first element less than 37 is 10, so 37 and 10 are swapped. The new array is 12 2 6 4 10 8 37 89 68 45 d) Starting from the left, but beginning with the lement after 10, compare each element with 37 until an element greater than 37 is found. Then swap 37 and that element. There are no more elements greater than 37, so when we compare 37 with itself, wek now that 37 has been placed in its final location of the sorted array. Once the partition has b een applied on the array, there are two unsorted subarray. The subarrays with values less than 37 contrains 12, 2, 6, 4 10, and 8. The subarray with values greater than 37 contains 89, 68, and 45. The sort continues with both subarrays being partitioned int he same manner as the original array. Based on the preceding discussion, write recursive function quicksort to sort a single-subscripted integer array. The funciton should recieve as arguments an integer array, a starting subscript and an ending subscript. Function partition should be called by quicksort to perform the partitioning step.
So what is a subarray exactly?
