Step 1 : Find the middle element of array. using , middle = initial_value + end_value / 2 ; Step 2 : If middle = element, return ‘element found’ and index. Step 3 : if middle > element, call the function with end_value = middle - 1 . Step 4 : if middle < element, call the function with start_value = middle + 1 . Step 5 : exit.
二分搜索算法的实现函数使用了反复调用函数。这个调用可以有两种类型:
迭代调用是多次循环同一段代码。
递归调用是反复调用同一个函数。
演示
#include <stdio.h> int iterativeBinarySearch(int array[], int start_index, int end_index, int element){ while (start_index <= end_index){ int middle = start_index + (end_index- start_index )/2; if (array[middle] == element) return middle; if (array[middle] < element) start_index = middle + 1; else end_index = middle - 1; } return -1; } int main(void){ int array[] = {1, 4, 7, 9, 16, 56, 70}; int n = 7; int element = 16; int found_index = iterativeBinarySearch(array, 0, n-1, element); if(found_index == -1 ) { printf("Element not found in the array "); } else { printf("Element found at index : %d",found_index); } return 0; }
Element found at index : 4
在线演示
#include <stdio.h> int recursiveBinarySearch(int array[], int start_index, int end_index, int element){ if (end_index >= start_index){ int middle = start_index + (end_index - start_index )/2; if (array[middle] == element) return middle; if (array[middle] > element) return recursiveBinarySearch(array, start_index, middle-1, element); return recursiveBinarySearch(array, middle+1, end_index, element); } return -1; } int main(void){ int array[] = {1, 4, 7, 9, 16, 56, 70}; int n = 7; int element = 9; int found_index = recursiveBinarySearch(array, 0, n-1, element); if(found_index == -1 ) { printf("Element not found in the array "); } else { printf("Element found at index : %d",found_index); } return 0; }
Element found at index : 3
以上就是二分搜索(递归和迭代)在C程序中的实现的详细内容,更多请关注php中文网其它相关文章!
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