Given an infinite array of sorted integers, we need to find the index of a given target number. The array is "infinite," meaning we cannot determine its size in advance, so we can't just apply a traditional binary search directly.
Start with a small range: Initially, assume that the element lies within a small range (say, between indices 0 and 1).
Dynamically increase the range: If the target element is not found in the initial range, we double the size of the range to search further. This exponential growth allows us to quickly hone in on the range where the target might be located.
Binary search within the range: Once we determine a suitable range that contains the target, we apply binary search to efficiently find the target's index.
public class InfiniteArraySearch { public static void main(String[] args) { // Define the array (for demonstration purposes, treat this as infinite) int[] arr = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15}; int target = 6; // Call the function to find the target element int result = findElementInInfiniteArray(arr, target); System.out.println("Element found at index: " + result); } // Function to find the target in the infinite array static int findElementInInfiniteArray(int[] arr, int target) { // Start with a small range int start = 0; int end = 1; // Dynamically increase the range until the target is within bounds while (target > arr[end]) { int newStart = end + 1; // Update start to one after the current end end = end + (end - start + 1) * 2; // Double the range start = newStart; // Move the start to newStart } // Perform binary search within the determined range return binarySearch(arr, target, start, end); } // Standard binary search implementation static int binarySearch(int[] arr, int target, int start, int end) { while (start <= end) { int mid = start + (end - start) / 2; if (target < arr[mid]) { end = mid - 1; // Move the end to the left } else if (target > arr[mid]) { start = mid + 1; // Move the start to the right } else { return mid; // Element found } } return -1; // Element not found } }
The main function defines an example array arr and a target value 6. For simplicity, we assume the array is finite here, but conceptually, we treat it as infinite. The main function then calls findElementInInfiniteArray to search for the target, and prints the index if found.
In the findElementInInfiniteArray method:
Once we know that the target must lie between start and end, we perform a standard binary search. Binary search is an efficient way to search in sorted arrays, as it reduces the search space by half at each step. The key comparisons are:
Range Expansion: The range doubles with each iteration, so it takes O(log N) operations to find the right range where the target lies.
Binary Search: Once the range is found, binary search runs in O(log M), where M is the size of the range.
Thus, the overall time complexity is approximately O(log N + log M).
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