problem_solving/Search_in_Rotated_Sorted_Array.js at master · Med-Ri/problem_solving · GitHub

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// ------------------------------------------------ description ----------------------------------------------------------------------

// There is an integer array nums sorted in ascending order (with distinct values).
// Prior to being passed to your function, nums is possibly rotated at an unknown pivot index k (1 <= k < nums.length) such that the resulting array is [nums[k], nums[k+1], ..., nums[n-1], nums[0], nums[1], ..., nums[k-1]] (0-indexed). For example, [0,1,2,4,5,6,7] might be rotated at pivot index 3 and become [4,5,6,7,0,1,2].
// Given the array nums after the possible rotation and an integer target, return the index of target if it is in nums, or -1 if it is not in nums.
// You must write an algorithm with O(log n) runtime complexity.

// Example 1:
// Input: nums = [4,5,6,7,0,1,2], target = 0
// Output: 4

// Example 2:
// Input: nums = [4,5,6,7,0,1,2], target = 3
// Output: -1

// Example 3:
// Input: nums = [1], target = 0
// Output: -1

// Constraints:
//     1 <= nums.length <= 5000
//     -104 <= nums[i] <= 104
//     All values of nums are unique.
//     nums is an ascending array that is possibly rotated.
//     -104 <= target <= 104

// -----------------------------------------------------------------------------------------------------------------------------------

//this solution using binary search

const search = (nums, target) => {
  let left = 0;
  let right = nums.length - 1;

  while (left <= right) {
    const mid = Math.floor((left + right) / 2);

    if (nums[mid] === target) {
      return mid;
    }

    // If left half is sorted
    if (nums[left] <= nums[mid]) {
      // Check if target is within the left half
      if (nums[left] <= target && target < nums[mid]) {
        right = mid - 1; // Search left half
      } else {
        left = mid + 1; // Search right half
      }
    } else {
      // Right half is sorted
      // Check if target is within the right half
      if (nums[mid] < target && target <= nums[right]) {
        left = mid + 1; // Search right half
      } else {
        right = mid - 1; // Search left half
      }
    }
  }

  return -1; // Target not found
};


// Example usage:
console.log(search([4,5,6,7,0,1,2], 0)); // Output: 4
console.log(search([4,5,6,7,0,1,2], 3)); // Output: -1
console.log(search([1], 0)); // Output: -1
console.log(search([4,5,6,7,0,1,2], 2)); // Output: 6
console.log(search([4,5,6,7,0,1,2], 3)); // Output: -1