Double Linear Search

Searching

O(n) time, O(1) space

Beginner

Searches from both ends simultaneously, potentially halving search time.

Prerequisites:

Arrays

Two pointers

Visualization

Interactive visualization for Double Linear Search

Target

Double Linear Search:

• Search from both ends
• Time: O(n/2)

Interactive visualization with step-by-step execution

Implementation

Language:

1function doubleLinearSearch(arr: number[], target: number): number {
2  let left = 0, right = arr.length - 1;
3  while (left <= right) {
4    if (arr[left] === target) return left;
5    if (arr[right] === target) return right;
6    left++;
7    right--;
8  }
9  return -1;
10}

Deep Dive

Theoretical Foundation

Two pointers from start and end move towards center. Finds target in half the comparisons on average.

Complexity

Time

Best

O(1)

Average

O(n/2)

Worst

O(n)

Space

Required

O(1)

Applications

Industry Use

Optimized linear searches

Small arrays

Use Cases

Optimized unsorted search

Small performance gain

Related Algorithms

Binary Search

Binary Search is one of the most efficient searching algorithms with O(log n) time complexity. It works on sorted arrays by repeatedly dividing the search space in half, eliminating half of the remaining elements with each comparison. This divide-and-conquer approach makes it exponentially faster than linear search for large datasets.

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Linear Search

Linear Search, also known as Sequential Search, is the simplest searching algorithm that checks each element in a list sequentially until the target element is found or the end is reached. Despite its O(n) time complexity, it's the only option for unsorted data and remains practical for small datasets or when simplicity is crucial.

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Jump Search

Jump Search is an efficient algorithm for sorted arrays that combines the benefits of linear and binary search. Instead of checking every element (linear) or dividing the array (binary), it jumps ahead by fixed steps of √n and then performs linear search within the identified block. This approach achieves O(√n) time complexity, making it faster than linear search while being simpler than binary search for certain applications.

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Interpolation Search

Interpolation Search is an improved variant of binary search specifically optimized for uniformly distributed sorted arrays. Instead of always checking the middle element, it estimates the target's position based on the target value relative to the range of values, similar to how humans search a phone book. Achieves O(log log n) average time for uniformly distributed data, significantly faster than binary search's O(log n).

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