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Big O Notation: A Simple Guide

Patricia Arquette
Release: 2024-10-31 06:48:30
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Big O Notation: A Simple Guide

Big O Notation is a mathematical concept used to describe the performance or complexity of an algorithm in terms of time and space as the input size grows. It helps us understand how the runtime of an algorithm increases with larger inputs, allowing for a more standardized comparison of different algorithms.

Why Use Big O Notation?

When comparing algorithms, relying solely on execution time can be misleading. For example, one algorithm might process a massive dataset in one hour, while another takes four hours. However, the execution time can vary based on the machine and other running processes. Instead, we use Big O Notation to focus on the number of operations performed, which provides a more consistent measure of efficiency.

Example: Summing Numbers

Let’s explore two ways to calculate the sum of all numbers from 1 to n:

Option 1: Using a Loop

function addUpTo(n) {
    let total = 0;
    for (let i = 1; i <= n; i++) {
        total += i;
    }
    return total;
}
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Option 2: Using a Formula

function addUpTo(n) {
    return n * (n + 1) / 2;
}
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Analyzing the Complexity

In Option 1, if n is 100, the loop runs 100 times. In contrast, Option 2 always executes a fixed number of operations (multiplication, addition, and division). Thus:

  • Option 1 is O(n): The time complexity grows linearly with n.
  • Option 2 is O(1): The time complexity remains constant, regardless of the input size.

Disclaimer

While Option 2 involves three operations (multiplication, addition, division), we focus on the general trend in Big O analysis. Thus, instead of expressing it as O(3n), we simplify it to O(n). Similarly, O(n 10) simplifies to O(n), and O(n^2 5n 8) simplifies to O(n^2). In Big O Notation, we consider the worst-case scenario, where the highest-order term has the greatest impact on performance.

There are other forms of notation beyond the common complexities listed above, such as logarithmic time complexity expressed as O(log n).

What Is Big O Notation?

Big O Notation allows us to formalize the growth of an algorithm’s runtime based on input size. Rather than focusing on specific operation counts, we categorize algorithms into broader classes including:

  • Constant Time: O(1) - The algorithm's performance does not change with the input size.
  • Linear Time: O(n) - The performance grows linearly with the input size.
  • Quadratic Time: O(n^2) - The performance grows quadratically as the input size increases.

Example of O(n^2)

Consider the following function, which prints all pairs of numbers from 0 to n:

function addUpTo(n) {
    let total = 0;
    for (let i = 1; i <= n; i++) {
        total += i;
    }
    return total;
}
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In this case, the function has two nested loops, so when nnn increases, the number of operations increases quadratically. For n= 2, there are 4 operations, and for n=3, there are 9 operations, leading to O(n^2).

Another Example: Count Up and Down

function addUpTo(n) {
    return n * (n + 1) / 2;
}
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At first glance, one might think this is O(n^2) because it contains two loops. However, both loops run independently and scale linearly with n. Thus, the overall time complexity is O(n).

Simplifying the Analysis

Analyzing every aspect of code complexity can be complex, but some general rules can simplify things:

  • Arithmetic operations are considered constant time.
  • Variable assignments are constant time.
  • Accessing elements in an array (by index) or object (by key) is constant time.
  • For a loop, the complexity is the length of the loop multiplied by the complexity of what happens inside the loop.

Space Complexity

While we've focused on time complexity, it's also possible to calculate space (memory) complexity using Big O. Some people include input size in their calculations, but it’s often more useful to focus solely on the space required by the algorithm itself.

Rules for Space Complexity (based on JavaScript):

  • Most primitive values (booleans, numbers, etc.) are constant space.
  • Strings require O(n) space (where n is the string length).
  • Reference types (arrays, objects) are generally O(n), where n is the length of the array or the number of keys in the object.

An Example

function printAllPairs(n) {
    for (var i = 0; i < n; i++) {
        for (var j = 0; j < n; j++) {
            console.log(i, j);
        }
    }
}

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In this function, the space complexity is O(1) because we use a constant amount of space (two variables) regardless of the input size.

For a function that creates a new array:

function countUpAndDown(n) {
    console.log("Going up!");
    for (var i = 0; i < n; i++) {
        console.log(i);
    }
    console.log("At the top!\nGoing down...");
    for (var j = n - 1; j >= 0; j--) {
        console.log(j);
    }
    console.log("Back down. Bye!");
}

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Here, the space complexity is O(n) because we allocate space for a new array that grows with the size of the input array.

Conclusion

Big O Notation provides a framework for analyzing the efficiency of algorithms in a way that is independent of hardware and specific implementation details. Understanding these concepts is crucial for developing efficient code, especially as data sizes grow. By focusing on how performance scales, developers can make informed choices about which algorithms to use in their applications.

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source:dev.to
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