Solution: Minimum One Bit Operations to Make Integers Zero

Explore how to minimize the number of bit flipping operations to reduce any given integer to zero. Understand the role of bit positions, patterns in power-of-two numbers, and an iterative approach for both single and multiple set bits. This lesson builds your skills in bitwise manipulation through an optimal solution with clear complexity analysis.

We'll cover the following...

Statement
Solution
- Time complexity
- Space complexity

Statement

You are given an integer n. Your goal is to reduce it to $0$ by repeatedly performing either of the following bit operations:

Flip the rightmost bit (bit at position $0$ ) of n.
Flip the bit at position $i$ (for $i > 0$ ) only if the bit at position $i - 1$ is $1$ and all bits from position $i - 2$ down to $0$ are set to $0$ .

Determine and return the minimum number of these operations required to reduce n to $0$ .

Constraints:

$0 \leq$ n $\leq 10^9$

Solution

First, we need to analyze how binary numbers can be manipulated using the two allowed operations:

Operation 1: Flip the rightmost (0th) bit at any time.