There is a room with n bulbs, numbered from 0 to n-1, arranged in a row from left to right. Initially all the bulbs are turned off.
Your task is to obtain the configuration represented by target where target[i] is '1' if the i-th bulb is turned on and is '0' if it is turned off.
You have a switch to flip the state of the bulb, a flip operation is defined as follows:
- Choose any bulb (index
i) of your current configuration. - Flip each bulb from index
iton-1.
When any bulb is flipped it means that if it is 0 it changes to 1 and if it is 1 it changes to 0.
Return the minimum number of flips required to form target.
Input: target = "10111" Output: 3 Explanation: Initial configuration "00000". flip from the third bulb: "00000" -> "00111" flip from the first bulb: "00111" -> "11000" flip from the second bulb: "11000" -> "10111" We need at least 3 flip operations to form target.
Input: target = "101" Output: 3 Explanation: "000" -> "111" -> "100" -> "101".
Input: target = "00000" Output: 0
Input: target = "001011101" Output: 5
1 <= target.length <= 10^5target[i] == '0'ortarget[i] == '1'
impl Solution {
pub fn min_flips(target: String) -> i32 {
target
.bytes()
.fold(0, |ret, ch| ret + ((ret % 2) as u8 ^ (ch - b'0')) as i32)
}
}