Compare two version numbers version1 and version2.
If version1 > version2 return 1; if version1 < version2 return -1;otherwise return 0.
You may assume that the version strings are non-empty and contain only digits and the . character.
The . character does not represent a decimal point and is used to separate number sequences.
For instance, 2.5 is not "two and a half" or "half way to version three", it is the fifth second-level revision of the second first-level revision.
You may assume the default revision number for each level of a version number to be 0. For example, version number 3.4 has a revision number of 3 and 4 for its first and second level revision number. Its third and fourth level revision number are both 0.
Input: version1 = "0.1", version2 = "1.1" Output: -1
Input: version1 = "1.0.1", version2 = "1" Output: 1
Input: version1 = "7.5.2.4", version2 = "7.5.3" Output: -1
Input: version1 = "1.01", version2 = "1.001" Output: 0 Explanation: Ignoring leading zeroes, both “01” and “001" represent the same number “1”
Input: version1 = "1.0", version2 = "1.0.0" Output: 0 Explanation: The first version number does not have a third level revision number, which means its third level revision number is default to "0"
- Version strings are composed of numeric strings separated by dots
.and this numeric strings may have leading zeroes. - Version strings do not start or end with dots, and they will not be two consecutive dots.
impl Solution {
pub fn compare_version(version1: String, version2: String) -> i32 {
let mut version1 = version1
.split('.')
.map(|n| n.parse().unwrap())
.collect::<Vec<_>>();
let mut version2 = version2
.split('.')
.map(|n| n.parse().unwrap())
.collect::<Vec<_>>();
while let Some(&0) = version1.last() {
version1.pop();
}
while let Some(&0) = version2.last() {
version2.pop();
}
match version1.cmp(&version2) {
std::cmp::Ordering::Greater => 1,
std::cmp::Ordering::Less => -1,
std::cmp::Ordering::Equal => 0,
}
}
}