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Description

You are given an array of logs. Each log is a space-delimited string of words, where the first word is the identifier.

There are two types of logs:

  • Letter-logs: All words (except the identifier) consist of lowercase English letters.
  • Digit-logs: All words (except the identifier) consist of digits.

Reorder these logs so that:

  1. The letter-logs come before all digit-logs.
  2. The letter-logs are sorted lexicographically by their contents. If their contents are the same, then sort them lexicographically by their identifiers.
  3. The digit-logs maintain their relative ordering.

Return the final order of the logs.

 

Example 1:

Input: logs = ["dig1 8 1 5 1","let1 art can","dig2 3 6","let2 own kit dig","let3 art zero"]
Output: ["let1 art can","let3 art zero","let2 own kit dig","dig1 8 1 5 1","dig2 3 6"]
Explanation:
The letter-log contents are all different, so their ordering is "art can", "art zero", "own kit dig".
The digit-logs have a relative order of "dig1 8 1 5 1", "dig2 3 6".

Example 2:

Input: logs = ["a1 9 2 3 1","g1 act car","zo4 4 7","ab1 off key dog","a8 act zoo"]
Output: ["g1 act car","a8 act zoo","ab1 off key dog","a1 9 2 3 1","zo4 4 7"]

 

Constraints:

  • 1 <= logs.length <= 100
  • 3 <= logs[i].length <= 100
  • All the tokens of logs[i] are separated by a single space.
  • logs[i] is guaranteed to have an identifier and at least one word after the identifier.

Solutions

Python3

class Solution:
    def reorderLogFiles(self, logs: List[str]) -> List[str]:
        def cmp(x):
            a, b = x.split(' ', 1)
            return (0, b, a) if b[0].isalpha() else (1,)

        return sorted(logs, key=cmp)

Java

class Solution {
    public String[] reorderLogFiles(String[] logs) {
        Arrays.sort(logs, this::cmp);
        return logs;
    }

    private int cmp(String a, String b) {
        String[] t1 = a.split(" ", 2);
        String[] t2 = b.split(" ", 2);
        boolean d1 = Character.isDigit(t1[1].charAt(0));
        boolean d2 = Character.isDigit(t2[1].charAt(0));
        if (!d1 && !d2) {
            int v = t1[1].compareTo(t2[1]);
            return v == 0 ? t1[0].compareTo(t2[0]) : v;
        }
        if (d1 && d2) {
            return 0;
        }
        return d1 ? 1 : -1;
    }
}

TypeScript

function reorderLogFiles(logs: string[]): string[] {
    const isDigit = (c: string) => c >= '0' && c <= '9';
    return logs.sort((a, b) => {
        const end1 = a[a.length - 1];
        const end2 = b[b.length - 1];
        if (isDigit(end1) && isDigit(end2)) {
            return 0;
        }
        if (isDigit(end1)) {
            return 1;
        }
        if (isDigit(end2)) {
            return -1;
        }
        const content1 = a.split(' ').slice(1).join(' ');
        const content2 = b.split(' ').slice(1).join(' ');
        if (content1 === content2) {
            return a < b ? -1 : 1;
        }
        return content1 < content2 ? -1 : 1;
    });
}

Rust

impl Solution {
    pub fn reorder_log_files(mut logs: Vec<String>) -> Vec<String> {
        logs.sort_by(|s1, s2| {
            let (start1, content1) = s1.split_once(' ').unwrap();
            let (start2, content2) = s2.split_once(' ').unwrap();
            match (
                content1.chars().nth(0).unwrap().is_digit(10),
                content2.chars().nth(0).unwrap().is_digit(10),
            ) {
                (true, true) => std::cmp::Ordering::Equal,
                (true, false) => std::cmp::Ordering::Greater,
                (false, true) => std::cmp::Ordering::Less,
                (false, false) => content1.cmp(&content2).then(start1.cmp(&start2)),
            }
        });
        logs
    }
}

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