题目:
Given a collection of intervals, merge all overlapping intervals.
For example,
Given [1,3],[2,6],[8,10],[15,18],
return [1,6],[8,10],[15,18].
链接: http://leetcode.com/problems/merge-intervals/
题解:
使用Comparator来对集合进行sort。 Comparator和Comparable是两个很重要的interface,再加上interable,runnable等,要好好掌握。
/**
* Definition for an interval.
* public class Interval {
* int start;
* int end;
* Interval() { start = 0; end = 0; }
* Interval(int s, int e) { start = s; end = e; }
* }
*/
public class Solution {
public List<Interval> merge(List<Interval> intervals) {
List<Interval> res = new ArrayList<>();
if(intervals == null || intervals.size() == 0)
return res;
Collections.sort(intervals, new IntervalComparator()); Interval last = intervals.get(0); for(int i = 1; i < intervals.size(); i++) {
Interval curr = intervals.get(i);
if(last.end < curr.start) {
res.add(last);
last = curr;
} else {
if(last.end < curr.end)
last.end = curr.end;
}
} res.add(last);
return res;
} public class IntervalComparator implements Comparator<Interval> {
@Override
public int compare(Interval a, Interval b) {
return a.start - b.start;
}
}
}
二刷:
Java:
依然是使用comparator来对整个interval数组进行排序,我们可以用anonymous comparator,或者是Java 8的lambda表达式。 下次把start重命名为prev可能更好一些。
使用Lambda:
Time Complexity - O(nlogn), Space Complexity - O(1)
/**
* Definition for an interval.
* public class Interval {
* int start;
* int end;
* Interval() { start = 0; end = 0; }
* Interval(int s, int e) { start = s; end = e; }
* }
*/
public class Solution {
public List<Interval> merge(List<Interval> intervals) {
List<Interval> res = new ArrayList<>();
if (intervals == null || intervals.size() == 0) {
return intervals;
}
Collections.sort(intervals, (Interval i1, Interval i2) -> (i1.start != i2.start ? i1.start - i2.start : i1.end - i2.end));
Interval start = intervals.get(0);
for (int i = 1; i < intervals.size(); i++) {
Interval tmp = intervals.get(i);
if (start.end < tmp.start) {
res.add(start);
start = tmp;
} else if (start.end < tmp.end){
start.end = tmp.end;
}
}
res.add(start);
return res;
}
}
使用Anonymous comparator:
Time Complexity - O(nlogn), Space Complexity - O(1)
/**
* Definition for an interval.
* public class Interval {
* int start;
* int end;
* Interval() { start = 0; end = 0; }
* Interval(int s, int e) { start = s; end = e; }
* }
*/
public class Solution {
public List<Interval> merge(List<Interval> intervals) {
List<Interval> res = new ArrayList<>();
if (intervals == null || intervals.size() == 0) {
return intervals;
}
Collections.sort(intervals, new Comparator<Interval>() {
public int compare(Interval i1, Interval i2) {
return i1.start != i2.start ? i1.start - i2.start : i1.end - i2.end;
}
});
Interval start = intervals.get(0);
for (int i = 1; i < intervals.size(); i++) {
Interval tmp = intervals.get(i);
if (start.end < tmp.start) {
res.add(start);
start = tmp;
} else if (start.end < tmp.end){
start.end = tmp.end;
}
}
res.add(start);
return res;
}
}
Updated:
class Solution {
public int[][] merge(int[][] intervals) {
if (intervals == null || intervals.length == 0) return new int[][] {};
Arrays.sort(intervals, (int[] i1, int[] i2) -> i1[0] != i2[0] ? i1[0] - i2[0] : i1[1] - i2[1]);
List<int[]> res = new ArrayList<>();
int[] lastInterval = intervals[0];
for (int i = 1; i < intervals.length; i++) {
if (intervals[i][0] <= lastInterval[1]) {
lastInterval[1] = Math.max(lastInterval[1], intervals[i][1]);
} else {
res.add(new int[]{lastInterval[0], lastInterval[1]});
lastInterval = intervals[i];
}
}
res.add(new int[]{lastInterval[0], lastInterval[1]});
return res.toArray(new int[res.size()][2]);
}
}
Reference:
https://leetcode.com/discuss/13953/a-simple-java-solution
https://leetcode.com/discuss/33434/a-clean-java-solution
https://leetcode.com/discuss/42344/7-lines-easy-python
https://leetcode.com/discuss/43383/easy-c-solution-with-explanations-o-nlogn-time-and-o-n-space