|
32 | 32 |
|
33 | 33 | */ |
34 | 34 | public class _373 { |
| 35 | + public static class Solution1 { |
35 | 36 |
|
36 | | - final int[][] neighbors = new int[][]{{0, 1}, {1, 0}}; |
| 37 | + final int[][] neighbors = new int[][] {{0, 1}, {1, 0}}; |
37 | 38 |
|
38 | | - public List<int[]> kSmallestPairs(int[] nums1, int[] nums2, int k) { |
39 | | - List<int[]> result = new ArrayList<>(); |
40 | | - if (nums1 == null || nums2 == null || k == 0 || nums1.length == 0 || nums2.length == 0) { |
41 | | - return result; |
42 | | - } |
43 | | - Queue<Pair> meanHeap = new PriorityQueue<>(); |
44 | | - meanHeap.offer(new Pair(0, 0, nums1[0] + nums2[0])); |
45 | | - boolean[][] visited = new boolean[nums1.length][nums2.length]; |
46 | | - visited[0][0] = true;//we start form (0,0), so mark it as visited |
47 | | - while (k > 0 && !meanHeap.isEmpty()) { |
48 | | - Pair pair = meanHeap.poll(); |
49 | | - result.add(new int[]{nums1[pair.row], nums2[pair.col]}); |
50 | | - k--; |
51 | | - for (int[] neighbor : neighbors) { |
52 | | - int nextRow = pair.row + neighbor[0]; |
53 | | - int nextCol = pair.col + neighbor[1]; |
54 | | - if (nextRow < 0 || nextCol < 0 || nextRow >= nums1.length || nextCol >= nums2.length || visited[nextRow][nextCol]) { |
55 | | - continue; |
| 39 | + public List<int[]> kSmallestPairs(int[] nums1, int[] nums2, int k) { |
| 40 | + List<int[]> result = new ArrayList<>(); |
| 41 | + if (nums1 == null |
| 42 | + || nums2 == null |
| 43 | + || k == 0 |
| 44 | + || nums1.length == 0 |
| 45 | + || nums2.length == 0) { |
| 46 | + return result; |
| 47 | + } |
| 48 | + Queue<Pair> meanHeap = new PriorityQueue<>(); |
| 49 | + meanHeap.offer(new Pair(0, 0, nums1[0] + nums2[0])); |
| 50 | + boolean[][] visited = new boolean[nums1.length][nums2.length]; |
| 51 | + visited[0][0] = true;//we start form (0,0), so mark it as visited |
| 52 | + while (k > 0 && !meanHeap.isEmpty()) { |
| 53 | + Pair pair = meanHeap.poll(); |
| 54 | + result.add(new int[] {nums1[pair.row], nums2[pair.col]}); |
| 55 | + k--; |
| 56 | + for (int[] neighbor : neighbors) { |
| 57 | + int nextRow = pair.row + neighbor[0]; |
| 58 | + int nextCol = pair.col + neighbor[1]; |
| 59 | + if (nextRow < 0 |
| 60 | + || nextCol < 0 |
| 61 | + || nextRow >= nums1.length |
| 62 | + || nextCol >= nums2.length |
| 63 | + || visited[nextRow][nextCol]) { |
| 64 | + continue; |
| 65 | + } |
| 66 | + visited[nextRow][nextCol] = true; |
| 67 | + meanHeap.offer(new Pair(nextRow, nextCol, nums1[nextRow] + nums2[nextCol])); |
56 | 68 | } |
57 | | - visited[nextRow][nextCol] = true; |
58 | | - meanHeap.offer(new Pair(nextRow, nextCol, nums1[nextRow] + nums2[nextCol])); |
59 | 69 | } |
60 | | - } |
61 | | - |
62 | 70 |
|
63 | | - return result; |
64 | | - } |
| 71 | + return result; |
| 72 | + } |
65 | 73 |
|
66 | | - class Pair implements Comparable<Pair> { |
67 | | - int row; |
68 | | - int col; |
69 | | - int sum; |
| 74 | + class Pair implements Comparable<Pair> { |
| 75 | + int row; |
| 76 | + int col; |
| 77 | + int sum; |
70 | 78 |
|
71 | | - public Pair(int row, int col, int sum) { |
72 | | - this.row = row; |
73 | | - this.col = col; |
74 | | - this.sum = sum; |
75 | | - } |
| 79 | + public Pair(int row, int col, int sum) { |
| 80 | + this.row = row; |
| 81 | + this.col = col; |
| 82 | + this.sum = sum; |
| 83 | + } |
76 | 84 |
|
77 | | - @Override |
78 | | - public int compareTo(Pair that) { |
79 | | - return this.sum - that.sum; |
| 85 | + @Override |
| 86 | + public int compareTo(Pair that) { |
| 87 | + return this.sum - that.sum; |
| 88 | + } |
80 | 89 | } |
81 | 90 | } |
82 | | - |
83 | 91 | } |
0 commit comments