7.3 KiB
7.3 KiB
二分图
如果可以用两种颜色对图中的节点进行着色,并且保证相邻的节点颜色不同,那么这个图就是二分图。
1. 判断是否为二分图
785. Is Graph Bipartite? (Medium)
Input: [[1,3], [0,2], [1,3], [0,2]]
Output: true
Explanation:
The graph looks like this:
0----1
| |
| |
3----2
We can divide the vertices into two groups: {0, 2} and {1, 3}.
Example 2:
Input: [[1,2,3], [0,2], [0,1,3], [0,2]]
Output: false
Explanation:
The graph looks like this:
0----1
| \ |
| \ |
3----2
We cannot find a way to divide the set of nodes into two independent subsets.
public boolean isBipartite(int[][] graph) {
int[] colors = new int[graph.length];
Arrays.fill(colors, -1);
for (int i = 0; i < graph.length; i++) { // 处理图不是连通的情况
if (colors[i] == -1 && !isBipartite(i, 0, colors, graph)) {
return false;
}
}
return true;
}
private boolean isBipartite(int curNode, int curColor, int[] colors, int[][] graph) {
if (colors[curNode] != -1) {
return colors[curNode] == curColor;
}
colors[curNode] = curColor;
for (int nextNode : graph[curNode]) {
if (!isBipartite(nextNode, 1 - curColor, colors, graph)) {
return false;
}
}
return true;
}
拓扑排序
常用于在具有先序关系的任务规划中。
1. 课程安排的合法性
2, [[1,0]]
return true
2, [[1,0],[0,1]]
return false
题目描述:一个课程可能会先修课程,判断给定的先修课程规定是否合法。
本题不需要使用拓扑排序,只需要检测有向图是否存在环即可。
public boolean canFinish(int numCourses, int[][] prerequisites) {
List<Integer>[] graphic = new List[numCourses];
for (int i = 0; i < numCourses; i++) {
graphic[i] = new ArrayList<>();
}
for (int[] pre : prerequisites) {
graphic[pre[0]].add(pre[1]);
}
boolean[] globalMarked = new boolean[numCourses];
boolean[] localMarked = new boolean[numCourses];
for (int i = 0; i < numCourses; i++) {
if (hasCycle(globalMarked, localMarked, graphic, i)) {
return false;
}
}
return true;
}
private boolean hasCycle(boolean[] globalMarked, boolean[] localMarked,
List<Integer>[] graphic, int curNode) {
if (localMarked[curNode]) {
return true;
}
if (globalMarked[curNode]) {
return false;
}
globalMarked[curNode] = true;
localMarked[curNode] = true;
for (int nextNode : graphic[curNode]) {
if (hasCycle(globalMarked, localMarked, graphic, nextNode)) {
return true;
}
}
localMarked[curNode] = false;
return false;
}
2. 课程安排的顺序
210. Course Schedule II (Medium)
4, [[1,0],[2,0],[3,1],[3,2]]
There are a total of 4 courses to take. To take course 3 you should have finished both courses 1 and 2. Both courses 1 and 2 should be taken after you finished course 0. So one correct course order is [0,1,2,3]. Another correct ordering is[0,2,1,3].
使用 DFS 来实现拓扑排序,使用一个栈存储后序遍历结果,这个栈的逆序结果就是拓扑排序结果。
证明:对于任何先序关系:v->w,后序遍历结果可以保证 w 先进入栈中,因此栈的逆序结果中 v 会在 w 之前。
public int[] findOrder(int numCourses, int[][] prerequisites) {
List<Integer>[] graphic = new List[numCourses];
for (int i = 0; i < numCourses; i++) {
graphic[i] = new ArrayList<>();
}
for (int[] pre : prerequisites) {
graphic[pre[0]].add(pre[1]);
}
Stack<Integer> postOrder = new Stack<>();
boolean[] globalMarked = new boolean[numCourses];
boolean[] localMarked = new boolean[numCourses];
for (int i = 0; i < numCourses; i++) {
if (hasCycle(globalMarked, localMarked, graphic, i, postOrder)) {
return new int[0];
}
}
int[] orders = new int[numCourses];
for (int i = numCourses - 1; i >= 0; i--) {
orders[i] = postOrder.pop();
}
return orders;
}
private boolean hasCycle(boolean[] globalMarked, boolean[] localMarked, List<Integer>[] graphic,
int curNode, Stack<Integer> postOrder) {
if (localMarked[curNode]) {
return true;
}
if (globalMarked[curNode]) {
return false;
}
globalMarked[curNode] = true;
localMarked[curNode] = true;
for (int nextNode : graphic[curNode]) {
if (hasCycle(globalMarked, localMarked, graphic, nextNode, postOrder)) {
return true;
}
}
localMarked[curNode] = false;
postOrder.push(curNode);
return false;
}
并查集
并查集可以动态地连通两个点,并且可以非常快速地判断两个点是否连通。
1. 冗余连接
684. Redundant Connection (Medium)
Input: [[1,2], [1,3], [2,3]]
Output: [2,3]
Explanation: The given undirected graph will be like this:
1
/ \
2 - 3
题目描述:有一系列的边连成的图,找出一条边,移除它之后该图能够成为一棵树。
public int[] findRedundantConnection(int[][] edges) {
int N = edges.length;
UF uf = new UF(N);
for (int[] e : edges) {
int u = e[0], v = e[1];
if (uf.connect(u, v)) {
return e;
}
uf.union(u, v);
}
return new int[]{-1, -1};
}
private class UF {
private int[] id;
UF(int N) {
id = new int[N + 1];
for (int i = 0; i < id.length; i++) {
id[i] = i;
}
}
void union(int u, int v) {
int uID = find(u);
int vID = find(v);
if (uID == vID) {
return;
}
for (int i = 0; i < id.length; i++) {
if (id[i] == uID) {
id[i] = vID;
}
}
}
int find(int p) {
return id[p];
}
boolean connect(int u, int v) {
return find(u) == find(v);
}
}
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