题意:
每头牛都想成为牛群中的红人。给定N头牛的牛群和M个有序对(A,B)。(A, B)表示牛A认为牛B是红人。该关系具有传递性,所以如果A认为B是红人,B认为C是红人,则A认为C是红人。注意:给定的有序对中可能包含(A, B)和(B, C),但不包含(A, C)。求被其他所有牛认为是红人的牛的总数。
强连通分量(采用kosarajuSCC算法)双DFS,具体参考《挑战》P321:
说说思路吧,最后一句话非常关键,意思是说从某个顶点出发的边只可能一条,所以被所有牛认为是红牛的群体一定构成了一个环(强连通分量),那么有多少个强连通分量符合这种情况呢?至多一个,因为假设存在两个强连通分量符合条件,那么必然从一个顶点出发,有两条边与之相连,与题意矛盾。
那么是哪一个强连通分量呢?在强连通分量分解时的最后一个,因为只有这一个才有更多的机会抵达先前的各个顶点,它最靠后。
代码如下:
import java.io.BufferedReader;
import java.io.File;
import java.io.FileInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.InputStreamReader;
import java.io.PrintWriter;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import java.util.StringTokenizer;
public class Main{
String INPUT = "./data/judge/201709/P2186.txt";
public static void main(String[] args) throws IOException {
new Main().run();
}
/******************强连通分量的求解*******************/
static final int MAX_N = 10000 + 16;
List<Edge>[] g = new List[MAX_N];
List<Edge>[] rg = new List[MAX_N];
List<Integer> postOrder = new ArrayList<Integer>();
boolean[] used = new boolean[MAX_N];
int[] cmp = new int[MAX_N];
int N;
class Edge{
int from;
int to;
Edge(int from, int to){
this.from = from;
this.to = to;
}
@Override
public String toString() {
return from + " " + to;
}
}
void init(int n) {
this.N = n;
Arrays.fill(used, false);
for (int i = 0; i < N; ++i) g[i] = new ArrayList<Edge>();
for (int i = 0; i < N; ++i) rg[i] = new ArrayList<Edge>();
}
void add(int from, int to) {
g[from].add(new Edge(from, to));
rg[to].add(new Edge(to, from));
}
void dfs(int v) {
used[v] = true;
for (Edge e : g[v]) {
if (!used[e.to]) dfs(e.to);
}
postOrder.add(v);
}
void rdfs(int v, int k) {
used[v] = true;
cmp[v] = k;
for (Edge e : rg[v]) {
if (!used[e.to]) rdfs(e.to, k);
}
}
int kosarajuSCC(int V) {
for (int i = 0; i < V; ++i) {
if (!used[i]) dfs(i);
}
Arrays.fill(used, false);
int k = 0;
for (int i = postOrder.size() - 1; i >= 0; --i) {
if (!used[postOrder.get(i)]) rdfs(postOrder.get(i), k++);
}
return k;
}
void read() {
int n = ni();
int m = ni();
init(n);
for (int i = 0; i < m; ++i) {
int from = ni();
int to = ni();
from --;
to --;
add(from, to);
}
int scc = kosarajuSCC(n);
int u = 0, num = 0;
for (int i = 0; i < n; ++i) {
if (cmp[i] == scc - 1) {
u = i;
num ++;
}
}
Arrays.fill(used, false);
rdfs(u, 0);
for (int v = 0; v < n; ++v) {
if (!used[v]) {
num = 0;
break;
}
}
out.println(num);
}
FastScanner in;
PrintWriter out;
void run() throws IOException {
boolean oj;
try {
oj = ! System.getProperty("user.dir").equals("F:\\java_workspace\\leetcode");
} catch (Exception e) {
oj = System.getProperty("ONLINE_JUDGE") != null;
}
InputStream is = oj ? System.in : new FileInputStream(new File(INPUT));
in = new FastScanner(is);
out = new PrintWriter(System.out);
long s = System.currentTimeMillis();
read();
out.flush();
if (!oj){
System.out.println("[" + (System.currentTimeMillis() - s) + "ms]");
}
}
public boolean more(){
return in.hasNext();
}
public int ni(){
return in.nextInt();
}
public long nl(){
return in.nextLong();
}
public double nd(){
return in.nextDouble();
}
public String ns(){
return in.nextString();
}
public char nc(){
return in.nextChar();
}
class FastScanner {
BufferedReader br;
StringTokenizer st;
boolean hasNext;
public FastScanner(InputStream is) throws IOException {
br = new BufferedReader(new InputStreamReader(is));
hasNext = true;
}
public String nextToken() {
while (st == null || !st.hasMoreTokens()) {
try {
st = new StringTokenizer(br.readLine());
} catch (Exception e) {
hasNext = false;
return "##";
}
}
return st.nextToken();
}
String next = null;
public boolean hasNext(){
next = nextToken();
return hasNext;
}
public int nextInt() {
if (next == null){
hasNext();
}
String more = next;
next = null;
return Integer.parseInt(more);
}
public long nextLong() {
if (next == null){
hasNext();
}
String more = next;
next = null;
return Long.parseLong(more);
}
public double nextDouble() {
if (next == null){
hasNext();
}
String more = next;
next = null;
return Double.parseDouble(more);
}
public String nextString(){
if (next == null){
hasNext();
}
String more = next;
next = null;
return more;
}
public char nextChar(){
if (next == null){
hasNext();
}
String more = next;
next = null;
return more.charAt(0);
}
}
}