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Bigraph-Matching(Edmonds-Karp).cpp
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Bigraph-Matching(Edmonds-Karp).cpp
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#include <cstdio>
#define INF 1000000000
#define VERTEX_COUNT 10000
#define EDGE_COUNT 100000
using namespace std;
struct vertex
{
int first, prev, pree, maxflow;
bool inq;
}V[VERTEX_COUNT];
struct edge
{
int endp, next, flow;
}E[EDGE_COUNT];
int ec = 2, n, m, ans;
int Q[VERTEX_COUNT], hp = 0, tp = 0;
void enqueue(int x)
{
Q[tp++] = x;
tp %= VERTEX_COUNT;
}
int dequeue()
{
hp %= VERTEX_COUNT;
return Q[hp++];
}
void add_edge(int u, int v)
{
E[ec].next = V[u].first;
V[u].first = ec;
E[ec].endp = v;
E[ec].flow = 1;
ec++;
E[ec].next = V[v].first;
V[v].first = ec;
E[ec].endp = u;
E[ec].flow = 0;
ec++;
}
void Edmonds_Karp(int s, int t)
{
bool has_ap = false;
do
{
has_ap = false;
for (int i = 1; i < 10000; i++)
{
V[i].inq = false;
}
hp = tp = 0;
enqueue(s);
V[s].inq = true;
while (hp != tp)
{
int u = dequeue();
if (u == t)
{
int x = u, apflow = INF;
while (x != s)
{
if (E[V[x].pree].flow < apflow)
{
apflow = E[V[x].pree].flow;
}
x = V[x].prev;
}
ans += apflow;
x = u;
while (x != s)
{
E[V[x].pree].flow -= apflow;
E[V[x].pree ^ 1].flow += apflow;
x = V[x].prev;
}
has_ap = true;
break;
}
for (int cur = V[u].first; cur != 0; cur = E[cur].next)
{
if (V[E[cur].endp].inq == false && E[cur].flow > 0)
{
enqueue(E[cur].endp);
V[E[cur].endp].inq = true;
V[E[cur].endp].prev = u;
V[E[cur].endp].pree = cur;
}
}
}
} while (has_ap == true);
}
int main()
{
int k, u;
scanf("%d", &n);
for (int i = 1; i <= n; i++)
{
scanf("%d", &k);
for (int j = 0; j < k; j++)
{
scanf("%d", &u);
add_edge(i, u + 1000);
}
}
scanf("%d", &m);
for (int i = 0; i < m; i++)
{
scanf("%d", &u);
add_edge(u + 1000, 9999);
}
for (int i = 1; i <= n; i++)
{
add_edge(9998, i);
}
Edmonds_Karp(9998, 9999);
printf("%d", ans);
return 0;
}