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Cod sursa(job #410806)
#include <queue>
#include <vector>
#include <fstream>
#define Nmax 351
#define INF 2000000000
/*
*
*/
using namespace std;
int N, source, sink, S, NH;
int C[Nmax][Nmax], Cost[Nmax][Nmax];
int H[Nmax], P[Nmax], D[Nmax], F[Nmax];
vector< vector< int > > G;
vector< int >::const_iterator it, iend;
void DownHeap( int k )
{
int son;
for( ; ; )
{
son=2*k;
if( son > NH )
return;
if( son < NH && D[H[son]] > D[H[son+1]] )
++son;
if( D[H[k]] <= D[H[son]] )
return;
swap( H[k], H[son] );
swap( P[H[k]], P[H[son]] );
k=son;
}
}
void UpHeap( int k )
{
int key=D[H[k]], f=k/2;
while( k > 1 && key < D[H[f]] )
{
swap( P[H[k]], P[H[f]] );
swap( H[k], H[f] );
k=f;
f=k/2;
}
}
void BellmanFord( void )
{
int i, j;
for( i=0; i < N; ++i )
D[i]=INF;
D[source]=0;
for( i=0; i < N; ++i )
for( j=0; j < N; ++j )
for( it=G[j].begin(), iend=G[j].end(); it < iend; ++it )
if( C[j][*it] > 0 && D[j]+Cost[j][*it] < D[*it] )
D[*it]=D[j]+Cost[j][*it];
S=D[sink];
}
int find_path( void )
{
int x, min_c;
for( x=0; x < N; ++x )
if( INF != D[x] )
for( it=G[x].begin(), iend=G[x].end(); it < iend; ++it )
if( INF != D[*it] )
Cost[x][*it]+=D[x]-D[*it];
for( NH=x=0; x < N; ++x )
{
D[x]=INF;
F[x]=-1;
H[x+1]=x;
P[x]=x+1;
}
NH=N;
D[source]=0;
UpHeap( P[source] );
while( NH )
{
x=H[1];
if( INF == D[x] )
break;
H[1]=H[NH];
P[H[1]]=1;
--NH;
DownHeap( 1 );
for( it=G[x].begin(), iend=G[x].end(); it < iend; ++it )
if( C[x][*it] > 0 && D[x]+Cost[x][*it] < D[*it] )
{
F[*it]=x;
D[*it]=D[x]+Cost[x][*it];
UpHeap( P[*it] );
}
}
if( INF == D[sink] )
return INF;
min_c=C[ F[sink] ][ sink ];
for( x=F[sink]; source != x; x=F[x] )
min_c=min( min_c, C[ F[x] ][ x ] );
for( x=sink; source != x; x=F[x] )
{
C[ F[x] ][ x ]-=min_c;
C[ x ][ F[x] ]+=min_c;
}
S+=D[sink];
return S*min_c;
}
long long int MaxFlowMinCut( void )
{
BellmanFord();
int path_c;
long long int s=0;
for( path_c=find_path(); INF != path_c; s+=path_c, path_c=find_path() );
return s;
}
int main( void )
{
int M, x, y;
ifstream in( "fmcm.in" );
in>>N>>M>>source>>sink;
--source, --sink;
G.resize(N);
for( ; M; --M )
{
in>>x>>y;
--x, --y;
in>>C[x][y]>>Cost[x][y];
G[x].push_back(y);
G[y].push_back(x);
Cost[y][x]=-Cost[x][y];
}
ofstream out( "fmcm.out" );
out<<MaxFlowMinCut();
return 0;
}
alexandru alexandru92