poj--1459--Power Network(最大流,超级源超级汇)
2015-12-03 19:49
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[align=center]Power Network[/align]
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Status
Description
A power network consists of nodes (power stations, consumers and dispatchers) connected by power transport lines. A node u may be supplied with an amount s(u) >= 0 of power, may produce an amount 0 <= p(u) <= p
max(u) of power, may consume an amount 0 <= c(u) <= min(s(u),c max(u)) of power, and may deliver an amount d(u)=s(u)+p(u)-c(u) of power. The following restrictions apply: c(u)=0 for any power station, p(u)=0 for any consumer, and p(u)=c(u)=0
for any dispatcher. There is at most one power transport line (u,v) from a node u to a node v in the net; it transports an amount 0 <= l(u,v) <= l
max(u,v) of power delivered by u to v. Let Con=Σ uc(u) be the power consumed in the net. The problem is to compute the maximum value of Con.
An example is in figure 1. The label x/y of power station u shows that p(u)=x and p
max(u)=y. The label x/y of consumer u shows that c(u)=x and c max(u)=y. The label x/y of power transport line (u,v) shows that l(u,v)=x and l
max(u,v)=y. The power consumed is Con=6. Notice that there are other possible states of the network but the value of Con cannot exceed 6.
Input
There are several data sets in the input. Each data set encodes a power network. It starts with four integers: 0 <= n <= 100 (nodes), 0 <= np <= n (power stations), 0 <= nc <= n (consumers), and 0 <= m <= n^2 (power transport lines).
Follow m data triplets (u,v)z, where u and v are node identifiers (starting from 0) and 0 <= z <= 1000 is the value of l
max(u,v). Follow np doublets (u)z, where u is the identifier of a power station and 0 <= z <= 10000 is the value of p
max(u). The data set ends with nc doublets (u)z, where u is the identifier of a consumer and 0 <= z <= 10000 is the value of c
max(u). All input numbers are integers. Except the (u,v)z triplets and the (u)z doublets, which do not contain white spaces, white spaces can occur freely in input. Input data terminate with an end of file and are correct.
Output
For each data set from the input, the program prints on the standard output the maximum amount of power that can be consumed in the corresponding network. Each result has an integral value and is printed from the beginning of a
separate line.
Sample Input
Sample Output
Hint
The sample input contains two data sets. The first data set encodes a network with 2 nodes, power station 0 with pmax(0)=15 and consumer 1 with cmax(1)=20, and 2 power transport lines with lmax(0,1)=20 and lmax(1,0)=10. The maximum
value of Con is 15. The second data set encodes the network from figure 1.
Source
Southeastern Europe 2003
Time Limit: 2000MS | Memory Limit: 32768KB | 64bit IO Format: %I64d & %I64u |
Status
Description
A power network consists of nodes (power stations, consumers and dispatchers) connected by power transport lines. A node u may be supplied with an amount s(u) >= 0 of power, may produce an amount 0 <= p(u) <= p
max(u) of power, may consume an amount 0 <= c(u) <= min(s(u),c max(u)) of power, and may deliver an amount d(u)=s(u)+p(u)-c(u) of power. The following restrictions apply: c(u)=0 for any power station, p(u)=0 for any consumer, and p(u)=c(u)=0
for any dispatcher. There is at most one power transport line (u,v) from a node u to a node v in the net; it transports an amount 0 <= l(u,v) <= l
max(u,v) of power delivered by u to v. Let Con=Σ uc(u) be the power consumed in the net. The problem is to compute the maximum value of Con.
An example is in figure 1. The label x/y of power station u shows that p(u)=x and p
max(u)=y. The label x/y of consumer u shows that c(u)=x and c max(u)=y. The label x/y of power transport line (u,v) shows that l(u,v)=x and l
max(u,v)=y. The power consumed is Con=6. Notice that there are other possible states of the network but the value of Con cannot exceed 6.
Input
There are several data sets in the input. Each data set encodes a power network. It starts with four integers: 0 <= n <= 100 (nodes), 0 <= np <= n (power stations), 0 <= nc <= n (consumers), and 0 <= m <= n^2 (power transport lines).
Follow m data triplets (u,v)z, where u and v are node identifiers (starting from 0) and 0 <= z <= 1000 is the value of l
max(u,v). Follow np doublets (u)z, where u is the identifier of a power station and 0 <= z <= 10000 is the value of p
max(u). The data set ends with nc doublets (u)z, where u is the identifier of a consumer and 0 <= z <= 10000 is the value of c
max(u). All input numbers are integers. Except the (u,v)z triplets and the (u)z doublets, which do not contain white spaces, white spaces can occur freely in input. Input data terminate with an end of file and are correct.
Output
For each data set from the input, the program prints on the standard output the maximum amount of power that can be consumed in the corresponding network. Each result has an integral value and is printed from the beginning of a
separate line.
Sample Input
2 1 1 2 (0,1)20 (1,0)10 (0)15 (1)20 7 2 3 13 (0,0)1 (0,1)2 (0,2)5 (1,0)1 (1,2)8 (2,3)1 (2,4)7 (3,5)2 (3,6)5 (4,2)7 (4,3)5 (4,5)1 (6,0)5 (0)5 (1)2 (3)2 (4)1 (5)4
Sample Output
15 6
Hint
The sample input contains two data sets. The first data set encodes a network with 2 nodes, power station 0 with pmax(0)=15 and consumer 1 with cmax(1)=20, and 2 power transport lines with lmax(0,1)=20 and lmax(1,0)=10. The maximum
value of Con is 15. The second data set encodes the network from figure 1.
Source
Southeastern Europe 2003
#include<stdio.h> #include<string.h> #include<queue> #include<stack> #include<vector> #include<algorithm> using namespace std; #define MAX 100+10 #define INF 10000000+10 int m,n,np,mp; int vis[MAX],dis[MAX],head[MAX],cur[MAX]; int top; struct node { int u,v,cap,flow,next; }edge[40000+10]; void init() { top=0; memset(head,-1,sizeof(head)); } void add(int a,int b,int c) { node E1={a,b,c,0,head[a]}; edge[top]=E1; head[a]=top++; node E2={b,a,0,0,head[b]}; edge[top]=E2; head[b]=top++; } void getmap() { int a,b,c; while(mp--) { scanf(" (%d,%d)%d",&a,&b,&c); add(a+1,b+1,c); } while(n--) { scanf(" (%d)%d",&b,&c); add(0,b+1,c); } while(np--) { scanf(" (%d)%d",&a,&c); add(a+1,m+1,c); } } bool bfs(int s,int e) { queue<int>q; memset(vis,0,sizeof(vis)); memset(dis,-1,sizeof(dis)); vis[s]=1; dis[s]=0; if(!q.empty()) q.pop(); q.push(s); while(!q.empty()) { int u=q.front(); q.pop(); for(int i=head[u];i!=-1;i=edge[i].next) { node E=edge[i]; if(E.cap>E.flow&&!vis[E.v]) { vis[E.v]=1; dis[E.v]=dis[E.u]+1; if(E.v==e) return true; q.push(E.v); } } } return false; } int dfs(int x,int a,int e) { if(x==e||a==0) return a; int flow=0,f; for(int i=cur[x];i!=-1;i=edge[i].next) { node& E=edge[i]; if(dis[x]+1==dis[E.v]&&(f=dfs(E.v,min(a,E.cap-E.flow),e))>0) { E.flow+=f; a-=f; flow+=f; edge[i^1].flow-=f; if(a==0) break; } } return flow; } int MAXflow(int s,int e) { int flow=0; while(bfs(s,e)) { memcpy(cur,head,sizeof(head)); flow+=dfs(s,INF,e); } return flow; } int main() { while(scanf("%d%d%d%d",&m,&n,&np,&mp)!=EOF) { init(); getmap(); printf("%d\n",MAXflow(0,m+1)); } return 0; }
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