POJ3686 The Windy's

时间:2023-12-10 20:44:56

嘟嘟嘟



刚做费用流,思路完全不对呀……

应该这么想(应该说敢这么想):这道题的关键在于怎么体现这个玩具是第几个加工的,只有这才能求出他的加工时间(因为加工时间包括等待时间)。

但等待时间不好求,因此要换个思路想:加工这个玩具会对别的玩具的加工时间造成多少影响。

假设三个玩具\(i, j, k\)依次在同一个工厂中被加工出来,那么总时间\(T = t_i + (t_i + t_j) + (t_i + t_j + t_k) = 3 * t_i + 2 * t_j + t_k\)。所以一个玩具对总时间的贡献是:加工次序\(*\)制作时间。

那么建图就有思路了:把每一个工厂拆成\(n\)个点,代表加工次序。对于每一个玩具\(i\),向每一个工厂\(j\)的每一个加工次序的点\(k\)连一条容量为1,费用为\(k * cost_{i, j}\)的边。然后从源点向玩具连边,从每一个拆开的的工厂向汇点连边。

跑费用流。

最后要提醒的是算好空间。

#include<cstdio>
#include<iostream>
#include<cmath>
#include<algorithm>
#include<cstring>
#include<cstdlib>
#include<cctype>
#include<vector>
#include<stack>
#include<queue>
using namespace std;
#define enter puts("")
#define space putchar(' ')
#define Mem(a, x) memset(a, x, sizeof(a))
#define rg register
typedef long long ll;
typedef double db;
const int INF = 0x3f3f3f3f;
const db eps = 1e-8;
const int N = 50;
const int maxn = N + N * N + 5;
const int maxe = N + N * N + N * N * N + 5;
inline ll read()
{
ll ans = 0;
char ch = getchar(), last = ' ';
while(!isdigit(ch)) last = ch, ch = getchar();
while(isdigit(ch)) ans = (ans << 1) + (ans << 3) + ch - '0', ch = getchar();
if(last == '-') ans = -ans;
return ans;
}
inline void write(ll x)
{
if(x < 0) x = -x, putchar('-');
if(x >= 10) write(x / 10);
putchar(x % 10 + '0');
} int n, m, s, t, a[N + 5][N + 5];
struct Edge
{
int nxt, from, to, cap, c;
}e[maxe << 1];
int head[maxn], ecnt = -1;
void addEdge(int x, int y, int w, int c)
{
e[++ecnt] = (Edge){head[x], x, y, w, c};
head[x] = ecnt;
e[++ecnt] = (Edge){head[y], y, x, 0, -c};
head[y] = ecnt;
} bool in[maxn];
int dis[maxn], pre[maxn], flow[maxn];
bool spfa()
{
Mem(in, 0); Mem(dis, 0x3f);
in[s] = 1; dis[s] = 0; flow[s] = INF;
queue<int> q; q.push(s);
while(!q.empty())
{
int now = q.front(); q.pop(); in[now] = 0;
for(int i = head[now], v; i != -1; i = e[i].nxt)
{
v = e[i].to;
if(e[i].cap > 0 && dis[now] + e[i].c < dis[v])
{
dis[v] = dis[now] + e[i].c;
pre[v] = i;
flow[v] = min(flow[now], e[i].cap);
if(!in[v]) in[v] = 1, q.push(v);
}
}
}
return dis[t] != INF;
}
int minCost = 0;
void update()
{
int x = t;
while(x != s)
{
int i = pre[x];
e[i].cap -= flow[t];
e[i ^ 1].cap += flow[t];
x = e[i].from;
}
minCost += flow[t] * dis[t];
} void MCMF()
{
while(spfa()) update();
} int main()
{
int T = read();
while(T--)
{
Mem(head, -1); ecnt = -1; minCost = 0;
n = read(); m = read(); s = 0, t = n + n * m + 1;
for(int i = 1; i <= n; ++i)
for(int j = 1; j <= m; ++j) a[i][j] = read();
for(int i = 1; i <= n; ++i)
{
addEdge(s, i, 1, 0);
for(int j = 1; j <= m; ++j)
for(int k = 1; k <= n; ++k)
addEdge(i, j * n + k, 1, k * a[i][j]);
}
for(int i = n + 1; i <= n * m + n; ++i) addEdge(i, t, 1, 0);
MCMF();
printf("%.6f\n", (db)minCost / (db)n);
}
return 0;
}