The cows have purchased a yogurt factory that makes world-famous Yucky Yogurt. Over the next N (1 <= N <= 10,000) weeks, the price of milk and labor will fluctuate weekly such that it will cost the company C_i (1 <= C_i <= 5,000) cents to produce one unit of yogurt in week i. Yucky's factory, being well-designed, can produce arbitrarily many units of yogurt each week.
Yucky Yogurt owns a warehouse that can store unused yogurt at a constant fee of S (1 <= S <= 100) cents per unit of yogurt per week. Fortuitously, yogurt does not spoil. Yucky Yogurt's warehouse is enormous, so it can hold arbitrarily many units of yogurt.
Yucky wants to find a way to make weekly deliveries of Y_i (0 <= Y_i <= 10,000) units of yogurt to its clientele (Y_i is the delivery quantity in week i). Help Yucky minimize its costs over the entire N-week period. Yogurt produced in week i, as well as any yogurt already in storage, can be used to meet Yucky's demand for that week.
Input
Yucky Yogurt owns a warehouse that can store unused yogurt at a constant fee of S (1 <= S <= 100) cents per unit of yogurt per week. Fortuitously, yogurt does not spoil. Yucky Yogurt's warehouse is enormous, so it can hold arbitrarily many units of yogurt.
Yucky wants to find a way to make weekly deliveries of Y_i (0 <= Y_i <= 10,000) units of yogurt to its clientele (Y_i is the delivery quantity in week i). Help Yucky minimize its costs over the entire N-week period. Yogurt produced in week i, as well as any yogurt already in storage, can be used to meet Yucky's demand for that week.
* Line 1: Two space-separated integers, N and S.
* Lines 2..N+1: Line i+1 contains two space-separated integers: C_i and Y_i.
Output
* Lines 2..N+1: Line i+1 contains two space-separated integers: C_i and Y_i.
* Line 1: Line 1 contains a single integer: the minimum total
cost to satisfy the yogurt schedule. Note that the total might be too
large for a 32-bit integer.
Sample Input
4 5 88 200 89 400 97 300 91 500Sample Output
126900Hint
OUTPUT DETAILS:
In week 1, produce 200 units of yogurt and deliver all of it. In week 2, produce 700 units: deliver 400 units while storing 300 units. In week 3, deliver the 300 units that were stored. In week 4, produce and deliver 500 units.
In week 1, produce 200 units of yogurt and deliver all of it. In week 2, produce 700 units: deliver 400 units while storing 300 units. In week 3, deliver the 300 units that were stored. In week 4, produce and deliver 500 units.
题解:
不难发现每个产品的价格(在不同的周)都是一次函数的变化,所以我们只要对于横坐标x(周),求出那一周生产的产品在这周花费最小,然后用花费乘以对应的数量就可以了。
代码:
#include <cstdio> #include <iostream> #include <algorithm> #include <cstring> #include <cmath> #include <iostream> #include <vector> #define ll long long #define MAXN 50010 using namespace std; int cost[MAXN],mai[MAXN]; int n,s; ll ans=0; int main() { scanf("%d%d",&n,&s); for(int i=1;i<=n;i++){ scanf("%d%d",&cost[i],&mai[i]); } for(int wek=1;wek<=n;wek++){ int minn=1<<30; for(int i=1;i<=wek;i++){ minn=min(minn,cost[i]+s*(wek-i)); } ans+=minn*mai[wek]; } printf("%lld",ans); return 0; }