1037. Magic Coupon (25)

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本文介绍了一种在火星魔法店利用优惠券获取最大价值的方法。通过将优惠券和产品价值按正负分开并排序，匹配正数优惠券与正数产品价值及负数优惠券与负数产品价值来最大化收益。

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The magic shop in Mars is offering some magic coupons. Each coupon has an integer N printed on it, meaning that when you use this coupon with a product, you may get N times the value of that product back! What is more, the shop also offers some bonus product for free. However, if you apply a coupon with a positive N to this bonus product, you will have to pay the shop N times the value of the bonus product... but hey, magically, they have some coupons with negative N's!

For example, given a set of coupons {1 2 4 -1}, and a set of product values {7 6 -2 -3} (in Mars dollars M$) where a negative value corresponds to a bonus product. You can apply coupon 3 (with N being 4) to product 1 (with value M$7) to get M$28 back; coupon 2 to product 2 to get M$12 back; and coupon 4 to product 4 to get M$3 back. On the other hand, if you apply coupon 3 to product 4, you will have to pay M$12 to the shop.

Each coupon and each product may be selected at most once. Your task is to get as much money back as possible.

Input Specification:

Each input file contains one test case. For each case, the first line contains the number of coupons NC, followed by a line with NC coupon integers. Then the next line contains the number of products NP, followed by a line with NP product values. Here 1<= NC, NP <= 10⁵, and it is guaranteed that all the numbers will not exceed 2³⁰.

Output Specification:

For each test case, simply print in a line the maximum amount of money you can get back.

Sample Input:

Sample Output:

将第一个数组和第二个数组各分为正数和负数两部分，全部降序排序，两个正数部分对应位置相乘（直到其中一个的结尾），两个负数部分对应位置相乘（直到其中一个的结尾），将相乘的结果累加即可。

代码：

#include <iostream>
#include <cstring>
#include <vector>
#include <cstdlib>
#include <cstdio>
#include <algorithm>
using namespace std;

int main()
{
	int nc;
	cin>>nc;
	vector<int>p_cou;
	vector<int>n_cou;
	for(int i=0;i<nc;i++)
	{
		int c;
		cin>>c;
		if(c>=0) p_cou.push_back(c);
		else n_cou.push_back(-c);
	}
	int np;
	cin>>np;
	vector<int>p_pro;
	vector<int>n_pro;
	for(int i=0;i<np;i++)
	{
		int p;
		cin>>p;
		if(p>=0) p_pro.push_back(p);
		else n_pro.push_back(-p);
	}
	sort(p_cou.begin(),p_cou.end(),greater<int>());
	sort(n_cou.begin(),n_cou.end(),greater<int>());
	sort(p_pro.begin(),p_pro.end(),greater<int>());
	sort(n_pro.begin(),n_pro.end(),greater<int>());
	int res=0;
	for(int i=0;i<p_cou.size()&&i<p_pro.size();i++)
	{
		res+=p_cou[i]*p_pro[i];
	}
	for(int i=0;i<n_cou.size()&&i<n_pro.size();i++)
	{
		res+=n_cou[i]*n_pro[i];
	}
	cout<<res;
}