【模拟】Thanks, TuSimple!

题目链接:http://acm.zju.edu.cn/onlinejudge/showProblem.do?problemId=5979

Thanks, TuSimple!

Time Limit: 1 Second Memory Limit: 65536 KB

In the very first sentence of the very first problem, we would like to give our sincere thanks to TuSimple, the sponsor of this contest.

Founded in 2015, TuSimple is a global autonomous trucking solution company headquartered in San Diego, operating self-driving trucks out of Tucson, Arizona. TuSimple is now developing a commercial-ready Level 4 (SAE) fully-autonomous driving solution for the logistics industry. TuSimple’s trucks are the first and only capable of self-driving from depot-to-depot and do so every day for its customers. The company is driven by a mission to increase safety, decrease transportation costs, and reduce carbon emissions.

Nowadays, the trucking industry is currently facing a shortage of 50000 drivers (which is expected to increase to 175000 by the end of 2024) and is approaching a 100 percent turnover rate per year with an average driver age of 49 years old. According to a PwC study, autonomous trucking technologies will reduce annual operating costs for a traditional average long-haul truck by 28 percent in 2025. TuSimple is aiming to transform the 740-billion U.S. trucking industry by cutting costs, reducing carbon emissions and eradicating some of the challenges currently faced by operators.

Building the industry’s first 1000-meter perception system, TuSimple soon becomes the pioneer in the industry. As is known to us, 1000 meters can provide 35 seconds of reaction time on average at highway speeds, enabling the system to make the safest and most efficient driving decisions. Even in the adverse weather conditions, the perception system is still designed to identify objects and obstacles, ensuring the safety of both cargoes, trucks, and passers-by. On the other hand, TuSimple’s latest proprietary AI is now capable of long-distance highway driving and complex surface street driving, which allows fully autonomous deliveries from one depot to another.

Despite their advanced technology and an enormous sense of mission in the industry, TuSimple shares the corporate culture of honesty, realistic, exploration and innovation among their employees from bottom to top, which allows them to attract more and more elites from all expertise to join and get involved. “Here’s why a little-known autonomous trucking company is beating Tesla and Waymo in the race for driverless big rigs”, commented by Business Insider.
The future of trucking is now!

As a manager of TuSimple, you are going to hold a dancing party for both the Development Department and the Marketing Department. There will be gentlemen and ladies in total and they are going to dance in pairs. After a careful investigation, we have already known that for each person, they like to dance with either a taller person or a person with smaller height. To simplify the problem, there are no two persons of the same height and people are only allowed to dance with a person of the opposite gender. In order to reserve a proper dancing field, you must calculate the maximum possible number of pairs of people dancing at the same time.

Input

There are multiple test cases. The first line of the input contains an integer , indicating the number of test cases. For each test case:

The first line contains two integers (1

The second line contains integers a1,a2,a3…an (0 ≤ \leq ai < 231-1, ai != ajfor all i != j ), indicating the height of each gentleman.

The third line contains integers b1,b2,b3…bm(0 ≤ \leq bi < 231-1, bi != bjfor all i != j ), indicating the height of each lady.

The fourth line contains integers p1,p2,p3…pn(0 ≤ \leq pi ≤ \leq 1), indicating the preference of each gentleman. If , it means gentleman prefers to dance with a lady of smaller height. Otherwise it indicates he prefers to have a taller dancing partner.

The fifth line contains integers q1,q2,q3…qm(0 ≤ \leq qi ≤ \leq 1), indicating the preference of each lady. If , it means lady prefers to dance with a gentleman of smaller height. Otherwise it indicates she prefers to have a taller dancing partner.

It’s guaranteed that the sum of and of all test cases will not exceed 106 and ai != bj for all 1 ≤ \leq i ≤ \leq n, 1 ≤ \leq j ≤ \leq m.

Output

For each test case output one line containing one integer, indicating the answer.

Sample Input

1
3 3
1 2 5
3 4 6
1 1 0
0 0 1
Sample Output

2
Hint

In the sample test case, the 1st gentleman can dance with the 2nd lady, and the 2nd gentleman can dance with the 1st lady.

题目大意:
先输入一个整数t代表输入的测试组数,对于每组测试用例,先输入两个整数n,m,分别代表男士和女士的人数,下面四行,第一行输入的是n名男士的身高,第二行为m名女士的身高,第三行为男士期望他的舞伴(女)身高的标准,0代表他期望他的舞伴比他矮,1代表他期望他的舞伴比他高,第四行代表女士期望她的舞伴(男)身高的标准,同样,0代表希望舞伴比她矮,1代表希望舞伴比她高,问最多能有多少对舞者。

解题思路:
通过题意,我们能知道只有当男士要求为0,女士要求为1时,他们才能做舞伴,同理,男士要求为1,女士要求为0也一样,所以我们可以将男士要求为0的身高存在vector数组a0中,要求为1的存在vector数组a1中,女士同理存在b0,b1中,通过查找a0,b1中与a1,b0中符合题意的对数即可得到结果.

代码:

#include 
#include 
#include 
#include 
#include 
#include 
#include 
#include 
#include 
#include 
#include 
#include 
#include 
#include 
#include 
using namespace std;
typedef long long ll;
typedef unsigned long long ull;
#define inf 0x3f3f3f3f
#define rep(i,l,r) for(int i=l;i<=r;i++)
#define lep(i,l,r) for(int i=l;i>=r;i--)
#define ms(arr) memset(arr,0,sizeof(arr))
//priority_queue ,greater >q;
const int maxn = (int)1e5 + 5;
const ll mod = 1e9+7;
vector a0,a1,b0,b1;
int a[100100],b[100100];
int main() 
{
    #ifndef ONLINE_JUDGE
    freopen("in.txt", "r", stdin);
    #endif
    //freopen("out.txt", "w", stdout);
    ios::sync_with_stdio(0),cin.tie(0);
    int t;
    scanf("%d",&t);
    while(t--) {
        a0.clear();a1.clear();
        b0.clear();b1.clear();
        int n,m;
        scanf("%d %d",&n,&m);
        rep(i,1,n) scanf("%d",&a[i]);
        rep(i,1,m) scanf("%d",&b[i]);
        int nape;
        int len1=0,len2=0,len3=0,len4=0;
        rep(i,1,n) {
            scanf("%d",&nape);
            if(nape==0) a0.push_back(a[i]),len1++;
            if(nape==1) a1.push_back(a[i]),len2++;
        }
        rep(i,1,m) {
            scanf("%d",&nape);
            if(nape==0) b0.push_back(b[i]),len3++;
            if(nape==1) b1.push_back(b[i]),len4++;
        }
        sort(a0.begin(),a0.end());
        sort(a1.begin(),a1.end());
        sort(b0.begin(),b0.end());
        sort(b1.begin(),b1.end());
        int ans=0;
        for(int i=0,j=0;ib1[j]) {ans++;i++;j++;}
            else i++;
        }
        for(int i=0,j=0;ia1[i]) {ans++;i++;j++;}
            else j++;
        }
        printf("%d\n",ans);
    }
    return 0;
}

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