2018宁夏A题

As an ACM-ICPC newbie, Aishah is learning data structures in computer science. She has already known that a stack, as a data structure, can serve as a collection of elements with two operations:

push, which inserts an element to the collection, and
pop, which deletes the most recently inserted element that has not yet deleted.

Now, Aishah hopes a more intelligent stack which can display the maximum element in the stack dynamically. Please write a program to help her accomplish this goal and go through a test with several operations.

Aishah assumes that the stack is empty at first. Your program will output the maximum element in the stack after each operation. If at some point the stack is empty, the output should be zero.

Input

The input contains several test cases, and the first line is a positive integer

To avoid unconcerned time consuming in reading data, each test case is described by seven integers $\le n \le 5 \times 10^6),p,q,m(1 \le p,q,m \le 10^9),SA,SB \ and \ SC(10^4 \le SA,SB,SC \le 10^6)n(1≤n≤5×106),p,q,m(1≤p,q,m≤109),SA,SB and SC(104≤SA,SB,SC≤106). Theinteger nn is the number of operations, and your program should generate all operations using the following code in C++.$

      
int n, p, q, m;
unsigned int SA, SB, SC;
unsigned int rng61() {
    SA ^= SA << 16;
    SA ^= SA >> 5;
    SA ^= SA << 1;
    unsigned int t = SA; SA = SB;
    SB = SC;
    SC ^= t ^ SA;
    return SC;
}
void gen(){
    scanf("%d%d%d%d%u%u%u", &n, &p, &q, &m, &SA, &SB, &SC);
    for(int i = 1; i <= n; i++) {
        if(rng61() % (p + q) < p)
            PUSH(rng61() % m + 1);
        else
            POP();
    }
}

The procedure PUSH(v) used in the code inserts a new element with value v into the stack and the procedure POP( ) pops the topmost element in the stack or does nothing if the stack is empty.

Output

For each test case, output a line containing Case #x: y, where $\oplus^n_{i=1} (i \cdot a_i)⊕i=1n(i⋅ai) where a_iai is the answer after the ii-th operation and \oplus⊕ means bitwise xor.$

输出时每行末尾的多余空格，不影响答案正确性

样例输入

2
4 1 1 4 23333 66666 233333
4 2 1 4 23333 66666 233333

样例输出

Case #1: 19
Case #2: 1

样例解释

The first test case in the sample input has

POP();
POP();
PUSH(1);
PUSH(4).

The second test case also has

PUSH(2);
POP();
PUSH(1);
POP().

注意用longlong就可以了，这道题被一个空格卡了一天，复制的时候多了一个空格一直没有发现。实在是蠢死

#include <bits/stdc++.h>

using namespace std;

#define _for(i, a, b) for (int i = (a); i < (b); i++)

#define ll long long

const int N = 1e7;

int n, p, q, m;

unsigned int SA, SB, SC;

ll maxv, opr,t = 0, top;

ll ans[N];

stack<int> max_index;

void PUSH(unsigned x)

{

ans[top++] = x;

if (max_index.empty())

{

max_index.push(0);

}

else if (x > ans[max_index.top()])

{

max_index.push(top-1);

}else{

max_index.push(max_index.top());

}

opr = opr ^ (1LL * ans[max_index.top()] * t);

}

void POP()

{

if (max_index.empty())

return;

else

{

top--;

max_index.pop();

if (max_index.empty())

return;

opr = opr ^ (1LL * ans[max_index.top()] * t);

}

unsigned int rng61()

{

SA ^= SA << 16;

SA ^= SA >> 5;

SA ^= SA << 1;

unsigned int t = SA;

SA = SB;

SB = SC;

SC ^= t ^ SA;

return SC;

}

void gen()

{

scanf("%d%d%d%d%u%u%u", &n, &p, &q, &m, &SA, &SB, &SC);

top = 0;

_for(i, 1, n + 1)

{

if (rng61() % (p + q) < p)

{

++t;

PUSH(rng61() % m + 1);

}

else

{

++t;

POP();

}

int main()

{

int T;

cin >> T;

_for(i, 1, T + 1)

{

maxv = 0;

t = 0, opr = 0;

while (!max_index.empty())

{

max_index.pop();

}

gen();

printf("Case #%d: %lld\n", i, opr);

}

return 0;

}

As an ACM-ICPC newbie, Aishah is learning data structures in computer science. She has already known that a stack, as a data structure, can serve as a collection of elements with two operations:

push, which inserts an element to the collection, and
pop, which deletes the most recently inserted element that has not yet deleted.

Aishah assumes that the stack is empty at first. Your program will output the maximum element in the stack after each operation. If at some point the stack is empty, the output should be zero.

Input

The input contains several test cases, and the first line is a positive integer $T$ indicating the number of test cases which is up to $50$ .

To avoid unconcerned time consuming in reading data, each test case is described by seven integers $\le n \le 5 \times 10^6),p,q,m(1 \le p,q,m \le 10^9),SA,SB \ and \ SC(10^4 \le SA,SB,SC \le 10^6)$ . Theinteger $n$ is the number of operations, and your program should generate all operations using the following code in C++.

      
int n, p, q, m;
unsigned int SA, SB, SC;
unsigned int rng61() {
    SA ^= SA << 16;
    SA ^= SA >> 5;
    SA ^= SA << 1;
    unsigned int t = SA; SA = SB;
    SB = SC;
    SC ^= t ^ SA;
    return SC;
}
void gen(){
    scanf("%d%d%d%d%u%u%u", &n, &p, &q, &m, &SA, &SB, &SC);
    for(int i = 1; i <= n; i++) {
        if(rng61() % (p + q) < p)
            PUSH(rng61() % m + 1);
        else
            POP();
    }
}

The procedure PUSH(v) used in the code inserts a new element with value v into the stack and the procedure POP( ) pops the topmost element in the stack or does nothing if the stack is empty.

Output

For each test case, output a line containing Case #x: y, where $x$ is the test case number starting from $1$ , and $y$ is equal to $\oplus^n_{i=1} (i \cdot a_i)$ where $a_i$ is the answer after the $i$ -th operation and $\oplus$ means bitwise xor.

输出时每行末尾的多余空格，不影响答案正确性

样例输入

2
4 1 1 4 23333 66666 233333
4 2 1 4 23333 66666 233333

样例输出

Case #1: 19
Case #2: 1

样例解释

The first test case in the sample input has $4$ operations:

POP();
POP();
PUSH(1);
PUSH(4).

The second test case also has $4$ operations:

PUSH(2);
POP();
PUSH(1);
POP().

Input

Output

样例输入复制

样例输出复制

样例解释

Input

Output

样例输入复制

样例输出复制

样例解释

猜你喜欢

样例输入

样例输出

样例输入

样例输出