UVALive 3634 熟悉一下STL-优快云博客

本文介绍了一种基于集合而非数值的超级计算机SetStackAlpha的构建过程，详细阐述了其指令集及操作原理，并通过实例演示了如何使用PUSH、DUP、UNION、INTERSECT和ADD等命令进行集合操作，以及如何验证原型的正确性。

Given this imp ortance of sets, b eing the basis of mathematics, a set of eccentric theorist set off to
construct a sup ercomputer op erating on sets instead of numb ers. The initial SetStack Alpha is under construction, and they need you to simulate it in order to verify the op eration of the prototyp e.
The computer op erates on a single stack of sets, which is initially empty. After each op eration, the
cardinality of the topmost set on the stack is output. The cardinality of a set S is denoted | S | and is the number of elements in S. The instruction set of the SetStack Alpha is PUSH, DUP, UNION, INTERSECT,and ADD.
• PUSH will push the empty set {} on the stack.
• DUP will duplicate the topmost set (pop the stack, and then push that set on the stack twice).
• UNION will pop the stack twice and then push the union of the two sets on the stack.
• INTERSECT will pop the stack twice and then push the intersection of the two sets on the stack.
• ADD will pop the stack twice, add the first set to the second one, and then push the resulting set on the stack.
For illustration purposes, assume that the topmost element of the stack is
A = {{} , {{}}}
and that the next one is
B = {{} , {{{}}}}
For these sets, we have | A | = 2 and | B | = 2. Then:
• UNION would result in the set {{}, {{}}, {{{}}}}. The output is 3.
• INTERSECT would result in the set {{}}. The output is 1.
• ADD would result in the set {{}, {{{}}}, {{}, {{}}}}. The output is 3.
Input
An integer 0 ≤ T ≤ 5 on the first line gives the cardinality of the set of test cases. The first line of each test case contains the number of operations 0 ≤ N ≤ 2000. Then follow N lines each containing one of the five commands. It is guaranteed that the SetStack computer can execute all the commands in the sequence without ever popping an empty stack.
Output
For each operation specified in the input, there will be one line of output consisting of a single integer.This integer is the cardinality of the topmost element of the stack after the corresponding command has executed. After each test case there will be a line with ‘ *’ (three asterisks).
Sample Input
29
PUSH
DUP
ADD
PUSH
ADD
DUP
ADD
DUP
UNION
5
PUSH
PUSH
ADD
PUSH
INTERSECT
Given this imp ortance of sets, b eing the basis of mathematics, a set of eccentric theorist set off to
construct a sup ercomputer op erating on sets instead of numb ers. The initial SetStack Alpha is under
construction, and they need you to simulate it in order to verify the op eration of the prototyp e.
The computer op erates on a single stack of sets, which is initially empty. After each op eration, the
cardinality of the topmost set on the stack is output. The cardinality of a set S is denoted | S | and is the
number of elements in S. The instruction set of the SetStack Alpha is PUSH, DUP, UNION, INTERSECT,
and ADD.
• PUSH will push the empty set {} on the stack.
• DUP will duplicate the topmost set (pop the stack, and then push that set on the stack twice).
• UNION will pop the stack twice and then push the union of the two sets on the stack.
• INTERSECT will pop the stack twice and then push the intersection of the two sets on the stack.
• ADD will pop the stack twice, add the first set to the second one, and then push the resulting set
on the stack.
For illustration purposes, assume that the topmost element of the stack is
A = {{} , {{}}}
and that the next one is
B = {{} , {{{}}}}
For these sets, we have | A | = 2 and | B | = 2. Then:
• UNION would result in the set {{}, {{}}, {{{}}}}. The output is 3.
• INTERSECT would result in the set {{}}. The output is 1.
• ADD would result in the set {{}, {{{}}}, {{}, {{}}}}. The output is 3.
Input
An integer 0 ≤ T ≤ 5 on the first line gives the cardinality of the set of test cases. The first line of each
test case contains the number of operations 0 ≤ N ≤ 2000. Then follow N lines each containing one of
the five commands. It is guaranteed that the SetStack computer can execute all the commands in the
sequence without ever popping an empty stack.
Output
For each operation specified in the input, there will be one line of output consisting of a single integer.
This integer is the cardinality of the topmost element of the stack after the corresponding command
has executed. After each test case there will be a line with ‘ *’ (three asterisks).
Sample Input
29
PUSH
DUP
ADD
PUSH
ADD
DUP
ADD
DUP
UNION
5
PUSH
PUSH
ADD
PUSH
INTERSECT
Sample Output
0
1
0
1
2

010

直接用集合和栈操作，

#include<iostream>
#include<set>
#include<stack>
#include<cstdio>
#include<map>
using namespace std;
int cnt;
char st[20];
set<int>s1,s2;
stack<set<int> >s;
map<set<int>,int >mp;

void POP(){s1=s.top();s.pop();s2=s.top();s.pop();}
void PUSH(){set<int>t;s.push(t);puts("0");}
void DUP(){s.push(s.top());printf("%d\n",s.top().size());}

void UNION(){
    POP();
    for (set<int>::iterator i=s1.begin();i!=s1.end();i++) 
        s2.insert(*i);
    s.push(s2);
    printf("%d\n",s.top().size());
}

void INTERSECT(){
    POP();  set<int>s3;
    for (set<int>::iterator i=s1.begin();i!=s1.end();i++)
        if (s2.find(*i)!=s2.end())s3.insert(*i);
    s.push(s3);
    printf("%d\n",s.top().size());
}

void ADD(){
    POP();
    if (s1.empty())s2.insert(0);
    else{
        if (!mp[s1])mp[s1]=cnt++;
        s2.insert(mp[s1]);
    }
    s.push(s2);
    printf("%d\n",s.top().size());
}

int main(){
    freopen("fuck.in","r",stdin);
    int T;scanf("%d",&T);
    while (T--){
        cnt=1;
        int n;scanf("%d",&n);
        while(!s.empty())s.pop();
        mp.clear();
        for (int i=0;i<n;i++){
            scanf("%s",st);
            if (st[0]=='P') PUSH();
            if (st[0]=='D') DUP();
            if (st[0]=='U') UNION();
            if (st[0]=='I') INTERSECT();
            if (st[0]=='A') ADD();
        }
        puts("***");
    }
    return 0;
}