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Jurassic Remains [中途相遇法]

作者:互联网

Paleontologists in Siberia have recently found a number of fragments of Jurassic period dinosaur skeleton. The paleontologists have decided to forward them to the paleontology museum. Unfortunately, the dinosaur was so huge, that there was no box that the fragments would fit into. Therefore it was decided to split the skeleton fragments into separate bones and forward them to the museum where they would be reassembled. To make reassembling easier, the joints where the bones were detached from each other were marked with special labels. Meanwhile, after packing the fragments, the new bones were found and it was decided to send them together with the main fragments. So the new bones were added to the package and it was sent to the museum. 

However, when the package arrived to the museum some problems have shown up. First of all, not all labels marking the joints were distinct. That is, labels with letters 'A' to 'Z' were used, and each two joints that had to be connected were marked with the same letter, but there could be several pairs of joints marked with the same letter. 

Moreover, the same type of labels was used to make some marks on the new bones added to the box. Therefore, there could be bones with marked joints that need not be connected to the other bones. The problem is slightly alleviated by the fact that each bone has at most one joint marked with some particular letter. 

Your task is to help the museum workers to restore some possible dinosaur skeleton fragments. That is, you have to find such set of bones, that they can be connected to each other, so that the following conditions are true: 
If some joint is connected to the other joint, they are marked with the same label. 

Note that two bones may be connected using several joints.

Input

The first line of the input contains N -- the number of bones (1 <= N <= 24). Next N lines contain bones descriptions: each line contains a non-empty sequence of di#erent capital letters, representing labels marking the joints of the corresponding bone.

Output

On the first line of output print L -- the maximal possible number of bones that could be used to reassemble skeleton fragments. Then print on the next line L integer numbers in ascending order -- the bones to be used. Bones are numbered starting from one, as they are given in the input.

Sample Input

6
ABD
EG
GE
ABE
AC
BCD

Sample Output

5
1 2 3 5 6
题目大意:侏罗纪。给定n个大写字母组成的字符串。选择尽量多的串,使得每个大写字母都能出现偶数次。

分析:在一个字符串中,每个字符出现的次数无关紧要,重要的是这些次数的奇偶性,因此想到用一个二进制的位表示一个字母(1表示出现奇数次,0表示出现偶数次)。
  样例写成二进制后为
    A B C D E F G H
    1 1 0 1 0 0 0 0 A B D
    0 0 0 0 1 0 1 0 E G
    0 0 0 0 1 0 1 0 G E
    1 1 0 0 1 0 0 0 A B E
    1 0 1 0 0 0 0 0 A C
    0 1 1 1 0 0 0 0 B C D

  问题转化为求尽量多的数,使得它们的xor值为0
  穷举法会超时。注意到xor值为0的两个整数必须完全相等,可以把字符串分成两个部分:首先计算前n/2个字符串所能得到的所有xor值,并将其保存到一个映射S(xor值 前n/2个字符串的一个子集)中;然后枚举后n/2个字符串所能得到的所有xor值,并每次都在S中查找。
  如果映射用STL的map实现,总时间复杂度为O(2

n/2

logn),这种方法称为中途相遇法。
//#include <bits/stdc++.h>
#include <iostream>
#include <cstdio>
#include <cmath>
#include<cstring>
#include <algorithm>
#include <queue>
#include<map>
using namespace std;
typedef long long LL;
const LL INF = 1e13;
const int mod = 1000000007;
const int mx = 27; //check the limits, dummy
typedef pair<int, int> pa;
//const double PI = acos(-1);
//ll gcd(ll a, ll b) { return b ? gcd(b, a % b) : a; }
#define swa(a,b) a^=b^=a^=b
#define re(i,a,b) for(int i=(a),_=(b);i<_;i++)
#define rb(i,a,b) for(int i=(b),_=(a);i>=_;i--)
#define clr(a) memset(a, 0, sizeof(a))
#define lowbit(x) ((x)&(x-1))
//#define mkp make_pai
//void sc(int& x) { scanf("%d", &x); }void sc(int64_t& x) { scanf("%lld", &x); }void sc(double& x) { scanf("%lf", &x); }void sc(char& x) { scanf(" %c", &x); }void sc(char* x) { scanf("%s", x); }
int n, m, k,ans;
int a[mx];
map<int, int>table;
int bitcnt(int x) {
    return x == 0 ? 0 : bitcnt(x / 2) + (x & 1);
}
char s[1000];
int main()
{
    ios::sync_with_stdio(false); cin.tie(0); cout.tie(0);
    int T, cas = 1;
    
    while (cin>>n&&n)
    {
        re(i, 0, n) {// 输入并计算每个字符串对应的位向量
            cin >> s;
            a[i] = 0;
            for (int j = 0; s[j]!='\0' ; j++)
            {
                a[i] ^= (1 << (s[j] - 'A'));
            }
        }
        // 计算前n1个元素的所有子集的xor值
        // table[x]保存的是xor值为x的,bitcount尽量大的子集
        table.clear();
        int n1 = n / 2,n2=n-n1;
        re(i, 0, 1 << n1) {
            int x = 0;
            re(j, 0, n1)
                if (i & (1 << j))x ^= a[j];
            if (!table.count(x) || bitcnt(table[x]) < bitcnt(i))
                table[x] = i;
        }
        // 枚举后n2个元素的所有子集,并在table中查找
        int ans = 0;
        re(i, 0, 1 << n2) {
            int x = 0;
            re(j, 0, n2)
                if (i & (1 << j))x ^= a[n1 + j];
            if (table.count(x) && bitcnt(ans) < bitcnt(table[x]) + bitcnt(i))
                ans = (i << n1) ^ table[x];
        }
        cout << bitcnt(ans) << endl;
        re(i, 0, n)
            if (ans & (1 << i))
                cout << i + 1 << ' ';
        cout << endl;
    }
    return 0;
}                

 

参考自https://www.cnblogs.com/acm-bingzi/p/3330852.html
 

标签:Jurassic,Remains,some,marked,中途,int,bones,fragments,include
来源: https://www.cnblogs.com/xxxsans/p/12739736.html