Professor Tian
Time Limit: 2000/1000 MS (Java/Others) Memory Limit: 65535/32768 K (Java/Others)
Total Submission(s): 870 Accepted Submission(s):
479
Problem Description
Timer took the Probability and Mathematical Statistics
course in the 2012, But his bad attendance angered Professor Tian who is in
charge of the course. Therefore, Professor Tian decided to let Timer face a hard
probability problem, and announced that if he fail to slove the problem there
would be no way for Timer to pass the final exam.
As a result , Timer passed.
Now, you, the bad guy, also angered the Professor Tian when September Ends. You have to faced the problem too. The problem comes that there is an expression and you should calculate the excepted value of it. And the operators it may contains are '&' (and),'|'(or) and '^'(xor) which are all bit operators. For example: 7&3=3, 5&2=0, 2|5=7, 4|10=14, 6^5=3, 3^4=7.
Professor Tian declares that each operator Oi with its coming number Ai+1 may disappear, and the probability that it happens is Pi (0<i<=n).
As a result , Timer passed.
Now, you, the bad guy, also angered the Professor Tian when September Ends. You have to faced the problem too. The problem comes that there is an expression and you should calculate the excepted value of it. And the operators it may contains are '&' (and),'|'(or) and '^'(xor) which are all bit operators. For example: 7&3=3, 5&2=0, 2|5=7, 4|10=14, 6^5=3, 3^4=7.
Professor Tian declares that each operator Oi with its coming number Ai+1 may disappear, and the probability that it happens is Pi (0<i<=n).
Input
The input contains several test cases. For each test
case, there is a integer n (0<n<=200) in the first line.In the second
line, there are n+1 integers, stand for {Ai}. The next line contains
n operators ,stand for {Oi}. The forth line contains {Pi}.
Ai will be less than 220, 0<=Pi<=1.
Ai will be less than 220, 0<=Pi<=1.
Output
For each text case, you should print the number of text
case in the first line.Then output the excepted value of the expression, round
to 6 decimal places.
Sample Input
2
1 2 3
^ ^
0.1 0.2
2
8 9 10
^ ^
0.5 0.78
1
1 2
&
0.5
Sample Output
Case 1:
0.720000
Case 2:
4.940000
Case 3:
0.500000
Source
Recommend
zhuyuanchen520
题目大意
初始有一个数字A0, 然后给出A1,A2..An共n个数字,这n个数字每个数字分别有一个操作符,&,|,^
且每个数字出现的概率是pi
如果某个数字出现了,那么就和前面的数字用它的操作符进行位运算。
问最终的期望值是多少?
思路
这题官方题解说是反状态压缩,还是第一次做这种题。
知道了怎么表示状态这题就觉得不难做了,赛后1A。
题解官方的已经很详细了,不再累赘:
反状态压缩——把数据转换成20位的01来进行运算
因为只有20位,而且&,|,^都不会进位,那么一位一位地看,每一位不是0就是1,
这样求出每一位是1的概率,再乘以该位的十进制数,累加,就得到了总体的期望。
对于每一位,状态转移方程如下:
f[i][j]表示该位取前i个数,运算得到j(0或1)的概率是多少。
f[i][1]=f[i-1][1]*p[i]+根据不同运算符和第i位的值运算得到1的概率。
f[i][0]同理。
初始状态:f[0][0~1]=0或1(根据第一个数的该位来设置)
每一位为1的期望 f[n][1]
#include<iostream> #include<cstdio> #include<cstring> #include<algorithm> #include<vector> #include<map> using namespace std; typedef long long int64; const int INF = 0x3f3f3f3f; const int MAXN = 210; int n, m; double f[MAXN][2]; int A[MAXN]; char O[MAXN]; double p[MAXN]; int main(){ char op[10]; int cas = 1; while(~scanf("%d", &n)){ for(int i=0; i<=n; ++i) scanf("%d", &A[i]); for(int i=1; i<=n; ++i){ scanf("%s", op); O[i] = op[0]; } for(int i=1; i<=n; ++i) scanf("%lf", &p[i]); for(int i=0; i<20; ++i) f[0][0] = (A[i]>>i)&1; double ans = 0; for(int i=0; i<20; ++i){ f[0][1] = (A[0]>>i)&1; f[0][0] = !f[0][1]; for(int j=1; j<=n; ++j){ // 第j个数字不出现,0和1的概率 f[j][0] = f[j-1][0] * p[j]; f[j][1] = f[j-1][1] * p[j]; // 加上出现第j个数字,0和1的概率 if(O[j] == '^'){ if( (A[j]>>i) & 1 ){ f[j][0] += f[j-1][1]*(1-p[j]); f[j][1] += f[j-1][0]*(1-p[j]); } else{ f[j][0] += f[j-1][0]*(1-p[j]); f[j][1] += f[j-1][1]*(1-p[j]); } } else if(O[j] == '&'){ if( (A[j]>>i) & 1 ){ f[j][0] += f[j-1][0]*(1-p[j]); f[j][1] += f[j-1][1]*(1-p[j]); } else{ f[j][0] += (f[j-1][0] + f[j-1][1]) * (1-p[j]); // f[j][1]: 如果用了第j个数,这里不能出现1 } } else if(O[j] == '|'){ if( (A[j]>>i) & 1){ // f[j][0]: 不能出现这种情况 f[j][1] += (f[j-1][0] + f[j-1][1]) * (1-p[j]); } else{ f[j][0] += f[j-1][0] * (1-p[j]); f[j][1] += f[j-1][1] * (1-p[j]); } } } ans = ans + f[n][1] * (1<<i); } printf("Case %d: %.6f ", cas++, ans); } return 0; }