HDU 1211 RSA(数列タイトル)
4001 ワード
RSA
Time Limit: 2000/1000 MS (Java/Others) Memory Limit: 65536/32768 K (Java/Others)Total Submission(s): 706 Accepted Submission(s): 524
Problem Description
RSA is one of the most powerful methods to encrypt data. The RSA algorithm is described as follow:
> choose two large prime integer p, q
> calculate n = p × q, calculate F(n) = (p - 1) × (q - 1)
> choose an integer e(1 < e < F(n)), making gcd(e, F(n)) = 1, e will be the public key
> calculate d, making d × e mod F(n) = 1 mod F(n), and d will be the private key
You can encrypt data with this method :
C = E(m) = m
e mod n
When you want to decrypt data, use this method :
M = D(c) = c
d mod n
Here, c is an integer ASCII value of a letter of cryptograph and m is an integer ASCII value of a letter of plain text.
Now given p, q, e and some cryptograph, your task is to "translate"the cryptograph into plain text.
Input
Each case will begin with four integers p, q, e, l followed by a line of cryptograph. The integers p, q, e, l will be in the range of 32-bit integer. The cryptograph consists of l integers separated by blanks.
Output
For each case, output the plain text in a single line. You may assume that the correct result of plain text are visual ASCII letters, you should output them as visualable letters with no blank between them.
Sample Input
101 103 7 11 7716 7746 7497 126 8486 4708 7746 623 7298 7357 3239
Sample Output
I-LOVE-ACM.
Author
JGShining
Source
杭電ACM省試合合宿チーム選抜試合のウォーミングアップ試合
Recommend
Eddy
恥ずかしいですが、
列挙するとなんとAC
暴力的すぎる.実は拡張ユークリッド法で方程式を解くべきです
Time Limit: 2000/1000 MS (Java/Others) Memory Limit: 65536/32768 K (Java/Others)Total Submission(s): 706 Accepted Submission(s): 524
Problem Description
RSA is one of the most powerful methods to encrypt data. The RSA algorithm is described as follow:
> choose two large prime integer p, q
> calculate n = p × q, calculate F(n) = (p - 1) × (q - 1)
> choose an integer e(1 < e < F(n)), making gcd(e, F(n)) = 1, e will be the public key
> calculate d, making d × e mod F(n) = 1 mod F(n), and d will be the private key
You can encrypt data with this method :
C = E(m) = m
e mod n
When you want to decrypt data, use this method :
M = D(c) = c
d mod n
Here, c is an integer ASCII value of a letter of cryptograph and m is an integer ASCII value of a letter of plain text.
Now given p, q, e and some cryptograph, your task is to "translate"the cryptograph into plain text.
Input
Each case will begin with four integers p, q, e, l followed by a line of cryptograph. The integers p, q, e, l will be in the range of 32-bit integer. The cryptograph consists of l integers separated by blanks.
Output
For each case, output the plain text in a single line. You may assume that the correct result of plain text are visual ASCII letters, you should output them as visualable letters with no blank between them.
Sample Input
101 103 7 11 7716 7746 7497 126 8486 4708 7746 623 7298 7357 3239
Sample Output
I-LOVE-ACM.
Author
JGShining
Source
杭電ACM省試合合宿チーム選抜試合のウォーミングアップ試合
Recommend
Eddy
恥ずかしいですが、
列挙するとなんとAC
#include<stdio.h>
int main()
{
int p,q,e,l;
int c;
int n;
int fn;
int temp;
int d;
while(scanf("%d%d%d%d",&p,&q,&e,&l)!=EOF)
{
n=p*q;
fn=(p-1)*(q-1);
d=1;
while(d*e%fn!=1) d++;
for(int i=0;i<l;i++)
{
scanf("%d",&c);
temp=1;
for(int j=0;j<d;j++)
{
temp=(temp*c)%n;
}
printf("%c",temp);
}
printf("
");
}
return 0;
}
暴力的すぎる.実は拡張ユークリッド法で方程式を解くべきです