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I'm struggling with the following bit of code(/challenge) and I was wondering what would be the best way to solve it.

Pseudo(-like) code

If I understand the code correctly it does:

var val = 1
foreach (char in firstargument):
  val = val * ((ascii)char + 27137)

if (val == 92156295871308407838808214521283596197005567493826981266515267734732800)
  print "correct"
  print "incorrect"

Where 'firstargument' is an argument passed to the program like: ./program 123456...

Actual code

#define _GNU_SOURCE
#include <unistd.h> 
#include <string.h>
#include <stdio.h>
#include <gmp.h>

int main(int argc, char *argv[])
    mpz_t val, mul, cmpval;
    char str[513];
    int n = 0;

    mpz_set_ui(val, 1);
    mpz_set_str(cmpval, "92156295871308407838808214521283596197005567493826981266515267734732800", 10);

    if (argc < 2)
        printf("%s <string>\n", argv[0]);
        return -1;

    strncpy(str, argv[1], 512);

    for (n = 0; n < strlen(str); n++)
        mpz_set_ui(mul, (unsigned long)(str[n] + 27137));
        mpz_mul(val, val, mul);

    if (!(n = mpz_cmp(val, cmpval)))

    return 0;
share|improve this question
What's the question? –  adamk Aug 29 '10 at 13:10
The solution is 'hfesbbirroooooay'. –  kennytm Aug 29 '10 at 13:17
@KennyTM: Hah thanks, sounds like you have seen this one before? I'll try if I can figure it out myself tho with the help of Will A's answer. The solution itself is not that important to me, more the part on how to get there. –  Bas Aug 29 '10 at 13:19
No. It is just similar to Will's answer. Notice that the solution is not unique. –  kennytm Aug 29 '10 at 13:25
The solution is unique up to the order of the letters, so it is an anagram puzzle. –  starblue Aug 30 '10 at 20:13

3 Answers 3

up vote 2 down vote accepted

I would approach this from the point-of-view that the large number must be divisible by ((ascii)theVeryLastChar + 27137) - and try to figure out what this last char is - and then divide by it and work it for the 'the second from last char' etc.

share|improve this answer
Ah, of course! Great, thanks! –  Bas Aug 29 '10 at 13:16
+1 for figuring out what the question was as well as the answer. –  GregS Aug 29 '10 at 16:20
@GregS - much appreciated, thanks sir! –  Will A Aug 29 '10 at 21:27

Here's a little Prolog program to compute the solutions, with the letters with lower ASCII codes first.

solve(A) :-
    number_anagram(92156295871308407838808214521283596197005567493826981266515267734732800, L),

number_anagram(N, L) :-
    number_anagram(N, 32, L).

number_anagram(1, 126, []).
number_anagram(N, C, [C|R]) :-
    N > 1,
    F is C + 27137,
    N mod F =:= 0,
    N1 is N / F,
    number_anagram(N1, C, R).
number_anagram(N, C, L) :-
    C < 126,
    C1 is C + 1,
    number_anagram(N, C1, L).

It turns out there is only one solution:

$ swipl 


?- ['number-anagram.pl'].
% number-anagram.pl compiled 0.00 sec, 1,636 bytes

?- solve(A).
A = abbefhiooooorrsy ;
share|improve this answer

I think this is also known as the chinese remainder theorem/problem. The diogenes algorithm is the solution.

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