Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have to write a Prolog program for solving a cryptarithmetic puzzle.

I need to write a function solve([A, M, P, D, Y]) which assigns the variables [A, M, P, D, Y] to values from 0 to 9 so that it satisfies the equation AM+PM=DAY. Each variable is assigned to a different value, and A, P, and D cannot be equal to 0.

I started writing this function, but ran into problems running my program. I set the restrictions of A, P, and D not being zero. As I was going through the algorithm, I realized that D has to be 1, so I defined that in the beginning of my program. I defined two different variables for M (M1 and M2) and set them equal to each other, since the different M’s in the puzzle should be assigned to the same value. I assigned locations to the different variables and added them up based on the puzzle. I accounted for any variables being carried with carry in variables. My program compiles but the function does not execute.

solve([A, M1, M2, P, D, Y]):- D is 1,
M1 = M2,
select(M1, [0,2,3,4,5,6,7,8,9], R1),
select(M2, R1, R2),
Y is (M1+M2) mod 10,
C1 is (M1+M2) // 10,
select(Y, R2, R3),
select(A, R3, R4),
select(P, R4, R5),
select(D, R5, R6),
A is (A+P+C1) mod 10,
D is (A+P+C1)// 10.

What am I doing wrong? Is there something wrong with my variable definitions? Do I need to define two different M variables, or is one sufficient?

share|improve this question
Why are you checking A,P,D at start ? You need to assign values to A,P,D then check if they are different from zeros. –  ssBarBee Dec 14 '12 at 0:49

3 Answers 3

up vote 1 down vote accepted

-Hello codegirl, here is my solution for your puzzle.The solution is simple we rely or PROLOG's backtracking. We select all variables at first, then we check the puzzle conditions. I dont think that you need to define two Ms.

select(A,[0,1,2,3,4,5,6,7,8,9],WA), % W means Without
DAY is 100*D+10*A+Y,
AM  is 10*A+M,
PM  is 10*P+M,
share|improve this answer
Thank you for your response. I really appreciate it. Also, is there a way to solve it using the mod 10 way (as I attempted implementing in my original post)? –  codergirl Dec 14 '12 at 4:16
I think you can do it with mod 10 , but in order to find Y for example (using mod 10), we need to get DAY first, then Y is simply DAY mod 10,A is (DAY div 10) mod 10,D is DAY div 100,same goes for AM and PM. But DAY is a three digit number, hence the select will be from [100,101,...,99+99] for DAY,[10,11,...,99] for AM,PM (2 digits ) . Hope this helps. –  ssBarBee Dec 14 '12 at 6:58
Also, why did you add a WA (without A) variable? There are duplicates of As and Ms. –  codergirl Dec 15 '12 at 4:17
Ehem with select(A,[0,1....,9],WA) we get some list that doesn't contain the value ( I named it WA ) for A. Also A in DAY and in AM must have the same value. –  ssBarBee Dec 16 '12 at 8:28

You write: "My program compiles but the function does not execute: "

solve([A, M1, M2, P, D, Y]):- D is 1,

No wonder. First of all, there's no /= operator in Prolog. I assume you meant \=. But A \= B means "A can not be unified with B". In your case B is 0, but A is a yet not set logical variable. It can be unified with anything. You should only use \= to check inequality, after all logvars involved had been instantiated!

So, A \= 0 fails. (Another thing is, M1=M2 is superfluous, you can just use M throughout).

A general tool to solve such puzzles is unique selection from narrowing domains:

selectM([A|As],S,Z):- select(A,S,S1),selectM(As,S1,Z).

With it, your puzzle is just

  selectM([A,P,D],[1,2,3,4,5,6,7,8,9],R),     % R is the remaining domain
  selectM([M,Y],[0|R],_),                     % don't care what remains
  10*(A+P)+M+M =:= 100*D+10*A+Y.

You have a right idea of finding out the assignments before searching, where possible. Using your approach, it could be written as

  A =\= 0,
  Y  is (M+M) mod 10,     % AM+PM=DAY
  C1 is (M+M) // 10,
  A  is (A+P+C1) mod 10,
  D  is (A+P+C1) // 10,
  selectM([P,D,Y],R,_),   % ensure all are different
  p =\= 0, D =\= 0.

Again, we must select A before testing its value.

share|improve this answer

I think your problem are the multiple 'assignments' to D. First D get bound to 1, after that cannot change value (Prolog use unification, not assignment). Then both

select(D, R5, R6),
D is (A+P+C1)// 10.

will fail when D is different than 1

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.