Cryptarithmetic problems are classic constraint satisfaction problems. Basically, what you need to do is have your program generate constraints based on the inputs such that you end up with something like the following, using your given example:
O + O = 2O = R + 10Carry1
W + W + Carry1 = 2W + Carry1 = U + 10Carry2
T + T + Carry2 = 2T + Carry2 = O + 10Carry3 = O + 10F
Generalized pseudocode:
for i in range of shorter input, or either input if they're the same length:
shorterInput[i] + longerInput2[i] + Carry[i] = result[i] + 10*Carry[i+1] // Carry[0] == 0
for the rest of the longer input, if one is longer:
longerInput[i] + Carry[i] = result[i] + 10*Carry[i+1]
Additional constraints based on the definition of the problem:
Range(digits) == {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}
Range(auxiliary_carries) == {0, 1}
So for your example:
Range(O, W, T) == {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}
Range(Carry1, Carry2, F) == {0, 1}
Once you've generated the constraints to limit your search space, you can use CSP resolution techniques as described in the linked article to walk the search space and determine your solution (if one exists, of course). The concept of (local) consistency is very important here and taking advantage of it allows you to possibly greatly reduce the search space for CSPs.
As a simple example, note that cryptarithmetic generally does not use leading zeroes, meaning if the result is longer than both inputs the final digit, i.e. the last carry digit, must be 1 (so in your example, it means F == 1
). This constraint can then be propagated backwards, as it means that 2T + Carry2 == O + 10
; in other words, the minimum value for T
must be 5, as Carry2
can be at most 1 and 2(4)+1==9. There are other methods of enhancing the search (min-conflicts algorithm, etc.), but I'd rather not turn this answer into a full-fledged CSP class so I'll leave further investigation up to you.
(Note that you can't make assumptions like A+C=A
-> C == 0
except for in least significant column due to the possibility of C
being 9 and the carry digit into the column being 1. That does mean that C
in general will be limited to the domain {0, 9}
, however, so you weren't completely off with that.)