# Use of function in Guard not allowed. Suggestions for alternate implementation wanted

I am attempting to create a prime number factorizer, using fermats method.

This line generates an error

``````find_factors(A, B, FactorThis) when is_a_square(B) == true ->
``````

call to local/imported function is_a_square/1 is illegal in guard

The only possible alternative I see to this implementation is to use some sort of case statement within the function. I was avoiding that, as it might screw up the tail recursion. I am a Erlang noob. What other ways are there to implement this functionality?

``````get_int_part_of_sqrt(N) ->
trunc(math:sqrt(N)).

is_a_square(N) ->
get_int_part_of_sqrt(N) * get_int_part_of_sqrt(N) == N.

calculate_new_b(A, FactorThis) ->
NewB = trunc(abs((A * A) - FactorThis)),
io:format("Calculate_new_b A^2 ~w- FT ~w= NB ~w ~n",[A*A,FactorThis,NewB]),

find_factors(A, B, FactorThis) when is_a_square(B) == true ->
io:format("find_factors true ~w ~w~n", [A, B]),
{ok, A + get_int_part_of_sqrt(B), A - get_int_part_of_sqrt(B)};

find_factors(A, B, FactorThis) ->
io:format("find_factors false ~w ~w~n", [A, B]),
NewA = A + 1,
NewB = calculate_new_b(NewA, FactorThis),
find_factors(NewA, NewB, FactorThis).
``````

Edited. fixed argument in call to calculate_new_b

-

Erlang deliberately restricts which functions you're allowed to call in guards. Here's a fairly recent discussion of the justification for this, its merits and drawbacks.

The only way around it is to use `case`. You can pretty easily rewrite this code to use `case`:

``````find_factors(A, B, FactorThis) ->
case is_a_square(B) of
true -> io:format("      find_factors true ~w ~w~n", [A, B]),
{ok, A + B, A - B};

false-> io:format("      find_factors false ~w ~w~n", [A, B]),
NewA = A + 1,
NewB = calculate_new_b(NewA, FactorThis),
find_factors(NewA, NewB, FactorThis).
``````

Note that the above code is still properly tail-recursive.

(I modified your code a little to take out the parts that I'm guessing you meant not to have there)

-
Yes. This is what I was thinking of. I removed the crap from the code in question. It was comment residue, incorrectly removed. Thank you. –  EvilTeach Sep 19 '11 at 18:56
Unfortunately many of the proponents of allowing user defined functions in guards missed the point or suggested such changes to make it "safe" that it would have radically changed parts of the language. –  rvirding Sep 19 '11 at 23:54
I'll have to reread the discussion. My instinct coming from a Haskell background is to disagree and suggest that there ought to be ways to mark a function as side-effect-free (which from a Haskeller's standpoint even some of the approved functions like `node/0` and `self/0` are not) but this didn't seem like the right place. –  Dan Sep 20 '11 at 4:31
I tried this last night, and didn't get the expected result. I found another method of doing it. I will try to put an edit together today, as this answer does look correct. There is some language aspect that is invisible at the moment. –  EvilTeach Sep 20 '11 at 12:26
If it's a language issue related to your question, feel free to just ask :) –  Dan Sep 20 '11 at 14:18
show 1 more comment

Here is another way to refactor around the issue.

Add the desired guard function as an argument at the caller. This turns it from a function with possible side effects, into true or false, which have no side effects. Then straight pattern matching will do the job.

``````main() ->
List2 = find_factors_2 (10, 5, 105, is_a_square(5)),
io:format("method 2 ~w~n", [List2]).

find_factors_2(A, B, _FactorThis, true) ->
Offset = get_int_part_of_sqrt(B),
{A + Offset, A - Offset};

find_factors_2(A, _B, FactorThis, false) ->
NewA = A + 1,
NewB = calculate_new_b(NewA, FactorThis),
find_factors_2(NewA, NewB, FactorThis, is_a_square(NewB)).
``````
-
Yes, that would also work. The two are really equivalent, so it's a matter of aesthetic preference. I do find it interesting that all of the languages (to my knowledge) that support this style of pattern matching it allow it in function heads as well as in the body. –  Dan Sep 21 '11 at 18:09
I disagree. Your solution is better, because it doesn't need the extra argument. In effect mine is exposing a bit of the internals to the caller. Never-the-less it is another way to do it, which may be useful to someone someday. –  EvilTeach Sep 21 '11 at 19:26