foo:: Int -> Int -> Int foo z x = if (z < 100) then z * foo (z+(x*z)) z else z
How would you print out(the integer z) an output every time it gets called from itself?Can you have function that returns an IO and Int? Do you need a secondary function?
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For simplicity, you can use trace. However it's not welcomed for real production code as it breaks referential transparency.
trace takes a
String to print and a value to return.
import Debug.Trace foo:: Int -> Int -> Int foo z x = trace ("z = " ++ show z) $ if (z < 100) then z * foo (z+(x*z)) z else z *Main> foo 1 2 z = 1 z = 3 z = 6 z = 24 z = 168 72576
For completeness, I'm going to answer this question:
Can you have function that returns an IO and Int?
...quite literally. The answer is "yes!"... and it's even sometimes useful. Likely this isn't what you want to do as a beginner, but in case it is, here's a sample.
foo :: Int -> Int -> (IO (), Int) foo z x = if z < 100 then (print z >> io, z * rec) else (return (), z) where (io, rec) = foo (z+x*z) z
For example, you could print the recursive calls by setting
main = fst $ foo 13 7
or you could just print the answer by setting
main = print . snd $ foo 13 7
or half a dozen other things. Of course, the
IO () type is a bit hard to inspect; you might consider writing something like this instead:
foo' :: Int -> Int -> Writer [Int] Int foo' z x = if z < 100 then tell [z] >> fmap (z*) (foo' (z+x*z) z) else return z
Using this is pretty similar to the above, but with an extra
runWriter thrown in; for example, you could write either of these two:
main = print . snd . runWriter $ foo' 13 7 -- to print a list of the calling values main = print . fst . runWriter $ foo' 13 7 -- to print the result
The advantage of this method is that you get back a list of calling values, rather than an IO action that prints that list, so you can munge the calls in many more interesting ways.
Any function that performs I/O must return its result in the
foo :: Int -> Int -> IO Int foo z x = print z >> if z < 100 then fmap (z*) (foo (z + x * z) z) else return z
Notice that both branches of the
if expression must now be in
IO as well.
This is not the same as returning "an
IO Int is the type of a value that represents an I/O action which, when executed, will produce an
Int as its result (possibly after doing some I/O). So the above definition of
foo takes an
Int and an
Int and returns an I/O action that will eventually result in an
Building on @is7s's answer, a useful idiom for using
Debug.Trace is to do this:
import Debug.Trace foo:: Int -> Int -> Int foo z x | trace ("z = " ++ show z) False = undefined foo z x = if (z < 100) then z * foo (z+(x*z)) z else z
Here, we have introduced a definition of
foo with the
trace in a guard which evaluates to
False, so that it will always fall-through to the original definition. In this way, we do not perturb our function, and can turn the tracing on or off by commenting out the line.