# Haskell - Finding Divisors of an Integer

According to the book this is how its done, but I am not able to get this to work. It gives me an error Not in scope: 'ld'. I'm guessing I should be importing some package but not sure which one. Also the book uses GS module at the prompt but I'm using WinGHCi that has Prelude. What am I missing here?

``````factors :: Int -> [Int]
factors n | n < 1 = error "not positive"
| n == 1 = []
| otherwise = p : factors (div n p)
where p = ld n
``````

I guess this can also be done using map and filter functions? How?

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You should rephrase your question to make it clear what issue exactly you're having, so that we can give you appropriate hints. –  Sarah Jan 2 '12 at 14:00
Still not very good. Consider divisors first. What does the result of divisors n represent? How would you go about calculating them by hand? Could you translate this into Haskell code? Partially? –  Sarah Jan 2 '12 at 14:03
Sure it does: "A prime number n is a number whose only divisors are 1 and n". `n=1` is divisible by 1, by `n` (which in this case is equal to 1) and by nothing else. So by that definition 1 would be a prime number. –  sepp2k Jan 2 '12 at 14:21
@iPC - if you would provide a sound solution in english, I am sure people here would be happy to translate it to Haskell. But the problem is, apparently, that you have not the slightest idea what "k divides n" means. –  Ingo Jan 2 '12 at 21:54
@iPC - Just look at the top of page 5. What do you see there? –  Ingo Jan 3 '12 at 13:15

I suppose the aim of the assignment is to teach you about list comprehensions, `filter` and similar constructs, and not to have you write functions that test for primality or create the list of divisors in any sensible way. Therefore what you need is a predicate `divides`,

``````divides :: Int -> Int -> Bool
a `divides` b = ???
``````

Then you use that predicate for the argument to `filter` or in a list comprehension to find the list of divisors, and use the `divisors` function for your `isPrime` test.

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+1 good guidance –  luqui Jan 2 '12 at 16:46
I just updated my post. Thanks. –  R2D2 Jan 2 '12 at 19:41

You want to inspect all numbers from 1 to n, and keep them only if they divide n. The `filter` function can help you:

``````divisors n = filter ??? [1..n]
``````

So what condition you need to put in place of `???` ?

For the `isPrime` function you could reuse the `divisors` function, you already mentioned how.

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+1 hooray for tips! –  luqui Jan 2 '12 at 16:46

Break it down into simpler steps.

Write a function, `divides :: Int -> Int -> Bool` such that

``````x `divides` n
``````

is true when x is a divisor of n. So, first, think about what it means for `x` to be a divisor of `n`.

Now that you have a way to check if a single number `x` is a divisor of `n`, you need to check a certain range of numbers less than `n` to see which ones are divisors.

Hint: In Haskell, you can generate a list of numbers from 1 to `n` like so: `[1..n]`

This is where that `filter` function you mention would be useful. Check its type:

``````filter :: (a -> Bool) -> [a] -> [a]
``````

Just replace the `a` above with `Int`.

As far as the `isPrime` function, just think about what it means for a number to be prime... if you've calculated your divisors correctly, you can check the list to make sure that it matches with that property.

If this is a homework related question, you should definitely tag it with homework, then people don't feel as timid about helping out :)

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