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I have the following question given to me.

Write a function form_number_back that takes a list of positive integers and forms a decimal number using the numbers in the list in reverse order.

For example form_number_back [1, 2, 3, 4] should return the number 4321; form_number_back [ ] returns 0

Use the function foldr and mult_add below to accomplish this mult_add d s = d + 10*s

Note: foldr and foldr1 are two different functions. Try to use foldr1 instead of foldr in your definition and see if you get the same results with an empty list. Explain your results.

I cannot find anything on mult_add. I thought mabye it was the function name but she wants form_number_back as the function name. Which means mult_add is a Haskell function.

Can anyone explain to me what mult_add does? Is it even written right? Is mult_add another usermade function i'm supposed to use with my own code?

Edit 2

I tried putting in the function example to get its type.. so.. form_number_back [1, 2, 3, 4] :: Num b => b -> [b] -> b

so my function looks like

form_number_back a = foldr(mult_add)

but is returning type of

form_number_back :: Num b => [t] -> b -> [b] -> b

Trying to figure out how to get rid of that [t]

share|improve this question
mult_add is a helper function. Its definition is given as mult_add d s = d + 10*s. You should use that for form_number_back. – Daniel Fischer Jun 11 '12 at 22:53
(It's says "enter it". Okay, I added the quotes. I wasn't sure if that text is in the original assignment or was added in formatting, but I think the quotes are relevant ;-) – user166390 Jun 11 '12 at 22:54
Here's a very small hint: 1982 = 2 * 1 + 8 * 10 + 9 * 100 + 1 * 1000 = 2 + 10 * (8 + 10 * (9 + 10 * (1 + 10 * (0)))). – Daniel Wagner Jun 11 '12 at 23:17
A different hint: write mult_add in a source file, load it, and ask ghci what the type of foldr mult_add is, :t foldr mult_add. – Daniel Fischer Jun 11 '12 at 23:19
@user1449653: foldr requires that you pass a function, initial value, and the list. – sdcvvc Jun 12 '12 at 0:13

Types are both more important and more informative in Haskell than in most other languages. When you don't understand Haskell, a good first step is to think about types. So let's do that. We'll fire up ghci and enter:

Prelude> let mult_add d s = d + 10 * s

And now ask for its type:

Prelude> :t mult_add
mult_add :: Num a => a -> a -> a

That is, mult_add takes an a and another a, and returns an a, with the proviso that a is an instance of the Num class (so that you can add and multiply them).

You're asked to use foldr to write this function, so let's look at the type of that:

Prelude> :t foldr
foldr :: (a -> b -> b) -> b -> [a] -> b

That looks a bit intimidating, so let's break it down. The first part, (a -> b -> b) tells us that foldr needs a function of two variables, a and b. Well, we have one of those already - it's mult_add. So what happens if we feed in mult_add as the first argument to foldr?

Prelude> :t foldr mult_add
foldr mult_add :: Num b => b -> [b] -> b

Okay! We now have a function that takes a b and a [b] (a list of bs) and returns a b. The function you're trying to write needs to return 0 when it's given the empty list, so let's try feeding it the empty list, with a few different values for the remaining argument:

Prelude> foldr mult_add 10 []
Prelude> foldr mult_add 5 []

Hey, that's interesting. If we feed it the number x and the empty list, it just returns x (Note: this is always true for foldr. If we give it the initial value x and the empty list [], it will return x, no matter what function we use in place of mult_add.)

So let's try feeding it 0 as the second argument:

Prelude> foldr mult_add 0 []

That seems to work. Now how about if we feed it the list [1,2,3,4] instead of the empty list?

Prelude> foldr mult_add 0 [1,2,3,4]

Nice! So it seems to work. Now the question is, why does it work? The trick to understanding foldr is that foldr f x xs inserts the function f between every element of xs, and additionally puts x at the end of the list, and collects everything from the right (that's why it's called a right fold). So, for example:

foldr f 0 [1,2,3] = 1 `f` (2 `f` (3 `f` 0))

where the backticks indicate that we're using the function in its infix form (so its first argument is the one on the left, and the second argument is the one on the right). In your example you have f = mult_add, which multiplies its second argument by 10 and adds it to the first argument:

d `mult_add` s = d + 10 * s

so you have

foldr mult_add 0 [1,2,3] = 1 `mult_add` (2 `mult_add` (3 `mult_add 0))
                         = 1 `mult_add` (2 `mult_add` 3)
                         = 1 `mult_add` 32
                         = 321

which does what you expect. To make sure you understand this, work out what would happen if you defined mult_add the other way around, i.e.

mult_add d s = 10 * d + s
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