# Using high filter functions and recursion [closed]

I need to code 2 functions in Haskell but with 2 differents methods each (high-filter and recursion).

I have 2 tuples to do this:

Material is `(Model, Price, Accesories) :: (String, Int, [(String, Int)])`

Accesory is `(Name, Price) :: (String, Int)`

• The first function `totalPrice` receives the Material tuple and has to return the total price (Material price + Accesories price)

Example:

Main> totalPrice ("Table",150,[("Chair",100),("Chair",5)])

Returns: totalPrice = 255

``````totalPrice (_,x,l) = x + sum l
sum [] = 0
sum (t:ts) = snd t + sum ts
``````

but I don't know how to do it with high-filter functions.

• The second function expensiveMaterialsPrice receives a list of Materials and has to return only the sum of the total prices of the expensive materials. A

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## closed as too broad by hugomg, Qantas 94 Heavy, EdChum, Aniket Kulkarni, Andro SelvaApr 2 '14 at 9:23

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs. If this question can be reworded to fit the rules in the help center, please edit the question.

You don't need a filter for `totalPrice` at all, I think you're looking for the term "higher order function". Instead, you just need a function to access the price of an accessory:

``````accessoryPrice :: (String, Int) -> Int
accessoryPrice (_, price) = price
``````

Then you can easily transform a list of accessories into a list of prices:

``````accessoryPrices :: [(String, Int)] -> [Int]
accessoryPrices accessories = map accessoryPrice accessories
``````

Now you can use sum on the output of this to get the total accessory price

``````totalAccessoryPrice :: [(String, Int)] -> Int
totalAccessoryPrice accessories = sum \$ accessoryPrices accessories
``````

And I'll leave it to you to integrate this into your current code =)

Fun fact, `accessoryPrice` is just a more specific form of `snd`, and you could instead write this code in the much shorter form

``````totalAccessoryPrice = sum . map snd
``````

But this is far less clear as to your intentions. I would highly recommend using the more verbose form for now, it helps to break the problem into discrete steps to solve instead of trying to tackle the entire solution at once.

For the `expensiveMaterialsPrice`, you will want to use a filter. In this case, you should make a function `isExpensive :: (String, Int, [(String, Int)]) -> Bool` to indicate if a material is expensive or not:

``````isExpensive :: (String, Int, [(String, Int)]) -> Bool
isExpensive material = totalPrice material > 1500
``````

Then you can use `isExpensive` as the predicate (the first argument) to `filter`.

Something that might help would be to create some type aliases:

``````type Name = String
type Price = Int
type Accessory = (Name, Price)
type Material = (Name, Price, [Accessory])

accessoryPrice :: Accessory -> Price
-- same definition

accessoryPrices :: [Accessory] -> [Price]
-- same definition

totalAccessoryPrice :: [Accessory] -> Price
-- same definition

totalPrice :: Material -> Price

isExpensive :: Material -> Bool
-- same definition
``````

It doesn't change the meaning of your code at all, aliases are interchangeable (i.e. `Price` and `Int` are the same type, just with different names), but it does reduce typing and makes your intentions very clear.

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For function expensiveMaterialsPrice using recursion, can I do something like > expensiveMaterialsPrice materials | isExpensive material == True = totalPrice material + expensiveMaterialsPrice materials Got stuck here now, thanks for all the help. –  warty Apr 2 '14 at 12:08
If you want to use explicit recursion instead of filter, you have to specify both cases, i.e. if it is expensive or if it isn't. Using an if-statement (because it's easier to format in a comment, same result as using guards): `expensiveMaterialsPrice [] = 0`; `expensiveMaterialsPrice (m:ms) = if isExpensive m then totalPrice m + expensiveMaterialsPrice ms else expensiveMaterialsPrice`. You have to give the base case of when your list of materials is empty (the price is `0`), and then you can use pattern matching to pull the first element off the list with `(m:ms)`. –  bheklilr Apr 2 '14 at 13:15
If you instead wanted to use `filter`, it'd be much shorter: `expensiveMaterialsPrice materials = sum \$ map totalPrice \$ filter isExpensive materials`, and only one line. You can even write it in the "point free" form (google it, there are good explanations out there) `expensiveMaterialsPrice = sum . map totalPrice . filter isExpensive`. –  bheklilr Apr 2 '14 at 13:17

`totalPrice` implemented by using higher-order function:

``````totalPrice (_,x,l) = x + (sum \$ map snd l)
``````

and `expensiveMaterialsPrice`

``````expensiveMaterialsPrice ms = sum \$ map totalPrice \$ filter isExpensive ms
where isExpensive m = totalPrice m > 1500
``````
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`x + sum \$ map snd l` won't work, you'll get a compile error because of the `\$`. –  bheklilr Apr 2 '14 at 2:54