Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

In Haskell, if I create a dataype like this:

data MyT = MyT Int deriving (Show)
myValue = MyT 42

I can get the Int value passing 'myValue' to a function and doing pattern matching:

getInt :: MyT -> Int                                                  
getInt (MyT n) = n

It seems to me that something simpler should be possible. Is there another way?

Also, I tried a lambda function:

(\(MyT n) -> n) myValue

It doesn't work and I don't understand why not. I get the error:

The function `\ (MyT n) -> n' is applied to two arguments,
    but its type `MyT -> Int' has only one

EDIT: Of course, sepp2k below, is right about my lambda function working OK. I was doing:

(\(MyT n) -> n) myT 42

instead of

(\(MyT n) -> n) (myT 42)
share|improve this question
You can bundle the constructor and the accessor together using record syntax, like this: data MyT = MyT { getInt :: Int } deriving (Show). –  danidiaz Apr 13 '14 at 11:31
I had a difficult time deciding the accepted answer. All are good. Thanks. –  Robert Apr 14 '14 at 16:18

3 Answers 3

up vote 3 down vote accepted

You can use the record syntax

data MyT = MyT {unMyT :: Int} deriving (Show)

which gives you the projection for free

unMyT :: MyT -> Int

This is nice if your data type has only one constructor (including newtypes). For data types involving more than one constrctor, projection functions tend to be unsafe (e.g., head,tail), and pattern matching is usually preferred instead. GHC checks for non-exhaustive patterns if you enable warnings, and can help to spot errors.

share|improve this answer

If you want to get at the value of MyT inside a larger function without defining a helper function, you could either use case of or pattern matching in local variable definitions. Here are examples of that (assuming that g produces a MyT and f takes an Int):

Using case:

myLargerFunction x = f (case g x of MyT n => n)

Or with local variables:

myLargerFunction x = f myInt
  where MyT myInt = g x

Or using let instead of where:

myLargerFunction x =
  let MyT myInt = g x in
  f myInt

Your lambda function should (and in fact does) also work fine. Your error message suggests that in your real code you're really doing something like (\(MyT n) -> n) myValue somethingElse (presumably by accident).

share|improve this answer

NewTypes create a distinct type and do not have an extra level of indirection like algebraic datatypes. See the Haskell report for more information:


Prelude> newtype Age = Age { unAge :: Int } deriving (Show)
Prelude> let personAge = Age 42
Prelude> personAge
Age {unAge = 42}
Prelude> (unAge personAge) + 1

Using a lambda function:

Prelude> (\(Age age) -> age * 2) personAge
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.