# Constructor

### From HaskellWiki

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depth (Node _ l r) = 1 + max (depth l) (depth r) | depth (Node _ l r) = 1 + max (depth l) (depth r) | ||

</haskell> | </haskell> | ||

− | So, the depth of a tip is zero. The depth of a node depends on its branches, but not | + | So, the depth of a tip is zero. The depth of a node depends on its branches, but not its content. See how the constructor in the left hand side names its parts? we don't need the content so we don't name it (using <hask>_</hask>). The left branch is named <hask>l</hask>, the right <hask>r</hask>, allowing us to use these values in the right hand side. |

== Notes and tips== | == Notes and tips== |

## Revision as of 05:38, 28 December 2013

**Constructor** can mean:

- Type constructor
- Data constructor

## Contents |

## 1 Type constructor

A type constructor is used to construct new types from given ones.

data Tree a = Tip | Node a (Tree a) (Tree a)

Tree

a

Integer

Maybe String

Tree b

b

a

Tree Int

Tree (Tree Boolean)

## 2 Data constructor

A data constructor groups values together and tags alternatives in an algebraic data type,

data Tree a = Tip | Node a (Tree a) (Tree a)

Tip

Node

Tree a

Tip

Node

Tip

Tip

Bool

data Bool = True | False

and for all practical purposes you can just think of them as *constants* belonging to a type.

Node

a

a

Tree a

### 2.1 Data constructors as first class values

Data constructors are first class values in Haskell and actually have a type. For instance, the type of theLeft

Either

Left :: forall b a. a -> Either a b

As first class values, they may be passed to functions, held in a list, be data elements of other algebraic data types and so forth.

### 2.2 Data constructors are not types

As discussed above, they denote values. It is illegal to writeNode a (Node a) (Node a)

Tree

Node

## 3 Deconstructing data constructors

All a data constructor does is holding values together. But you want to separate them if you want to use them. This is done via pattern matching,

depth Tip = 0 depth (Node _ l r) = 1 + max (depth l) (depth r)

_

l

r

## 4 Notes and tips

- You can declare a constructor (for both type and data) to be an infix operator, and this can make your code a lot more readable. However, for alphanumeric names, the names of both the type constructor and the data constructor(s) must start with an uppercase letter.
- Tuples are a built in feature of the syntax but are plain old algebraic data types! They have only one constructor though. Having the same name as their types (don't freak out, it's just a matter of convenience, as the type constructors and the data constructors have separate namespaces). So, is really a value of the form(4, True)having the type(,) 4 True, which, too, is written conveniently as(,) Int Boolto make it more readable. Incidentally, the empty tuple type(Int, Bool)with its only value()is used throughout, and is called()
*unit*. - You can, in fact, name the values grouped together, using the record syntax, so that for a person
data Person = Person { name :: String, age :: Int, address :: String }

, you can saypto select his/her age, without resorting to pattern matching.age p - Sometimes you need a little editting or checking when constructing your data. If you do, check smart constructors
- Sometimes you do not want the user of your library to group arbitrary values together. This is achieved by
*hiding*your constructor (not mentioning it in the export list of the module), creating an abstract data type as a result. Along with smart constructors mentioned above, one can achieve encapsulation.