6.5.6. Field selectors¶
-
FieldSelectors
¶ Since: 9.2.1 Status: Included in GHC2024
,GHC2021
,Haskell2010
,Haskell98
Make record field selector functions visible in expressions.
By default, the FieldSelectors
extension is enabled, so defining a
record datatype brings a selector function into scope for each field in the
record. NoFieldSelectors
negates this feature, making it possible
to:
- declare a top-level binding with the same name as a field, and
- refer to this top-level binding unambiguously in expressions.
Field labels are still usable within record construction, updates and pattern matching.
For example, given a datatype definition
data Foo = MkFoo { bar :: Int, baz :: String }
The following will be available:
- the type constructor
Foo
; - the data constructor
MkFoo
; - the fields
bar
andbaz
for record construction, update, and pattern matching; and - the selector functions
bar :: Foo -> Int
andbaz :: Foo -> String
.
If the NoFieldSelectors
extension is enabled at the datatype
definition site, items (1), (2), and (3) will still be available, but (4) will
not. Correspondingly, it is permitted to define a top-level binding with the
same name as a field, and using this name in an expression unambiguously refers
to the non-field. For exmaple, the following is permitted:
data Foo = MkFoo { bar :: Int, baz :: String }
bar = () -- does not conflict with `bar` field
baz = bar -- unambiguously refers to `bar` the unit value, not the field
If you have multiple datatypes with the same field name, you need to enable
DuplicateRecordFields
to allow them to be declared simultaneously.
It is never permitted for a single module to define multiple top-level bindings
with the same name.
The DisambiguateRecordFields
extension (implied by
DuplicateRecordFields
) is useful in conjunction with
NoFieldSelectors
, because it excludes non-fields from consideration
when resolving field names in record construction, update and pattern matching.
6.5.6.1. Import and export of selector functions¶
Under FieldSelectors
, these modules are equivalent:
module A (Foo(MkFoo, bar, baz)) where
data Foo = MkFoo { bar :: Int, baz :: Int }
module B (Foo(MkFoo, bar), baz) where
data Foo = MkFoo { bar :: Int, baz :: Int }
Under NoFieldSelectors
, these two export statements are now
different. The first one will export the field baz
, but not the top-level
binding baz
, while the second one would export the top-level binding baz
(if one were defined), but not the field baz
.
Because of this change, using NoFieldSelectors
and writing out
selector functions explicitly is different to using FieldSelectors
:
in the former case the fields and functions must be exported separately. For
example, here the selector functions are not exported:
{-# LANGUAGE NoFieldSelectors #-}
module M (Foo(MkFoo, bar, baz)) where
data Foo = MkFoo { bar :: Int, baz :: Int }
bar (MkFoo x _) = x
baz (MkFoo _ x) = x
whereas here the selector functions are exported:
{-# LANGUAGE FieldSelectors #-}
module M (Foo(MkFoo, bar, baz)) where
data Foo = MkFoo { bar :: Int, baz :: Int }
Wildcard exports will export the field labels, but will not export a top-level
binding that happens to have the same name. In the examples above, exporting
Foo(..)
is (still) equivalent to exporting Foo(MkFoo, bar, baz)
.