First class accessor labels implemented as lenses.
This package provides first class labels that can act as bidirectional record fields. The labels can be derived automatically using Template Haskell which means you don't have to write any boilerplate yourself. The labels are implemented as lenses and are fully composable. Lenses can be used to get, set and modify parts of a data type in a consistent way.
See Data.Label
for an introductory explanation or see the introductory blog post at http://fvisser.nl/post/2013/okt/1/fclabels-2.0.html
Total and partial lenses
Internally lenses do not used Haskell functions directly, but are implemented as categories. Categories allow the lenses to be run in custom computational contexts. This approach allows us to make partial lenses that point to fields of multi-constructor datatypes in an elegant way.
See Data.Label.Partial
for the use of partial labels.
Monomorphic and polymorphic lenses
We have both polymorphic and monomorphic lenses. Polymorphic lenses allow updates that change the type. The types of polymorphic lenses are slightly more verbose than their monomorphic counterparts, but their usage is similar. Because monomorphic lenses are built by restricting the types of polymorphic lenses they are essentially the same and can be freely composed with eachother.
See Data.Label.Mono
and Data.Label.Poly
for the difference between polymorphic and monomorphic lenses.
Using fclabels
To simplify working with labels we supply both a set of labels for Haskell's base types, like lists, tuples, Maybe and Either, and we supply a set of combinators for working with labels for values in the Reader and State monad.
See Data.Label.Base
and Data.Label.Monadic
for more information.
Changelog from 2.0.4 to 2.0.5
- Support for GHC 8.10. Thanks to Potato Hatsue.
fclabels: first class accessor labels
This package provides first class labels that can act as bidirectional record fields. The labels can be derived automatically using Template Haskell which means you don't have to write any boilerplate yourself. The labels are implemented as lenses and are fully composable. Lenses can be used to get, set and modify parts of a data type in a consistent way.
See Data.Label
for an introductory explanation.
Total and partial lenses
Internally lenses do not use Haskell functions directly, but are implemented as categories. Categories allow the lenses to be run in custom computational contexts. This approach allows us to make partial lenses that point to fields of multi-constructor datatypes in an elegant way.
See Data.Label.Partial
for the use of partial labels.
Monomorphic and polymorphic lenses
We have both polymorphic and monomorphic lenses. Polymorphic lenses allow updates that change the type. The types of polymorphic lenses are slightly more verbose than their monomorphic counterparts, but their usage is similar. Because monomorphic lenses are built by restricting the types of polymorphic lenses they are essentially the same and can be freely composed with eachother.
See Data.Label.Mono
and Data.Label.Poly
for the difference between polymorphic and monomorphic lenses.
Using fclabels
To simplify working with labels we supply both a set of labels for Haskell's base types, like lists, tuples, Maybe and Either, and we supply a set of combinators for working with labels for values in the Reader and State monad.
See Data.Label.Base
and Data.Label.Monadic
for more information.
On Hackage: http://hackage.haskell.org/package/fclabels
Introduction: http://fvisser.nl/post/2013/okt/1/fclabels-2.0.html.