Copyright	(C) mniip 2019
License	BSD3
Maintainer	mniip@email.com
Stability	experimental
Safe Haskell	Safe
Language	Haskell2010

Data.Partial

Description

If you have a datatype with a lot of default-able fields, e.g.

data Foo =
  { fld1 :: Maybe Int
  , fld2 :: Maybe Char
  , fld3 :: Word
  }

and you want to avoid the the boilerplate of writing all the default values every time you construct a record of this type, you could write a "default value" of this type:

defaultFoo :: Foo
defaultFoo = Foo { fld1 = Nothing, fld2 = Nothing, fld3 = 0 }

You could then use record modification syntax to make necessary changes to this value. But perhaps you can't/don't want to provide default values for all of the fields, but only some of them? You could implement a "default smart constructor" that would take the non-optional arguments and then fill in the optional ones like so:

defaultFoo :: Word -> Foo
defaultFoo x = Foo { fld1 = Nothing, fld2 = Nothing, fld3 = x }

But then you lose the benefit of record syntax: you can't name the fields you're providing values for.

This package reconciles the two problems: with only a little bit of Template Haskell it provides a way to construct a record with optional fields while also letting you refer to the names of those fields. You make two splices:

mkToPartial ''Foo
  -- defines mkfld1, mkfld2, mkfld3
mkFromPartial "mkFoo" [t|Foo|] [|Foo { fld1 = Nothing, fld2 = Nothing }|]
  -- defines mkFoo

And then you can use them like so:

val :: Foo
val = mkFoo
  $ mkfld3 123
  ? mkfld1 (Just 456)
-- val = Foo { fld1 = Just 456, fld2 = Nothing, fld3 = 123 }

The Template Haskell splice lets you define default values for a subset of the fields, and those defaults will be used when you call mkFoo. You can list fields in any order, but if you omit a mandatory field (one that doesn't have a default), that would be a type error at compile time.

You can make multiple mkFromPartial splices, this is occasionally useful for parameterized types, for example:

data Bar a =
  { bar1 :: Maybe Int
  , bar2 :: a
  }
mkToPartial ''Bar
mkFromPartial "mkBar" [t|forall a. Bar a|]
  [|Bar { bar1 = Nothing }|]
  -- mkBar :: ... -> Bar a, and bar2 is a required field
mkFromPartial "mkBarMaybe" [t|forall a. Bar (Maybe a)|]
  [|Bar { bar1 = Nothing, bar2 = Nothing }|]
  -- mkBarMaybe :: ... -> Bar (Maybe a), and bar2 is an optional field

Synopsis

data family Partial (a :: *) :: [Bool] -> *
class Graded a where
- (?) :: Partial a b1 -> Partial a b2 -> Partial a (b1 <||> b2)
type family (b1 :: [Bool]) <||> (b2 :: [Bool]) :: [Bool] where ...

Documentation

data family Partial (a :: *) :: [Bool] -> * Source #

Partial T '[b1, b2, ...] is a partial version of the datatype T where the first field's presence is indicated by b1 :: Bool, second field's presence is indicated by b2 and so on. Instances of this would be generated by mkToPartial.

class Graded a where Source #

A "graded semigroup": if we have two partial structures with only some of the fields, we can merge them to obtain a partial structure with the union of the fields. Prefers to take fields from the left hand side. Instances of this would be generated by mkToPartial.

Methods

(?) :: Partial a b1 -> Partial a b2 -> Partial a (b1 <||> b2) Source #

type family (b1 :: [Bool]) <||> (b2 :: [Bool]) :: [Bool] where ... Source #

Equations

(x0 ': (x1 ': (x2 ': (x3 ': (x4 ': (x5 ': (x6 ': (x7 ': xs)))))))) <\|\|> (y0 ': (y1 ': (y2 ': (y3 ': (y4 ': (y5 ': (y6 ': (y7 ': ys)))))))) = (x0 \|\| y0) ': ((x1 \|\| y1) ': ((x2 \|\| y2) ': ((x3 \|\| y3) ': ((x4 \|\| y4) ': ((x5 \|\| y5) ': ((x6 \|\| y6) ': ((x7 \|\| y7) ': (xs <\|\|> ys))))))))
(x ': xs) <\|\|> (y ': ys) = (x \|\| y) ': (xs <\|\|> ys)
'[] <\|\|> '[] = '[]