-- | The Witch package is a library that allows you to confidently convert -- values between various types. This module exports everything you need to -- perform conversions or define your own. It is designed to be imported -- unqualified, so getting started is as easy as: -- -- >>> import Witch -- -- In typical usage, the functions that you will use most often are -- 'Witch.Utility.into' for conversions that always succeed and -- 'Witch.Utility.tryInto' for conversions that sometimes fail. -- -- Please consider reading the blog post that announces this library: -- module Witch ( -- * Type classes -- ** From Witch.From.From (from), Witch.Utility.into, -- ** TryFrom Witch.TryFrom.TryFrom (tryFrom), Witch.Utility.tryInto, -- * Data types Witch.TryFromException.TryFromException (..), -- ** Encodings Witch.Encoding.ISO_8859_1, Witch.Encoding.UTF_8, Witch.Encoding.UTF_16LE, Witch.Encoding.UTF_16BE, Witch.Encoding.UTF_32LE, Witch.Encoding.UTF_32BE, -- * Utilities Witch.Utility.via, Witch.Utility.tryVia, Witch.Utility.maybeTryFrom, Witch.Utility.eitherTryFrom, -- ** Unsafe -- | These functions should only be used in two circumstances: When you know -- a conversion is safe even though you can't prove it to the compiler, and -- when you're alright with your program crashing if the conversion fails. -- In all other cases you should prefer the normal conversion functions like -- 'Witch.TryFrom.tryFrom'. And if you're converting a literal value, -- consider using the Template Haskell conversion functions like -- 'Witch.Lift.liftedFrom'. Witch.Utility.unsafeFrom, Witch.Utility.unsafeInto, -- ** Template Haskell -- | This library uses /typed/ Template Haskell, which may be a little -- different than what you're used to. Normally Template Haskell uses the -- @$(...)@ syntax for splicing in things to run at compile time. The typed -- variant uses the @$$(...)@ syntax for splices, doubling up on the dollar -- signs. Other than that, using typed Template Haskell should be pretty -- much the same as using regular Template Haskell. Witch.Lift.liftedFrom, Witch.Lift.liftedInto, -- * Notes -- ** Motivation -- | Haskell provides many ways to convert between common types, and core -- libraries add even more. It can be challenging to know which function to -- use when converting from some source type @a@ to some target type @b@. It -- can be even harder to know if that conversion is safe or if there are any -- pitfalls to watch out for. -- -- This library tries to address that problem by providing a common -- interface for converting between types. The 'Witch.From.From' type class -- is for conversions that cannot fail, and the 'Witch.TryFrom.TryFrom' type -- class is for conversions that can fail. These type classes are inspired -- by the [@From@](https://doc.rust-lang.org/std/convert/trait.From.html) -- trait in Rust. -- ** Type applications -- | Although you can use this library without the [@TypeApplications@](https://downloads.haskell.org/ghc/9.6.1/docs/users_guide/exts/type_applications.html) -- language extension, the extension is strongly recommended. Since most -- functions provided by this library are polymorphic in at least one type -- variable, it's easy to use them in a situation that would be ambiguous. -- Normally you could resolve the ambiguity with an explicit type signature, -- but type applications are much more ergonomic. For example: -- -- > -- Avoid this: -- > f . (from :: Int8 -> Int16) . g -- > -- > -- Prefer this: -- > f . from @Int8 @Int16 . g -- -- Most functions in this library have two versions with their type -- variables in opposite orders. That's because usually one side of the -- conversion or the other already has its type inferred by context. In -- those situations it makes sense to only provide one type argument. -- -- > -- Avoid this: (assuming f :: Int16 -> ...) -- > f $ from @Int8 @Int16 0 -- > -- > -- Prefer this: -- > f $ from @Int8 0 -- -- > -- Avoid this: (assuming x :: Int8) -- > g $ from @Int8 @Int16 x -- > -- > -- Prefer this: -- > g $ into @Int16 x -- ** Alternatives -- | Many Haskell libraries already provide similar functionality. How is -- this library different? -- -- - [@Coercible@](https://hackage.haskell.org/package/base-4.15.0.0/docs/Data-Coerce.html#t:Coercible): -- This type class is solved by the compiler, but it only works for types -- that have the same runtime representation. This is very convenient for -- @newtype@s, but it does not work for converting between arbitrary types -- like @Int8@ and @Int16@. -- -- - [@Convertible@](https://hackage.haskell.org/package/convertible-1.1.1.0/docs/Data-Convertible-Base.html#t:Convertible): -- This popular conversion type class is similar to what this library -- provides. The main difference is that it does not differentiate between -- conversions that can fail and those that cannot. -- -- - [@From@](https://hackage.haskell.org/package/basement-0.0.11/docs/Basement-From.html#t:From): -- This type class is almost identical to what this library provides. -- Unfortunately it is part of the @basement@ package, which is an -- alternative standard library that some people may not want to depend -- on. -- -- - [@Inj@](https://hackage.haskell.org/package/inj-1.0/docs/Inj.html#t:Inj): -- This type class requires instances to be an injection, which means that -- no two input values should map to the same output. That restriction -- prohibits many useful instances. Also many instances throw impure -- exceptions. -- -- In addition to those general-purpose type classes, there are many -- alternatives for more specific conversions. How does this library compare -- to those? -- -- - Monomorphic conversion functions like [@Data.Text.pack@](https://hackage.haskell.org/package/text-1.2.4.1/docs/Data-Text.html#v:pack) -- are explicit but not necessarily convenient. It can be tedious to -- manage the imports necessary to use the functions. And if you want to -- put them in a custom prelude, you will have to come up with your own -- names. -- -- - Polymorphic conversion methods like 'toEnum' are more convenient but -- may have unwanted semantics or runtime behavior. For example the 'Enum' -- type class is more or less tied to the 'Int' data type and frequently -- throws impure exceptions. -- -- - Polymorphic conversion functions like 'fromIntegral' are very -- convenient. Unfortunately it can be challenging to know which types -- have the instances necessary to make the conversion possible. And even -- if the conversion is possible, is it safe? For example converting a -- negative 'Int' into a 'Word' will overflow, which may be surprising. -- ** Instances -- | When should you add a 'Witch.From.From' (or 'Witch.TryFrom.TryFrom') -- instance for some pair of types? This is a surprisingly tricky question -- to answer precisely. Instances are driven more by guidelines than rules. -- -- - Conversions must not throw impure exceptions. This means no 'undefined' -- or anything equivalent to it. -- -- - Conversions should be unambiguous. If there are multiple reasonable -- ways to convert from @a@ to @b@, then you probably should not add a -- 'Witch.From.From' instance for them. -- -- - Conversions should be lossless. If you have @From a b@ then no two @a@ -- values should be converted to the same @b@ value. -- -- - Some conversions necessarily lose information, like converting from -- a list into a set. -- -- - If you have both @From a b@ and @From b a@, then -- @from \@b \@a . from \@a \@b@ should be the same as 'id'. In other -- words, @a@ and @b@ are isomorphic. -- -- - This often true, but not always. For example, converting a list -- into a set will remove duplicates. And then converting back into a -- list will put the elements in ascending order. -- -- - If you have both @From a b@ and @From b c@, then you could also have -- @From a c@ and it should be the same as @from \@b \@c . from \@a \@b@. -- In other words, @From@ is transitive. -- -- - This is not always true. For example an @Int8@ may be represented -- as a number in JSON, whereas an @Int64@ might be represented as a -- string. That means @into \@JSON (into \@Int64 int8)@ would not be -- the same as @into \@JSON int8@. -- -- - You should not have both a @From@ instance and a @TryFrom@ instance for -- the same pair of types. -- -- - If you have a @From@ or @TryFrom@ instance for a pair of types, then -- you should probably have a @From@ or @TryFrom@ instance for the same -- pair of types but in the opposite direction. In other words if you have -- @From a b@ then you should have @From b a@ or @TryFrom b a@. -- -- In general if @s@ /is/ a @t@, then you should add a 'Witch.From.From' -- instance for it. But if @s@ merely /can be/ a @t@, then you could add a -- 'Witch.TryFrom.TryFrom' instance for it. And if it is technically -- possible to convert from @s@ to @t@ but there are a lot of caveats, you -- probably should not write any instances at all. -- ** Laws -- | As the previous section notes, there aren't any cut and dried laws for -- the @From@ and @TryFrom@ type classes. However it can be useful to -- consider the following equations for guiding instances: -- -- > -- same strictness -- > seq (from @a @b x) y = seq x y -- > seq (tryFrom @a @b x) y = seq x y -- -- > -- round trip -- > from @b @a (from @a @b x) = x -- -- > -- transitive -- > from @b @c (from @a @b x) = from @a @c x -- > tryFrom @b @a (from @a @b x) = Right x -- > if isRight (tryFrom @a @b x) then -- > fmap (from @b @a) (tryFrom @a @b x) = Right x -- > if isRight (tryFrom @a @b x) then do -- > fmap (tryFrom @b @a) (tryFrom @a @b x) = Right (Right x) -- ** Integral types -- | There are a lot of types that represent various different ranges of -- integers, and Witch may not provide the instances you want. In particular -- it does not provide a total way to convert from an @Int32@ into an @Int@. -- Why is that? -- -- The Haskell Language Report only demands that @Int@s have at least 30 -- bits of precision. That means a reasonable Haskell implementation could -- have an @Int@ type that's smaller than the @Int32@ type. -- -- However in practice everyone uses the same Haskell implementation: GHC. -- And with GHC the @Int@ type always has 32 bits of precision, even on -- 32-bit architectures. So for almost everybody, it's probably safe to use -- @unsafeFrom \@Int32 \@Int@. Similarly most software these days runs on -- machines with 64-bit architectures. That means it's also probably safe -- for you to use @unsafeFrom \@Int64 \@Int@. -- -- All of the above also applies for @Word@, @Word32@, and @Word64@. -- ** Downsides -- | As the author of this library, I obviously think that everyone should -- use it because it's the greatest thing since sliced bread. But nothing is -- perfect, so what are some downsides to this library? -- -- - More specific type classes are often better. For example, @IsString s@ -- is more useful that @From String s@. The former says that the type @s@ -- is the same as a string literal, but the latter just says you can -- produce a value of type @s@ when given a string. -- -- - The @From@ type class works great for specific pairs of types, but can -- get confusing when it's polymorphic. For example if you have some -- function with a @From s t@ constraint, that doesn't really tell you -- anything about what it's doing. ) where import qualified Witch.Encoding import qualified Witch.From import Witch.Instances () import qualified Witch.Lift import qualified Witch.TryFrom import qualified Witch.TryFromException import qualified Witch.Utility