Copyright | (c) Roman Leshchinskiy 2009-2012 |
---|---|
License | BSD-style |
Maintainer | Roman Leshchinskiy <rl@cse.unsw.edu.au> |
Portability | non-portable |
Safe Haskell | None |
Language | Haskell2010 |
Reexports all primitive operations
Synopsis
- module Data.Primitive.Types
- module Data.Primitive.Array
- module Data.Primitive.ByteArray
- module Data.Primitive.Addr
- module Data.Primitive.SmallArray
- module Data.Primitive.UnliftedArray
- module Data.Primitive.PrimArray
- module Data.Primitive.MutVar
Re-exports
module Data.Primitive.Types
module Data.Primitive.Array
module Data.Primitive.ByteArray
module Data.Primitive.Addr
module Data.Primitive.SmallArray
module Data.Primitive.UnliftedArray
module Data.Primitive.PrimArray
module Data.Primitive.MutVar
Naming Conventions
For historical reasons, this library embraces the practice of suffixing the name of a function with the type it operates on. For example, three of the variants of the array indexing function are:
indexArray :: Array a -> Int -> a indexSmallArray :: SmallArray a -> Int -> a indexPrimArray :: Prim a => PrimArray a -> Int -> a
In a few places, where the language sounds more natural, the array type
is instead used as a prefix. For example, Data.Primitive.SmallArray
exports smallArrayFromList
, which would sound unnatural if it used
SmallArray
as a suffix instead.
This library provides several functions traversing, building, and filtering arrays. These functions are suffixed with an additional character to indicate their the nature of their effectfulness:
- No suffix: A non-effectful pass over the array.
-A
suffix: An effectful pass over the array, where the effect isApplicative
.-P
suffix: An effectful pass over the array, where the effect isPrimMonad
.
Additionally, an apostrophe can be used to indicate strictness in the elements.
The variants with an apostrophe are used in Data.Primitive.Array
but not
in Data.Primitive.PrimArray
since the array type it provides is always strict in the element.
For example, there are three variants of the function that filters elements
from a primitive array.
filterPrimArray :: (Prim a ) => (a -> Bool) -> PrimArray a -> PrimArray a filterPrimArrayA :: (Prim a, Applicative f) => (a -> f Bool) -> PrimArray a -> f (PrimArray a) filterPrimArrayP :: (Prim a, PrimMonad m) => (a -> m Bool) -> PrimArray a -> m (PrimArray a)
As long as the effectful context is a monad that is sufficiently affine
the behaviors of the Applicative
and PrimMonad
variants produce the same results
and differ only in their strictness. Monads that are sufficiently affine
include:
IO
andST
- Any combination of
MaybeT
,ExceptT
,StateT
andWriter
on top of another sufficiently affine monad.
There is one situation where the names deviate from effectful suffix convention
described above. Throughout the haskell ecosystem, the Applicative
variant of
map
is known as traverse
, not mapA
. Consequently, we adopt the following
naming convention for mapping:
mapPrimArray :: (Prim a, Prim b) => (a -> b) -> PrimArray a -> PrimArray b traversePrimArray :: (Applicative f, Prim a, Prim b) => (a -> f b) -> PrimArray a -> f (PrimArray b) traversePrimArrayP :: (PrimMonad m, Prim a, Prim b) => (a -> m b) -> PrimArray a -> m (PrimArray b)