relational-query-0.9.0.0: src/Database/Relational/Query/Monad/Trans/Ordering.hs
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
-- |
-- Module : Database.Relational.Query.Monad.Trans.Ordering
-- Copyright : 2013-2017 Kei Hibino
-- License : BSD3
--
-- Maintainer : ex8k.hibino@gmail.com
-- Stability : experimental
-- Portability : unknown
--
-- This module defines monad transformer which lift
-- from query into query with ordering.
module Database.Relational.Query.Monad.Trans.Ordering (
-- * Transformer into query with ordering
Orderings, orderings,
-- * API of query with ordering
orderBy, asc, desc,
-- * Result
extractOrderingTerms
) where
import Control.Monad.Trans.Class (MonadTrans (lift))
import Control.Monad.Trans.Writer (WriterT, runWriterT, tell)
import Control.Applicative (Applicative, pure, (<$>))
import Control.Arrow (second)
import Data.DList (DList, toList)
import Database.Relational.Query.Internal.BaseSQL
(Order(Asc, Desc), OrderColumn, OrderingTerm)
import Database.Relational.Query.Projection (Projection)
import qualified Database.Relational.Query.Projection as Projection
import Database.Relational.Query.Monad.Class
(MonadQualify (..), MonadRestrict(..), MonadQuery(..), MonadAggregate(..), MonadPartition(..))
-- | Type to accumulate ordering context.
-- Type 'c' is ordering term projection context type.
newtype Orderings c m a =
Orderings (WriterT (DList OrderingTerm) m a)
deriving (MonadTrans, Monad, Functor, Applicative)
-- | Lift to 'Orderings'.
orderings :: Monad m => m a -> Orderings c m a
orderings = lift
-- | 'MonadRestrict' with ordering.
instance MonadRestrict rc m => MonadRestrict rc (Orderings c m) where
restrict = orderings . restrict
-- | 'MonadQualify' with ordering.
instance MonadQualify q m => MonadQualify q (Orderings c m) where
liftQualify = orderings . liftQualify
-- | 'MonadQuery' with ordering.
instance MonadQuery m => MonadQuery (Orderings c m) where
setDuplication = orderings . setDuplication
restrictJoin = orderings . restrictJoin
query' = orderings . query'
queryMaybe' = orderings . queryMaybe'
-- | 'MonadAggregate' with ordering.
instance MonadAggregate m => MonadAggregate (Orderings c m) where
groupBy = orderings . groupBy
groupBy' = orderings . groupBy'
-- | 'MonadPartition' with ordering.
instance MonadPartition c m => MonadPartition c (Orderings c m) where
partitionBy = orderings . partitionBy
-- | Ordering term projection type interface.
class ProjectableOrdering p where
orderTerms :: p t -> [OrderColumn]
-- | 'Projection' is ordering term.
instance ProjectableOrdering (Projection c) where
orderTerms = Projection.columns
-- | Add ordering terms.
updateOrderBys :: (Monad m, ProjectableOrdering (Projection c))
=> Order -- ^ Order direction
-> Projection c t -- ^ Ordering terms to add
-> Orderings c m () -- ^ Result context with ordering
updateOrderBys order p = Orderings . mapM_ tell $ terms where
terms = curry pure order `map` orderTerms p
-- | Add ordering terms.
orderBy :: (Monad m, ProjectableOrdering (Projection c))
=> Projection c t -- ^ Ordering terms to add
-> Order -- ^ Order direction
-> Orderings c m () -- ^ Result context with ordering
orderBy = flip updateOrderBys
-- | Add ascendant ordering term.
asc :: (Monad m, ProjectableOrdering (Projection c))
=> Projection c t -- ^ Ordering terms to add
-> Orderings c m () -- ^ Result context with ordering
asc = updateOrderBys Asc
-- | Add descendant ordering term.
desc :: (Monad m, ProjectableOrdering (Projection c))
=> Projection c t -- ^ Ordering terms to add
-> Orderings c m () -- ^ Result context with ordering
desc = updateOrderBys Desc
-- | Run 'Orderings' to get 'OrderingTerms'
extractOrderingTerms :: (Monad m, Functor m) => Orderings c m a -> m (a, [OrderingTerm])
extractOrderingTerms (Orderings oc) = second toList <$> runWriterT oc