module Opaleye.Internal.Aggregate where
import Control.Applicative (Applicative, pure, (<*>))
import qualified Data.Profunctor as P
import qualified Data.Profunctor.Product as PP
import qualified Opaleye.Internal.PackMap as PM
import qualified Opaleye.Internal.PrimQuery as PQ
import qualified Opaleye.Internal.Tag as T
import qualified Opaleye.Internal.Column as C
import qualified Opaleye.Internal.HaskellDB.PrimQuery as HPQ
newtype Aggregator a b = Aggregator
(PM.PackMap (Maybe HPQ.AggrOp, HPQ.PrimExpr) HPQ.PrimExpr
a b)
makeAggr' :: Maybe HPQ.AggrOp -> Aggregator (C.Column a) (C.Column b)
makeAggr' m = Aggregator (PM.PackMap
(\f (C.Column e) -> fmap C.Column (f (m, e))))
makeAggr :: HPQ.AggrOp -> Aggregator (C.Column a) (C.Column b)
makeAggr = makeAggr' . Just
runAggregator :: Applicative f => Aggregator a b
-> ((Maybe HPQ.AggrOp, HPQ.PrimExpr) -> f HPQ.PrimExpr) -> a -> f b
runAggregator (Aggregator a) = PM.traversePM a
aggregateU :: Aggregator a b
-> (a, PQ.PrimQuery, T.Tag) -> (b, PQ.PrimQuery, T.Tag)
aggregateU agg (c0, primQ, t0) = (c1, primQ', T.next t0)
where (c1, projPEs) =
PM.run (runAggregator agg (extractAggregateFields t0) c0)
primQ' = PQ.Aggregate projPEs primQ
extractAggregateFields :: T.Tag -> (Maybe HPQ.AggrOp, HPQ.PrimExpr)
-> PM.PM [(HPQ.Symbol, (Maybe HPQ.AggrOp, HPQ.PrimExpr))] HPQ.PrimExpr
extractAggregateFields = PM.extractAttr "result"
instance Functor (Aggregator a) where
fmap f (Aggregator g) = Aggregator (fmap f g)
instance Applicative (Aggregator a) where
pure = Aggregator . pure
Aggregator f <*> Aggregator x = Aggregator (f <*> x)
instance P.Profunctor Aggregator where
dimap f g (Aggregator q) = Aggregator (P.dimap f g q)
instance PP.ProductProfunctor Aggregator where
empty = PP.defaultEmpty
(***!) = PP.defaultProfunctorProduct
instance PP.SumProfunctor Aggregator where
Aggregator x1 +++! Aggregator x2 = Aggregator (x1 PP.+++! x2)