-- | Left, right, and full outer joins. -- -- "Opaleye.FunctionalJoin" provides a much nicer, Haskelly, interface -- to joins than this module, which sticks to the (horrible) standard -- \"make missing rows NULL\" interface that SQL provides. -- -- If you want inner joins, just use 'restrict' instead. -- -- The use of the 'D.Default' typeclass means that the compiler will -- have trouble inferring types. It is strongly recommended that you -- provide full type signatures when using the join functions. -- -- Example specialization: -- -- @ -- leftJoin :: Query (Column a, Column b) -- -> Query (Column c, Column (Nullable d)) -- -> (((Column a, Column b), (Column c, Column (Nullable d))) -> Column 'Opaleye.PGTypes.PGBool') -- -> Query ((Column a, Column b), (Column (Nullable c), Column (Nullable d))) -- @ {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE MultiParamTypeClasses #-} module Opaleye.Join where import qualified Opaleye.Internal.Unpackspec as U import qualified Opaleye.Internal.Join as J import qualified Opaleye.Internal.PrimQuery as PQ import Opaleye.QueryArr (Query) import Opaleye.Internal.Column (Column) import qualified Opaleye.PGTypes as T import qualified Data.Profunctor.Product.Default as D -- * Joins leftJoin :: (D.Default U.Unpackspec columnsL columnsL, D.Default U.Unpackspec columnsR columnsR, D.Default J.NullMaker columnsR nullableColumnsR) => Query columnsL -- ^ Left query -> Query columnsR -- ^ Right query -> ((columnsL, columnsR) -> Column T.PGBool) -- ^ Condition on which to join -> Query (columnsL, nullableColumnsR) -- ^ Left join leftJoin = leftJoinExplicit D.def D.def D.def rightJoin :: (D.Default U.Unpackspec columnsL columnsL, D.Default U.Unpackspec columnsR columnsR, D.Default J.NullMaker columnsL nullableColumnsL) => Query columnsL -- ^ Left query -> Query columnsR -- ^ Right query -> ((columnsL, columnsR) -> Column T.PGBool) -- ^ Condition on which to join -> Query (nullableColumnsL, columnsR) -- ^ Right join rightJoin = rightJoinExplicit D.def D.def D.def fullJoin :: (D.Default U.Unpackspec columnsL columnsL, D.Default U.Unpackspec columnsR columnsR, D.Default J.NullMaker columnsL nullableColumnsL, D.Default J.NullMaker columnsR nullableColumnsR) => Query columnsL -- ^ Left query -> Query columnsR -- ^ Right query -> ((columnsL, columnsR) -> Column T.PGBool) -- ^ Condition on which to join -> Query (nullableColumnsL, nullableColumnsR) -- ^ Full outer join fullJoin = fullJoinExplicit D.def D.def D.def D.def -- * Explicit versions leftJoinExplicit :: U.Unpackspec columnsL columnsL -> U.Unpackspec columnsR columnsR -> J.NullMaker columnsR nullableColumnsR -> Query columnsL -> Query columnsR -> ((columnsL, columnsR) -> Column T.PGBool) -> Query (columnsL, nullableColumnsR) leftJoinExplicit uA uB nullmaker = J.joinExplicit uA uB id (J.toNullable nullmaker) PQ.LeftJoin rightJoinExplicit :: U.Unpackspec columnsL columnsL -> U.Unpackspec columnsR columnsR -> J.NullMaker columnsL nullableColumnsL -> Query columnsL -> Query columnsR -> ((columnsL, columnsR) -> Column T.PGBool) -> Query (nullableColumnsL, columnsR) rightJoinExplicit uA uB nullmaker = J.joinExplicit uA uB (J.toNullable nullmaker) id PQ.RightJoin fullJoinExplicit :: U.Unpackspec columnsL columnsL -> U.Unpackspec columnsR columnsR -> J.NullMaker columnsL nullableColumnsL -> J.NullMaker columnsR nullableColumnsR -> Query columnsL -> Query columnsR -> ((columnsL, columnsR) -> Column T.PGBool) -> Query (nullableColumnsL, nullableColumnsR) fullJoinExplicit uA uB nullmakerA nullmakerB = J.joinExplicit uA uB (J.toNullable nullmakerA) (J.toNullable nullmakerB) PQ.FullJoin