module Hasql.Statement ( Statement (..), refineResult, -- * Recipes -- ** Insert many -- $insertMany -- ** IN and NOT IN -- $inAndNotIn ) where import Hasql.Decoders qualified as Decoders import Hasql.Decoders.All qualified as Decoders import Hasql.Encoders qualified as Encoders import Hasql.Prelude -- | -- Specification of a strictly single-statement query, which can be parameterized and prepared. -- It encapsulates the mapping of parameters and results in association with an SQL template. -- -- Following is an example of a declaration of a prepared statement with its associated codecs. -- -- @ -- selectSum :: 'Statement' (Int64, Int64) Int64 -- selectSum = -- 'Statement' sql encoder decoder True -- where -- sql = -- \"select ($1 + $2)\" -- encoder = -- ('fst' '>$<' Encoders.'Hasql.Encoders.param' (Encoders.'Hasql.Encoders.nonNullable' Encoders.'Hasql.Encoders.int8')) '<>' -- ('snd' '>$<' Encoders.'Hasql.Encoders.param' (Encoders.'Hasql.Encoders.nonNullable' Encoders.'Hasql.Encoders.int8')) -- decoder = -- Decoders.'Hasql.Decoders.singleRow' (Decoders.'Hasql.Decoders.column' (Decoders.'Hasql.Decoders.nonNullable' Decoders.'Hasql.Decoders.int8')) -- @ -- -- The statement above accepts a product of two parameters of type 'Int64' -- and produces a single result of type 'Int64'. data Statement params result = Statement -- | SQL template. -- -- Must be formatted according to the Postgres standard, -- with any non-ASCII characters of the template encoded using UTF-8. -- The parameters must be referred to using the positional notation, as in the following: -- @$1@, @$2@, @$3@ and etc. -- These references must be used in accordance with the order in which -- the value encoders are specified in the parameters encoder. ByteString -- | Parameters encoder. (Encoders.Params params) -- | Decoder of result. (Decoders.Result result) -- | Flag, determining whether it should be prepared. -- -- Set it to 'True' if your application has a limited amount of queries and doesn't generate the SQL dynamically. -- This will boost the performance by allowing Postgres to avoid reconstructing the execution plan each time the query gets executed. -- -- Note that if you're using proxying applications like @pgbouncer@, such tools may be incompatible with prepared statements. -- So do consult their docs or just set it to 'False' to stay on the safe side. -- It should be noted that starting from version @1.21.0@ @pgbouncer@ now does provide support for prepared statements. Bool instance Functor (Statement params) where {-# INLINE fmap #-} fmap :: forall a b. (a -> b) -> Statement params a -> Statement params b fmap = (a -> b) -> Statement params a -> Statement params b forall b c a. (b -> c) -> Statement a b -> Statement a c forall (p :: * -> * -> *) b c a. Profunctor p => (b -> c) -> p a b -> p a c rmap instance Profunctor Statement where {-# INLINE dimap #-} dimap :: forall a b c d. (a -> b) -> (c -> d) -> Statement b c -> Statement a d dimap a -> b f1 c -> d f2 (Statement ByteString template Params b encoder Result c decoder Bool preparable) = ByteString -> Params a -> Result d -> Bool -> Statement a d forall params result. ByteString -> Params params -> Result result -> Bool -> Statement params result Statement ByteString template ((a -> b) -> Params b -> Params a forall a' a. (a' -> a) -> Params a -> Params a' forall (f :: * -> *) a' a. Contravariant f => (a' -> a) -> f a -> f a' contramap a -> b f1 Params b encoder) ((c -> d) -> Result c -> Result d forall a b. (a -> b) -> Result a -> Result b forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b fmap c -> d f2 Result c decoder) Bool preparable -- | -- Refine the result of a statement, -- causing the running session to fail with the `UnexpectedResult` error in case of a refinement failure. -- -- This function is especially useful for refining the results of statements produced with -- <http://hackage.haskell.org/package/hasql-th the \"hasql-th\" library>. refineResult :: (a -> Either Text b) -> Statement params a -> Statement params b refineResult :: forall a b params. (a -> Either Text b) -> Statement params a -> Statement params b refineResult a -> Either Text b refiner (Statement ByteString template Params params encoder Result a decoder Bool preparable) = ByteString -> Params params -> Result b -> Bool -> Statement params b forall params result. ByteString -> Params params -> Result result -> Bool -> Statement params result Statement ByteString template Params params encoder ((a -> Either Text b) -> Result a -> Result b forall a b. (a -> Either Text b) -> Result a -> Result b Decoders.refineResult a -> Either Text b refiner Result a decoder) Bool preparable -- $insertMany -- -- Starting from PostgreSQL 9.4 there is an @unnest@ function which we can use in an analogous way -- to haskell's `zip` to pass in multiple arrays of values -- to be zipped into the rows to insert as in the following example: -- -- @ -- insertMultipleLocations :: 'Statement' (Vector (UUID, Double, Double)) () -- insertMultipleLocations = -- 'Statement' sql encoder decoder True -- where -- sql = -- "insert into location (id, x, y) select * from unnest ($1, $2, $3)" -- encoder = -- Data.Vector.'Data.Vector.unzip3' '>$<' -- Contravariant.Extras.contrazip3 -- (Encoders.'Encoders.param' $ Encoders.'Encoders.nonNullable' $ Encoders.'Encoders.foldableArray' $ Encoders.'Encoders.nonNullable' Encoders.'Encoders.uuid') -- (Encoders.'Encoders.param' $ Encoders.'Encoders.nonNullable' $ Encoders.'Encoders.foldableArray' $ Encoders.'Encoders.nonNullable' Encoders.'Encoders.float8') -- (Encoders.'Encoders.param' $ Encoders.'Encoders.nonNullable' $ Encoders.'Encoders.foldableArray' $ Encoders.'Encoders.nonNullable' Encoders.'Encoders.float8') -- decoder = -- Decoders.'Decoders.noResult' -- @ -- -- This approach is much more efficient than executing a single-row insert-statement multiple times. -- $inAndNotIn -- -- There is a common misconception that PostgreSQL supports array -- as the parameter for the @IN@ operator. -- However Postgres only supports a syntactical list of values with it, -- i.e., you have to specify each option as an individual parameter. -- E.g., @some_expression IN ($1, $2, $3)@. -- -- Fortunately, Postgres does provide the expected functionality for arrays with other operators: -- -- * Use @some_expression = ANY($1)@ instead of @some_expression IN ($1)@ -- * Use @some_expression <> ALL($1)@ instead of @some_expression NOT IN ($1)@ -- -- For details refer to -- <https://www.postgresql.org/docs/9.6/static/functions-comparisons.html#AEN20944 the PostgreSQL docs>.