mirror of
https://github.com/hasura/graphql-engine.git
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e0c0043e76
PR-URL: https://github.com/hasura/graphql-engine-mono/pull/9284 GitOrigin-RevId: 2f2cf2ad01900a54e4bdb970205ac0ef313c7e00
353 lines
12 KiB
Haskell
353 lines
12 KiB
Haskell
-- | Postgres SQL Value
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--
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-- Deals with Postgres scalar values, converting them to and from 'Text', and to
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-- JSON 'Value'.
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module Hasura.Backends.Postgres.SQL.Value
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( PGScalarValue (..),
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pgScalarValueToJson,
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withConstructorFn,
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parsePGValue,
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scientificToInteger,
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scientificToFloat,
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textToScalarValue,
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TxtEncodedVal (..),
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txtEncodedVal,
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binEncoder,
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txtEncoder,
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toPrepParam,
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withScalarTypeAnn,
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withTypeAnn,
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)
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where
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import Data.Aeson
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import Data.Aeson.Text qualified as AE
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import Data.Aeson.Types qualified as AT
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import Data.ByteString qualified as B
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import Data.Int
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import Data.Scientific
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import Data.Text qualified as T
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import Data.Text.Conversions qualified as TC
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import Data.Text.Encoding qualified as TE
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import Data.Text.Lazy qualified as TL
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import Data.Time
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import Data.UUID qualified as UUID
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import Database.PG.Query qualified as PG
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import Database.PG.Query.PTI qualified as PTI
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import Database.PostgreSQL.LibPQ qualified as PQ
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import Hasura.Backends.Postgres.SQL.DML qualified as S
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import Hasura.Backends.Postgres.SQL.Types
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import Hasura.Prelude
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import Hasura.SQL.GeoJSON
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import Hasura.SQL.Time
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import Hasura.SQL.Types
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import Hasura.SQL.Value (TxtEncodedVal (..))
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import PostgreSQL.Binary.Encoding qualified as PE
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newtype RasterWKB = RasterWKB {getRasterWKB :: TC.Base16 B.ByteString}
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deriving (Show, Eq)
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instance FromJSON RasterWKB where
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parseJSON = \case
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String t -> case TC.fromText t of
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Just v -> return $ RasterWKB v
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Nothing ->
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fail
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"invalid hexadecimal representation of raster well known binary format"
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_ -> fail "expecting String for raster"
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instance ToJSON RasterWKB where
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toJSON = toJSON . TC.toText . getRasterWKB
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newtype Ltree = Ltree Text
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deriving (Show, Eq)
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instance ToJSON Ltree where
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toJSON (Ltree t) = toJSON t
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instance FromJSON Ltree where
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parseJSON = \case
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String t ->
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if any T.null $ T.splitOn (T.pack ".") t
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then fail message
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else pure $ Ltree t
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_ -> fail message
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where
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message = "Expecting label path: a sequence of zero or more labels separated by dots, for example L1.L2.L3"
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-- @PGScalarValue@ represents any value that can be a column in a Postgres table
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data PGScalarValue
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= PGValInteger Int32
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| PGValSmallInt Int16
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| PGValBigInt Int64
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| PGValFloat Float
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| PGValDouble Double
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| PGValNumeric Scientific
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| PGValMoney Scientific
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| PGValBoolean Bool
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| PGValChar Char
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| PGValVarchar Text
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| PGValText Text
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| PGValCitext Text
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| PGValDate Day
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| PGValTimeStamp LocalTime
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| PGValTimeStampTZ UTCTime
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| PGValTimeTZ ZonedTimeOfDay
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| PGNull PGScalarType
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| PGValJSON PG.JSON
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| PGValJSONB PG.JSONB
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| PGValGeo GeometryWithCRS
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| PGValRaster RasterWKB
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| PGValUUID UUID.UUID
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| PGValLtree Ltree
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| PGValLquery Text
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| PGValLtxtquery Text
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| PGValUnknown Text
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| PGValArray [PGScalarValue]
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deriving (Show, Eq)
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pgScalarValueToJson :: PGScalarValue -> Value
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pgScalarValueToJson = \case
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PGValInteger i -> toJSON i
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PGValSmallInt i -> toJSON i
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PGValBigInt i -> toJSON i
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PGValFloat f -> toJSON f
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PGValDouble d -> toJSON d
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PGValNumeric sc -> toJSON sc
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PGValMoney m -> toJSON m
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PGValBoolean b -> toJSON b
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PGValChar t -> toJSON t
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PGValVarchar t -> toJSON t
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PGValText t -> toJSON t
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PGValCitext t -> toJSON t
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PGValDate d -> toJSON d
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PGValTimeStamp u -> String $ formatTimestamp u
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PGValTimeStampTZ u -> String $ formatTimestamp u
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PGValTimeTZ (ZonedTimeOfDay tod tz) ->
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toJSON (show tod ++ timeZoneOffsetString tz)
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PGNull _ -> Null
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PGValJSON (PG.JSON j) -> j
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PGValJSONB (PG.JSONB j) -> j
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PGValGeo o -> toJSON o
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PGValRaster r -> toJSON r
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PGValUUID u -> toJSON u
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PGValLtree t -> toJSON t
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PGValLquery t -> toJSON t
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PGValLtxtquery t -> toJSON t
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PGValUnknown t -> toJSON t
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PGValArray a -> toJSON (map pgScalarValueToJson a)
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textToScalarValue :: Maybe Text -> PGScalarValue
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textToScalarValue = maybe (PGNull PGText) PGValText
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withConstructorFn :: PGScalarType -> S.SQLExp -> S.SQLExp
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withConstructorFn ty v
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| isGeoType ty = S.SEFnApp "ST_GeomFromGeoJSON" [v] Nothing
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| ty == PGRaster = S.SEFnApp "ST_RastFromHexWKB" [v] Nothing
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| otherwise = v
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-- FIXME: shouldn't this also use 'withConstructorFn'?
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withScalarTypeAnn :: PGScalarType -> S.SQLExp -> S.SQLExp
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withScalarTypeAnn colTy v = S.SETyAnn v . S.mkTypeAnn $ CollectableTypeScalar colTy
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withTypeAnn :: CollectableType PGScalarType -> S.SQLExp -> S.SQLExp
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withTypeAnn ty expr = flip S.SETyAnn (S.mkTypeAnn ty)
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$ case ty of
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CollectableTypeScalar baseTy -> withConstructorFn baseTy expr
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CollectableTypeArray _ -> expr
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-- TODO: those two functions are useful outside of Postgres, and
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-- should be moved to a common place of the code. Perhaps the Prelude?
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scientificToInteger :: (Integral i, Bounded i) => Scientific -> AT.Parser i
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scientificToInteger num =
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toBoundedInteger num
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`onNothing` fail
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( "The value "
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++ show num
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++ " lies outside the "
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++ "bounds or is not an integer. Maybe it is a "
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++ "float, or is there integer overflow?"
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)
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scientificToFloat :: (RealFloat f) => Scientific -> AT.Parser f
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scientificToFloat num =
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toBoundedRealFloat num
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`onLeft` \_ ->
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fail
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( "The value "
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++ show num
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++ " lies outside the "
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++ "bounds. Is it overflowing the float bounds?"
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)
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parsePGValue :: PGScalarType -> Value -> AT.Parser PGScalarValue
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parsePGValue ty val = case (ty, val) of
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(_, Null) -> pure $ PGNull ty
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(PGUnknown _, String t) -> pure $ PGValUnknown t
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(PGRaster, _) -> parseTyped -- strictly parse raster value
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(PGLtree, _) -> parseTyped
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(_, String t) -> parseTyped <|> pure (PGValUnknown t)
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(_, _) -> parseTyped
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where
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parseBoundedInt :: forall i. (Integral i, Bounded i) => Value -> AT.Parser i
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parseBoundedInt = withScientific ("Integer expected for input type: " ++ show ty) scientificToInteger
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parseBoundedFloat :: forall a. (RealFloat a) => Value -> AT.Parser a
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parseBoundedFloat = withScientific ("Float expected for input type: " ++ show ty) scientificToFloat
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parseTyped = case ty of
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PGSmallInt -> PGValSmallInt <$> parseBoundedInt val
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PGInteger -> PGValInteger <$> parseBoundedInt val
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PGBigInt -> PGValBigInt <$> parseBoundedInt val
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PGSerial -> PGValInteger <$> parseBoundedInt val
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PGBigSerial -> PGValBigInt <$> parseBoundedInt val
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PGFloat -> PGValFloat <$> parseBoundedFloat val
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PGDouble -> PGValDouble <$> parseBoundedFloat val
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PGNumeric -> PGValNumeric <$> parseJSON val
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PGMoney -> PGValMoney <$> parseJSON val
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PGBoolean -> PGValBoolean <$> parseJSON val
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PGChar -> PGValChar <$> parseJSON val
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PGVarchar -> PGValVarchar <$> parseJSON val
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PGText -> PGValText <$> parseJSON val
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PGCitext -> PGValCitext <$> parseJSON val
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PGDate -> PGValDate <$> parseJSON val
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PGTimeStamp -> PGValTimeStamp <$> parseJSON val
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PGTimeStampTZ -> PGValTimeStampTZ <$> parseJSON val
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PGTimeTZ -> PGValTimeTZ <$> parseJSON val
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PGJSON -> PGValJSON . PG.JSON <$> parseJSON val
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PGJSONB -> PGValJSONB . PG.JSONB <$> parseJSON val
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PGGeometry -> PGValGeo <$> parseJSON val
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PGGeography -> PGValGeo <$> parseJSON val
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PGRaster -> PGValRaster <$> parseJSON val
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PGUUID -> PGValUUID <$> parseJSON val
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PGLtree -> PGValLtree <$> parseJSON val
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PGLquery -> PGValLquery <$> parseJSON val
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PGLtxtquery -> PGValLtxtquery <$> parseJSON val
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PGUnknown tyName ->
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fail $ "A string is expected for type: " ++ T.unpack tyName
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PGCompositeScalar tyName ->
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fail $ "A string is expected for type: " ++ T.unpack tyName
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PGEnumScalar tyName ->
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fail $ "A string is expected for type: " ++ T.unpack tyName
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PGArray s -> parseJSON val >>= fmap PGValArray . traverse (parsePGValue s)
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txtEncodedVal :: PGScalarValue -> TxtEncodedVal
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txtEncodedVal = \case
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PGValInteger i -> TELit $ tshow i
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PGValSmallInt i -> TELit $ tshow i
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PGValBigInt i -> TELit $ tshow i
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PGValFloat f -> TELit $ tshow f
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PGValDouble d -> TELit $ tshow d
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PGValNumeric sc -> TELit $ tshow sc
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-- PostgreSQL doesn't like scientific notation for money, so pass it
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-- with 2 decimal places.
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PGValMoney m -> TELit $ T.pack $ formatScientific Fixed (Just 2) m
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PGValBoolean b -> TELit $ bool "false" "true" b
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PGValChar t -> TELit $ T.singleton t
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PGValVarchar t -> TELit t
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PGValText t -> TELit t
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PGValCitext t -> TELit t
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PGValDate d -> TELit $ T.pack $ showGregorian d
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PGValTimeStamp u -> TELit $ formatTimestamp u
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PGValTimeStampTZ u -> TELit $ formatTimestamp u
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PGValTimeTZ (ZonedTimeOfDay tod tz) ->
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TELit $ T.pack (show tod ++ timeZoneOffsetString tz)
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PGNull _ ->
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TENull
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PGValJSON (PG.JSON j) ->
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TELit
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$ TL.toStrict
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$ AE.encodeToLazyText j
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PGValJSONB (PG.JSONB j) ->
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TELit
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$ TL.toStrict
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$ AE.encodeToLazyText j
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PGValGeo o ->
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TELit
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$ TL.toStrict
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$ AE.encodeToLazyText o
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PGValRaster r -> TELit $ TC.toText $ getRasterWKB r
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PGValUUID u -> TELit $ UUID.toText u
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PGValLtree (Ltree t) -> TELit t
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PGValLquery t -> TELit t
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PGValLtxtquery t -> TELit t
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PGValUnknown t -> TELit t
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PGValArray ts -> TELit $ buildArrayLiteral ts
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binEncoder :: PGScalarValue -> PG.PrepArg
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binEncoder = \case
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PGValInteger i -> PG.toPrepVal i
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PGValSmallInt i -> PG.toPrepVal i
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PGValBigInt i -> PG.toPrepVal i
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PGValFloat f -> PG.toPrepVal f
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PGValDouble d -> PG.toPrepVal d
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PGValNumeric sc -> PG.toPrepVal sc
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PGValMoney m -> PG.toPrepVal m
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PGValBoolean b -> PG.toPrepVal b
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PGValChar t -> PG.toPrepVal t
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PGValVarchar t -> PG.toPrepVal t
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PGValText t -> PG.toPrepVal t
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PGValCitext t -> PG.toPrepVal t
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PGValDate d -> PG.toPrepVal d
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PGValTimeStamp u -> PG.toPrepVal u
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PGValTimeStampTZ u -> PG.toPrepVal u
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PGValTimeTZ (ZonedTimeOfDay t z) -> PG.toPrepValHelper PTI.timetz PE.timetz_int (t, z)
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PGNull ty -> (pgTypeOid ty, Nothing)
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PGValJSON u -> PG.toPrepVal u
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PGValJSONB u -> PG.toPrepVal u
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PGValGeo o -> PG.toPrepVal $ TL.toStrict $ AE.encodeToLazyText o
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PGValRaster r -> PG.toPrepVal $ TC.toText $ getRasterWKB r
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PGValUUID u -> PG.toPrepVal u
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PGValLtree (Ltree t) -> PG.toPrepVal t
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PGValLquery t -> PG.toPrepVal t
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PGValLtxtquery t -> PG.toPrepVal t
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PGValUnknown t -> (PTI.auto, Just (TE.encodeUtf8 t, PQ.Text))
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PGValArray s -> (PTI.auto, Just (TE.encodeUtf8 $ buildArrayLiteral s, PQ.Text))
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formatTimestamp :: (FormatTime t) => t -> Text
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formatTimestamp = T.pack . formatTime defaultTimeLocale "%0Y-%m-%dT%T%QZ"
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txtEncoder :: PGScalarValue -> S.SQLExp
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txtEncoder colVal = case txtEncodedVal colVal of
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TENull -> S.SENull
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TELit t -> S.SELit t
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-- arrays are sufficiently complicated, e.g. in the case of empty and unknown element arrays,
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-- for us to default to text encoding in all cases, and defer to Postgres' handling of them
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--
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-- FIXME: this will fail if we ever introduce the box type as a @PGScalarValue@,
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-- which uses a different seperator https://www.postgresql.org/docs/current/arrays.html#ARRAYS-INPUT
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-- https://github.com/hasura/graphql-engine-mono/issues/4892
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buildArrayLiteral :: [PGScalarValue] -> Text
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buildArrayLiteral ts =
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T.concat ["{", T.intercalate "," (map (inner . encodeElement) ts), "}"]
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where
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-- present text elements as json strings
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escape = TL.toStrict . AE.encodeToLazyText
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encodeElement = \case
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PGValChar t -> TELit $ escape $ T.singleton t
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PGValVarchar t -> TELit $ escape t
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PGValText t -> TELit $ escape t
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PGValCitext t -> TELit $ escape t
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PGValLquery t -> TELit $ escape t
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PGValLtxtquery t -> TELit $ escape t
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PGValUnknown t -> TELit $ escape t
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other -> txtEncodedVal other
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inner = \case
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TENull -> "null"
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TELit t -> t
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{- Note [Type casting prepared params]
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Prepared values are passed to Postgres via text encoding. Explicit type cast for prepared params
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is needed to distinguish the column types. For example, the parameter for citext column type is
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generated as ($i)::citext where 'i' is parameter position (integer).
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Also see https://github.com/hasura/graphql-engine/issues/2818
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-}
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toPrepParam :: Int -> PGScalarType -> S.SQLExp
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toPrepParam i ty =
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-- See Note [Type casting prepared params] above
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withScalarTypeAnn ty . withConstructorFn ty $ S.SEPrep i
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