graphql-engine/server/src-lib/Hasura/LogicalModel/Metadata.hs

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{-# LANGUAGE DeriveAnyClass #-}
{-# LANGUAGE UndecidableInstances #-}
-- | Metadata representation of a logical model in the metadata,
-- as well as a parser and prettyprinter for the query code.
module Hasura.LogicalModel.Metadata
( LogicalModelName (..),
LogicalModelInfo (..),
LogicalModelArgumentName (..),
InterpolatedItem (..),
InterpolatedQuery (..),
parseInterpolatedQuery,
module Hasura.LogicalModel.Types,
)
where
import Autodocodec
import Autodocodec qualified as AC
import Data.Aeson
import Data.Bifunctor (first)
import Data.Text qualified as T
import Hasura.CustomReturnType (CustomReturnType)
import Hasura.LogicalModel.Types
import Hasura.Metadata.DTO.Utils (codecNamePrefix)
import Hasura.Prelude hiding (first)
import Hasura.RQL.Types.Backend
import Hasura.SQL.Backend
newtype RawQuery = RawQuery {getRawQuery :: Text}
deriving newtype (Eq, Ord, Show, FromJSON, ToJSON)
instance HasCodec RawQuery where
codec = AC.dimapCodec RawQuery getRawQuery codec
---------------------------------------
-- | A component of an interpolated query
data InterpolatedItem variable
= -- | normal text
IIText Text
| -- | a captured variable
IIVariable variable
deriving stock (Eq, Ord, Show, Functor, Foldable, Data, Generic, Traversable)
-- | Converting an interpolated query back to text.
-- Should roundtrip with the 'parseInterpolatedQuery'.
ppInterpolatedItem :: InterpolatedItem LogicalModelArgumentName -> Text
ppInterpolatedItem (IIText t) = t
ppInterpolatedItem (IIVariable v) = "{{" <> getLogicalModelArgumentName v <> "}}"
deriving instance (Hashable variable) => Hashable (InterpolatedItem variable)
deriving instance (NFData variable) => NFData (InterpolatedItem variable)
---------------------------------------
-- | A list of logical model components representing a single logical model,
-- separating the variables from the text.
newtype InterpolatedQuery variable = InterpolatedQuery
{ getInterpolatedQuery :: [InterpolatedItem variable]
}
deriving newtype (Eq, Ord, Show, Generic)
deriving stock (Data, Functor, Foldable, Traversable)
deriving newtype instance (Hashable variable) => Hashable (InterpolatedQuery variable)
deriving newtype instance (NFData variable) => NFData (InterpolatedQuery variable)
ppInterpolatedQuery :: InterpolatedQuery LogicalModelArgumentName -> Text
ppInterpolatedQuery (InterpolatedQuery parts) = foldMap ppInterpolatedItem parts
-- | We store the interpolated query as the user text and parse it back
-- when converting back to Haskell code.
instance HasCodec (InterpolatedQuery LogicalModelArgumentName) where
codec =
CommentCodec
("An interpolated query expressed in native code (SQL)")
$ bimapCodec
(first T.unpack . parseInterpolatedQuery)
ppInterpolatedQuery
textCodec
---------------------------------------
newtype LogicalModelArgumentName = LogicalModelArgumentName
{ getLogicalModelArgumentName :: Text
}
deriving newtype (Eq, Ord, Show, Hashable)
deriving stock (Generic)
instance HasCodec LogicalModelArgumentName where
codec = dimapCodec LogicalModelArgumentName getLogicalModelArgumentName codec
deriving newtype instance ToJSON LogicalModelArgumentName
deriving newtype instance FromJSON LogicalModelArgumentName
deriving newtype instance ToJSONKey LogicalModelArgumentName
deriving newtype instance FromJSONKey LogicalModelArgumentName
instance NFData LogicalModelArgumentName
---------------------------------------
-- | A representation of a logical model metadata info object.
data LogicalModelInfo (b :: BackendType) = LogicalModelInfo
{ lmiRootFieldName :: LogicalModelName,
lmiCode :: InterpolatedQuery LogicalModelArgumentName,
lmiReturns :: CustomReturnType b,
lmiArguments :: HashMap LogicalModelArgumentName (ScalarType b),
lmiDescription :: Maybe Text
}
deriving (Generic)
deriving instance Backend b => Eq (LogicalModelInfo b)
deriving instance Backend b => Show (LogicalModelInfo b)
instance Backend b => Hashable (LogicalModelInfo b)
instance Backend b => NFData (LogicalModelInfo b)
instance (Backend b) => HasCodec (LogicalModelInfo b) where
codec =
CommentCodec
("A query in expressed in native code (SQL) to add to the GraphQL schema with configuration.")
$ AC.object (codecNamePrefix @b <> "LogicalModelInfo")
$ LogicalModelInfo
<$> requiredField "root_field_name" fieldNameDoc
AC..= lmiRootFieldName
<*> requiredField "code" sqlDoc
AC..= lmiCode
<*> requiredField "returns" returnsDoc
AC..= lmiReturns
<*> optionalFieldWithDefault "arguments" mempty argumentDoc
AC..= lmiArguments
<*> optionalField "description" descriptionDoc
AC..= lmiDescription
where
fieldNameDoc = "Root field name for the logical model"
sqlDoc = "Native code expression (SQL) to run"
argumentDoc = "Free variables in the expression and their types"
returnsDoc = "Return type (table) of the expression"
descriptionDoc = "A description of the logical model which appears in the graphql schema"
deriving via
(Autodocodec (LogicalModelInfo b))
instance
(Backend b) => (FromJSON (LogicalModelInfo b))
deriving via
(Autodocodec (LogicalModelInfo b))
instance
(Backend b) => (ToJSON (LogicalModelInfo b))
-- | extract all of the `{{ variable }}` inside our query string
parseInterpolatedQuery ::
Text ->
Either Text (InterpolatedQuery LogicalModelArgumentName)
parseInterpolatedQuery =
fmap
( InterpolatedQuery
. mergeAdjacent
. trashEmpties
)
. consumeString
. T.unpack
where
trashEmpties = filter (/= IIText "")
mergeAdjacent = \case
(IIText a : IIText b : rest) ->
mergeAdjacent (IIText (a <> b) : rest)
(a : rest) -> a : mergeAdjacent rest
[] -> []
consumeString :: String -> Either Text [InterpolatedItem LogicalModelArgumentName]
consumeString str =
let (beforeCurly, fromCurly) = break (== '{') str
in case fromCurly of
('{' : '{' : rest) ->
(IIText (T.pack beforeCurly) :) <$> consumeVar rest
('{' : other) ->
(IIText (T.pack (beforeCurly <> "{")) :) <$> consumeString other
_other -> pure [IIText (T.pack beforeCurly)]
consumeVar :: String -> Either Text [InterpolatedItem LogicalModelArgumentName]
consumeVar str =
let (beforeCloseCurly, fromClosedCurly) = break (== '}') str
in case fromClosedCurly of
('}' : '}' : rest) ->
(IIVariable (LogicalModelArgumentName $ T.pack beforeCloseCurly) :) <$> consumeString rest
_ -> Left "Found '{{' without a matching closing '}}'"