graphql-engine/server/src-lib/Hasura/Backends/MSSQL/DDL/BoolExp.hs

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-- | MSSQL DDL BoolExp
--
-- How to parse the boolean expressions and operations relevant for MSSQL.
module Hasura.Backends.MSSQL.DDL.BoolExp
( parseBoolExpOperations,
)
where
import Data.Aeson qualified as J
import Data.Aeson.Key qualified as K
import Data.Aeson.KeyMap qualified as KM
import Data.Text qualified as T
import Data.Text.Extended (dquote, toTxt, (<<>))
import Hasura.Backends.MSSQL.Types.Internal hiding (ColumnType)
import Hasura.Base.Error
import Hasura.Prelude
import Hasura.RQL.IR.BoolExp
import Hasura.RQL.Types.Column
import Hasura.RQL.Types.SchemaCache
import Hasura.SQL.Backend
import Hasura.SQL.Types
parseBoolExpOperations ::
forall m v.
(MonadError QErr m) => -- , TableCoreInfoRM 'MSSQL m)
ValueParser 'MSSQL m v ->
FieldInfoMap (FieldInfo 'MSSQL) ->
FieldInfoMap (FieldInfo 'MSSQL) ->
ColumnReference 'MSSQL ->
J.Value ->
m [OpExpG 'MSSQL v]
parseBoolExpOperations rhsParser _rootTableFieldInfoMap _fields columnRef value =
withPathK (toTxt columnRef) $ parseOperations (columnReferenceType columnRef) value
where
parseWithTy ty = rhsParser (CollectableTypeScalar ty)
parseOperations :: ColumnType 'MSSQL -> J.Value -> m [OpExpG 'MSSQL v]
parseOperations columnType = \case
J.Object o -> mapM (parseOperation columnType . first K.toText) $ KM.toList o
v -> pure . AEQ False <$> parseWithTy columnType v
parseOperation :: ColumnType 'MSSQL -> (Text, J.Value) -> m (OpExpG 'MSSQL v)
parseOperation columnType (opStr, val) = withPathK opStr $
case opStr of
"_eq" -> parseEq
"$eq" -> parseEq
"_neq" -> parseNeq
"$neq" -> parseNeq
"$in" -> parseIn
"_in" -> parseIn
"$nin" -> parseNin
"_nin" -> parseNin
"_gt" -> parseGt
"$gt" -> parseGt
"_lt" -> parseLt
"$lt" -> parseLt
"_gte" -> parseGte
"$gte" -> parseGte
"_lte" -> parseLte
"$lte" -> parseLte
"$like" -> parseLike
"_like" -> parseLike
"$nlike" -> parseNlike
"_nlike" -> parseNlike
"$is_null" -> parseIsNull
"_is_null" -> parseIsNull
"_st_contains" -> ABackendSpecific <$> parseGeometryOrGeographyOp ASTContains
"$st_contains" -> ABackendSpecific <$> parseGeometryOrGeographyOp ASTContains
"_st_equals" -> ABackendSpecific <$> parseGeometryOrGeographyOp ASTEquals
"$st_equals" -> ABackendSpecific <$> parseGeometryOrGeographyOp ASTEquals
"_st_intersects" -> ABackendSpecific <$> parseGeometryOrGeographyOp ASTIntersects
"$st_intersects" -> ABackendSpecific <$> parseGeometryOrGeographyOp ASTIntersects
"_st_overlaps" -> ABackendSpecific <$> parseGeometryOrGeographyOp ASTOverlaps
"$st_overlaps" -> ABackendSpecific <$> parseGeometryOrGeographyOp ASTOverlaps
"_st_within" -> ABackendSpecific <$> parseGeometryOrGeographyOp ASTWithin
"$st_within" -> ABackendSpecific <$> parseGeometryOrGeographyOp ASTWithin
"_st_crosses" -> ABackendSpecific <$> parseGeometryOp ASTCrosses
"$st_crosses" -> ABackendSpecific <$> parseGeometryOp ASTCrosses
"_st_touches" -> ABackendSpecific <$> parseGeometryOp ASTTouches
"$st_touches" -> ABackendSpecific <$> parseGeometryOp ASTTouches
x -> throw400 UnexpectedPayload $ "Unknown operator: " <> x
where
colTy = columnReferenceType columnRef
parseOne = parseWithTy columnType val
parseManyWithType ty = rhsParser (CollectableTypeArray ty) val
parseEq = AEQ False <$> parseOne
parseNeq = ANE False <$> parseOne
parseIn = AIN <$> parseManyWithType colTy
parseNin = ANIN <$> parseManyWithType colTy
parseGt = AGT <$> parseOne
parseLt = ALT <$> parseOne
parseGte = AGTE <$> parseOne
parseLte = ALTE <$> parseOne
parseLike = guardType stringTypes >> ALIKE <$> parseOne
parseNlike = guardType stringTypes >> ANLIKE <$> parseOne
parseIsNull = bool ANISNOTNULL ANISNULL <$> parseVal
parseGeometryOp f =
guardType [GeometryType] >> f <$> parseOneNoSess colTy val
parseGeometryOrGeographyOp f =
guardType geoTypes >> f <$> parseOneNoSess colTy val
parseOneNoSess ty = rhsParser (CollectableTypeScalar ty)
guardType validTys =
unless (isScalarColumnWhere (`elem` validTys) colTy) $
throwError $
buildMsg colTy validTys
buildMsg ty expTys =
err400 UnexpectedPayload $
" is of type "
<> ty <<> "; this operator works only on columns of type "
<> T.intercalate "/" (map dquote expTys)
parseVal :: (J.FromJSON a) => m a
parseVal = decodeValue val