module Hasura.Backends.MSSQL.DDL.BoolExp ( parseBoolExpOperations, ) where import Data.Aeson qualified as J import Data.HashMap.Strict qualified as Map import Data.Text qualified as T import Data.Text.Extended (dquote, toTxt, (<<>)) import Hasura.Backends.MSSQL.Types 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 -> TableName -> FieldInfoMap (FieldInfo 'MSSQL) -> ColumnReference 'MSSQL -> J.Value -> m [OpExpG 'MSSQL v] parseBoolExpOperations rhsParser _table _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) $ Map.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 "_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 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)