{-# LANGUAGE UndecidableInstances #-} {-# OPTIONS_GHC -fno-warn-orphans #-} module Hasura.Backends.Postgres.Instances.Schema ( ) where import Data.Aeson qualified as J import Data.Has import Data.HashMap.Strict qualified as Map import Data.HashMap.Strict.Extended qualified as M import Data.List.NonEmpty qualified as NE import Data.Parser.JSONPath import Data.Text qualified as T import Data.Text.Extended import Hasura.Backends.Postgres.SQL.DML as PG hiding (CountType, incOp) import Hasura.Backends.Postgres.SQL.Types as PG hiding (FunctionName, TableName) import Hasura.Backends.Postgres.SQL.Value as PG import Hasura.Backends.Postgres.Types.BoolExp import Hasura.Backends.Postgres.Types.Column import Hasura.Backends.Postgres.Types.Update as PGIR import Hasura.Base.Error import Hasura.GraphQL.Parser hiding (EnumValueInfo, field) import Hasura.GraphQL.Parser qualified as P import Hasura.GraphQL.Parser.Internal.Parser hiding (field) import Hasura.GraphQL.Schema.Backend ( BackendSchema, ComparisonExp, MonadBuildSchema, ) import Hasura.GraphQL.Schema.Backend qualified as BS import Hasura.GraphQL.Schema.BoolExp import Hasura.GraphQL.Schema.Build qualified as GSB import Hasura.GraphQL.Schema.Common import Hasura.GraphQL.Schema.Mutation qualified as GSB import Hasura.GraphQL.Schema.Select import Hasura.GraphQL.Schema.Update qualified as SU import Hasura.Prelude import Hasura.RQL.IR import Hasura.RQL.IR.Select qualified as IR import Hasura.RQL.Types import Hasura.SQL.Types import Language.GraphQL.Draft.Syntax qualified as G ---------------------------------------------------------------- -- BackendSchema instance -- | This class is an implementation detail of 'BackendSchema'. -- Some functions of 'BackendSchema' differ across different Postgres "kinds", -- or call to functions (such as those related to Relay) that have not been -- generalized to all kinds of Postgres and still explicitly work on Vanilla -- Postgres. This class allows each "kind" to specify its own specific -- implementation. All common code is directly part of `BackendSchema`. -- -- Note: Users shouldn't ever put this as a constraint. Use `BackendSchema -- ('Postgres pgKind)` instead. class PostgresSchema (pgKind :: PostgresKind) where pgkBuildTableRelayQueryFields :: BS.MonadBuildSchema ('Postgres pgKind) r m n => SourceName -> TableName ('Postgres pgKind) -> TableInfo ('Postgres pgKind) -> G.Name -> NESeq (ColumnInfo ('Postgres pgKind)) -> SelPermInfo ('Postgres pgKind) -> m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteSelect UnpreparedValue) (UnpreparedValue ('Postgres pgKind)))] pgkBuildFunctionRelayQueryFields :: BS.MonadBuildSchema ('Postgres pgKind) r m n => SourceName -> FunctionName ('Postgres pgKind) -> FunctionInfo ('Postgres pgKind) -> TableName ('Postgres pgKind) -> NESeq (ColumnInfo ('Postgres pgKind)) -> SelPermInfo ('Postgres pgKind) -> m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteSelect UnpreparedValue) (UnpreparedValue ('Postgres pgKind)))] pgkRelayExtension :: Maybe (XRelay ('Postgres pgKind)) pgkNode :: BS.MonadBuildSchema ('Postgres pgKind) r m n => m ( Parser 'Output n ( HashMap ( TableName ('Postgres pgKind) ) ( SourceName, SourceConfig ('Postgres pgKind), SelPermInfo ('Postgres pgKind), PrimaryKeyColumns ('Postgres pgKind), AnnotatedFields ('Postgres pgKind) ) ) ) instance PostgresSchema 'Vanilla where pgkBuildTableRelayQueryFields = buildTableRelayQueryFields pgkBuildFunctionRelayQueryFields = buildFunctionRelayQueryFields pgkRelayExtension = Just () pgkNode = nodePG instance PostgresSchema 'Citus where pgkBuildTableRelayQueryFields _ _ _ _ _ _ = pure [] pgkBuildFunctionRelayQueryFields _ _ _ _ _ _ = pure [] pgkRelayExtension = Nothing pgkNode = undefined -- postgres schema instance ( Backend ('Postgres pgKind), PostgresSchema pgKind ) => BackendSchema ('Postgres pgKind) where -- top level parsers buildTableQueryFields = GSB.buildTableQueryFields buildTableRelayQueryFields = pgkBuildTableRelayQueryFields buildTableInsertMutationFields = GSB.buildTableInsertMutationFields buildTableUpdateMutationFields = GSB.buildTableUpdateMutationFields (\ti updP -> fmap BackendUpdate <$> updateOperators ti updP) -- TODO: https://github.com/hasura/graphql-engine-mono/issues/2955 buildTableDeleteMutationFields = GSB.buildTableDeleteMutationFields buildFunctionQueryFields = GSB.buildFunctionQueryFields buildFunctionRelayQueryFields = pgkBuildFunctionRelayQueryFields buildFunctionMutationFields = GSB.buildFunctionMutationFields -- table components tableArguments = defaultTableArgs mkRelationshipParser = GSB.mkDefaultRelationshipParser () -- backend extensions relayExtension = pgkRelayExtension @pgKind nodesAggExtension = Just () -- indivdual components columnParser = columnParser conflictObject = GSB.defaultConflictObject () jsonPathArg = jsonPathArg orderByOperators = orderByOperators comparisonExps = comparisonExps mkCountType = mkCountType aggregateOrderByCountType = PG.PGInteger computedField = computedFieldPG node = pgkNode -- SQL literals columnDefaultValue = const PG.columnDefaultValue -- Extra insert data getExtraInsertData = const () ---------------------------------------------------------------- -- Top level parsers buildTableRelayQueryFields :: forall pgKind m n r. MonadBuildSchema ('Postgres pgKind) r m n => SourceName -> TableName ('Postgres pgKind) -> TableInfo ('Postgres pgKind) -> G.Name -> NESeq (ColumnInfo ('Postgres pgKind)) -> SelPermInfo ('Postgres pgKind) -> m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteSelect UnpreparedValue) (UnpreparedValue ('Postgres pgKind)))] buildTableRelayQueryFields sourceName tableName tableInfo gqlName pkeyColumns selPerms = do let fieldDesc = Just $ G.Description $ "fetch data from the table: " <>> tableName fieldName <- mkRootFieldName $ gqlName <> $$(G.litName "_connection") fmap afold $ optionalFieldParser (QDBConnection) $ selectTableConnection sourceName tableInfo fieldName fieldDesc pkeyColumns selPerms buildFunctionRelayQueryFields :: forall pgKind m n r. MonadBuildSchema ('Postgres pgKind) r m n => SourceName -> FunctionName ('Postgres pgKind) -> FunctionInfo ('Postgres pgKind) -> TableName ('Postgres pgKind) -> NESeq (ColumnInfo ('Postgres pgKind)) -> SelPermInfo ('Postgres pgKind) -> m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteSelect UnpreparedValue) (UnpreparedValue ('Postgres pgKind)))] buildFunctionRelayQueryFields sourceName functionName functionInfo tableName pkeyColumns selPerms = do let fieldDesc = Just $ G.Description $ "execute function " <> functionName <<> " which returns " <>> tableName fmap afold $ optionalFieldParser (QDBConnection) $ selectFunctionConnection sourceName functionInfo fieldDesc pkeyColumns selPerms ---------------------------------------------------------------- -- Individual components columnParser :: (MonadSchema n m, MonadError QErr m, MonadReader r m, Has P.MkTypename r) => ColumnType ('Postgres pgKind) -> G.Nullability -> m (Parser 'Both n (ValueWithOrigin (ColumnValue ('Postgres pgKind)))) columnParser columnType (G.Nullability isNullable) = -- TODO(PDV): It might be worth memoizing this function even though it isn’t -- recursive simply for performance reasons, since it’s likely to be hammered -- during schema generation. Need to profile to see whether or not it’s a win. peelWithOrigin . fmap (ColumnValue columnType) <$> case columnType of ColumnScalar scalarType -> possiblyNullable scalarType <$> do -- We convert the value to JSON and use the FromJSON instance. This avoids -- having two separate ways of parsing a value in the codebase, which -- could lead to inconsistencies. -- -- The mapping from postgres type to GraphQL scalar name is done by -- 'mkScalarTypeName'. This is confusing, and we might want to fix it -- later, as we will parse values differently here than how they'd be -- parsed in other places using the same scalar name; for instance, we -- will accept strings for postgres columns of type "Integer", despite the -- fact that they will be represented as GraphQL ints, which otherwise do -- not accept strings. -- -- TODO: introduce new dedicated scalars for Postgres column types. name <- mkScalarTypeName scalarType let schemaType = P.NonNullable $ P.TNamed $ P.mkDefinition name Nothing P.TIScalar pure $ Parser { pType = schemaType, pParser = valueToJSON (P.toGraphQLType schemaType) >=> \case J.Null -> parseError $ "unexpected null value for type " <>> name value -> runAesonParser (parsePGValue scalarType) value `onLeft` (parseErrorWith ParseFailed . qeError) } ColumnEnumReference (EnumReference tableName enumValues) -> case nonEmpty (Map.toList enumValues) of Just enumValuesList -> do name <- qualifiedObjectToName tableName <&> (<> $$(G.litName "_enum")) >>= P.mkTypename pure $ possiblyNullable PGText $ P.enum name Nothing (mkEnumValue <$> enumValuesList) Nothing -> throw400 ValidationFailed "empty enum values" where possiblyNullable scalarType | isNullable = fmap (fromMaybe $ PGNull scalarType) . P.nullable | otherwise = id mkEnumValue :: (EnumValue, EnumValueInfo) -> (P.Definition P.EnumValueInfo, PGScalarValue) mkEnumValue (EnumValue value, EnumValueInfo description) = ( P.mkDefinition value (G.Description <$> description) P.EnumValueInfo, PGValText $ G.unName value ) jsonPathArg :: MonadParse n => ColumnType ('Postgres pgKind) -> InputFieldsParser n (Maybe (IR.ColumnOp ('Postgres pgKind))) jsonPathArg columnType | isScalarColumnWhere PG.isJSONType columnType = P.fieldOptional fieldName description P.string `P.bindFields` fmap join . traverse toColExp | otherwise = pure Nothing where fieldName = $$(G.litName "path") description = Just "JSON select path" toColExp textValue = case parseJSONPath textValue of Left err -> parseError $ T.pack $ "parse json path error: " ++ err Right [] -> pure Nothing Right jPaths -> pure $ Just $ IR.ColumnOp PG.jsonbPathOp $ PG.SEArray $ map elToColExp jPaths elToColExp (Key k) = PG.SELit k elToColExp (Index i) = PG.SELit $ tshow i orderByOperators :: NonEmpty (Definition P.EnumValueInfo, (BasicOrderType ('Postgres pgKind), NullsOrderType ('Postgres pgKind))) orderByOperators = NE.fromList [ ( define $$(G.litName "asc") "in ascending order, nulls last", (PG.OTAsc, PG.NLast) ), ( define $$(G.litName "asc_nulls_first") "in ascending order, nulls first", (PG.OTAsc, PG.NFirst) ), ( define $$(G.litName "asc_nulls_last") "in ascending order, nulls last", (PG.OTAsc, PG.NLast) ), ( define $$(G.litName "desc") "in descending order, nulls first", (PG.OTDesc, PG.NFirst) ), ( define $$(G.litName "desc_nulls_first") "in descending order, nulls first", (PG.OTDesc, PG.NFirst) ), ( define $$(G.litName "desc_nulls_last") "in descending order, nulls last", (PG.OTDesc, PG.NLast) ) ] where define name desc = P.mkDefinition name (Just desc) P.EnumValueInfo comparisonExps :: forall pgKind m n r. ( BackendSchema ('Postgres pgKind), MonadSchema n m, MonadError QErr m, MonadReader r m, Has QueryContext r, Has MkTypename r ) => ColumnType ('Postgres pgKind) -> m (Parser 'Input n [ComparisonExp ('Postgres pgKind)]) comparisonExps = P.memoize 'comparisonExps \columnType -> do -- see Note [Columns in comparison expression are never nullable] collapseIfNull <- asks $ qcDangerousBooleanCollapse . getter -- parsers used for comparison arguments geogInputParser <- geographyWithinDistanceInput geomInputParser <- geometryWithinDistanceInput ignInputParser <- intersectsGeomNbandInput ingInputParser <- intersectsNbandGeomInput typedParser <- columnParser columnType (G.Nullability False) nullableTextParser <- columnParser (ColumnScalar PGText) (G.Nullability True) textParser <- columnParser (ColumnScalar PGText) (G.Nullability False) -- `lquery` represents a regular-expression-like pattern for matching `ltree` values. lqueryParser <- columnParser (ColumnScalar PGLquery) (G.Nullability False) -- `ltxtquery` represents a full-text-search-like pattern for matching `ltree` values. ltxtqueryParser <- columnParser (ColumnScalar PGLtxtquery) (G.Nullability False) maybeCastParser <- castExp columnType let name = P.getName typedParser <> $$(G.litName "_comparison_exp") desc = G.Description $ "Boolean expression to compare columns of type " <> P.getName typedParser <<> ". All fields are combined with logical 'AND'." textListParser = fmap openValueOrigin <$> P.list textParser columnListParser = fmap openValueOrigin <$> P.list typedParser pure $ P.object name (Just desc) $ fmap catMaybes $ sequenceA $ concat [ flip (maybe []) maybeCastParser $ \castParser -> [ P.fieldOptional $$(G.litName "_cast") Nothing (ACast <$> castParser) ], -- Common ops for all types equalityOperators collapseIfNull (mkParameter <$> typedParser) (mkListLiteral columnType <$> columnListParser), -- Comparison ops for non Raster types guard (isScalarColumnWhere (/= PGRaster) columnType) *> comparisonOperators collapseIfNull (mkParameter <$> typedParser), -- Ops for Raster types guard (isScalarColumnWhere (== PGRaster) columnType) *> [ mkBoolOperator collapseIfNull $$(G.litName "_st_intersects_rast") Nothing (ABackendSpecific . ASTIntersectsRast . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_st_intersects_nband_geom") Nothing (ABackendSpecific . ASTIntersectsNbandGeom <$> ingInputParser), mkBoolOperator collapseIfNull $$(G.litName "_st_intersects_geom_nband") Nothing (ABackendSpecific . ASTIntersectsGeomNband <$> ignInputParser) ], -- Ops for String like types guard (isScalarColumnWhere isStringType columnType) *> [ mkBoolOperator collapseIfNull $$(G.litName "_like") (Just "does the column match the given pattern") (ALIKE . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_nlike") (Just "does the column NOT match the given pattern") (ANLIKE . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_ilike") (Just "does the column match the given case-insensitive pattern") (ABackendSpecific . AILIKE . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_nilike") (Just "does the column NOT match the given case-insensitive pattern") (ABackendSpecific . ANILIKE . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_similar") (Just "does the column match the given SQL regular expression") (ABackendSpecific . ASIMILAR . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_nsimilar") (Just "does the column NOT match the given SQL regular expression") (ABackendSpecific . ANSIMILAR . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_regex") (Just "does the column match the given POSIX regular expression, case sensitive") (ABackendSpecific . AREGEX . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_iregex") (Just "does the column match the given POSIX regular expression, case insensitive") (ABackendSpecific . AIREGEX . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_nregex") (Just "does the column NOT match the given POSIX regular expression, case sensitive") (ABackendSpecific . ANREGEX . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_niregex") (Just "does the column NOT match the given POSIX regular expression, case insensitive") (ABackendSpecific . ANIREGEX . mkParameter <$> typedParser) ], -- Ops for JSONB type guard (isScalarColumnWhere (== PGJSONB) columnType) *> [ mkBoolOperator collapseIfNull $$(G.litName "_contains") (Just "does the column contain the given json value at the top level") (ABackendSpecific . AContains . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_contained_in") (Just "is the column contained in the given json value") (ABackendSpecific . AContainedIn . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_has_key") (Just "does the string exist as a top-level key in the column") (ABackendSpecific . AHasKey . mkParameter <$> nullableTextParser), mkBoolOperator collapseIfNull $$(G.litName "_has_keys_any") (Just "do any of these strings exist as top-level keys in the column") (ABackendSpecific . AHasKeysAny . mkListLiteral (ColumnScalar PGText) <$> textListParser), mkBoolOperator collapseIfNull $$(G.litName "_has_keys_all") (Just "do all of these strings exist as top-level keys in the column") (ABackendSpecific . AHasKeysAll . mkListLiteral (ColumnScalar PGText) <$> textListParser) ], -- Ops for Geography type guard (isScalarColumnWhere (== PGGeography) columnType) *> [ mkBoolOperator collapseIfNull $$(G.litName "_st_intersects") (Just "does the column spatially intersect the given geography value") (ABackendSpecific . ASTIntersects . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_st_d_within") (Just "is the column within a given distance from the given geography value") (ABackendSpecific . ASTDWithinGeog <$> geogInputParser) ], -- Ops for Geometry type guard (isScalarColumnWhere (== PGGeometry) columnType) *> [ mkBoolOperator collapseIfNull $$(G.litName "_st_contains") (Just "does the column contain the given geometry value") (ABackendSpecific . ASTContains . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_st_crosses") (Just "does the column cross the given geometry value") (ABackendSpecific . ASTCrosses . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_st_equals") (Just "is the column equal to given geometry value (directionality is ignored)") (ABackendSpecific . ASTEquals . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_st_overlaps") (Just "does the column 'spatially overlap' (intersect but not completely contain) the given geometry value") (ABackendSpecific . ASTOverlaps . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_st_touches") (Just "does the column have atleast one point in common with the given geometry value") (ABackendSpecific . ASTTouches . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_st_within") (Just "is the column contained in the given geometry value") (ABackendSpecific . ASTWithin . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_st_intersects") (Just "does the column spatially intersect the given geometry value") (ABackendSpecific . ASTIntersects . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_st_3d_intersects") (Just "does the column spatially intersect the given geometry value in 3D") (ABackendSpecific . AST3DIntersects . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_st_d_within") (Just "is the column within a given distance from the given geometry value") (ABackendSpecific . ASTDWithinGeom <$> geomInputParser), mkBoolOperator collapseIfNull $$(G.litName "_st_3d_d_within") (Just "is the column within a given 3D distance from the given geometry value") (ABackendSpecific . AST3DDWithinGeom <$> geomInputParser) ], -- Ops for Ltree type guard (isScalarColumnWhere (== PGLtree) columnType) *> [ mkBoolOperator collapseIfNull $$(G.litName "_ancestor") (Just "is the left argument an ancestor of right (or equal)?") (ABackendSpecific . AAncestor . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_ancestor_any") (Just "does array contain an ancestor of `ltree`?") (ABackendSpecific . AAncestorAny . mkListLiteral columnType <$> columnListParser), mkBoolOperator collapseIfNull $$(G.litName "_descendant") (Just "is the left argument a descendant of right (or equal)?") (ABackendSpecific . ADescendant . mkParameter <$> typedParser), mkBoolOperator collapseIfNull $$(G.litName "_descendant_any") (Just "does array contain a descendant of `ltree`?") (ABackendSpecific . ADescendantAny . mkListLiteral columnType <$> columnListParser), mkBoolOperator collapseIfNull $$(G.litName "_matches") (Just "does `ltree` match `lquery`?") (ABackendSpecific . AMatches . mkParameter <$> lqueryParser), mkBoolOperator collapseIfNull $$(G.litName "_matches_any") (Just "does `ltree` match any `lquery` in array?") (ABackendSpecific . AMatchesAny . mkListLiteral (ColumnScalar PGLquery) <$> textListParser), mkBoolOperator collapseIfNull $$(G.litName "_matches_fulltext") (Just "does `ltree` match `ltxtquery`?") (ABackendSpecific . AMatchesFulltext . mkParameter <$> ltxtqueryParser) ] ] where mkListLiteral :: ColumnType ('Postgres pgKind) -> [ColumnValue ('Postgres pgKind)] -> UnpreparedValue ('Postgres pgKind) mkListLiteral columnType columnValues = P.UVLiteral $ SETyAnn (SEArray $ txtEncoder . cvValue <$> columnValues) (mkTypeAnn $ CollectableTypeArray $ unsafePGColumnToBackend columnType) castExp :: ColumnType ('Postgres pgKind) -> m (Maybe (Parser 'Input n (CastExp ('Postgres pgKind) (UnpreparedValue ('Postgres pgKind))))) castExp sourceType = do let maybeScalars = case sourceType of ColumnScalar PGGeography -> Just (PGGeography, PGGeometry) ColumnScalar PGGeometry -> Just (PGGeometry, PGGeography) _ -> Nothing forM maybeScalars $ \(sourceScalar, targetScalar) -> do sourceName <- mkScalarTypeName sourceScalar <&> (<> $$(G.litName "_cast_exp")) targetName <- mkScalarTypeName targetScalar targetOpExps <- comparisonExps $ ColumnScalar targetScalar let field = P.fieldOptional targetName Nothing $ (targetScalar,) <$> targetOpExps pure $ P.object sourceName Nothing $ M.fromList . maybeToList <$> field geographyWithinDistanceInput :: forall pgKind m n r. (MonadSchema n m, MonadError QErr m, MonadReader r m, Has MkTypename r) => m (Parser 'Input n (DWithinGeogOp (UnpreparedValue ('Postgres pgKind)))) geographyWithinDistanceInput = do geographyParser <- columnParser (ColumnScalar PGGeography) (G.Nullability False) -- FIXME -- It doesn't make sense for this value to be nullable; it only is for -- backwards compatibility; if an explicit Null value is given, it will be -- forwarded to the underlying SQL function, that in turns treat a null value -- as an error. We can fix this by rejecting explicit null values, by marking -- this field non-nullable in a future release. booleanParser <- columnParser (ColumnScalar PGBoolean) (G.Nullability True) floatParser <- columnParser (ColumnScalar PGFloat) (G.Nullability False) pure $ P.object $$(G.litName "st_d_within_geography_input") Nothing $ DWithinGeogOp <$> (mkParameter <$> P.field $$(G.litName "distance") Nothing floatParser) <*> (mkParameter <$> P.field $$(G.litName "from") Nothing geographyParser) <*> (mkParameter <$> P.fieldWithDefault $$(G.litName "use_spheroid") Nothing (G.VBoolean True) booleanParser) geometryWithinDistanceInput :: forall pgKind m n r. (MonadSchema n m, MonadError QErr m, MonadReader r m, Has MkTypename r) => m (Parser 'Input n (DWithinGeomOp (UnpreparedValue ('Postgres pgKind)))) geometryWithinDistanceInput = do geometryParser <- columnParser (ColumnScalar PGGeometry) (G.Nullability False) floatParser <- columnParser (ColumnScalar PGFloat) (G.Nullability False) pure $ P.object $$(G.litName "st_d_within_input") Nothing $ DWithinGeomOp <$> (mkParameter <$> P.field $$(G.litName "distance") Nothing floatParser) <*> (mkParameter <$> P.field $$(G.litName "from") Nothing geometryParser) intersectsNbandGeomInput :: forall pgKind m n r. (MonadSchema n m, MonadError QErr m, MonadReader r m, Has MkTypename r) => m (Parser 'Input n (STIntersectsNbandGeommin (UnpreparedValue ('Postgres pgKind)))) intersectsNbandGeomInput = do geometryParser <- columnParser (ColumnScalar PGGeometry) (G.Nullability False) integerParser <- columnParser (ColumnScalar PGInteger) (G.Nullability False) pure $ P.object $$(G.litName "st_intersects_nband_geom_input") Nothing $ STIntersectsNbandGeommin <$> (mkParameter <$> P.field $$(G.litName "nband") Nothing integerParser) <*> (mkParameter <$> P.field $$(G.litName "geommin") Nothing geometryParser) intersectsGeomNbandInput :: forall pgKind m n r. (MonadSchema n m, MonadError QErr m, MonadReader r m, Has MkTypename r) => m (Parser 'Input n (STIntersectsGeomminNband (UnpreparedValue ('Postgres pgKind)))) intersectsGeomNbandInput = do geometryParser <- columnParser (ColumnScalar PGGeometry) (G.Nullability False) integerParser <- columnParser (ColumnScalar PGInteger) (G.Nullability False) pure $ P.object $$(G.litName "st_intersects_geom_nband_input") Nothing $ STIntersectsGeomminNband <$> (mkParameter <$> P.field $$(G.litName "geommin") Nothing geometryParser) <*> (fmap mkParameter <$> P.fieldOptional $$(G.litName "nband") Nothing integerParser) mkCountType :: Maybe Bool -> Maybe [Column ('Postgres pgKind)] -> CountType ('Postgres pgKind) mkCountType _ Nothing = PG.CTStar mkCountType (Just True) (Just cols) = PG.CTDistinct cols mkCountType _ (Just cols) = PG.CTSimple cols -- | Update operator that prepends a value to a column containing jsonb arrays. -- -- Note: Currently this is Postgres specific because json columns have not been ported -- to other backends yet. prependOp :: forall pgKind m n r. ( BackendSchema ('Postgres pgKind), MonadReader r m, MonadError QErr m, MonadSchema n m, Has MkTypename r ) => SU.UpdateOperator ('Postgres pgKind) m n (UnpreparedValue ('Postgres pgKind)) prependOp = SU.UpdateOperator {..} where updateOperatorApplicableColumn = (isScalarColumnWhere (== PGJSONB) . pgiType) updateOperatorParser tableGQLName tableName columns = do let typedParser columnInfo = fmap P.mkParameter <$> BS.columnParser (pgiType columnInfo) (G.Nullability $ pgiIsNullable columnInfo) desc = "prepend existing jsonb value of filtered columns with new jsonb value" SU.updateOperator tableGQLName $$(G.litName "_prepend") typedParser columns desc desc -- | Update operator that appends a value to a column containing jsonb arrays. -- -- Note: Currently this is Postgres specific because json columns have not been ported -- to other backends yet. appendOp :: forall pgKind m n r. ( BackendSchema ('Postgres pgKind), MonadReader r m, MonadError QErr m, MonadSchema n m, Has MkTypename r ) => SU.UpdateOperator ('Postgres pgKind) m n (UnpreparedValue ('Postgres pgKind)) appendOp = SU.UpdateOperator {..} where updateOperatorApplicableColumn = (isScalarColumnWhere (== PGJSONB) . pgiType) updateOperatorParser tableGQLName tableName columns = do let typedParser columnInfo = fmap P.mkParameter <$> BS.columnParser (pgiType columnInfo) (G.Nullability $ pgiIsNullable columnInfo) desc = "append existing jsonb value of filtered columns with new jsonb value" SU.updateOperator tableGQLName $$(G.litName "_append") typedParser columns desc desc -- | Update operator that deletes a value at a specified key from a column -- containing jsonb objects. -- -- Note: Currently this is Postgres specific because json columns have not been ported -- to other backends yet. deleteKeyOp :: forall pgKind m n r. ( BackendSchema ('Postgres pgKind), MonadReader r m, MonadError QErr m, MonadSchema n m, Has MkTypename r ) => SU.UpdateOperator ('Postgres pgKind) m n (UnpreparedValue ('Postgres pgKind)) deleteKeyOp = SU.UpdateOperator {..} where updateOperatorApplicableColumn = (isScalarColumnWhere (== PGJSONB) . pgiType) updateOperatorParser tableGQLName tableName columns = do let nullableTextParser _ = fmap P.mkParameter <$> columnParser (ColumnScalar PGText) (G.Nullability True) desc = "delete key/value pair or string element. key/value pairs are matched based on their key value" SU.updateOperator tableGQLName $$(G.litName "_delete_key") nullableTextParser columns desc desc -- | Update operator that deletes a value at a specific index from a column -- containing jsonb arrays. -- -- Note: Currently this is Postgres specific because json columns have not been ported -- to other backends yet. deleteElemOp :: forall pgKind m n r. ( BackendSchema ('Postgres pgKind), MonadReader r m, MonadError QErr m, MonadSchema n m, Has MkTypename r ) => SU.UpdateOperator ('Postgres pgKind) m n (UnpreparedValue ('Postgres pgKind)) deleteElemOp = SU.UpdateOperator {..} where updateOperatorApplicableColumn = (isScalarColumnWhere (== PGJSONB) . pgiType) updateOperatorParser tableGQLName tableName columns = do let nonNullableIntParser _ = fmap P.mkParameter <$> columnParser (ColumnScalar PGInteger) (G.Nullability False) desc = "delete the array element with specified index (negative integers count from the end). " <> "throws an error if top level container is not an array" SU.updateOperator tableGQLName $$(G.litName "_delete_elem") nonNullableIntParser columns desc desc -- | Update operator that deletes a field at a certan path from a column -- containing jsonb objects. -- -- Note: Currently this is Postgres specific because json columns have not been ported -- to other backends yet. deleteAtPathOp :: forall pgKind m n r. ( BackendSchema ('Postgres pgKind), MonadReader r m, MonadError QErr m, MonadSchema n m, Has MkTypename r ) => SU.UpdateOperator ('Postgres pgKind) m n [UnpreparedValue ('Postgres pgKind)] deleteAtPathOp = SU.UpdateOperator {..} where updateOperatorApplicableColumn = (isScalarColumnWhere (== PGJSONB) . pgiType) updateOperatorParser tableGQLName tableName columns = do let nonNullableTextListParser _ = P.list . fmap (P.mkParameter) <$> columnParser (ColumnScalar PGText) (G.Nullability False) desc = "delete the field or element with specified path (for JSON arrays, negative integers count from the end)" SU.updateOperator tableGQLName $$(G.litName "_delete_at_path") nonNullableTextListParser columns desc desc -- | Various update operators updateOperators :: forall pgKind m n r. ( MonadParse n, MonadReader r m, Has MkTypename r, MonadError QErr m, MonadSchema n m, BackendSchema ('Postgres pgKind) ) => TableInfo ('Postgres pgKind) -> UpdPermInfo ('Postgres pgKind) -> m (InputFieldsParser n (HashMap (Column ('Postgres pgKind)) (UpdateOpExpression (UnpreparedValue ('Postgres pgKind))))) updateOperators tableInfo updatePermissions = SU.buildUpdateOperators (PGIR.UpdateSet <$> SU.presetColumns updatePermissions) [ PGIR.UpdateSet <$> SU.setOp, PGIR.UpdateInc <$> SU.incOp, PGIR.UpdatePrepend <$> prependOp, PGIR.UpdateAppend <$> appendOp, PGIR.UpdateDeleteKey <$> deleteKeyOp, PGIR.UpdateDeleteElem <$> deleteElemOp, PGIR.UpdateDeleteAtPath <$> deleteAtPathOp ] tableInfo updatePermissions