graphql-engine/server/src-lib/Hasura/Backends/Postgres/Instances/Schema.hs
Daniel Harvey e2ced4011d server: import local Postgres modules as Postgres
PR-URL: https://github.com/hasura/graphql-engine-mono/pull/5962
GitOrigin-RevId: 862862c34b6c633c94ee8ae1f075afca2799fd2b
2022-09-21 11:35:50 +00:00

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{-# LANGUAGE ApplicativeDo #-}
{-# LANGUAGE QuasiQuotes #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE UndecidableInstances #-}
{-# OPTIONS_GHC -fno-warn-orphans #-}
-- | Postgres Instances Schema
--
-- Defines a 'Hasura.GraphQL.Schema.Backend.BackendSchema' type class instance for Postgres.
module Hasura.Backends.Postgres.Instances.Schema
(
)
where
import Data.Aeson qualified as J
import Data.Aeson.Key qualified as K
import Data.Aeson.Types (JSONPathElement (..))
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.Casing qualified as C
import Data.Text.Extended
import Hasura.Backends.Postgres.SQL.DML as Postgres hiding (CountType, incOp)
import Hasura.Backends.Postgres.SQL.Types as Postgres hiding (FunctionName, TableName)
import Hasura.Backends.Postgres.SQL.Value as Postgres
import Hasura.Backends.Postgres.Schema.OnConflict
import Hasura.Backends.Postgres.Schema.Select
import Hasura.Backends.Postgres.Types.BoolExp
import Hasura.Backends.Postgres.Types.Column
import Hasura.Backends.Postgres.Types.Insert as PGIR
import Hasura.Backends.Postgres.Types.Update as PGIR
import Hasura.Base.Error
import Hasura.Base.ErrorMessage (toErrorMessage)
import Hasura.Base.ToErrorValue
import Hasura.GraphQL.Schema.Backend
( BackendSchema,
BackendTableSelectSchema,
ComparisonExp,
MonadBuildSchema,
)
import Hasura.GraphQL.Schema.Backend qualified as BS
import Hasura.GraphQL.Schema.BoolExp
import Hasura.GraphQL.Schema.BoolExp.AggregationPredicates as Agg
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.NamingCase
import Hasura.GraphQL.Schema.Options qualified as Options
import Hasura.GraphQL.Schema.Parser
( Definition,
FieldParser,
InputFieldsParser,
Kind (..),
MonadParse,
Parser,
memoize,
type (<:),
)
import Hasura.GraphQL.Schema.Parser qualified as P
import Hasura.GraphQL.Schema.Select
import Hasura.GraphQL.Schema.Table (getTableIdentifierName, tableColumns)
import Hasura.GraphQL.Schema.Typename
import Hasura.GraphQL.Schema.Update qualified as SU
import Hasura.Name qualified as Name
import Hasura.Prelude
import Hasura.RQL.IR.BoolExp
import Hasura.RQL.IR.Returning (MutationOutputG (..))
import Hasura.RQL.IR.Root (RemoteRelationshipField)
import Hasura.RQL.IR.Select
( QueryDB (QDBConnection),
)
import Hasura.RQL.IR.Select qualified as IR
import Hasura.RQL.IR.Update qualified as IR
import Hasura.RQL.IR.Value qualified as IR
import Hasura.RQL.Types.Backend (Backend (..))
import Hasura.RQL.Types.Column
import Hasura.RQL.Types.Function (FunctionInfo)
import Hasura.RQL.Types.Source
import Hasura.RQL.Types.SourceCustomization
import Hasura.RQL.Types.Table (CustomRootField (..), RolePermInfo (..), TableConfig (..), TableCoreInfoG (..), TableCustomRootFields (..), TableInfo (..), UpdPermInfo (..), ViewInfo (..), getRolePermInfo, isMutable, tableInfoName)
import Hasura.SQL.Backend (BackendType (Postgres), PostgresKind (Citus, Cockroach, Vanilla))
import Hasura.SQL.Tag (HasTag)
import Hasura.SQL.Types
import Language.GraphQL.Draft.Syntax qualified as G
import Language.GraphQL.Draft.Syntax.QQ 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 ::
forall r m n.
MonadBuildSchema ('Postgres pgKind) r m n =>
MkRootFieldName ->
SourceInfo ('Postgres pgKind) ->
TableName ('Postgres pgKind) ->
TableInfo ('Postgres pgKind) ->
C.GQLNameIdentifier ->
NESeq (ColumnInfo ('Postgres pgKind)) ->
SchemaT r m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))]
pgkBuildFunctionRelayQueryFields ::
forall r m n.
MonadBuildSchema ('Postgres pgKind) r m n =>
MkRootFieldName ->
SourceInfo ('Postgres pgKind) ->
FunctionName ('Postgres pgKind) ->
FunctionInfo ('Postgres pgKind) ->
TableName ('Postgres pgKind) ->
NESeq (ColumnInfo ('Postgres pgKind)) ->
SchemaT r m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))]
pgkRelayExtension ::
Maybe (XRelay ('Postgres pgKind))
instance PostgresSchema 'Vanilla where
pgkBuildTableRelayQueryFields = buildTableRelayQueryFields
pgkBuildFunctionRelayQueryFields = buildFunctionRelayQueryFields
pgkRelayExtension = Just ()
instance PostgresSchema 'Citus where
pgkBuildTableRelayQueryFields _ _ _ _ _ _ = pure []
pgkBuildFunctionRelayQueryFields _ _ _ _ _ _ = pure []
pgkRelayExtension = Nothing
instance PostgresSchema 'Cockroach where
pgkBuildTableRelayQueryFields = buildTableRelayQueryFields
pgkBuildFunctionRelayQueryFields = buildFunctionRelayQueryFields
pgkRelayExtension = Just ()
-- postgres schema
-- Not implemented yet: Pending https://github.com/hasura/graphql-engine-mono/issues/5174"
instance AggregationPredicatesSchema ('Postgres pgKind) where
aggregationPredicatesParser _ _ = return Nothing
-- instance (BackendSchema ('Postgres pgKind)) => AggregationPredicatesSchema ('Postgres pgKind) where
-- aggregationPredicatesParser = Agg.defaultAggregationPredicatesParser aggregationFunctions
-- | The aggregation functions that are supported by postgres variants.
-- TODO: Add more.
_aggregationFunctions :: [Agg.FunctionSignature ('Postgres pgKind)]
_aggregationFunctions =
[ Agg.FunctionSignature
{ fnName = "count",
fnGQLName = [G.name|count|],
fnReturnType = PGInteger,
fnArguments = Agg.ArgumentsStar
},
Agg.FunctionSignature
{ fnName = "bool_and",
fnGQLName = [G.name|bool_and|],
fnReturnType = PGBoolean,
fnArguments =
Agg.Arguments
( NE.fromList
[ Agg.ArgumentSignature
{ argType = PGBoolean,
argName = [G.name|arg0|]
}
]
)
},
Agg.FunctionSignature
{ fnName = "corr",
fnGQLName = [G.name|corr|],
fnReturnType = PGDouble,
fnArguments =
Agg.Arguments
( NE.fromList
[ Agg.ArgumentSignature
{ argType = PGDouble,
argName = [G.name|Y|]
},
Agg.ArgumentSignature
{ argType = PGDouble,
argName = [G.name|X|]
}
]
)
}
]
instance
( PostgresSchema pgKind,
Backend ('Postgres pgKind),
HasTag ('Postgres pgKind)
) =>
BS.BackendTableSelectSchema ('Postgres pgKind)
where
tableArguments = defaultTableArgs
selectTable = defaultSelectTable
selectTableAggregate = defaultSelectTableAggregate
tableSelectionSet = defaultTableSelectionSet
instance
( Backend ('Postgres pgKind),
PostgresSchema pgKind
) =>
BackendSchema ('Postgres pgKind)
where
-- top level parsers
buildTableQueryAndSubscriptionFields = GSB.buildTableQueryAndSubscriptionFields
buildTableRelayQueryFields = pgkBuildTableRelayQueryFields
buildTableStreamingSubscriptionFields = GSB.buildTableStreamingSubscriptionFields
buildTableInsertMutationFields = GSB.buildTableInsertMutationFields backendInsertParser
buildTableUpdateMutationFields = pgkBuildTableUpdateMutationFields
buildTableDeleteMutationFields = GSB.buildTableDeleteMutationFields
buildFunctionQueryFields = buildFunctionQueryFieldsPG
buildFunctionRelayQueryFields = pgkBuildFunctionRelayQueryFields
buildFunctionMutationFields = buildFunctionMutationFieldsPG
mkRelationshipParser = GSB.mkDefaultRelationshipParser backendInsertParser ()
-- backend extensions
relayExtension = pgkRelayExtension @pgKind
nodesAggExtension = Just ()
streamSubscriptionExtension = Just ()
-- indivdual components
columnParser = columnParser
enumParser = enumParser @pgKind
possiblyNullable = possiblyNullable
scalarSelectionArgumentsParser = pgScalarSelectionArgumentsParser
-- NOTE: We don't use @orderByOperators@ directly as this will cause memory
-- growth, instead we use separate functions, according to @jberryman on the
-- memory growth, "This is turning a CAF Into a function, And the output is
-- likely no longer going to be shared even for the same arguments, and even
-- though the domain is extremely small (just HasuraCase or GraphqlCase)."
orderByOperators _sourceInfo = \case
HasuraCase -> orderByOperatorsHasuraCase
GraphqlCase -> orderByOperatorsGraphqlCase
comparisonExps = const comparisonExps
countTypeInput = countTypeInput
aggregateOrderByCountType = Postgres.PGInteger
computedField = computedFieldPG
backendInsertParser ::
forall pgKind m r n.
MonadBuildSchema ('Postgres pgKind) r m n =>
SourceInfo ('Postgres pgKind) ->
TableInfo ('Postgres pgKind) ->
SchemaT r m (InputFieldsParser n (PGIR.BackendInsert pgKind (IR.UnpreparedValue ('Postgres pgKind))))
backendInsertParser sourceName tableInfo =
fmap BackendInsert <$> onConflictFieldParser sourceName tableInfo
----------------------------------------------------------------
-- Top level parsers
buildTableRelayQueryFields ::
forall r m n pgKind.
( MonadBuildSchema ('Postgres pgKind) r m n,
BackendTableSelectSchema ('Postgres pgKind)
) =>
MkRootFieldName ->
SourceInfo ('Postgres pgKind) ->
TableName ('Postgres pgKind) ->
TableInfo ('Postgres pgKind) ->
C.GQLNameIdentifier ->
NESeq (ColumnInfo ('Postgres pgKind)) ->
SchemaT r m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))]
buildTableRelayQueryFields mkRootFieldName sourceName tableName tableInfo gqlName pkeyColumns = do
tCase <- asks getter
let fieldDesc = Just $ G.Description $ "fetch data from the table: " <>> tableName
rootFieldName = runMkRootFieldName mkRootFieldName $ applyFieldNameCaseIdentifier tCase (mkRelayConnectionField gqlName)
fmap afold $
optionalFieldParser QDBConnection $
selectTableConnection sourceName tableInfo rootFieldName fieldDesc pkeyColumns
pgkBuildTableUpdateMutationFields ::
forall r m n pgKind.
( MonadBuildSchema ('Postgres pgKind) r m n,
BackendTableSelectSchema ('Postgres pgKind)
) =>
MkRootFieldName ->
Scenario ->
-- | The source that the table lives in
SourceInfo ('Postgres pgKind) ->
-- | The name of the table being acted on
TableName ('Postgres pgKind) ->
-- | table info
TableInfo ('Postgres pgKind) ->
-- | field display name
C.GQLNameIdentifier ->
SchemaT r m [FieldParser n (IR.AnnotatedUpdateG ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))]
pgkBuildTableUpdateMutationFields mkRootFieldName scenario sourceInfo tableName tableInfo gqlName = do
roleName <- retrieve scRole
concat . maybeToList <$> runMaybeT do
updatePerms <- hoistMaybe $ _permUpd $ getRolePermInfo roleName tableInfo
lift $ do
-- update_table and update_table_by_pk
singleUpdates <-
GSB.buildTableUpdateMutationFields
-- TODO: https://github.com/hasura/graphql-engine-mono/issues/2955
(\ti -> fmap BackendUpdate <$> updateOperators ti updatePerms)
mkRootFieldName
scenario
sourceInfo
tableName
tableInfo
gqlName
-- update_table_many
multiUpdate <-
updateTableMany
mkRootFieldName
scenario
sourceInfo
tableInfo
gqlName
pure $ singleUpdates ++ maybeToList multiUpdate
-- | Create a parser for 'update_table_many'. This function is very similar to
-- both 'GSB.buildTableUpdateMutationFields' and
-- 'Hasura.GraphQL.Schema.Update.updateTable'.
--
-- It is similar to the former because of its shape: has to deal with grabbing
-- the casing, deals with update permissions, etc.
--
-- It is similar to the latter because it deals with creating the
-- parser/subselection/etc.
--
-- The reason this function exists here is because it is Postgres specific. It
-- would not fit very well next to the functions mentioned above.
--
-- However, if you are trying to implement this feature for other backends,
-- please consider making this function similar to /updateTable/ and moving it
-- there.
-- Note: this will likely require adding a type or a function to
-- 'BackendSchema'.
updateTableMany ::
forall r m n pgKind.
( MonadBuildSchema ('Postgres pgKind) r m n,
BackendTableSelectSchema ('Postgres pgKind)
) =>
MkRootFieldName ->
Scenario ->
SourceInfo ('Postgres pgKind) ->
TableInfo ('Postgres pgKind) ->
C.GQLNameIdentifier ->
SchemaT r m (Maybe (P.FieldParser n (IR.AnnotatedUpdateG ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))))
updateTableMany mkRootFieldName scenario sourceInfo tableInfo gqlName = runMaybeT do
tCase <- asks getter
roleName <- retrieve scRole
let columns = tableColumns tableInfo
viewInfo = _tciViewInfo $ _tiCoreInfo tableInfo
guard $ isMutable viIsUpdatable viewInfo
updatePerms <- hoistMaybe $ _permUpd $ getRolePermInfo roleName tableInfo
guard $ not $ scenario == Frontend && upiBackendOnly updatePerms
updates <- lift (mkMultiRowUpdateParser sourceInfo tableInfo updatePerms)
selection <- lift $ P.multiple <$> GSB.mutationSelectionSet sourceInfo tableInfo
let updateName = runMkRootFieldName mkRootFieldName $ GSB.setFieldNameCase tCase tableInfo _tcrfUpdateMany mkUpdateManyField gqlName
argsParser = liftA2 (,) updates (pure annBoolExpTrue)
pure $
P.subselection updateName updateDesc argsParser selection
<&> SU.mkUpdateObject tableName columns updatePerms (Just tCase) . fmap MOutMultirowFields
where
tableName = tableInfoName tableInfo
defaultUpdateDesc = "update multiples rows of table: " <>> tableName
updateDesc = GSB.buildFieldDescription defaultUpdateDesc $ _crfComment _tcrfUpdateMany
TableCustomRootFields {..} = _tcCustomRootFields . _tciCustomConfig $ _tiCoreInfo tableInfo
-- | Create a parser for the updates section of the `update_table_many` update.
--
-- It parses a list with two fields: 'where', and an update expression
-- (set/inc/etc).
mkMultiRowUpdateParser ::
forall pgKind r m n.
MonadBuildSchema ('Postgres pgKind) r m n =>
SourceInfo ('Postgres pgKind) ->
TableInfo ('Postgres pgKind) ->
UpdPermInfo ('Postgres pgKind) ->
SchemaT r m (P.InputFieldsParser n (PGIR.BackendUpdate pgKind (IR.UnpreparedValue ('Postgres pgKind))))
mkMultiRowUpdateParser sourceInfo tableInfo updatePerms = do
tCase <- asks getter
tableGQLName <- getTableIdentifierName tableInfo -- getTableGQLName tableInfo
updatesObjectName <- mkTypename $ applyTypeNameCaseIdentifier tCase $ mkMultiRowUpdateTypeName tableGQLName
fmap BackendMultiRowUpdate
. P.field Name._updates (Just updatesDesc)
. P.list
. P.object updatesObjectName Nothing
<$> do
mruWhere <- P.field Name._where Nothing <$> boolExp sourceInfo tableInfo
mruExpression <- updateOperators tableInfo updatePerms
pure $ MultiRowUpdate <$> mruWhere <*> mruExpression
where
updatesDesc = "updates to execute, in order"
buildFunctionRelayQueryFields ::
forall r m n pgKind.
( MonadBuildSchema ('Postgres pgKind) r m n,
BackendTableSelectSchema ('Postgres pgKind)
) =>
MkRootFieldName ->
SourceInfo ('Postgres pgKind) ->
FunctionName ('Postgres pgKind) ->
FunctionInfo ('Postgres pgKind) ->
TableName ('Postgres pgKind) ->
NESeq (ColumnInfo ('Postgres pgKind)) ->
SchemaT r m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))]
buildFunctionRelayQueryFields mkRootFieldName sourceName functionName functionInfo tableName pkeyColumns = do
let fieldDesc = Just $ G.Description $ "execute function " <> functionName <<> " which returns " <>> tableName
fmap afold $
optionalFieldParser QDBConnection $
selectFunctionConnection mkRootFieldName sourceName functionInfo fieldDesc pkeyColumns
----------------------------------------------------------------
-- Individual components
columnParser ::
forall pgKind r m n.
MonadBuildSchema ('Postgres pgKind) r m n =>
ColumnType ('Postgres pgKind) ->
G.Nullability ->
SchemaT r m (Parser 'Both n (IR.ValueWithOrigin (ColumnValue ('Postgres pgKind))))
columnParser columnType nullability =
-- TODO(PDV): It might be worth memoizing this function even though it isnt
-- recursive simply for performance reasons, since its likely to be hammered
-- during schema generation. Need to profile to see whether or not its a win.
peelWithOrigin . fmap (ColumnValue columnType) <$> case columnType of
ColumnScalar scalarType ->
possiblyNullable scalarType nullability <$> 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.TNamed P.NonNullable $ P.Definition name Nothing Nothing [] P.TIScalar
pure $
P.Parser
{ pType = schemaType,
pParser =
P.valueToJSON (P.toGraphQLType schemaType) >=> \case
J.Null -> P.parseError $ "unexpected null value for type " <> toErrorValue name
value ->
runAesonParser (parsePGValue scalarType) value
`onLeft` (P.parseErrorWith P.ParseFailed . toErrorMessage . qeError)
}
ColumnEnumReference (EnumReference tableName enumValues tableCustomName) ->
case nonEmpty (Map.toList enumValues) of
Just enumValuesList -> enumParser @pgKind tableName enumValuesList tableCustomName nullability
Nothing -> throw400 ValidationFailed "empty enum values"
enumParser ::
forall pgKind r m n.
(MonadBuildSchema ('Postgres pgKind) r m n) =>
TableName ('Postgres pgKind) ->
NonEmpty (EnumValue, EnumValueInfo) ->
Maybe G.Name ->
G.Nullability ->
SchemaT r m (Parser 'Both n (ScalarValue ('Postgres pgKind)))
enumParser tableName enumValues tableCustomName nullability = do
tCase <- asks getter
tableGQLName <- liftEither (getIdentifierQualifiedObject tableName)
name <- addEnumSuffix tableGQLName tableCustomName tCase
pure $ possiblyNullable PGText nullability $ P.enum name Nothing (mkEnumValue tCase <$> enumValues)
where
mkEnumValue :: NamingCase -> (EnumValue, EnumValueInfo) -> (P.Definition P.EnumValueInfo, ScalarValue ('Postgres pgKind))
mkEnumValue tCase (EnumValue value, EnumValueInfo description) =
( P.Definition (applyEnumValueCase tCase value) (G.Description <$> description) Nothing [] P.EnumValueInfo,
PGValText $ G.unName value
)
possiblyNullable ::
(MonadParse m, 'Input <: k) =>
ScalarType ('Postgres pgKind) ->
G.Nullability ->
Parser k m (ScalarValue ('Postgres pgKind)) ->
Parser k m (ScalarValue ('Postgres pgKind))
possiblyNullable scalarType (G.Nullability isNullable)
| isNullable = fmap (fromMaybe $ PGNull scalarType) . P.nullable
| otherwise = id
pgScalarSelectionArgumentsParser ::
MonadParse n =>
ColumnType ('Postgres pgKind) ->
InputFieldsParser n (Maybe (ScalarSelectionArguments ('Postgres pgKind)))
pgScalarSelectionArgumentsParser columnType
| isScalarColumnWhere Postgres.isJSONType columnType =
P.fieldOptional fieldName description P.string `P.bindFields` fmap join . traverse toColExp
| otherwise = pure Nothing
where
fieldName = Name._path
description = Just "JSON select path"
toColExp textValue = case parseJSONPath textValue of
Left err -> P.parseError $ "parse json path error: " <> toErrorMessage err
Right [] -> pure Nothing
Right jPaths -> pure $ Just $ Postgres.ColumnOp Postgres.jsonbPathOp $ Postgres.SEArray $ map elToColExp jPaths
elToColExp (Key k) = Postgres.SELit $ K.toText k
elToColExp (Index i) = Postgres.SELit $ tshow i
orderByOperatorsHasuraCase ::
(G.Name, NonEmpty (Definition P.EnumValueInfo, (BasicOrderType ('Postgres pgKind), NullsOrderType ('Postgres pgKind))))
orderByOperatorsHasuraCase = orderByOperators HasuraCase
orderByOperatorsGraphqlCase ::
(G.Name, NonEmpty (Definition P.EnumValueInfo, (BasicOrderType ('Postgres pgKind), NullsOrderType ('Postgres pgKind))))
orderByOperatorsGraphqlCase = orderByOperators GraphqlCase
-- | Do NOT use this function directly, this should be used via
-- @orderByOperatorsHasuraCase@ or @orderByOperatorsGraphqlCase@
orderByOperators ::
NamingCase ->
(G.Name, NonEmpty (Definition P.EnumValueInfo, (BasicOrderType ('Postgres pgKind), NullsOrderType ('Postgres pgKind))))
orderByOperators tCase =
(Name._order_by,) $
NE.fromList
[ ( define (applyEnumValueCase tCase Name._asc) "in ascending order, nulls last",
(Postgres.OTAsc, Postgres.NullsLast)
),
( define (applyEnumValueCase tCase Name._asc_nulls_first) "in ascending order, nulls first",
(Postgres.OTAsc, Postgres.NullsFirst)
),
( define (applyEnumValueCase tCase Name._asc_nulls_last) "in ascending order, nulls last",
(Postgres.OTAsc, Postgres.NullsLast)
),
( define (applyEnumValueCase tCase Name._desc) "in descending order, nulls first",
(Postgres.OTDesc, Postgres.NullsFirst)
),
( define (applyEnumValueCase tCase Name._desc_nulls_first) "in descending order, nulls first",
(Postgres.OTDesc, Postgres.NullsFirst)
),
( define (applyEnumValueCase tCase Name._desc_nulls_last) "in descending order, nulls last",
(Postgres.OTDesc, Postgres.NullsLast)
)
]
where
define name desc = P.Definition name (Just desc) Nothing [] P.EnumValueInfo
comparisonExps ::
forall pgKind m n r.
MonadBuildSchema ('Postgres pgKind) r m n =>
ColumnType ('Postgres pgKind) ->
SchemaT r m (Parser 'Input n [ComparisonExp ('Postgres pgKind)])
comparisonExps = memoize 'comparisonExps \columnType -> do
-- see Note [Columns in comparison expression are never nullable]
collapseIfNull <- retrieve Options.soDangerousBooleanCollapse
-- 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)
tCase <- asks getter
maybeCastParser <- castExp columnType tCase
let name = applyTypeNameCaseCust tCase $ P.getName typedParser <> Name.__comparison_exp
desc =
G.Description $
"Boolean expression to compare columns of type "
<> P.getName typedParser
<<> ". All fields are combined with logical 'AND'."
textListParser = fmap IR.openValueOrigin <$> P.list textParser
columnListParser = fmap IR.openValueOrigin <$> P.list typedParser
-- Naming conventions
pure $
P.object name (Just desc) $
fmap catMaybes $
sequenceA $
concat
[ flip (maybe []) maybeCastParser $ \castParser ->
[ P.fieldOptional Name.__cast Nothing (ACast <$> castParser)
],
-- Common ops for all types
equalityOperators
tCase
collapseIfNull
(IR.mkParameter <$> typedParser)
(mkListParameter columnType <$> columnListParser),
-- Comparison ops for non Raster types
guard (isScalarColumnWhere (/= PGRaster) columnType)
*> comparisonOperators
tCase
collapseIfNull
(IR.mkParameter <$> typedParser),
-- Ops for Raster types
guard (isScalarColumnWhere (== PGRaster) columnType)
*> [ mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "intersects", "rast"]))
Nothing
(ABackendSpecific . ASTIntersectsRast . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "intersects", "nband", "geom"]))
Nothing
(ABackendSpecific . ASTIntersectsNbandGeom <$> ingInputParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "intersects", "geom", "nband"]))
Nothing
(ABackendSpecific . ASTIntersectsGeomNband <$> ignInputParser)
],
-- Ops for String like types
guard (isScalarColumnWhere isStringType columnType)
*> [ mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__like)
(Just "does the column match the given pattern")
(ALIKE . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__nlike)
(Just "does the column NOT match the given pattern")
(ANLIKE . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__ilike)
(Just "does the column match the given case-insensitive pattern")
(ABackendSpecific . AILIKE . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__nilike)
(Just "does the column NOT match the given case-insensitive pattern")
(ABackendSpecific . ANILIKE . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__similar)
(Just "does the column match the given SQL regular expression")
(ABackendSpecific . ASIMILAR . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__nsimilar)
(Just "does the column NOT match the given SQL regular expression")
(ABackendSpecific . ANSIMILAR . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__regex)
(Just "does the column match the given POSIX regular expression, case sensitive")
(ABackendSpecific . AREGEX . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__iregex)
(Just "does the column match the given POSIX regular expression, case insensitive")
(ABackendSpecific . AIREGEX . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__nregex)
(Just "does the column NOT match the given POSIX regular expression, case sensitive")
(ABackendSpecific . ANREGEX . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__niregex)
(Just "does the column NOT match the given POSIX regular expression, case insensitive")
(ABackendSpecific . ANIREGEX . IR.mkParameter <$> typedParser)
],
-- Ops for JSONB type
guard (isScalarColumnWhere (== PGJSONB) columnType)
*> [ mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__contains)
(Just "does the column contain the given json value at the top level")
(ABackendSpecific . AContains . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_contained", "in"]))
(Just "is the column contained in the given json value")
(ABackendSpecific . AContainedIn . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_has", "key"]))
(Just "does the string exist as a top-level key in the column")
(ABackendSpecific . AHasKey . IR.mkParameter <$> nullableTextParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_has", "keys", "any"]))
(Just "do any of these strings exist as top-level keys in the column")
(ABackendSpecific . AHasKeysAny . mkListLiteral (ColumnScalar PGText) <$> textListParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_has", "keys", "all"]))
(Just "do all of these strings exist as top-level keys in the column")
(ABackendSpecific . AHasKeysAll . mkListLiteral (ColumnScalar PGText) <$> textListParser)
],
-- Ops for Geography type
guard (isScalarColumnWhere (== PGGeography) columnType)
*> [ mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "intersects"]))
(Just "does the column spatially intersect the given geography value")
(ABackendSpecific . ASTIntersects . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "d", "within"]))
(Just "is the column within a given distance from the given geography value")
(ABackendSpecific . ASTDWithinGeog <$> geogInputParser)
],
-- Ops for Geometry type
guard (isScalarColumnWhere (== PGGeometry) columnType)
*> [ mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "contains"]))
(Just "does the column contain the given geometry value")
(ABackendSpecific . ASTContains . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "crosses"]))
(Just "does the column cross the given geometry value")
(ABackendSpecific . ASTCrosses . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "equals"]))
(Just "is the column equal to given geometry value (directionality is ignored)")
(ABackendSpecific . ASTEquals . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "overlaps"]))
(Just "does the column 'spatially overlap' (intersect but not completely contain) the given geometry value")
(ABackendSpecific . ASTOverlaps . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "touches"]))
(Just "does the column have atleast one point in common with the given geometry value")
(ABackendSpecific . ASTTouches . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "within"]))
(Just "is the column contained in the given geometry value")
(ABackendSpecific . ASTWithin . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "intersects"]))
(Just "does the column spatially intersect the given geometry value")
(ABackendSpecific . ASTIntersects . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "3d", "intersects"]))
(Just "does the column spatially intersect the given geometry value in 3D")
(ABackendSpecific . AST3DIntersects . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "d", "within"]))
(Just "is the column within a given distance from the given geometry value")
(ABackendSpecific . ASTDWithinGeom <$> geomInputParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_st", "3d", "d", "within"]))
(Just "is the column within a given 3D distance from the given geometry value")
(ABackendSpecific . AST3DDWithinGeom <$> geomInputParser)
],
-- Ops for Ltree type
guard (isScalarColumnWhere (== PGLtree) columnType)
*> [ mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__ancestor)
(Just "is the left argument an ancestor of right (or equal)?")
(ABackendSpecific . AAncestor . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_ancestor", "any"]))
(Just "does array contain an ancestor of `ltree`?")
(ABackendSpecific . AAncestorAny . mkListLiteral columnType <$> columnListParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__descendant)
(Just "is the left argument a descendant of right (or equal)?")
(ABackendSpecific . ADescendant . IR.mkParameter <$> typedParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_descendant", "any"]))
(Just "does array contain a descendant of `ltree`?")
(ABackendSpecific . ADescendantAny . mkListLiteral columnType <$> columnListParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedName Name.__matches)
(Just "does `ltree` match `lquery`?")
(ABackendSpecific . AMatches . IR.mkParameter <$> lqueryParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_matches", "any"]))
(Just "does `ltree` match any `lquery` in array?")
(ABackendSpecific . AMatchesAny . mkListLiteral (ColumnScalar PGLquery) <$> textListParser),
mkBoolOperator
tCase
collapseIfNull
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_matches", "fulltext"]))
(Just "does `ltree` match `ltxtquery`?")
(ABackendSpecific . AMatchesFulltext . IR.mkParameter <$> ltxtqueryParser)
]
]
where
mkListLiteral :: ColumnType ('Postgres pgKind) -> [ColumnValue ('Postgres pgKind)] -> IR.UnpreparedValue ('Postgres pgKind)
mkListLiteral columnType columnValues =
IR.UVLiteral $
SETyAnn
(SEArray $ txtEncoder . cvValue <$> columnValues)
(mkTypeAnn $ CollectableTypeArray $ unsafePGColumnToBackend columnType)
mkListParameter :: ColumnType ('Postgres pgKind) -> [ColumnValue ('Postgres pgKind)] -> IR.UnpreparedValue ('Postgres pgKind)
mkListParameter columnType columnValues = do
let scalarType = unsafePGColumnToBackend columnType
IR.UVParameter Nothing $
ColumnValue
(ColumnScalar $ Postgres.PGArray scalarType)
(Postgres.PGValArray $ cvValue <$> columnValues)
castExp :: ColumnType ('Postgres pgKind) -> NamingCase -> SchemaT r m (Maybe (Parser 'Input n (CastExp ('Postgres pgKind) (IR.UnpreparedValue ('Postgres pgKind)))))
castExp sourceType tCase = do
let maybeScalars = case sourceType of
ColumnScalar PGGeography -> Just (PGGeography, PGGeometry)
ColumnScalar PGGeometry -> Just (PGGeometry, PGGeography)
ColumnScalar PGJSONB -> Just (PGJSONB, PGText)
_ -> Nothing
forM maybeScalars $ \(sourceScalar, targetScalar) -> do
scalarTypeName <- C.fromAutogeneratedName <$> mkScalarTypeName sourceScalar
targetName <- mkScalarTypeName targetScalar
targetOpExps <- comparisonExps $ ColumnScalar targetScalar
let field = P.fieldOptional targetName Nothing $ (targetScalar,) <$> targetOpExps
sourceName = applyTypeNameCaseIdentifier tCase (scalarTypeName <> (C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["cast", "exp"])))
pure $ P.object sourceName Nothing $ M.fromList . maybeToList <$> field
geographyWithinDistanceInput ::
forall pgKind m n r.
MonadBuildSchema ('Postgres pgKind) r m n =>
SchemaT r m (Parser 'Input n (DWithinGeogOp (IR.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 Name._st_d_within_geography_input Nothing $
DWithinGeogOp <$> (IR.mkParameter <$> P.field Name._distance Nothing floatParser)
<*> (IR.mkParameter <$> P.field Name._from Nothing geographyParser)
<*> (IR.mkParameter <$> P.fieldWithDefault Name._use_spheroid Nothing (G.VBoolean True) booleanParser)
geometryWithinDistanceInput ::
forall pgKind m n r.
MonadBuildSchema ('Postgres pgKind) r m n =>
SchemaT r m (Parser 'Input n (DWithinGeomOp (IR.UnpreparedValue ('Postgres pgKind))))
geometryWithinDistanceInput = do
geometryParser <- columnParser (ColumnScalar PGGeometry) (G.Nullability False)
floatParser <- columnParser (ColumnScalar PGFloat) (G.Nullability False)
pure $
P.object Name._st_d_within_input Nothing $
DWithinGeomOp <$> (IR.mkParameter <$> P.field Name._distance Nothing floatParser)
<*> (IR.mkParameter <$> P.field Name._from Nothing geometryParser)
intersectsNbandGeomInput ::
forall pgKind m n r.
MonadBuildSchema ('Postgres pgKind) r m n =>
SchemaT r m (Parser 'Input n (STIntersectsNbandGeommin (IR.UnpreparedValue ('Postgres pgKind))))
intersectsNbandGeomInput = do
geometryParser <- columnParser (ColumnScalar PGGeometry) (G.Nullability False)
integerParser <- columnParser (ColumnScalar PGInteger) (G.Nullability False)
pure $
P.object Name._st_intersects_nband_geom_input Nothing $
STIntersectsNbandGeommin <$> (IR.mkParameter <$> P.field Name._nband Nothing integerParser)
<*> (IR.mkParameter <$> P.field Name._geommin Nothing geometryParser)
intersectsGeomNbandInput ::
forall pgKind m n r.
MonadBuildSchema ('Postgres pgKind) r m n =>
SchemaT r m (Parser 'Input n (STIntersectsGeomminNband (IR.UnpreparedValue ('Postgres pgKind))))
intersectsGeomNbandInput = do
geometryParser <- columnParser (ColumnScalar PGGeometry) (G.Nullability False)
integerParser <- columnParser (ColumnScalar PGInteger) (G.Nullability False)
pure $
P.object Name._st_intersects_geom_nband_input Nothing $
STIntersectsGeomminNband
<$> (IR.mkParameter <$> P.field Name._geommin Nothing geometryParser)
<*> (fmap IR.mkParameter <$> P.fieldOptional Name._nband Nothing integerParser)
countTypeInput ::
MonadParse n =>
Maybe (Parser 'Both n (Column ('Postgres pgKind))) ->
InputFieldsParser n (IR.CountDistinct -> CountType ('Postgres pgKind))
countTypeInput = \case
Just columnEnum -> do
columns <- P.fieldOptional Name._columns Nothing (P.list columnEnum)
pure $ flip mkCountType columns
Nothing -> pure $ flip mkCountType Nothing
where
mkCountType :: IR.CountDistinct -> Maybe [Column ('Postgres pgKind)] -> CountType ('Postgres pgKind)
mkCountType _ Nothing = Postgres.CTStar
mkCountType IR.SelectCountDistinct (Just cols) = Postgres.CTDistinct cols
mkCountType IR.SelectCountNonDistinct (Just cols) = Postgres.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.
MonadBuildSchema ('Postgres pgKind) r m n =>
SU.UpdateOperator ('Postgres pgKind) r m n (IR.UnpreparedValue ('Postgres pgKind))
prependOp = SU.UpdateOperator {..}
where
updateOperatorApplicableColumn = isScalarColumnWhere (== PGJSONB) . ciType
updateOperatorParser tableGQLName _tableName columns = do
let typedParser columnInfo =
fmap IR.mkParameter
<$> BS.columnParser
(ciType columnInfo)
(G.Nullability $ ciIsNullable columnInfo)
desc = "prepend existing jsonb value of filtered columns with new jsonb value"
SU.updateOperator
tableGQLName
(C.fromAutogeneratedName $$(G.litName "prepend"))
(C.fromAutogeneratedName $$(G.litName "_prepend"))
typedParser
columns
desc
desc
-- | Update operator that appends a value to a column containing jsonb arrays.
--
-- Note: Currently this is Postgres specific because json columns have not been ported
-- to other backends yet.
appendOp ::
forall pgKind m n r.
MonadBuildSchema ('Postgres pgKind) r m n =>
SU.UpdateOperator ('Postgres pgKind) r m n (IR.UnpreparedValue ('Postgres pgKind))
appendOp = SU.UpdateOperator {..}
where
updateOperatorApplicableColumn = isScalarColumnWhere (== PGJSONB) . ciType
updateOperatorParser tableGQLName _tableName columns = do
let typedParser columnInfo =
fmap IR.mkParameter
<$> BS.columnParser
(ciType columnInfo)
(G.Nullability $ ciIsNullable columnInfo)
desc = "append existing jsonb value of filtered columns with new jsonb value"
SU.updateOperator
tableGQLName
(C.fromAutogeneratedName $$(G.litName "append"))
(C.fromAutogeneratedName $$(G.litName "_append"))
typedParser
columns
desc
desc
-- | Update operator that deletes a value at a specified key from a column
-- containing jsonb objects.
--
-- Note: Currently this is Postgres specific because json columns have not been ported
-- to other backends yet.
deleteKeyOp ::
forall pgKind m n r.
MonadBuildSchema ('Postgres pgKind) r m n =>
SU.UpdateOperator ('Postgres pgKind) r m n (IR.UnpreparedValue ('Postgres pgKind))
deleteKeyOp = SU.UpdateOperator {..}
where
updateOperatorApplicableColumn = isScalarColumnWhere (== PGJSONB) . ciType
updateOperatorParser tableGQLName _tableName columns = do
let nullableTextParser _ = fmap IR.mkParameter <$> BS.columnParser (ColumnScalar PGText) (G.Nullability True)
desc = "delete key/value pair or string element. key/value pairs are matched based on their key value"
SU.updateOperator
tableGQLName
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["delete", "key"]))
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_delete", "key"]))
nullableTextParser
columns
desc
desc
-- | Update operator that deletes a value at a specific index from a column
-- containing jsonb arrays.
--
-- Note: Currently this is Postgres specific because json columns have not been ported
-- to other backends yet.
deleteElemOp ::
forall pgKind m n r.
MonadBuildSchema ('Postgres pgKind) r m n =>
SU.UpdateOperator ('Postgres pgKind) r m n (IR.UnpreparedValue ('Postgres pgKind))
deleteElemOp = SU.UpdateOperator {..}
where
updateOperatorApplicableColumn = isScalarColumnWhere (== PGJSONB) . ciType
updateOperatorParser tableGQLName _tableName columns = do
let nonNullableIntParser _ = fmap IR.mkParameter <$> BS.columnParser (ColumnScalar PGInteger) (G.Nullability False)
desc =
"delete the array element with specified index (negative integers count from the end). "
<> "throws an error if top level container is not an array"
SU.updateOperator
tableGQLName
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["delete", "elem"]))
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_delete", "elem"]))
nonNullableIntParser
columns
desc
desc
-- | Update operator that deletes a field at a certan path from a column
-- containing jsonb objects.
--
-- Note: Currently this is Postgres specific because json columns have not been ported
-- to other backends yet.
deleteAtPathOp ::
forall pgKind m n r.
MonadBuildSchema ('Postgres pgKind) r m n =>
SU.UpdateOperator ('Postgres pgKind) r m n [IR.UnpreparedValue ('Postgres pgKind)]
deleteAtPathOp = SU.UpdateOperator {..}
where
updateOperatorApplicableColumn = isScalarColumnWhere (== PGJSONB) . ciType
updateOperatorParser tableGQLName _tableName columns = do
let nonNullableTextListParser _ = P.list . fmap IR.mkParameter <$> BS.columnParser (ColumnScalar PGText) (G.Nullability False)
desc = "delete the field or element with specified path (for JSON arrays, negative integers count from the end)"
SU.updateOperator
tableGQLName
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["delete", "at", "path"]))
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_delete", "at", "path"]))
nonNullableTextListParser
columns
desc
desc
-- | The update operators that we support on Postgres.
updateOperators ::
forall pgKind m n r.
MonadBuildSchema ('Postgres pgKind) r m n =>
TableInfo ('Postgres pgKind) ->
UpdPermInfo ('Postgres pgKind) ->
SchemaT r m (InputFieldsParser n (HashMap (Column ('Postgres pgKind)) (UpdateOpExpression (IR.UnpreparedValue ('Postgres pgKind)))))
updateOperators tableInfo updatePermissions = do
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