mirror of
https://github.com/hasura/graphql-engine.git
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9d23a10f33
PR-URL: https://github.com/hasura/graphql-engine-mono/pull/5290 GitOrigin-RevId: bc398989d82a0e78bfcf87d5aa81bcd6a709c67f
1064 lines
49 KiB
Haskell
1064 lines
49 KiB
Haskell
{-# LANGUAGE ApplicativeDo #-}
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{-# LANGUAGE TemplateHaskell #-}
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{-# LANGUAGE UndecidableInstances #-}
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{-# OPTIONS_GHC -fno-warn-orphans #-}
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-- | Postgres Instances Schema
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--
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-- Defines a 'Hasura.GraphQL.Schema.Backend.BackendSchema' type class instance for Postgres.
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module Hasura.Backends.Postgres.Instances.Schema
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(
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)
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where
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import Data.Aeson qualified as J
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import Data.Aeson.Key qualified as K
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import Data.Aeson.Types (JSONPathElement (..))
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import Data.Has
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import Data.HashMap.Strict qualified as Map
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import Data.HashMap.Strict.Extended qualified as M
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import Data.List.NonEmpty qualified as NE
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import Data.Parser.JSONPath
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import Data.Text.Casing qualified as C
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import Data.Text.Extended
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import Hasura.Backends.Postgres.SQL.DML as PG hiding (CountType, incOp)
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import Hasura.Backends.Postgres.SQL.Types as PG hiding (FunctionName, TableName)
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import Hasura.Backends.Postgres.SQL.Value as PG
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import Hasura.Backends.Postgres.Schema.OnConflict
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import Hasura.Backends.Postgres.Schema.Select
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import Hasura.Backends.Postgres.Types.BoolExp
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import Hasura.Backends.Postgres.Types.Column
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import Hasura.Backends.Postgres.Types.Insert as PGIR
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import Hasura.Backends.Postgres.Types.Update as PGIR
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import Hasura.Base.Error
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import Hasura.Base.ErrorMessage (toErrorMessage)
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import Hasura.Base.ToErrorValue
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import Hasura.GraphQL.Schema.Backend
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( BackendSchema,
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BackendTableSelectSchema,
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ComparisonExp,
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MonadBuildSchema,
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)
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import Hasura.GraphQL.Schema.Backend qualified as BS
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import Hasura.GraphQL.Schema.BoolExp
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import Hasura.GraphQL.Schema.Build qualified as GSB
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import Hasura.GraphQL.Schema.Common
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import Hasura.GraphQL.Schema.Mutation qualified as GSB
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import Hasura.GraphQL.Schema.NamingCase
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import Hasura.GraphQL.Schema.Options (SchemaOptions)
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import Hasura.GraphQL.Schema.Options qualified as Options
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import Hasura.GraphQL.Schema.Parser
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( Definition,
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FieldParser,
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InputFieldsParser,
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Kind (..),
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MonadMemoize,
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MonadParse,
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Parser,
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memoize,
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)
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import Hasura.GraphQL.Schema.Parser qualified as P
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import Hasura.GraphQL.Schema.Select
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import Hasura.GraphQL.Schema.Table (getTableIdentifierName, tableColumns)
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import Hasura.GraphQL.Schema.Typename
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import Hasura.GraphQL.Schema.Update qualified as SU
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import Hasura.Name qualified as Name
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import Hasura.Prelude
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import Hasura.RQL.IR.BoolExp
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import Hasura.RQL.IR.Returning (MutationOutputG (..))
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import Hasura.RQL.IR.Root (RemoteRelationshipField)
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import Hasura.RQL.IR.Select
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( QueryDB (QDBConnection),
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)
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import Hasura.RQL.IR.Select qualified as IR
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import Hasura.RQL.IR.Update qualified as IR
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import Hasura.RQL.IR.Value qualified as IR
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import Hasura.RQL.Types.Backend (Backend (..))
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import Hasura.RQL.Types.Column
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import Hasura.RQL.Types.Function (FunctionInfo)
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import Hasura.RQL.Types.Source
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import Hasura.RQL.Types.SourceCustomization
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import Hasura.RQL.Types.Table (CustomRootField (..), RolePermInfo (..), TableConfig (..), TableCoreInfoG (..), TableCustomRootFields (..), TableInfo (..), UpdPermInfo (..), ViewInfo (..), getRolePermInfo, isMutable, tableInfoName)
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import Hasura.SQL.Backend (BackendType (Postgres), PostgresKind (Citus, Vanilla))
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import Hasura.SQL.Tag (HasTag)
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import Hasura.SQL.Types
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import Language.GraphQL.Draft.Syntax qualified as G
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----------------------------------------------------------------
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-- BackendSchema instance
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-- | This class is an implementation detail of 'BackendSchema'.
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-- Some functions of 'BackendSchema' differ across different Postgres "kinds",
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-- or call to functions (such as those related to Relay) that have not been
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-- generalized to all kinds of Postgres and still explicitly work on Vanilla
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-- Postgres. This class allows each "kind" to specify its own specific
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-- implementation. All common code is directly part of `BackendSchema`.
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--
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-- Note: Users shouldn't ever put this as a constraint. Use `BackendSchema
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-- ('Postgres pgKind)` instead.
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class PostgresSchema (pgKind :: PostgresKind) where
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pgkBuildTableRelayQueryFields ::
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forall r m n.
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MonadBuildSchema ('Postgres pgKind) r m n =>
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MkRootFieldName ->
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SourceInfo ('Postgres pgKind) ->
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TableName ('Postgres pgKind) ->
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TableInfo ('Postgres pgKind) ->
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C.GQLNameIdentifier ->
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NESeq (ColumnInfo ('Postgres pgKind)) ->
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m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))]
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pgkBuildFunctionRelayQueryFields ::
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forall r m n.
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MonadBuildSchema ('Postgres pgKind) r m n =>
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MkRootFieldName ->
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SourceInfo ('Postgres pgKind) ->
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FunctionName ('Postgres pgKind) ->
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FunctionInfo ('Postgres pgKind) ->
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TableName ('Postgres pgKind) ->
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NESeq (ColumnInfo ('Postgres pgKind)) ->
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m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))]
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pgkRelayExtension ::
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Maybe (XRelay ('Postgres pgKind))
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instance PostgresSchema 'Vanilla where
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pgkBuildTableRelayQueryFields = buildTableRelayQueryFields
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pgkBuildFunctionRelayQueryFields = buildFunctionRelayQueryFields
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pgkRelayExtension = Just ()
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instance PostgresSchema 'Citus where
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pgkBuildTableRelayQueryFields _ _ _ _ _ _ = pure []
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pgkBuildFunctionRelayQueryFields _ _ _ _ _ _ = pure []
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pgkRelayExtension = Nothing
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-- postgres schema
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instance
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( PostgresSchema pgKind,
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Backend ('Postgres pgKind),
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HasTag ('Postgres pgKind)
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) =>
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BS.BackendTableSelectSchema ('Postgres pgKind)
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where
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tableArguments = defaultTableArgs
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selectTable = defaultSelectTable
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selectTableAggregate = defaultSelectTableAggregate
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tableSelectionSet = defaultTableSelectionSet
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instance
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( Backend ('Postgres pgKind),
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PostgresSchema pgKind
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) =>
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BackendSchema ('Postgres pgKind)
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where
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-- top level parsers
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buildTableQueryAndSubscriptionFields = GSB.buildTableQueryAndSubscriptionFields
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buildTableRelayQueryFields = pgkBuildTableRelayQueryFields
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buildTableStreamingSubscriptionFields = GSB.buildTableStreamingSubscriptionFields
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buildTableInsertMutationFields = GSB.buildTableInsertMutationFields backendInsertParser
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buildTableUpdateMutationFields = pgkBuildTableUpdateMutationFields
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buildTableDeleteMutationFields = GSB.buildTableDeleteMutationFields
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buildFunctionQueryFields = buildFunctionQueryFieldsPG
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buildFunctionRelayQueryFields = pgkBuildFunctionRelayQueryFields
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buildFunctionMutationFields = buildFunctionMutationFieldsPG
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mkRelationshipParser = GSB.mkDefaultRelationshipParser backendInsertParser ()
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-- backend extensions
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relayExtension = pgkRelayExtension @pgKind
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nodesAggExtension = Just ()
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streamSubscriptionExtension = Just ()
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-- indivdual components
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columnParser = columnParser
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scalarSelectionArgumentsParser = pgScalarSelectionArgumentsParser
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-- NOTE: We don't use @orderByOperators@ directly as this will cause memory
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-- growth, instead we use separate functions, according to @jberryman on the
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-- memory growth, "This is turning a CAF Into a function, And the output is
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-- likely no longer going to be shared even for the same arguments, and even
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-- though the domain is extremely small (just HasuraCase or GraphqlCase)."
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orderByOperators _sourceInfo = \case
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HasuraCase -> orderByOperatorsHasuraCase
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GraphqlCase -> orderByOperatorsGraphqlCase
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comparisonExps = comparisonExps
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countTypeInput = countTypeInput
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aggregateOrderByCountType = PG.PGInteger
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computedField = computedFieldPG
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backendInsertParser ::
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forall pgKind m r n.
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MonadBuildSchema ('Postgres pgKind) r m n =>
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SourceInfo ('Postgres pgKind) ->
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TableInfo ('Postgres pgKind) ->
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m (InputFieldsParser n (PGIR.BackendInsert pgKind (IR.UnpreparedValue ('Postgres pgKind))))
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backendInsertParser sourceName tableInfo =
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fmap BackendInsert <$> onConflictFieldParser sourceName tableInfo
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----------------------------------------------------------------
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-- Top level parsers
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buildTableRelayQueryFields ::
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forall r m n pgKind.
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( MonadBuildSchema ('Postgres pgKind) r m n,
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BackendTableSelectSchema ('Postgres pgKind)
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) =>
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MkRootFieldName ->
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SourceInfo ('Postgres pgKind) ->
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TableName ('Postgres pgKind) ->
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TableInfo ('Postgres pgKind) ->
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C.GQLNameIdentifier ->
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NESeq (ColumnInfo ('Postgres pgKind)) ->
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m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))]
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buildTableRelayQueryFields mkRootFieldName sourceName tableName tableInfo gqlName pkeyColumns = do
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tCase <- asks getter
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let fieldDesc = Just $ G.Description $ "fetch data from the table: " <>> tableName
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rootFieldName = runMkRootFieldName mkRootFieldName $ applyFieldNameCaseIdentifier tCase (mkRelayConnectionField gqlName)
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fmap afold $
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optionalFieldParser QDBConnection $
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selectTableConnection sourceName tableInfo rootFieldName fieldDesc pkeyColumns
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pgkBuildTableUpdateMutationFields ::
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forall r m n pgKind.
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( MonadBuildSchema ('Postgres pgKind) r m n,
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BackendTableSelectSchema ('Postgres pgKind)
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) =>
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MkRootFieldName ->
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Scenario ->
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-- | The source that the table lives in
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SourceInfo ('Postgres pgKind) ->
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-- | The name of the table being acted on
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TableName ('Postgres pgKind) ->
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-- | table info
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TableInfo ('Postgres pgKind) ->
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-- | field display name
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C.GQLNameIdentifier ->
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m [FieldParser n (IR.AnnotatedUpdateG ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))]
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pgkBuildTableUpdateMutationFields mkRootFieldName scenario sourceInfo tableName tableInfo gqlName = do
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roleName <- retrieve scRole
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concat . maybeToList <$> runMaybeT do
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updatePerms <- hoistMaybe $ _permUpd $ getRolePermInfo roleName tableInfo
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lift $ do
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-- update_table and update_table_by_pk
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singleUpdates <-
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GSB.buildTableUpdateMutationFields
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-- TODO: https://github.com/hasura/graphql-engine-mono/issues/2955
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(\ti -> fmap BackendUpdate <$> updateOperators ti updatePerms)
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mkRootFieldName
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scenario
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sourceInfo
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tableName
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tableInfo
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gqlName
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-- update_table_many
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multiUpdate <-
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updateTableMany
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mkRootFieldName
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scenario
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sourceInfo
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tableInfo
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gqlName
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pure $ singleUpdates ++ maybeToList multiUpdate
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-- | Create a parser for 'update_table_many'. This function is very similar to
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-- both 'GSB.buildTableUpdateMutationFields' and
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-- 'Hasura.GraphQL.Schema.Update.updateTable'.
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--
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-- It is similar to the former because of its shape: has to deal with grabbing
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-- the casing, deals with update permissions, etc.
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--
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-- It is similar to the latter because it deals with creating the
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-- parser/subselection/etc.
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--
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-- The reason this function exists here is because it is Postgres specific. It
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-- would not fit very well next to the functions mentioned above.
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--
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-- However, if you are trying to implement this feature for other backends,
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-- please consider making this function similar to /updateTable/ and moving it
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-- there.
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-- Note: this will likely require adding a type or a function to
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-- 'BackendSchema'.
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updateTableMany ::
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forall r m n pgKind.
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( MonadBuildSchema ('Postgres pgKind) r m n,
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BackendTableSelectSchema ('Postgres pgKind)
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) =>
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MkRootFieldName ->
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Scenario ->
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SourceInfo ('Postgres pgKind) ->
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TableInfo ('Postgres pgKind) ->
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C.GQLNameIdentifier ->
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m (Maybe (P.FieldParser n (IR.AnnotatedUpdateG ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))))
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updateTableMany mkRootFieldName scenario sourceInfo tableInfo gqlName = runMaybeT do
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tCase <- asks getter
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roleName <- retrieve scRole
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let columns = tableColumns tableInfo
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viewInfo = _tciViewInfo $ _tiCoreInfo tableInfo
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guard $ isMutable viIsUpdatable viewInfo
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updatePerms <- hoistMaybe $ _permUpd $ getRolePermInfo roleName tableInfo
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guard $ not $ scenario == Frontend && upiBackendOnly updatePerms
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updates <- lift (mkMultiRowUpdateParser sourceInfo tableInfo updatePerms)
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selection <- lift $ P.multiple <$> GSB.mutationSelectionSet sourceInfo tableInfo
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let updateName = runMkRootFieldName mkRootFieldName $ GSB.setFieldNameCase tCase tableInfo _tcrfUpdateMany mkUpdateManyField gqlName
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argsParser = liftA2 (,) updates (pure annBoolExpTrue)
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pure $
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P.subselection updateName updateDesc argsParser selection
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<&> SU.mkUpdateObject tableName columns updatePerms (Just tCase) . fmap MOutMultirowFields
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where
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tableName = tableInfoName tableInfo
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defaultUpdateDesc = "update multiples rows of table: " <>> tableName
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updateDesc = GSB.buildFieldDescription defaultUpdateDesc $ _crfComment _tcrfUpdateMany
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TableCustomRootFields {..} = _tcCustomRootFields . _tciCustomConfig $ _tiCoreInfo tableInfo
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-- | Create a parser for the updates section of the `update_table_many` update.
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--
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-- It parses a list with two fields: 'where', and an update expression
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-- (set/inc/etc).
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mkMultiRowUpdateParser ::
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forall pgKind r m n.
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MonadBuildSchema ('Postgres pgKind) r m n =>
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SourceInfo ('Postgres pgKind) ->
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TableInfo ('Postgres pgKind) ->
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UpdPermInfo ('Postgres pgKind) ->
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m (P.InputFieldsParser n (PGIR.BackendUpdate pgKind (IR.UnpreparedValue ('Postgres pgKind))))
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mkMultiRowUpdateParser sourceInfo tableInfo updatePerms = do
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tCase <- asks getter
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tableGQLName <- getTableIdentifierName tableInfo -- getTableGQLName tableInfo
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updatesObjectName <- mkTypename $ applyTypeNameCaseIdentifier tCase $ mkMultiRowUpdateTypeName tableGQLName
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fmap BackendMultiRowUpdate
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. P.field Name._updates (Just updatesDesc)
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. P.list
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. P.object updatesObjectName Nothing
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<$> do
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mruWhere <- P.field Name._where Nothing <$> boolExp sourceInfo tableInfo
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mruExpression <- updateOperators tableInfo updatePerms
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pure $ MultiRowUpdate <$> mruWhere <*> mruExpression
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where
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updatesDesc = "updates to execute, in order"
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buildFunctionRelayQueryFields ::
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forall r m n pgKind.
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( MonadBuildSchema ('Postgres pgKind) r m n,
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BackendTableSelectSchema ('Postgres pgKind)
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) =>
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MkRootFieldName ->
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SourceInfo ('Postgres pgKind) ->
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FunctionName ('Postgres pgKind) ->
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FunctionInfo ('Postgres pgKind) ->
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TableName ('Postgres pgKind) ->
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NESeq (ColumnInfo ('Postgres pgKind)) ->
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m [FieldParser n (QueryDB ('Postgres pgKind) (RemoteRelationshipField IR.UnpreparedValue) (IR.UnpreparedValue ('Postgres pgKind)))]
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buildFunctionRelayQueryFields mkRootFieldName sourceName functionName functionInfo tableName pkeyColumns = do
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let fieldDesc = Just $ G.Description $ "execute function " <> functionName <<> " which returns " <>> tableName
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fmap afold $
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optionalFieldParser QDBConnection $
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selectFunctionConnection mkRootFieldName sourceName functionInfo fieldDesc pkeyColumns
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----------------------------------------------------------------
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-- Individual components
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columnParser ::
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(MonadParse n, MonadError QErr m, MonadReader r m, Has MkTypename r, Has NamingCase r) =>
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ColumnType ('Postgres pgKind) ->
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G.Nullability ->
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m (Parser 'Both n (IR.ValueWithOrigin (ColumnValue ('Postgres pgKind))))
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columnParser columnType (G.Nullability isNullable) = do
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tCase <- asks getter
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-- TODO(PDV): It might be worth memoizing this function even though it isn’t
|
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-- recursive simply for performance reasons, since it’s likely to be hammered
|
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-- during schema generation. Need to profile to see whether or not it’s a win.
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peelWithOrigin . fmap (ColumnValue columnType) <$> case columnType of
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ColumnScalar scalarType ->
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possiblyNullable scalarType <$> do
|
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-- 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
|
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-- 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.
|
||
--
|
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-- TODO: introduce new dedicated scalars for Postgres column types.
|
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name <- mkScalarTypeName scalarType
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||
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 -> do
|
||
tableGQLName <- liftEither (getIdentifierQualifiedObject tableName)
|
||
name <- addEnumSuffix tableGQLName tableCustomName tCase
|
||
pure $ possiblyNullable PGText $ P.enum name Nothing (mkEnumValue tCase <$> enumValuesList)
|
||
Nothing -> throw400 ValidationFailed "empty enum values"
|
||
where
|
||
possiblyNullable scalarType
|
||
| isNullable = fmap (fromMaybe $ PGNull scalarType) . P.nullable
|
||
| otherwise = id
|
||
mkEnumValue :: NamingCase -> (EnumValue, EnumValueInfo) -> (P.Definition P.EnumValueInfo, PGScalarValue)
|
||
mkEnumValue tCase (EnumValue value, EnumValueInfo description) =
|
||
( P.Definition (applyEnumValueCase tCase value) (G.Description <$> description) Nothing [] P.EnumValueInfo,
|
||
PGValText $ G.unName value
|
||
)
|
||
|
||
pgScalarSelectionArgumentsParser ::
|
||
MonadParse n =>
|
||
ColumnType ('Postgres pgKind) ->
|
||
InputFieldsParser n (Maybe (ScalarSelectionArguments ('Postgres pgKind)))
|
||
pgScalarSelectionArgumentsParser columnType
|
||
| isScalarColumnWhere PG.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 $ PG.ColumnOp PG.jsonbPathOp $ PG.SEArray $ map elToColExp jPaths
|
||
elToColExp (Key k) = PG.SELit $ K.toText k
|
||
elToColExp (Index i) = PG.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",
|
||
(PG.OTAsc, PG.NullsLast)
|
||
),
|
||
( define (applyEnumValueCase tCase Name._asc_nulls_first) "in ascending order, nulls first",
|
||
(PG.OTAsc, PG.NullsFirst)
|
||
),
|
||
( define (applyEnumValueCase tCase Name._asc_nulls_last) "in ascending order, nulls last",
|
||
(PG.OTAsc, PG.NullsLast)
|
||
),
|
||
( define (applyEnumValueCase tCase Name._desc) "in descending order, nulls first",
|
||
(PG.OTDesc, PG.NullsFirst)
|
||
),
|
||
( define (applyEnumValueCase tCase Name._desc_nulls_first) "in descending order, nulls first",
|
||
(PG.OTDesc, PG.NullsFirst)
|
||
),
|
||
( define (applyEnumValueCase tCase Name._desc_nulls_last) "in descending order, nulls last",
|
||
(PG.OTDesc, PG.NullsLast)
|
||
)
|
||
]
|
||
where
|
||
define name desc = P.Definition name (Just desc) Nothing [] P.EnumValueInfo
|
||
|
||
comparisonExps ::
|
||
forall pgKind m n r.
|
||
( BackendSchema ('Postgres pgKind),
|
||
MonadMemoize m,
|
||
MonadParse n,
|
||
MonadError QErr m,
|
||
MonadReader r m,
|
||
Has SchemaOptions r,
|
||
Has MkTypename r,
|
||
Has NamingCase r
|
||
) =>
|
||
ColumnType ('Postgres pgKind) ->
|
||
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 $ PG.PGArray scalarType)
|
||
(PG.PGValArray $ cvValue <$> columnValues)
|
||
|
||
castExp :: ColumnType ('Postgres pgKind) -> NamingCase -> 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.
|
||
(MonadMemoize m, MonadParse n, MonadError QErr m, MonadReader r m, Has MkTypename r, Has NamingCase 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.
|
||
(MonadMemoize m, MonadParse n, MonadError QErr m, MonadReader r m, Has MkTypename r, Has NamingCase 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.
|
||
(MonadMemoize m, MonadParse n, MonadError QErr m, MonadReader r m, Has MkTypename r, Has NamingCase 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.
|
||
(MonadMemoize m, MonadParse n, MonadError QErr m, MonadReader r m, Has MkTypename r, Has NamingCase 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 = PG.CTStar
|
||
mkCountType IR.SelectCountDistinct (Just cols) = PG.CTDistinct cols
|
||
mkCountType IR.SelectCountNonDistinct (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,
|
||
MonadParse n,
|
||
Has MkTypename r,
|
||
Has NamingCase r
|
||
) =>
|
||
SU.UpdateOperator ('Postgres pgKind) 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 $$(G.litName "_prepend"))
|
||
typedParser
|
||
columns
|
||
desc
|
||
desc
|
||
|
||
-- | Update operator that appends a value to a column containing jsonb arrays.
|
||
--
|
||
-- Note: Currently this is Postgres specific because json columns have not been ported
|
||
-- to other backends yet.
|
||
appendOp ::
|
||
forall pgKind m n r.
|
||
( BackendSchema ('Postgres pgKind),
|
||
MonadReader r m,
|
||
MonadError QErr m,
|
||
MonadParse n,
|
||
Has MkTypename r,
|
||
Has NamingCase r
|
||
) =>
|
||
SU.UpdateOperator ('Postgres pgKind) m n (IR.UnpreparedValue ('Postgres pgKind))
|
||
appendOp = SU.UpdateOperator {..}
|
||
where
|
||
updateOperatorApplicableColumn = isScalarColumnWhere (== PGJSONB) . ciType
|
||
|
||
updateOperatorParser tableGQLName _tableName columns = do
|
||
let typedParser columnInfo =
|
||
fmap IR.mkParameter
|
||
<$> BS.columnParser
|
||
(ciType columnInfo)
|
||
(G.Nullability $ ciIsNullable columnInfo)
|
||
|
||
desc = "append existing jsonb value of filtered columns with new jsonb value"
|
||
SU.updateOperator
|
||
tableGQLName
|
||
(C.fromAutogeneratedName $$(G.litName "append"))
|
||
(C.fromAutogeneratedName $$(G.litName "_append"))
|
||
typedParser
|
||
columns
|
||
desc
|
||
desc
|
||
|
||
-- | Update operator that deletes a value at a specified key from a column
|
||
-- containing jsonb objects.
|
||
--
|
||
-- Note: Currently this is Postgres specific because json columns have not been ported
|
||
-- to other backends yet.
|
||
deleteKeyOp ::
|
||
forall pgKind m n r.
|
||
( BackendSchema ('Postgres pgKind),
|
||
MonadReader r m,
|
||
MonadError QErr m,
|
||
MonadParse n,
|
||
Has MkTypename r,
|
||
Has NamingCase r
|
||
) =>
|
||
SU.UpdateOperator ('Postgres pgKind) m n (IR.UnpreparedValue ('Postgres pgKind))
|
||
deleteKeyOp = SU.UpdateOperator {..}
|
||
where
|
||
updateOperatorApplicableColumn = isScalarColumnWhere (== PGJSONB) . ciType
|
||
|
||
updateOperatorParser tableGQLName _tableName columns = do
|
||
let nullableTextParser _ = fmap IR.mkParameter <$> columnParser (ColumnScalar PGText) (G.Nullability True)
|
||
desc = "delete key/value pair or string element. key/value pairs are matched based on their key value"
|
||
|
||
SU.updateOperator
|
||
tableGQLName
|
||
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["delete", "key"]))
|
||
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_delete", "key"]))
|
||
nullableTextParser
|
||
columns
|
||
desc
|
||
desc
|
||
|
||
-- | Update operator that deletes a value at a specific index from a column
|
||
-- containing jsonb arrays.
|
||
--
|
||
-- Note: Currently this is Postgres specific because json columns have not been ported
|
||
-- to other backends yet.
|
||
deleteElemOp ::
|
||
forall pgKind m n r.
|
||
( BackendSchema ('Postgres pgKind),
|
||
MonadReader r m,
|
||
MonadError QErr m,
|
||
MonadParse n,
|
||
Has MkTypename r,
|
||
Has NamingCase r
|
||
) =>
|
||
SU.UpdateOperator ('Postgres pgKind) m n (IR.UnpreparedValue ('Postgres pgKind))
|
||
deleteElemOp = SU.UpdateOperator {..}
|
||
where
|
||
updateOperatorApplicableColumn = isScalarColumnWhere (== PGJSONB) . ciType
|
||
|
||
updateOperatorParser tableGQLName _tableName columns = do
|
||
let nonNullableIntParser _ = fmap IR.mkParameter <$> columnParser (ColumnScalar PGInteger) (G.Nullability False)
|
||
desc =
|
||
"delete the array element with specified index (negative integers count from the end). "
|
||
<> "throws an error if top level container is not an array"
|
||
|
||
SU.updateOperator
|
||
tableGQLName
|
||
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["delete", "elem"]))
|
||
(C.fromAutogeneratedTuple $$(G.litGQLIdentifier ["_delete", "elem"]))
|
||
nonNullableIntParser
|
||
columns
|
||
desc
|
||
desc
|
||
|
||
-- | Update operator that deletes a field at a certan path from a column
|
||
-- containing jsonb objects.
|
||
--
|
||
-- Note: Currently this is Postgres specific because json columns have not been ported
|
||
-- to other backends yet.
|
||
deleteAtPathOp ::
|
||
forall pgKind m n r.
|
||
( BackendSchema ('Postgres pgKind),
|
||
MonadReader r m,
|
||
MonadError QErr m,
|
||
MonadParse n,
|
||
Has MkTypename r,
|
||
Has NamingCase r
|
||
) =>
|
||
SU.UpdateOperator ('Postgres pgKind) m n [IR.UnpreparedValue ('Postgres pgKind)]
|
||
deleteAtPathOp = SU.UpdateOperator {..}
|
||
where
|
||
updateOperatorApplicableColumn = isScalarColumnWhere (== PGJSONB) . ciType
|
||
|
||
updateOperatorParser tableGQLName _tableName columns = do
|
||
let nonNullableTextListParser _ = P.list . fmap IR.mkParameter <$> columnParser (ColumnScalar PGText) (G.Nullability False)
|
||
desc = "delete the field or element with specified path (for JSON arrays, negative integers count from the end)"
|
||
|
||
SU.updateOperator
|
||
tableGQLName
|
||
(C.fromAutogeneratedTuple $$(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) ->
|
||
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
|