mirror of
https://github.com/hasura/graphql-engine.git
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06a79b9e59
[GDC-1292]: https://hasurahq.atlassian.net/browse/GDC-1292?atlOrigin=eyJpIjoiNWRkNTljNzYxNjVmNDY3MDlhMDU5Y2ZhYzA5YTRkZjUiLCJwIjoiZ2l0aHViLWNvbS1KU1cifQ PR-URL: https://github.com/hasura/graphql-engine-mono/pull/9799 GitOrigin-RevId: 8138c6064bffe8af5228c293e28513962e980820
823 lines
27 KiB
Haskell
823 lines
27 KiB
Haskell
{-# LANGUAGE DeriveAnyClass #-}
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{-# LANGUAGE DuplicateRecordFields #-}
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{-# LANGUAGE UndecidableInstances #-}
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-- | This modules defines the tree of Select types: how we represent a query internally, from its top
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-- level 'QueryDB' down to each individual field. Most of those types have three type arguments:
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--
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-- b: BackendType
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-- The backend that is targeted by that specific select (Postgres Vanilla, MSSQL...); we use the
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-- type families in the Backend class to decide how different parts of the IR are represented in
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-- different backends.
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--
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-- v: Type
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-- The type of the leaf values in our AST; used almost exclusively for column values, over which
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-- queries can be parameterized. The output of the parser phase will use @UnpreparedValue b@ for
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-- the leaves, and most backends will then transform the AST to interpret those values and
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-- consequently change @v@ to be @SQLExpression b@
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--
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-- r: BackendType -> Type
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-- Joins across backends mean that the aforementioned @b@ parameter won't be the same throughout
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-- the entire tree; at some point we will have an 'AnyBackend' used to encapsulate a branch that
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-- uses a different @b@. We still want, however, to be able to parameterize the values of the
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-- leaves in that separate branch, and that's what the @r@ parameter is for. We also use
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-- 'UnpreparedValue' here during the parsing phase, meaning all leaf values will be
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-- @UnpreparedValue b@ for their respective backend @b@, and most backends will then transform
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-- their AST, cutting all such remote branches, and therefore using @Const Void@ for @r@.
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module Hasura.RQL.IR.Select
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( AggregateField (..),
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AggregateFields,
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AggregateOp (..),
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AnnAggregateSelect,
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AnnAggregateSelectG,
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AnnColumnField (..),
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AnnField,
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AnnFieldG (..),
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AnnFields,
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AnnFieldsG,
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AnnNestedObjectSelectG (..),
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AnnNestedObjectSelect,
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AnnNestedArraySelectG (..),
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AnnNestedArraySelect,
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AnnObjectSelect,
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AnnObjectSelectG (..),
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AnnSimpleSelect,
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AnnSimpleSelectG,
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AnnSimpleStreamSelect,
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AnnSimpleStreamSelectG,
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ArrayAggregateSelect,
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ArrayAggregateSelectG,
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ArrayConnectionSelect,
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ArrayRelationSelectG,
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ArraySelect,
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ArraySelectFieldsG,
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ArraySelectG (..),
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SelectionField (..),
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SelectionFields,
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ComputedFieldScalarSelect (..),
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ComputedFieldSelect (..),
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ConnectionField (..),
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ConnectionFields,
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ConnectionSelect (..),
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ConnectionSlice (..),
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ConnectionSplit (..),
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ConnectionSplitKind (..),
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EdgeField (..),
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EdgeFields,
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ObjectRelationSelect,
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ObjectRelationSelectG,
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PageInfoField (..),
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PageInfoFields,
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QueryDB (..),
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RemoteSourceSelect (..),
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RemoteRelationshipSelect (..),
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SourceRelationshipSelection (..),
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TableAggregateField,
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TableAggregateFieldG (..),
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TableAggregateFields,
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TableAggregateFieldsG,
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GroupByG (..),
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GroupByField (..),
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GroupKeyField (..),
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CountDistinct (..),
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insertFunctionArg,
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mkAnnColumnField,
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mkAnnColumnFieldAsText,
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traverseSourceRelationshipSelection,
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module Hasura.RQL.IR.Select.AnnSelectG,
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module Hasura.RQL.IR.Select.Args,
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module Hasura.RQL.IR.Select.From,
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module Hasura.RQL.IR.Select.OrderBy,
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module Hasura.RQL.IR.Select.TablePerm,
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module Hasura.RQL.IR.Select.RelationSelect,
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)
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where
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import Data.Bifoldable
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import Data.HashMap.Strict qualified as HashMap
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import Data.Kind (Type)
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import Data.List.NonEmpty qualified as NE
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import Data.Sequence qualified as Seq
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import Hasura.Function.Cache
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import Hasura.Prelude
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import Hasura.RQL.IR.BoolExp
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import Hasura.RQL.IR.OrderBy
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import Hasura.RQL.IR.Select.AnnSelectG
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import Hasura.RQL.IR.Select.Args
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import Hasura.RQL.IR.Select.From
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import Hasura.RQL.IR.Select.OrderBy
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import Hasura.RQL.IR.Select.RelationSelect
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import Hasura.RQL.IR.Select.TablePerm
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import Hasura.RQL.Types.Backend
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import Hasura.RQL.Types.BackendType
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import Hasura.RQL.Types.Column
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import Hasura.RQL.Types.Common
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import Hasura.RQL.Types.ComputedField
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import Hasura.RQL.Types.Instances ()
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import Hasura.RQL.Types.Relationships.Remote
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import Hasura.RQL.Types.Schema.Options (StringifyNumbers)
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-- Root selection
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data QueryDB (b :: BackendType) (r :: Type) v
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= QDBMultipleRows (AnnSimpleSelectG b r v)
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| QDBSingleRow (AnnSimpleSelectG b r v)
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| QDBAggregation (AnnAggregateSelectG b r v)
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| QDBConnection (ConnectionSelect b r v)
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| QDBStreamMultipleRows (AnnSimpleStreamSelectG b r v)
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deriving stock (Generic, Functor, Foldable, Traversable)
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instance (Backend b) => Bifoldable (QueryDB b) where
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bifoldMap f g = \case
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QDBMultipleRows annSel -> bifoldMapAnnSelectG f g annSel
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QDBSingleRow annSel -> bifoldMapAnnSelectG f g annSel
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QDBAggregation annSel -> bifoldMapAnnSelectG f g annSel
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QDBConnection connSel -> bifoldMap f g connSel
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QDBStreamMultipleRows annSel -> bifoldMapAnnSelectStreamG f g annSel
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-- Select
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type AnnSimpleSelectG b r v = AnnSelectG b (AnnFieldG b r) v
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type AnnAggregateSelectG b r v = AnnSelectG b (TableAggregateFieldG b r) v
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type AnnSimpleStreamSelectG b r v = AnnSelectStreamG b (AnnFieldG b r) v
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type AnnSimpleSelect b = AnnSimpleSelectG b Void (SQLExpression b)
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type AnnAggregateSelect b = AnnAggregateSelectG b Void (SQLExpression b)
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type AnnSimpleStreamSelect b = AnnSimpleStreamSelectG b Void (SQLExpression b)
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-- Relay select
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data ConnectionSelect (b :: BackendType) (r :: Type) v = ConnectionSelect
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{ _csXRelay :: XRelay b,
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_csPrimaryKeyColumns :: PrimaryKeyColumns b,
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_csSplit :: Maybe (NE.NonEmpty (ConnectionSplit b v)),
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_csSlice :: Maybe ConnectionSlice,
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_csSelect :: (AnnSelectG b (ConnectionField b r) v)
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}
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deriving stock (Functor, Foldable, Traversable)
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deriving stock instance
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( Backend b,
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Eq (AnnSelectG b (ConnectionField b r) v),
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Eq (ConnectionSlice),
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Eq (ConnectionSplit b v),
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Eq (PrimaryKeyColumns b)
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) =>
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Eq (ConnectionSelect b r v)
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deriving stock instance
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( Backend b,
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Show (AnnSelectG b (ConnectionField b r) v),
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Show (ConnectionSlice),
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Show (ConnectionSplit b v),
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Show (PrimaryKeyColumns b)
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) =>
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Show (ConnectionSelect b r v)
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instance (Backend b) => Bifoldable (ConnectionSelect b) where
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bifoldMap f g ConnectionSelect {..} =
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foldMap (foldMap $ foldMap g) _csSplit
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<> bifoldMapAnnSelectG f g _csSelect
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data ConnectionSplit (b :: BackendType) v = ConnectionSplit
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{ _csKind :: ConnectionSplitKind,
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_csValue :: v,
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_csOrderBy :: (OrderByItemG b (AnnotatedOrderByElement b v))
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}
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deriving stock (Functor, Generic, Foldable, Traversable)
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deriving stock instance
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( Backend b,
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Eq v,
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Eq (OrderByItemG b (AnnotatedOrderByElement b v))
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) =>
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Eq (ConnectionSplit b v)
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deriving stock instance
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( Backend b,
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Show v,
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Show (OrderByItemG b (AnnotatedOrderByElement b v))
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) =>
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Show (ConnectionSplit b v)
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instance
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( Backend b,
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Hashable v,
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Hashable (OrderByItemG b (AnnotatedOrderByElement b v))
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) =>
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Hashable (ConnectionSplit b v)
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data ConnectionSlice
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= SliceFirst Int
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| SliceLast Int
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deriving stock (Show, Eq, Generic)
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deriving anyclass (Hashable)
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data ConnectionSplitKind
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= CSKBefore
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| CSKAfter
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deriving stock (Show, Eq, Generic)
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deriving anyclass (Hashable)
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-- Fields
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-- | captures a remote relationship's selection and the necessary context
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data RemoteRelationshipSelect b r = RemoteRelationshipSelect
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{ -- | The fields on the table that are required for the join condition
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-- of the remote relationship
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_rrsLHSJoinFields :: HashMap FieldName (DBJoinField b),
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-- | The field that captures the relationship
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-- r ~ (RemoteRelationshipField UnpreparedValue) when the AST is emitted by the parser.
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-- r ~ Void when an execution tree is constructed so that a backend is
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-- absolved of dealing with remote relationships.
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_rrsRelationship :: r
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}
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deriving (Eq, Show, Functor, Foldable, Traversable)
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data AnnFieldG (b :: BackendType) (r :: Type) v
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= AFColumn (AnnColumnField b v)
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| AFObjectRelation (ObjectRelationSelectG b r v)
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| AFArrayRelation (ArraySelectG b r v)
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| AFComputedField (XComputedField b) ComputedFieldName (ComputedFieldSelect b r v)
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| -- | A remote relationship field
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AFRemote (RemoteRelationshipSelect b r)
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| AFNodeId (XRelay b) SourceName (TableName b) (PrimaryKeyColumns b)
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| AFExpression Text
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| -- | Nested object.
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AFNestedObject (AnnNestedObjectSelectG b r v) -- TODO(dmoverton): move XNestedObject to a field in AFNestedObject constructor for consistency with AFNestedArray
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| -- | Nested array
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AFNestedArray (XNestedObjects b) (AnnNestedArraySelectG b r v)
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deriving stock (Functor, Foldable, Traversable)
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deriving stock instance
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( Backend b,
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Eq (AnnColumnField b v),
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Eq (ArraySelectG b r v),
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Eq (ComputedFieldSelect b r v),
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Eq (ObjectRelationSelectG b r v),
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Eq (RemoteRelationshipSelect b r),
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Eq (AnnNestedObjectSelectG b r v),
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Eq (AnnNestedArraySelectG b r v)
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) =>
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Eq (AnnFieldG b r v)
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deriving stock instance
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( Backend b,
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Show (AnnColumnField b v),
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Show (ArraySelectG b r v),
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Show (ComputedFieldSelect b r v),
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Show (ObjectRelationSelectG b r v),
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Show (RemoteRelationshipSelect b r),
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Show (AnnNestedObjectSelectG b r v),
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Show (AnnNestedArraySelectG b r v)
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) =>
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Show (AnnFieldG b r v)
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instance (Backend b) => Bifoldable (AnnFieldG b) where
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bifoldMap f g = \case
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AFColumn col -> foldMap g col
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AFObjectRelation objRel -> foldMap (bifoldMap f g) objRel
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AFArrayRelation arrRel -> bifoldMap f g arrRel
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AFComputedField _ _ cf -> bifoldMap f g cf
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AFRemote r -> foldMap f r
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AFNodeId {} -> mempty
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AFExpression {} -> mempty
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AFNestedObject no -> bifoldMap f g no
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AFNestedArray _ na -> bifoldMap f g na
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type AnnField b = AnnFieldG b Void (SQLExpression b)
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type AnnFields b = AnnFieldsG b Void (SQLExpression b)
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mkAnnColumnField ::
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Column backend ->
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ColumnType backend ->
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Maybe (AnnColumnCaseBoolExp backend v) ->
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Maybe (ScalarSelectionArguments backend) ->
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AnnFieldG backend r v
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mkAnnColumnField col typ caseBoolExp colOpM =
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AFColumn (AnnColumnField col typ False colOpM caseBoolExp)
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mkAnnColumnFieldAsText ::
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ColumnInfo backend ->
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AnnFieldG backend r v
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mkAnnColumnFieldAsText ci =
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AFColumn (AnnColumnField (ciColumn ci) (ciType ci) True Nothing Nothing)
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traverseSourceRelationshipSelection ::
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(Applicative f, Backend backend) =>
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(vf backend -> f (vg backend)) ->
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SourceRelationshipSelection backend r vf ->
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f (SourceRelationshipSelection backend r vg)
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traverseSourceRelationshipSelection f = \case
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SourceRelationshipObject s ->
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SourceRelationshipObject <$> traverse f s
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SourceRelationshipArray s ->
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SourceRelationshipArray <$> traverse f s
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SourceRelationshipArrayAggregate s ->
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SourceRelationshipArrayAggregate <$> traverse f s
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-- Aggregation fields
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data TableAggregateFieldG (b :: BackendType) (r :: Type) v
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= TAFAgg (AggregateFields b v)
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| TAFNodes (XNodesAgg b) (AnnFieldsG b r v)
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| TAFGroupBy (XGroupBy b) (GroupByG b r v)
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| TAFExp Text
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deriving stock (Functor, Foldable, Traversable)
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deriving stock instance
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( Backend b,
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Eq (AggregateFields b v),
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Eq (AnnFieldsG b r v),
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Eq (GroupByG b r v)
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) =>
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Eq (TableAggregateFieldG b r v)
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deriving stock instance
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( Backend b,
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Show (AggregateFields b v),
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Show (AnnFieldsG b r v),
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Show (GroupByG b r v)
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) =>
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Show (TableAggregateFieldG b r v)
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instance (Backend b) => Bifoldable (TableAggregateFieldG b) where
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bifoldMap :: (Monoid m) => (r -> m) -> (v -> m) -> TableAggregateFieldG b r v -> m
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bifoldMap mapR mapV = \case
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TAFAgg aggFields -> foldMap (foldMap $ foldMap mapV) aggFields
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TAFNodes _ fields -> foldMap (foldMap $ bifoldMap mapR mapV) fields
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TAFGroupBy _ groupByFields -> bifoldMap mapR mapV groupByFields
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TAFExp {} -> mempty
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data AggregateField (b :: BackendType) v
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= AFCount (CountType b v)
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| AFOp (AggregateOp b v)
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| AFExp Text
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deriving stock instance (Backend b) => Functor (AggregateField b)
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deriving stock instance (Backend b) => Foldable (AggregateField b)
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deriving stock instance (Backend b) => Traversable (AggregateField b)
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deriving stock instance
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(Backend b, Eq (CountType b v), Eq (AggregateOp b v), Eq v) =>
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Eq (AggregateField b v)
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deriving stock instance
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(Backend b, Show (CountType b v), Show (AggregateOp b v), Show v) =>
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Show (AggregateField b v)
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data AggregateOp (b :: BackendType) v = AggregateOp
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{ _aoOp :: Text,
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_aoFields :: SelectionFields b v
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}
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deriving (Functor, Foldable, Traversable)
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deriving stock instance
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(Backend b, Eq (SelectionFields b v), Eq v) =>
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Eq (AggregateOp b v)
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deriving stock instance
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(Backend b, Show (SelectionFields b v), Show v) =>
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Show (AggregateOp b v)
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data GroupByG (b :: BackendType) r v = GroupByG
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{ _gbgKeys :: [GroupKeyField b],
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_gbgFields :: Fields (GroupByField b r v)
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}
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deriving (Functor, Foldable, Traversable)
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deriving stock instance (Backend b, Eq (GroupByField b r v), Eq (GroupKeyField b)) => Eq (GroupByG b r v)
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deriving stock instance (Backend b, Show (GroupByField b r v), Show (GroupKeyField b)) => Show (GroupByG b r v)
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instance (Backend b) => Bifoldable (GroupByG b) where
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bifoldMap :: (Monoid m) => (r -> m) -> (v -> m) -> GroupByG b r v -> m
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bifoldMap mapR mapV GroupByG {..} =
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foldMap (foldMap $ bifoldMap mapR mapV) _gbgFields
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data GroupByField (b :: BackendType) r v
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= GBFGroupKey (Fields (GroupKeyField b))
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| GBFAggregate (AggregateFields b v)
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| GBFNodes (AnnFieldsG b r v)
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| GBFExp Text
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deriving (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance (Backend b, Eq (GroupKeyField b), Eq (AggregateField b v), Eq (AnnFieldG b r v)) => Eq (GroupByField b r v)
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||
|
||
deriving stock instance (Backend b, Show (GroupKeyField b), Show (AggregateField b v), Show (AnnFieldG b r v)) => Show (GroupByField b r v)
|
||
|
||
instance (Backend b) => Bifoldable (GroupByField b) where
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bifoldMap :: (Monoid m) => (r -> m) -> (v -> m) -> GroupByField b r v -> m
|
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bifoldMap mapR mapV = \case
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GBFGroupKey _groupKeyFields -> mempty
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GBFAggregate aggFields -> foldMap (foldMap $ foldMap mapV) aggFields
|
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GBFNodes fields -> foldMap (foldMap $ bifoldMap mapR mapV) fields
|
||
GBFExp _text -> mempty
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||
|
||
data GroupKeyField (b :: BackendType)
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||
= GKFColumn (Column b)
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||
| GKFExp Text
|
||
|
||
deriving stock instance (Backend b) => Eq (GroupKeyField b)
|
||
|
||
deriving stock instance (Backend b) => Show (GroupKeyField b)
|
||
|
||
-- | Types of fields that can be selected in a user query.
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data SelectionField (b :: BackendType) v
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||
= SFCol
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(Column b)
|
||
(ColumnType b)
|
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-- | This type is used to determine whether the column
|
||
-- should be nullified. When the value is `Nothing`, the column value
|
||
-- will be outputted as computed and when the value is `Just c`, the
|
||
-- column will be outputted when `c` evaluates to `true` and `null`
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-- when `c` evaluates to `false`.
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||
(Maybe (AnnColumnCaseBoolExp b v))
|
||
| SFComputedField ComputedFieldName (ComputedFieldScalarSelect b v)
|
||
| SFExp Text
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deriving (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance
|
||
(Backend b, Eq (FunctionArgumentExp b v), Eq (AnnColumnCaseBoolExp b v), Eq v) =>
|
||
Eq (SelectionField b v)
|
||
|
||
deriving stock instance
|
||
(Backend b, Show (FunctionArgumentExp b v), Show (AnnColumnCaseBoolExp b v), Show v) =>
|
||
Show (SelectionField b v)
|
||
|
||
type TableAggregateField b = TableAggregateFieldG b Void (SQLExpression b)
|
||
|
||
type TableAggregateFields b = TableAggregateFieldsG b Void (SQLExpression b)
|
||
|
||
type TableAggregateFieldsG b r v = Fields (TableAggregateFieldG b r v)
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||
|
||
type SelectionFields b v = Fields (SelectionField b v)
|
||
|
||
type AggregateFields b v = Fields (AggregateField b v)
|
||
|
||
type AnnFieldsG b r v = Fields (AnnFieldG b r v)
|
||
|
||
-- Relay fields
|
||
|
||
data ConnectionField (b :: BackendType) (r :: Type) v
|
||
= ConnectionTypename Text
|
||
| ConnectionPageInfo PageInfoFields
|
||
| ConnectionEdges (EdgeFields b r v)
|
||
deriving stock (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance
|
||
( Eq (EdgeFields b r v)
|
||
) =>
|
||
Eq (ConnectionField b r v)
|
||
|
||
deriving stock instance
|
||
( Show (EdgeFields b r v)
|
||
) =>
|
||
Show (ConnectionField b r v)
|
||
|
||
instance (Backend b) => Bifoldable (ConnectionField b) where
|
||
bifoldMap f g = \case
|
||
ConnectionTypename {} -> mempty
|
||
ConnectionPageInfo {} -> mempty
|
||
ConnectionEdges edgeFields -> foldMap (foldMap $ bifoldMap f g) edgeFields
|
||
|
||
data PageInfoField
|
||
= PageInfoTypename Text
|
||
| PageInfoHasNextPage
|
||
| PageInfoHasPreviousPage
|
||
| PageInfoStartCursor
|
||
| PageInfoEndCursor
|
||
deriving stock (Show, Eq)
|
||
|
||
data EdgeField (b :: BackendType) (r :: Type) v
|
||
= EdgeTypename Text
|
||
| EdgeCursor
|
||
| EdgeNode (AnnFieldsG b r v)
|
||
deriving stock (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance
|
||
( Eq (AnnFieldsG b r v)
|
||
) =>
|
||
Eq (EdgeField b r v)
|
||
|
||
deriving stock instance
|
||
( Show (AnnFieldsG b r v)
|
||
) =>
|
||
Show (EdgeField b r v)
|
||
|
||
instance (Backend b) => Bifoldable (EdgeField b) where
|
||
bifoldMap f g = \case
|
||
EdgeTypename {} -> mempty
|
||
EdgeCursor -> mempty
|
||
EdgeNode annFields -> foldMap (foldMap $ bifoldMap f g) annFields
|
||
|
||
type ConnectionFields b r v = Fields (ConnectionField b r v)
|
||
|
||
type PageInfoFields = Fields PageInfoField
|
||
|
||
type EdgeFields b r v = Fields (EdgeField b r v)
|
||
|
||
data AnnColumnField (b :: BackendType) v = AnnColumnField
|
||
{ _acfColumn :: Column b,
|
||
_acfType :: ColumnType b,
|
||
-- | If this field is 'True', columns are explicitly casted to @text@ when
|
||
-- fetched, which avoids an issue that occurs because we don’t currently
|
||
-- have proper support for array types. See
|
||
-- https://github.com/hasura/graphql-engine/pull/3198 for more details.
|
||
_acfAsText :: Bool,
|
||
-- | Arguments of this column's selection. See 'ScalarSelectionArguments'
|
||
_acfArguments :: Maybe (ScalarSelectionArguments b),
|
||
-- | This type is used to determine whether the column
|
||
-- should be nullified. When the value is `Nothing`, the column value
|
||
-- will be outputted as computed and when the value is `Just c`, the
|
||
-- column will be outputted when `c` evaluates to `true` and `null`
|
||
-- when `c` evaluates to `false`.
|
||
_acfCaseBoolExpression :: (Maybe (AnnColumnCaseBoolExp b v))
|
||
}
|
||
deriving stock (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Eq (AnnColumnCaseBoolExp b v)
|
||
) =>
|
||
Eq (AnnColumnField b v)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Show (AnnColumnCaseBoolExp b v)
|
||
) =>
|
||
Show (AnnColumnField b v)
|
||
|
||
-- Computed field
|
||
|
||
data ComputedFieldScalarSelect (b :: BackendType) v = ComputedFieldScalarSelect
|
||
{ _cfssFunction :: FunctionName b,
|
||
_cfssArguments :: FunctionArgsExp b v,
|
||
_cfssType :: ScalarType b,
|
||
_cfssScalarArguments :: (Maybe (ScalarSelectionArguments b)),
|
||
-- | This type is used to determine if whether the scalar
|
||
-- computed field should be nullified. When the value is `Nothing`,
|
||
-- the scalar computed value will be outputted as computed and when the
|
||
-- value is `Just c`, the scalar computed field will be outputted when
|
||
-- `c` evaluates to `true` and `null` when `c` evaluates to `false`
|
||
_cfssCaseBoolExpression :: Maybe (AnnColumnCaseBoolExp b v)
|
||
}
|
||
deriving stock (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Show v,
|
||
Show (FunctionArgumentExp b v),
|
||
Show (AnnColumnCaseBoolExp b v)
|
||
) =>
|
||
Show (ComputedFieldScalarSelect b v)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Eq v,
|
||
Eq (FunctionArgumentExp b v),
|
||
Eq (AnnColumnCaseBoolExp b v)
|
||
) =>
|
||
Eq (ComputedFieldScalarSelect b v)
|
||
|
||
data ComputedFieldSelect (b :: BackendType) (r :: Type) v
|
||
= CFSScalar
|
||
-- | Type containing info about the computed field
|
||
(ComputedFieldScalarSelect b v)
|
||
| CFSTable JsonAggSelect (AnnSimpleSelectG b r v)
|
||
deriving stock (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Eq (AnnSimpleSelectG b r v),
|
||
Eq (ComputedFieldScalarSelect b v)
|
||
) =>
|
||
Eq (ComputedFieldSelect b r v)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Show (AnnSimpleSelectG b r v),
|
||
Show (ComputedFieldScalarSelect b v)
|
||
) =>
|
||
Show (ComputedFieldSelect b r v)
|
||
|
||
instance (Backend b) => Bifoldable (ComputedFieldSelect b) where
|
||
bifoldMap f g = \case
|
||
CFSScalar cfsSelect -> foldMap g cfsSelect
|
||
CFSTable _ simpleSelect -> bifoldMapAnnSelectG f g simpleSelect
|
||
|
||
-- Local relationship
|
||
|
||
type ArrayRelationSelectG b r v = AnnRelationSelectG b (AnnSimpleSelectG b r v)
|
||
|
||
type ArrayAggregateSelectG b r v = AnnRelationSelectG b (AnnAggregateSelectG b r v)
|
||
|
||
type ArrayConnectionSelect b r v = AnnRelationSelectG b (ConnectionSelect b r v)
|
||
|
||
type ArrayAggregateSelect b = ArrayAggregateSelectG b Void (SQLExpression b)
|
||
|
||
data AnnObjectSelectG (b :: BackendType) (r :: Type) v = AnnObjectSelectG
|
||
{ _aosFields :: AnnFieldsG b r v,
|
||
_aosTarget :: SelectFromG b v,
|
||
_aosTargetFilter :: (AnnBoolExp b v)
|
||
}
|
||
deriving stock (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Eq (SelectFromG b v),
|
||
Eq (AnnBoolExp b v),
|
||
Eq (AnnFieldsG b r v)
|
||
) =>
|
||
Eq (AnnObjectSelectG b r v)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Show (SelectFromG b v),
|
||
Show (AnnBoolExp b v),
|
||
Show (AnnFieldsG b r v)
|
||
) =>
|
||
Show (AnnObjectSelectG b r v)
|
||
|
||
instance (Backend b) => Bifoldable (AnnObjectSelectG b) where
|
||
bifoldMap f g AnnObjectSelectG {..} =
|
||
foldMap (foldMap $ bifoldMap f g) _aosFields <> foldMap (foldMap g) _aosTargetFilter
|
||
|
||
type AnnObjectSelect b r = AnnObjectSelectG b r (SQLExpression b)
|
||
|
||
type ObjectRelationSelectG b r v = AnnRelationSelectG b (AnnObjectSelectG b r v)
|
||
|
||
type ObjectRelationSelect b = ObjectRelationSelectG b Void (SQLExpression b)
|
||
|
||
data ArraySelectG (b :: BackendType) (r :: Type) v
|
||
= ASSimple (ArrayRelationSelectG b r v)
|
||
| ASAggregate (ArrayAggregateSelectG b r v)
|
||
| ASConnection (ArrayConnectionSelect b r v)
|
||
deriving stock (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance
|
||
( Eq (ArrayRelationSelectG b r v),
|
||
Eq (ArrayAggregateSelectG b r v),
|
||
Eq (ArrayConnectionSelect b r v)
|
||
) =>
|
||
Eq (ArraySelectG b r v)
|
||
|
||
deriving stock instance
|
||
( Show (ArrayRelationSelectG b r v),
|
||
Show (ArrayAggregateSelectG b r v),
|
||
Show (ArrayConnectionSelect b r v)
|
||
) =>
|
||
Show (ArraySelectG b r v)
|
||
|
||
instance (Backend b) => Bifoldable (ArraySelectG b) where
|
||
bifoldMap f g = \case
|
||
ASSimple arrayRelationSelect -> foldMap (bifoldMapAnnSelectG f g) arrayRelationSelect
|
||
ASAggregate arrayAggregateSelect -> foldMap (bifoldMapAnnSelectG f g) arrayAggregateSelect
|
||
ASConnection arrayConnectionSelect -> foldMap (bifoldMap f g) arrayConnectionSelect
|
||
|
||
type ArraySelect b = ArraySelectG b Void (SQLExpression b)
|
||
|
||
type ArraySelectFieldsG b r v = Fields (ArraySelectG b r v)
|
||
|
||
-- | Captures the selection set of a remote source relationship.
|
||
data
|
||
SourceRelationshipSelection
|
||
(b :: BackendType)
|
||
(r :: Type)
|
||
(vf :: BackendType -> Type)
|
||
= SourceRelationshipObject (AnnObjectSelectG b r (vf b))
|
||
| SourceRelationshipArray (AnnSimpleSelectG b r (vf b))
|
||
| SourceRelationshipArrayAggregate (AnnAggregateSelectG b r (vf b))
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Eq (AnnAggregateSelectG b r (vf b)),
|
||
Eq (AnnObjectSelectG b r (vf b)),
|
||
Eq (AnnSimpleSelectG b r (vf b))
|
||
) =>
|
||
Eq (SourceRelationshipSelection b r vf)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Show (AnnAggregateSelectG b r (vf b)),
|
||
Show (AnnObjectSelectG b r (vf b)),
|
||
Show (AnnSimpleSelectG b r (vf b))
|
||
) =>
|
||
Show (SourceRelationshipSelection b r vf)
|
||
|
||
-- | A relationship to a remote source. 'vf' (could use a better name) is
|
||
-- analogous to 'v' in other IR types such as 'AnnFieldG'. vf's kind is
|
||
-- (BackendType -> Type) instead of v's 'Type' so that 'v' of 'AnnFieldG' can
|
||
-- be specific to the backend that it captures ('b' of an AnnFieldG changes as
|
||
-- we walk down the IR branches which capture relationships to other databases)
|
||
data
|
||
RemoteSourceSelect
|
||
(r :: Type)
|
||
(vf :: BackendType -> Type)
|
||
(tgt :: BackendType) = RemoteSourceSelect
|
||
{ _rssName :: SourceName,
|
||
_rssConfig :: SourceConfig tgt,
|
||
_rssSelection :: SourceRelationshipSelection tgt r vf,
|
||
-- | Additional information about the source's join columns:
|
||
-- (ScalarType tgt) so that the remote can interpret the join values coming
|
||
-- from src
|
||
-- (Column tgt) so that an appropriate join condition / IN clause can be built
|
||
-- by the remote
|
||
_rssJoinMapping :: (HashMap.HashMap FieldName (ScalarType tgt, Column tgt)),
|
||
_rssStringifyNums :: StringifyNumbers
|
||
}
|
||
|
||
deriving stock instance
|
||
( Backend tgt,
|
||
Eq (SourceRelationshipSelection tgt r vf)
|
||
) =>
|
||
Eq (RemoteSourceSelect r vf tgt)
|
||
|
||
deriving stock instance
|
||
( Backend tgt,
|
||
Show (SourceRelationshipSelection tgt r vf),
|
||
Show (SourceConfig tgt)
|
||
) =>
|
||
Show (RemoteSourceSelect r vf tgt)
|
||
|
||
-- Nested objects
|
||
|
||
data AnnNestedObjectSelectG (b :: BackendType) (r :: Type) v = AnnNestedObjectSelectG
|
||
{ _anosSupportsNestedObjects :: XNestedObjects b,
|
||
_anosColumn :: Column b,
|
||
_anosFields :: AnnFieldsG b r v
|
||
}
|
||
deriving stock (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Eq (AnnFieldsG b r v)
|
||
) =>
|
||
Eq (AnnNestedObjectSelectG b r v)
|
||
|
||
deriving stock instance
|
||
( Backend b,
|
||
Show (AnnFieldsG b r v)
|
||
) =>
|
||
Show (AnnNestedObjectSelectG b r v)
|
||
|
||
instance (Backend b) => Bifoldable (AnnNestedObjectSelectG b) where
|
||
bifoldMap f g AnnNestedObjectSelectG {..} =
|
||
foldMap (foldMap $ bifoldMap f g) _anosFields
|
||
|
||
type AnnNestedObjectSelect b r = AnnNestedObjectSelectG b r (SQLExpression b)
|
||
|
||
-- Nested arrays
|
||
|
||
data AnnNestedArraySelectG (b :: BackendType) (r :: Type) v
|
||
= ANASSimple (AnnFieldG b r v)
|
||
| ANASAggregate (AnnAggregateSelectG b r v)
|
||
deriving stock (Functor, Foldable, Traversable)
|
||
|
||
deriving stock instance
|
||
(Backend b, Eq (AnnFieldG b r v), Eq (AnnAggregateSelectG b r v)) => Eq (AnnNestedArraySelectG b r v)
|
||
|
||
deriving stock instance
|
||
(Backend b, Show (AnnFieldG b r v), Show (AnnAggregateSelectG b r v)) => Show (AnnNestedArraySelectG b r v)
|
||
|
||
instance (Backend b) => Bifoldable (AnnNestedArraySelectG b) where
|
||
bifoldMap f g = \case
|
||
ANASSimple field -> bifoldMap f g field
|
||
ANASAggregate agg -> bifoldMapAnnSelectG f g agg
|
||
|
||
type AnnNestedArraySelect b r = AnnNestedArraySelectG b r (SQLExpression b)
|
||
|
||
-- | If argument positional index is less than or equal to length of
|
||
-- 'positional' arguments then insert the value in 'positional' arguments else
|
||
-- insert the value with argument name in 'named' arguments
|
||
insertFunctionArg ::
|
||
FunctionArgName ->
|
||
Int ->
|
||
a ->
|
||
FunctionArgsExpG a ->
|
||
FunctionArgsExpG a
|
||
insertFunctionArg argName idx value (FunctionArgsExp positional named) =
|
||
if (idx + 1) <= length positional
|
||
then FunctionArgsExp (insertAt idx value positional) named
|
||
else
|
||
FunctionArgsExp positional
|
||
$ HashMap.insert (getFuncArgNameTxt argName) value named
|
||
where
|
||
insertAt i a = toList . Seq.insertAt i a . Seq.fromList
|
||
|
||
-- | The "distinct" input field inside "count" aggregate field
|
||
--
|
||
-- count (
|
||
-- distinct: Boolean
|
||
-- ): Int
|
||
data CountDistinct
|
||
= SelectCountDistinct
|
||
| SelectCountNonDistinct
|