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90d3192df2
PR-URL: https://github.com/hasura/graphql-engine-mono/pull/2903 Co-authored-by: Vamshi Surabhi <6562944+0x777@users.noreply.github.com> GitOrigin-RevId: 11fd6efe8cea246471e525cfb5bad66fa53ccaf9
1227 lines
49 KiB
Haskell
1227 lines
49 KiB
Haskell
{-# LANGUAGE ViewPatterns #-}
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-- | Translate from the DML to the TSql dialect.
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--
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-- We use 'StateT' (newtype 'FromIr') as the base monad for all operations, since
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-- state is used to mangle names such that the scope of identifiers in the IR is
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-- preserved in the resulting TSQL.
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--
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-- For the MSSQL backend, a supported subset of the constructs that make
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-- up its TSQL dialect are represented in the form of data-types in the
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-- Hasura.Backends.MSSQL.Types module. In this module, we translate from RQL to
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-- those TSQL types. And in 'ToQuery' we render/serialize/print the TSQL types to
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-- query-strings that are suitable to be executed on the actual MSSQL database.
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--
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-- In places where a series of transations are scoped under a context, we use
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-- 'ReaderT'. For example, such translations as pertaining to a table with an
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-- alias, will require the alias for their translation operations, like qualified
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-- equality checks under where clauses, etc., perhaps below multiple layers of
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-- nested function calls.
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module Hasura.Backends.MSSQL.FromIr
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( fromSelectRows,
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mkSQLSelect,
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fromRootField,
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fromSelectAggregate,
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fromGBoolExp,
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Error (..),
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runFromIr,
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FromIr,
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jsonFieldName,
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fromInsert,
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fromDelete,
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toSelectIntoTempTable,
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)
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where
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import Control.Monad.Validate
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import Data.HashMap.Strict qualified as HM
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import Data.Map.Strict (Map)
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import Data.Map.Strict qualified as M
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import Data.Proxy
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import Data.Text qualified as T
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import Database.ODBC.SQLServer qualified as ODBC
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import Hasura.Backends.MSSQL.Instances.Types ()
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import Hasura.Backends.MSSQL.Types.Insert as TSQL (MSSQLExtraInsertData (..))
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import Hasura.Backends.MSSQL.Types.Internal as TSQL
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import Hasura.Prelude
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import Hasura.RQL.IR qualified as IR
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import Hasura.RQL.Types.Column qualified as IR
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import Hasura.RQL.Types.Common qualified as IR
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import Hasura.RQL.Types.Relationships.Local qualified as IR
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import Hasura.SQL.Backend
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import Language.GraphQL.Draft.Syntax (unName)
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--------------------------------------------------------------------------------
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-- Types
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-- | Most of these errors should be checked for legitimacy.
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data Error
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= UnsupportedOpExpG (IR.OpExpG 'MSSQL Expression)
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| FunctionNotSupported
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| NodesUnsupportedForNow
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| ConnectionsNotSupported
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deriving (Show, Eq)
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-- | The base monad used throughout this module for all conversion
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-- functions.
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--
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-- It's a Validate, so it'll continue going when it encounters errors
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-- to accumulate as many as possible.
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--
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-- It also contains a mapping from entity prefixes to counters. So if
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-- my prefix is "table" then there'll be a counter that lets me
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-- generate table1, table2, etc. Same for any other prefix needed
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-- (e.g. names for joins).
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--
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-- A ReaderT is used around this in most of the module too, for
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-- setting the current entity that a given field name refers to. See
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-- @fromPGCol@.
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newtype FromIr a = FromIr
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{ unFromIr :: StateT (Map Text Int) (Validate (NonEmpty Error)) a
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}
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deriving (Functor, Applicative, Monad, MonadValidate (NonEmpty Error))
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data StringifyNumbers
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= StringifyNumbers
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| LeaveNumbersAlone
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deriving (Eq)
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--------------------------------------------------------------------------------
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-- Runners
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runFromIr :: FromIr a -> Validate (NonEmpty Error) a
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runFromIr fromIr = evalStateT (unFromIr fromIr) mempty
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--------------------------------------------------------------------------------
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-- Similar rendition of old API
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mkSQLSelect ::
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IR.JsonAggSelect ->
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IR.AnnSelectG 'MSSQL (Const Void) (IR.AnnFieldG 'MSSQL (Const Void)) Expression ->
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FromIr TSQL.Select
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mkSQLSelect jsonAggSelect annSimpleSel =
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case jsonAggSelect of
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IR.JASMultipleRows -> fromSelectRows annSimpleSel
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IR.JASSingleObject ->
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fromSelectRows annSimpleSel <&> \sel ->
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sel
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{ selectFor =
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JsonFor
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ForJson {jsonCardinality = JsonSingleton, jsonRoot = NoRoot},
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selectTop = Top 1
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}
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-- | Convert from the IR database query into a select.
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fromRootField :: IR.QueryDB 'MSSQL (Const Void) Expression -> FromIr Select
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fromRootField =
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\case
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(IR.QDBSingleRow s) -> mkSQLSelect IR.JASSingleObject s
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(IR.QDBMultipleRows s) -> mkSQLSelect IR.JASMultipleRows s
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(IR.QDBAggregation s) -> fromSelectAggregate Nothing s
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--------------------------------------------------------------------------------
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-- Top-level exported functions
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-- | Top/root-level 'Select'. All descendent/sub-translations are collected to produce a root TSQL.Select.
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fromSelectRows :: IR.AnnSelectG 'MSSQL (Const Void) (IR.AnnFieldG 'MSSQL (Const Void)) Expression -> FromIr TSQL.Select
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fromSelectRows annSelectG = do
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selectFrom <-
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case from of
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IR.FromTable qualifiedObject -> fromQualifiedTable qualifiedObject
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IR.FromIdentifier identifier -> pure $ FromIdentifier identifier
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IR.FromFunction {} -> refute $ pure FunctionNotSupported
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Args
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{ argsOrderBy,
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argsWhere,
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argsJoins,
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argsTop,
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argsDistinct = Proxy,
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argsOffset,
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argsExistingJoins
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} <-
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runReaderT (fromSelectArgsG args) (fromAlias selectFrom)
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fieldSources <-
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runReaderT
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(traverse (fromAnnFieldsG argsExistingJoins stringifyNumbers) fields)
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(fromAlias selectFrom)
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filterExpression <-
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runReaderT (fromGBoolExp permFilter) (fromAlias selectFrom)
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let selectProjections =
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concatMap (toList . fieldSourceProjections) fieldSources
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pure $
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emptySelect
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{ selectOrderBy = argsOrderBy,
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selectTop = permissionBasedTop <> argsTop,
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selectProjections,
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selectFrom = Just selectFrom,
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selectJoins = argsJoins <> mapMaybe fieldSourceJoin fieldSources,
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selectWhere = argsWhere <> Where [filterExpression],
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selectFor =
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JsonFor ForJson {jsonCardinality = JsonArray, jsonRoot = NoRoot},
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selectOffset = argsOffset
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}
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where
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IR.AnnSelectG
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{ _asnFields = fields,
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_asnFrom = from,
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_asnPerm = perm,
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_asnArgs = args,
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_asnStrfyNum = num
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} = annSelectG
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IR.TablePerm {_tpLimit = mPermLimit, _tpFilter = permFilter} = perm
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permissionBasedTop =
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maybe NoTop Top mPermLimit
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stringifyNumbers =
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if num
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then StringifyNumbers
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else LeaveNumbersAlone
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mkNodesSelect :: Args -> Where -> Expression -> Top -> From -> [(Int, (IR.FieldName, [Projection]))] -> [(Int, [Projection])]
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mkNodesSelect Args {..} foreignKeyConditions filterExpression permissionBasedTop selectFrom nodes =
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[ ( index,
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[ ExpressionProjection $
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Aliased
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{ aliasedThing =
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SelectExpression $
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emptySelect
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{ selectProjections = projections,
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selectTop = permissionBasedTop <> argsTop,
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selectFrom = pure selectFrom,
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selectJoins = argsJoins,
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selectWhere = argsWhere <> Where [filterExpression] <> foreignKeyConditions,
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selectFor =
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JsonFor ForJson {jsonCardinality = JsonArray, jsonRoot = NoRoot},
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selectOrderBy = argsOrderBy,
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selectOffset = argsOffset
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},
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aliasedAlias = IR.getFieldNameTxt fieldName
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}
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] -- singleton
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)
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| (index, (fieldName, projections)) <- nodes
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]
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--
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-- The idea here is that LIMIT/OFFSET and aggregates don't mix
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-- well. Therefore we have a nested query:
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--
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-- select sum(*), .. FROM (select * from x offset o limit l) p
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--
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-- That's why @projections@ appears on the outer, and is a
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-- @StarProjection@ for the inner. But the joins, conditions, top,
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-- offset are on the inner.
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--
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mkAggregateSelect :: Args -> Where -> From -> [(Int, (IR.FieldName, [Projection]))] -> [(Int, [Projection])]
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mkAggregateSelect Args {..} foreignKeyConditions selectFrom aggregates =
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[ ( index,
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[ ExpressionProjection $
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Aliased
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{ aliasedThing =
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JsonQueryExpression $
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SelectExpression $
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emptySelect
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{ selectProjections = projections,
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selectTop = NoTop,
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selectFrom =
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pure $
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FromSelect
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Aliased
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{ aliasedAlias = aggSubselectName,
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aliasedThing =
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emptySelect
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{ selectProjections = pure StarProjection,
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selectTop = argsTop,
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selectFrom = pure selectFrom,
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selectJoins = argsJoins,
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selectWhere = argsWhere <> foreignKeyConditions,
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selectFor = NoFor,
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selectOrderBy = mempty,
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selectOffset = argsOffset
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}
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},
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selectJoins = mempty,
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selectWhere = mempty,
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selectFor =
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JsonFor
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ForJson
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{ jsonCardinality = JsonSingleton,
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jsonRoot = NoRoot
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},
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selectOrderBy = mempty,
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selectOffset = Nothing
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},
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aliasedAlias = IR.getFieldNameTxt fieldName
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}
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] -- singleton
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)
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| (index, (fieldName, projections)) <- aggregates
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]
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fromSelectAggregate ::
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Maybe (EntityAlias, HashMap ColumnName ColumnName) ->
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IR.AnnSelectG 'MSSQL (Const Void) (IR.TableAggregateFieldG 'MSSQL (Const Void)) Expression ->
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FromIr TSQL.Select
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fromSelectAggregate
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mparentRelationship
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IR.AnnSelectG
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{ _asnFields = (zip [0 ..] -> fields),
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_asnFrom = from,
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_asnPerm = IR.TablePerm {_tpLimit = (maybe NoTop Top -> permissionBasedTop), _tpFilter = permFilter},
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_asnArgs = args,
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_asnStrfyNum = (bool LeaveNumbersAlone StringifyNumbers -> stringifyNumbers)
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} =
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do
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selectFrom <- case from of
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IR.FromTable qualifiedObject -> fromQualifiedTable qualifiedObject
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IR.FromIdentifier identifier -> pure $ FromIdentifier identifier
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IR.FromFunction {} -> refute $ pure FunctionNotSupported
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-- Below: When we're actually a RHS of a query (of CROSS APPLY),
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-- then we'll have a LHS table that we're joining on. So we get the
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-- conditions expressions from the field mappings. The LHS table is
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-- the entityAlias, and the RHS table is selectFrom.
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mforeignKeyConditions <- fmap (Where . fromMaybe []) $
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for mparentRelationship $
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\(entityAlias, mapping) ->
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runReaderT (fromMapping selectFrom mapping) entityAlias
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filterExpression <- runReaderT (fromGBoolExp permFilter) (fromAlias selectFrom)
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args'@Args {argsExistingJoins} <-
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runReaderT (fromSelectArgsG args) (fromAlias selectFrom)
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-- Although aggregates, exps and nodes could be handled in one list,
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-- we need to separately treat the subselect expressions
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expss :: [(Int, [Projection])] <- flip runReaderT (fromAlias selectFrom) $ sequence $ mapMaybe fromTableExpFieldG fields
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nodes :: [(Int, (IR.FieldName, [Projection]))] <-
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flip runReaderT (fromAlias selectFrom) $ sequence $ mapMaybe (fromTableNodesFieldG argsExistingJoins stringifyNumbers) fields
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let aggregates :: [(Int, (IR.FieldName, [Projection]))] = mapMaybe fromTableAggFieldG fields
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pure
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emptySelect
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{ selectProjections =
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concatMap snd $
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sortBy (comparing fst) $
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expss
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<> mkNodesSelect args' mforeignKeyConditions filterExpression permissionBasedTop selectFrom nodes
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<> mkAggregateSelect args' mforeignKeyConditions selectFrom aggregates,
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selectTop = NoTop,
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selectFrom =
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pure $
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FromOpenJson $
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Aliased
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{ aliasedThing =
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OpenJson
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{ openJsonExpression = ValueExpression $ ODBC.TextValue "[0]",
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openJsonWith = Nothing
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},
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aliasedAlias = existsFieldName
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},
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selectJoins = mempty, -- JOINs and WHEREs are only relevant in subselects
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selectWhere = mempty,
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selectFor = JsonFor ForJson {jsonCardinality = JsonSingleton, jsonRoot = NoRoot},
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selectOrderBy = Nothing,
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selectOffset = Nothing
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}
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--------------------------------------------------------------------------------
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-- GraphQL Args
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data Args = Args
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{ argsWhere :: Where,
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argsOrderBy :: Maybe (NonEmpty OrderBy),
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argsJoins :: [Join],
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argsTop :: Top,
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argsOffset :: Maybe Expression,
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argsDistinct :: Proxy (Maybe (NonEmpty FieldName)),
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argsExistingJoins :: Map TableName EntityAlias
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}
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deriving (Show)
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data UnfurledJoin = UnfurledJoin
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{ unfurledJoin :: Join,
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-- | Recorded if we joined onto an object relation.
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unfurledObjectTableAlias :: Maybe (TableName, EntityAlias)
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}
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deriving (Show)
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fromSelectArgsG :: IR.SelectArgsG 'MSSQL Expression -> ReaderT EntityAlias FromIr Args
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fromSelectArgsG selectArgsG = do
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let argsOffset = ValueExpression . ODBC.IntValue . fromIntegral <$> moffset
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argsWhere <-
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maybe (pure mempty) (fmap (Where . pure) . fromGBoolExp) mannBoolExp
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argsTop <-
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maybe (pure mempty) (pure . Top) mlimit
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-- Not supported presently, per Vamshi:
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--
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-- > It is hardly used and we don't have to go to great lengths to support it.
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--
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-- But placeholdering the code so that when it's ready to be used,
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-- you can just drop the Proxy wrapper.
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let argsDistinct = Proxy
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(argsOrderBy, joins) <-
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runWriterT (traverse fromAnnotatedOrderByItemG (maybe [] toList orders))
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-- Any object-relation joins that we generated, we record their
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-- generated names into a mapping.
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let argsExistingJoins =
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M.fromList (mapMaybe unfurledObjectTableAlias (toList joins))
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pure
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Args
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{ argsJoins = toList (fmap unfurledJoin joins),
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argsOrderBy = nonEmpty argsOrderBy,
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..
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}
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where
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IR.SelectArgs
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{ _saWhere = mannBoolExp,
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_saLimit = mlimit,
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_saOffset = moffset,
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_saOrderBy = orders
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} = selectArgsG
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-- | Produce a valid ORDER BY construct, telling about any joins
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-- needed on the side.
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fromAnnotatedOrderByItemG ::
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IR.AnnotatedOrderByItemG 'MSSQL Expression ->
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WriterT (Seq UnfurledJoin) (ReaderT EntityAlias FromIr) OrderBy
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fromAnnotatedOrderByItemG IR.OrderByItemG {obiType, obiColumn = obiColumn, obiNulls} = do
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(orderByFieldName, orderByType) <- unfurlAnnotatedOrderByElement obiColumn
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let orderByNullsOrder = fromMaybe NullsAnyOrder obiNulls
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orderByOrder = fromMaybe AscOrder obiType
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pure OrderBy {..}
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-- | Unfurl the nested set of object relations (tell'd in the writer)
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-- that are terminated by field name (IR.AOCColumn and
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-- IR.AOCArrayAggregation).
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unfurlAnnotatedOrderByElement ::
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IR.AnnotatedOrderByElement 'MSSQL Expression ->
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WriterT (Seq UnfurledJoin) (ReaderT EntityAlias FromIr) (FieldName, Maybe TSQL.ScalarType)
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unfurlAnnotatedOrderByElement =
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\case
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IR.AOCColumn pgColumnInfo -> do
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fieldName <- lift (fromPGColumnInfo pgColumnInfo)
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pure
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( fieldName,
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case (IR.pgiType pgColumnInfo) of
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IR.ColumnScalar t -> Just t
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-- Above: It is of interest to us whether the type is
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-- text/ntext/image. See ToQuery for more explanation.
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_ -> Nothing
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)
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IR.AOCObjectRelation IR.RelInfo {riMapping = mapping, riRTable = table} annBoolExp annOrderByElementG -> do
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selectFrom <- lift (lift (fromQualifiedTable table))
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joinAliasEntity <-
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lift (lift (generateAlias (ForOrderAlias (tableNameText table))))
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foreignKeyConditions <- lift (fromMapping selectFrom mapping)
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-- TODO: Because these object relations are re-used by regular
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-- object mapping queries, this WHERE may be unnecessarily
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-- restrictive. But I actually don't know from where such an
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-- expression arises in the source GraphQL syntax.
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--
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-- Worst case scenario, we could put the WHERE in the key of the
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-- Map in 'argsExistingJoins'. That would guarantee only equal
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-- selects are re-used.
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whereExpression <-
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lift (local (const (fromAlias selectFrom)) (fromGBoolExp annBoolExp))
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tell
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( pure
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UnfurledJoin
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{ unfurledJoin =
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Join
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{ joinSource =
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JoinSelect
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emptySelect
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{ selectTop = NoTop,
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selectProjections = [StarProjection],
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selectFrom = Just selectFrom,
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selectJoins = [],
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selectWhere =
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Where (foreignKeyConditions <> [whereExpression]),
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selectFor = NoFor,
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selectOrderBy = Nothing,
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selectOffset = Nothing
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},
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joinJoinAlias =
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JoinAlias {joinAliasEntity, joinAliasField = Nothing}
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},
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unfurledObjectTableAlias = Just (table, EntityAlias joinAliasEntity)
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}
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)
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local
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(const (EntityAlias joinAliasEntity))
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(unfurlAnnotatedOrderByElement annOrderByElementG)
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IR.AOCArrayAggregation IR.RelInfo {riMapping = mapping, riRTable = tableName} annBoolExp annAggregateOrderBy -> do
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selectFrom <- lift (lift (fromQualifiedTable tableName))
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let alias = aggFieldName
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joinAliasEntity <-
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lift (lift (generateAlias (ForOrderAlias (tableNameText tableName))))
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foreignKeyConditions <- lift (fromMapping selectFrom mapping)
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whereExpression <-
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lift (local (const (fromAlias selectFrom)) (fromGBoolExp annBoolExp))
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aggregate <-
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lift
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( local
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(const (fromAlias selectFrom))
|
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( case annAggregateOrderBy of
|
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IR.AAOCount -> pure (CountAggregate StarCountable)
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IR.AAOOp text pgColumnInfo -> do
|
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fieldName <- fromPGColumnInfo pgColumnInfo
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pure (OpAggregate text (pure (ColumnExpression fieldName)))
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)
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)
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tell
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( pure
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( UnfurledJoin
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{ unfurledJoin =
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Join
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{ joinSource =
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JoinSelect
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emptySelect
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{ selectTop = NoTop,
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selectProjections =
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[ AggregateProjection
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Aliased
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{ aliasedThing = aggregate,
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aliasedAlias = alias
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}
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],
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selectFrom = Just selectFrom,
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selectJoins = [],
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selectWhere =
|
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Where
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(foreignKeyConditions <> [whereExpression]),
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selectFor = NoFor,
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selectOrderBy = Nothing,
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selectOffset = Nothing
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},
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joinJoinAlias =
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JoinAlias {joinAliasEntity, joinAliasField = Nothing}
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},
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unfurledObjectTableAlias = Nothing
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}
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)
|
|
)
|
|
pure
|
|
( FieldName {fieldNameEntity = joinAliasEntity, fieldName = alias},
|
|
Nothing
|
|
)
|
|
|
|
--------------------------------------------------------------------------------
|
|
-- Conversion functions
|
|
|
|
tableNameText :: TableName -> Text
|
|
tableNameText (TableName {tableName}) = tableName
|
|
|
|
-- | This is really the start where you query the base table,
|
|
-- everything else is joins attached to it.
|
|
fromQualifiedTable :: TableName -> FromIr From
|
|
fromQualifiedTable schemadTableName@(TableName {tableName}) = do
|
|
alias <- generateAlias (TableTemplate tableName)
|
|
pure
|
|
( FromQualifiedTable
|
|
( Aliased
|
|
{ aliasedThing = schemadTableName,
|
|
aliasedAlias = alias
|
|
}
|
|
)
|
|
)
|
|
|
|
fromTableName :: TableName -> FromIr EntityAlias
|
|
fromTableName TableName {tableName} = do
|
|
alias <- generateAlias (TableTemplate tableName)
|
|
pure (EntityAlias alias)
|
|
|
|
-- | Translate an 'AnnBoolExpFld' within an 'EntityAlias' context referring to the table the `AnnBoolExpFld` field belongs to.
|
|
--
|
|
-- This is mutually recursive with 'fromGBoolExp', mirroring the mutually recursive structure between 'AnnBoolExpFld' and 'AnnBoolExp b a' (alias of 'GBoolExp b (AnnBoolExpFld b a)').
|
|
fromAnnBoolExpFld ::
|
|
IR.AnnBoolExpFld 'MSSQL Expression ->
|
|
ReaderT EntityAlias FromIr Expression
|
|
fromAnnBoolExpFld =
|
|
\case
|
|
IR.AVColumn pgColumnInfo opExpGs -> do
|
|
expression <- fromColumnInfoForBoolExp pgColumnInfo
|
|
expressions <- traverse (lift . fromOpExpG expression) opExpGs
|
|
pure (AndExpression expressions)
|
|
IR.AVRelationship IR.RelInfo {riMapping = mapping, riRTable = table} annBoolExp -> do
|
|
selectFrom <- lift (fromQualifiedTable table)
|
|
foreignKeyConditions <- fromMapping selectFrom mapping
|
|
whereExpression <-
|
|
local (const (fromAlias selectFrom)) (fromGBoolExp annBoolExp)
|
|
pure
|
|
( ExistsExpression
|
|
emptySelect
|
|
{ selectOrderBy = Nothing,
|
|
selectProjections =
|
|
[ ExpressionProjection
|
|
( Aliased
|
|
{ aliasedThing = trueExpression,
|
|
aliasedAlias = existsFieldName
|
|
}
|
|
)
|
|
],
|
|
selectFrom = Just selectFrom,
|
|
selectJoins = mempty,
|
|
selectWhere = Where (foreignKeyConditions <> [whereExpression]),
|
|
selectTop = NoTop,
|
|
selectFor = NoFor,
|
|
selectOffset = Nothing
|
|
}
|
|
)
|
|
|
|
-- | For boolean operators, various comparison operators used need
|
|
-- special handling to ensure that SQL Server won't outright reject
|
|
-- the comparison. See also 'shouldCastToVarcharMax'.
|
|
fromColumnInfoForBoolExp :: IR.ColumnInfo 'MSSQL -> ReaderT EntityAlias FromIr Expression
|
|
fromColumnInfoForBoolExp IR.ColumnInfo {pgiColumn = pgCol, pgiType} = do
|
|
fieldName <- columnNameToFieldName pgCol <$> ask
|
|
if shouldCastToVarcharMax pgiType -- See function commentary.
|
|
then pure (CastExpression (ColumnExpression fieldName) "VARCHAR(MAX)")
|
|
else pure (ColumnExpression fieldName)
|
|
|
|
-- | There's a problem of comparing text fields with =, <, etc. that
|
|
-- SQL Server completely refuses to do so. So one way to workaround
|
|
-- this restriction is to automatically cast such text fields to
|
|
-- varchar(max).
|
|
shouldCastToVarcharMax :: IR.ColumnType 'MSSQL -> Bool
|
|
shouldCastToVarcharMax typ =
|
|
typ == IR.ColumnScalar TextType || typ == IR.ColumnScalar WtextType
|
|
|
|
fromPGColumnInfo :: IR.ColumnInfo 'MSSQL -> ReaderT EntityAlias FromIr FieldName
|
|
fromPGColumnInfo IR.ColumnInfo {pgiColumn = pgCol} =
|
|
columnNameToFieldName pgCol <$> ask
|
|
|
|
-- entityAlias <- ask
|
|
-- pure
|
|
-- (columnNameToFieldName pgCol entityAlias
|
|
-- FieldName
|
|
-- {fieldName = PG.getPGColTxt pgCol, fieldNameEntity = entityAliasText})
|
|
|
|
--------------------------------------------------------------------------------
|
|
-- Sources of projected fields
|
|
--
|
|
-- Because in the IR, a field projected can be a foreign object, we
|
|
-- have to both generate a projection AND on the side generate a join.
|
|
--
|
|
-- So a @FieldSource@ couples the idea of the projected thing and the
|
|
-- source of it (via 'Aliased').
|
|
|
|
data FieldSource
|
|
= ExpressionFieldSource (Aliased Expression)
|
|
| JoinFieldSource (Aliased Join)
|
|
deriving (Eq, Show)
|
|
|
|
-- | Get FieldSource from a TAFExp type table aggregate field
|
|
fromTableExpFieldG :: -- TODO: Convert function to be similar to Nodes function
|
|
(Int, (IR.FieldName, IR.TableAggregateFieldG 'MSSQL (Const Void) Expression)) ->
|
|
Maybe (ReaderT EntityAlias FromIr (Int, [Projection]))
|
|
fromTableExpFieldG = \case
|
|
(index, (IR.FieldName name, IR.TAFExp text)) ->
|
|
Just $
|
|
pure $
|
|
( index,
|
|
fieldSourceProjections $
|
|
ExpressionFieldSource
|
|
Aliased
|
|
{ aliasedThing = TSQL.ValueExpression (ODBC.TextValue text),
|
|
aliasedAlias = name
|
|
}
|
|
)
|
|
_ -> Nothing
|
|
|
|
fromTableAggFieldG ::
|
|
(Int, (IR.FieldName, IR.TableAggregateFieldG 'MSSQL (Const Void) Expression)) ->
|
|
Maybe (Int, (IR.FieldName, [Projection]))
|
|
fromTableAggFieldG = \case
|
|
(index, (fieldName, IR.TAFAgg (aggregateFields :: [(IR.FieldName, IR.AggregateField 'MSSQL)]))) ->
|
|
Just $
|
|
let aggregates =
|
|
aggregateFields <&> \(fieldName', aggregateField) ->
|
|
fromAggregateField (IR.getFieldNameTxt fieldName') aggregateField
|
|
in (index, (fieldName, aggregates))
|
|
_ -> Nothing
|
|
|
|
fromTableNodesFieldG ::
|
|
Map TableName EntityAlias ->
|
|
StringifyNumbers ->
|
|
(Int, (IR.FieldName, IR.TableAggregateFieldG 'MSSQL (Const Void) Expression)) ->
|
|
Maybe (ReaderT EntityAlias FromIr (Int, (IR.FieldName, [Projection])))
|
|
fromTableNodesFieldG argsExistingJoins stringifyNumbers = \case
|
|
(index, (fieldName, IR.TAFNodes () (annFieldsG :: [(IR.FieldName, IR.AnnFieldG 'MSSQL (Const Void) Expression)]))) -> Just do
|
|
fieldSources' <- fromAnnFieldsG argsExistingJoins stringifyNumbers `traverse` annFieldsG
|
|
let nodesProjections' :: [Projection] = concatMap fieldSourceProjections fieldSources'
|
|
pure (index, (fieldName, nodesProjections'))
|
|
_ -> Nothing
|
|
|
|
fromAggregateField :: Text -> IR.AggregateField 'MSSQL -> Projection
|
|
fromAggregateField alias aggregateField =
|
|
case aggregateField of
|
|
IR.AFExp text -> AggregateProjection $ Aliased (TextAggregate text) alias
|
|
IR.AFCount countType -> AggregateProjection . flip Aliased alias . CountAggregate $ case countType of
|
|
StarCountable -> StarCountable
|
|
NonNullFieldCountable names -> NonNullFieldCountable $ fmap columnFieldAggEntity names
|
|
DistinctCountable names -> DistinctCountable $ fmap columnFieldAggEntity names
|
|
IR.AFOp IR.AggregateOp {_aoOp = op, _aoFields = fields} ->
|
|
let projections :: [Projection] =
|
|
fields <&> \(fieldName, pgColFld) ->
|
|
case pgColFld of
|
|
IR.CFCol pgCol _pgType ->
|
|
let fname = columnFieldAggEntity pgCol
|
|
in AggregateProjection $ Aliased (OpAggregate op [ColumnExpression fname]) (IR.getFieldNameTxt fieldName)
|
|
IR.CFExp text ->
|
|
ExpressionProjection $ Aliased (ValueExpression (ODBC.TextValue text)) (IR.getFieldNameTxt fieldName)
|
|
in ExpressionProjection $
|
|
flip Aliased alias $
|
|
JsonQueryExpression $
|
|
SelectExpression $
|
|
emptySelect
|
|
{ selectProjections = projections,
|
|
selectFor = JsonFor $ ForJson JsonSingleton NoRoot
|
|
}
|
|
where
|
|
columnFieldAggEntity col = columnNameToFieldName col $ EntityAlias aggSubselectName
|
|
|
|
-- | The main sources of fields, either constants, fields or via joins.
|
|
fromAnnFieldsG ::
|
|
Map TableName EntityAlias ->
|
|
StringifyNumbers ->
|
|
(IR.FieldName, IR.AnnFieldG 'MSSQL (Const Void) Expression) ->
|
|
ReaderT EntityAlias FromIr FieldSource
|
|
fromAnnFieldsG existingJoins stringifyNumbers (IR.FieldName name, field) =
|
|
case field of
|
|
IR.AFColumn annColumnField -> do
|
|
expression <- fromAnnColumnField stringifyNumbers annColumnField
|
|
pure
|
|
( ExpressionFieldSource
|
|
Aliased {aliasedThing = expression, aliasedAlias = name}
|
|
)
|
|
IR.AFExpression text ->
|
|
pure
|
|
( ExpressionFieldSource
|
|
Aliased
|
|
{ aliasedThing = TSQL.ValueExpression (ODBC.TextValue text),
|
|
aliasedAlias = name
|
|
}
|
|
)
|
|
IR.AFObjectRelation objectRelationSelectG ->
|
|
fmap
|
|
( \aliasedThing ->
|
|
JoinFieldSource (Aliased {aliasedThing, aliasedAlias = name})
|
|
)
|
|
(fromObjectRelationSelectG existingJoins objectRelationSelectG)
|
|
IR.AFArrayRelation arraySelectG ->
|
|
fmap
|
|
( \aliasedThing ->
|
|
JoinFieldSource (Aliased {aliasedThing, aliasedAlias = name})
|
|
)
|
|
(fromArraySelectG arraySelectG)
|
|
|
|
-- | Here is where we project a field as a column expression. If
|
|
-- number stringification is on, then we wrap it in a
|
|
-- 'ToStringExpression' so that it's casted when being projected.
|
|
fromAnnColumnField ::
|
|
StringifyNumbers ->
|
|
IR.AnnColumnField 'MSSQL Expression ->
|
|
ReaderT EntityAlias FromIr Expression
|
|
fromAnnColumnField _stringifyNumbers annColumnField = do
|
|
fieldName <- fromPGCol pgCol
|
|
-- TODO: Handle stringifying large numbers
|
|
{-(IR.isScalarColumnWhere PG.isBigNum typ && stringifyNumbers == StringifyNumbers)-}
|
|
|
|
-- for geometry and geography values, the automatic json encoding on sql
|
|
-- server would fail. So we need to convert it to a format the json encoding
|
|
-- handles. Ideally we want this representation to be GeoJSON but sql server
|
|
-- doesn't have any functions to convert to GeoJSON format. So we return it in
|
|
-- WKT format
|
|
if typ == (IR.ColumnScalar GeometryType) || typ == (IR.ColumnScalar GeographyType)
|
|
then pure $ MethodExpression (ColumnExpression fieldName) "STAsText" []
|
|
else case caseBoolExpMaybe of
|
|
Nothing -> pure (ColumnExpression fieldName)
|
|
Just ex -> do
|
|
ex' <- fromGBoolExp (coerce ex)
|
|
let nullValue = ValueExpression ODBC.NullValue
|
|
pure (ConditionalExpression ex' (ColumnExpression fieldName) nullValue)
|
|
where
|
|
IR.AnnColumnField
|
|
{ _acfColumn = pgCol,
|
|
_acfType = typ,
|
|
_acfAsText = _asText :: Bool,
|
|
_acfOp = _ :: Maybe (IR.ColumnOp 'MSSQL), -- TODO: What's this?
|
|
_acfCaseBoolExpression = caseBoolExpMaybe
|
|
} = annColumnField
|
|
|
|
-- | This is where a field name "foo" is resolved to a fully qualified
|
|
-- field name [table].[foo]. The table name comes from EntityAlias in
|
|
-- the ReaderT.
|
|
fromPGCol :: ColumnName -> ReaderT EntityAlias FromIr FieldName
|
|
fromPGCol pgCol = columnNameToFieldName pgCol <$> ask
|
|
|
|
-- entityAlias <- ask
|
|
-- pure (columnNameToFieldName pgCol entityAlias -- FieldName {fieldName = PG.getPGColTxt pgCol, fieldNameEntity = entityAliasText}
|
|
-- )
|
|
|
|
fieldSourceProjections :: FieldSource -> [Projection]
|
|
fieldSourceProjections =
|
|
\case
|
|
ExpressionFieldSource aliasedExpression ->
|
|
pure (ExpressionProjection aliasedExpression)
|
|
JoinFieldSource aliasedJoin ->
|
|
pure
|
|
( ExpressionProjection
|
|
( aliasedJoin
|
|
{ aliasedThing =
|
|
-- Basically a cast, to ensure that SQL Server won't
|
|
-- double-encode the JSON but will "pass it through"
|
|
-- untouched.
|
|
JsonQueryExpression
|
|
( ColumnExpression
|
|
( joinAliasToField
|
|
(joinJoinAlias (aliasedThing aliasedJoin))
|
|
)
|
|
)
|
|
}
|
|
)
|
|
)
|
|
|
|
joinAliasToField :: JoinAlias -> FieldName
|
|
joinAliasToField JoinAlias {..} =
|
|
FieldName
|
|
{ fieldNameEntity = joinAliasEntity,
|
|
fieldName = fromMaybe (error "TODO: Eliminate this case. joinAliasToField") joinAliasField
|
|
}
|
|
|
|
fieldSourceJoin :: FieldSource -> Maybe Join
|
|
fieldSourceJoin =
|
|
\case
|
|
JoinFieldSource aliasedJoin -> pure (aliasedThing aliasedJoin)
|
|
ExpressionFieldSource {} -> Nothing
|
|
|
|
--------------------------------------------------------------------------------
|
|
-- Joins
|
|
|
|
fromObjectRelationSelectG ::
|
|
Map TableName {-PG.QualifiedTable-} EntityAlias ->
|
|
IR.ObjectRelationSelectG 'MSSQL (Const Void) Expression ->
|
|
ReaderT EntityAlias FromIr Join
|
|
fromObjectRelationSelectG existingJoins annRelationSelectG = do
|
|
eitherAliasOrFrom <- lift (lookupTableFrom existingJoins tableFrom)
|
|
let entityAlias :: EntityAlias = either id fromAlias eitherAliasOrFrom
|
|
fieldSources <-
|
|
local
|
|
(const entityAlias)
|
|
(traverse (fromAnnFieldsG mempty LeaveNumbersAlone) fields)
|
|
let selectProjections =
|
|
concatMap (toList . fieldSourceProjections) fieldSources
|
|
joinJoinAlias <-
|
|
do
|
|
fieldName <- lift (fromRelName aarRelationshipName)
|
|
alias <- lift (generateAlias (ObjectRelationTemplate fieldName))
|
|
pure
|
|
JoinAlias
|
|
{ joinAliasEntity = alias,
|
|
joinAliasField = pure jsonFieldName
|
|
}
|
|
let selectFor =
|
|
JsonFor ForJson {jsonCardinality = JsonSingleton, jsonRoot = NoRoot}
|
|
filterExpression <- local (const entityAlias) (fromGBoolExp tableFilter)
|
|
case eitherAliasOrFrom of
|
|
Right selectFrom -> do
|
|
foreignKeyConditions <- fromMapping selectFrom mapping
|
|
pure
|
|
Join
|
|
{ joinJoinAlias,
|
|
joinSource =
|
|
JoinSelect
|
|
emptySelect
|
|
{ selectOrderBy = Nothing,
|
|
selectTop = NoTop,
|
|
selectProjections,
|
|
selectFrom = Just selectFrom,
|
|
selectJoins = mapMaybe fieldSourceJoin fieldSources,
|
|
selectWhere =
|
|
Where (foreignKeyConditions <> [filterExpression]),
|
|
selectFor,
|
|
selectOffset = Nothing
|
|
}
|
|
}
|
|
Left _entityAlias ->
|
|
pure
|
|
Join
|
|
{ joinJoinAlias,
|
|
joinSource =
|
|
JoinReselect
|
|
Reselect
|
|
{ reselectProjections = selectProjections,
|
|
reselectFor = selectFor,
|
|
reselectWhere = Where [filterExpression]
|
|
}
|
|
}
|
|
where
|
|
IR.AnnObjectSelectG
|
|
{ _aosFields = fields :: IR.AnnFieldsG 'MSSQL (Const Void) Expression,
|
|
_aosTableFrom = tableFrom :: TableName {-PG.QualifiedTable-},
|
|
_aosTableFilter = tableFilter :: IR.AnnBoolExp 'MSSQL Expression
|
|
} = annObjectSelectG
|
|
IR.AnnRelationSelectG
|
|
{ aarRelationshipName,
|
|
aarColumnMapping = mapping :: HashMap ColumnName ColumnName, -- PG.PGCol PG.PGCol
|
|
aarAnnSelect = annObjectSelectG :: IR.AnnObjectSelectG 'MSSQL (Const Void) Expression
|
|
} = annRelationSelectG
|
|
|
|
lookupTableFrom ::
|
|
Map TableName {-PG.QualifiedTable-} EntityAlias ->
|
|
{-PG.QualifiedTable-} TableName ->
|
|
FromIr (Either EntityAlias From)
|
|
lookupTableFrom existingJoins tableFrom = do
|
|
case M.lookup tableFrom existingJoins of
|
|
Just entityAlias -> pure (Left entityAlias)
|
|
Nothing -> fmap Right (fromQualifiedTable tableFrom)
|
|
|
|
fromArraySelectG :: IR.ArraySelectG 'MSSQL (Const Void) Expression -> ReaderT EntityAlias FromIr Join
|
|
fromArraySelectG =
|
|
\case
|
|
IR.ASSimple arrayRelationSelectG ->
|
|
fromArrayRelationSelectG arrayRelationSelectG
|
|
IR.ASAggregate arrayAggregateSelectG ->
|
|
fromArrayAggregateSelectG arrayAggregateSelectG
|
|
|
|
fromArrayAggregateSelectG ::
|
|
IR.AnnRelationSelectG 'MSSQL (IR.AnnAggregateSelectG 'MSSQL (Const Void) Expression) ->
|
|
ReaderT EntityAlias FromIr Join
|
|
fromArrayAggregateSelectG annRelationSelectG = do
|
|
fieldName <- lift (fromRelName aarRelationshipName)
|
|
joinSelect <- do
|
|
lhsEntityAlias <- ask
|
|
-- With this, the foreign key relations are injected automatically
|
|
-- at the right place by fromSelectAggregate.
|
|
lift (fromSelectAggregate (pure (lhsEntityAlias, mapping)) annSelectG)
|
|
alias <- lift (generateAlias (ArrayAggregateTemplate fieldName))
|
|
pure
|
|
Join
|
|
{ joinJoinAlias =
|
|
JoinAlias
|
|
{ joinAliasEntity = alias,
|
|
joinAliasField = pure jsonFieldName
|
|
},
|
|
joinSource = JoinSelect joinSelect
|
|
}
|
|
where
|
|
IR.AnnRelationSelectG
|
|
{ aarRelationshipName,
|
|
aarColumnMapping = mapping :: HashMap ColumnName ColumnName,
|
|
aarAnnSelect = annSelectG
|
|
} = annRelationSelectG
|
|
|
|
fromArrayRelationSelectG :: IR.ArrayRelationSelectG 'MSSQL (Const Void) Expression -> ReaderT EntityAlias FromIr Join
|
|
fromArrayRelationSelectG annRelationSelectG = do
|
|
fieldName <- lift (fromRelName aarRelationshipName)
|
|
sel <- lift (fromSelectRows annSelectG)
|
|
joinSelect <-
|
|
do
|
|
foreignKeyConditions <- selectFromMapping sel mapping
|
|
pure
|
|
sel {selectWhere = Where foreignKeyConditions <> selectWhere sel}
|
|
alias <- lift (generateAlias (ArrayRelationTemplate fieldName))
|
|
pure
|
|
Join
|
|
{ joinJoinAlias =
|
|
JoinAlias
|
|
{ joinAliasEntity = alias,
|
|
joinAliasField = pure jsonFieldName
|
|
},
|
|
joinSource = JoinSelect joinSelect
|
|
}
|
|
where
|
|
IR.AnnRelationSelectG
|
|
{ aarRelationshipName,
|
|
aarColumnMapping = mapping :: HashMap ColumnName ColumnName, -- PG.PGCol PG.PGCol
|
|
aarAnnSelect = annSelectG
|
|
} = annRelationSelectG
|
|
|
|
fromRelName :: IR.RelName -> FromIr Text
|
|
fromRelName relName =
|
|
pure (IR.relNameToTxt relName)
|
|
|
|
-- | The context given by the reader is of the previous/parent
|
|
-- "remote" table. The WHERE that we're generating goes in the child,
|
|
-- "local" query. The @From@ passed in as argument is the local table.
|
|
--
|
|
-- We should hope to see e.g. "post.category = category.id" for a
|
|
-- local table of post and a remote table of category.
|
|
--
|
|
-- The left/right columns in @HashMap PG.PGCol PG.PGCol@ corresponds
|
|
-- to the left/right of @select ... join ...@. Therefore left=remote,
|
|
-- right=local in this context.
|
|
fromMapping ::
|
|
From ->
|
|
HashMap ColumnName ColumnName -> -- PG.PGCol PG.PGCol
|
|
ReaderT EntityAlias FromIr [Expression]
|
|
fromMapping localFrom =
|
|
traverse
|
|
( \(remotePgCol, localPgCol) -> do
|
|
localFieldName <- local (const (fromAlias localFrom)) (fromPGCol localPgCol)
|
|
remoteFieldName <- fromPGCol remotePgCol
|
|
pure
|
|
( OpExpression
|
|
TSQL.EQ'
|
|
(ColumnExpression localFieldName)
|
|
(ColumnExpression remoteFieldName)
|
|
)
|
|
)
|
|
. HM.toList
|
|
|
|
selectFromMapping ::
|
|
Select ->
|
|
HashMap ColumnName ColumnName ->
|
|
ReaderT EntityAlias FromIr [Expression]
|
|
selectFromMapping Select {selectFrom = Nothing} = const (pure [])
|
|
selectFromMapping Select {selectFrom = Just from} = fromMapping from
|
|
|
|
--------------------------------------------------------------------------------
|
|
-- Basic SQL expression types
|
|
|
|
fromOpExpG :: Expression -> IR.OpExpG 'MSSQL Expression -> FromIr Expression
|
|
fromOpExpG expression op =
|
|
case op of
|
|
IR.ANISNULL -> pure $ TSQL.IsNullExpression expression
|
|
IR.ANISNOTNULL -> pure $ TSQL.IsNotNullExpression expression
|
|
IR.AEQ False val -> pure $ nullableBoolEquality expression val
|
|
IR.AEQ True val -> pure $ OpExpression TSQL.EQ' expression val
|
|
IR.ANE False val -> pure $ nullableBoolInequality expression val
|
|
IR.ANE True val -> pure $ OpExpression TSQL.NEQ' expression val
|
|
IR.AGT val -> pure $ OpExpression TSQL.GT expression val
|
|
IR.ALT val -> pure $ OpExpression TSQL.LT expression val
|
|
IR.AGTE val -> pure $ OpExpression TSQL.GTE expression val
|
|
IR.ALTE val -> pure $ OpExpression TSQL.LTE expression val
|
|
IR.AIN val -> pure $ OpExpression TSQL.IN expression val
|
|
IR.ANIN val -> pure $ OpExpression TSQL.NIN expression val
|
|
IR.ALIKE val -> pure $ OpExpression TSQL.LIKE expression val
|
|
IR.ANLIKE val -> pure $ OpExpression TSQL.NLIKE expression val
|
|
IR.ABackendSpecific o -> case o of
|
|
ASTContains val -> pure $ TSQL.STOpExpression TSQL.STContains expression val
|
|
ASTCrosses val -> pure $ TSQL.STOpExpression TSQL.STCrosses expression val
|
|
ASTEquals val -> pure $ TSQL.STOpExpression TSQL.STEquals expression val
|
|
ASTIntersects val -> pure $ TSQL.STOpExpression TSQL.STIntersects expression val
|
|
ASTOverlaps val -> pure $ TSQL.STOpExpression TSQL.STOverlaps expression val
|
|
ASTTouches val -> pure $ TSQL.STOpExpression TSQL.STTouches expression val
|
|
ASTWithin val -> pure $ TSQL.STOpExpression TSQL.STWithin expression val
|
|
-- As of March 2021, only geometry/geography casts are supported
|
|
IR.ACast _casts -> refute (pure (UnsupportedOpExpG op)) -- mkCastsExp casts
|
|
|
|
-- We do not yet support column names in permissions
|
|
IR.CEQ _rhsCol -> refute (pure (UnsupportedOpExpG op)) -- S.BECompare S.SEQ lhs $ mkQCol rhsCol
|
|
IR.CNE _rhsCol -> refute (pure (UnsupportedOpExpG op)) -- S.BECompare S.SNE lhs $ mkQCol rhsCol
|
|
IR.CGT _rhsCol -> refute (pure (UnsupportedOpExpG op)) -- S.BECompare S.SGT lhs $ mkQCol rhsCol
|
|
IR.CLT _rhsCol -> refute (pure (UnsupportedOpExpG op)) -- S.BECompare S.SLT lhs $ mkQCol rhsCol
|
|
IR.CGTE _rhsCol -> refute (pure (UnsupportedOpExpG op)) -- S.BECompare S.SGTE lhs $ mkQCol rhsCol
|
|
IR.CLTE _rhsCol -> refute (pure (UnsupportedOpExpG op)) -- S.BECompare S.SLTE lhs $ mkQCol rhsCol
|
|
|
|
nullableBoolEquality :: Expression -> Expression -> Expression
|
|
nullableBoolEquality x y =
|
|
OrExpression
|
|
[ OpExpression TSQL.EQ' x y,
|
|
AndExpression [IsNullExpression x, IsNullExpression y]
|
|
]
|
|
|
|
nullableBoolInequality :: Expression -> Expression -> Expression
|
|
nullableBoolInequality x y =
|
|
OrExpression
|
|
[ OpExpression TSQL.NEQ' x y,
|
|
AndExpression [IsNotNullExpression x, IsNullExpression y]
|
|
]
|
|
|
|
-- | Translate a 'GBoolExp' of a 'AnnBoolExpFld', within an 'EntityAlias' context.
|
|
--
|
|
-- It is mutually recursive with 'fromAnnBoolExpFld' and 'fromGExists'.
|
|
fromGBoolExp ::
|
|
IR.GBoolExp 'MSSQL (IR.AnnBoolExpFld 'MSSQL Expression) ->
|
|
ReaderT EntityAlias FromIr Expression
|
|
fromGBoolExp =
|
|
\case
|
|
IR.BoolAnd expressions ->
|
|
fmap AndExpression (traverse fromGBoolExp expressions)
|
|
IR.BoolOr expressions ->
|
|
fmap OrExpression (traverse fromGBoolExp expressions)
|
|
IR.BoolNot expression ->
|
|
fmap NotExpression (fromGBoolExp expression)
|
|
IR.BoolExists gExists ->
|
|
fromGExists gExists
|
|
IR.BoolFld expression ->
|
|
fromAnnBoolExpFld expression
|
|
where
|
|
fromGExists :: IR.GExists 'MSSQL (IR.AnnBoolExpFld 'MSSQL Expression) -> ReaderT EntityAlias FromIr Expression
|
|
fromGExists IR.GExists {_geTable, _geWhere} = do
|
|
selectFrom <- lift (fromQualifiedTable _geTable)
|
|
whereExpression <-
|
|
local (const (fromAlias selectFrom)) (fromGBoolExp _geWhere)
|
|
pure $
|
|
ExistsExpression $
|
|
emptySelect
|
|
{ selectOrderBy = Nothing,
|
|
selectProjections =
|
|
[ ExpressionProjection
|
|
( Aliased
|
|
{ aliasedThing = trueExpression,
|
|
aliasedAlias = existsFieldName
|
|
}
|
|
)
|
|
],
|
|
selectFrom = Just selectFrom,
|
|
selectJoins = mempty,
|
|
selectWhere = Where [whereExpression],
|
|
selectTop = NoTop,
|
|
selectFor = NoFor,
|
|
selectOffset = Nothing
|
|
}
|
|
|
|
--------------------------------------------------------------------------------
|
|
-- Insert
|
|
|
|
fromInsert :: IR.AnnInsert 'MSSQL (Const Void) Expression -> Insert
|
|
fromInsert IR.AnnInsert {..} =
|
|
let IR.AnnIns {..} = _aiData
|
|
insertRows = normalizeInsertRows _aiData $ map (IR.getInsertColumns) _aiInsObj
|
|
insertColumnNames = maybe [] (map fst) $ listToMaybe insertRows
|
|
insertValues = map (Values . map snd) insertRows
|
|
primaryKeyColumns = map OutputColumn $ _mssqlPrimaryKeyColumns _aiExtraInsertData
|
|
in Insert _aiTableName insertColumnNames (Output Inserted primaryKeyColumns) insertValues
|
|
|
|
-- | Normalize a row by adding missing columns with 'DEFAULT' value and sort by column name to make sure
|
|
-- all rows are consistent in column values and order.
|
|
--
|
|
-- Example: A table "author" is defined as
|
|
--
|
|
-- CREATE TABLE author ([id] INTEGER NOT NULL PRIMARY KEY, name TEXT NOT NULL, age INTEGER)
|
|
--
|
|
-- Consider the following mutation;
|
|
--
|
|
-- mutation {
|
|
-- insert_author(
|
|
-- objects: [{id: 1, name: "Foo", age: 21}, {id: 2, name: "Bar"}]
|
|
-- ){
|
|
-- affected_rows
|
|
-- }
|
|
-- }
|
|
--
|
|
-- We consider 'DEFAULT' value for "age" column which is missing in second insert row. The INSERT statement look like
|
|
--
|
|
-- INSERT INTO author (id, name, age) OUTPUT INSERTED.id VALUES (1, 'Foo', 21), (2, 'Bar', DEFAULT)
|
|
normalizeInsertRows :: IR.AnnIns 'MSSQL [] Expression -> [[(Column 'MSSQL, Expression)]] -> [[(Column 'MSSQL, Expression)]]
|
|
normalizeInsertRows IR.AnnIns {..} insertRows =
|
|
let isIdentityColumn column =
|
|
IR.pgiColumn column `elem` _mssqlIdentityColumns _aiExtraInsertData
|
|
allColumnsWithDefaultValue =
|
|
-- DEFAULT or NULL are not allowed as explicit identity values.
|
|
map ((,DefaultExpression) . IR.pgiColumn) $ filter (not . isIdentityColumn) _aiTableCols
|
|
addMissingColumns insertRow =
|
|
HM.toList $ HM.fromList insertRow `HM.union` HM.fromList allColumnsWithDefaultValue
|
|
sortByColumn = sortBy (\l r -> compare (fst l) (fst r))
|
|
in map (sortByColumn . addMissingColumns) insertRows
|
|
|
|
--------------------------------------------------------------------------------
|
|
-- Delete
|
|
|
|
-- | Convert IR AST representing delete into MSSQL AST representing a delete statement
|
|
fromDelete :: IR.AnnDel 'MSSQL -> FromIr Delete
|
|
fromDelete (IR.AnnDel tableName (permFilter, whereClause) _ allColumns) = do
|
|
tableAlias <- fromTableName tableName
|
|
runReaderT
|
|
( do
|
|
permissionsFilter <- fromGBoolExp permFilter
|
|
whereExpression <- fromGBoolExp whereClause
|
|
let columnNames = map (ColumnName . unName . IR.pgiName) allColumns
|
|
pure
|
|
Delete
|
|
{ deleteTable =
|
|
Aliased
|
|
{ aliasedAlias = entityAliasText tableAlias,
|
|
aliasedThing = tableName
|
|
},
|
|
deleteOutput = Output Deleted (map OutputColumn columnNames),
|
|
deleteTempTable = TempTable tempTableNameDeleted columnNames,
|
|
deleteWhere = Where [permissionsFilter, whereExpression]
|
|
}
|
|
)
|
|
tableAlias
|
|
|
|
-- | Create a temporary table with the same schema as the given table.
|
|
toSelectIntoTempTable :: TempTableName -> TableName -> [IR.ColumnInfo 'MSSQL] -> SelectIntoTempTable
|
|
toSelectIntoTempTable tempTableName fromTable allColumns = do
|
|
SelectIntoTempTable
|
|
{ sittTempTableName = tempTableName,
|
|
sittColumns = map columnInfoToUnifiedColumn allColumns,
|
|
sittFromTableName = fromTable
|
|
}
|
|
|
|
-- | Extracts the type and column name of a ColumnInfo
|
|
columnInfoToUnifiedColumn :: IR.ColumnInfo 'MSSQL -> UnifiedColumn
|
|
columnInfoToUnifiedColumn colInfo =
|
|
case IR.pgiType colInfo of
|
|
IR.ColumnScalar t ->
|
|
UnifiedColumn
|
|
{ name = unName $ IR.pgiName colInfo,
|
|
type' = t
|
|
}
|
|
-- Enum values are represented as text value so they will always be of type text
|
|
IR.ColumnEnumReference {} ->
|
|
UnifiedColumn
|
|
{ name = unName $ IR.pgiName colInfo,
|
|
type' = TextType
|
|
}
|
|
|
|
--------------------------------------------------------------------------------
|
|
-- Misc combinators
|
|
|
|
trueExpression :: Expression
|
|
trueExpression = ValueExpression (ODBC.BoolValue True)
|
|
|
|
--------------------------------------------------------------------------------
|
|
-- Constants
|
|
|
|
jsonFieldName :: Text
|
|
jsonFieldName = "json"
|
|
|
|
aggFieldName :: Text
|
|
aggFieldName = "agg"
|
|
|
|
aggSubselectName :: Text
|
|
aggSubselectName = "agg_sub"
|
|
|
|
existsFieldName :: Text
|
|
existsFieldName = "exists_placeholder"
|
|
|
|
--------------------------------------------------------------------------------
|
|
-- Name generation
|
|
|
|
data NameTemplate
|
|
= ArrayRelationTemplate Text
|
|
| ArrayAggregateTemplate Text
|
|
| ObjectRelationTemplate Text
|
|
| TableTemplate Text
|
|
| ForOrderAlias Text
|
|
|
|
-- | Generate an alias for a given entity to remove ambiguity and naming
|
|
-- conflicts between scopes at the TSQL level. Keeps track of the increments for
|
|
-- the alias index in the 'StateT'
|
|
generateAlias :: NameTemplate -> FromIr Text
|
|
generateAlias template = do
|
|
FromIr (modify' (M.insertWith (+) prefix start))
|
|
i <- FromIr get
|
|
pure (prefix <> tshow (fromMaybe start (M.lookup prefix i)))
|
|
where
|
|
start = 1
|
|
prefix = T.take 20 rendered
|
|
rendered =
|
|
case template of
|
|
ArrayRelationTemplate sample -> "ar_" <> sample
|
|
ArrayAggregateTemplate sample -> "aa_" <> sample
|
|
ObjectRelationTemplate sample -> "or_" <> sample
|
|
TableTemplate sample -> "t_" <> sample
|
|
ForOrderAlias sample -> "order_" <> sample
|
|
|
|
fromAlias :: From -> EntityAlias
|
|
fromAlias (FromQualifiedTable Aliased {aliasedAlias}) = EntityAlias aliasedAlias
|
|
fromAlias (FromOpenJson Aliased {aliasedAlias}) = EntityAlias aliasedAlias
|
|
fromAlias (FromSelect Aliased {aliasedAlias}) = EntityAlias aliasedAlias
|
|
fromAlias (FromIdentifier identifier) = EntityAlias identifier
|
|
fromAlias (FromTempTable Aliased {aliasedAlias}) = EntityAlias aliasedAlias
|
|
|
|
columnNameToFieldName :: ColumnName -> EntityAlias -> FieldName
|
|
columnNameToFieldName (ColumnName fieldName) EntityAlias {entityAliasText = fieldNameEntity} =
|
|
FieldName {fieldName, fieldNameEntity}
|