mirror of
https://github.com/hasura/graphql-engine.git
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0a4194a1bc
PR-URL: https://github.com/hasura/graphql-engine-mono/pull/3010 GitOrigin-RevId: 3b09a7d61343d406d1ecc5d6aaab866564c9dff8
399 lines
13 KiB
Haskell
399 lines
13 KiB
Haskell
{-# LANGUAGE UndecidableInstances #-}
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-- |
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--
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-- Execute the plan given from .Plan.
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module Hasura.Backends.MySQL.DataLoader.Execute
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( OutputValue (..),
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RecordSet (..),
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ExecuteProblem (..),
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execute,
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runExecute,
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-- for testing
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joinObjectRows,
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leftObjectJoin,
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)
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where
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import Control.Monad.IO.Class
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import Data.Aeson hiding (Value)
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import Data.Aeson qualified as J
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import Data.Bifunctor
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import Data.Foldable
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import Data.Graph
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import Data.HashMap.Strict.InsOrd qualified as OMap
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import Data.IORef
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import Data.Vector (Vector)
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import Data.Vector qualified as V
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import GHC.TypeLits qualified
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import Hasura.Backends.MySQL.Connection (runQueryYieldingRows)
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import Hasura.Backends.MySQL.DataLoader.Plan
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( Action (..),
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FieldName (..),
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HeadAndTail (..),
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Join
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( joinFieldName,
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joinRhsOffset,
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joinRhsTop,
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joinType,
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leftRecordSet,
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rightRecordSet
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),
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PlannedAction (..),
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Ref,
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selectQuery,
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toFieldName,
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)
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import Hasura.Backends.MySQL.DataLoader.Plan qualified as DataLoaderPlan
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import Hasura.Backends.MySQL.DataLoader.Plan qualified as Plan
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import Hasura.Backends.MySQL.ToQuery (fromSelect, toQueryFlat)
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import Hasura.Backends.MySQL.Types hiding
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( FieldName,
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ScalarValue,
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selectWhere,
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)
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-- import Hasura.Backends.MySQL.Types qualified as MySQL
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import Hasura.GraphQL.Parser ()
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-- Brings an instance for Hashable (Vector a)...
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import Hasura.Prelude hiding
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( concatMap,
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elem,
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head,
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map,
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mapMaybe,
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tail,
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toList,
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)
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-- | A set of records produced by the database. These are joined
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-- together. There are all sorts of optimizations possible here, from
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-- using a matrix/flat vector, unboxed sums for Value, etc. Presently
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-- we choose a naive implementation in the interest of getting other
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-- work done.
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data RecordSet = RecordSet
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{ origin :: !(Maybe PlannedAction),
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rows :: !(Vector (InsOrdHashMap FieldName OutputValue)),
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wantedFields :: !(Maybe [Text])
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}
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deriving (Show)
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instance GHC.TypeLits.TypeError ('GHC.TypeLits.Text "Aeson loses key order, so you can't use this instance.") => ToJSON RecordSet where
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toJSON RecordSet {} = error "RecordSet.toJSON: do not use."
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-- | The read-only info. used by the Execute monad. Later, this IORef
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-- may become either atomically modified or in an STM or MVar so that
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-- jobs can be executed in parallel.
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data ExecuteReader = ExecuteReader
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{ recordSets :: IORef (InsOrdHashMap Ref RecordSet),
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credentials :: !SourceConfig
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}
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-- | Any problem encountered while executing the plan.
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data ExecuteProblem
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= GetJobDecodeProblem String
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| CreateQueryJobDecodeProblem String
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| JoinProblem ExecuteProblem
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| UnsupportedJoinBug JoinType
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| MissingRecordSetBug Ref
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| BrokenJoinInvariant [DataLoaderPlan.FieldName]
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deriving (Show)
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-- | Execute monad; as queries are performed, the record sets are
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-- stored in the map.
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newtype Execute a = Execute
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{unExecute :: ReaderT ExecuteReader (ExceptT ExecuteProblem IO) a}
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deriving
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( Functor,
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Applicative,
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Monad,
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MonadReader ExecuteReader,
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MonadIO,
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MonadError ExecuteProblem
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)
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-- | A value outputted by this execute module in a record set.
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data OutputValue
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= ArrayOutputValue !(Vector OutputValue)
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| RecordOutputValue !(InsOrdHashMap DataLoaderPlan.FieldName OutputValue)
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| ScalarOutputValue !J.Value -- TODO: switch to 'MySQL.Scalar...'?
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| NullOutputValue
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deriving (Show, Eq, Generic)
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instance Hashable OutputValue
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--------------------------------------------------------------------------------
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-- Main entry points
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-- | Using the config, run the execute action. Finally, resolve the
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-- head-and-tail to a record set.
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runExecute ::
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MonadIO m =>
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SourceConfig ->
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HeadAndTail ->
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Execute a ->
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m (Either ExecuteProblem RecordSet)
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runExecute credentials headAndTail action = do
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recordSets <- liftIO (newIORef mempty)
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liftIO $
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runExceptT $
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runReaderT
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(unExecute (action >> getFinalRecordSet headAndTail))
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(ExecuteReader {credentials, recordSets})
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-- | Execute the forest of actions.
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execute :: Forest PlannedAction -> Execute ()
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execute = traverse_ (traverse_ executePlannedAction)
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-- | Execute an action, then store its result in the ref assigned to it.
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executePlannedAction :: PlannedAction -> Execute ()
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executePlannedAction PlannedAction {ref, action} =
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fetchRecordSetForAction action >>= saveRecordSet ref
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-- | Fetch the record set for the given action.
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fetchRecordSetForAction :: Action -> Execute RecordSet
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fetchRecordSetForAction =
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\case
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SelectAction select -> do
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recordSet <- do
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SourceConfig {scConnectionPool} <- asks credentials
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result <-
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liftIO $
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runExceptT $
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runQueryYieldingRows
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scConnectionPool
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(toQueryFlat (fromSelect (selectQuery select)))
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case result of
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Left problem -> throwError (JoinProblem problem)
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Right rows -> pure (makeRecordSet rows)
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-- Update the wanted fields from the original select. This lets
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-- the executor know which fields to include after performing a
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-- join.
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pure recordSet {wantedFields = Plan.selectWantedFields select}
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JoinAction Plan.Join {joinType = joinType', joinFieldName = fieldName, ..} -> do
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left <- getRecordSet leftRecordSet
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right <- getRecordSet rightRecordSet
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case joinType' of
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ArrayJoin fields ->
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leftArrayJoin
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wantedFields
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fieldName
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(toFieldNames fields)
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joinRhsTop
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joinRhsOffset
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left
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right
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`onLeft` (throwError . JoinProblem)
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ObjectJoin fields ->
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leftObjectJoin
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wantedFields
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fieldName
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(toFieldNames fields)
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left
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right
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`onLeft` (throwError . JoinProblem)
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_ -> throwError (UnsupportedJoinBug joinType')
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where
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toFieldNames = fmap (bimap toFieldName toFieldName)
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-- | Make a record set from a flat record from the DB.
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makeRecordSet :: Vector (InsOrdHashMap FieldName J.Value) -> RecordSet
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makeRecordSet rows =
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RecordSet
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{ origin = Nothing, -- No information for this yet, but will follow
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-- up with a change for this later.
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rows = fmap (fmap ScalarOutputValue) rows,
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wantedFields = Nothing
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}
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saveRecordSet :: Ref -> RecordSet -> Execute ()
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saveRecordSet ref recordSet = do
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recordSetsRef <- asks recordSets
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liftIO (modifyIORef' recordSetsRef (OMap.insert ref recordSet))
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getRecordSet :: Ref -> Execute RecordSet
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getRecordSet ref = do
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recordSetsRef <- asks recordSets
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hash <- liftIO (readIORef recordSetsRef)
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OMap.lookup ref hash `onNothing` throwError (MissingRecordSetBug ref)
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-- | See documentation for 'HeadAndTail'.
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getFinalRecordSet :: HeadAndTail -> Execute RecordSet
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getFinalRecordSet HeadAndTail {..} = do
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headSet <- getRecordSet head
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tailSet <-
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if tail /= head
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then getRecordSet tail
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else pure headSet
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pure
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tailSet
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{ rows =
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fmap
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( OMap.filterWithKey
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( \(FieldName k) _ ->
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maybe True (elem k) (wantedFields headSet)
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)
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)
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(rows tailSet)
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}
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{- WIP, it seems:
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-- | Make an lhs_fk IN (rhs_fk1, rhs_fk2, ..) expression list.
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makeRelationshipIn :: DataLoaderPlan.Relationship -> Execute [Expression]
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makeRelationshipIn
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DataLoaderPlan.Relationship
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{ leftRecordSet,
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joinType = _,
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rightTable = _rightTable
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} = do
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RecordSet {rows = _rows} <- getRecordSet leftRecordSet
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-- TODO: A follow-up PR will add IN(..) and will join on the join
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-- fields for the left/right tables. It needs support from Types.hs.
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pure []
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where
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_lookupField' k row =
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case OMap.lookup k row of
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Nothing -> Nothing
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Just x -> Just x
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-- | Will be used by makeRelationshipIn for forming lhs_fk IN (rhs_fk1, rhs_fk2, ..)
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planFieldNameToQueryFieldName :: EntityAlias -> FieldName -> MySQL.FieldName
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planFieldNameToQueryFieldName (EntityAlias fieldNameEntity) (FieldName fieldName) =
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MySQL.FieldName {fNameEntity = fieldNameEntity, fName = fieldName}
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-}
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-- | Inefficient but clean left object join.
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leftObjectJoin ::
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Maybe [Text] ->
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Text ->
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[(DataLoaderPlan.FieldName, DataLoaderPlan.FieldName)] ->
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RecordSet ->
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RecordSet ->
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Either ExecuteProblem RecordSet
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leftObjectJoin wantedFields joinAlias joinFields left right = do
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rows' <- fmap V.fromList . traverse makeRows . toList $ rows left
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pure
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RecordSet
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{ origin = Nothing,
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wantedFields = Nothing,
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rows = rows'
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}
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where
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makeRows :: InsOrdHashMap FieldName OutputValue -> Either ExecuteProblem (InsOrdHashMap FieldName OutputValue)
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makeRows leftRow =
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let rightRows =
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V.fromList
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[ rightRow
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| not (null joinFields),
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rightRow <- toList (rows right),
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all
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( \(rightField, leftField) ->
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Just True
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== ( do
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leftValue <- OMap.lookup leftField leftRow
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rightValue <- OMap.lookup rightField rightRow
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pure (leftValue == rightValue)
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)
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)
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joinFields
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]
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in -- The line below will return Left is rightRows has more than one element.
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-- Consider moving the check here if it makes sense in the future.
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joinObjectRows wantedFields joinAlias leftRow rightRows
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-- | A naive, exponential reference implementation of a left join. It
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-- serves as a trivial sample implementation for correctness checking
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-- of more efficient ones.
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leftArrayJoin ::
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Maybe [Text] ->
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Text ->
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[(DataLoaderPlan.FieldName, DataLoaderPlan.FieldName)] ->
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Top ->
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Maybe Int ->
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RecordSet ->
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RecordSet ->
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Either ExecuteProblem RecordSet
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leftArrayJoin wantedFields joinAlias joinFields rhsTop rhsOffset left right =
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pure
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RecordSet
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{ origin = Nothing,
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wantedFields = Nothing,
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rows =
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V.fromList
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[ joinArrayRows wantedFields joinAlias leftRow rightRows
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| leftRow <- toList (rows left),
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let rightRows =
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V.fromList
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( limit
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( offset
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[ rightRow
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| not (null joinFields),
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rightRow <- toList (rows right),
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all
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( \(rightField, leftField) ->
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Just True
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== ( do
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leftValue <- OMap.lookup leftField leftRow
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rightValue <- OMap.lookup rightField rightRow
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pure (leftValue == rightValue)
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)
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)
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joinFields
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]
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)
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)
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]
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}
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where
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offset = maybe id drop rhsOffset
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limit =
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case rhsTop of
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NoTop -> id
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Top n -> take n
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-- | Join a row with another as an array join.
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joinArrayRows ::
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Maybe [Text] ->
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Text ->
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InsOrdHashMap DataLoaderPlan.FieldName OutputValue ->
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Vector (InsOrdHashMap DataLoaderPlan.FieldName OutputValue) ->
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InsOrdHashMap DataLoaderPlan.FieldName OutputValue
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joinArrayRows wantedFields fieldName leftRow rightRow =
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OMap.insert
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(DataLoaderPlan.FieldName fieldName)
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( ArrayOutputValue
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( fmap
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( RecordOutputValue
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. OMap.filterWithKey
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( \(DataLoaderPlan.FieldName k) _ ->
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maybe True (elem k) wantedFields
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)
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)
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rightRow
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)
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)
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leftRow
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-- | Join a row with another as an object join.
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--
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-- If rightRow is not a single row, we throw 'BrokenJoinInvariant'.
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joinObjectRows ::
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Maybe [Text] ->
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Text ->
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InsOrdHashMap DataLoaderPlan.FieldName OutputValue ->
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Vector (InsOrdHashMap DataLoaderPlan.FieldName OutputValue) ->
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Either ExecuteProblem (InsOrdHashMap DataLoaderPlan.FieldName OutputValue)
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joinObjectRows wantedFields fieldName leftRow rightRows
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| V.length rightRows /= 1 = Left . BrokenJoinInvariant . foldMap OMap.keys $ rightRows
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| otherwise =
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let row = V.head rightRows
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in pure $
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OMap.insert
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(DataLoaderPlan.FieldName fieldName)
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( RecordOutputValue
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( OMap.filterWithKey
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(\(DataLoaderPlan.FieldName k) _ -> maybe True (elem k) wantedFields)
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row
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)
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)
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leftRow
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