mirror of
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149 lines
6.0 KiB
Haskell
149 lines
6.0 KiB
Haskell
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{-# LANGUAGE QuasiQuotes #-}
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-- | This module defines the scalars we use specific to the BigQuery
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-- schema.
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--
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-- An idiosyncracy of BigQuery is that numbers serialized via JSON uses string
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-- literals instead of number literals, because BigQuery handles wider-bit
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-- numbers than JSON/JavaScript does.
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--
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-- Therefore, the BigQuery Backend uses bespoke parsers for numeric scalar
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-- input, which accept string literals as well as number literals, such that we
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-- preserve symmetry with with output formats.
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module Hasura.Backends.BigQuery.Parser.Scalars
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( bqInt64,
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bqFloat64,
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bqDecimal,
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bqBigDecimal,
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)
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where
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import Data.Aeson qualified as A
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import Data.Int (Int64)
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import Data.Scientific (Scientific)
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import Data.Scientific qualified as S
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import Data.Scientific qualified as Scientific
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import Data.Text qualified as Text
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import Hasura.Backends.BigQuery.Types qualified as BigQuery
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import Hasura.Base.ErrorMessage (toErrorMessage)
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import Hasura.Base.ErrorValue (dquote)
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import Hasura.GraphQL.Parser.Class
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import Hasura.GraphQL.Parser.ErrorCode
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import Hasura.GraphQL.Parser.Internal.TypeChecking
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import Hasura.GraphQL.Parser.Internal.Types
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import Hasura.GraphQL.Parser.Schema
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import Hasura.GraphQL.Parser.Variable
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import Hasura.Prelude
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import Language.GraphQL.Draft.Syntax hiding (Definition)
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import Language.GraphQL.Draft.Syntax qualified as G
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import Language.GraphQL.Draft.Syntax.QQ qualified as G
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import Text.ParserCombinators.ReadP
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bqInt64 :: forall origin m. MonadParse m => Parser origin 'Both m BigQuery.Int64
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bqInt64 = mkScalar name "64-bit integers. Accepts both string and number literals." \case
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GraphQLValue (VInt i)
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| checkIntegerBounds i -> return $ BigQuery.Int64 (tshow i)
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| otherwise -> boundsFailure (tshow i)
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GraphQLValue (VString s) -> integralText s
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JSONValue (A.String s) -> integralText s
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JSONValue (A.Number n) -> integralSci (tshow n) n
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v -> typeMismatch name "a 64-bit integer" v
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where
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name = [G.name|bigquery_int|]
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checkIntegerBounds :: Integer -> Bool
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checkIntegerBounds i = toInteger (minBound @Int64) <= i && i <= toInteger (maxBound @Int64)
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integralText :: Text -> m BigQuery.Int64
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integralText inputText
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| [(sci, "")] <- readP_to_S Scientific.scientificP (Text.unpack inputText) = integralSci inputText sci
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| otherwise = stringNotationError name inputText
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integralSci :: Text -> Scientific -> m BigQuery.Int64
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integralSci inputText sci
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| Scientific.isInteger sci =
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case Scientific.toBoundedInteger @Int64 sci of
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Just v -> return $ BigQuery.intToInt64 v
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Nothing -> boundsFailure inputText
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| otherwise = integralFailure inputText
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boundsFailure, integralFailure :: forall a. Text -> m a
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boundsFailure inputText = parseErrorWith ParseFailed $ "The value " <> toErrorMessage inputText <> " lies outside the accepted numerical integral bounds."
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integralFailure inputText = parseErrorWith ParseFailed $ "The value " <> toErrorMessage inputText <> " has a non-zero fractional part."
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bqFloat64 :: forall origin m. MonadParse m => Parser origin 'Both m BigQuery.Float64
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bqFloat64 = mkScalar name "64-bit floats. Accepts both string and number literals." \case
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GraphQLValue (VFloat f) -> floatSci (tshow f) f
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GraphQLValue (VInt i) -> floatSci (tshow i) (fromInteger i)
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GraphQLValue (VString s) -> floatText s
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JSONValue (A.String s) -> floatText s
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JSONValue (A.Number n) -> floatSci (tshow n) n
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v -> typeMismatch name "a 64-bit float" v
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where
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name = [G.name|bigquery_float|]
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floatText :: Text -> m BigQuery.Float64
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floatText inputText
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| [(sci, "")] <- readP_to_S Scientific.scientificP (Text.unpack inputText) = floatSci inputText sci
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| otherwise = stringNotationError name inputText
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floatSci :: Text -> Scientific -> m BigQuery.Float64
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floatSci inputText sci =
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case Scientific.toBoundedRealFloat @Double sci of
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Right v -> return $ BigQuery.doubleToFloat64 v
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Left _ -> boundsFailure inputText
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boundsFailure :: forall a. Text -> m a
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boundsFailure inputText = parseErrorWith ParseFailed $ "The value " <> toErrorMessage inputText <> " lies outside the accepted numerical integral bounds."
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bqBigDecimal :: MonadParse m => Parser origin 'Both m BigQuery.BigDecimal
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bqBigDecimal = mkScalar name "BigDecimals. Accepts both string and number literals." $ fmap (BigQuery.BigDecimal . BigQuery.scientificToText) . decimal name
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where
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name = [G.name|bigquery_bigdecimal|]
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bqDecimal :: MonadParse m => Parser origin 'Both m BigQuery.Decimal
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bqDecimal = mkScalar name "Decimals. Accepts both string and number literals." $ fmap (BigQuery.Decimal . BigQuery.scientificToText) . decimal name
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where
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name = [G.name|bigquery_decimal|]
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decimal :: MonadParse f => Name -> InputValue Variable -> f Scientific
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decimal name = \case
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GraphQLValue (VFloat f) -> pure f
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GraphQLValue (VInt i) -> pure $ S.scientific i 0
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GraphQLValue (VString s)
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| Just sci <- readMaybe (Text.unpack s) -> pure $ sci
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| otherwise -> stringNotationError name s
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JSONValue (A.Number n) -> pure n
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JSONValue (A.String s)
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| Just sci <- readMaybe (Text.unpack s) -> pure $ sci
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| otherwise -> stringNotationError name s
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v -> typeMismatch name "decimal" v
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--------------------------------------------------------------------------------
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-- Local helpers
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mkScalar ::
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MonadParse m =>
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Name ->
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Description ->
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(InputValue Variable -> m a) ->
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Parser origin 'Both m a
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mkScalar name desc parser =
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Parser
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{ pType = schemaType,
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pParser = peelVariable (toGraphQLType schemaType) >=> parser
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}
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where
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schemaType = typeNamed name (Just desc)
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typeNamed :: Name -> Maybe Description -> Type origin 'Both
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typeNamed name description = TNamed NonNullable $ Definition name description Nothing [] TIScalar
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stringNotationError :: MonadParse m => G.Name -> Text -> m a
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stringNotationError typeName actualString =
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parseError $
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"expected " <> toErrorMessage (tshow typeName) <> " represented as a string, but got " <> dquote actualString
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<> ", which is not a recognizable "
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<> toErrorMessage (tshow typeName)
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<> "."
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