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304 lines
15 KiB
Haskell
304 lines
15 KiB
Haskell
module Hasura.GraphQL.Schema.BoolExp
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( boolExp
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) where
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import Hasura.Prelude
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import qualified Data.HashMap.Strict.Extended as M
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import qualified Language.GraphQL.Draft.Syntax as G
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import qualified Hasura.GraphQL.Parser as P
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import Data.Text.Extended
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import Hasura.GraphQL.Parser (InputFieldsParser, Kind (..), Parser,
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UnpreparedValue, mkParameter)
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import Hasura.GraphQL.Parser.Class
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import Hasura.GraphQL.Schema.Table
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import Hasura.RQL.Types
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import Hasura.SQL.DML
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import Hasura.SQL.Types
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import Hasura.SQL.Value
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type ComparisonExp = OpExpG UnpreparedValue
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-- |
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-- > input type_bool_exp {
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-- > _or: [type_bool_exp!]
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-- > _and: [type_bool_exp!]
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-- > _not: type_bool_exp
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-- > column: type_comparison_exp
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-- > ...
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-- > }
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boolExp
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:: forall m n r. (MonadSchema n m, MonadTableInfo r m, MonadRole r m)
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=> QualifiedTable
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-> Maybe SelPermInfo
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-> m (Parser 'Input n (AnnBoolExp UnpreparedValue))
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boolExp table selectPermissions = memoizeOn 'boolExp table $ do
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name <- qualifiedObjectToName table <&> (<> $$(G.litName "_bool_exp"))
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let description = G.Description $
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"Boolean expression to filter rows from the table " <> table <<>
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". All fields are combined with a logical 'AND'."
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tableFieldParsers <- catMaybes <$> maybe
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(pure [])
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(traverse mkField <=< tableSelectFields table)
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selectPermissions
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recur <- boolExp table selectPermissions
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-- Bafflingly, ApplicativeDo doesn’t work if we inline this definition (I
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-- think the TH splices throw it off), so we have to define it separately.
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let specialFieldParsers =
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[ P.fieldOptional $$(G.litName "_or") Nothing (BoolOr <$> P.list recur)
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, P.fieldOptional $$(G.litName "_and") Nothing (BoolAnd <$> P.list recur)
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, P.fieldOptional $$(G.litName "_not") Nothing (BoolNot <$> recur)
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]
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pure $ BoolAnd <$> P.object name (Just description) do
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tableFields <- map BoolFld . catMaybes <$> sequenceA tableFieldParsers
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specialFields <- catMaybes <$> sequenceA specialFieldParsers
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pure (tableFields ++ specialFields)
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where
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mkField
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:: FieldInfo -> m (Maybe (InputFieldsParser n (Maybe (AnnBoolExpFld UnpreparedValue))))
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mkField fieldInfo = runMaybeT do
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fieldName <- MaybeT $ pure $ fieldInfoGraphQLName fieldInfo
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P.fieldOptional fieldName Nothing <$> case fieldInfo of
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-- field_name: field_type_comparison_exp
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FIColumn columnInfo ->
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lift $ fmap (AVCol columnInfo) <$> comparisonExps (pgiType columnInfo)
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-- field_name: field_type_bool_exp
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FIRelationship relationshipInfo -> do
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let remoteTable = riRTable relationshipInfo
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remotePermissions <- lift $ tableSelectPermissions remoteTable
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lift $ fmap (AVRel relationshipInfo) <$> boolExp remoteTable remotePermissions
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-- Using computed fields in boolean expressions is not currently supported.
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FIComputedField _ -> empty
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-- Using remote relationship fields in boolean expressions is not supported.
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FIRemoteRelationship _ -> empty
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comparisonExps
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:: forall m n. (MonadSchema n m, MonadError QErr m)
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=> PGColumnType -> m (Parser 'Input n [ComparisonExp])
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comparisonExps = P.memoize 'comparisonExps \columnType -> do
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geogInputParser <- geographyWithinDistanceInput
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geomInputParser <- geometryWithinDistanceInput
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ignInputParser <- intersectsGeomNbandInput
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ingInputParser <- intersectsNbandGeomInput
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-- see Note [Columns in comparison expression are never nullable]
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columnParser <- P.column columnType (G.Nullability False)
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nullableTextParser <- P.column (PGColumnScalar PGText) (G.Nullability True)
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textParser <- P.column (PGColumnScalar PGText) (G.Nullability False)
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maybeCastParser <- castExp columnType
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let name = P.getName columnParser <> $$(G.litName "_comparison_exp")
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desc = G.Description $ "Boolean expression to compare columns of type "
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<> P.getName columnParser
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<<> ". All fields are combined with logical 'AND'."
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textListParser = P.list textParser `P.bind` traverse P.openOpaque
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columnListParser = P.list columnParser `P.bind` traverse P.openOpaque
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pure $ P.object name (Just desc) $ fmap catMaybes $ sequenceA $ concat
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[ flip (maybe []) maybeCastParser $ \castParser ->
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[ P.fieldOptional $$(G.litName "_cast") Nothing (ACast <$> castParser)
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]
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-- Common ops for all types
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, [ P.fieldOptional $$(G.litName "_is_null") Nothing (bool ANISNOTNULL ANISNULL <$> P.boolean)
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, P.fieldOptional $$(G.litName "_eq") Nothing (AEQ True . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_neq") Nothing (ANE True . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_in") Nothing (AIN . mkListLiteral columnType <$> columnListParser)
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, P.fieldOptional $$(G.litName "_nin") Nothing (ANIN . mkListLiteral columnType <$> columnListParser)
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]
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-- Comparison ops for non Raster types
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, guard (isScalarColumnWhere (/= PGRaster) columnType) *>
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[ P.fieldOptional $$(G.litName "_gt") Nothing (AGT . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_lt") Nothing (ALT . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_gte") Nothing (AGTE . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_lte") Nothing (ALTE . mkParameter <$> columnParser)
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]
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-- Ops for Raster types
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, guard (isScalarColumnWhere (== PGRaster) columnType) *>
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[ P.fieldOptional $$(G.litName "_st_intersects_rast")
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Nothing
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(ASTIntersectsRast . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_st_intersects_nband_geom")
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Nothing
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(ASTIntersectsNbandGeom <$> ingInputParser)
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, P.fieldOptional $$(G.litName "_st_intersects_geom_nband")
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Nothing
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(ASTIntersectsGeomNband <$> ignInputParser)
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]
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-- Ops for String like types
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, guard (isScalarColumnWhere isStringType columnType) *>
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[ P.fieldOptional $$(G.litName "_like")
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(Just "does the column match the given pattern")
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(ALIKE . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_nlike")
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(Just "does the column NOT match the given pattern")
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(ANLIKE . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_ilike")
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(Just "does the column match the given case-insensitive pattern")
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(AILIKE . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_nilike")
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(Just "does the column NOT match the given case-insensitive pattern")
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(ANILIKE . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_similar")
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(Just "does the column match the given SQL regular expression")
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(ASIMILAR . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_nsimilar")
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(Just "does the column NOT match the given SQL regular expression")
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(ANSIMILAR . mkParameter <$> columnParser)
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]
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-- Ops for JSONB type
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, guard (isScalarColumnWhere (== PGJSONB) columnType) *>
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[ P.fieldOptional $$(G.litName "_contains")
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(Just "does the column contain the given json value at the top level")
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(AContains . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_contained_in")
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(Just "is the column contained in the given json value")
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(AContainedIn . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_has_key")
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(Just "does the string exist as a top-level key in the column")
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(AHasKey . mkParameter <$> nullableTextParser)
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, P.fieldOptional $$(G.litName "_has_keys_any")
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(Just "do any of these strings exist as top-level keys in the column")
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(AHasKeysAny . mkListLiteral (PGColumnScalar PGText) <$> textListParser)
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, P.fieldOptional $$(G.litName "_has_keys_all")
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(Just "do all of these strings exist as top-level keys in the column")
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(AHasKeysAll . mkListLiteral (PGColumnScalar PGText) <$> textListParser)
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]
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-- Ops for Geography type
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, guard (isScalarColumnWhere (== PGGeography) columnType) *>
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[ P.fieldOptional $$(G.litName "_st_intersects")
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(Just "does the column spatially intersect the given geography value")
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(ASTIntersects . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_st_d_within")
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(Just "is the column within a given distance from the given geography value")
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(ASTDWithinGeog <$> geogInputParser)
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]
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-- Ops for Geometry type
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, guard (isScalarColumnWhere (== PGGeometry) columnType) *>
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[ P.fieldOptional $$(G.litName "_st_contains")
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(Just "does the column contain the given geometry value")
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(ASTContains . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_st_crosses")
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(Just "does the column cross the given geometry value")
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(ASTCrosses . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_st_equals")
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(Just "is the column equal to given geometry value (directionality is ignored)")
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(ASTEquals . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_st_overlaps")
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(Just "does the column 'spatially overlap' (intersect but not completely contain) the given geometry value")
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(ASTOverlaps . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_st_touches")
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(Just "does the column have atleast one point in common with the given geometry value")
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(ASTTouches . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_st_within")
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(Just "is the column contained in the given geometry value")
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(ASTWithin . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_st_intersects")
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(Just "does the column spatially intersect the given geometry value")
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(ASTIntersects . mkParameter <$> columnParser)
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, P.fieldOptional $$(G.litName "_st_d_within")
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(Just "is the column within a given distance from the given geometry value")
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(ASTDWithinGeom <$> geomInputParser)
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]
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]
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where
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mkListLiteral :: PGColumnType -> [P.PGColumnValue] -> UnpreparedValue
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mkListLiteral columnType columnValues = P.UVLiteral $ SETyAnn
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(SEArray $ txtEncoder . pstValue . P.pcvValue <$> columnValues)
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(mkTypeAnn $ PGTypeArray $ unsafePGColumnToRepresentation columnType)
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castExp :: PGColumnType -> m (Maybe (Parser 'Input n (CastExp UnpreparedValue)))
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castExp sourceType = do
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let maybeScalars = case sourceType of
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PGColumnScalar PGGeography -> Just (PGGeography, PGGeometry)
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PGColumnScalar PGGeometry -> Just (PGGeometry, PGGeography)
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_ -> Nothing
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forM maybeScalars $ \(sourceScalar, targetScalar) -> do
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sourceName <- P.mkScalarTypeName sourceScalar <&> (<> $$(G.litName "_cast_exp"))
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targetName <- P.mkScalarTypeName targetScalar
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targetOpExps <- comparisonExps $ PGColumnScalar targetScalar
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let field = P.fieldOptional targetName Nothing $ (targetScalar, ) <$> targetOpExps
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pure $ P.object sourceName Nothing $ M.fromList . maybeToList <$> field
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geographyWithinDistanceInput
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:: forall m n. (MonadSchema n m, MonadError QErr m)
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=> m (Parser 'Input n (DWithinGeogOp UnpreparedValue))
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geographyWithinDistanceInput = do
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geographyParser <- P.column (PGColumnScalar PGGeography) (G.Nullability False)
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-- FIXME
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-- It doesn't make sense for this value to be nullable; it only is for
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-- backwards compatibility; if an explicit Null value is given, it will be
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-- forwarded to the underlying SQL function, that in turns treat a null value
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-- as an error. We can fix this by rejecting explicit null values, by marking
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-- this field non-nullable in a future release.
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booleanParser <- P.column (PGColumnScalar PGBoolean) (G.Nullability True)
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floatParser <- P.column (PGColumnScalar PGFloat) (G.Nullability False)
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pure $ P.object $$(G.litName "st_d_within_geography_input") Nothing $
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DWithinGeogOp <$> (mkParameter <$> P.field $$(G.litName "distance") Nothing floatParser)
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<*> (mkParameter <$> P.field $$(G.litName "from") Nothing geographyParser)
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<*> (mkParameter <$> P.fieldWithDefault $$(G.litName "use_spheroid") Nothing (G.VBoolean True) booleanParser)
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geometryWithinDistanceInput
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:: forall m n. (MonadSchema n m, MonadError QErr m)
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=> m (Parser 'Input n (DWithinGeomOp UnpreparedValue))
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geometryWithinDistanceInput = do
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geometryParser <- P.column (PGColumnScalar PGGeometry) (G.Nullability False)
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floatParser <- P.column (PGColumnScalar PGFloat) (G.Nullability False)
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pure $ P.object $$(G.litName "st_d_within_input") Nothing $
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DWithinGeomOp <$> (mkParameter <$> P.field $$(G.litName "distance") Nothing floatParser)
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<*> (mkParameter <$> P.field $$(G.litName "from") Nothing geometryParser)
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intersectsNbandGeomInput
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:: forall m n. (MonadSchema n m, MonadError QErr m)
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=> m (Parser 'Input n (STIntersectsNbandGeommin UnpreparedValue))
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intersectsNbandGeomInput = do
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geometryParser <- P.column (PGColumnScalar PGGeometry) (G.Nullability False)
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integerParser <- P.column (PGColumnScalar PGInteger) (G.Nullability False)
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pure $ P.object $$(G.litName "st_intersects_nband_geom_input") Nothing $
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STIntersectsNbandGeommin <$> (mkParameter <$> P.field $$(G.litName "nband") Nothing integerParser)
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<*> (mkParameter <$> P.field $$(G.litName "geommin") Nothing geometryParser)
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intersectsGeomNbandInput
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:: forall m n. (MonadSchema n m, MonadError QErr m)
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=> m (Parser 'Input n (STIntersectsGeomminNband UnpreparedValue))
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intersectsGeomNbandInput = do
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geometryParser <- P.column (PGColumnScalar PGGeometry) (G.Nullability False)
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integerParser <- P.column (PGColumnScalar PGInteger) (G.Nullability False)
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pure $ P.object $$(G.litName "st_intersects_geom_nband_input") Nothing $ STIntersectsGeomminNband
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<$> ( mkParameter <$> P.field $$(G.litName "geommin") Nothing geometryParser)
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<*> (fmap mkParameter <$> P.fieldOptional $$(G.litName "nband") Nothing integerParser)
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{- Note [Columns in comparison expression are never nullable]
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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In comparisonExps, we hardcode `Nullability False` when calling `column`, which
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might seem a bit sketchy. Shouldn’t the nullability depend on the nullability of
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the underlying Postgres column?
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No. If we did that, then we would allow boolean expressions like this:
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delete_users(where: {status: {eq: null}})
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The user expects this to generate SQL like
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DELETE FROM users WHERE users.status IS NULL
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but it doesn’t. We treat null to mean “no condition was specified” (since
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that’s how GraphQL indicates an optional field was omitted), and we actually
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generate SQL like this:
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DELETE FROM users
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Now we’ve gone and deleted every user in the database. Hopefully the user had
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backups!
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We avoid this problem by making the column value non-nullable (which is correct,
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since we never treat a null value as a SQL NULL), then creating the field using
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fieldOptional. This creates a parser that rejects nulls, but won’t be called at
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all if the field is not specified, which is permitted by the GraphQL
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specification. See Note [Optional fields and nullability] in
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Hasura.GraphQL.Parser.Internal.Parser for more details. -}
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