{- Copyright (c) Meta Platforms, Inc. and affiliates. All rights reserved. This source code is licensed under the BSD-style license found in the LICENSE file in the root directory of this source tree. -} {- This file was auto-generated from scip.proto by the proto-lens-protoc program. -} {-# LANGUAGE ScopedTypeVariables, DataKinds, TypeFamilies, UndecidableInstances, GeneralizedNewtypeDeriving, MultiParamTypeClasses, FlexibleContexts, FlexibleInstances, PatternSynonyms, MagicHash, NoImplicitPrelude, DataKinds, BangPatterns, TypeApplications, OverloadedStrings, DerivingStrategies#-} {-# OPTIONS_GHC -Wno-unused-imports#-} {-# OPTIONS_GHC -Wno-duplicate-exports#-} {-# OPTIONS_GHC -Wno-dodgy-exports#-} module Proto.Scip ( Descriptor(), Descriptor'Suffix(..), Descriptor'Suffix(Descriptor'Package), Descriptor'Suffix'UnrecognizedValue, Diagnostic(), DiagnosticTag(..), DiagnosticTag(), DiagnosticTag'UnrecognizedValue, Document(), Index(), Language(..), Language(), Language'UnrecognizedValue, Metadata(), Occurrence(), Package(), PositionEncoding(..), PositionEncoding(), PositionEncoding'UnrecognizedValue, ProtocolVersion(..), ProtocolVersion(), ProtocolVersion'UnrecognizedValue, Relationship(), Severity(..), Severity(), Severity'UnrecognizedValue, Symbol(), SymbolInformation(), SymbolInformation'Kind(..), SymbolInformation'Kind(), SymbolInformation'Kind'UnrecognizedValue, SymbolRole(..), SymbolRole(), SymbolRole'UnrecognizedValue, SyntaxKind(..), SyntaxKind(IdentifierKeyword, IdentifierModule), SyntaxKind'UnrecognizedValue, TextEncoding(..), TextEncoding(), TextEncoding'UnrecognizedValue, ToolInfo() ) where import qualified Data.ProtoLens.Runtime.Control.DeepSeq as Control.DeepSeq import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Prism as Data.ProtoLens.Prism import qualified Data.ProtoLens.Runtime.Prelude as Prelude import qualified Data.ProtoLens.Runtime.Data.Int as Data.Int import qualified Data.ProtoLens.Runtime.Data.Monoid as Data.Monoid import qualified Data.ProtoLens.Runtime.Data.Word as Data.Word import qualified Data.ProtoLens.Runtime.Data.ProtoLens as Data.ProtoLens import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Encoding.Bytes as Data.ProtoLens.Encoding.Bytes import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Encoding.Growing as Data.ProtoLens.Encoding.Growing import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Encoding.Parser.Unsafe as Data.ProtoLens.Encoding.Parser.Unsafe import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Encoding.Wire as Data.ProtoLens.Encoding.Wire import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Field as Data.ProtoLens.Field import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Message.Enum as Data.ProtoLens.Message.Enum import qualified Data.ProtoLens.Runtime.Data.ProtoLens.Service.Types as Data.ProtoLens.Service.Types import qualified Data.ProtoLens.Runtime.Lens.Family2 as Lens.Family2 import qualified Data.ProtoLens.Runtime.Lens.Family2.Unchecked as Lens.Family2.Unchecked import qualified Data.ProtoLens.Runtime.Data.Text as Data.Text import qualified Data.ProtoLens.Runtime.Data.Map as Data.Map import qualified Data.ProtoLens.Runtime.Data.ByteString as Data.ByteString import qualified Data.ProtoLens.Runtime.Data.ByteString.Char8 as Data.ByteString.Char8 import qualified Data.ProtoLens.Runtime.Data.Text.Encoding as Data.Text.Encoding import qualified Data.ProtoLens.Runtime.Data.Vector as Data.Vector import qualified Data.ProtoLens.Runtime.Data.Vector.Generic as Data.Vector.Generic import qualified Data.ProtoLens.Runtime.Data.Vector.Unboxed as Data.Vector.Unboxed import qualified Data.ProtoLens.Runtime.Text.Read as Text.Read {- | Fields : * 'Proto.Scip_Fields.name' @:: Lens' Descriptor Data.Text.Text@ * 'Proto.Scip_Fields.disambiguator' @:: Lens' Descriptor Data.Text.Text@ * 'Proto.Scip_Fields.suffix' @:: Lens' Descriptor Descriptor'Suffix@ -} data Descriptor = Descriptor'_constructor {_Descriptor'name :: !Data.Text.Text, _Descriptor'disambiguator :: !Data.Text.Text, _Descriptor'suffix :: !Descriptor'Suffix, _Descriptor'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Descriptor where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Descriptor "name" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Descriptor'name (\ x__ y__ -> x__ {_Descriptor'name = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Descriptor "disambiguator" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Descriptor'disambiguator (\ x__ y__ -> x__ {_Descriptor'disambiguator = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Descriptor "suffix" Descriptor'Suffix where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Descriptor'suffix (\ x__ y__ -> x__ {_Descriptor'suffix = y__})) Prelude.id instance Data.ProtoLens.Message Descriptor where messageName _ = Data.Text.pack "scip.Descriptor" packedMessageDescriptor _ = "\n\ \\n\ \Descriptor\DC2\DC2\n\ \\EOTname\CAN\SOH \SOH(\tR\EOTname\DC2$\n\ \\rdisambiguator\CAN\STX \SOH(\tR\rdisambiguator\DC2/\n\ \\ACKsuffix\CAN\ETX \SOH(\SO2\ETB.scip.Descriptor.SuffixR\ACKsuffix\"\165\SOH\n\ \\ACKSuffix\DC2\NAK\n\ \\DC1UnspecifiedSuffix\DLE\NUL\DC2\r\n\ \\tNamespace\DLE\SOH\DC2\SI\n\ \\aPackage\DLE\SOH\SUB\STX\b\SOH\DC2\b\n\ \\EOTType\DLE\STX\DC2\b\n\ \\EOTTerm\DLE\ETX\DC2\n\ \\n\ \\ACKMethod\DLE\EOT\DC2\DC1\n\ \\rTypeParameter\DLE\ENQ\DC2\r\n\ \\tParameter\DLE\ACK\DC2\b\n\ \\EOTMeta\DLE\a\DC2\t\n\ \\ENQLocal\DLE\b\DC2\t\n\ \\ENQMacro\DLE\t\SUB\STX\DLE\SOH" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let name__field_descriptor = Data.ProtoLens.FieldDescriptor "name" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"name")) :: Data.ProtoLens.FieldDescriptor Descriptor disambiguator__field_descriptor = Data.ProtoLens.FieldDescriptor "disambiguator" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"disambiguator")) :: Data.ProtoLens.FieldDescriptor Descriptor suffix__field_descriptor = Data.ProtoLens.FieldDescriptor "suffix" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor Descriptor'Suffix) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"suffix")) :: Data.ProtoLens.FieldDescriptor Descriptor in Data.Map.fromList [(Data.ProtoLens.Tag 1, name__field_descriptor), (Data.ProtoLens.Tag 2, disambiguator__field_descriptor), (Data.ProtoLens.Tag 3, suffix__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Descriptor'_unknownFields (\ x__ y__ -> x__ {_Descriptor'_unknownFields = y__}) defMessage = Descriptor'_constructor {_Descriptor'name = Data.ProtoLens.fieldDefault, _Descriptor'disambiguator = Data.ProtoLens.fieldDefault, _Descriptor'suffix = Data.ProtoLens.fieldDefault, _Descriptor'_unknownFields = []} parseMessage = let loop :: Descriptor -> Data.ProtoLens.Encoding.Bytes.Parser Descriptor loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "name" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"name") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "disambiguator" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"disambiguator") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "suffix" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"suffix") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "Descriptor" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"name") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"disambiguator") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"suffix") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData Descriptor where rnf = \ x__ -> Control.DeepSeq.deepseq (_Descriptor'_unknownFields x__) (Control.DeepSeq.deepseq (_Descriptor'name x__) (Control.DeepSeq.deepseq (_Descriptor'disambiguator x__) (Control.DeepSeq.deepseq (_Descriptor'suffix x__) ()))) newtype Descriptor'Suffix'UnrecognizedValue = Descriptor'Suffix'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data Descriptor'Suffix = Descriptor'UnspecifiedSuffix | Descriptor'Namespace | Descriptor'Type | Descriptor'Term | Descriptor'Method | Descriptor'TypeParameter | Descriptor'Parameter | Descriptor'Meta | Descriptor'Local | Descriptor'Macro | Descriptor'Suffix'Unrecognized !Descriptor'Suffix'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum Descriptor'Suffix where maybeToEnum 0 = Prelude.Just Descriptor'UnspecifiedSuffix maybeToEnum 1 = Prelude.Just Descriptor'Namespace maybeToEnum 2 = Prelude.Just Descriptor'Type maybeToEnum 3 = Prelude.Just Descriptor'Term maybeToEnum 4 = Prelude.Just Descriptor'Method maybeToEnum 5 = Prelude.Just Descriptor'TypeParameter maybeToEnum 6 = Prelude.Just Descriptor'Parameter maybeToEnum 7 = Prelude.Just Descriptor'Meta maybeToEnum 8 = Prelude.Just Descriptor'Local maybeToEnum 9 = Prelude.Just Descriptor'Macro maybeToEnum k = Prelude.Just (Descriptor'Suffix'Unrecognized (Descriptor'Suffix'UnrecognizedValue (Prelude.fromIntegral k))) showEnum Descriptor'UnspecifiedSuffix = "UnspecifiedSuffix" showEnum Descriptor'Namespace = "Namespace" showEnum Descriptor'Type = "Type" showEnum Descriptor'Term = "Term" showEnum Descriptor'Method = "Method" showEnum Descriptor'TypeParameter = "TypeParameter" showEnum Descriptor'Parameter = "Parameter" showEnum Descriptor'Meta = "Meta" showEnum Descriptor'Local = "Local" showEnum Descriptor'Macro = "Macro" showEnum (Descriptor'Suffix'Unrecognized (Descriptor'Suffix'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UnspecifiedSuffix" = Prelude.Just Descriptor'UnspecifiedSuffix | (Prelude.==) k "Namespace" = Prelude.Just Descriptor'Namespace | (Prelude.==) k "Package" = Prelude.Just Descriptor'Package | (Prelude.==) k "Type" = Prelude.Just Descriptor'Type | (Prelude.==) k "Term" = Prelude.Just Descriptor'Term | (Prelude.==) k "Method" = Prelude.Just Descriptor'Method | (Prelude.==) k "TypeParameter" = Prelude.Just Descriptor'TypeParameter | (Prelude.==) k "Parameter" = Prelude.Just Descriptor'Parameter | (Prelude.==) k "Meta" = Prelude.Just Descriptor'Meta | (Prelude.==) k "Local" = Prelude.Just Descriptor'Local | (Prelude.==) k "Macro" = Prelude.Just Descriptor'Macro | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded Descriptor'Suffix where minBound = Descriptor'UnspecifiedSuffix maxBound = Descriptor'Macro instance Prelude.Enum Descriptor'Suffix where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum Suffix: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum Descriptor'UnspecifiedSuffix = 0 fromEnum Descriptor'Namespace = 1 fromEnum Descriptor'Type = 2 fromEnum Descriptor'Term = 3 fromEnum Descriptor'Method = 4 fromEnum Descriptor'TypeParameter = 5 fromEnum Descriptor'Parameter = 6 fromEnum Descriptor'Meta = 7 fromEnum Descriptor'Local = 8 fromEnum Descriptor'Macro = 9 fromEnum (Descriptor'Suffix'Unrecognized (Descriptor'Suffix'UnrecognizedValue k)) = Prelude.fromIntegral k succ Descriptor'Macro = Prelude.error "Descriptor'Suffix.succ: bad argument Descriptor'Macro. This value would be out of bounds." succ Descriptor'UnspecifiedSuffix = Descriptor'Namespace succ Descriptor'Namespace = Descriptor'Type succ Descriptor'Type = Descriptor'Term succ Descriptor'Term = Descriptor'Method succ Descriptor'Method = Descriptor'TypeParameter succ Descriptor'TypeParameter = Descriptor'Parameter succ Descriptor'Parameter = Descriptor'Meta succ Descriptor'Meta = Descriptor'Local succ Descriptor'Local = Descriptor'Macro succ (Descriptor'Suffix'Unrecognized _) = Prelude.error "Descriptor'Suffix.succ: bad argument: unrecognized value" pred Descriptor'UnspecifiedSuffix = Prelude.error "Descriptor'Suffix.pred: bad argument Descriptor'UnspecifiedSuffix. This value would be out of bounds." pred Descriptor'Namespace = Descriptor'UnspecifiedSuffix pred Descriptor'Type = Descriptor'Namespace pred Descriptor'Term = Descriptor'Type pred Descriptor'Method = Descriptor'Term pred Descriptor'TypeParameter = Descriptor'Method pred Descriptor'Parameter = Descriptor'TypeParameter pred Descriptor'Meta = Descriptor'Parameter pred Descriptor'Local = Descriptor'Meta pred Descriptor'Macro = Descriptor'Local pred (Descriptor'Suffix'Unrecognized _) = Prelude.error "Descriptor'Suffix.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault Descriptor'Suffix where fieldDefault = Descriptor'UnspecifiedSuffix instance Control.DeepSeq.NFData Descriptor'Suffix where rnf x__ = Prelude.seq x__ () pattern Descriptor'Package :: Descriptor'Suffix pattern Descriptor'Package = Descriptor'Namespace {- | Fields : * 'Proto.Scip_Fields.severity' @:: Lens' Diagnostic Severity@ * 'Proto.Scip_Fields.code' @:: Lens' Diagnostic Data.Text.Text@ * 'Proto.Scip_Fields.message' @:: Lens' Diagnostic Data.Text.Text@ * 'Proto.Scip_Fields.source' @:: Lens' Diagnostic Data.Text.Text@ * 'Proto.Scip_Fields.tags' @:: Lens' Diagnostic [DiagnosticTag]@ * 'Proto.Scip_Fields.vec'tags' @:: Lens' Diagnostic (Data.Vector.Vector DiagnosticTag)@ -} data Diagnostic = Diagnostic'_constructor {_Diagnostic'severity :: !Severity, _Diagnostic'code :: !Data.Text.Text, _Diagnostic'message :: !Data.Text.Text, _Diagnostic'source :: !Data.Text.Text, _Diagnostic'tags :: !(Data.Vector.Vector DiagnosticTag), _Diagnostic'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Diagnostic where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Diagnostic "severity" Severity where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Diagnostic'severity (\ x__ y__ -> x__ {_Diagnostic'severity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Diagnostic "code" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Diagnostic'code (\ x__ y__ -> x__ {_Diagnostic'code = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Diagnostic "message" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Diagnostic'message (\ x__ y__ -> x__ {_Diagnostic'message = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Diagnostic "source" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Diagnostic'source (\ x__ y__ -> x__ {_Diagnostic'source = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Diagnostic "tags" [DiagnosticTag] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Diagnostic'tags (\ x__ y__ -> x__ {_Diagnostic'tags = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Diagnostic "vec'tags" (Data.Vector.Vector DiagnosticTag) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Diagnostic'tags (\ x__ y__ -> x__ {_Diagnostic'tags = y__})) Prelude.id instance Data.ProtoLens.Message Diagnostic where messageName _ = Data.Text.pack "scip.Diagnostic" packedMessageDescriptor _ = "\n\ \\n\ \Diagnostic\DC2*\n\ \\bseverity\CAN\SOH \SOH(\SO2\SO.scip.SeverityR\bseverity\DC2\DC2\n\ \\EOTcode\CAN\STX \SOH(\tR\EOTcode\DC2\CAN\n\ \\amessage\CAN\ETX \SOH(\tR\amessage\DC2\SYN\n\ \\ACKsource\CAN\EOT \SOH(\tR\ACKsource\DC2'\n\ \\EOTtags\CAN\ENQ \ETX(\SO2\DC3.scip.DiagnosticTagR\EOTtags" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let severity__field_descriptor = Data.ProtoLens.FieldDescriptor "severity" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor Severity) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"severity")) :: Data.ProtoLens.FieldDescriptor Diagnostic code__field_descriptor = Data.ProtoLens.FieldDescriptor "code" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"code")) :: Data.ProtoLens.FieldDescriptor Diagnostic message__field_descriptor = Data.ProtoLens.FieldDescriptor "message" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"message")) :: Data.ProtoLens.FieldDescriptor Diagnostic source__field_descriptor = Data.ProtoLens.FieldDescriptor "source" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"source")) :: Data.ProtoLens.FieldDescriptor Diagnostic tags__field_descriptor = Data.ProtoLens.FieldDescriptor "tags" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor DiagnosticTag) (Data.ProtoLens.RepeatedField Data.ProtoLens.Packed (Data.ProtoLens.Field.field @"tags")) :: Data.ProtoLens.FieldDescriptor Diagnostic in Data.Map.fromList [(Data.ProtoLens.Tag 1, severity__field_descriptor), (Data.ProtoLens.Tag 2, code__field_descriptor), (Data.ProtoLens.Tag 3, message__field_descriptor), (Data.ProtoLens.Tag 4, source__field_descriptor), (Data.ProtoLens.Tag 5, tags__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Diagnostic'_unknownFields (\ x__ y__ -> x__ {_Diagnostic'_unknownFields = y__}) defMessage = Diagnostic'_constructor {_Diagnostic'severity = Data.ProtoLens.fieldDefault, _Diagnostic'code = Data.ProtoLens.fieldDefault, _Diagnostic'message = Data.ProtoLens.fieldDefault, _Diagnostic'source = Data.ProtoLens.fieldDefault, _Diagnostic'tags = Data.Vector.Generic.empty, _Diagnostic'_unknownFields = []} parseMessage = let loop :: Diagnostic -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld DiagnosticTag -> Data.ProtoLens.Encoding.Bytes.Parser Diagnostic loop x mutable'tags = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'tags <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'tags) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'tags") frozen'tags x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "severity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"severity") y x) mutable'tags 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "code" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"code") y x) mutable'tags 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "message" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"message") y x) mutable'tags 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "source" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"source") y x) mutable'tags 40 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "tags" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'tags y) loop x v 42 -> do y <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) ((let ploop qs = do packedEnd <- Data.ProtoLens.Encoding.Bytes.atEnd if packedEnd then Prelude.return qs else do !q <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "tags" qs' <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append qs q) ploop qs' in ploop) mutable'tags) loop x y wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'tags in (Data.ProtoLens.Encoding.Bytes.) (do mutable'tags <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'tags) "Diagnostic" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"severity") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"code") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"message") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"source") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let p = Lens.Family2.view (Data.ProtoLens.Field.field @"vec'tags") _x in if Data.Vector.Generic.null p then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) (Data.ProtoLens.Encoding.Bytes.runBuilder (Data.ProtoLens.Encoding.Bytes.foldMapBuilder ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum) p)))) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))) instance Control.DeepSeq.NFData Diagnostic where rnf = \ x__ -> Control.DeepSeq.deepseq (_Diagnostic'_unknownFields x__) (Control.DeepSeq.deepseq (_Diagnostic'severity x__) (Control.DeepSeq.deepseq (_Diagnostic'code x__) (Control.DeepSeq.deepseq (_Diagnostic'message x__) (Control.DeepSeq.deepseq (_Diagnostic'source x__) (Control.DeepSeq.deepseq (_Diagnostic'tags x__) ()))))) newtype DiagnosticTag'UnrecognizedValue = DiagnosticTag'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data DiagnosticTag = UnspecifiedDiagnosticTag | Unnecessary | Deprecated | DiagnosticTag'Unrecognized !DiagnosticTag'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum DiagnosticTag where maybeToEnum 0 = Prelude.Just UnspecifiedDiagnosticTag maybeToEnum 1 = Prelude.Just Unnecessary maybeToEnum 2 = Prelude.Just Deprecated maybeToEnum k = Prelude.Just (DiagnosticTag'Unrecognized (DiagnosticTag'UnrecognizedValue (Prelude.fromIntegral k))) showEnum UnspecifiedDiagnosticTag = "UnspecifiedDiagnosticTag" showEnum Unnecessary = "Unnecessary" showEnum Deprecated = "Deprecated" showEnum (DiagnosticTag'Unrecognized (DiagnosticTag'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UnspecifiedDiagnosticTag" = Prelude.Just UnspecifiedDiagnosticTag | (Prelude.==) k "Unnecessary" = Prelude.Just Unnecessary | (Prelude.==) k "Deprecated" = Prelude.Just Deprecated | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded DiagnosticTag where minBound = UnspecifiedDiagnosticTag maxBound = Deprecated instance Prelude.Enum DiagnosticTag where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum DiagnosticTag: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum UnspecifiedDiagnosticTag = 0 fromEnum Unnecessary = 1 fromEnum Deprecated = 2 fromEnum (DiagnosticTag'Unrecognized (DiagnosticTag'UnrecognizedValue k)) = Prelude.fromIntegral k succ Deprecated = Prelude.error "DiagnosticTag.succ: bad argument Deprecated. This value would be out of bounds." succ UnspecifiedDiagnosticTag = Unnecessary succ Unnecessary = Deprecated succ (DiagnosticTag'Unrecognized _) = Prelude.error "DiagnosticTag.succ: bad argument: unrecognized value" pred UnspecifiedDiagnosticTag = Prelude.error "DiagnosticTag.pred: bad argument UnspecifiedDiagnosticTag. This value would be out of bounds." pred Unnecessary = UnspecifiedDiagnosticTag pred Deprecated = Unnecessary pred (DiagnosticTag'Unrecognized _) = Prelude.error "DiagnosticTag.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault DiagnosticTag where fieldDefault = UnspecifiedDiagnosticTag instance Control.DeepSeq.NFData DiagnosticTag where rnf x__ = Prelude.seq x__ () {- | Fields : * 'Proto.Scip_Fields.language' @:: Lens' Document Data.Text.Text@ * 'Proto.Scip_Fields.relativePath' @:: Lens' Document Data.Text.Text@ * 'Proto.Scip_Fields.occurrences' @:: Lens' Document [Occurrence]@ * 'Proto.Scip_Fields.vec'occurrences' @:: Lens' Document (Data.Vector.Vector Occurrence)@ * 'Proto.Scip_Fields.symbols' @:: Lens' Document [SymbolInformation]@ * 'Proto.Scip_Fields.vec'symbols' @:: Lens' Document (Data.Vector.Vector SymbolInformation)@ * 'Proto.Scip_Fields.text' @:: Lens' Document Data.Text.Text@ * 'Proto.Scip_Fields.positionEncoding' @:: Lens' Document PositionEncoding@ -} data Document = Document'_constructor {_Document'language :: !Data.Text.Text, _Document'relativePath :: !Data.Text.Text, _Document'occurrences :: !(Data.Vector.Vector Occurrence), _Document'symbols :: !(Data.Vector.Vector SymbolInformation), _Document'text :: !Data.Text.Text, _Document'positionEncoding :: !PositionEncoding, _Document'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Document where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Document "language" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Document'language (\ x__ y__ -> x__ {_Document'language = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Document "relativePath" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Document'relativePath (\ x__ y__ -> x__ {_Document'relativePath = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Document "occurrences" [Occurrence] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Document'occurrences (\ x__ y__ -> x__ {_Document'occurrences = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Document "vec'occurrences" (Data.Vector.Vector Occurrence) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Document'occurrences (\ x__ y__ -> x__ {_Document'occurrences = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Document "symbols" [SymbolInformation] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Document'symbols (\ x__ y__ -> x__ {_Document'symbols = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Document "vec'symbols" (Data.Vector.Vector SymbolInformation) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Document'symbols (\ x__ y__ -> x__ {_Document'symbols = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Document "text" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Document'text (\ x__ y__ -> x__ {_Document'text = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Document "positionEncoding" PositionEncoding where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Document'positionEncoding (\ x__ y__ -> x__ {_Document'positionEncoding = y__})) Prelude.id instance Data.ProtoLens.Message Document where messageName _ = Data.Text.pack "scip.Document" packedMessageDescriptor _ = "\n\ \\bDocument\DC2\SUB\n\ \\blanguage\CAN\EOT \SOH(\tR\blanguage\DC2#\n\ \\rrelative_path\CAN\SOH \SOH(\tR\frelativePath\DC22\n\ \\voccurrences\CAN\STX \ETX(\v2\DLE.scip.OccurrenceR\voccurrences\DC21\n\ \\asymbols\CAN\ETX \ETX(\v2\ETB.scip.SymbolInformationR\asymbols\DC2\DC2\n\ \\EOTtext\CAN\ENQ \SOH(\tR\EOTtext\DC2C\n\ \\DC1position_encoding\CAN\ACK \SOH(\SO2\SYN.scip.PositionEncodingR\DLEpositionEncoding" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let language__field_descriptor = Data.ProtoLens.FieldDescriptor "language" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"language")) :: Data.ProtoLens.FieldDescriptor Document relativePath__field_descriptor = Data.ProtoLens.FieldDescriptor "relative_path" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"relativePath")) :: Data.ProtoLens.FieldDescriptor Document occurrences__field_descriptor = Data.ProtoLens.FieldDescriptor "occurrences" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Occurrence) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"occurrences")) :: Data.ProtoLens.FieldDescriptor Document symbols__field_descriptor = Data.ProtoLens.FieldDescriptor "symbols" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor SymbolInformation) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"symbols")) :: Data.ProtoLens.FieldDescriptor Document text__field_descriptor = Data.ProtoLens.FieldDescriptor "text" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"text")) :: Data.ProtoLens.FieldDescriptor Document positionEncoding__field_descriptor = Data.ProtoLens.FieldDescriptor "position_encoding" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor PositionEncoding) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"positionEncoding")) :: Data.ProtoLens.FieldDescriptor Document in Data.Map.fromList [(Data.ProtoLens.Tag 4, language__field_descriptor), (Data.ProtoLens.Tag 1, relativePath__field_descriptor), (Data.ProtoLens.Tag 2, occurrences__field_descriptor), (Data.ProtoLens.Tag 3, symbols__field_descriptor), (Data.ProtoLens.Tag 5, text__field_descriptor), (Data.ProtoLens.Tag 6, positionEncoding__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Document'_unknownFields (\ x__ y__ -> x__ {_Document'_unknownFields = y__}) defMessage = Document'_constructor {_Document'language = Data.ProtoLens.fieldDefault, _Document'relativePath = Data.ProtoLens.fieldDefault, _Document'occurrences = Data.Vector.Generic.empty, _Document'symbols = Data.Vector.Generic.empty, _Document'text = Data.ProtoLens.fieldDefault, _Document'positionEncoding = Data.ProtoLens.fieldDefault, _Document'_unknownFields = []} parseMessage = let loop :: Document -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Occurrence -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld SymbolInformation -> Data.ProtoLens.Encoding.Bytes.Parser Document loop x mutable'occurrences mutable'symbols = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'occurrences <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'occurrences) frozen'symbols <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'symbols) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'occurrences") frozen'occurrences (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'symbols") frozen'symbols x))) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "language" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"language") y x) mutable'occurrences mutable'symbols 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "relative_path" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"relativePath") y x) mutable'occurrences mutable'symbols 18 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "occurrences" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'occurrences y) loop x v mutable'symbols 26 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "symbols" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'symbols y) loop x mutable'occurrences v 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "text" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"text") y x) mutable'occurrences mutable'symbols 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "position_encoding" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"positionEncoding") y x) mutable'occurrences mutable'symbols wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'occurrences mutable'symbols in (Data.ProtoLens.Encoding.Bytes.) (do mutable'occurrences <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'symbols <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'occurrences mutable'symbols) "Document" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"language") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"relativePath") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'occurrences") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'symbols") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"text") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 42) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"positionEncoding") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))) instance Control.DeepSeq.NFData Document where rnf = \ x__ -> Control.DeepSeq.deepseq (_Document'_unknownFields x__) (Control.DeepSeq.deepseq (_Document'language x__) (Control.DeepSeq.deepseq (_Document'relativePath x__) (Control.DeepSeq.deepseq (_Document'occurrences x__) (Control.DeepSeq.deepseq (_Document'symbols x__) (Control.DeepSeq.deepseq (_Document'text x__) (Control.DeepSeq.deepseq (_Document'positionEncoding x__) ())))))) {- | Fields : * 'Proto.Scip_Fields.metadata' @:: Lens' Index Metadata@ * 'Proto.Scip_Fields.maybe'metadata' @:: Lens' Index (Prelude.Maybe Metadata)@ * 'Proto.Scip_Fields.documents' @:: Lens' Index [Document]@ * 'Proto.Scip_Fields.vec'documents' @:: Lens' Index (Data.Vector.Vector Document)@ * 'Proto.Scip_Fields.externalSymbols' @:: Lens' Index [SymbolInformation]@ * 'Proto.Scip_Fields.vec'externalSymbols' @:: Lens' Index (Data.Vector.Vector SymbolInformation)@ -} data Index = Index'_constructor {_Index'metadata :: !(Prelude.Maybe Metadata), _Index'documents :: !(Data.Vector.Vector Document), _Index'externalSymbols :: !(Data.Vector.Vector SymbolInformation), _Index'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Index where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Index "metadata" Metadata where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Index'metadata (\ x__ y__ -> x__ {_Index'metadata = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Index "maybe'metadata" (Prelude.Maybe Metadata) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Index'metadata (\ x__ y__ -> x__ {_Index'metadata = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Index "documents" [Document] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Index'documents (\ x__ y__ -> x__ {_Index'documents = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Index "vec'documents" (Data.Vector.Vector Document) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Index'documents (\ x__ y__ -> x__ {_Index'documents = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Index "externalSymbols" [SymbolInformation] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Index'externalSymbols (\ x__ y__ -> x__ {_Index'externalSymbols = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Index "vec'externalSymbols" (Data.Vector.Vector SymbolInformation) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Index'externalSymbols (\ x__ y__ -> x__ {_Index'externalSymbols = y__})) Prelude.id instance Data.ProtoLens.Message Index where messageName _ = Data.Text.pack "scip.Index" packedMessageDescriptor _ = "\n\ \\ENQIndex\DC2*\n\ \\bmetadata\CAN\SOH \SOH(\v2\SO.scip.MetadataR\bmetadata\DC2,\n\ \\tdocuments\CAN\STX \ETX(\v2\SO.scip.DocumentR\tdocuments\DC2B\n\ \\DLEexternal_symbols\CAN\ETX \ETX(\v2\ETB.scip.SymbolInformationR\SIexternalSymbols" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let metadata__field_descriptor = Data.ProtoLens.FieldDescriptor "metadata" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Metadata) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'metadata")) :: Data.ProtoLens.FieldDescriptor Index documents__field_descriptor = Data.ProtoLens.FieldDescriptor "documents" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Document) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"documents")) :: Data.ProtoLens.FieldDescriptor Index externalSymbols__field_descriptor = Data.ProtoLens.FieldDescriptor "external_symbols" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor SymbolInformation) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"externalSymbols")) :: Data.ProtoLens.FieldDescriptor Index in Data.Map.fromList [(Data.ProtoLens.Tag 1, metadata__field_descriptor), (Data.ProtoLens.Tag 2, documents__field_descriptor), (Data.ProtoLens.Tag 3, externalSymbols__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Index'_unknownFields (\ x__ y__ -> x__ {_Index'_unknownFields = y__}) defMessage = Index'_constructor {_Index'metadata = Prelude.Nothing, _Index'documents = Data.Vector.Generic.empty, _Index'externalSymbols = Data.Vector.Generic.empty, _Index'_unknownFields = []} parseMessage = let loop :: Index -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Document -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld SymbolInformation -> Data.ProtoLens.Encoding.Bytes.Parser Index loop x mutable'documents mutable'externalSymbols = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'documents <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'documents) frozen'externalSymbols <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'externalSymbols) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'documents") frozen'documents (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'externalSymbols") frozen'externalSymbols x))) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "metadata" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"metadata") y x) mutable'documents mutable'externalSymbols 18 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "documents" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'documents y) loop x v mutable'externalSymbols 26 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "external_symbols" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'externalSymbols y) loop x mutable'documents v wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'documents mutable'externalSymbols in (Data.ProtoLens.Encoding.Bytes.) (do mutable'documents <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'externalSymbols <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'documents mutable'externalSymbols) "Index" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'metadata") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'documents") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'externalSymbols") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData Index where rnf = \ x__ -> Control.DeepSeq.deepseq (_Index'_unknownFields x__) (Control.DeepSeq.deepseq (_Index'metadata x__) (Control.DeepSeq.deepseq (_Index'documents x__) (Control.DeepSeq.deepseq (_Index'externalSymbols x__) ()))) newtype Language'UnrecognizedValue = Language'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data Language = UnspecifiedLanguage | CSharp | Swift | Dart | Kotlin | Scala | Java | Groovy | Clojure | CommonLisp | Scheme | Racket | Lua | Perl | Raku | Python | Ruby | Elixir | Erlang | PHP | Hack | Coffeescript | JavaScript | TypeScript | Flow | Vue | CSS | Less | Sass | SCSS | HTML | XML | XSL | Go | C | CPP | Objective_C | Objective_CPP | Zig | Ada | Rust | OCaml | FSharp | SML | Haskell | Agda | Idris | Coq | Lean | APL | Dyalog | J | Matlab | Wolfram | R | Julia | Fortran | Delphi | Assembly | COBOL | ABAP | SAS | Razor | VisualBasic | ShellScript | Fish | Awk | PowerShell | Bat | SQL | PLSQL | Prolog | Ini | TOML | YAML | JSON | Jsonnet | Nix | Skylark | Makefile | Dockerfile | BibTeX | TeX | LaTeX | Markdown | ReST | AsciiDoc | Diff | Git_Config | Handlebars | Git_Commit | Git_Rebase | JavaScriptReact | TypeScriptReact | Solidity | Apex | CUDA | GraphQL | Pascal | Protobuf | Tcl | Repro | Thrift | Verilog | VHDL | Svelte | Slang | Luau | Justfile | Nickel | Language'Unrecognized !Language'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum Language where maybeToEnum 0 = Prelude.Just UnspecifiedLanguage maybeToEnum 1 = Prelude.Just CSharp maybeToEnum 2 = Prelude.Just Swift maybeToEnum 3 = Prelude.Just Dart maybeToEnum 4 = Prelude.Just Kotlin maybeToEnum 5 = Prelude.Just Scala maybeToEnum 6 = Prelude.Just Java maybeToEnum 7 = Prelude.Just Groovy maybeToEnum 8 = Prelude.Just Clojure maybeToEnum 9 = Prelude.Just CommonLisp maybeToEnum 10 = Prelude.Just Scheme maybeToEnum 11 = Prelude.Just Racket maybeToEnum 12 = Prelude.Just Lua maybeToEnum 13 = Prelude.Just Perl maybeToEnum 14 = Prelude.Just Raku maybeToEnum 15 = Prelude.Just Python maybeToEnum 16 = Prelude.Just Ruby maybeToEnum 17 = Prelude.Just Elixir maybeToEnum 18 = Prelude.Just Erlang maybeToEnum 19 = Prelude.Just PHP maybeToEnum 20 = Prelude.Just Hack maybeToEnum 21 = Prelude.Just Coffeescript maybeToEnum 22 = Prelude.Just JavaScript maybeToEnum 23 = Prelude.Just TypeScript maybeToEnum 24 = Prelude.Just Flow maybeToEnum 25 = Prelude.Just Vue maybeToEnum 26 = Prelude.Just CSS maybeToEnum 27 = Prelude.Just Less maybeToEnum 28 = Prelude.Just Sass maybeToEnum 29 = Prelude.Just SCSS maybeToEnum 30 = Prelude.Just HTML maybeToEnum 31 = Prelude.Just XML maybeToEnum 32 = Prelude.Just XSL maybeToEnum 33 = Prelude.Just Go maybeToEnum 34 = Prelude.Just C maybeToEnum 35 = Prelude.Just CPP maybeToEnum 36 = Prelude.Just Objective_C maybeToEnum 37 = Prelude.Just Objective_CPP maybeToEnum 38 = Prelude.Just Zig maybeToEnum 39 = Prelude.Just Ada maybeToEnum 40 = Prelude.Just Rust maybeToEnum 41 = Prelude.Just OCaml maybeToEnum 42 = Prelude.Just FSharp maybeToEnum 43 = Prelude.Just SML maybeToEnum 44 = Prelude.Just Haskell maybeToEnum 45 = Prelude.Just Agda maybeToEnum 46 = Prelude.Just Idris maybeToEnum 47 = Prelude.Just Coq maybeToEnum 48 = Prelude.Just Lean maybeToEnum 49 = Prelude.Just APL maybeToEnum 50 = Prelude.Just Dyalog maybeToEnum 51 = Prelude.Just J maybeToEnum 52 = Prelude.Just Matlab maybeToEnum 53 = Prelude.Just Wolfram maybeToEnum 54 = Prelude.Just R maybeToEnum 55 = Prelude.Just Julia maybeToEnum 56 = Prelude.Just Fortran maybeToEnum 57 = Prelude.Just Delphi maybeToEnum 58 = Prelude.Just Assembly maybeToEnum 59 = Prelude.Just COBOL maybeToEnum 60 = Prelude.Just ABAP maybeToEnum 61 = Prelude.Just SAS maybeToEnum 62 = Prelude.Just Razor maybeToEnum 63 = Prelude.Just VisualBasic maybeToEnum 64 = Prelude.Just ShellScript maybeToEnum 65 = Prelude.Just Fish maybeToEnum 66 = Prelude.Just Awk maybeToEnum 67 = Prelude.Just PowerShell maybeToEnum 68 = Prelude.Just Bat maybeToEnum 69 = Prelude.Just SQL maybeToEnum 70 = Prelude.Just PLSQL maybeToEnum 71 = Prelude.Just Prolog maybeToEnum 72 = Prelude.Just Ini maybeToEnum 73 = Prelude.Just TOML maybeToEnum 74 = Prelude.Just YAML maybeToEnum 75 = Prelude.Just JSON maybeToEnum 76 = Prelude.Just Jsonnet maybeToEnum 77 = Prelude.Just Nix maybeToEnum 78 = Prelude.Just Skylark maybeToEnum 79 = Prelude.Just Makefile maybeToEnum 80 = Prelude.Just Dockerfile maybeToEnum 81 = Prelude.Just BibTeX maybeToEnum 82 = Prelude.Just TeX maybeToEnum 83 = Prelude.Just LaTeX maybeToEnum 84 = Prelude.Just Markdown maybeToEnum 85 = Prelude.Just ReST maybeToEnum 86 = Prelude.Just AsciiDoc maybeToEnum 88 = Prelude.Just Diff maybeToEnum 89 = Prelude.Just Git_Config maybeToEnum 90 = Prelude.Just Handlebars maybeToEnum 91 = Prelude.Just Git_Commit maybeToEnum 92 = Prelude.Just Git_Rebase maybeToEnum 93 = Prelude.Just JavaScriptReact maybeToEnum 94 = Prelude.Just TypeScriptReact maybeToEnum 95 = Prelude.Just Solidity maybeToEnum 96 = Prelude.Just Apex maybeToEnum 97 = Prelude.Just CUDA maybeToEnum 98 = Prelude.Just GraphQL maybeToEnum 99 = Prelude.Just Pascal maybeToEnum 100 = Prelude.Just Protobuf maybeToEnum 101 = Prelude.Just Tcl maybeToEnum 102 = Prelude.Just Repro maybeToEnum 103 = Prelude.Just Thrift maybeToEnum 104 = Prelude.Just Verilog maybeToEnum 105 = Prelude.Just VHDL maybeToEnum 106 = Prelude.Just Svelte maybeToEnum 107 = Prelude.Just Slang maybeToEnum 108 = Prelude.Just Luau maybeToEnum 109 = Prelude.Just Justfile maybeToEnum 110 = Prelude.Just Nickel maybeToEnum k = Prelude.Just (Language'Unrecognized (Language'UnrecognizedValue (Prelude.fromIntegral k))) showEnum UnspecifiedLanguage = "UnspecifiedLanguage" showEnum ABAP = "ABAP" showEnum Apex = "Apex" showEnum APL = "APL" showEnum Ada = "Ada" showEnum Agda = "Agda" showEnum AsciiDoc = "AsciiDoc" showEnum Assembly = "Assembly" showEnum Awk = "Awk" showEnum Bat = "Bat" showEnum BibTeX = "BibTeX" showEnum C = "C" showEnum COBOL = "COBOL" showEnum CPP = "CPP" showEnum CSS = "CSS" showEnum CSharp = "CSharp" showEnum Clojure = "Clojure" showEnum Coffeescript = "Coffeescript" showEnum CommonLisp = "CommonLisp" showEnum Coq = "Coq" showEnum CUDA = "CUDA" showEnum Dart = "Dart" showEnum Delphi = "Delphi" showEnum Diff = "Diff" showEnum Dockerfile = "Dockerfile" showEnum Dyalog = "Dyalog" showEnum Elixir = "Elixir" showEnum Erlang = "Erlang" showEnum FSharp = "FSharp" showEnum Fish = "Fish" showEnum Flow = "Flow" showEnum Fortran = "Fortran" showEnum Git_Commit = "Git_Commit" showEnum Git_Config = "Git_Config" showEnum Git_Rebase = "Git_Rebase" showEnum Go = "Go" showEnum GraphQL = "GraphQL" showEnum Groovy = "Groovy" showEnum HTML = "HTML" showEnum Hack = "Hack" showEnum Handlebars = "Handlebars" showEnum Haskell = "Haskell" showEnum Idris = "Idris" showEnum Ini = "Ini" showEnum J = "J" showEnum JSON = "JSON" showEnum Java = "Java" showEnum JavaScript = "JavaScript" showEnum JavaScriptReact = "JavaScriptReact" showEnum Jsonnet = "Jsonnet" showEnum Julia = "Julia" showEnum Justfile = "Justfile" showEnum Kotlin = "Kotlin" showEnum LaTeX = "LaTeX" showEnum Lean = "Lean" showEnum Less = "Less" showEnum Lua = "Lua" showEnum Luau = "Luau" showEnum Makefile = "Makefile" showEnum Markdown = "Markdown" showEnum Matlab = "Matlab" showEnum Nickel = "Nickel" showEnum Nix = "Nix" showEnum OCaml = "OCaml" showEnum Objective_C = "Objective_C" showEnum Objective_CPP = "Objective_CPP" showEnum Pascal = "Pascal" showEnum PHP = "PHP" showEnum PLSQL = "PLSQL" showEnum Perl = "Perl" showEnum PowerShell = "PowerShell" showEnum Prolog = "Prolog" showEnum Protobuf = "Protobuf" showEnum Python = "Python" showEnum R = "R" showEnum Racket = "Racket" showEnum Raku = "Raku" showEnum Razor = "Razor" showEnum Repro = "Repro" showEnum ReST = "ReST" showEnum Ruby = "Ruby" showEnum Rust = "Rust" showEnum SAS = "SAS" showEnum SCSS = "SCSS" showEnum SML = "SML" showEnum SQL = "SQL" showEnum Sass = "Sass" showEnum Scala = "Scala" showEnum Scheme = "Scheme" showEnum ShellScript = "ShellScript" showEnum Skylark = "Skylark" showEnum Slang = "Slang" showEnum Solidity = "Solidity" showEnum Svelte = "Svelte" showEnum Swift = "Swift" showEnum Tcl = "Tcl" showEnum TOML = "TOML" showEnum TeX = "TeX" showEnum Thrift = "Thrift" showEnum TypeScript = "TypeScript" showEnum TypeScriptReact = "TypeScriptReact" showEnum Verilog = "Verilog" showEnum VHDL = "VHDL" showEnum VisualBasic = "VisualBasic" showEnum Vue = "Vue" showEnum Wolfram = "Wolfram" showEnum XML = "XML" showEnum XSL = "XSL" showEnum YAML = "YAML" showEnum Zig = "Zig" showEnum (Language'Unrecognized (Language'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UnspecifiedLanguage" = Prelude.Just UnspecifiedLanguage | (Prelude.==) k "ABAP" = Prelude.Just ABAP | (Prelude.==) k "Apex" = Prelude.Just Apex | (Prelude.==) k "APL" = Prelude.Just APL | (Prelude.==) k "Ada" = Prelude.Just Ada | (Prelude.==) k "Agda" = Prelude.Just Agda | (Prelude.==) k "AsciiDoc" = Prelude.Just AsciiDoc | (Prelude.==) k "Assembly" = Prelude.Just Assembly | (Prelude.==) k "Awk" = Prelude.Just Awk | (Prelude.==) k "Bat" = Prelude.Just Bat | (Prelude.==) k "BibTeX" = Prelude.Just BibTeX | (Prelude.==) k "C" = Prelude.Just C | (Prelude.==) k "COBOL" = Prelude.Just COBOL | (Prelude.==) k "CPP" = Prelude.Just CPP | (Prelude.==) k "CSS" = Prelude.Just CSS | (Prelude.==) k "CSharp" = Prelude.Just CSharp | (Prelude.==) k "Clojure" = Prelude.Just Clojure | (Prelude.==) k "Coffeescript" = Prelude.Just Coffeescript | (Prelude.==) k "CommonLisp" = Prelude.Just CommonLisp | (Prelude.==) k "Coq" = Prelude.Just Coq | (Prelude.==) k "CUDA" = Prelude.Just CUDA | (Prelude.==) k "Dart" = Prelude.Just Dart | (Prelude.==) k "Delphi" = Prelude.Just Delphi | (Prelude.==) k "Diff" = Prelude.Just Diff | (Prelude.==) k "Dockerfile" = Prelude.Just Dockerfile | (Prelude.==) k "Dyalog" = Prelude.Just Dyalog | (Prelude.==) k "Elixir" = Prelude.Just Elixir | (Prelude.==) k "Erlang" = Prelude.Just Erlang | (Prelude.==) k "FSharp" = Prelude.Just FSharp | (Prelude.==) k "Fish" = Prelude.Just Fish | (Prelude.==) k "Flow" = Prelude.Just Flow | (Prelude.==) k "Fortran" = Prelude.Just Fortran | (Prelude.==) k "Git_Commit" = Prelude.Just Git_Commit | (Prelude.==) k "Git_Config" = Prelude.Just Git_Config | (Prelude.==) k "Git_Rebase" = Prelude.Just Git_Rebase | (Prelude.==) k "Go" = Prelude.Just Go | (Prelude.==) k "GraphQL" = Prelude.Just GraphQL | (Prelude.==) k "Groovy" = Prelude.Just Groovy | (Prelude.==) k "HTML" = Prelude.Just HTML | (Prelude.==) k "Hack" = Prelude.Just Hack | (Prelude.==) k "Handlebars" = Prelude.Just Handlebars | (Prelude.==) k "Haskell" = Prelude.Just Haskell | (Prelude.==) k "Idris" = Prelude.Just Idris | (Prelude.==) k "Ini" = Prelude.Just Ini | (Prelude.==) k "J" = Prelude.Just J | (Prelude.==) k "JSON" = Prelude.Just JSON | (Prelude.==) k "Java" = Prelude.Just Java | (Prelude.==) k "JavaScript" = Prelude.Just JavaScript | (Prelude.==) k "JavaScriptReact" = Prelude.Just JavaScriptReact | (Prelude.==) k "Jsonnet" = Prelude.Just Jsonnet | (Prelude.==) k "Julia" = Prelude.Just Julia | (Prelude.==) k "Justfile" = Prelude.Just Justfile | (Prelude.==) k "Kotlin" = Prelude.Just Kotlin | (Prelude.==) k "LaTeX" = Prelude.Just LaTeX | (Prelude.==) k "Lean" = Prelude.Just Lean | (Prelude.==) k "Less" = Prelude.Just Less | (Prelude.==) k "Lua" = Prelude.Just Lua | (Prelude.==) k "Luau" = Prelude.Just Luau | (Prelude.==) k "Makefile" = Prelude.Just Makefile | (Prelude.==) k "Markdown" = Prelude.Just Markdown | (Prelude.==) k "Matlab" = Prelude.Just Matlab | (Prelude.==) k "Nickel" = Prelude.Just Nickel | (Prelude.==) k "Nix" = Prelude.Just Nix | (Prelude.==) k "OCaml" = Prelude.Just OCaml | (Prelude.==) k "Objective_C" = Prelude.Just Objective_C | (Prelude.==) k "Objective_CPP" = Prelude.Just Objective_CPP | (Prelude.==) k "Pascal" = Prelude.Just Pascal | (Prelude.==) k "PHP" = Prelude.Just PHP | (Prelude.==) k "PLSQL" = Prelude.Just PLSQL | (Prelude.==) k "Perl" = Prelude.Just Perl | (Prelude.==) k "PowerShell" = Prelude.Just PowerShell | (Prelude.==) k "Prolog" = Prelude.Just Prolog | (Prelude.==) k "Protobuf" = Prelude.Just Protobuf | (Prelude.==) k "Python" = Prelude.Just Python | (Prelude.==) k "R" = Prelude.Just R | (Prelude.==) k "Racket" = Prelude.Just Racket | (Prelude.==) k "Raku" = Prelude.Just Raku | (Prelude.==) k "Razor" = Prelude.Just Razor | (Prelude.==) k "Repro" = Prelude.Just Repro | (Prelude.==) k "ReST" = Prelude.Just ReST | (Prelude.==) k "Ruby" = Prelude.Just Ruby | (Prelude.==) k "Rust" = Prelude.Just Rust | (Prelude.==) k "SAS" = Prelude.Just SAS | (Prelude.==) k "SCSS" = Prelude.Just SCSS | (Prelude.==) k "SML" = Prelude.Just SML | (Prelude.==) k "SQL" = Prelude.Just SQL | (Prelude.==) k "Sass" = Prelude.Just Sass | (Prelude.==) k "Scala" = Prelude.Just Scala | (Prelude.==) k "Scheme" = Prelude.Just Scheme | (Prelude.==) k "ShellScript" = Prelude.Just ShellScript | (Prelude.==) k "Skylark" = Prelude.Just Skylark | (Prelude.==) k "Slang" = Prelude.Just Slang | (Prelude.==) k "Solidity" = Prelude.Just Solidity | (Prelude.==) k "Svelte" = Prelude.Just Svelte | (Prelude.==) k "Swift" = Prelude.Just Swift | (Prelude.==) k "Tcl" = Prelude.Just Tcl | (Prelude.==) k "TOML" = Prelude.Just TOML | (Prelude.==) k "TeX" = Prelude.Just TeX | (Prelude.==) k "Thrift" = Prelude.Just Thrift | (Prelude.==) k "TypeScript" = Prelude.Just TypeScript | (Prelude.==) k "TypeScriptReact" = Prelude.Just TypeScriptReact | (Prelude.==) k "Verilog" = Prelude.Just Verilog | (Prelude.==) k "VHDL" = Prelude.Just VHDL | (Prelude.==) k "VisualBasic" = Prelude.Just VisualBasic | (Prelude.==) k "Vue" = Prelude.Just Vue | (Prelude.==) k "Wolfram" = Prelude.Just Wolfram | (Prelude.==) k "XML" = Prelude.Just XML | (Prelude.==) k "XSL" = Prelude.Just XSL | (Prelude.==) k "YAML" = Prelude.Just YAML | (Prelude.==) k "Zig" = Prelude.Just Zig | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded Language where minBound = UnspecifiedLanguage maxBound = Nickel instance Prelude.Enum Language where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum Language: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum UnspecifiedLanguage = 0 fromEnum CSharp = 1 fromEnum Swift = 2 fromEnum Dart = 3 fromEnum Kotlin = 4 fromEnum Scala = 5 fromEnum Java = 6 fromEnum Groovy = 7 fromEnum Clojure = 8 fromEnum CommonLisp = 9 fromEnum Scheme = 10 fromEnum Racket = 11 fromEnum Lua = 12 fromEnum Perl = 13 fromEnum Raku = 14 fromEnum Python = 15 fromEnum Ruby = 16 fromEnum Elixir = 17 fromEnum Erlang = 18 fromEnum PHP = 19 fromEnum Hack = 20 fromEnum Coffeescript = 21 fromEnum JavaScript = 22 fromEnum TypeScript = 23 fromEnum Flow = 24 fromEnum Vue = 25 fromEnum CSS = 26 fromEnum Less = 27 fromEnum Sass = 28 fromEnum SCSS = 29 fromEnum HTML = 30 fromEnum XML = 31 fromEnum XSL = 32 fromEnum Go = 33 fromEnum C = 34 fromEnum CPP = 35 fromEnum Objective_C = 36 fromEnum Objective_CPP = 37 fromEnum Zig = 38 fromEnum Ada = 39 fromEnum Rust = 40 fromEnum OCaml = 41 fromEnum FSharp = 42 fromEnum SML = 43 fromEnum Haskell = 44 fromEnum Agda = 45 fromEnum Idris = 46 fromEnum Coq = 47 fromEnum Lean = 48 fromEnum APL = 49 fromEnum Dyalog = 50 fromEnum J = 51 fromEnum Matlab = 52 fromEnum Wolfram = 53 fromEnum R = 54 fromEnum Julia = 55 fromEnum Fortran = 56 fromEnum Delphi = 57 fromEnum Assembly = 58 fromEnum COBOL = 59 fromEnum ABAP = 60 fromEnum SAS = 61 fromEnum Razor = 62 fromEnum VisualBasic = 63 fromEnum ShellScript = 64 fromEnum Fish = 65 fromEnum Awk = 66 fromEnum PowerShell = 67 fromEnum Bat = 68 fromEnum SQL = 69 fromEnum PLSQL = 70 fromEnum Prolog = 71 fromEnum Ini = 72 fromEnum TOML = 73 fromEnum YAML = 74 fromEnum JSON = 75 fromEnum Jsonnet = 76 fromEnum Nix = 77 fromEnum Skylark = 78 fromEnum Makefile = 79 fromEnum Dockerfile = 80 fromEnum BibTeX = 81 fromEnum TeX = 82 fromEnum LaTeX = 83 fromEnum Markdown = 84 fromEnum ReST = 85 fromEnum AsciiDoc = 86 fromEnum Diff = 88 fromEnum Git_Config = 89 fromEnum Handlebars = 90 fromEnum Git_Commit = 91 fromEnum Git_Rebase = 92 fromEnum JavaScriptReact = 93 fromEnum TypeScriptReact = 94 fromEnum Solidity = 95 fromEnum Apex = 96 fromEnum CUDA = 97 fromEnum GraphQL = 98 fromEnum Pascal = 99 fromEnum Protobuf = 100 fromEnum Tcl = 101 fromEnum Repro = 102 fromEnum Thrift = 103 fromEnum Verilog = 104 fromEnum VHDL = 105 fromEnum Svelte = 106 fromEnum Slang = 107 fromEnum Luau = 108 fromEnum Justfile = 109 fromEnum Nickel = 110 fromEnum (Language'Unrecognized (Language'UnrecognizedValue k)) = Prelude.fromIntegral k succ Nickel = Prelude.error "Language.succ: bad argument Nickel. This value would be out of bounds." succ UnspecifiedLanguage = CSharp succ CSharp = Swift succ Swift = Dart succ Dart = Kotlin succ Kotlin = Scala succ Scala = Java succ Java = Groovy succ Groovy = Clojure succ Clojure = CommonLisp succ CommonLisp = Scheme succ Scheme = Racket succ Racket = Lua succ Lua = Perl succ Perl = Raku succ Raku = Python succ Python = Ruby succ Ruby = Elixir succ Elixir = Erlang succ Erlang = PHP succ PHP = Hack succ Hack = Coffeescript succ Coffeescript = JavaScript succ JavaScript = TypeScript succ TypeScript = Flow succ Flow = Vue succ Vue = CSS succ CSS = Less succ Less = Sass succ Sass = SCSS succ SCSS = HTML succ HTML = XML succ XML = XSL succ XSL = Go succ Go = C succ C = CPP succ CPP = Objective_C succ Objective_C = Objective_CPP succ Objective_CPP = Zig succ Zig = Ada succ Ada = Rust succ Rust = OCaml succ OCaml = FSharp succ FSharp = SML succ SML = Haskell succ Haskell = Agda succ Agda = Idris succ Idris = Coq succ Coq = Lean succ Lean = APL succ APL = Dyalog succ Dyalog = J succ J = Matlab succ Matlab = Wolfram succ Wolfram = R succ R = Julia succ Julia = Fortran succ Fortran = Delphi succ Delphi = Assembly succ Assembly = COBOL succ COBOL = ABAP succ ABAP = SAS succ SAS = Razor succ Razor = VisualBasic succ VisualBasic = ShellScript succ ShellScript = Fish succ Fish = Awk succ Awk = PowerShell succ PowerShell = Bat succ Bat = SQL succ SQL = PLSQL succ PLSQL = Prolog succ Prolog = Ini succ Ini = TOML succ TOML = YAML succ YAML = JSON succ JSON = Jsonnet succ Jsonnet = Nix succ Nix = Skylark succ Skylark = Makefile succ Makefile = Dockerfile succ Dockerfile = BibTeX succ BibTeX = TeX succ TeX = LaTeX succ LaTeX = Markdown succ Markdown = ReST succ ReST = AsciiDoc succ AsciiDoc = Diff succ Diff = Git_Config succ Git_Config = Handlebars succ Handlebars = Git_Commit succ Git_Commit = Git_Rebase succ Git_Rebase = JavaScriptReact succ JavaScriptReact = TypeScriptReact succ TypeScriptReact = Solidity succ Solidity = Apex succ Apex = CUDA succ CUDA = GraphQL succ GraphQL = Pascal succ Pascal = Protobuf succ Protobuf = Tcl succ Tcl = Repro succ Repro = Thrift succ Thrift = Verilog succ Verilog = VHDL succ VHDL = Svelte succ Svelte = Slang succ Slang = Luau succ Luau = Justfile succ Justfile = Nickel succ (Language'Unrecognized _) = Prelude.error "Language.succ: bad argument: unrecognized value" pred UnspecifiedLanguage = Prelude.error "Language.pred: bad argument UnspecifiedLanguage. This value would be out of bounds." pred CSharp = UnspecifiedLanguage pred Swift = CSharp pred Dart = Swift pred Kotlin = Dart pred Scala = Kotlin pred Java = Scala pred Groovy = Java pred Clojure = Groovy pred CommonLisp = Clojure pred Scheme = CommonLisp pred Racket = Scheme pred Lua = Racket pred Perl = Lua pred Raku = Perl pred Python = Raku pred Ruby = Python pred Elixir = Ruby pred Erlang = Elixir pred PHP = Erlang pred Hack = PHP pred Coffeescript = Hack pred JavaScript = Coffeescript pred TypeScript = JavaScript pred Flow = TypeScript pred Vue = Flow pred CSS = Vue pred Less = CSS pred Sass = Less pred SCSS = Sass pred HTML = SCSS pred XML = HTML pred XSL = XML pred Go = XSL pred C = Go pred CPP = C pred Objective_C = CPP pred Objective_CPP = Objective_C pred Zig = Objective_CPP pred Ada = Zig pred Rust = Ada pred OCaml = Rust pred FSharp = OCaml pred SML = FSharp pred Haskell = SML pred Agda = Haskell pred Idris = Agda pred Coq = Idris pred Lean = Coq pred APL = Lean pred Dyalog = APL pred J = Dyalog pred Matlab = J pred Wolfram = Matlab pred R = Wolfram pred Julia = R pred Fortran = Julia pred Delphi = Fortran pred Assembly = Delphi pred COBOL = Assembly pred ABAP = COBOL pred SAS = ABAP pred Razor = SAS pred VisualBasic = Razor pred ShellScript = VisualBasic pred Fish = ShellScript pred Awk = Fish pred PowerShell = Awk pred Bat = PowerShell pred SQL = Bat pred PLSQL = SQL pred Prolog = PLSQL pred Ini = Prolog pred TOML = Ini pred YAML = TOML pred JSON = YAML pred Jsonnet = JSON pred Nix = Jsonnet pred Skylark = Nix pred Makefile = Skylark pred Dockerfile = Makefile pred BibTeX = Dockerfile pred TeX = BibTeX pred LaTeX = TeX pred Markdown = LaTeX pred ReST = Markdown pred AsciiDoc = ReST pred Diff = AsciiDoc pred Git_Config = Diff pred Handlebars = Git_Config pred Git_Commit = Handlebars pred Git_Rebase = Git_Commit pred JavaScriptReact = Git_Rebase pred TypeScriptReact = JavaScriptReact pred Solidity = TypeScriptReact pred Apex = Solidity pred CUDA = Apex pred GraphQL = CUDA pred Pascal = GraphQL pred Protobuf = Pascal pred Tcl = Protobuf pred Repro = Tcl pred Thrift = Repro pred Verilog = Thrift pred VHDL = Verilog pred Svelte = VHDL pred Slang = Svelte pred Luau = Slang pred Justfile = Luau pred Nickel = Justfile pred (Language'Unrecognized _) = Prelude.error "Language.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault Language where fieldDefault = UnspecifiedLanguage instance Control.DeepSeq.NFData Language where rnf x__ = Prelude.seq x__ () {- | Fields : * 'Proto.Scip_Fields.version' @:: Lens' Metadata ProtocolVersion@ * 'Proto.Scip_Fields.toolInfo' @:: Lens' Metadata ToolInfo@ * 'Proto.Scip_Fields.maybe'toolInfo' @:: Lens' Metadata (Prelude.Maybe ToolInfo)@ * 'Proto.Scip_Fields.projectRoot' @:: Lens' Metadata Data.Text.Text@ * 'Proto.Scip_Fields.textDocumentEncoding' @:: Lens' Metadata TextEncoding@ -} data Metadata = Metadata'_constructor {_Metadata'version :: !ProtocolVersion, _Metadata'toolInfo :: !(Prelude.Maybe ToolInfo), _Metadata'projectRoot :: !Data.Text.Text, _Metadata'textDocumentEncoding :: !TextEncoding, _Metadata'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Metadata where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Metadata "version" ProtocolVersion where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadata'version (\ x__ y__ -> x__ {_Metadata'version = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Metadata "toolInfo" ToolInfo where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadata'toolInfo (\ x__ y__ -> x__ {_Metadata'toolInfo = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Metadata "maybe'toolInfo" (Prelude.Maybe ToolInfo) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadata'toolInfo (\ x__ y__ -> x__ {_Metadata'toolInfo = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Metadata "projectRoot" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadata'projectRoot (\ x__ y__ -> x__ {_Metadata'projectRoot = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Metadata "textDocumentEncoding" TextEncoding where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadata'textDocumentEncoding (\ x__ y__ -> x__ {_Metadata'textDocumentEncoding = y__})) Prelude.id instance Data.ProtoLens.Message Metadata where messageName _ = Data.Text.pack "scip.Metadata" packedMessageDescriptor _ = "\n\ \\bMetadata\DC2/\n\ \\aversion\CAN\SOH \SOH(\SO2\NAK.scip.ProtocolVersionR\aversion\DC2+\n\ \\ttool_info\CAN\STX \SOH(\v2\SO.scip.ToolInfoR\btoolInfo\DC2!\n\ \\fproject_root\CAN\ETX \SOH(\tR\vprojectRoot\DC2H\n\ \\SYNtext_document_encoding\CAN\EOT \SOH(\SO2\DC2.scip.TextEncodingR\DC4textDocumentEncoding" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let version__field_descriptor = Data.ProtoLens.FieldDescriptor "version" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor ProtocolVersion) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"version")) :: Data.ProtoLens.FieldDescriptor Metadata toolInfo__field_descriptor = Data.ProtoLens.FieldDescriptor "tool_info" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ToolInfo) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'toolInfo")) :: Data.ProtoLens.FieldDescriptor Metadata projectRoot__field_descriptor = Data.ProtoLens.FieldDescriptor "project_root" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"projectRoot")) :: Data.ProtoLens.FieldDescriptor Metadata textDocumentEncoding__field_descriptor = Data.ProtoLens.FieldDescriptor "text_document_encoding" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor TextEncoding) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"textDocumentEncoding")) :: Data.ProtoLens.FieldDescriptor Metadata in Data.Map.fromList [(Data.ProtoLens.Tag 1, version__field_descriptor), (Data.ProtoLens.Tag 2, toolInfo__field_descriptor), (Data.ProtoLens.Tag 3, projectRoot__field_descriptor), (Data.ProtoLens.Tag 4, textDocumentEncoding__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Metadata'_unknownFields (\ x__ y__ -> x__ {_Metadata'_unknownFields = y__}) defMessage = Metadata'_constructor {_Metadata'version = Data.ProtoLens.fieldDefault, _Metadata'toolInfo = Prelude.Nothing, _Metadata'projectRoot = Data.ProtoLens.fieldDefault, _Metadata'textDocumentEncoding = Data.ProtoLens.fieldDefault, _Metadata'_unknownFields = []} parseMessage = let loop :: Metadata -> Data.ProtoLens.Encoding.Bytes.Parser Metadata loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "version" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"version") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "tool_info" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"toolInfo") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "project_root" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"projectRoot") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "text_document_encoding" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"textDocumentEncoding") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "Metadata" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"version") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'toolInfo") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"projectRoot") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"textDocumentEncoding") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))) instance Control.DeepSeq.NFData Metadata where rnf = \ x__ -> Control.DeepSeq.deepseq (_Metadata'_unknownFields x__) (Control.DeepSeq.deepseq (_Metadata'version x__) (Control.DeepSeq.deepseq (_Metadata'toolInfo x__) (Control.DeepSeq.deepseq (_Metadata'projectRoot x__) (Control.DeepSeq.deepseq (_Metadata'textDocumentEncoding x__) ())))) {- | Fields : * 'Proto.Scip_Fields.range' @:: Lens' Occurrence [Data.Int.Int32]@ * 'Proto.Scip_Fields.vec'range' @:: Lens' Occurrence (Data.Vector.Unboxed.Vector Data.Int.Int32)@ * 'Proto.Scip_Fields.symbol' @:: Lens' Occurrence Data.Text.Text@ * 'Proto.Scip_Fields.symbolRoles' @:: Lens' Occurrence Data.Int.Int32@ * 'Proto.Scip_Fields.overrideDocumentation' @:: Lens' Occurrence [Data.Text.Text]@ * 'Proto.Scip_Fields.vec'overrideDocumentation' @:: Lens' Occurrence (Data.Vector.Vector Data.Text.Text)@ * 'Proto.Scip_Fields.syntaxKind' @:: Lens' Occurrence SyntaxKind@ * 'Proto.Scip_Fields.diagnostics' @:: Lens' Occurrence [Diagnostic]@ * 'Proto.Scip_Fields.vec'diagnostics' @:: Lens' Occurrence (Data.Vector.Vector Diagnostic)@ * 'Proto.Scip_Fields.enclosingRange' @:: Lens' Occurrence [Data.Int.Int32]@ * 'Proto.Scip_Fields.vec'enclosingRange' @:: Lens' Occurrence (Data.Vector.Unboxed.Vector Data.Int.Int32)@ -} data Occurrence = Occurrence'_constructor {_Occurrence'range :: !(Data.Vector.Unboxed.Vector Data.Int.Int32), _Occurrence'symbol :: !Data.Text.Text, _Occurrence'symbolRoles :: !Data.Int.Int32, _Occurrence'overrideDocumentation :: !(Data.Vector.Vector Data.Text.Text), _Occurrence'syntaxKind :: !SyntaxKind, _Occurrence'diagnostics :: !(Data.Vector.Vector Diagnostic), _Occurrence'enclosingRange :: !(Data.Vector.Unboxed.Vector Data.Int.Int32), _Occurrence'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Occurrence where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Occurrence "range" [Data.Int.Int32] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'range (\ x__ y__ -> x__ {_Occurrence'range = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Occurrence "vec'range" (Data.Vector.Unboxed.Vector Data.Int.Int32) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'range (\ x__ y__ -> x__ {_Occurrence'range = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Occurrence "symbol" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'symbol (\ x__ y__ -> x__ {_Occurrence'symbol = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Occurrence "symbolRoles" Data.Int.Int32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'symbolRoles (\ x__ y__ -> x__ {_Occurrence'symbolRoles = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Occurrence "overrideDocumentation" [Data.Text.Text] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'overrideDocumentation (\ x__ y__ -> x__ {_Occurrence'overrideDocumentation = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Occurrence "vec'overrideDocumentation" (Data.Vector.Vector Data.Text.Text) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'overrideDocumentation (\ x__ y__ -> x__ {_Occurrence'overrideDocumentation = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Occurrence "syntaxKind" SyntaxKind where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'syntaxKind (\ x__ y__ -> x__ {_Occurrence'syntaxKind = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Occurrence "diagnostics" [Diagnostic] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'diagnostics (\ x__ y__ -> x__ {_Occurrence'diagnostics = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Occurrence "vec'diagnostics" (Data.Vector.Vector Diagnostic) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'diagnostics (\ x__ y__ -> x__ {_Occurrence'diagnostics = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Occurrence "enclosingRange" [Data.Int.Int32] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'enclosingRange (\ x__ y__ -> x__ {_Occurrence'enclosingRange = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Occurrence "vec'enclosingRange" (Data.Vector.Unboxed.Vector Data.Int.Int32) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Occurrence'enclosingRange (\ x__ y__ -> x__ {_Occurrence'enclosingRange = y__})) Prelude.id instance Data.ProtoLens.Message Occurrence where messageName _ = Data.Text.pack "scip.Occurrence" packedMessageDescriptor _ = "\n\ \\n\ \Occurrence\DC2\DC4\n\ \\ENQrange\CAN\SOH \ETX(\ENQR\ENQrange\DC2\SYN\n\ \\ACKsymbol\CAN\STX \SOH(\tR\ACKsymbol\DC2!\n\ \\fsymbol_roles\CAN\ETX \SOH(\ENQR\vsymbolRoles\DC25\n\ \\SYNoverride_documentation\CAN\EOT \ETX(\tR\NAKoverrideDocumentation\DC21\n\ \\vsyntax_kind\CAN\ENQ \SOH(\SO2\DLE.scip.SyntaxKindR\n\ \syntaxKind\DC22\n\ \\vdiagnostics\CAN\ACK \ETX(\v2\DLE.scip.DiagnosticR\vdiagnostics\DC2'\n\ \\SIenclosing_range\CAN\a \ETX(\ENQR\SOenclosingRange" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let range__field_descriptor = Data.ProtoLens.FieldDescriptor "range" (Data.ProtoLens.ScalarField Data.ProtoLens.Int32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int32) (Data.ProtoLens.RepeatedField Data.ProtoLens.Packed (Data.ProtoLens.Field.field @"range")) :: Data.ProtoLens.FieldDescriptor Occurrence symbol__field_descriptor = Data.ProtoLens.FieldDescriptor "symbol" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"symbol")) :: Data.ProtoLens.FieldDescriptor Occurrence symbolRoles__field_descriptor = Data.ProtoLens.FieldDescriptor "symbol_roles" (Data.ProtoLens.ScalarField Data.ProtoLens.Int32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"symbolRoles")) :: Data.ProtoLens.FieldDescriptor Occurrence overrideDocumentation__field_descriptor = Data.ProtoLens.FieldDescriptor "override_documentation" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"overrideDocumentation")) :: Data.ProtoLens.FieldDescriptor Occurrence syntaxKind__field_descriptor = Data.ProtoLens.FieldDescriptor "syntax_kind" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor SyntaxKind) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"syntaxKind")) :: Data.ProtoLens.FieldDescriptor Occurrence diagnostics__field_descriptor = Data.ProtoLens.FieldDescriptor "diagnostics" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Diagnostic) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"diagnostics")) :: Data.ProtoLens.FieldDescriptor Occurrence enclosingRange__field_descriptor = Data.ProtoLens.FieldDescriptor "enclosing_range" (Data.ProtoLens.ScalarField Data.ProtoLens.Int32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int32) (Data.ProtoLens.RepeatedField Data.ProtoLens.Packed (Data.ProtoLens.Field.field @"enclosingRange")) :: Data.ProtoLens.FieldDescriptor Occurrence in Data.Map.fromList [(Data.ProtoLens.Tag 1, range__field_descriptor), (Data.ProtoLens.Tag 2, symbol__field_descriptor), (Data.ProtoLens.Tag 3, symbolRoles__field_descriptor), (Data.ProtoLens.Tag 4, overrideDocumentation__field_descriptor), (Data.ProtoLens.Tag 5, syntaxKind__field_descriptor), (Data.ProtoLens.Tag 6, diagnostics__field_descriptor), (Data.ProtoLens.Tag 7, enclosingRange__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Occurrence'_unknownFields (\ x__ y__ -> x__ {_Occurrence'_unknownFields = y__}) defMessage = Occurrence'_constructor {_Occurrence'range = Data.Vector.Generic.empty, _Occurrence'symbol = Data.ProtoLens.fieldDefault, _Occurrence'symbolRoles = Data.ProtoLens.fieldDefault, _Occurrence'overrideDocumentation = Data.Vector.Generic.empty, _Occurrence'syntaxKind = Data.ProtoLens.fieldDefault, _Occurrence'diagnostics = Data.Vector.Generic.empty, _Occurrence'enclosingRange = Data.Vector.Generic.empty, _Occurrence'_unknownFields = []} parseMessage = let loop :: Occurrence -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Diagnostic -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Unboxed.Vector Data.ProtoLens.Encoding.Growing.RealWorld Data.Int.Int32 -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Data.Text.Text -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Unboxed.Vector Data.ProtoLens.Encoding.Growing.RealWorld Data.Int.Int32 -> Data.ProtoLens.Encoding.Bytes.Parser Occurrence loop x mutable'diagnostics mutable'enclosingRange mutable'overrideDocumentation mutable'range = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'diagnostics <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'diagnostics) frozen'enclosingRange <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'enclosingRange) frozen'overrideDocumentation <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'overrideDocumentation) frozen'range <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'range) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'diagnostics") frozen'diagnostics (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'enclosingRange") frozen'enclosingRange (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'overrideDocumentation") frozen'overrideDocumentation (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'range") frozen'range x))))) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "range" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'range y) loop x mutable'diagnostics mutable'enclosingRange mutable'overrideDocumentation v 10 -> do y <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) ((let ploop qs = do packedEnd <- Data.ProtoLens.Encoding.Bytes.atEnd if packedEnd then Prelude.return qs else do !q <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "range" qs' <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append qs q) ploop qs' in ploop) mutable'range) loop x mutable'diagnostics mutable'enclosingRange mutable'overrideDocumentation y 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "symbol" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"symbol") y x) mutable'diagnostics mutable'enclosingRange mutable'overrideDocumentation mutable'range 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "symbol_roles" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"symbolRoles") y x) mutable'diagnostics mutable'enclosingRange mutable'overrideDocumentation mutable'range 34 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "override_documentation" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'overrideDocumentation y) loop x mutable'diagnostics mutable'enclosingRange v mutable'range 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "syntax_kind" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"syntaxKind") y x) mutable'diagnostics mutable'enclosingRange mutable'overrideDocumentation mutable'range 50 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "diagnostics" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'diagnostics y) loop x v mutable'enclosingRange mutable'overrideDocumentation mutable'range 56 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "enclosing_range" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'enclosingRange y) loop x mutable'diagnostics v mutable'overrideDocumentation mutable'range 58 -> do y <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) ((let ploop qs = do packedEnd <- Data.ProtoLens.Encoding.Bytes.atEnd if packedEnd then Prelude.return qs else do !q <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "enclosing_range" qs' <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append qs q) ploop qs' in ploop) mutable'enclosingRange) loop x mutable'diagnostics y mutable'overrideDocumentation mutable'range wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'diagnostics mutable'enclosingRange mutable'overrideDocumentation mutable'range in (Data.ProtoLens.Encoding.Bytes.) (do mutable'diagnostics <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'enclosingRange <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'overrideDocumentation <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'range <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'diagnostics mutable'enclosingRange mutable'overrideDocumentation mutable'range) "Occurrence" buildMessage = \ _x -> (Data.Monoid.<>) (let p = Lens.Family2.view (Data.ProtoLens.Field.field @"vec'range") _x in if Data.Vector.Generic.null p then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) (Data.ProtoLens.Encoding.Bytes.runBuilder (Data.ProtoLens.Encoding.Bytes.foldMapBuilder ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) p)))) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"symbol") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"symbolRoles") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'overrideDocumentation") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"syntaxKind") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 50) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'diagnostics") _x)) ((Data.Monoid.<>) (let p = Lens.Family2.view (Data.ProtoLens.Field.field @"vec'enclosingRange") _x in if Data.Vector.Generic.null p then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 58) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) (Data.ProtoLens.Encoding.Bytes.runBuilder (Data.ProtoLens.Encoding.Bytes.foldMapBuilder ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) p)))) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))))) instance Control.DeepSeq.NFData Occurrence where rnf = \ x__ -> Control.DeepSeq.deepseq (_Occurrence'_unknownFields x__) (Control.DeepSeq.deepseq (_Occurrence'range x__) (Control.DeepSeq.deepseq (_Occurrence'symbol x__) (Control.DeepSeq.deepseq (_Occurrence'symbolRoles x__) (Control.DeepSeq.deepseq (_Occurrence'overrideDocumentation x__) (Control.DeepSeq.deepseq (_Occurrence'syntaxKind x__) (Control.DeepSeq.deepseq (_Occurrence'diagnostics x__) (Control.DeepSeq.deepseq (_Occurrence'enclosingRange x__) ()))))))) {- | Fields : * 'Proto.Scip_Fields.manager' @:: Lens' Package Data.Text.Text@ * 'Proto.Scip_Fields.name' @:: Lens' Package Data.Text.Text@ * 'Proto.Scip_Fields.version' @:: Lens' Package Data.Text.Text@ -} data Package = Package'_constructor {_Package'manager :: !Data.Text.Text, _Package'name :: !Data.Text.Text, _Package'version :: !Data.Text.Text, _Package'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Package where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Package "manager" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Package'manager (\ x__ y__ -> x__ {_Package'manager = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Package "name" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Package'name (\ x__ y__ -> x__ {_Package'name = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Package "version" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Package'version (\ x__ y__ -> x__ {_Package'version = y__})) Prelude.id instance Data.ProtoLens.Message Package where messageName _ = Data.Text.pack "scip.Package" packedMessageDescriptor _ = "\n\ \\aPackage\DC2\CAN\n\ \\amanager\CAN\SOH \SOH(\tR\amanager\DC2\DC2\n\ \\EOTname\CAN\STX \SOH(\tR\EOTname\DC2\CAN\n\ \\aversion\CAN\ETX \SOH(\tR\aversion" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let manager__field_descriptor = Data.ProtoLens.FieldDescriptor "manager" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"manager")) :: Data.ProtoLens.FieldDescriptor Package name__field_descriptor = Data.ProtoLens.FieldDescriptor "name" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"name")) :: Data.ProtoLens.FieldDescriptor Package version__field_descriptor = Data.ProtoLens.FieldDescriptor "version" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"version")) :: Data.ProtoLens.FieldDescriptor Package in Data.Map.fromList [(Data.ProtoLens.Tag 1, manager__field_descriptor), (Data.ProtoLens.Tag 2, name__field_descriptor), (Data.ProtoLens.Tag 3, version__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Package'_unknownFields (\ x__ y__ -> x__ {_Package'_unknownFields = y__}) defMessage = Package'_constructor {_Package'manager = Data.ProtoLens.fieldDefault, _Package'name = Data.ProtoLens.fieldDefault, _Package'version = Data.ProtoLens.fieldDefault, _Package'_unknownFields = []} parseMessage = let loop :: Package -> Data.ProtoLens.Encoding.Bytes.Parser Package loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "manager" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"manager") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "name" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"name") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "version" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"version") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "Package" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"manager") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"name") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"version") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData Package where rnf = \ x__ -> Control.DeepSeq.deepseq (_Package'_unknownFields x__) (Control.DeepSeq.deepseq (_Package'manager x__) (Control.DeepSeq.deepseq (_Package'name x__) (Control.DeepSeq.deepseq (_Package'version x__) ()))) newtype PositionEncoding'UnrecognizedValue = PositionEncoding'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data PositionEncoding = UnspecifiedPositionEncoding | UTF8CodeUnitOffsetFromLineStart | UTF16CodeUnitOffsetFromLineStart | UTF32CodeUnitOffsetFromLineStart | PositionEncoding'Unrecognized !PositionEncoding'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum PositionEncoding where maybeToEnum 0 = Prelude.Just UnspecifiedPositionEncoding maybeToEnum 1 = Prelude.Just UTF8CodeUnitOffsetFromLineStart maybeToEnum 2 = Prelude.Just UTF16CodeUnitOffsetFromLineStart maybeToEnum 3 = Prelude.Just UTF32CodeUnitOffsetFromLineStart maybeToEnum k = Prelude.Just (PositionEncoding'Unrecognized (PositionEncoding'UnrecognizedValue (Prelude.fromIntegral k))) showEnum UnspecifiedPositionEncoding = "UnspecifiedPositionEncoding" showEnum UTF8CodeUnitOffsetFromLineStart = "UTF8CodeUnitOffsetFromLineStart" showEnum UTF16CodeUnitOffsetFromLineStart = "UTF16CodeUnitOffsetFromLineStart" showEnum UTF32CodeUnitOffsetFromLineStart = "UTF32CodeUnitOffsetFromLineStart" showEnum (PositionEncoding'Unrecognized (PositionEncoding'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UnspecifiedPositionEncoding" = Prelude.Just UnspecifiedPositionEncoding | (Prelude.==) k "UTF8CodeUnitOffsetFromLineStart" = Prelude.Just UTF8CodeUnitOffsetFromLineStart | (Prelude.==) k "UTF16CodeUnitOffsetFromLineStart" = Prelude.Just UTF16CodeUnitOffsetFromLineStart | (Prelude.==) k "UTF32CodeUnitOffsetFromLineStart" = Prelude.Just UTF32CodeUnitOffsetFromLineStart | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded PositionEncoding where minBound = UnspecifiedPositionEncoding maxBound = UTF32CodeUnitOffsetFromLineStart instance Prelude.Enum PositionEncoding where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum PositionEncoding: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum UnspecifiedPositionEncoding = 0 fromEnum UTF8CodeUnitOffsetFromLineStart = 1 fromEnum UTF16CodeUnitOffsetFromLineStart = 2 fromEnum UTF32CodeUnitOffsetFromLineStart = 3 fromEnum (PositionEncoding'Unrecognized (PositionEncoding'UnrecognizedValue k)) = Prelude.fromIntegral k succ UTF32CodeUnitOffsetFromLineStart = Prelude.error "PositionEncoding.succ: bad argument UTF32CodeUnitOffsetFromLineStart. This value would be out of bounds." succ UnspecifiedPositionEncoding = UTF8CodeUnitOffsetFromLineStart succ UTF8CodeUnitOffsetFromLineStart = UTF16CodeUnitOffsetFromLineStart succ UTF16CodeUnitOffsetFromLineStart = UTF32CodeUnitOffsetFromLineStart succ (PositionEncoding'Unrecognized _) = Prelude.error "PositionEncoding.succ: bad argument: unrecognized value" pred UnspecifiedPositionEncoding = Prelude.error "PositionEncoding.pred: bad argument UnspecifiedPositionEncoding. This value would be out of bounds." pred UTF8CodeUnitOffsetFromLineStart = UnspecifiedPositionEncoding pred UTF16CodeUnitOffsetFromLineStart = UTF8CodeUnitOffsetFromLineStart pred UTF32CodeUnitOffsetFromLineStart = UTF16CodeUnitOffsetFromLineStart pred (PositionEncoding'Unrecognized _) = Prelude.error "PositionEncoding.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault PositionEncoding where fieldDefault = UnspecifiedPositionEncoding instance Control.DeepSeq.NFData PositionEncoding where rnf x__ = Prelude.seq x__ () newtype ProtocolVersion'UnrecognizedValue = ProtocolVersion'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data ProtocolVersion = UnspecifiedProtocolVersion | ProtocolVersion'Unrecognized !ProtocolVersion'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum ProtocolVersion where maybeToEnum 0 = Prelude.Just UnspecifiedProtocolVersion maybeToEnum k = Prelude.Just (ProtocolVersion'Unrecognized (ProtocolVersion'UnrecognizedValue (Prelude.fromIntegral k))) showEnum UnspecifiedProtocolVersion = "UnspecifiedProtocolVersion" showEnum (ProtocolVersion'Unrecognized (ProtocolVersion'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UnspecifiedProtocolVersion" = Prelude.Just UnspecifiedProtocolVersion | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded ProtocolVersion where minBound = UnspecifiedProtocolVersion maxBound = UnspecifiedProtocolVersion instance Prelude.Enum ProtocolVersion where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum ProtocolVersion: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum UnspecifiedProtocolVersion = 0 fromEnum (ProtocolVersion'Unrecognized (ProtocolVersion'UnrecognizedValue k)) = Prelude.fromIntegral k succ UnspecifiedProtocolVersion = Prelude.error "ProtocolVersion.succ: bad argument UnspecifiedProtocolVersion. This value would be out of bounds." succ (ProtocolVersion'Unrecognized _) = Prelude.error "ProtocolVersion.succ: bad argument: unrecognized value" pred UnspecifiedProtocolVersion = Prelude.error "ProtocolVersion.pred: bad argument UnspecifiedProtocolVersion. This value would be out of bounds." pred (ProtocolVersion'Unrecognized _) = Prelude.error "ProtocolVersion.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault ProtocolVersion where fieldDefault = UnspecifiedProtocolVersion instance Control.DeepSeq.NFData ProtocolVersion where rnf x__ = Prelude.seq x__ () {- | Fields : * 'Proto.Scip_Fields.symbol' @:: Lens' Relationship Data.Text.Text@ * 'Proto.Scip_Fields.isReference' @:: Lens' Relationship Prelude.Bool@ * 'Proto.Scip_Fields.isImplementation' @:: Lens' Relationship Prelude.Bool@ * 'Proto.Scip_Fields.isTypeDefinition' @:: Lens' Relationship Prelude.Bool@ * 'Proto.Scip_Fields.isDefinition' @:: Lens' Relationship Prelude.Bool@ -} data Relationship = Relationship'_constructor {_Relationship'symbol :: !Data.Text.Text, _Relationship'isReference :: !Prelude.Bool, _Relationship'isImplementation :: !Prelude.Bool, _Relationship'isTypeDefinition :: !Prelude.Bool, _Relationship'isDefinition :: !Prelude.Bool, _Relationship'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Relationship where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Relationship "symbol" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Relationship'symbol (\ x__ y__ -> x__ {_Relationship'symbol = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Relationship "isReference" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Relationship'isReference (\ x__ y__ -> x__ {_Relationship'isReference = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Relationship "isImplementation" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Relationship'isImplementation (\ x__ y__ -> x__ {_Relationship'isImplementation = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Relationship "isTypeDefinition" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Relationship'isTypeDefinition (\ x__ y__ -> x__ {_Relationship'isTypeDefinition = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Relationship "isDefinition" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Relationship'isDefinition (\ x__ y__ -> x__ {_Relationship'isDefinition = y__})) Prelude.id instance Data.ProtoLens.Message Relationship where messageName _ = Data.Text.pack "scip.Relationship" packedMessageDescriptor _ = "\n\ \\fRelationship\DC2\SYN\n\ \\ACKsymbol\CAN\SOH \SOH(\tR\ACKsymbol\DC2!\n\ \\fis_reference\CAN\STX \SOH(\bR\visReference\DC2+\n\ \\DC1is_implementation\CAN\ETX \SOH(\bR\DLEisImplementation\DC2,\n\ \\DC2is_type_definition\CAN\EOT \SOH(\bR\DLEisTypeDefinition\DC2#\n\ \\ris_definition\CAN\ENQ \SOH(\bR\fisDefinition" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let symbol__field_descriptor = Data.ProtoLens.FieldDescriptor "symbol" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"symbol")) :: Data.ProtoLens.FieldDescriptor Relationship isReference__field_descriptor = Data.ProtoLens.FieldDescriptor "is_reference" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"isReference")) :: Data.ProtoLens.FieldDescriptor Relationship isImplementation__field_descriptor = Data.ProtoLens.FieldDescriptor "is_implementation" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"isImplementation")) :: Data.ProtoLens.FieldDescriptor Relationship isTypeDefinition__field_descriptor = Data.ProtoLens.FieldDescriptor "is_type_definition" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"isTypeDefinition")) :: Data.ProtoLens.FieldDescriptor Relationship isDefinition__field_descriptor = Data.ProtoLens.FieldDescriptor "is_definition" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"isDefinition")) :: Data.ProtoLens.FieldDescriptor Relationship in Data.Map.fromList [(Data.ProtoLens.Tag 1, symbol__field_descriptor), (Data.ProtoLens.Tag 2, isReference__field_descriptor), (Data.ProtoLens.Tag 3, isImplementation__field_descriptor), (Data.ProtoLens.Tag 4, isTypeDefinition__field_descriptor), (Data.ProtoLens.Tag 5, isDefinition__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Relationship'_unknownFields (\ x__ y__ -> x__ {_Relationship'_unknownFields = y__}) defMessage = Relationship'_constructor {_Relationship'symbol = Data.ProtoLens.fieldDefault, _Relationship'isReference = Data.ProtoLens.fieldDefault, _Relationship'isImplementation = Data.ProtoLens.fieldDefault, _Relationship'isTypeDefinition = Data.ProtoLens.fieldDefault, _Relationship'isDefinition = Data.ProtoLens.fieldDefault, _Relationship'_unknownFields = []} parseMessage = let loop :: Relationship -> Data.ProtoLens.Encoding.Bytes.Parser Relationship loop x = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) x) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "symbol" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"symbol") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "is_reference" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"isReference") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "is_implementation" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"isImplementation") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "is_type_definition" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"isTypeDefinition") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "is_definition" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"isDefinition") y x) wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) in (Data.ProtoLens.Encoding.Bytes.) (do loop Data.ProtoLens.defMessage) "Relationship" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"symbol") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"isReference") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"isImplementation") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"isTypeDefinition") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"isDefinition") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))) instance Control.DeepSeq.NFData Relationship where rnf = \ x__ -> Control.DeepSeq.deepseq (_Relationship'_unknownFields x__) (Control.DeepSeq.deepseq (_Relationship'symbol x__) (Control.DeepSeq.deepseq (_Relationship'isReference x__) (Control.DeepSeq.deepseq (_Relationship'isImplementation x__) (Control.DeepSeq.deepseq (_Relationship'isTypeDefinition x__) (Control.DeepSeq.deepseq (_Relationship'isDefinition x__) ()))))) newtype Severity'UnrecognizedValue = Severity'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data Severity = UnspecifiedSeverity | Error | Warning | Information | Hint | Severity'Unrecognized !Severity'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum Severity where maybeToEnum 0 = Prelude.Just UnspecifiedSeverity maybeToEnum 1 = Prelude.Just Error maybeToEnum 2 = Prelude.Just Warning maybeToEnum 3 = Prelude.Just Information maybeToEnum 4 = Prelude.Just Hint maybeToEnum k = Prelude.Just (Severity'Unrecognized (Severity'UnrecognizedValue (Prelude.fromIntegral k))) showEnum UnspecifiedSeverity = "UnspecifiedSeverity" showEnum Error = "Error" showEnum Warning = "Warning" showEnum Information = "Information" showEnum Hint = "Hint" showEnum (Severity'Unrecognized (Severity'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UnspecifiedSeverity" = Prelude.Just UnspecifiedSeverity | (Prelude.==) k "Error" = Prelude.Just Error | (Prelude.==) k "Warning" = Prelude.Just Warning | (Prelude.==) k "Information" = Prelude.Just Information | (Prelude.==) k "Hint" = Prelude.Just Hint | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded Severity where minBound = UnspecifiedSeverity maxBound = Hint instance Prelude.Enum Severity where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum Severity: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum UnspecifiedSeverity = 0 fromEnum Error = 1 fromEnum Warning = 2 fromEnum Information = 3 fromEnum Hint = 4 fromEnum (Severity'Unrecognized (Severity'UnrecognizedValue k)) = Prelude.fromIntegral k succ Hint = Prelude.error "Severity.succ: bad argument Hint. This value would be out of bounds." succ UnspecifiedSeverity = Error succ Error = Warning succ Warning = Information succ Information = Hint succ (Severity'Unrecognized _) = Prelude.error "Severity.succ: bad argument: unrecognized value" pred UnspecifiedSeverity = Prelude.error "Severity.pred: bad argument UnspecifiedSeverity. This value would be out of bounds." pred Error = UnspecifiedSeverity pred Warning = Error pred Information = Warning pred Hint = Information pred (Severity'Unrecognized _) = Prelude.error "Severity.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault Severity where fieldDefault = UnspecifiedSeverity instance Control.DeepSeq.NFData Severity where rnf x__ = Prelude.seq x__ () {- | Fields : * 'Proto.Scip_Fields.scheme' @:: Lens' Symbol Data.Text.Text@ * 'Proto.Scip_Fields.package' @:: Lens' Symbol Package@ * 'Proto.Scip_Fields.maybe'package' @:: Lens' Symbol (Prelude.Maybe Package)@ * 'Proto.Scip_Fields.descriptors' @:: Lens' Symbol [Descriptor]@ * 'Proto.Scip_Fields.vec'descriptors' @:: Lens' Symbol (Data.Vector.Vector Descriptor)@ -} data Symbol = Symbol'_constructor {_Symbol'scheme :: !Data.Text.Text, _Symbol'package :: !(Prelude.Maybe Package), _Symbol'descriptors :: !(Data.Vector.Vector Descriptor), _Symbol'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Symbol where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Symbol "scheme" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Symbol'scheme (\ x__ y__ -> x__ {_Symbol'scheme = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Symbol "package" Package where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Symbol'package (\ x__ y__ -> x__ {_Symbol'package = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Symbol "maybe'package" (Prelude.Maybe Package) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Symbol'package (\ x__ y__ -> x__ {_Symbol'package = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Symbol "descriptors" [Descriptor] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Symbol'descriptors (\ x__ y__ -> x__ {_Symbol'descriptors = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Symbol "vec'descriptors" (Data.Vector.Vector Descriptor) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Symbol'descriptors (\ x__ y__ -> x__ {_Symbol'descriptors = y__})) Prelude.id instance Data.ProtoLens.Message Symbol where messageName _ = Data.Text.pack "scip.Symbol" packedMessageDescriptor _ = "\n\ \\ACKSymbol\DC2\SYN\n\ \\ACKscheme\CAN\SOH \SOH(\tR\ACKscheme\DC2'\n\ \\apackage\CAN\STX \SOH(\v2\r.scip.PackageR\apackage\DC22\n\ \\vdescriptors\CAN\ETX \ETX(\v2\DLE.scip.DescriptorR\vdescriptors" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let scheme__field_descriptor = Data.ProtoLens.FieldDescriptor "scheme" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"scheme")) :: Data.ProtoLens.FieldDescriptor Symbol package__field_descriptor = Data.ProtoLens.FieldDescriptor "package" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Package) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'package")) :: Data.ProtoLens.FieldDescriptor Symbol descriptors__field_descriptor = Data.ProtoLens.FieldDescriptor "descriptors" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Descriptor) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"descriptors")) :: Data.ProtoLens.FieldDescriptor Symbol in Data.Map.fromList [(Data.ProtoLens.Tag 1, scheme__field_descriptor), (Data.ProtoLens.Tag 2, package__field_descriptor), (Data.ProtoLens.Tag 3, descriptors__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Symbol'_unknownFields (\ x__ y__ -> x__ {_Symbol'_unknownFields = y__}) defMessage = Symbol'_constructor {_Symbol'scheme = Data.ProtoLens.fieldDefault, _Symbol'package = Prelude.Nothing, _Symbol'descriptors = Data.Vector.Generic.empty, _Symbol'_unknownFields = []} parseMessage = let loop :: Symbol -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Descriptor -> Data.ProtoLens.Encoding.Bytes.Parser Symbol loop x mutable'descriptors = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'descriptors <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'descriptors) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'descriptors") frozen'descriptors x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "scheme" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"scheme") y x) mutable'descriptors 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "package" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"package") y x) mutable'descriptors 26 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "descriptors" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'descriptors y) loop x v wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'descriptors in (Data.ProtoLens.Encoding.Bytes.) (do mutable'descriptors <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'descriptors) "Symbol" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"scheme") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'package") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'descriptors") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData Symbol where rnf = \ x__ -> Control.DeepSeq.deepseq (_Symbol'_unknownFields x__) (Control.DeepSeq.deepseq (_Symbol'scheme x__) (Control.DeepSeq.deepseq (_Symbol'package x__) (Control.DeepSeq.deepseq (_Symbol'descriptors x__) ()))) {- | Fields : * 'Proto.Scip_Fields.symbol' @:: Lens' SymbolInformation Data.Text.Text@ * 'Proto.Scip_Fields.documentation' @:: Lens' SymbolInformation [Data.Text.Text]@ * 'Proto.Scip_Fields.vec'documentation' @:: Lens' SymbolInformation (Data.Vector.Vector Data.Text.Text)@ * 'Proto.Scip_Fields.relationships' @:: Lens' SymbolInformation [Relationship]@ * 'Proto.Scip_Fields.vec'relationships' @:: Lens' SymbolInformation (Data.Vector.Vector Relationship)@ * 'Proto.Scip_Fields.kind' @:: Lens' SymbolInformation SymbolInformation'Kind@ * 'Proto.Scip_Fields.displayName' @:: Lens' SymbolInformation Data.Text.Text@ * 'Proto.Scip_Fields.signatureDocumentation' @:: Lens' SymbolInformation Document@ * 'Proto.Scip_Fields.maybe'signatureDocumentation' @:: Lens' SymbolInformation (Prelude.Maybe Document)@ * 'Proto.Scip_Fields.enclosingSymbol' @:: Lens' SymbolInformation Data.Text.Text@ -} data SymbolInformation = SymbolInformation'_constructor {_SymbolInformation'symbol :: !Data.Text.Text, _SymbolInformation'documentation :: !(Data.Vector.Vector Data.Text.Text), _SymbolInformation'relationships :: !(Data.Vector.Vector Relationship), _SymbolInformation'kind :: !SymbolInformation'Kind, _SymbolInformation'displayName :: !Data.Text.Text, _SymbolInformation'signatureDocumentation :: !(Prelude.Maybe Document), _SymbolInformation'enclosingSymbol :: !Data.Text.Text, _SymbolInformation'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show SymbolInformation where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField SymbolInformation "symbol" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _SymbolInformation'symbol (\ x__ y__ -> x__ {_SymbolInformation'symbol = y__})) Prelude.id instance Data.ProtoLens.Field.HasField SymbolInformation "documentation" [Data.Text.Text] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _SymbolInformation'documentation (\ x__ y__ -> x__ {_SymbolInformation'documentation = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField SymbolInformation "vec'documentation" (Data.Vector.Vector Data.Text.Text) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _SymbolInformation'documentation (\ x__ y__ -> x__ {_SymbolInformation'documentation = y__})) Prelude.id instance Data.ProtoLens.Field.HasField SymbolInformation "relationships" [Relationship] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _SymbolInformation'relationships (\ x__ y__ -> x__ {_SymbolInformation'relationships = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField SymbolInformation "vec'relationships" (Data.Vector.Vector Relationship) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _SymbolInformation'relationships (\ x__ y__ -> x__ {_SymbolInformation'relationships = y__})) Prelude.id instance Data.ProtoLens.Field.HasField SymbolInformation "kind" SymbolInformation'Kind where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _SymbolInformation'kind (\ x__ y__ -> x__ {_SymbolInformation'kind = y__})) Prelude.id instance Data.ProtoLens.Field.HasField SymbolInformation "displayName" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _SymbolInformation'displayName (\ x__ y__ -> x__ {_SymbolInformation'displayName = y__})) Prelude.id instance Data.ProtoLens.Field.HasField SymbolInformation "signatureDocumentation" Document where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _SymbolInformation'signatureDocumentation (\ x__ y__ -> x__ {_SymbolInformation'signatureDocumentation = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField SymbolInformation "maybe'signatureDocumentation" (Prelude.Maybe Document) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _SymbolInformation'signatureDocumentation (\ x__ y__ -> x__ {_SymbolInformation'signatureDocumentation = y__})) Prelude.id instance Data.ProtoLens.Field.HasField SymbolInformation "enclosingSymbol" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _SymbolInformation'enclosingSymbol (\ x__ y__ -> x__ {_SymbolInformation'enclosingSymbol = y__})) Prelude.id instance Data.ProtoLens.Message SymbolInformation where messageName _ = Data.Text.pack "scip.SymbolInformation" packedMessageDescriptor _ = "\n\ \\DC1SymbolInformation\DC2\SYN\n\ \\ACKsymbol\CAN\SOH \SOH(\tR\ACKsymbol\DC2$\n\ \\rdocumentation\CAN\ETX \ETX(\tR\rdocumentation\DC28\n\ \\rrelationships\CAN\EOT \ETX(\v2\DC2.scip.RelationshipR\rrelationships\DC20\n\ \\EOTkind\CAN\ENQ \SOH(\SO2\FS.scip.SymbolInformation.KindR\EOTkind\DC2!\n\ \\fdisplay_name\CAN\ACK \SOH(\tR\vdisplayName\DC2G\n\ \\ETBsignature_documentation\CAN\a \SOH(\v2\SO.scip.DocumentR\SYNsignatureDocumentation\DC2)\n\ \\DLEenclosing_symbol\CAN\b \SOH(\tR\SIenclosingSymbol\"\251\t\n\ \\EOTKind\DC2\DC3\n\ \\SIUnspecifiedKind\DLE\NUL\DC2\DC2\n\ \\SOAbstractMethod\DLEB\DC2\f\n\ \\bAccessor\DLEH\DC2\t\n\ \\ENQArray\DLE\SOH\DC2\r\n\ \\tAssertion\DLE\STX\DC2\DC2\n\ \\SOAssociatedType\DLE\ETX\DC2\r\n\ \\tAttribute\DLE\EOT\DC2\t\n\ \\ENQAxiom\DLE\ENQ\DC2\v\n\ \\aBoolean\DLE\ACK\DC2\t\n\ \\ENQClass\DLE\a\DC2\v\n\ \\aConcept\DLEV\DC2\f\n\ \\bConstant\DLE\b\DC2\SI\n\ \\vConstructor\DLE\t\DC2\f\n\ \\bContract\DLE>\DC2\SO\n\ \\n\ \DataFamily\DLE\n\ \\DC2\f\n\ \\bDelegate\DLEI\DC2\b\n\ \\EOTEnum\DLE\v\DC2\SO\n\ \\n\ \EnumMember\DLE\f\DC2\t\n\ \\ENQError\DLE?\DC2\t\n\ \\ENQEvent\DLE\r\DC2\r\n\ \\tExtension\DLET\DC2\b\n\ \\EOTFact\DLE\SO\DC2\t\n\ \\ENQField\DLE\SI\DC2\b\n\ \\EOTFile\DLE\DLE\DC2\f\n\ \\bFunction\DLE\DC1\DC2\n\ \\n\ \\ACKGetter\DLE\DC2\DC2\v\n\ \\aGrammar\DLE\DC3\DC2\f\n\ \\bInstance\DLE\DC4\DC2\r\n\ \\tInterface\DLE\NAK\DC2\a\n\ \\ETXKey\DLE\SYN\DC2\b\n\ \\EOTLang\DLE\ETB\DC2\t\n\ \\ENQLemma\DLE\CAN\DC2\v\n\ \\aLibrary\DLE@\DC2\t\n\ \\ENQMacro\DLE\EM\DC2\n\ \\n\ \\ACKMethod\DLE\SUB\DC2\SI\n\ \\vMethodAlias\DLEJ\DC2\DC2\n\ \\SOMethodReceiver\DLE\ESC\DC2\ETB\n\ \\DC3MethodSpecification\DLEC\DC2\v\n\ \\aMessage\DLE\FS\DC2\t\n\ \\ENQMixin\DLEU\DC2\f\n\ \\bModifier\DLEA\DC2\n\ \\n\ \\ACKModule\DLE\GS\DC2\r\n\ \\tNamespace\DLE\RS\DC2\b\n\ \\EOTNull\DLE\US\DC2\n\ \\n\ \\ACKNumber\DLE \DC2\n\ \\n\ \\ACKObject\DLE!\DC2\f\n\ \\bOperator\DLE\"\DC2\v\n\ \\aPackage\DLE#\DC2\DC1\n\ \\rPackageObject\DLE$\DC2\r\n\ \\tParameter\DLE%\DC2\DC2\n\ \\SOParameterLabel\DLE&\DC2\v\n\ \\aPattern\DLE'\DC2\r\n\ \\tPredicate\DLE(\DC2\f\n\ \\bProperty\DLE)\DC2\f\n\ \\bProtocol\DLE*\DC2\DC2\n\ \\SOProtocolMethod\DLED\DC2\NAK\n\ \\DC1PureVirtualMethod\DLEE\DC2\SI\n\ \\vQuasiquoter\DLE+\DC2\DC1\n\ \\rSelfParameter\DLE,\DC2\n\ \\n\ \\ACKSetter\DLE-\DC2\r\n\ \\tSignature\DLE.\DC2\DC2\n\ \\SOSingletonClass\DLEK\DC2\DC3\n\ \\SISingletonMethod\DLEL\DC2\DC4\n\ \\DLEStaticDataMember\DLEM\DC2\SI\n\ \\vStaticEvent\DLEN\DC2\SI\n\ \\vStaticField\DLEO\DC2\DLE\n\ \\fStaticMethod\DLEP\DC2\DC2\n\ \\SOStaticProperty\DLEQ\DC2\DC2\n\ \\SOStaticVariable\DLER\DC2\n\ \\n\ \\ACKString\DLE0\DC2\n\ \\n\ \\ACKStruct\DLE1\DC2\r\n\ \\tSubscript\DLE/\DC2\n\ \\n\ \\ACKTactic\DLE2\DC2\v\n\ \\aTheorem\DLE3\DC2\DC1\n\ \\rThisParameter\DLE4\DC2\t\n\ \\ENQTrait\DLE5\DC2\SI\n\ \\vTraitMethod\DLEF\DC2\b\n\ \\EOTType\DLE6\DC2\r\n\ \\tTypeAlias\DLE7\DC2\r\n\ \\tTypeClass\DLE8\DC2\DC3\n\ \\SITypeClassMethod\DLEG\DC2\SO\n\ \\n\ \TypeFamily\DLE9\DC2\DC1\n\ \\rTypeParameter\DLE:\DC2\t\n\ \\ENQUnion\DLE;\DC2\t\n\ \\ENQValue\DLE<\DC2\f\n\ \\bVariable\DLE=" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let symbol__field_descriptor = Data.ProtoLens.FieldDescriptor "symbol" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"symbol")) :: Data.ProtoLens.FieldDescriptor SymbolInformation documentation__field_descriptor = Data.ProtoLens.FieldDescriptor "documentation" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"documentation")) :: Data.ProtoLens.FieldDescriptor SymbolInformation relationships__field_descriptor = Data.ProtoLens.FieldDescriptor "relationships" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Relationship) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"relationships")) :: Data.ProtoLens.FieldDescriptor SymbolInformation kind__field_descriptor = Data.ProtoLens.FieldDescriptor "kind" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor SymbolInformation'Kind) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"kind")) :: Data.ProtoLens.FieldDescriptor SymbolInformation displayName__field_descriptor = Data.ProtoLens.FieldDescriptor "display_name" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"displayName")) :: Data.ProtoLens.FieldDescriptor SymbolInformation signatureDocumentation__field_descriptor = Data.ProtoLens.FieldDescriptor "signature_documentation" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Document) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'signatureDocumentation")) :: Data.ProtoLens.FieldDescriptor SymbolInformation enclosingSymbol__field_descriptor = Data.ProtoLens.FieldDescriptor "enclosing_symbol" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"enclosingSymbol")) :: Data.ProtoLens.FieldDescriptor SymbolInformation in Data.Map.fromList [(Data.ProtoLens.Tag 1, symbol__field_descriptor), (Data.ProtoLens.Tag 3, documentation__field_descriptor), (Data.ProtoLens.Tag 4, relationships__field_descriptor), (Data.ProtoLens.Tag 5, kind__field_descriptor), (Data.ProtoLens.Tag 6, displayName__field_descriptor), (Data.ProtoLens.Tag 7, signatureDocumentation__field_descriptor), (Data.ProtoLens.Tag 8, enclosingSymbol__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _SymbolInformation'_unknownFields (\ x__ y__ -> x__ {_SymbolInformation'_unknownFields = y__}) defMessage = SymbolInformation'_constructor {_SymbolInformation'symbol = Data.ProtoLens.fieldDefault, _SymbolInformation'documentation = Data.Vector.Generic.empty, _SymbolInformation'relationships = Data.Vector.Generic.empty, _SymbolInformation'kind = Data.ProtoLens.fieldDefault, _SymbolInformation'displayName = Data.ProtoLens.fieldDefault, _SymbolInformation'signatureDocumentation = Prelude.Nothing, _SymbolInformation'enclosingSymbol = Data.ProtoLens.fieldDefault, _SymbolInformation'_unknownFields = []} parseMessage = let loop :: SymbolInformation -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Data.Text.Text -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Relationship -> Data.ProtoLens.Encoding.Bytes.Parser SymbolInformation loop x mutable'documentation mutable'relationships = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'documentation <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'documentation) frozen'relationships <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'relationships) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'documentation") frozen'documentation (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'relationships") frozen'relationships x))) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "symbol" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"symbol") y x) mutable'documentation mutable'relationships 26 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "documentation" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'documentation y) loop x v mutable'relationships 34 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "relationships" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'relationships y) loop x mutable'documentation v 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.toEnum (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt)) "kind" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"kind") y x) mutable'documentation mutable'relationships 50 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "display_name" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"displayName") y x) mutable'documentation mutable'relationships 58 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "signature_documentation" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"signatureDocumentation") y x) mutable'documentation mutable'relationships 66 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "enclosing_symbol" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"enclosingSymbol") y x) mutable'documentation mutable'relationships wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'documentation mutable'relationships in (Data.ProtoLens.Encoding.Bytes.) (do mutable'documentation <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'relationships <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'documentation mutable'relationships) "SymbolInformation" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"symbol") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'documentation") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'relationships") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"kind") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) ((Prelude..) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral) Prelude.fromEnum _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"displayName") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 50) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'signatureDocumentation") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 58) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"enclosingSymbol") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 66) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))))) instance Control.DeepSeq.NFData SymbolInformation where rnf = \ x__ -> Control.DeepSeq.deepseq (_SymbolInformation'_unknownFields x__) (Control.DeepSeq.deepseq (_SymbolInformation'symbol x__) (Control.DeepSeq.deepseq (_SymbolInformation'documentation x__) (Control.DeepSeq.deepseq (_SymbolInformation'relationships x__) (Control.DeepSeq.deepseq (_SymbolInformation'kind x__) (Control.DeepSeq.deepseq (_SymbolInformation'displayName x__) (Control.DeepSeq.deepseq (_SymbolInformation'signatureDocumentation x__) (Control.DeepSeq.deepseq (_SymbolInformation'enclosingSymbol x__) ()))))))) newtype SymbolInformation'Kind'UnrecognizedValue = SymbolInformation'Kind'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data SymbolInformation'Kind = SymbolInformation'UnspecifiedKind | SymbolInformation'Array | SymbolInformation'Assertion | SymbolInformation'AssociatedType | SymbolInformation'Attribute | SymbolInformation'Axiom | SymbolInformation'Boolean | SymbolInformation'Class | SymbolInformation'Constant | SymbolInformation'Constructor | SymbolInformation'DataFamily | SymbolInformation'Enum | SymbolInformation'EnumMember | SymbolInformation'Event | SymbolInformation'Fact | SymbolInformation'Field | SymbolInformation'File | SymbolInformation'Function | SymbolInformation'Getter | SymbolInformation'Grammar | SymbolInformation'Instance | SymbolInformation'Interface | SymbolInformation'Key | SymbolInformation'Lang | SymbolInformation'Lemma | SymbolInformation'Macro | SymbolInformation'Method | SymbolInformation'MethodReceiver | SymbolInformation'Message | SymbolInformation'Module | SymbolInformation'Namespace | SymbolInformation'Null | SymbolInformation'Number | SymbolInformation'Object | SymbolInformation'Operator | SymbolInformation'Package | SymbolInformation'PackageObject | SymbolInformation'Parameter | SymbolInformation'ParameterLabel | SymbolInformation'Pattern | SymbolInformation'Predicate | SymbolInformation'Property | SymbolInformation'Protocol | SymbolInformation'Quasiquoter | SymbolInformation'SelfParameter | SymbolInformation'Setter | SymbolInformation'Signature | SymbolInformation'Subscript | SymbolInformation'String | SymbolInformation'Struct | SymbolInformation'Tactic | SymbolInformation'Theorem | SymbolInformation'ThisParameter | SymbolInformation'Trait | SymbolInformation'Type | SymbolInformation'TypeAlias | SymbolInformation'TypeClass | SymbolInformation'TypeFamily | SymbolInformation'TypeParameter | SymbolInformation'Union | SymbolInformation'Value | SymbolInformation'Variable | SymbolInformation'Contract | SymbolInformation'Error | SymbolInformation'Library | SymbolInformation'Modifier | SymbolInformation'AbstractMethod | SymbolInformation'MethodSpecification | SymbolInformation'ProtocolMethod | SymbolInformation'PureVirtualMethod | SymbolInformation'TraitMethod | SymbolInformation'TypeClassMethod | SymbolInformation'Accessor | SymbolInformation'Delegate | SymbolInformation'MethodAlias | SymbolInformation'SingletonClass | SymbolInformation'SingletonMethod | SymbolInformation'StaticDataMember | SymbolInformation'StaticEvent | SymbolInformation'StaticField | SymbolInformation'StaticMethod | SymbolInformation'StaticProperty | SymbolInformation'StaticVariable | SymbolInformation'Extension | SymbolInformation'Mixin | SymbolInformation'Concept | SymbolInformation'Kind'Unrecognized !SymbolInformation'Kind'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum SymbolInformation'Kind where maybeToEnum 0 = Prelude.Just SymbolInformation'UnspecifiedKind maybeToEnum 1 = Prelude.Just SymbolInformation'Array maybeToEnum 2 = Prelude.Just SymbolInformation'Assertion maybeToEnum 3 = Prelude.Just SymbolInformation'AssociatedType maybeToEnum 4 = Prelude.Just SymbolInformation'Attribute maybeToEnum 5 = Prelude.Just SymbolInformation'Axiom maybeToEnum 6 = Prelude.Just SymbolInformation'Boolean maybeToEnum 7 = Prelude.Just SymbolInformation'Class maybeToEnum 8 = Prelude.Just SymbolInformation'Constant maybeToEnum 9 = Prelude.Just SymbolInformation'Constructor maybeToEnum 10 = Prelude.Just SymbolInformation'DataFamily maybeToEnum 11 = Prelude.Just SymbolInformation'Enum maybeToEnum 12 = Prelude.Just SymbolInformation'EnumMember maybeToEnum 13 = Prelude.Just SymbolInformation'Event maybeToEnum 14 = Prelude.Just SymbolInformation'Fact maybeToEnum 15 = Prelude.Just SymbolInformation'Field maybeToEnum 16 = Prelude.Just SymbolInformation'File maybeToEnum 17 = Prelude.Just SymbolInformation'Function maybeToEnum 18 = Prelude.Just SymbolInformation'Getter maybeToEnum 19 = Prelude.Just SymbolInformation'Grammar maybeToEnum 20 = Prelude.Just SymbolInformation'Instance maybeToEnum 21 = Prelude.Just SymbolInformation'Interface maybeToEnum 22 = Prelude.Just SymbolInformation'Key maybeToEnum 23 = Prelude.Just SymbolInformation'Lang maybeToEnum 24 = Prelude.Just SymbolInformation'Lemma maybeToEnum 25 = Prelude.Just SymbolInformation'Macro maybeToEnum 26 = Prelude.Just SymbolInformation'Method maybeToEnum 27 = Prelude.Just SymbolInformation'MethodReceiver maybeToEnum 28 = Prelude.Just SymbolInformation'Message maybeToEnum 29 = Prelude.Just SymbolInformation'Module maybeToEnum 30 = Prelude.Just SymbolInformation'Namespace maybeToEnum 31 = Prelude.Just SymbolInformation'Null maybeToEnum 32 = Prelude.Just SymbolInformation'Number maybeToEnum 33 = Prelude.Just SymbolInformation'Object maybeToEnum 34 = Prelude.Just SymbolInformation'Operator maybeToEnum 35 = Prelude.Just SymbolInformation'Package maybeToEnum 36 = Prelude.Just SymbolInformation'PackageObject maybeToEnum 37 = Prelude.Just SymbolInformation'Parameter maybeToEnum 38 = Prelude.Just SymbolInformation'ParameterLabel maybeToEnum 39 = Prelude.Just SymbolInformation'Pattern maybeToEnum 40 = Prelude.Just SymbolInformation'Predicate maybeToEnum 41 = Prelude.Just SymbolInformation'Property maybeToEnum 42 = Prelude.Just SymbolInformation'Protocol maybeToEnum 43 = Prelude.Just SymbolInformation'Quasiquoter maybeToEnum 44 = Prelude.Just SymbolInformation'SelfParameter maybeToEnum 45 = Prelude.Just SymbolInformation'Setter maybeToEnum 46 = Prelude.Just SymbolInformation'Signature maybeToEnum 47 = Prelude.Just SymbolInformation'Subscript maybeToEnum 48 = Prelude.Just SymbolInformation'String maybeToEnum 49 = Prelude.Just SymbolInformation'Struct maybeToEnum 50 = Prelude.Just SymbolInformation'Tactic maybeToEnum 51 = Prelude.Just SymbolInformation'Theorem maybeToEnum 52 = Prelude.Just SymbolInformation'ThisParameter maybeToEnum 53 = Prelude.Just SymbolInformation'Trait maybeToEnum 54 = Prelude.Just SymbolInformation'Type maybeToEnum 55 = Prelude.Just SymbolInformation'TypeAlias maybeToEnum 56 = Prelude.Just SymbolInformation'TypeClass maybeToEnum 57 = Prelude.Just SymbolInformation'TypeFamily maybeToEnum 58 = Prelude.Just SymbolInformation'TypeParameter maybeToEnum 59 = Prelude.Just SymbolInformation'Union maybeToEnum 60 = Prelude.Just SymbolInformation'Value maybeToEnum 61 = Prelude.Just SymbolInformation'Variable maybeToEnum 62 = Prelude.Just SymbolInformation'Contract maybeToEnum 63 = Prelude.Just SymbolInformation'Error maybeToEnum 64 = Prelude.Just SymbolInformation'Library maybeToEnum 65 = Prelude.Just SymbolInformation'Modifier maybeToEnum 66 = Prelude.Just SymbolInformation'AbstractMethod maybeToEnum 67 = Prelude.Just SymbolInformation'MethodSpecification maybeToEnum 68 = Prelude.Just SymbolInformation'ProtocolMethod maybeToEnum 69 = Prelude.Just SymbolInformation'PureVirtualMethod maybeToEnum 70 = Prelude.Just SymbolInformation'TraitMethod maybeToEnum 71 = Prelude.Just SymbolInformation'TypeClassMethod maybeToEnum 72 = Prelude.Just SymbolInformation'Accessor maybeToEnum 73 = Prelude.Just SymbolInformation'Delegate maybeToEnum 74 = Prelude.Just SymbolInformation'MethodAlias maybeToEnum 75 = Prelude.Just SymbolInformation'SingletonClass maybeToEnum 76 = Prelude.Just SymbolInformation'SingletonMethod maybeToEnum 77 = Prelude.Just SymbolInformation'StaticDataMember maybeToEnum 78 = Prelude.Just SymbolInformation'StaticEvent maybeToEnum 79 = Prelude.Just SymbolInformation'StaticField maybeToEnum 80 = Prelude.Just SymbolInformation'StaticMethod maybeToEnum 81 = Prelude.Just SymbolInformation'StaticProperty maybeToEnum 82 = Prelude.Just SymbolInformation'StaticVariable maybeToEnum 84 = Prelude.Just SymbolInformation'Extension maybeToEnum 85 = Prelude.Just SymbolInformation'Mixin maybeToEnum 86 = Prelude.Just SymbolInformation'Concept maybeToEnum k = Prelude.Just (SymbolInformation'Kind'Unrecognized (SymbolInformation'Kind'UnrecognizedValue (Prelude.fromIntegral k))) showEnum SymbolInformation'UnspecifiedKind = "UnspecifiedKind" showEnum SymbolInformation'AbstractMethod = "AbstractMethod" showEnum SymbolInformation'Accessor = "Accessor" showEnum SymbolInformation'Array = "Array" showEnum SymbolInformation'Assertion = "Assertion" showEnum SymbolInformation'AssociatedType = "AssociatedType" showEnum SymbolInformation'Attribute = "Attribute" showEnum SymbolInformation'Axiom = "Axiom" showEnum SymbolInformation'Boolean = "Boolean" showEnum SymbolInformation'Class = "Class" showEnum SymbolInformation'Concept = "Concept" showEnum SymbolInformation'Constant = "Constant" showEnum SymbolInformation'Constructor = "Constructor" showEnum SymbolInformation'Contract = "Contract" showEnum SymbolInformation'DataFamily = "DataFamily" showEnum SymbolInformation'Delegate = "Delegate" showEnum SymbolInformation'Enum = "Enum" showEnum SymbolInformation'EnumMember = "EnumMember" showEnum SymbolInformation'Error = "Error" showEnum SymbolInformation'Event = "Event" showEnum SymbolInformation'Extension = "Extension" showEnum SymbolInformation'Fact = "Fact" showEnum SymbolInformation'Field = "Field" showEnum SymbolInformation'File = "File" showEnum SymbolInformation'Function = "Function" showEnum SymbolInformation'Getter = "Getter" showEnum SymbolInformation'Grammar = "Grammar" showEnum SymbolInformation'Instance = "Instance" showEnum SymbolInformation'Interface = "Interface" showEnum SymbolInformation'Key = "Key" showEnum SymbolInformation'Lang = "Lang" showEnum SymbolInformation'Lemma = "Lemma" showEnum SymbolInformation'Library = "Library" showEnum SymbolInformation'Macro = "Macro" showEnum SymbolInformation'Method = "Method" showEnum SymbolInformation'MethodAlias = "MethodAlias" showEnum SymbolInformation'MethodReceiver = "MethodReceiver" showEnum SymbolInformation'MethodSpecification = "MethodSpecification" showEnum SymbolInformation'Message = "Message" showEnum SymbolInformation'Mixin = "Mixin" showEnum SymbolInformation'Modifier = "Modifier" showEnum SymbolInformation'Module = "Module" showEnum SymbolInformation'Namespace = "Namespace" showEnum SymbolInformation'Null = "Null" showEnum SymbolInformation'Number = "Number" showEnum SymbolInformation'Object = "Object" showEnum SymbolInformation'Operator = "Operator" showEnum SymbolInformation'Package = "Package" showEnum SymbolInformation'PackageObject = "PackageObject" showEnum SymbolInformation'Parameter = "Parameter" showEnum SymbolInformation'ParameterLabel = "ParameterLabel" showEnum SymbolInformation'Pattern = "Pattern" showEnum SymbolInformation'Predicate = "Predicate" showEnum SymbolInformation'Property = "Property" showEnum SymbolInformation'Protocol = "Protocol" showEnum SymbolInformation'ProtocolMethod = "ProtocolMethod" showEnum SymbolInformation'PureVirtualMethod = "PureVirtualMethod" showEnum SymbolInformation'Quasiquoter = "Quasiquoter" showEnum SymbolInformation'SelfParameter = "SelfParameter" showEnum SymbolInformation'Setter = "Setter" showEnum SymbolInformation'Signature = "Signature" showEnum SymbolInformation'SingletonClass = "SingletonClass" showEnum SymbolInformation'SingletonMethod = "SingletonMethod" showEnum SymbolInformation'StaticDataMember = "StaticDataMember" showEnum SymbolInformation'StaticEvent = "StaticEvent" showEnum SymbolInformation'StaticField = "StaticField" showEnum SymbolInformation'StaticMethod = "StaticMethod" showEnum SymbolInformation'StaticProperty = "StaticProperty" showEnum SymbolInformation'StaticVariable = "StaticVariable" showEnum SymbolInformation'String = "String" showEnum SymbolInformation'Struct = "Struct" showEnum SymbolInformation'Subscript = "Subscript" showEnum SymbolInformation'Tactic = "Tactic" showEnum SymbolInformation'Theorem = "Theorem" showEnum SymbolInformation'ThisParameter = "ThisParameter" showEnum SymbolInformation'Trait = "Trait" showEnum SymbolInformation'TraitMethod = "TraitMethod" showEnum SymbolInformation'Type = "Type" showEnum SymbolInformation'TypeAlias = "TypeAlias" showEnum SymbolInformation'TypeClass = "TypeClass" showEnum SymbolInformation'TypeClassMethod = "TypeClassMethod" showEnum SymbolInformation'TypeFamily = "TypeFamily" showEnum SymbolInformation'TypeParameter = "TypeParameter" showEnum SymbolInformation'Union = "Union" showEnum SymbolInformation'Value = "Value" showEnum SymbolInformation'Variable = "Variable" showEnum (SymbolInformation'Kind'Unrecognized (SymbolInformation'Kind'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UnspecifiedKind" = Prelude.Just SymbolInformation'UnspecifiedKind | (Prelude.==) k "AbstractMethod" = Prelude.Just SymbolInformation'AbstractMethod | (Prelude.==) k "Accessor" = Prelude.Just SymbolInformation'Accessor | (Prelude.==) k "Array" = Prelude.Just SymbolInformation'Array | (Prelude.==) k "Assertion" = Prelude.Just SymbolInformation'Assertion | (Prelude.==) k "AssociatedType" = Prelude.Just SymbolInformation'AssociatedType | (Prelude.==) k "Attribute" = Prelude.Just SymbolInformation'Attribute | (Prelude.==) k "Axiom" = Prelude.Just SymbolInformation'Axiom | (Prelude.==) k "Boolean" = Prelude.Just SymbolInformation'Boolean | (Prelude.==) k "Class" = Prelude.Just SymbolInformation'Class | (Prelude.==) k "Concept" = Prelude.Just SymbolInformation'Concept | (Prelude.==) k "Constant" = Prelude.Just SymbolInformation'Constant | (Prelude.==) k "Constructor" = Prelude.Just SymbolInformation'Constructor | (Prelude.==) k "Contract" = Prelude.Just SymbolInformation'Contract | (Prelude.==) k "DataFamily" = Prelude.Just SymbolInformation'DataFamily | (Prelude.==) k "Delegate" = Prelude.Just SymbolInformation'Delegate | (Prelude.==) k "Enum" = Prelude.Just SymbolInformation'Enum | (Prelude.==) k "EnumMember" = Prelude.Just SymbolInformation'EnumMember | (Prelude.==) k "Error" = Prelude.Just SymbolInformation'Error | (Prelude.==) k "Event" = Prelude.Just SymbolInformation'Event | (Prelude.==) k "Extension" = Prelude.Just SymbolInformation'Extension | (Prelude.==) k "Fact" = Prelude.Just SymbolInformation'Fact | (Prelude.==) k "Field" = Prelude.Just SymbolInformation'Field | (Prelude.==) k "File" = Prelude.Just SymbolInformation'File | (Prelude.==) k "Function" = Prelude.Just SymbolInformation'Function | (Prelude.==) k "Getter" = Prelude.Just SymbolInformation'Getter | (Prelude.==) k "Grammar" = Prelude.Just SymbolInformation'Grammar | (Prelude.==) k "Instance" = Prelude.Just SymbolInformation'Instance | (Prelude.==) k "Interface" = Prelude.Just SymbolInformation'Interface | (Prelude.==) k "Key" = Prelude.Just SymbolInformation'Key | (Prelude.==) k "Lang" = Prelude.Just SymbolInformation'Lang | (Prelude.==) k "Lemma" = Prelude.Just SymbolInformation'Lemma | (Prelude.==) k "Library" = Prelude.Just SymbolInformation'Library | (Prelude.==) k "Macro" = Prelude.Just SymbolInformation'Macro | (Prelude.==) k "Method" = Prelude.Just SymbolInformation'Method | (Prelude.==) k "MethodAlias" = Prelude.Just SymbolInformation'MethodAlias | (Prelude.==) k "MethodReceiver" = Prelude.Just SymbolInformation'MethodReceiver | (Prelude.==) k "MethodSpecification" = Prelude.Just SymbolInformation'MethodSpecification | (Prelude.==) k "Message" = Prelude.Just SymbolInformation'Message | (Prelude.==) k "Mixin" = Prelude.Just SymbolInformation'Mixin | (Prelude.==) k "Modifier" = Prelude.Just SymbolInformation'Modifier | (Prelude.==) k "Module" = Prelude.Just SymbolInformation'Module | (Prelude.==) k "Namespace" = Prelude.Just SymbolInformation'Namespace | (Prelude.==) k "Null" = Prelude.Just SymbolInformation'Null | (Prelude.==) k "Number" = Prelude.Just SymbolInformation'Number | (Prelude.==) k "Object" = Prelude.Just SymbolInformation'Object | (Prelude.==) k "Operator" = Prelude.Just SymbolInformation'Operator | (Prelude.==) k "Package" = Prelude.Just SymbolInformation'Package | (Prelude.==) k "PackageObject" = Prelude.Just SymbolInformation'PackageObject | (Prelude.==) k "Parameter" = Prelude.Just SymbolInformation'Parameter | (Prelude.==) k "ParameterLabel" = Prelude.Just SymbolInformation'ParameterLabel | (Prelude.==) k "Pattern" = Prelude.Just SymbolInformation'Pattern | (Prelude.==) k "Predicate" = Prelude.Just SymbolInformation'Predicate | (Prelude.==) k "Property" = Prelude.Just SymbolInformation'Property | (Prelude.==) k "Protocol" = Prelude.Just SymbolInformation'Protocol | (Prelude.==) k "ProtocolMethod" = Prelude.Just SymbolInformation'ProtocolMethod | (Prelude.==) k "PureVirtualMethod" = Prelude.Just SymbolInformation'PureVirtualMethod | (Prelude.==) k "Quasiquoter" = Prelude.Just SymbolInformation'Quasiquoter | (Prelude.==) k "SelfParameter" = Prelude.Just SymbolInformation'SelfParameter | (Prelude.==) k "Setter" = Prelude.Just SymbolInformation'Setter | (Prelude.==) k "Signature" = Prelude.Just SymbolInformation'Signature | (Prelude.==) k "SingletonClass" = Prelude.Just SymbolInformation'SingletonClass | (Prelude.==) k "SingletonMethod" = Prelude.Just SymbolInformation'SingletonMethod | (Prelude.==) k "StaticDataMember" = Prelude.Just SymbolInformation'StaticDataMember | (Prelude.==) k "StaticEvent" = Prelude.Just SymbolInformation'StaticEvent | (Prelude.==) k "StaticField" = Prelude.Just SymbolInformation'StaticField | (Prelude.==) k "StaticMethod" = Prelude.Just SymbolInformation'StaticMethod | (Prelude.==) k "StaticProperty" = Prelude.Just SymbolInformation'StaticProperty | (Prelude.==) k "StaticVariable" = Prelude.Just SymbolInformation'StaticVariable | (Prelude.==) k "String" = Prelude.Just SymbolInformation'String | (Prelude.==) k "Struct" = Prelude.Just SymbolInformation'Struct | (Prelude.==) k "Subscript" = Prelude.Just SymbolInformation'Subscript | (Prelude.==) k "Tactic" = Prelude.Just SymbolInformation'Tactic | (Prelude.==) k "Theorem" = Prelude.Just SymbolInformation'Theorem | (Prelude.==) k "ThisParameter" = Prelude.Just SymbolInformation'ThisParameter | (Prelude.==) k "Trait" = Prelude.Just SymbolInformation'Trait | (Prelude.==) k "TraitMethod" = Prelude.Just SymbolInformation'TraitMethod | (Prelude.==) k "Type" = Prelude.Just SymbolInformation'Type | (Prelude.==) k "TypeAlias" = Prelude.Just SymbolInformation'TypeAlias | (Prelude.==) k "TypeClass" = Prelude.Just SymbolInformation'TypeClass | (Prelude.==) k "TypeClassMethod" = Prelude.Just SymbolInformation'TypeClassMethod | (Prelude.==) k "TypeFamily" = Prelude.Just SymbolInformation'TypeFamily | (Prelude.==) k "TypeParameter" = Prelude.Just SymbolInformation'TypeParameter | (Prelude.==) k "Union" = Prelude.Just SymbolInformation'Union | (Prelude.==) k "Value" = Prelude.Just SymbolInformation'Value | (Prelude.==) k "Variable" = Prelude.Just SymbolInformation'Variable | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded SymbolInformation'Kind where minBound = SymbolInformation'UnspecifiedKind maxBound = SymbolInformation'Concept instance Prelude.Enum SymbolInformation'Kind where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum Kind: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum SymbolInformation'UnspecifiedKind = 0 fromEnum SymbolInformation'Array = 1 fromEnum SymbolInformation'Assertion = 2 fromEnum SymbolInformation'AssociatedType = 3 fromEnum SymbolInformation'Attribute = 4 fromEnum SymbolInformation'Axiom = 5 fromEnum SymbolInformation'Boolean = 6 fromEnum SymbolInformation'Class = 7 fromEnum SymbolInformation'Constant = 8 fromEnum SymbolInformation'Constructor = 9 fromEnum SymbolInformation'DataFamily = 10 fromEnum SymbolInformation'Enum = 11 fromEnum SymbolInformation'EnumMember = 12 fromEnum SymbolInformation'Event = 13 fromEnum SymbolInformation'Fact = 14 fromEnum SymbolInformation'Field = 15 fromEnum SymbolInformation'File = 16 fromEnum SymbolInformation'Function = 17 fromEnum SymbolInformation'Getter = 18 fromEnum SymbolInformation'Grammar = 19 fromEnum SymbolInformation'Instance = 20 fromEnum SymbolInformation'Interface = 21 fromEnum SymbolInformation'Key = 22 fromEnum SymbolInformation'Lang = 23 fromEnum SymbolInformation'Lemma = 24 fromEnum SymbolInformation'Macro = 25 fromEnum SymbolInformation'Method = 26 fromEnum SymbolInformation'MethodReceiver = 27 fromEnum SymbolInformation'Message = 28 fromEnum SymbolInformation'Module = 29 fromEnum SymbolInformation'Namespace = 30 fromEnum SymbolInformation'Null = 31 fromEnum SymbolInformation'Number = 32 fromEnum SymbolInformation'Object = 33 fromEnum SymbolInformation'Operator = 34 fromEnum SymbolInformation'Package = 35 fromEnum SymbolInformation'PackageObject = 36 fromEnum SymbolInformation'Parameter = 37 fromEnum SymbolInformation'ParameterLabel = 38 fromEnum SymbolInformation'Pattern = 39 fromEnum SymbolInformation'Predicate = 40 fromEnum SymbolInformation'Property = 41 fromEnum SymbolInformation'Protocol = 42 fromEnum SymbolInformation'Quasiquoter = 43 fromEnum SymbolInformation'SelfParameter = 44 fromEnum SymbolInformation'Setter = 45 fromEnum SymbolInformation'Signature = 46 fromEnum SymbolInformation'Subscript = 47 fromEnum SymbolInformation'String = 48 fromEnum SymbolInformation'Struct = 49 fromEnum SymbolInformation'Tactic = 50 fromEnum SymbolInformation'Theorem = 51 fromEnum SymbolInformation'ThisParameter = 52 fromEnum SymbolInformation'Trait = 53 fromEnum SymbolInformation'Type = 54 fromEnum SymbolInformation'TypeAlias = 55 fromEnum SymbolInformation'TypeClass = 56 fromEnum SymbolInformation'TypeFamily = 57 fromEnum SymbolInformation'TypeParameter = 58 fromEnum SymbolInformation'Union = 59 fromEnum SymbolInformation'Value = 60 fromEnum SymbolInformation'Variable = 61 fromEnum SymbolInformation'Contract = 62 fromEnum SymbolInformation'Error = 63 fromEnum SymbolInformation'Library = 64 fromEnum SymbolInformation'Modifier = 65 fromEnum SymbolInformation'AbstractMethod = 66 fromEnum SymbolInformation'MethodSpecification = 67 fromEnum SymbolInformation'ProtocolMethod = 68 fromEnum SymbolInformation'PureVirtualMethod = 69 fromEnum SymbolInformation'TraitMethod = 70 fromEnum SymbolInformation'TypeClassMethod = 71 fromEnum SymbolInformation'Accessor = 72 fromEnum SymbolInformation'Delegate = 73 fromEnum SymbolInformation'MethodAlias = 74 fromEnum SymbolInformation'SingletonClass = 75 fromEnum SymbolInformation'SingletonMethod = 76 fromEnum SymbolInformation'StaticDataMember = 77 fromEnum SymbolInformation'StaticEvent = 78 fromEnum SymbolInformation'StaticField = 79 fromEnum SymbolInformation'StaticMethod = 80 fromEnum SymbolInformation'StaticProperty = 81 fromEnum SymbolInformation'StaticVariable = 82 fromEnum SymbolInformation'Extension = 84 fromEnum SymbolInformation'Mixin = 85 fromEnum SymbolInformation'Concept = 86 fromEnum (SymbolInformation'Kind'Unrecognized (SymbolInformation'Kind'UnrecognizedValue k)) = Prelude.fromIntegral k succ SymbolInformation'Concept = Prelude.error "SymbolInformation'Kind.succ: bad argument SymbolInformation'Concept. This value would be out of bounds." succ SymbolInformation'UnspecifiedKind = SymbolInformation'Array succ SymbolInformation'Array = SymbolInformation'Assertion succ SymbolInformation'Assertion = SymbolInformation'AssociatedType succ SymbolInformation'AssociatedType = SymbolInformation'Attribute succ SymbolInformation'Attribute = SymbolInformation'Axiom succ SymbolInformation'Axiom = SymbolInformation'Boolean succ SymbolInformation'Boolean = SymbolInformation'Class succ SymbolInformation'Class = SymbolInformation'Constant succ SymbolInformation'Constant = SymbolInformation'Constructor succ SymbolInformation'Constructor = SymbolInformation'DataFamily succ SymbolInformation'DataFamily = SymbolInformation'Enum succ SymbolInformation'Enum = SymbolInformation'EnumMember succ SymbolInformation'EnumMember = SymbolInformation'Event succ SymbolInformation'Event = SymbolInformation'Fact succ SymbolInformation'Fact = SymbolInformation'Field succ SymbolInformation'Field = SymbolInformation'File succ SymbolInformation'File = SymbolInformation'Function succ SymbolInformation'Function = SymbolInformation'Getter succ SymbolInformation'Getter = SymbolInformation'Grammar succ SymbolInformation'Grammar = SymbolInformation'Instance succ SymbolInformation'Instance = SymbolInformation'Interface succ SymbolInformation'Interface = SymbolInformation'Key succ SymbolInformation'Key = SymbolInformation'Lang succ SymbolInformation'Lang = SymbolInformation'Lemma succ SymbolInformation'Lemma = SymbolInformation'Macro succ SymbolInformation'Macro = SymbolInformation'Method succ SymbolInformation'Method = SymbolInformation'MethodReceiver succ SymbolInformation'MethodReceiver = SymbolInformation'Message succ SymbolInformation'Message = SymbolInformation'Module succ SymbolInformation'Module = SymbolInformation'Namespace succ SymbolInformation'Namespace = SymbolInformation'Null succ SymbolInformation'Null = SymbolInformation'Number succ SymbolInformation'Number = SymbolInformation'Object succ SymbolInformation'Object = SymbolInformation'Operator succ SymbolInformation'Operator = SymbolInformation'Package succ SymbolInformation'Package = SymbolInformation'PackageObject succ SymbolInformation'PackageObject = SymbolInformation'Parameter succ SymbolInformation'Parameter = SymbolInformation'ParameterLabel succ SymbolInformation'ParameterLabel = SymbolInformation'Pattern succ SymbolInformation'Pattern = SymbolInformation'Predicate succ SymbolInformation'Predicate = SymbolInformation'Property succ SymbolInformation'Property = SymbolInformation'Protocol succ SymbolInformation'Protocol = SymbolInformation'Quasiquoter succ SymbolInformation'Quasiquoter = SymbolInformation'SelfParameter succ SymbolInformation'SelfParameter = SymbolInformation'Setter succ SymbolInformation'Setter = SymbolInformation'Signature succ SymbolInformation'Signature = SymbolInformation'Subscript succ SymbolInformation'Subscript = SymbolInformation'String succ SymbolInformation'String = SymbolInformation'Struct succ SymbolInformation'Struct = SymbolInformation'Tactic succ SymbolInformation'Tactic = SymbolInformation'Theorem succ SymbolInformation'Theorem = SymbolInformation'ThisParameter succ SymbolInformation'ThisParameter = SymbolInformation'Trait succ SymbolInformation'Trait = SymbolInformation'Type succ SymbolInformation'Type = SymbolInformation'TypeAlias succ SymbolInformation'TypeAlias = SymbolInformation'TypeClass succ SymbolInformation'TypeClass = SymbolInformation'TypeFamily succ SymbolInformation'TypeFamily = SymbolInformation'TypeParameter succ SymbolInformation'TypeParameter = SymbolInformation'Union succ SymbolInformation'Union = SymbolInformation'Value succ SymbolInformation'Value = SymbolInformation'Variable succ SymbolInformation'Variable = SymbolInformation'Contract succ SymbolInformation'Contract = SymbolInformation'Error succ SymbolInformation'Error = SymbolInformation'Library succ SymbolInformation'Library = SymbolInformation'Modifier succ SymbolInformation'Modifier = SymbolInformation'AbstractMethod succ SymbolInformation'AbstractMethod = SymbolInformation'MethodSpecification succ SymbolInformation'MethodSpecification = SymbolInformation'ProtocolMethod succ SymbolInformation'ProtocolMethod = SymbolInformation'PureVirtualMethod succ SymbolInformation'PureVirtualMethod = SymbolInformation'TraitMethod succ SymbolInformation'TraitMethod = SymbolInformation'TypeClassMethod succ SymbolInformation'TypeClassMethod = SymbolInformation'Accessor succ SymbolInformation'Accessor = SymbolInformation'Delegate succ SymbolInformation'Delegate = SymbolInformation'MethodAlias succ SymbolInformation'MethodAlias = SymbolInformation'SingletonClass succ SymbolInformation'SingletonClass = SymbolInformation'SingletonMethod succ SymbolInformation'SingletonMethod = SymbolInformation'StaticDataMember succ SymbolInformation'StaticDataMember = SymbolInformation'StaticEvent succ SymbolInformation'StaticEvent = SymbolInformation'StaticField succ SymbolInformation'StaticField = SymbolInformation'StaticMethod succ SymbolInformation'StaticMethod = SymbolInformation'StaticProperty succ SymbolInformation'StaticProperty = SymbolInformation'StaticVariable succ SymbolInformation'StaticVariable = SymbolInformation'Extension succ SymbolInformation'Extension = SymbolInformation'Mixin succ SymbolInformation'Mixin = SymbolInformation'Concept succ (SymbolInformation'Kind'Unrecognized _) = Prelude.error "SymbolInformation'Kind.succ: bad argument: unrecognized value" pred SymbolInformation'UnspecifiedKind = Prelude.error "SymbolInformation'Kind.pred: bad argument SymbolInformation'UnspecifiedKind. This value would be out of bounds." pred SymbolInformation'Array = SymbolInformation'UnspecifiedKind pred SymbolInformation'Assertion = SymbolInformation'Array pred SymbolInformation'AssociatedType = SymbolInformation'Assertion pred SymbolInformation'Attribute = SymbolInformation'AssociatedType pred SymbolInformation'Axiom = SymbolInformation'Attribute pred SymbolInformation'Boolean = SymbolInformation'Axiom pred SymbolInformation'Class = SymbolInformation'Boolean pred SymbolInformation'Constant = SymbolInformation'Class pred SymbolInformation'Constructor = SymbolInformation'Constant pred SymbolInformation'DataFamily = SymbolInformation'Constructor pred SymbolInformation'Enum = SymbolInformation'DataFamily pred SymbolInformation'EnumMember = SymbolInformation'Enum pred SymbolInformation'Event = SymbolInformation'EnumMember pred SymbolInformation'Fact = SymbolInformation'Event pred SymbolInformation'Field = SymbolInformation'Fact pred SymbolInformation'File = SymbolInformation'Field pred SymbolInformation'Function = SymbolInformation'File pred SymbolInformation'Getter = SymbolInformation'Function pred SymbolInformation'Grammar = SymbolInformation'Getter pred SymbolInformation'Instance = SymbolInformation'Grammar pred SymbolInformation'Interface = SymbolInformation'Instance pred SymbolInformation'Key = SymbolInformation'Interface pred SymbolInformation'Lang = SymbolInformation'Key pred SymbolInformation'Lemma = SymbolInformation'Lang pred SymbolInformation'Macro = SymbolInformation'Lemma pred SymbolInformation'Method = SymbolInformation'Macro pred SymbolInformation'MethodReceiver = SymbolInformation'Method pred SymbolInformation'Message = SymbolInformation'MethodReceiver pred SymbolInformation'Module = SymbolInformation'Message pred SymbolInformation'Namespace = SymbolInformation'Module pred SymbolInformation'Null = SymbolInformation'Namespace pred SymbolInformation'Number = SymbolInformation'Null pred SymbolInformation'Object = SymbolInformation'Number pred SymbolInformation'Operator = SymbolInformation'Object pred SymbolInformation'Package = SymbolInformation'Operator pred SymbolInformation'PackageObject = SymbolInformation'Package pred SymbolInformation'Parameter = SymbolInformation'PackageObject pred SymbolInformation'ParameterLabel = SymbolInformation'Parameter pred SymbolInformation'Pattern = SymbolInformation'ParameterLabel pred SymbolInformation'Predicate = SymbolInformation'Pattern pred SymbolInformation'Property = SymbolInformation'Predicate pred SymbolInformation'Protocol = SymbolInformation'Property pred SymbolInformation'Quasiquoter = SymbolInformation'Protocol pred SymbolInformation'SelfParameter = SymbolInformation'Quasiquoter pred SymbolInformation'Setter = SymbolInformation'SelfParameter pred SymbolInformation'Signature = SymbolInformation'Setter pred SymbolInformation'Subscript = SymbolInformation'Signature pred SymbolInformation'String = SymbolInformation'Subscript pred SymbolInformation'Struct = SymbolInformation'String pred SymbolInformation'Tactic = SymbolInformation'Struct pred SymbolInformation'Theorem = SymbolInformation'Tactic pred SymbolInformation'ThisParameter = SymbolInformation'Theorem pred SymbolInformation'Trait = SymbolInformation'ThisParameter pred SymbolInformation'Type = SymbolInformation'Trait pred SymbolInformation'TypeAlias = SymbolInformation'Type pred SymbolInformation'TypeClass = SymbolInformation'TypeAlias pred SymbolInformation'TypeFamily = SymbolInformation'TypeClass pred SymbolInformation'TypeParameter = SymbolInformation'TypeFamily pred SymbolInformation'Union = SymbolInformation'TypeParameter pred SymbolInformation'Value = SymbolInformation'Union pred SymbolInformation'Variable = SymbolInformation'Value pred SymbolInformation'Contract = SymbolInformation'Variable pred SymbolInformation'Error = SymbolInformation'Contract pred SymbolInformation'Library = SymbolInformation'Error pred SymbolInformation'Modifier = SymbolInformation'Library pred SymbolInformation'AbstractMethod = SymbolInformation'Modifier pred SymbolInformation'MethodSpecification = SymbolInformation'AbstractMethod pred SymbolInformation'ProtocolMethod = SymbolInformation'MethodSpecification pred SymbolInformation'PureVirtualMethod = SymbolInformation'ProtocolMethod pred SymbolInformation'TraitMethod = SymbolInformation'PureVirtualMethod pred SymbolInformation'TypeClassMethod = SymbolInformation'TraitMethod pred SymbolInformation'Accessor = SymbolInformation'TypeClassMethod pred SymbolInformation'Delegate = SymbolInformation'Accessor pred SymbolInformation'MethodAlias = SymbolInformation'Delegate pred SymbolInformation'SingletonClass = SymbolInformation'MethodAlias pred SymbolInformation'SingletonMethod = SymbolInformation'SingletonClass pred SymbolInformation'StaticDataMember = SymbolInformation'SingletonMethod pred SymbolInformation'StaticEvent = SymbolInformation'StaticDataMember pred SymbolInformation'StaticField = SymbolInformation'StaticEvent pred SymbolInformation'StaticMethod = SymbolInformation'StaticField pred SymbolInformation'StaticProperty = SymbolInformation'StaticMethod pred SymbolInformation'StaticVariable = SymbolInformation'StaticProperty pred SymbolInformation'Extension = SymbolInformation'StaticVariable pred SymbolInformation'Mixin = SymbolInformation'Extension pred SymbolInformation'Concept = SymbolInformation'Mixin pred (SymbolInformation'Kind'Unrecognized _) = Prelude.error "SymbolInformation'Kind.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault SymbolInformation'Kind where fieldDefault = SymbolInformation'UnspecifiedKind instance Control.DeepSeq.NFData SymbolInformation'Kind where rnf x__ = Prelude.seq x__ () newtype SymbolRole'UnrecognizedValue = SymbolRole'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data SymbolRole = UnspecifiedSymbolRole | Definition | Import | WriteAccess | ReadAccess | Generated | Test | ForwardDefinition | SymbolRole'Unrecognized !SymbolRole'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum SymbolRole where maybeToEnum 0 = Prelude.Just UnspecifiedSymbolRole maybeToEnum 1 = Prelude.Just Definition maybeToEnum 2 = Prelude.Just Import maybeToEnum 4 = Prelude.Just WriteAccess maybeToEnum 8 = Prelude.Just ReadAccess maybeToEnum 16 = Prelude.Just Generated maybeToEnum 32 = Prelude.Just Test maybeToEnum 64 = Prelude.Just ForwardDefinition maybeToEnum k = Prelude.Just (SymbolRole'Unrecognized (SymbolRole'UnrecognizedValue (Prelude.fromIntegral k))) showEnum UnspecifiedSymbolRole = "UnspecifiedSymbolRole" showEnum Definition = "Definition" showEnum Import = "Import" showEnum WriteAccess = "WriteAccess" showEnum ReadAccess = "ReadAccess" showEnum Generated = "Generated" showEnum Test = "Test" showEnum ForwardDefinition = "ForwardDefinition" showEnum (SymbolRole'Unrecognized (SymbolRole'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UnspecifiedSymbolRole" = Prelude.Just UnspecifiedSymbolRole | (Prelude.==) k "Definition" = Prelude.Just Definition | (Prelude.==) k "Import" = Prelude.Just Import | (Prelude.==) k "WriteAccess" = Prelude.Just WriteAccess | (Prelude.==) k "ReadAccess" = Prelude.Just ReadAccess | (Prelude.==) k "Generated" = Prelude.Just Generated | (Prelude.==) k "Test" = Prelude.Just Test | (Prelude.==) k "ForwardDefinition" = Prelude.Just ForwardDefinition | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded SymbolRole where minBound = UnspecifiedSymbolRole maxBound = ForwardDefinition instance Prelude.Enum SymbolRole where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum SymbolRole: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum UnspecifiedSymbolRole = 0 fromEnum Definition = 1 fromEnum Import = 2 fromEnum WriteAccess = 4 fromEnum ReadAccess = 8 fromEnum Generated = 16 fromEnum Test = 32 fromEnum ForwardDefinition = 64 fromEnum (SymbolRole'Unrecognized (SymbolRole'UnrecognizedValue k)) = Prelude.fromIntegral k succ ForwardDefinition = Prelude.error "SymbolRole.succ: bad argument ForwardDefinition. This value would be out of bounds." succ UnspecifiedSymbolRole = Definition succ Definition = Import succ Import = WriteAccess succ WriteAccess = ReadAccess succ ReadAccess = Generated succ Generated = Test succ Test = ForwardDefinition succ (SymbolRole'Unrecognized _) = Prelude.error "SymbolRole.succ: bad argument: unrecognized value" pred UnspecifiedSymbolRole = Prelude.error "SymbolRole.pred: bad argument UnspecifiedSymbolRole. This value would be out of bounds." pred Definition = UnspecifiedSymbolRole pred Import = Definition pred WriteAccess = Import pred ReadAccess = WriteAccess pred Generated = ReadAccess pred Test = Generated pred ForwardDefinition = Test pred (SymbolRole'Unrecognized _) = Prelude.error "SymbolRole.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault SymbolRole where fieldDefault = UnspecifiedSymbolRole instance Control.DeepSeq.NFData SymbolRole where rnf x__ = Prelude.seq x__ () newtype SyntaxKind'UnrecognizedValue = SyntaxKind'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data SyntaxKind = UnspecifiedSyntaxKind | Comment | PunctuationDelimiter | PunctuationBracket | Keyword | IdentifierOperator | Identifier | IdentifierBuiltin | IdentifierNull | IdentifierConstant | IdentifierMutableGlobal | IdentifierParameter | IdentifierLocal | IdentifierShadowed | IdentifierNamespace | IdentifierFunction | IdentifierFunctionDefinition | IdentifierMacro | IdentifierMacroDefinition | IdentifierType | IdentifierBuiltinType | IdentifierAttribute | RegexEscape | RegexRepeated | RegexWildcard | RegexDelimiter | RegexJoin | StringLiteral | StringLiteralEscape | StringLiteralSpecial | StringLiteralKey | CharacterLiteral | NumericLiteral | BooleanLiteral | Tag | TagAttribute | TagDelimiter | SyntaxKind'Unrecognized !SyntaxKind'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum SyntaxKind where maybeToEnum 0 = Prelude.Just UnspecifiedSyntaxKind maybeToEnum 1 = Prelude.Just Comment maybeToEnum 2 = Prelude.Just PunctuationDelimiter maybeToEnum 3 = Prelude.Just PunctuationBracket maybeToEnum 4 = Prelude.Just Keyword maybeToEnum 5 = Prelude.Just IdentifierOperator maybeToEnum 6 = Prelude.Just Identifier maybeToEnum 7 = Prelude.Just IdentifierBuiltin maybeToEnum 8 = Prelude.Just IdentifierNull maybeToEnum 9 = Prelude.Just IdentifierConstant maybeToEnum 10 = Prelude.Just IdentifierMutableGlobal maybeToEnum 11 = Prelude.Just IdentifierParameter maybeToEnum 12 = Prelude.Just IdentifierLocal maybeToEnum 13 = Prelude.Just IdentifierShadowed maybeToEnum 14 = Prelude.Just IdentifierNamespace maybeToEnum 15 = Prelude.Just IdentifierFunction maybeToEnum 16 = Prelude.Just IdentifierFunctionDefinition maybeToEnum 17 = Prelude.Just IdentifierMacro maybeToEnum 18 = Prelude.Just IdentifierMacroDefinition maybeToEnum 19 = Prelude.Just IdentifierType maybeToEnum 20 = Prelude.Just IdentifierBuiltinType maybeToEnum 21 = Prelude.Just IdentifierAttribute maybeToEnum 22 = Prelude.Just RegexEscape maybeToEnum 23 = Prelude.Just RegexRepeated maybeToEnum 24 = Prelude.Just RegexWildcard maybeToEnum 25 = Prelude.Just RegexDelimiter maybeToEnum 26 = Prelude.Just RegexJoin maybeToEnum 27 = Prelude.Just StringLiteral maybeToEnum 28 = Prelude.Just StringLiteralEscape maybeToEnum 29 = Prelude.Just StringLiteralSpecial maybeToEnum 30 = Prelude.Just StringLiteralKey maybeToEnum 31 = Prelude.Just CharacterLiteral maybeToEnum 32 = Prelude.Just NumericLiteral maybeToEnum 33 = Prelude.Just BooleanLiteral maybeToEnum 34 = Prelude.Just Tag maybeToEnum 35 = Prelude.Just TagAttribute maybeToEnum 36 = Prelude.Just TagDelimiter maybeToEnum k = Prelude.Just (SyntaxKind'Unrecognized (SyntaxKind'UnrecognizedValue (Prelude.fromIntegral k))) showEnum UnspecifiedSyntaxKind = "UnspecifiedSyntaxKind" showEnum Comment = "Comment" showEnum PunctuationDelimiter = "PunctuationDelimiter" showEnum PunctuationBracket = "PunctuationBracket" showEnum Keyword = "Keyword" showEnum IdentifierOperator = "IdentifierOperator" showEnum Identifier = "Identifier" showEnum IdentifierBuiltin = "IdentifierBuiltin" showEnum IdentifierNull = "IdentifierNull" showEnum IdentifierConstant = "IdentifierConstant" showEnum IdentifierMutableGlobal = "IdentifierMutableGlobal" showEnum IdentifierParameter = "IdentifierParameter" showEnum IdentifierLocal = "IdentifierLocal" showEnum IdentifierShadowed = "IdentifierShadowed" showEnum IdentifierNamespace = "IdentifierNamespace" showEnum IdentifierFunction = "IdentifierFunction" showEnum IdentifierFunctionDefinition = "IdentifierFunctionDefinition" showEnum IdentifierMacro = "IdentifierMacro" showEnum IdentifierMacroDefinition = "IdentifierMacroDefinition" showEnum IdentifierType = "IdentifierType" showEnum IdentifierBuiltinType = "IdentifierBuiltinType" showEnum IdentifierAttribute = "IdentifierAttribute" showEnum RegexEscape = "RegexEscape" showEnum RegexRepeated = "RegexRepeated" showEnum RegexWildcard = "RegexWildcard" showEnum RegexDelimiter = "RegexDelimiter" showEnum RegexJoin = "RegexJoin" showEnum StringLiteral = "StringLiteral" showEnum StringLiteralEscape = "StringLiteralEscape" showEnum StringLiteralSpecial = "StringLiteralSpecial" showEnum StringLiteralKey = "StringLiteralKey" showEnum CharacterLiteral = "CharacterLiteral" showEnum NumericLiteral = "NumericLiteral" showEnum BooleanLiteral = "BooleanLiteral" showEnum Tag = "Tag" showEnum TagAttribute = "TagAttribute" showEnum TagDelimiter = "TagDelimiter" showEnum (SyntaxKind'Unrecognized (SyntaxKind'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UnspecifiedSyntaxKind" = Prelude.Just UnspecifiedSyntaxKind | (Prelude.==) k "Comment" = Prelude.Just Comment | (Prelude.==) k "PunctuationDelimiter" = Prelude.Just PunctuationDelimiter | (Prelude.==) k "PunctuationBracket" = Prelude.Just PunctuationBracket | (Prelude.==) k "Keyword" = Prelude.Just Keyword | (Prelude.==) k "IdentifierKeyword" = Prelude.Just IdentifierKeyword | (Prelude.==) k "IdentifierOperator" = Prelude.Just IdentifierOperator | (Prelude.==) k "Identifier" = Prelude.Just Identifier | (Prelude.==) k "IdentifierBuiltin" = Prelude.Just IdentifierBuiltin | (Prelude.==) k "IdentifierNull" = Prelude.Just IdentifierNull | (Prelude.==) k "IdentifierConstant" = Prelude.Just IdentifierConstant | (Prelude.==) k "IdentifierMutableGlobal" = Prelude.Just IdentifierMutableGlobal | (Prelude.==) k "IdentifierParameter" = Prelude.Just IdentifierParameter | (Prelude.==) k "IdentifierLocal" = Prelude.Just IdentifierLocal | (Prelude.==) k "IdentifierShadowed" = Prelude.Just IdentifierShadowed | (Prelude.==) k "IdentifierNamespace" = Prelude.Just IdentifierNamespace | (Prelude.==) k "IdentifierModule" = Prelude.Just IdentifierModule | (Prelude.==) k "IdentifierFunction" = Prelude.Just IdentifierFunction | (Prelude.==) k "IdentifierFunctionDefinition" = Prelude.Just IdentifierFunctionDefinition | (Prelude.==) k "IdentifierMacro" = Prelude.Just IdentifierMacro | (Prelude.==) k "IdentifierMacroDefinition" = Prelude.Just IdentifierMacroDefinition | (Prelude.==) k "IdentifierType" = Prelude.Just IdentifierType | (Prelude.==) k "IdentifierBuiltinType" = Prelude.Just IdentifierBuiltinType | (Prelude.==) k "IdentifierAttribute" = Prelude.Just IdentifierAttribute | (Prelude.==) k "RegexEscape" = Prelude.Just RegexEscape | (Prelude.==) k "RegexRepeated" = Prelude.Just RegexRepeated | (Prelude.==) k "RegexWildcard" = Prelude.Just RegexWildcard | (Prelude.==) k "RegexDelimiter" = Prelude.Just RegexDelimiter | (Prelude.==) k "RegexJoin" = Prelude.Just RegexJoin | (Prelude.==) k "StringLiteral" = Prelude.Just StringLiteral | (Prelude.==) k "StringLiteralEscape" = Prelude.Just StringLiteralEscape | (Prelude.==) k "StringLiteralSpecial" = Prelude.Just StringLiteralSpecial | (Prelude.==) k "StringLiteralKey" = Prelude.Just StringLiteralKey | (Prelude.==) k "CharacterLiteral" = Prelude.Just CharacterLiteral | (Prelude.==) k "NumericLiteral" = Prelude.Just NumericLiteral | (Prelude.==) k "BooleanLiteral" = Prelude.Just BooleanLiteral | (Prelude.==) k "Tag" = Prelude.Just Tag | (Prelude.==) k "TagAttribute" = Prelude.Just TagAttribute | (Prelude.==) k "TagDelimiter" = Prelude.Just TagDelimiter | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded SyntaxKind where minBound = UnspecifiedSyntaxKind maxBound = TagDelimiter instance Prelude.Enum SyntaxKind where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum SyntaxKind: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum UnspecifiedSyntaxKind = 0 fromEnum Comment = 1 fromEnum PunctuationDelimiter = 2 fromEnum PunctuationBracket = 3 fromEnum Keyword = 4 fromEnum IdentifierOperator = 5 fromEnum Identifier = 6 fromEnum IdentifierBuiltin = 7 fromEnum IdentifierNull = 8 fromEnum IdentifierConstant = 9 fromEnum IdentifierMutableGlobal = 10 fromEnum IdentifierParameter = 11 fromEnum IdentifierLocal = 12 fromEnum IdentifierShadowed = 13 fromEnum IdentifierNamespace = 14 fromEnum IdentifierFunction = 15 fromEnum IdentifierFunctionDefinition = 16 fromEnum IdentifierMacro = 17 fromEnum IdentifierMacroDefinition = 18 fromEnum IdentifierType = 19 fromEnum IdentifierBuiltinType = 20 fromEnum IdentifierAttribute = 21 fromEnum RegexEscape = 22 fromEnum RegexRepeated = 23 fromEnum RegexWildcard = 24 fromEnum RegexDelimiter = 25 fromEnum RegexJoin = 26 fromEnum StringLiteral = 27 fromEnum StringLiteralEscape = 28 fromEnum StringLiteralSpecial = 29 fromEnum StringLiteralKey = 30 fromEnum CharacterLiteral = 31 fromEnum NumericLiteral = 32 fromEnum BooleanLiteral = 33 fromEnum Tag = 34 fromEnum TagAttribute = 35 fromEnum TagDelimiter = 36 fromEnum (SyntaxKind'Unrecognized (SyntaxKind'UnrecognizedValue k)) = Prelude.fromIntegral k succ TagDelimiter = Prelude.error "SyntaxKind.succ: bad argument TagDelimiter. This value would be out of bounds." succ UnspecifiedSyntaxKind = Comment succ Comment = PunctuationDelimiter succ PunctuationDelimiter = PunctuationBracket succ PunctuationBracket = Keyword succ Keyword = IdentifierOperator succ IdentifierOperator = Identifier succ Identifier = IdentifierBuiltin succ IdentifierBuiltin = IdentifierNull succ IdentifierNull = IdentifierConstant succ IdentifierConstant = IdentifierMutableGlobal succ IdentifierMutableGlobal = IdentifierParameter succ IdentifierParameter = IdentifierLocal succ IdentifierLocal = IdentifierShadowed succ IdentifierShadowed = IdentifierNamespace succ IdentifierNamespace = IdentifierFunction succ IdentifierFunction = IdentifierFunctionDefinition succ IdentifierFunctionDefinition = IdentifierMacro succ IdentifierMacro = IdentifierMacroDefinition succ IdentifierMacroDefinition = IdentifierType succ IdentifierType = IdentifierBuiltinType succ IdentifierBuiltinType = IdentifierAttribute succ IdentifierAttribute = RegexEscape succ RegexEscape = RegexRepeated succ RegexRepeated = RegexWildcard succ RegexWildcard = RegexDelimiter succ RegexDelimiter = RegexJoin succ RegexJoin = StringLiteral succ StringLiteral = StringLiteralEscape succ StringLiteralEscape = StringLiteralSpecial succ StringLiteralSpecial = StringLiteralKey succ StringLiteralKey = CharacterLiteral succ CharacterLiteral = NumericLiteral succ NumericLiteral = BooleanLiteral succ BooleanLiteral = Tag succ Tag = TagAttribute succ TagAttribute = TagDelimiter succ (SyntaxKind'Unrecognized _) = Prelude.error "SyntaxKind.succ: bad argument: unrecognized value" pred UnspecifiedSyntaxKind = Prelude.error "SyntaxKind.pred: bad argument UnspecifiedSyntaxKind. This value would be out of bounds." pred Comment = UnspecifiedSyntaxKind pred PunctuationDelimiter = Comment pred PunctuationBracket = PunctuationDelimiter pred Keyword = PunctuationBracket pred IdentifierOperator = Keyword pred Identifier = IdentifierOperator pred IdentifierBuiltin = Identifier pred IdentifierNull = IdentifierBuiltin pred IdentifierConstant = IdentifierNull pred IdentifierMutableGlobal = IdentifierConstant pred IdentifierParameter = IdentifierMutableGlobal pred IdentifierLocal = IdentifierParameter pred IdentifierShadowed = IdentifierLocal pred IdentifierNamespace = IdentifierShadowed pred IdentifierFunction = IdentifierNamespace pred IdentifierFunctionDefinition = IdentifierFunction pred IdentifierMacro = IdentifierFunctionDefinition pred IdentifierMacroDefinition = IdentifierMacro pred IdentifierType = IdentifierMacroDefinition pred IdentifierBuiltinType = IdentifierType pred IdentifierAttribute = IdentifierBuiltinType pred RegexEscape = IdentifierAttribute pred RegexRepeated = RegexEscape pred RegexWildcard = RegexRepeated pred RegexDelimiter = RegexWildcard pred RegexJoin = RegexDelimiter pred StringLiteral = RegexJoin pred StringLiteralEscape = StringLiteral pred StringLiteralSpecial = StringLiteralEscape pred StringLiteralKey = StringLiteralSpecial pred CharacterLiteral = StringLiteralKey pred NumericLiteral = CharacterLiteral pred BooleanLiteral = NumericLiteral pred Tag = BooleanLiteral pred TagAttribute = Tag pred TagDelimiter = TagAttribute pred (SyntaxKind'Unrecognized _) = Prelude.error "SyntaxKind.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault SyntaxKind where fieldDefault = UnspecifiedSyntaxKind instance Control.DeepSeq.NFData SyntaxKind where rnf x__ = Prelude.seq x__ () pattern IdentifierKeyword :: SyntaxKind pattern IdentifierKeyword = Keyword pattern IdentifierModule :: SyntaxKind pattern IdentifierModule = IdentifierNamespace newtype TextEncoding'UnrecognizedValue = TextEncoding'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data TextEncoding = UnspecifiedTextEncoding | UTF8 | UTF16 | TextEncoding'Unrecognized !TextEncoding'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum TextEncoding where maybeToEnum 0 = Prelude.Just UnspecifiedTextEncoding maybeToEnum 1 = Prelude.Just UTF8 maybeToEnum 2 = Prelude.Just UTF16 maybeToEnum k = Prelude.Just (TextEncoding'Unrecognized (TextEncoding'UnrecognizedValue (Prelude.fromIntegral k))) showEnum UnspecifiedTextEncoding = "UnspecifiedTextEncoding" showEnum UTF8 = "UTF8" showEnum UTF16 = "UTF16" showEnum (TextEncoding'Unrecognized (TextEncoding'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "UnspecifiedTextEncoding" = Prelude.Just UnspecifiedTextEncoding | (Prelude.==) k "UTF8" = Prelude.Just UTF8 | (Prelude.==) k "UTF16" = Prelude.Just UTF16 | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded TextEncoding where minBound = UnspecifiedTextEncoding maxBound = UTF16 instance Prelude.Enum TextEncoding where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum TextEncoding: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum UnspecifiedTextEncoding = 0 fromEnum UTF8 = 1 fromEnum UTF16 = 2 fromEnum (TextEncoding'Unrecognized (TextEncoding'UnrecognizedValue k)) = Prelude.fromIntegral k succ UTF16 = Prelude.error "TextEncoding.succ: bad argument UTF16. This value would be out of bounds." succ UnspecifiedTextEncoding = UTF8 succ UTF8 = UTF16 succ (TextEncoding'Unrecognized _) = Prelude.error "TextEncoding.succ: bad argument: unrecognized value" pred UnspecifiedTextEncoding = Prelude.error "TextEncoding.pred: bad argument UnspecifiedTextEncoding. This value would be out of bounds." pred UTF8 = UnspecifiedTextEncoding pred UTF16 = UTF8 pred (TextEncoding'Unrecognized _) = Prelude.error "TextEncoding.pred: bad argument: unrecognized value" enumFrom = Data.ProtoLens.Message.Enum.messageEnumFrom enumFromTo = Data.ProtoLens.Message.Enum.messageEnumFromTo enumFromThen = Data.ProtoLens.Message.Enum.messageEnumFromThen enumFromThenTo = Data.ProtoLens.Message.Enum.messageEnumFromThenTo instance Data.ProtoLens.FieldDefault TextEncoding where fieldDefault = UnspecifiedTextEncoding instance Control.DeepSeq.NFData TextEncoding where rnf x__ = Prelude.seq x__ () {- | Fields : * 'Proto.Scip_Fields.name' @:: Lens' ToolInfo Data.Text.Text@ * 'Proto.Scip_Fields.version' @:: Lens' ToolInfo Data.Text.Text@ * 'Proto.Scip_Fields.arguments' @:: Lens' ToolInfo [Data.Text.Text]@ * 'Proto.Scip_Fields.vec'arguments' @:: Lens' ToolInfo (Data.Vector.Vector Data.Text.Text)@ -} data ToolInfo = ToolInfo'_constructor {_ToolInfo'name :: !Data.Text.Text, _ToolInfo'version :: !Data.Text.Text, _ToolInfo'arguments :: !(Data.Vector.Vector Data.Text.Text), _ToolInfo'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show ToolInfo where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField ToolInfo "name" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ToolInfo'name (\ x__ y__ -> x__ {_ToolInfo'name = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ToolInfo "version" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ToolInfo'version (\ x__ y__ -> x__ {_ToolInfo'version = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ToolInfo "arguments" [Data.Text.Text] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ToolInfo'arguments (\ x__ y__ -> x__ {_ToolInfo'arguments = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField ToolInfo "vec'arguments" (Data.Vector.Vector Data.Text.Text) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ToolInfo'arguments (\ x__ y__ -> x__ {_ToolInfo'arguments = y__})) Prelude.id instance Data.ProtoLens.Message ToolInfo where messageName _ = Data.Text.pack "scip.ToolInfo" packedMessageDescriptor _ = "\n\ \\bToolInfo\DC2\DC2\n\ \\EOTname\CAN\SOH \SOH(\tR\EOTname\DC2\CAN\n\ \\aversion\CAN\STX \SOH(\tR\aversion\DC2\FS\n\ \\targuments\CAN\ETX \ETX(\tR\targuments" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let name__field_descriptor = Data.ProtoLens.FieldDescriptor "name" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"name")) :: Data.ProtoLens.FieldDescriptor ToolInfo version__field_descriptor = Data.ProtoLens.FieldDescriptor "version" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"version")) :: Data.ProtoLens.FieldDescriptor ToolInfo arguments__field_descriptor = Data.ProtoLens.FieldDescriptor "arguments" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"arguments")) :: Data.ProtoLens.FieldDescriptor ToolInfo in Data.Map.fromList [(Data.ProtoLens.Tag 1, name__field_descriptor), (Data.ProtoLens.Tag 2, version__field_descriptor), (Data.ProtoLens.Tag 3, arguments__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ToolInfo'_unknownFields (\ x__ y__ -> x__ {_ToolInfo'_unknownFields = y__}) defMessage = ToolInfo'_constructor {_ToolInfo'name = Data.ProtoLens.fieldDefault, _ToolInfo'version = Data.ProtoLens.fieldDefault, _ToolInfo'arguments = Data.Vector.Generic.empty, _ToolInfo'_unknownFields = []} parseMessage = let loop :: ToolInfo -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Data.Text.Text -> Data.ProtoLens.Encoding.Bytes.Parser ToolInfo loop x mutable'arguments = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'arguments <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'arguments) (let missing = [] in if Prelude.null missing then Prelude.return () else Prelude.fail ((Prelude.++) "Missing required fields: " (Prelude.show (missing :: [Prelude.String])))) Prelude.return (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> Prelude.reverse t) (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'arguments") frozen'arguments x)) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 10 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "name" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"name") y x) mutable'arguments 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "version" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"version") y x) mutable'arguments 26 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do value <- do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len) Data.ProtoLens.Encoding.Bytes.runEither (case Data.Text.Encoding.decodeUtf8' value of (Prelude.Left err) -> Prelude.Left (Prelude.show err) (Prelude.Right r) -> Prelude.Right r)) "arguments" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'arguments y) loop x v wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'arguments in (Data.ProtoLens.Encoding.Bytes.) (do mutable'arguments <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'arguments) "ToolInfo" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"name") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 10) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"version") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((Prelude..) (\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) Data.Text.Encoding.encodeUtf8 _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'arguments") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData ToolInfo where rnf = \ x__ -> Control.DeepSeq.deepseq (_ToolInfo'_unknownFields x__) (Control.DeepSeq.deepseq (_ToolInfo'name x__) (Control.DeepSeq.deepseq (_ToolInfo'version x__) (Control.DeepSeq.deepseq (_ToolInfo'arguments x__) ()))) packedFileDescriptor :: Data.ByteString.ByteString packedFileDescriptor = "\n\ \\n\ \scip.proto\DC2\EOTscip\"\165\SOH\n\ \\ENQIndex\DC2*\n\ \\bmetadata\CAN\SOH \SOH(\v2\SO.scip.MetadataR\bmetadata\DC2,\n\ \\tdocuments\CAN\STX \ETX(\v2\SO.scip.DocumentR\tdocuments\DC2B\n\ \\DLEexternal_symbols\CAN\ETX \ETX(\v2\ETB.scip.SymbolInformationR\SIexternalSymbols\"\213\SOH\n\ \\bMetadata\DC2/\n\ \\aversion\CAN\SOH \SOH(\SO2\NAK.scip.ProtocolVersionR\aversion\DC2+\n\ \\ttool_info\CAN\STX \SOH(\v2\SO.scip.ToolInfoR\btoolInfo\DC2!\n\ \\fproject_root\CAN\ETX \SOH(\tR\vprojectRoot\DC2H\n\ \\SYNtext_document_encoding\CAN\EOT \SOH(\SO2\DC2.scip.TextEncodingR\DC4textDocumentEncoding\"V\n\ \\bToolInfo\DC2\DC2\n\ \\EOTname\CAN\SOH \SOH(\tR\EOTname\DC2\CAN\n\ \\aversion\CAN\STX \SOH(\tR\aversion\DC2\FS\n\ \\targuments\CAN\ETX \ETX(\tR\targuments\"\139\STX\n\ \\bDocument\DC2\SUB\n\ \\blanguage\CAN\EOT \SOH(\tR\blanguage\DC2#\n\ \\rrelative_path\CAN\SOH \SOH(\tR\frelativePath\DC22\n\ \\voccurrences\CAN\STX \ETX(\v2\DLE.scip.OccurrenceR\voccurrences\DC21\n\ \\asymbols\CAN\ETX \ETX(\v2\ETB.scip.SymbolInformationR\asymbols\DC2\DC2\n\ \\EOTtext\CAN\ENQ \SOH(\tR\EOTtext\DC2C\n\ \\DC1position_encoding\CAN\ACK \SOH(\SO2\SYN.scip.PositionEncodingR\DLEpositionEncoding\"}\n\ \\ACKSymbol\DC2\SYN\n\ 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\\ENQRepro\DLEf\DC2\b\n\ \\EOTReST\DLEU\DC2\b\n\ \\EOTRuby\DLE\DLE\DC2\b\n\ \\EOTRust\DLE(\DC2\a\n\ \\ETXSAS\DLE=\DC2\b\n\ \\EOTSCSS\DLE\GS\DC2\a\n\ \\ETXSML\DLE+\DC2\a\n\ \\ETXSQL\DLEE\DC2\b\n\ \\EOTSass\DLE\FS\DC2\t\n\ \\ENQScala\DLE\ENQ\DC2\n\ \\n\ \\ACKScheme\DLE\n\ \\DC2\SI\n\ \\vShellScript\DLE@\DC2\v\n\ \\aSkylark\DLEN\DC2\t\n\ \\ENQSlang\DLEk\DC2\f\n\ \\bSolidity\DLE_\DC2\n\ \\n\ \\ACKSvelte\DLEj\DC2\t\n\ \\ENQSwift\DLE\STX\DC2\a\n\ \\ETXTcl\DLEe\DC2\b\n\ \\EOTTOML\DLEI\DC2\a\n\ \\ETXTeX\DLER\DC2\n\ \\n\ \\ACKThrift\DLEg\DC2\SO\n\ \\n\ \TypeScript\DLE\ETB\DC2\DC3\n\ \\SITypeScriptReact\DLE^\DC2\v\n\ \\aVerilog\DLEh\DC2\b\n\ \\EOTVHDL\DLEi\DC2\SI\n\ \\vVisualBasic\DLE?\DC2\a\n\ \\ETXVue\DLE\EM\DC2\v\n\ \\aWolfram\DLE5\DC2\a\n\ \\ETXXML\DLE\US\DC2\a\n\ \\ETXXSL\DLE \DC2\b\n\ \\EOTYAML\DLEJ\DC2\a\n\ \\ETXZig\DLE&B/Z-github.com/sourcegraph/scip/bindings/go/scip/J\139\185\STX\n\ \\a\DC2\ENQ\n\ \\NUL\244\ACK\SOH\n\ \\130\EOT\n\ \\SOH\f\DC2\ETX\n\ \\NUL\DC22\247\ETX An index contains one or more pieces of information about a given piece of\n\ \ source code or software artifact. Complementary information can be merged\n\ \ together from multiple sources to provide a unified code intelligence\n\ \ experience.\n\ \\n\ \ Programs producing a file of this format is an \"indexer\" and may operate\n\ \ somewhere on the spectrum between precision, such as indexes produced by\n\ \ compiler-backed indexers, and heurstics, such as indexes produced by local\n\ \ syntax-directed analysis for scope rules.\n\ \\n\ \\b\n\ \\SOH\STX\DC2\ETX\f\NUL\r\n\ \\b\n\ \\SOH\b\DC2\ETX\SO\NULD\n\ \\t\n\ \\STX\b\v\DC2\ETX\SO\NULD\n\ \\208\ETX\n\ \\STX\EOT\NUL\DC2\EOT\SYN\NUL#\SOH\SUB\195\ETX Index represents a complete SCIP index for a workspace this is rooted at a\n\ \ single directory. An Index message payload can have a large memory footprint\n\ \ and it's therefore recommended to emit and consume an Index payload one field\n\ \ value at a time. To permit streaming consumption of an Index payload, the\n\ \ `metadata` field must appear at the start of the stream and must only appear\n\ \ once in the stream. Other field values may appear in any order.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\NUL\SOH\DC2\ETX\SYN\b\r\n\ \)\n\ \\EOT\EOT\NUL\STX\NUL\DC2\ETX\CAN\STX\CAN\SUB\FS Metadata about this index.\n\ \\n\ \\f\n\ \\ENQ\EOT\NUL\STX\NUL\ACK\DC2\ETX\CAN\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\NUL\STX\NUL\SOH\DC2\ETX\CAN\v\DC3\n\ \\f\n\ \\ENQ\EOT\NUL\STX\NUL\ETX\DC2\ETX\CAN\SYN\ETB\n\ \3\n\ \\EOT\EOT\NUL\STX\SOH\DC2\ETX\SUB\STX\"\SUB& Documents that belong to this index.\n\ \\n\ \\f\n\ \\ENQ\EOT\NUL\STX\SOH\EOT\DC2\ETX\SUB\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\NUL\STX\SOH\ACK\DC2\ETX\SUB\v\DC3\n\ \\f\n\ \\ENQ\EOT\NUL\STX\SOH\SOH\DC2\ETX\SUB\DC4\GS\n\ \\f\n\ \\ENQ\EOT\NUL\STX\SOH\ETX\DC2\ETX\SUB !\n\ \\246\ETX\n\ \\EOT\EOT\NUL\STX\STX\DC2\ETX \STX2\SUB\233\STX (optional) Symbols that are referenced from this index but are defined in\n\ \ an external package (a separate `Index` message). Leave this field empty\n\ \ if you assume the external package will get indexed separately. If the\n\ \ external package won't get indexed for some reason then you can use this\n\ \ field to provide hover documentation for those external symbols.\n\ \\"} IMPORTANT: When adding a new field to `Index` here, add a matching\n\ \ function in `IndexVisitor` and update `ParseStreaming`.\n\ \\n\ \\f\n\ \\ENQ\EOT\NUL\STX\STX\EOT\DC2\ETX \STX\n\ \\n\ \\f\n\ \\ENQ\EOT\NUL\STX\STX\ACK\DC2\ETX \v\FS\n\ \\f\n\ \\ENQ\EOT\NUL\STX\STX\SOH\DC2\ETX \GS-\n\ \\f\n\ \\ENQ\EOT\NUL\STX\STX\ETX\DC2\ETX 01\n\ \\n\ \\n\ \\STX\EOT\SOH\DC2\EOT%\NUL2\SOH\n\ \\n\ \\n\ \\ETX\EOT\SOH\SOH\DC2\ETX%\b\DLE\n\ \N\n\ \\EOT\EOT\SOH\STX\NUL\DC2\ETX'\STX\RS\SUBA Which version of this protocol was used to generate this index?\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\ACK\DC2\ETX'\STX\DC1\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\SOH\DC2\ETX'\DC2\EM\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\ETX\DC2\ETX'\FS\GS\n\ \C\n\ \\EOT\EOT\SOH\STX\SOH\DC2\ETX)\STX\EM\SUB6 Information about the tool that produced this index.\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\SOH\ACK\DC2\ETX)\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\SOH\SOH\DC2\ETX)\v\DC4\n\ \\f\n\ \\ENQ\EOT\SOH\STX\SOH\ETX\DC2\ETX)\ETB\CAN\n\ \\162\SOH\n\ \\EOT\EOT\SOH\STX\STX\DC2\ETX-\STX\SUB\SUB\148\SOH URI-encoded absolute path to the root directory of this index. All\n\ \ documents in this index must appear in a subdirectory of this root\n\ \ directory.\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\STX\ENQ\DC2\ETX-\STX\b\n\ \\f\n\ \\ENQ\EOT\SOH\STX\STX\SOH\DC2\ETX-\t\NAK\n\ \\f\n\ \\ENQ\EOT\SOH\STX\STX\ETX\DC2\ETX-\CAN\EM\n\ \\224\SOH\n\ \\EOT\EOT\SOH\STX\ETX\DC2\ETX1\STX*\SUB\210\SOH Text encoding of the source files on disk that are referenced from\n\ \ `Document.relative_path`. This value is unrelated to the `Document.text`\n\ \ field, which is a Protobuf string and hence must be UTF-8 encoded.\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\ETX\ACK\DC2\ETX1\STX\SO\n\ \\f\n\ \\ENQ\EOT\SOH\STX\ETX\SOH\DC2\ETX1\SI%\n\ \\f\n\ \\ENQ\EOT\SOH\STX\ETX\ETX\DC2\ETX1()\n\ \\n\ \\n\ \\STX\ENQ\NUL\DC2\EOT4\NUL6\SOH\n\ \\n\ \\n\ \\ETX\ENQ\NUL\SOH\DC2\ETX4\ENQ\DC4\n\ \\v\n\ \\EOT\ENQ\NUL\STX\NUL\DC2\ETX5\STX!\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\NUL\SOH\DC2\ETX5\STX\FS\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\NUL\STX\DC2\ETX5\US \n\ \\n\ \\n\ \\STX\ENQ\SOH\DC2\EOT8\NUL<\SOH\n\ \\n\ \\n\ \\ETX\ENQ\SOH\SOH\DC2\ETX8\ENQ\DC1\n\ \\v\n\ \\EOT\ENQ\SOH\STX\NUL\DC2\ETX9\STX\RS\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\NUL\SOH\DC2\ETX9\STX\EM\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\NUL\STX\DC2\ETX9\FS\GS\n\ \\v\n\ \\EOT\ENQ\SOH\STX\SOH\DC2\ETX:\STX\v\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\SOH\SOH\DC2\ETX:\STX\ACK\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\SOH\STX\DC2\ETX:\t\n\ \\n\ \\v\n\ \\EOT\ENQ\SOH\STX\STX\DC2\ETX;\STX\f\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\STX\SOH\DC2\ETX;\STX\a\n\ \\f\n\ \\ENQ\ENQ\SOH\STX\STX\STX\DC2\ETX;\n\ \\v\n\ \\n\ \\n\ \\STX\EOT\STX\DC2\EOT>\NULE\SOH\n\ \\n\ \\n\ \\ETX\EOT\STX\SOH\DC2\ETX>\b\DLE\n\ \<\n\ \\EOT\EOT\STX\STX\NUL\DC2\ETX@\STX\DC2\SUB/ Name of the indexer that produced this index.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\ENQ\DC2\ETX@\STX\b\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\SOH\DC2\ETX@\t\r\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\ETX\DC2\ETX@\DLE\DC1\n\ \?\n\ \\EOT\EOT\STX\STX\SOH\DC2\ETXB\STX\NAK\SUB2 Version of the indexer that produced this index.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\ENQ\DC2\ETXB\STX\b\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\SOH\DC2\ETXB\t\DLE\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\ETX\DC2\ETXB\DC3\DC4\n\ \L\n\ \\EOT\EOT\STX\STX\STX\DC2\ETXD\STX \SUB? Command-line arguments that were used to invoke this indexer.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\EOT\DC2\ETXD\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\ENQ\DC2\ETXD\v\DC1\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\SOH\DC2\ETXD\DC2\ESC\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\ETX\DC2\ETXD\RS\US\n\ \H\n\ \\STX\EOT\ETX\DC2\EOTH\NULu\SOH\SUB< Document defines the metadata about a source file on disk.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\ETX\SOH\DC2\ETXH\b\DLE\n\ \\165\STX\n\ \\EOT\EOT\ETX\STX\NUL\DC2\ETXM\STX\SYN\SUB\151\STX The string ID for the programming language this file is written in.\n\ \ The `Language` enum contains the names of most common programming languages.\n\ \ This field is typed as a string to permit any programming language, including\n\ \ ones that are not specified by the `Language` enum.\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\NUL\ENQ\DC2\ETXM\STX\b\n\ \\f\n\ \\ENQ\EOT\ETX\STX\NUL\SOH\DC2\ETXM\t\DC1\n\ \\f\n\ \\ENQ\EOT\ETX\STX\NUL\ETX\DC2\ETXM\DC4\NAK\n\ \\181\ETX\n\ \\EOT\EOT\ETX\STX\SOH\DC2\ETXW\STX\ESC\SUB\167\ETX (Required) Unique path to the text document.\n\ \\n\ \ 1. The path must be relative to the directory supplied in the associated\n\ \ `Metadata.project_root`.\n\ \ 2. The path must not begin with a leading '/'.\n\ \ 3. The path must point to a regular file, not a symbolic link.\n\ \ 4. The path must use '/' as the separator, including on Windows.\n\ \ 5. The path must be canonical; it cannot include empty components ('//'),\n\ \ or '.' or '..'.\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\SOH\ENQ\DC2\ETXW\STX\b\n\ \\f\n\ \\ENQ\EOT\ETX\STX\SOH\SOH\DC2\ETXW\t\SYN\n\ \\f\n\ \\ENQ\EOT\ETX\STX\SOH\ETX\DC2\ETXW\EM\SUB\n\ \4\n\ \\EOT\EOT\ETX\STX\STX\DC2\ETXY\STX&\SUB' Occurrences that appear in this file.\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\STX\EOT\DC2\ETXY\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\STX\ACK\DC2\ETXY\v\NAK\n\ \\f\n\ \\ENQ\EOT\ETX\STX\STX\SOH\DC2\ETXY\SYN!\n\ \\f\n\ \\ENQ\EOT\ETX\STX\STX\ETX\DC2\ETXY$%\n\ \\234\SOH\n\ \\EOT\EOT\ETX\STX\ETX\DC2\ETX_\STX)\SUB\220\SOH Symbols that are \"defined\" within this document.\n\ \\n\ \ This should include symbols which technically do not have any definition,\n\ \ but have a reference and are defined by some other symbol (see\n\ \ Relationship.is_definition).\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\ETX\EOT\DC2\ETX_\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\ETX\ACK\DC2\ETX_\v\FS\n\ \\f\n\ \\ENQ\EOT\ETX\STX\ETX\SOH\DC2\ETX_\GS$\n\ \\f\n\ \\ENQ\EOT\ETX\STX\ETX\ETX\DC2\ETX_'(\n\ \\247\ETX\n\ \\EOT\EOT\ETX\STX\EOT\DC2\ETXh\STX\DC2\SUB\233\ETX (optional) Text contents of the this document. Indexers are not expected to\n\ \ include the text by default. It's preferrable that clients read the text\n\ \ contents from the file system by resolving the absolute path from joining\n\ \ `Index.metadata.project_root` and `Document.relative_path`. This field was\n\ \ introduced to support `SymbolInformation.signature_documentation`, but it\n\ \ can be used for other purposes as well, for example testing or when working\n\ \ with virtual/in-memory documents.\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\EOT\ENQ\DC2\ETXh\STX\b\n\ \\f\n\ \\ENQ\EOT\ETX\STX\EOT\SOH\DC2\ETXh\t\r\n\ \\f\n\ \\ENQ\EOT\ETX\STX\EOT\ETX\DC2\ETXh\DLE\DC1\n\ \\231\ETX\n\ \\EOT\EOT\ETX\STX\ENQ\DC2\ETXt\STX)\SUB\217\ETX Specifies the encoding used for source ranges in this Document.\n\ \\n\ \ Usually, this will match the type used to index the string type\n\ \ in the indexer's implementation language in O(1) time.\n\ \ - For an indexer implemented in JVM/.NET language or JavaScript/TypeScript,\n\ \ use UTF16CodeUnitOffsetFromLineStart.\n\ \ - For an indexer implemented in Python,\n\ \ use UTF32CodeUnitOffsetFromLineStart.\n\ \ - For an indexer implemented in Go, Rust or C++,\n\ \ use UTF8ByteOffsetFromLineStart.\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\ENQ\ACK\DC2\ETXt\STX\DC2\n\ \\f\n\ \\ENQ\EOT\ETX\STX\ENQ\SOH\DC2\ETXt\DC3$\n\ \\f\n\ \\ENQ\EOT\ETX\STX\ENQ\ETX\DC2\ETXt'(\n\ \Q\n\ \\STX\ENQ\STX\DC2\ENQx\NUL\144\SOH\SOH\SUBD Encoding used to interpret the 'character' value in source ranges.\n\ \\n\ \\n\ \\n\ \\ETX\ENQ\STX\SOH\DC2\ETXx\ENQ\NAK\n\ \\147\SOH\n\ \\EOT\ENQ\STX\STX\NUL\DC2\ETX{\STX\"\SUB\133\SOH Default value. This value should not be used by new SCIP indexers\n\ \ so that a consumer can process the SCIP index without ambiguity.\n\ \\n\ \\f\n\ \\ENQ\ENQ\STX\STX\NUL\SOH\DC2\ETX{\STX\GS\n\ \\f\n\ \\ENQ\ENQ\STX\STX\NUL\STX\DC2\ETX{ !\n\ \\247\SOH\n\ \\EOT\ENQ\STX\STX\SOH\DC2\EOT\130\SOH\STX&\SUB\232\SOH The 'character' value is interpreted as an offset in terms\n\ \ of UTF-8 code units (i.e. bytes).\n\ \\n\ \ Example: For the string \"\240\159\154\128 Woo\" in UTF-8, the bytes are\n\ \ [240, 159, 154, 128, 32, 87, 111, 111], so the offset for 'W'\n\ \ would be 5.\n\ \\n\ \\r\n\ \\ENQ\ENQ\STX\STX\SOH\SOH\DC2\EOT\130\SOH\STX!\n\ \\r\n\ \\ENQ\ENQ\STX\STX\SOH\STX\DC2\EOT\130\SOH$%\n\ \\130\STX\n\ \\EOT\ENQ\STX\STX\STX\DC2\EOT\137\SOH\STX'\SUB\243\SOH The 'character' value is interpreted as an offset in terms\n\ \ of UTF-16 code units (each is 2 bytes).\n\ \\n\ \ Example: For the string \"\240\159\154\128 Woo\", the UTF-16 code units are\n\ \ ['\\ud83d', '\\ude80', ' ', 'W', 'o', 'o'], so the offset for 'W'\n\ \ would be 3.\n\ \\n\ \\r\n\ \\ENQ\ENQ\STX\STX\STX\SOH\DC2\EOT\137\SOH\STX\"\n\ \\r\n\ \\ENQ\ENQ\STX\STX\STX\STX\DC2\EOT\137\SOH%&\n\ \\245\SOH\n\ \\EOT\ENQ\STX\STX\ETX\DC2\EOT\143\SOH\STX'\SUB\230\SOH The 'character' value is interpreted as an offset in terms\n\ \ of UTF-32 code units (each is 4 bytes).\n\ \\n\ \ Example: For the string \"\240\159\154\128 Woo\", the UTF-32 code units are\n\ \ ['\240\159\154\128', ' ', 'W', 'o', 'o'], so the offset for 'W' would be 2.\n\ \\n\ \\r\n\ \\ENQ\ENQ\STX\STX\ETX\SOH\DC2\EOT\143\SOH\STX\"\n\ \\r\n\ \\ENQ\ENQ\STX\STX\ETX\STX\DC2\EOT\143\SOH%&\n\ \\204\DC2\n\ \\STX\EOT\EOT\DC2\ACK\188\SOH\NUL\192\SOH\SOH\SUB\189\DC2 Symbol is similar to a URI, it identifies a class, method, or a local\n\ \ variable. `SymbolInformation` contains rich metadata about symbols such as\n\ \ the docstring.\n\ \\n\ \ Symbol has a standardized string representation, which can be used\n\ \ interchangeably with `Symbol`. The syntax for Symbol is the following:\n\ \ ```\n\ \ # ()+ stands for one or more repetitions of \n\ \ # ()? stands for zero or one occurrence of \n\ \ ::= ' ' ' ' ()+ | 'local ' \n\ \ ::= ' ' ' ' \n\ \ ::= any UTF-8, escape spaces with double space. Must not be empty nor start with 'local'\n\ \ ::= any UTF-8, escape spaces with double space. Use the placeholder '.' to indicate an empty value\n\ \ ::= same as above\n\ \ ::= same as above\n\ \ ::= | | | | | | | \n\ \ ::= '/'\n\ \ ::= '#'\n\ \ ::= '.'\n\ \ ::= ':'\n\ \ ::= '!'\n\ \ ::= '(' ()? ').'\n\ \ ::= '[' ']'\n\ \ ::= '(' ')'\n\ \ ::= \n\ \ ::= \n\ \ ::= | \n\ \ ::= ()+\n\ \ ::= '_' | '+' | '-' | '$' | ASCII letter or digit\n\ \ ::= '`' ()+ '`', must contain at least one non-\n\ \ ::= any UTF-8, escape backticks with double backtick.\n\ \ ::= \n\ \ ```\n\ \\n\ \ The list of descriptors for a symbol should together form a fully\n\ \ qualified name for the symbol. That is, it should serve as a unique\n\ \ identifier across the package. Typically, it will include one descriptor\n\ \ for every node in the AST (along the ancestry path) between the root of\n\ \ the file and the node corresponding to the symbol.\n\ \\n\ \ Local symbols MUST only be used for entities which are local to a Document,\n\ \ and cannot be accessed from outside the Document.\n\ \\n\ \\v\n\ \\ETX\EOT\EOT\SOH\DC2\EOT\188\SOH\b\SO\n\ \\f\n\ \\EOT\EOT\EOT\STX\NUL\DC2\EOT\189\SOH\STX\DC4\n\ \\r\n\ \\ENQ\EOT\EOT\STX\NUL\ENQ\DC2\EOT\189\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\EOT\STX\NUL\SOH\DC2\EOT\189\SOH\t\SI\n\ \\r\n\ \\ENQ\EOT\EOT\STX\NUL\ETX\DC2\EOT\189\SOH\DC2\DC3\n\ \\f\n\ \\EOT\EOT\EOT\STX\SOH\DC2\EOT\190\SOH\STX\SYN\n\ \\r\n\ \\ENQ\EOT\EOT\STX\SOH\ACK\DC2\EOT\190\SOH\STX\t\n\ \\r\n\ \\ENQ\EOT\EOT\STX\SOH\SOH\DC2\EOT\190\SOH\n\ \\DC1\n\ \\r\n\ \\ENQ\EOT\EOT\STX\SOH\ETX\DC2\EOT\190\SOH\DC4\NAK\n\ \\f\n\ \\EOT\EOT\EOT\STX\STX\DC2\EOT\191\SOH\STX&\n\ \\r\n\ \\ENQ\EOT\EOT\STX\STX\EOT\DC2\EOT\191\SOH\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\EOT\STX\STX\ACK\DC2\EOT\191\SOH\v\NAK\n\ \\r\n\ \\ENQ\EOT\EOT\STX\STX\SOH\DC2\EOT\191\SOH\SYN!\n\ \\r\n\ \\ENQ\EOT\EOT\STX\STX\ETX\DC2\EOT\191\SOH$%\n\ \q\n\ \\STX\EOT\ENQ\DC2\ACK\197\SOH\NUL\201\SOH\SOH\SUBc Unit of packaging and distribution.\n\ \\n\ \ NOTE: This corresponds to a module in Go and JVM languages.\n\ \\n\ \\v\n\ \\ETX\EOT\ENQ\SOH\DC2\EOT\197\SOH\b\SI\n\ \\f\n\ \\EOT\EOT\ENQ\STX\NUL\DC2\EOT\198\SOH\STX\NAK\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\NUL\ENQ\DC2\EOT\198\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\NUL\SOH\DC2\EOT\198\SOH\t\DLE\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\NUL\ETX\DC2\EOT\198\SOH\DC3\DC4\n\ \\f\n\ \\EOT\EOT\ENQ\STX\SOH\DC2\EOT\199\SOH\STX\DC2\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\SOH\ENQ\DC2\EOT\199\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\SOH\SOH\DC2\EOT\199\SOH\t\r\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\SOH\ETX\DC2\EOT\199\SOH\DLE\DC1\n\ \\f\n\ \\EOT\EOT\ENQ\STX\STX\DC2\EOT\200\SOH\STX\NAK\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\STX\ENQ\DC2\EOT\200\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\STX\SOH\DC2\EOT\200\SOH\t\DLE\n\ \\r\n\ \\ENQ\EOT\ENQ\STX\STX\ETX\DC2\EOT\200\SOH\DC3\DC4\n\ \\f\n\ \\STX\EOT\ACK\DC2\ACK\203\SOH\NUL\228\SOH\SOH\n\ \\v\n\ \\ETX\EOT\ACK\SOH\DC2\EOT\203\SOH\b\DC2\n\ \\SO\n\ \\EOT\EOT\ACK\EOT\NUL\DC2\ACK\204\SOH\STX\222\SOH\ETX\n\ \\r\n\ \\ENQ\EOT\ACK\EOT\NUL\SOH\DC2\EOT\204\SOH\a\r\n\ \\r\n\ \\ENQ\EOT\ACK\EOT\NUL\ETX\DC2\EOT\205\SOH\EOT\RS\n\ \\SO\n\ \\ACK\EOT\ACK\EOT\NUL\ETX\STX\DC2\EOT\205\SOH\EOT\RS\n\ \\SO\n\ \\ACK\EOT\ACK\EOT\NUL\STX\NUL\DC2\EOT\206\SOH\EOT\SUB\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\NUL\SOH\DC2\EOT\206\SOH\EOT\NAK\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\NUL\STX\DC2\EOT\206\SOH\CAN\EM\n\ \}\n\ \\ACK\EOT\ACK\EOT\NUL\STX\SOH\DC2\EOT\210\SOH\EOT\DC2\SUBm Unit of code abstraction and/or namespacing.\n\ \\n\ \ NOTE: This corresponds to a package in Go and JVM languages.\n\ \\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\SOH\SOH\DC2\EOT\210\SOH\EOT\r\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\SOH\STX\DC2\EOT\210\SOH\DLE\DC1\n\ \(\n\ \\ACK\EOT\ACK\EOT\NUL\STX\STX\DC2\EOT\212\SOH\EOT\"\SUB\CAN Use Namespace instead.\n\ \\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\STX\SOH\DC2\EOT\212\SOH\EOT\v\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\STX\STX\DC2\EOT\212\SOH\SO\SI\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\STX\ETX\DC2\EOT\212\SOH\DLE!\n\ \\DLE\n\ \\b\EOT\ACK\EOT\NUL\STX\STX\ETX\SOH\DC2\EOT\212\SOH\DC1 \n\ \\SO\n\ \\ACK\EOT\ACK\EOT\NUL\STX\ETX\DC2\EOT\213\SOH\EOT\r\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\ETX\SOH\DC2\EOT\213\SOH\EOT\b\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\ETX\STX\DC2\EOT\213\SOH\v\f\n\ \\SO\n\ \\ACK\EOT\ACK\EOT\NUL\STX\EOT\DC2\EOT\214\SOH\EOT\r\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\EOT\SOH\DC2\EOT\214\SOH\EOT\b\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\EOT\STX\DC2\EOT\214\SOH\v\f\n\ \\SO\n\ \\ACK\EOT\ACK\EOT\NUL\STX\ENQ\DC2\EOT\215\SOH\EOT\SI\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\ENQ\SOH\DC2\EOT\215\SOH\EOT\n\ \\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\ENQ\STX\DC2\EOT\215\SOH\r\SO\n\ \\SO\n\ \\ACK\EOT\ACK\EOT\NUL\STX\ACK\DC2\EOT\216\SOH\EOT\SYN\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\ACK\SOH\DC2\EOT\216\SOH\EOT\DC1\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\ACK\STX\DC2\EOT\216\SOH\DC4\NAK\n\ \\SO\n\ \\ACK\EOT\ACK\EOT\NUL\STX\a\DC2\EOT\217\SOH\EOT\DC2\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\a\SOH\DC2\EOT\217\SOH\EOT\r\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\a\STX\DC2\EOT\217\SOH\DLE\DC1\n\ \.\n\ \\ACK\EOT\ACK\EOT\NUL\STX\b\DC2\EOT\219\SOH\EOT\r\SUB\RS Can be used for any purpose.\n\ \\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\b\SOH\DC2\EOT\219\SOH\EOT\b\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\b\STX\DC2\EOT\219\SOH\v\f\n\ \\SO\n\ \\ACK\EOT\ACK\EOT\NUL\STX\t\DC2\EOT\220\SOH\EOT\SO\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\t\SOH\DC2\EOT\220\SOH\EOT\t\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\t\STX\DC2\EOT\220\SOH\f\r\n\ \\SO\n\ \\ACK\EOT\ACK\EOT\NUL\STX\n\ \\DC2\EOT\221\SOH\EOT\SO\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\n\ \\SOH\DC2\EOT\221\SOH\EOT\t\n\ \\SI\n\ \\a\EOT\ACK\EOT\NUL\STX\n\ \\STX\DC2\EOT\221\SOH\f\r\n\ \\f\n\ \\EOT\EOT\ACK\STX\NUL\DC2\EOT\223\SOH\STX\DC2\n\ \\r\n\ \\ENQ\EOT\ACK\STX\NUL\ENQ\DC2\EOT\223\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\ACK\STX\NUL\SOH\DC2\EOT\223\SOH\t\r\n\ \\r\n\ \\ENQ\EOT\ACK\STX\NUL\ETX\DC2\EOT\223\SOH\DLE\DC1\n\ \\f\n\ \\EOT\EOT\ACK\STX\SOH\DC2\EOT\224\SOH\STX\ESC\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SOH\ENQ\DC2\EOT\224\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SOH\SOH\DC2\EOT\224\SOH\t\SYN\n\ \\r\n\ \\ENQ\EOT\ACK\STX\SOH\ETX\DC2\EOT\224\SOH\EM\SUB\n\ \\130\SOH\n\ \\EOT\EOT\ACK\STX\STX\DC2\EOT\225\SOH\STX\DC4\"t NOTE: If you add new fields here, make sure to update the prepareSlot()\n\ \ function responsible for parsing symbols.\n\ \\n\ \\r\n\ \\ENQ\EOT\ACK\STX\STX\ACK\DC2\EOT\225\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\ACK\STX\STX\SOH\DC2\EOT\225\SOH\t\SI\n\ \\r\n\ \\ENQ\EOT\ACK\STX\STX\ETX\DC2\EOT\225\SOH\DC2\DC3\n\ \\131\SOH\n\ \\STX\EOT\a\DC2\ACK\232\SOH\NUL\186\ETX\SOH\SUBu SymbolInformation defines metadata about a symbol, such as the symbol's\n\ \ docstring or what package it's defined it.\n\ \\n\ \\v\n\ \\ETX\EOT\a\SOH\DC2\EOT\232\SOH\b\EM\n\ \\160\SOH\n\ \\EOT\EOT\a\STX\NUL\DC2\EOT\235\SOH\STX\DC4\SUB\145\SOH Identifier of this symbol, which can be referenced from `Occurence.symbol`.\n\ \ The string must be formatted according to the grammar in `Symbol`.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\NUL\ENQ\DC2\EOT\235\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\a\STX\NUL\SOH\DC2\EOT\235\SOH\t\SI\n\ \\r\n\ \\ENQ\EOT\a\STX\NUL\ETX\DC2\EOT\235\SOH\DC2\DC3\n\ \\180\ETX\n\ \\EOT\EOT\a\STX\SOH\DC2\EOT\242\SOH\STX$\SUB\165\ETX (optional, but strongly recommended) The markdown-formatted documentation\n\ \ for this symbol. Use `SymbolInformation.signature_documentation` to\n\ \ document the method/class/type signature of this symbol.\n\ \ Due to historical reasons, indexers may include signature documentation in\n\ \ this field by rendering markdown code blocks. New indexers should only\n\ \ include non-code documentation in this field, for example docstrings.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\SOH\EOT\DC2\EOT\242\SOH\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\SOH\ENQ\DC2\EOT\242\SOH\v\DC1\n\ \\r\n\ \\ENQ\EOT\a\STX\SOH\SOH\DC2\EOT\242\SOH\DC2\US\n\ \\r\n\ \\ENQ\EOT\a\STX\SOH\ETX\DC2\EOT\242\SOH\"#\n\ \^\n\ \\EOT\EOT\a\STX\STX\DC2\EOT\244\SOH\STX*\SUBP (optional) Relationships to other symbols (e.g., implements, type definition).\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\STX\EOT\DC2\EOT\244\SOH\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\STX\ACK\DC2\EOT\244\SOH\v\ETB\n\ \\r\n\ \\ENQ\EOT\a\STX\STX\SOH\DC2\EOT\244\SOH\CAN%\n\ \\r\n\ \\ENQ\EOT\a\STX\STX\ETX\DC2\EOT\244\SOH()\n\ \\164\SOH\n\ \\EOT\EOT\a\STX\ETX\DC2\EOT\248\SOH\STX\DLE\SUB\149\SOH The kind of this symbol. Use this field instead of\n\ \ `SymbolDescriptor.Suffix` to determine whether something is, for example, a\n\ \ class or a method.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\ETX\ACK\DC2\EOT\248\SOH\STX\ACK\n\ \\r\n\ \\ENQ\EOT\a\STX\ETX\SOH\DC2\EOT\248\SOH\a\v\n\ \\r\n\ \\ENQ\EOT\a\STX\ETX\ETX\DC2\EOT\248\SOH\SO\SI\n\ \\245\ENQ\n\ \\EOT\EOT\a\EOT\NUL\DC2\ACK\135\STX\STX\150\ETX\ETX\SUB\228\ENQ (optional) Kind represents the fine-grained category of a symbol, suitable for presenting\n\ \ information about the symbol's meaning in the language.\n\ \\n\ \ For example:\n\ \ - A Java method would have the kind `Method` while a Go function would\n\ \ have the kind `Function`, even if the symbols for these use the same\n\ \ syntax for the descriptor `SymbolDescriptor.Suffix.Method`.\n\ \ - A Go struct has the symbol kind `Struct` while a Java class has\n\ \ the symbol kind `Class` even if they both have the same descriptor:\n\ \ `SymbolDescriptor.Suffix.Type`.\n\ \\n\ \ Since Kind is more fine-grained than Suffix:\n\ \ - If two symbols have the same Kind, they should share the same Suffix.\n\ \ - If two symbols have different Suffixes, they should have different Kinds.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\EOT\NUL\SOH\DC2\EOT\135\STX\a\v\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\NUL\DC2\EOT\136\STX\ACK\SUB\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\NUL\SOH\DC2\EOT\136\STX\ACK\NAK\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\NUL\STX\DC2\EOT\136\STX\CAN\EM\n\ \R\n\ \\ACK\EOT\a\EOT\NUL\STX\SOH\DC2\EOT\138\STX\ACK\SUB\SUBB A method which may or may not have a body. For Java, Kotlin etc.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SOH\SOH\DC2\EOT\138\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SOH\STX\DC2\EOT\138\STX\ETB\EM\n\ \*\n\ \\ACK\EOT\a\EOT\NUL\STX\STX\DC2\EOT\140\STX\ACK\DC4\SUB\SUB For Ruby's attr_accessor\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\STX\SOH\DC2\EOT\140\STX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\STX\STX\DC2\EOT\140\STX\DC1\DC3\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\ETX\DC2\EOT\141\STX\ACK\DLE\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ETX\SOH\DC2\EOT\141\STX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ETX\STX\DC2\EOT\141\STX\SO\SI\n\ \\ESC\n\ \\ACK\EOT\a\EOT\NUL\STX\EOT\DC2\EOT\143\STX\ACK\DC4\SUB\v For Alloy\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\EOT\SOH\DC2\EOT\143\STX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\EOT\STX\DC2\EOT\143\STX\DC2\DC3\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\ENQ\DC2\EOT\144\STX\ACK\EM\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ENQ\SOH\DC2\EOT\144\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ENQ\STX\DC2\EOT\144\STX\ETB\CAN\n\ \\EM\n\ \\ACK\EOT\a\EOT\NUL\STX\ACK\DC2\EOT\146\STX\ACK\DC4\SUB\t For C++\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ACK\SOH\DC2\EOT\146\STX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ACK\STX\DC2\EOT\146\STX\DC2\DC3\n\ \\SUB\n\ \\ACK\EOT\a\EOT\NUL\STX\a\DC2\EOT\148\STX\ACK\DLE\SUB\n\ \ For Lean\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\a\SOH\DC2\EOT\148\STX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\a\STX\DC2\EOT\148\STX\SO\SI\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\b\DC2\EOT\149\STX\ACK\DC2\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\b\SOH\DC2\EOT\149\STX\ACK\r\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\b\STX\DC2\EOT\149\STX\DLE\DC1\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\t\DC2\EOT\150\STX\ACK\DLE\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\t\SOH\DC2\EOT\150\STX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\t\STX\DC2\EOT\150\STX\SO\SI\n\ \\EM\n\ \\ACK\EOT\a\EOT\NUL\STX\n\ \\DC2\EOT\152\STX\ACK\DC3\SUB\t For C++\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\n\ \\SOH\DC2\EOT\152\STX\ACK\r\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\n\ \\STX\DC2\EOT\152\STX\DLE\DC2\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\v\DC2\EOT\153\STX\ACK\DC3\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\v\SOH\DC2\EOT\153\STX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\v\STX\DC2\EOT\153\STX\DC1\DC2\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\f\DC2\EOT\154\STX\ACK\SYN\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\f\SOH\DC2\EOT\154\STX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\f\STX\DC2\EOT\154\STX\DC4\NAK\n\ \\RS\n\ \\ACK\EOT\a\EOT\NUL\STX\r\DC2\EOT\156\STX\ACK\DC4\SUB\SO For Solidity\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\r\SOH\DC2\EOT\156\STX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\r\STX\DC2\EOT\156\STX\DC1\DC3\n\ \\GS\n\ \\ACK\EOT\a\EOT\NUL\STX\SO\DC2\EOT\158\STX\ACK\SYN\SUB\r For Haskell\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SO\SOH\DC2\EOT\158\STX\ACK\DLE\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SO\STX\DC2\EOT\158\STX\DC3\NAK\n\ \\US\n\ \\ACK\EOT\a\EOT\NUL\STX\SI\DC2\EOT\160\STX\ACK\DC4\SUB\SI For C# and F#\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SI\SOH\DC2\EOT\160\STX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SI\STX\DC2\EOT\160\STX\DC1\DC3\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\DLE\DC2\EOT\161\STX\ACK\DLE\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\DLE\SOH\DC2\EOT\161\STX\ACK\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\DLE\STX\DC2\EOT\161\STX\r\SI\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\DC1\DC2\EOT\162\STX\ACK\SYN\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\DC1\SOH\DC2\EOT\162\STX\ACK\DLE\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\DC1\STX\DC2\EOT\162\STX\DC3\NAK\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\DC2\DC2\EOT\163\STX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\DC2\SOH\DC2\EOT\163\STX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\DC2\STX\DC2\EOT\163\STX\SO\DLE\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\DC3\DC2\EOT\164\STX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\DC3\SOH\DC2\EOT\164\STX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\DC3\STX\DC2\EOT\164\STX\SO\DLE\n\ \\SUB\n\ \\ACK\EOT\a\EOT\NUL\STX\DC4\DC2\EOT\166\STX\ACK\NAK\SUB\n\ \ For Dart\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\DC4\SOH\DC2\EOT\166\STX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\DC4\STX\DC2\EOT\166\STX\DC2\DC4\n\ \\ESC\n\ \\ACK\EOT\a\EOT\NUL\STX\NAK\DC2\EOT\168\STX\ACK\DLE\SUB\v For Alloy\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\NAK\SOH\DC2\EOT\168\STX\ACK\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\NAK\STX\DC2\EOT\168\STX\r\SI\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\SYN\DC2\EOT\169\STX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SYN\SOH\DC2\EOT\169\STX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SYN\STX\DC2\EOT\169\STX\SO\DLE\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\ETB\DC2\EOT\170\STX\ACK\DLE\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ETB\SOH\DC2\EOT\170\STX\ACK\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ETB\STX\DC2\EOT\170\STX\r\SI\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\CAN\DC2\EOT\171\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\CAN\SOH\DC2\EOT\171\STX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\CAN\STX\DC2\EOT\171\STX\DC1\DC3\n\ \;\n\ \\ACK\EOT\a\EOT\NUL\STX\EM\DC2\EOT\173\STX\ACK\DC2\SUB+ For 'get' in Swift, 'attr_reader' in Ruby\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\EM\SOH\DC2\EOT\173\STX\ACK\f\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\EM\STX\DC2\EOT\173\STX\SI\DC1\n\ \\SUB\n\ \\ACK\EOT\a\EOT\NUL\STX\SUB\DC2\EOT\175\STX\ACK\DC3\SUB\n\ \ For Raku\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SUB\SOH\DC2\EOT\175\STX\ACK\r\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\SUB\STX\DC2\EOT\175\STX\DLE\DC2\n\ \)\n\ \\ACK\EOT\a\EOT\NUL\STX\ESC\DC2\EOT\177\STX\ACK\DC4\SUB\EM For Purescript and Lean\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ESC\SOH\DC2\EOT\177\STX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\ESC\STX\DC2\EOT\177\STX\DC1\DC3\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\FS\DC2\EOT\178\STX\ACK\NAK\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\FS\SOH\DC2\EOT\178\STX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\FS\STX\DC2\EOT\178\STX\DC2\DC4\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\GS\DC2\EOT\179\STX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\GS\SOH\DC2\EOT\179\STX\ACK\t\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\GS\STX\DC2\EOT\179\STX\f\SO\n\ \\FS\n\ \\ACK\EOT\a\EOT\NUL\STX\RS\DC2\EOT\181\STX\ACK\DLE\SUB\f For Racket\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\RS\SOH\DC2\EOT\181\STX\ACK\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\RS\STX\DC2\EOT\181\STX\r\SI\n\ \\SUB\n\ \\ACK\EOT\a\EOT\NUL\STX\US\DC2\EOT\183\STX\ACK\DC1\SUB\n\ \ For Lean\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\US\SOH\DC2\EOT\183\STX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\US\STX\DC2\EOT\183\STX\SO\DLE\n\ \\RS\n\ \\ACK\EOT\a\EOT\NUL\STX \DC2\EOT\185\STX\ACK\DC3\SUB\SO For solidity\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX \SOH\DC2\EOT\185\STX\ACK\r\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX \STX\DC2\EOT\185\STX\DLE\DC2\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX!\DC2\EOT\186\STX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX!\SOH\DC2\EOT\186\STX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX!\STX\DC2\EOT\186\STX\SO\DLE\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX\"\DC2\EOT\187\STX\ACK\DC2\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\"\SOH\DC2\EOT\187\STX\ACK\f\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX\"\STX\DC2\EOT\187\STX\SI\DC1\n\ \\SUB\n\ \\ACK\EOT\a\EOT\NUL\STX#\DC2\EOT\189\STX\ACK\ETB\SUB\n\ \ For Ruby\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX#\SOH\DC2\EOT\189\STX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX#\STX\DC2\EOT\189\STX\DC4\SYN\n\ \\148\SOH\n\ \\ACK\EOT\a\EOT\NUL\STX$\DC2\EOT\192\STX\ACK\SUB\SUB\131\SOH Analogous to 'ThisParameter' and 'SelfParameter', but for languages\n\ \ like Go where the receiver doesn't have a conventional name.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX$\SOH\DC2\EOT\192\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX$\STX\DC2\EOT\192\STX\ETB\EM\n\ \8\n\ \\ACK\EOT\a\EOT\NUL\STX%\DC2\EOT\194\STX\ACK\US\SUB( Analogous to 'AbstractMethod', for Go.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX%\SOH\DC2\EOT\194\STX\ACK\EM\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX%\STX\DC2\EOT\194\STX\FS\RS\n\ \\RS\n\ \\ACK\EOT\a\EOT\NUL\STX&\DC2\EOT\196\STX\ACK\DC3\SUB\SO For Protobuf\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX&\SOH\DC2\EOT\196\STX\ACK\r\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX&\STX\DC2\EOT\196\STX\DLE\DC2\n\ \\SUB\n\ \\ACK\EOT\a\EOT\NUL\STX'\DC2\EOT\198\STX\ACK\DC1\SUB\n\ \ For Dart\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX'\SOH\DC2\EOT\198\STX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX'\STX\DC2\EOT\198\STX\SO\DLE\n\ \\RS\n\ \\ACK\EOT\a\EOT\NUL\STX(\DC2\EOT\200\STX\ACK\DC4\SUB\SO For Solidity\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX(\SOH\DC2\EOT\200\STX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX(\STX\DC2\EOT\200\STX\DC1\DC3\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX)\DC2\EOT\201\STX\ACK\DC2\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX)\SOH\DC2\EOT\201\STX\ACK\f\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX)\STX\DC2\EOT\201\STX\SI\DC1\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX*\DC2\EOT\202\STX\ACK\NAK\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX*\SOH\DC2\EOT\202\STX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX*\STX\DC2\EOT\202\STX\DC2\DC4\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX+\DC2\EOT\203\STX\ACK\DLE\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX+\SOH\DC2\EOT\203\STX\ACK\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX+\STX\DC2\EOT\203\STX\r\SI\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX,\DC2\EOT\204\STX\ACK\DC2\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX,\SOH\DC2\EOT\204\STX\ACK\f\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX,\STX\DC2\EOT\204\STX\SI\DC1\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX-\DC2\EOT\205\STX\ACK\DC2\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX-\SOH\DC2\EOT\205\STX\ACK\f\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX-\STX\DC2\EOT\205\STX\SI\DC1\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX.\DC2\EOT\206\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX.\SOH\DC2\EOT\206\STX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX.\STX\DC2\EOT\206\STX\DC1\DC3\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX/\DC2\EOT\207\STX\ACK\DC3\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX/\SOH\DC2\EOT\207\STX\ACK\r\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX/\STX\DC2\EOT\207\STX\DLE\DC2\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX0\DC2\EOT\208\STX\ACK\EM\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX0\SOH\DC2\EOT\208\STX\ACK\DC3\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX0\STX\DC2\EOT\208\STX\SYN\CAN\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX1\DC2\EOT\209\STX\ACK\NAK\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX1\SOH\DC2\EOT\209\STX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX1\STX\DC2\EOT\209\STX\DC2\DC4\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX2\DC2\EOT\210\STX\ACK\SUB\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX2\SOH\DC2\EOT\210\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX2\STX\DC2\EOT\210\STX\ETB\EM\n\ \/\n\ \\ACK\EOT\a\EOT\NUL\STX3\DC2\EOT\212\STX\ACK\DC3\SUB\US For Haskell's PatternSynonyms\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX3\SOH\DC2\EOT\212\STX\ACK\r\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX3\STX\DC2\EOT\212\STX\DLE\DC2\n\ \\ESC\n\ \\ACK\EOT\a\EOT\NUL\STX4\DC2\EOT\214\STX\ACK\NAK\SUB\v For Alloy\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX4\SOH\DC2\EOT\214\STX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX4\STX\DC2\EOT\214\STX\DC2\DC4\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STX5\DC2\EOT\215\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX5\SOH\DC2\EOT\215\STX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX5\STX\DC2\EOT\215\STX\DC1\DC3\n\ \Q\n\ \\ACK\EOT\a\EOT\NUL\STX6\DC2\EOT\217\STX\ACK\DC4\SUBA Analogous to 'Trait' and 'TypeClass', for Swift and Objective-C\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX6\SOH\DC2\EOT\217\STX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX6\STX\DC2\EOT\217\STX\DC1\DC3\n\ \K\n\ \\ACK\EOT\a\EOT\NUL\STX7\DC2\EOT\219\STX\ACK\SUB\SUB; Analogous to 'AbstractMethod', for Swift and Objective-C.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX7\SOH\DC2\EOT\219\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX7\STX\DC2\EOT\219\STX\ETB\EM\n\ \9\n\ \\ACK\EOT\a\EOT\NUL\STX8\DC2\EOT\221\STX\ACK\GS\SUB) Analogous to 'AbstractMethod', for C++.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX8\SOH\DC2\EOT\221\STX\ACK\ETB\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX8\STX\DC2\EOT\221\STX\SUB\FS\n\ \\GS\n\ \\ACK\EOT\a\EOT\NUL\STX9\DC2\EOT\223\STX\ACK\ETB\SUB\r For Haskell\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX9\SOH\DC2\EOT\223\STX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX9\STX\DC2\EOT\223\STX\DC4\SYN\n\ \4\n\ \\ACK\EOT\a\EOT\NUL\STX:\DC2\EOT\225\STX\ACK\EM\SUB$ 'self' in Python, Rust, Swift etc.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX:\SOH\DC2\EOT\225\STX\ACK\DC3\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX:\STX\DC2\EOT\225\STX\SYN\CAN\n\ \;\n\ \\ACK\EOT\a\EOT\NUL\STX;\DC2\EOT\227\STX\ACK\DC2\SUB+ For 'set' in Swift, 'attr_writer' in Ruby\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX;\SOH\DC2\EOT\227\STX\ACK\f\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX;\STX\DC2\EOT\227\STX\SI\DC1\n\ \3\n\ \\ACK\EOT\a\EOT\NUL\STX<\DC2\EOT\229\STX\ACK\NAK\SUB# For Alloy, analogous to 'Struct'.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX<\SOH\DC2\EOT\229\STX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX<\STX\DC2\EOT\229\STX\DC2\DC4\n\ \\SUB\n\ \\ACK\EOT\a\EOT\NUL\STX=\DC2\EOT\231\STX\ACK\SUB\SUB\n\ \ For Ruby\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX=\SOH\DC2\EOT\231\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX=\STX\DC2\EOT\231\STX\ETB\EM\n\ \8\n\ \\ACK\EOT\a\EOT\NUL\STX>\DC2\EOT\233\STX\ACK\ESC\SUB( Analogous to 'StaticMethod', for Ruby.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX>\SOH\DC2\EOT\233\STX\ACK\NAK\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX>\STX\DC2\EOT\233\STX\CAN\SUB\n\ \5\n\ \\ACK\EOT\a\EOT\NUL\STX?\DC2\EOT\235\STX\ACK\FS\SUB% Analogous to 'StaticField', for C++\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX?\SOH\DC2\EOT\235\STX\ACK\SYN\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX?\STX\DC2\EOT\235\STX\EM\ESC\n\ \\CAN\n\ \\ACK\EOT\a\EOT\NUL\STX@\DC2\EOT\237\STX\ACK\ETB\SUB\b For C#\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX@\SOH\DC2\EOT\237\STX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STX@\STX\DC2\EOT\237\STX\DC4\SYN\n\ \\CAN\n\ \\ACK\EOT\a\EOT\NUL\STXA\DC2\EOT\239\STX\ACK\ETB\SUB\b For C#\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXA\SOH\DC2\EOT\239\STX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXA\STX\DC2\EOT\239\STX\DC4\SYN\n\ \(\n\ \\ACK\EOT\a\EOT\NUL\STXB\DC2\EOT\241\STX\ACK\CAN\SUB\CAN For Java, C#, C++ etc.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXB\SOH\DC2\EOT\241\STX\ACK\DC2\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXB\STX\DC2\EOT\241\STX\NAK\ETB\n\ \)\n\ \\ACK\EOT\a\EOT\NUL\STXC\DC2\EOT\243\STX\ACK\SUB\SUB\EM For C#, TypeScript etc.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXC\SOH\DC2\EOT\243\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXC\STX\DC2\EOT\243\STX\ETB\EM\n\ \\FS\n\ \\ACK\EOT\a\EOT\NUL\STXD\DC2\EOT\245\STX\ACK\SUB\SUB\f For C, C++\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXD\SOH\DC2\EOT\245\STX\ACK\DC4\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXD\STX\DC2\EOT\245\STX\ETB\EM\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STXE\DC2\EOT\246\STX\ACK\DC2\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXE\SOH\DC2\EOT\246\STX\ACK\f\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXE\STX\DC2\EOT\246\STX\SI\DC1\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STXF\DC2\EOT\247\STX\ACK\DC2\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXF\SOH\DC2\EOT\247\STX\ACK\f\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXF\STX\DC2\EOT\247\STX\SI\DC1\n\ \\ESC\n\ \\ACK\EOT\a\EOT\NUL\STXG\DC2\EOT\249\STX\ACK\NAK\SUB\v For Swift\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXG\SOH\DC2\EOT\249\STX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXG\STX\DC2\EOT\249\STX\DC2\DC4\n\ \\SUB\n\ \\ACK\EOT\a\EOT\NUL\STXH\DC2\EOT\251\STX\ACK\DC2\SUB\n\ \ For Lean\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXH\SOH\DC2\EOT\251\STX\ACK\f\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXH\STX\DC2\EOT\251\STX\SI\DC1\n\ \\SUB\n\ \\ACK\EOT\a\EOT\NUL\STXI\DC2\EOT\253\STX\ACK\DC3\SUB\n\ \ For Lean\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXI\SOH\DC2\EOT\253\STX\ACK\r\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXI\STX\DC2\EOT\253\STX\DLE\DC2\n\ \U\n\ \\ACK\EOT\a\EOT\NUL\STXJ\DC2\EOT\128\ETX\ACK\EM\SUBE Method receiver for languages\n\ \ 'this' in JavaScript, C++, Java etc.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXJ\SOH\DC2\EOT\128\ETX\ACK\DC3\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXJ\STX\DC2\EOT\128\ETX\SYN\CAN\n\ \O\n\ \\ACK\EOT\a\EOT\NUL\STXK\DC2\EOT\130\ETX\ACK\DC1\SUB? Analogous to 'Protocol' and 'TypeClass', for Rust, Scala etc.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXK\SOH\DC2\EOT\130\ETX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXK\STX\DC2\EOT\130\ETX\SO\DLE\n\ \E\n\ \\ACK\EOT\a\EOT\NUL\STXL\DC2\EOT\132\ETX\ACK\ETB\SUB5 Analogous to 'AbstractMethod', for Rust, Scala etc.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXL\SOH\DC2\EOT\132\ETX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXL\STX\DC2\EOT\132\ETX\DC4\SYN\n\ \\137\SOH\n\ \\ACK\EOT\a\EOT\NUL\STXM\DC2\EOT\135\ETX\ACK\DLE\SUBy Data type definition for languages like OCaml which use `type`\n\ \ rather than separate keywords like `struct` and `enum`.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXM\SOH\DC2\EOT\135\ETX\ACK\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXM\STX\DC2\EOT\135\ETX\r\SI\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STXN\DC2\EOT\136\ETX\ACK\NAK\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXN\SOH\DC2\EOT\136\ETX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXN\STX\DC2\EOT\136\ETX\DC2\DC4\n\ \S\n\ \\ACK\EOT\a\EOT\NUL\STXO\DC2\EOT\138\ETX\ACK\NAK\SUBC Analogous to 'Trait' and 'Protocol', for Haskell, Purescript etc.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXO\SOH\DC2\EOT\138\ETX\ACK\SI\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXO\STX\DC2\EOT\138\ETX\DC2\DC4\n\ \M\n\ \\ACK\EOT\a\EOT\NUL\STXP\DC2\EOT\140\ETX\ACK\ESC\SUB= Analogous to 'AbstractMethod', for Haskell, Purescript etc.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXP\SOH\DC2\EOT\140\ETX\ACK\NAK\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXP\STX\DC2\EOT\140\ETX\CAN\SUB\n\ \\GS\n\ \\ACK\EOT\a\EOT\NUL\STXQ\DC2\EOT\142\ETX\ACK\SYN\SUB\r For Haskell\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXQ\SOH\DC2\EOT\142\ETX\ACK\DLE\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXQ\STX\DC2\EOT\142\ETX\DC3\NAK\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STXR\DC2\EOT\143\ETX\ACK\EM\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXR\SOH\DC2\EOT\143\ETX\ACK\DC3\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXR\STX\DC2\EOT\143\ETX\SYN\CAN\n\ \(\n\ \\ACK\EOT\a\EOT\NUL\STXS\DC2\EOT\145\ETX\ACK\DC1\SUB\CAN For C, C++, Capn Proto\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXS\SOH\DC2\EOT\145\ETX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXS\STX\DC2\EOT\145\ETX\SO\DLE\n\ \\SO\n\ \\ACK\EOT\a\EOT\NUL\STXT\DC2\EOT\146\ETX\ACK\DC1\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXT\SOH\DC2\EOT\146\ETX\ACK\v\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXT\STX\DC2\EOT\146\ETX\SO\DLE\n\ \[\n\ \\ACK\EOT\a\EOT\NUL\STXU\DC2\EOT\147\ETX\ACK\DC4\"K Next = 87;\n\ \ Feel free to open a PR proposing new language-specific kinds.\n\ \\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXU\SOH\DC2\EOT\147\ETX\ACK\SO\n\ \\SI\n\ \\a\EOT\a\EOT\NUL\STXU\STX\DC2\EOT\147\ETX\DC1\DC3\n\ \\243\ETX\n\ \\EOT\EOT\a\STX\EOT\DC2\EOT\160\ETX\STX\SUB\SUB\228\ETX (optional) The name of this symbol as it should be displayed to the user.\n\ \ For example, the symbol \"com/example/MyClass#myMethod(+1).\" should have the\n\ \ display name \"myMethod\". The `symbol` field is not a reliable source of\n\ \ the display name for several reasons:\n\ \\n\ \ - Local symbols don't encode the name.\n\ \ - Some languages have case-insensitive names, so the symbol is all-lowercase.\n\ \ - The symbol may encode names with special characters that should not be\n\ \ displayed to the user.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\EOT\ENQ\DC2\EOT\160\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT\a\STX\EOT\SOH\DC2\EOT\160\ETX\t\NAK\n\ \\r\n\ \\ENQ\EOT\a\STX\EOT\ETX\DC2\EOT\160\ETX\CAN\EM\n\ \\196\ETX\n\ \\EOT\EOT\a\STX\ENQ\DC2\EOT\167\ETX\STX'\SUB\181\ETX (optional) The signature of this symbol as it's displayed in API\n\ \ documentation or in hover tooltips. For example, a Java method that adds\n\ \ two numbers this would have `Document.language = \"java\"` and `Document.text\n\ \ = \"void add(int a, int b)\". The `language` and `text` fields are required\n\ \ while other fields such as `Documentation.occurrences` can be optionally\n\ \ included to support hyperlinking referenced symbols in the signature.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\ENQ\ACK\DC2\EOT\167\ETX\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\ENQ\SOH\DC2\EOT\167\ETX\v\"\n\ \\r\n\ \\ENQ\EOT\a\STX\ENQ\ETX\DC2\EOT\167\ETX%&\n\ \\201\b\n\ \\EOT\EOT\a\STX\ACK\DC2\EOT\185\ETX\STX\RS\SUB\186\b (optional) The enclosing symbol if this is a local symbol. For non-local\n\ \ symbols, the enclosing symbol should be parsed from the `symbol` field\n\ \ using the `Descriptor` grammar.\n\ \\n\ \ The primary use-case for this field is to allow local symbol to be displayed\n\ \ in a symbol hierarchy for API documentation. It's OK to leave this field\n\ \ empty for local variables since local variables usually don't belong in API\n\ \ documentation. However, in the situation that you wish to include a local\n\ \ symbol in the hierarchy, then you can use `enclosing_symbol` to locate the\n\ \ \"parent\" or \"owner\" of this local symbol. For example, a Java indexer may\n\ \ choose to use local symbols for private class fields while providing an\n\ \ `enclosing_symbol` to reference the enclosing class to allow the field to\n\ \ be part of the class documentation hierarchy. From the perspective of an\n\ \ author of an indexer, the decision to use a local symbol or global symbol\n\ \ should exclusively be determined whether the local symbol is accessible\n\ \ outside the document, not by the capability to find the enclosing\n\ \ symbol.\n\ \\n\ \\r\n\ \\ENQ\EOT\a\STX\ACK\ENQ\DC2\EOT\185\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT\a\STX\ACK\SOH\DC2\EOT\185\ETX\t\EM\n\ \\r\n\ \\ENQ\EOT\a\STX\ACK\ETX\DC2\EOT\185\ETX\FS\GS\n\ \\f\n\ \\STX\EOT\b\DC2\ACK\189\ETX\NUL\245\ETX\SOH\n\ \\v\n\ \\ETX\EOT\b\SOH\DC2\EOT\189\ETX\b\DC4\n\ \\f\n\ \\EOT\EOT\b\STX\NUL\DC2\EOT\190\ETX\STX\DC4\n\ \\r\n\ \\ENQ\EOT\b\STX\NUL\ENQ\DC2\EOT\190\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT\b\STX\NUL\SOH\DC2\EOT\190\ETX\t\SI\n\ \\r\n\ \\ENQ\EOT\b\STX\NUL\ETX\DC2\EOT\190\ETX\DC2\DC3\n\ \\222\b\n\ \\EOT\EOT\b\STX\SOH\DC2\EOT\215\ETX\STX\CAN\SUB\207\b When resolving \"Find references\", this field documents what other symbols\n\ \ should be included together with this symbol. For example, consider the\n\ \ following TypeScript code that defines two symbols `Animal#sound()` and\n\ \ `Dog#sound()`:\n\ \ ```ts\n\ \ interface Animal {\n\ \ ^^^^^^ definition Animal#\n\ \ sound(): string\n\ \ ^^^^^ definition Animal#sound()\n\ \ }\n\ \ class Dog implements Animal {\n\ \ ^^^ definition Dog#, relationships = [{symbol: \"Animal#\", is_implementation: true}]\n\ \ public sound(): string { return \"woof\" }\n\ \ ^^^^^ definition Dog#sound(), references_symbols = Animal#sound(), relationships = [{symbol: \"Animal#sound()\", is_implementation:true, is_reference: true}]\n\ \ }\n\ \ const animal: Animal = new Dog()\n\ \ ^^^^^^ reference Animal#\n\ \ console.log(animal.sound())\n\ \ ^^^^^ reference Animal#sound()\n\ \ ```\n\ \ Doing \"Find references\" on the symbol `Animal#sound()` should return\n\ \ references to the `Dog#sound()` method as well. Vice-versa, doing \"Find\n\ \ references\" on the `Dog#sound()` method should include references to the\n\ \ `Animal#sound()` method as well.\n\ \\n\ \\r\n\ \\ENQ\EOT\b\STX\SOH\ENQ\DC2\EOT\215\ETX\STX\ACK\n\ \\r\n\ \\ENQ\EOT\b\STX\SOH\SOH\DC2\EOT\215\ETX\a\DC3\n\ \\r\n\ \\ENQ\EOT\b\STX\SOH\ETX\DC2\EOT\215\ETX\SYN\ETB\n\ \\238\ETX\n\ \\EOT\EOT\b\STX\STX\DC2\EOT\224\ETX\STX\GS\SUB\223\ETX Similar to `is_reference` but for \"Find implementations\".\n\ \ It's common for `is_implementation` and `is_reference` to both be true but\n\ \ it's not always the case.\n\ \ In the TypeScript example above, observe that `Dog#` has an\n\ \ `is_implementation` relationship with `\"Animal#\"` but not `is_reference`.\n\ \ This is because \"Find references\" on the \"Animal#\" symbol should not return\n\ \ \"Dog#\". We only want \"Dog#\" to return as a result for \"Find\n\ \ implementations\" on the \"Animal#\" symbol.\n\ \\n\ \\r\n\ \\ENQ\EOT\b\STX\STX\ENQ\DC2\EOT\224\ETX\STX\ACK\n\ \\r\n\ \\ENQ\EOT\b\STX\STX\SOH\DC2\EOT\224\ETX\a\CAN\n\ \\r\n\ \\ENQ\EOT\b\STX\STX\ETX\DC2\EOT\224\ETX\ESC\FS\n\ \P\n\ \\EOT\EOT\b\STX\ETX\DC2\EOT\226\ETX\STX\RS\SUBB Similar to `references_symbols` but for \"Go to type definition\".\n\ \\n\ \\r\n\ \\ENQ\EOT\b\STX\ETX\ENQ\DC2\EOT\226\ETX\STX\ACK\n\ \\r\n\ \\ENQ\EOT\b\STX\ETX\SOH\DC2\EOT\226\ETX\a\EM\n\ \\r\n\ \\ENQ\EOT\b\STX\ETX\ETX\DC2\EOT\226\ETX\FS\GS\n\ \\167\a\n\ \\EOT\EOT\b\STX\EOT\DC2\EOT\243\ETX\STX\EM\SUB\213\ACK Allows overriding the behavior of \"Go to definition\" and \"Find references\"\n\ \ for symbols which do not have a definition of their own or could\n\ \ potentially have multiple definitions.\n\ \\n\ \ For example, in a language with single inheritance and no field overriding,\n\ \ inherited fields can reuse the same symbol as the ancestor which declares\n\ \ the field. In such a situation, is_definition is not needed.\n\ \\n\ \ On the other hand, in languages with single inheritance and some form\n\ \ of mixins, you can use is_definition to relate the symbol to the\n\ \ matching symbol in ancestor classes, and is_reference to relate the\n\ \ symbol to the matching symbol in mixins.\n\ \\n\ \ NOTE: At the moment, due to limitations of the SCIP to LSIF conversion,\n\ \ only global symbols in an index are allowed to use is_definition.\n\ \ The relationship may not get recorded if either symbol is local.\n\ \\"A Update registerInverseRelationships on adding a new field here.\n\ \\n\ \\r\n\ \\ENQ\EOT\b\STX\EOT\ENQ\DC2\EOT\243\ETX\STX\ACK\n\ \\r\n\ \\ENQ\EOT\b\STX\EOT\SOH\DC2\EOT\243\ETX\a\DC4\n\ \\r\n\ \\ENQ\EOT\b\STX\EOT\ETX\DC2\EOT\243\ETX\ETB\CAN\n\ \\136\ETX\n\ \\STX\ENQ\ETX\DC2\ACK\252\ETX\NUL\146\EOT\SOH\SUB\249\STX SymbolRole declares what \"role\" a symbol has in an occurrence. A role is\n\ \ encoded as a bitset where each bit represents a different role. For example,\n\ \ to determine if the `Import` role is set, test whether the second bit of the\n\ \ enum value is defined. In pseudocode, this can be implemented with the\n\ \ logic: `const isImportRole = (role.value & SymbolRole.Import.value) > 0`.\n\ \\n\ \\v\n\ \\ETX\ENQ\ETX\SOH\DC2\EOT\252\ETX\ENQ\SI\n\ \v\n\ \\EOT\ENQ\ETX\STX\NUL\DC2\EOT\255\ETX\STX\FS\SUBh This case is not meant to be used; it only exists to avoid an error\n\ \ from the Protobuf code generator.\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\NUL\SOH\DC2\EOT\255\ETX\STX\ETB\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\NUL\STX\DC2\EOT\255\ETX\SUB\ESC\n\ \T\n\ \\EOT\ENQ\ETX\STX\SOH\DC2\EOT\129\EOT\STX\DC3\SUBF Is the symbol defined here? If not, then this is a symbol reference.\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\SOH\SOH\DC2\EOT\129\EOT\STX\f\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\SOH\STX\DC2\EOT\129\EOT\SI\DC2\n\ \,\n\ \\EOT\ENQ\ETX\STX\STX\DC2\EOT\131\EOT\STX\SI\SUB\RS Is the symbol imported here?\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\STX\SOH\DC2\EOT\131\EOT\STX\b\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\STX\STX\DC2\EOT\131\EOT\v\SO\n\ \+\n\ \\EOT\ENQ\ETX\STX\ETX\DC2\EOT\133\EOT\STX\DC4\SUB\GS Is the symbol written here?\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\ETX\SOH\DC2\EOT\133\EOT\STX\r\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\ETX\STX\DC2\EOT\133\EOT\DLE\DC3\n\ \(\n\ \\EOT\ENQ\ETX\STX\EOT\DC2\EOT\135\EOT\STX\DC3\SUB\SUB Is the symbol read here?\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\EOT\SOH\DC2\EOT\135\EOT\STX\f\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\EOT\STX\DC2\EOT\135\EOT\SI\DC2\n\ \0\n\ \\EOT\ENQ\ETX\STX\ENQ\DC2\EOT\137\EOT\STX\DC3\SUB\" Is the symbol in generated code?\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\ENQ\SOH\DC2\EOT\137\EOT\STX\v\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\ENQ\STX\DC2\EOT\137\EOT\SO\DC2\n\ \+\n\ \\EOT\ENQ\ETX\STX\ACK\DC2\EOT\139\EOT\STX\SO\SUB\GS Is the symbol in test code?\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\ACK\SOH\DC2\EOT\139\EOT\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\ACK\STX\DC2\EOT\139\EOT\t\r\n\ \\237\SOH\n\ \\EOT\ENQ\ETX\STX\a\DC2\EOT\145\EOT\STX\ESC\SUB\222\SOH Is this a signature for a symbol that is defined elsewhere?\n\ \\n\ \ Applies to forward declarations for languages like C, C++\n\ \ and Objective-C, as well as `val` declarations in interface\n\ \ files in languages like SML and OCaml.\n\ \\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\a\SOH\DC2\EOT\145\EOT\STX\DC3\n\ \\r\n\ \\ENQ\ENQ\ETX\STX\a\STX\DC2\EOT\145\EOT\SYN\SUB\n\ \\f\n\ \\STX\ENQ\EOT\DC2\ACK\148\EOT\NUL\241\EOT\SOH\n\ \\v\n\ \\ETX\ENQ\EOT\SOH\DC2\EOT\148\EOT\ENQ\SI\n\ \\v\n\ \\ETX\ENQ\EOT\ETX\DC2\EOT\149\EOT\STX\FS\n\ \\f\n\ \\EOT\ENQ\EOT\ETX\STX\DC2\EOT\149\EOT\STX\FS\n\ \\f\n\ \\EOT\ENQ\EOT\STX\NUL\DC2\EOT\151\EOT\STX\FS\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\NUL\SOH\DC2\EOT\151\EOT\STX\ETB\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\NUL\STX\DC2\EOT\151\EOT\SUB\ESC\n\ \;\n\ \\EOT\ENQ\EOT\STX\SOH\DC2\EOT\154\EOT\STX\SO\SUB- Comment, including comment markers and text\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SOH\SOH\DC2\EOT\154\EOT\STX\t\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SOH\STX\DC2\EOT\154\EOT\f\r\n\ \\ESC\n\ \\EOT\ENQ\EOT\STX\STX\DC2\EOT\157\EOT\STX\ESC\SUB\r `;` `.` `,`\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\STX\SOH\DC2\EOT\157\EOT\STX\SYN\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\STX\STX\DC2\EOT\157\EOT\EM\SUB\n\ \2\n\ \\EOT\ENQ\EOT\STX\ETX\DC2\EOT\159\EOT\STX\EM\SUB$ (), {}, [] when used syntactically\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ETX\SOH\DC2\EOT\159\EOT\STX\DC4\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ETX\STX\DC2\EOT\159\EOT\ETB\CAN\n\ \5\n\ \\EOT\ENQ\EOT\STX\EOT\DC2\EOT\162\EOT\STX\SO\SUB' `if`, `else`, `return`, `class`, etc.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\EOT\SOH\DC2\EOT\162\EOT\STX\t\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\EOT\STX\DC2\EOT\162\EOT\f\r\n\ \\f\n\ \\EOT\ENQ\EOT\STX\ENQ\DC2\EOT\163\EOT\STX*\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ENQ\SOH\DC2\EOT\163\EOT\STX\DC3\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ENQ\STX\DC2\EOT\163\EOT\SYN\ETB\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ENQ\ETX\DC2\EOT\163\EOT\CAN)\n\ \\SO\n\ \\ACK\ENQ\EOT\STX\ENQ\ETX\SOH\DC2\EOT\163\EOT\EM(\n\ \\RS\n\ \\EOT\ENQ\EOT\STX\ACK\DC2\EOT\166\EOT\STX\EM\SUB\DLE `+`, `*`, etc.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ACK\SOH\DC2\EOT\166\EOT\STX\DC4\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ACK\STX\DC2\EOT\166\EOT\ETB\CAN\n\ \X\n\ \\EOT\ENQ\EOT\STX\a\DC2\EOT\169\EOT\STX\DC1\SUBJ non-specific catch-all for any identifier not better described elsewhere\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\a\SOH\DC2\EOT\169\EOT\STX\f\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\a\STX\DC2\EOT\169\EOT\SI\DLE\n\ \N\n\ \\EOT\ENQ\EOT\STX\b\DC2\EOT\171\EOT\STX\CAN\SUB@ Identifiers builtin to the language: `min`, `print` in Python.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\b\SOH\DC2\EOT\171\EOT\STX\DC3\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\b\STX\DC2\EOT\171\EOT\SYN\ETB\n\ \[\n\ \\EOT\ENQ\EOT\STX\t\DC2\EOT\173\EOT\STX\NAK\SUBM Identifiers representing `null`-like values: `None` in Python, `nil` in Go.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\t\SOH\DC2\EOT\173\EOT\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\t\STX\DC2\EOT\173\EOT\DC3\DC4\n\ \.\n\ \\EOT\ENQ\EOT\STX\n\ \\DC2\EOT\175\EOT\STX\EM\SUB `xyz` in `const xyz = \"hello\"`\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\n\ \\SOH\DC2\EOT\175\EOT\STX\DC4\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\n\ \\STX\DC2\EOT\175\EOT\ETB\CAN\n\ \'\n\ \\EOT\ENQ\EOT\STX\v\DC2\EOT\177\EOT\STX\US\SUB\EM `var X = \"hello\"` in Go\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\v\SOH\DC2\EOT\177\EOT\STX\EM\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\v\STX\DC2\EOT\177\EOT\FS\RS\n\ \3\n\ \\EOT\ENQ\EOT\STX\f\DC2\EOT\179\EOT\STX\ESC\SUB% Parameter definition and references\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\f\SOH\DC2\EOT\179\EOT\STX\NAK\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\f\STX\DC2\EOT\179\EOT\CAN\SUB\n\ \X\n\ \\EOT\ENQ\EOT\STX\r\DC2\EOT\181\EOT\STX\ETB\SUBJ Identifiers for variable definitions and references within a local scope\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\r\SOH\DC2\EOT\181\EOT\STX\DC1\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\r\STX\DC2\EOT\181\EOT\DC4\SYN\n\ \K\n\ \\EOT\ENQ\EOT\STX\SO\DC2\EOT\183\EOT\STX\SUB\SUB= Identifiers that shadow other identifiers in an outer scope\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SO\SOH\DC2\EOT\183\EOT\STX\DC4\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SO\STX\DC2\EOT\183\EOT\ETB\EM\n\ \\205\SOH\n\ \\EOT\ENQ\EOT\STX\SI\DC2\EOT\188\EOT\STX\ESC\SUB\190\SOH Identifier representing a unit of code abstraction and/or namespacing.\n\ \\n\ \ NOTE: This corresponds to a package in Go and JVM languages,\n\ \ and a module in languages like Python and JavaScript.\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SI\SOH\DC2\EOT\188\EOT\STX\NAK\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SI\STX\DC2\EOT\188\EOT\CAN\SUB\n\ \\f\n\ \\EOT\ENQ\EOT\STX\DLE\DC2\EOT\189\EOT\STX*\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DLE\SOH\DC2\EOT\189\EOT\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DLE\STX\DC2\EOT\189\EOT\NAK\ETB\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DLE\ETX\DC2\EOT\189\EOT\CAN)\n\ \\SO\n\ \\ACK\ENQ\EOT\STX\DLE\ETX\SOH\DC2\EOT\189\EOT\EM(\n\ \4\n\ \\EOT\ENQ\EOT\STX\DC1\DC2\EOT\192\EOT\STX\SUB\SUB& Function references, including calls\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DC1\SOH\DC2\EOT\192\EOT\STX\DC4\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DC1\STX\DC2\EOT\192\EOT\ETB\EM\n\ \(\n\ \\EOT\ENQ\EOT\STX\DC2\DC2\EOT\194\EOT\STX$\SUB\SUB Function definition only\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DC2\SOH\DC2\EOT\194\EOT\STX\RS\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DC2\STX\DC2\EOT\194\EOT!#\n\ \7\n\ \\EOT\ENQ\EOT\STX\DC3\DC2\EOT\197\EOT\STX\ETB\SUB) Macro references, including invocations\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DC3\SOH\DC2\EOT\197\EOT\STX\DC1\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DC3\STX\DC2\EOT\197\EOT\DC4\SYN\n\ \%\n\ \\EOT\ENQ\EOT\STX\DC4\DC2\EOT\199\EOT\STX!\SUB\ETB Macro definition only\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DC4\SOH\DC2\EOT\199\EOT\STX\ESC\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\DC4\STX\DC2\EOT\199\EOT\RS \n\ \!\n\ \\EOT\ENQ\EOT\STX\NAK\DC2\EOT\202\EOT\STX\SYN\SUB\DC3 non-builtin types\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\NAK\SOH\DC2\EOT\202\EOT\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\NAK\STX\DC2\EOT\202\EOT\DC3\NAK\n\ \K\n\ \\EOT\ENQ\EOT\STX\SYN\DC2\EOT\204\EOT\STX\GS\SUB= builtin types only, such as `str` for Python or `int` in Go\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SYN\SOH\DC2\EOT\204\EOT\STX\ETB\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SYN\STX\DC2\EOT\204\EOT\SUB\FS\n\ \7\n\ \\EOT\ENQ\EOT\STX\ETB\DC2\EOT\207\EOT\STX\ESC\SUB) Python decorators, c-like __attribute__\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ETB\SOH\DC2\EOT\207\EOT\STX\NAK\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ETB\STX\DC2\EOT\207\EOT\CAN\SUB\n\ \\DC4\n\ \\EOT\ENQ\EOT\STX\CAN\DC2\EOT\210\EOT\STX\DC3\SUB\ACK `\\b`\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\CAN\SOH\DC2\EOT\210\EOT\STX\r\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\CAN\STX\DC2\EOT\210\EOT\DLE\DC2\n\ \\CAN\n\ \\EOT\ENQ\EOT\STX\EM\DC2\EOT\212\EOT\STX\NAK\SUB\n\ \ `*`, `+`\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\EM\SOH\DC2\EOT\212\EOT\STX\SI\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\EM\STX\DC2\EOT\212\EOT\DC2\DC4\n\ \\DC3\n\ \\EOT\ENQ\EOT\STX\SUB\DC2\EOT\214\EOT\STX\NAK\SUB\ENQ `.`\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SUB\SOH\DC2\EOT\214\EOT\STX\SI\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\SUB\STX\DC2\EOT\214\EOT\DC2\DC4\n\ \\"\n\ \\EOT\ENQ\EOT\STX\ESC\DC2\EOT\216\EOT\STX\SYN\SUB\DC4 `(`, `)`, `[`, `]`\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ESC\SOH\DC2\EOT\216\EOT\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\ESC\STX\DC2\EOT\216\EOT\DC3\NAK\n\ \\CAN\n\ \\EOT\ENQ\EOT\STX\FS\DC2\EOT\218\EOT\STX\DC1\SUB\n\ \ `|`, `-`\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\FS\SOH\DC2\EOT\218\EOT\STX\v\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\FS\STX\DC2\EOT\218\EOT\SO\DLE\n\ \0\n\ \\EOT\ENQ\EOT\STX\GS\DC2\EOT\221\EOT\STX\NAK\SUB\" Literal strings: \"Hello, world!\"\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\GS\SOH\DC2\EOT\221\EOT\STX\SI\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\GS\STX\DC2\EOT\221\EOT\DC2\DC4\n\ \-\n\ \\EOT\ENQ\EOT\STX\RS\DC2\EOT\223\EOT\STX\ESC\SUB\US non-regex escapes: \"\\t\", \"\\n\"\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\RS\SOH\DC2\EOT\223\EOT\STX\NAK\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\RS\STX\DC2\EOT\223\EOT\CAN\SUB\n\ \_\n\ \\EOT\ENQ\EOT\STX\US\DC2\EOT\225\EOT\STX\FS\SUBQ datetimes within strings, special words within a string, `{}` in format strings\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\US\SOH\DC2\EOT\225\EOT\STX\SYN\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\US\STX\DC2\EOT\225\EOT\EM\ESC\n\ \G\n\ \\EOT\ENQ\EOT\STX \DC2\EOT\227\EOT\STX\CAN\SUB9 \"key\" in { \"key\": \"value\" }, useful for example in JSON\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX \SOH\DC2\EOT\227\EOT\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\EOT\STX \STX\DC2\EOT\227\EOT\NAK\ETB\n\ \V\n\ \\EOT\ENQ\EOT\STX!\DC2\EOT\229\EOT\STX\CAN\SUBH 'c' or similar, in languages that differentiate strings and characters\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX!\SOH\DC2\EOT\229\EOT\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\EOT\STX!\STX\DC2\EOT\229\EOT\NAK\ETB\n\ \9\n\ \\EOT\ENQ\EOT\STX\"\DC2\EOT\231\EOT\STX\SYN\SUB+ Literal numbers, both floats and integers\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\"\SOH\DC2\EOT\231\EOT\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\EOT\STX\"\STX\DC2\EOT\231\EOT\DC3\NAK\n\ \\US\n\ \\EOT\ENQ\EOT\STX#\DC2\EOT\233\EOT\STX\SYN\SUB\DC1 `true`, `false`\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX#\SOH\DC2\EOT\233\EOT\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\EOT\STX#\STX\DC2\EOT\233\EOT\DC3\NAK\n\ \&\n\ \\EOT\ENQ\EOT\STX$\DC2\EOT\236\EOT\STX\v\SUB\CAN Used for XML-like tags\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX$\SOH\DC2\EOT\236\EOT\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\EOT\STX$\STX\DC2\EOT\236\EOT\b\n\ \\n\ \/\n\ \\EOT\ENQ\EOT\STX%\DC2\EOT\238\EOT\STX\DC4\SUB! Attribute name in XML-like tags\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX%\SOH\DC2\EOT\238\EOT\STX\SO\n\ \\r\n\ \\ENQ\ENQ\EOT\STX%\STX\DC2\EOT\238\EOT\DC1\DC3\n\ \,\n\ \\EOT\ENQ\EOT\STX&\DC2\EOT\240\EOT\STX\DC4\SUB\RS Delimiters for XML-like tags\n\ \\n\ \\r\n\ \\ENQ\ENQ\EOT\STX&\SOH\DC2\EOT\240\EOT\STX\SO\n\ \\r\n\ \\ENQ\ENQ\EOT\STX&\STX\DC2\EOT\240\EOT\DC1\DC3\n\ \\249\SOH\n\ \\STX\EOT\t\DC2\ACK\248\EOT\NUL\217\ENQ\SOH\SUB\234\SOH Occurrence associates a source position with a symbol and/or highlighting\n\ \ information.\n\ \\n\ \ If possible, indexers should try to bundle logically related information\n\ \ across occurrences into a single occurrence to reduce payload sizes.\n\ \\n\ \\v\n\ \\ETX\EOT\t\SOH\DC2\EOT\248\EOT\b\DC2\n\ \\232\b\n\ \\EOT\EOT\t\STX\NUL\DC2\EOT\144\ENQ\STX\ESC\SUB\217\b Half-open [start, end) range of this occurrence. Must be exactly three or four\n\ \ elements:\n\ \\n\ \ - Four elements: `[startLine, startCharacter, endLine, endCharacter]`\n\ \ - Three elements: `[startLine, startCharacter, endCharacter]`. The end line\n\ \ is inferred to have the same value as the start line.\n\ \\n\ \ It is allowed for the range to be empty (i.e. start==end).\n\ \\n\ \ Line numbers and characters are always 0-based. Make sure to increment the\n\ \ line/character values before displaying them in an editor-like UI because\n\ \ editors conventionally use 1-based numbers.\n\ \\n\ \ The 'character' value is interpreted based on the PositionEncoding for\n\ \ the Document.\n\ \\n\ \ Historical note: the original draft of this schema had a `Range` message\n\ \ type with `start` and `end` fields of type `Position`, mirroring LSP.\n\ \ Benchmarks revealed that this encoding was inefficient and that we could\n\ \ reduce the total payload size of an index by 50% by using `repeated int32`\n\ \ instead. The `repeated int32` encoding is admittedly more embarrassing to\n\ \ work with in some programming languages but we hope the performance\n\ \ improvements make up for it.\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\NUL\EOT\DC2\EOT\144\ENQ\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\NUL\ENQ\DC2\EOT\144\ENQ\v\DLE\n\ \\r\n\ \\ENQ\EOT\t\STX\NUL\SOH\DC2\EOT\144\ENQ\DC1\SYN\n\ \\r\n\ \\ENQ\EOT\t\STX\NUL\ETX\DC2\EOT\144\ENQ\EM\SUB\n\ \\138\SOH\n\ \\EOT\EOT\t\STX\SOH\DC2\EOT\147\ENQ\STX\DC4\SUB| (optional) The symbol that appears at this position. See\n\ \ `SymbolInformation.symbol` for how to format symbols as strings.\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\SOH\ENQ\DC2\EOT\147\ENQ\STX\b\n\ \\r\n\ \\ENQ\EOT\t\STX\SOH\SOH\DC2\EOT\147\ENQ\t\SI\n\ \\r\n\ \\ENQ\EOT\t\STX\SOH\ETX\DC2\EOT\147\ENQ\DC2\DC3\n\ \\151\SOH\n\ \\EOT\EOT\t\STX\STX\DC2\EOT\150\ENQ\STX\EM\SUB\136\SOH (optional) Bitset containing `SymbolRole`s in this occurrence.\n\ \ See `SymbolRole`'s documentation for how to read and write this field.\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\STX\ENQ\DC2\EOT\150\ENQ\STX\a\n\ \\r\n\ \\ENQ\EOT\t\STX\STX\SOH\DC2\EOT\150\ENQ\b\DC4\n\ \\r\n\ \\ENQ\EOT\t\STX\STX\ETX\DC2\EOT\150\ENQ\ETB\CAN\n\ \\241\ETX\n\ \\EOT\EOT\t\STX\ETX\DC2\EOT\159\ENQ\STX-\SUB\226\ETX (optional) CommonMark-formatted documentation for this specific range. If\n\ \ empty, the `Symbol.documentation` field is used instead. One example\n\ \ where this field might be useful is when the symbol represents a generic\n\ \ function (with abstract type parameters such as `List`) and at this\n\ \ occurrence we know the exact values (such as `List`).\n\ \\n\ \ This field can also be used for dynamically or gradually typed languages,\n\ \ which commonly allow for type-changing assignment.\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\ETX\EOT\DC2\EOT\159\ENQ\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\ETX\ENQ\DC2\EOT\159\ENQ\v\DC1\n\ \\r\n\ \\ENQ\EOT\t\STX\ETX\SOH\DC2\EOT\159\ENQ\DC2(\n\ \\r\n\ \\ENQ\EOT\t\STX\ETX\ETX\DC2\EOT\159\ENQ+,\n\ \X\n\ \\EOT\EOT\t\STX\EOT\DC2\EOT\161\ENQ\STX\GS\SUBJ (optional) What syntax highlighting class should be used for this range?\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\EOT\ACK\DC2\EOT\161\ENQ\STX\f\n\ \\r\n\ \\ENQ\EOT\t\STX\EOT\SOH\DC2\EOT\161\ENQ\r\CAN\n\ \\r\n\ \\ENQ\EOT\t\STX\EOT\ETX\DC2\EOT\161\ENQ\ESC\FS\n\ \W\n\ \\EOT\EOT\t\STX\ENQ\DC2\EOT\163\ENQ\STX&\SUBI (optional) Diagnostics that have been reported for this specific range.\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\ENQ\EOT\DC2\EOT\163\ENQ\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\ENQ\ACK\DC2\EOT\163\ENQ\v\NAK\n\ \\r\n\ \\ENQ\EOT\t\STX\ENQ\SOH\DC2\EOT\163\ENQ\SYN!\n\ \\r\n\ \\ENQ\EOT\t\STX\ENQ\ETX\DC2\EOT\163\ENQ$%\n\ \\183\SO\n\ \\EOT\EOT\t\STX\ACK\DC2\EOT\216\ENQ\STX%\SUB\168\SO (optional) Using the same encoding as the sibling `range` field, half-open\n\ \ source range of the nearest non-trivial enclosing AST node. This range must\n\ \ enclose the `range` field. Example applications that make use of the\n\ \ enclosing_range field:\n\ \\n\ \ - Call hierarchies: to determine what symbols are references from the body\n\ \ of a function\n\ \ - Symbol outline: to display breadcrumbs from the cursor position to the\n\ \ root of the file\n\ \ - Expand selection: to select the nearest enclosing AST node.\n\ \ - Highlight range: to indicate the AST expression that is associated with a\n\ \ hover popover\n\ \\n\ \ For definition occurrences, the enclosing range should indicate the\n\ \ start/end bounds of the entire definition AST node, including\n\ \ documentation.\n\ \ ```\n\ \ const n = 3\n\ \ ^ range\n\ \ ^^^^^^^^^^^ enclosing_range\n\ \\n\ \ /** Parses the string into something */\n\ \ ^ enclosing_range start --------------------------------------|\n\ \ function parse(input string): string { |\n\ \ ^^^^^ range |\n\ \ return input.slice(n) |\n\ \ } |\n\ \ ^ enclosing_range end <---------------------------------------|\n\ \ ```\n\ \\n\ \ Any attributes/decorators/attached macros should also be part of the\n\ \ enclosing range.\n\ \\n\ \ ```python\n\ \ @cache\n\ \ ^ enclosing_range start---------------------|\n\ \ def factorial(n): |\n\ \ return n * factorial(n-1) if n else 1 |\n\ \ < enclosing_range end-----------------------|\n\ \\n\ \ ```\n\ \\n\ \ For reference occurrences, the enclosing range should indicate the start/end\n\ \ bounds of the parent expression.\n\ \ ```\n\ \ const a = a.b\n\ \ ^ range\n\ \ ^^^ enclosing_range\n\ \ const b = a.b(41).f(42).g(43)\n\ \ ^ range\n\ \ ^^^^^^^^^^^^^ enclosing_range\n\ \ ```\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\ACK\EOT\DC2\EOT\216\ENQ\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\t\STX\ACK\ENQ\DC2\EOT\216\ENQ\v\DLE\n\ \\r\n\ \\ENQ\EOT\t\STX\ACK\SOH\DC2\EOT\216\ENQ\DC1 \n\ \\r\n\ \\ENQ\EOT\t\STX\ACK\ETX\DC2\EOT\216\ENQ#$\n\ \w\n\ \\STX\EOT\n\ \\DC2\ACK\221\ENQ\NUL\232\ENQ\SOH\SUBi Represents a diagnostic, such as a compiler error or warning, which should be\n\ \ reported for a document.\n\ \\n\ \\v\n\ \\ETX\EOT\n\ \\SOH\DC2\EOT\221\ENQ\b\DC2\n\ \W\n\ \\EOT\EOT\n\ \\STX\NUL\DC2\EOT\223\ENQ\STX\CAN\SUBI Should this diagnostic be reported as an error, warning, info, or hint?\n\ \\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\NUL\ACK\DC2\EOT\223\ENQ\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\NUL\SOH\DC2\EOT\223\ENQ\v\DC3\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\NUL\ETX\DC2\EOT\223\ENQ\SYN\ETB\n\ \]\n\ \\EOT\EOT\n\ \\STX\SOH\DC2\EOT\225\ENQ\STX\DC2\SUBO (optional) Code of this diagnostic, which might appear in the user interface.\n\ \\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\SOH\ENQ\DC2\EOT\225\ENQ\STX\b\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\SOH\SOH\DC2\EOT\225\ENQ\t\r\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\SOH\ETX\DC2\EOT\225\ENQ\DLE\DC1\n\ \+\n\ \\EOT\EOT\n\ \\STX\STX\DC2\EOT\227\ENQ\STX\NAK\SUB\GS Message of this diagnostic.\n\ \\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\STX\ENQ\DC2\EOT\227\ENQ\STX\b\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\STX\SOH\DC2\EOT\227\ENQ\t\DLE\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\STX\ETX\DC2\EOT\227\ENQ\DC3\DC4\n\ \~\n\ \\EOT\EOT\n\ \\STX\ETX\DC2\EOT\230\ENQ\STX\DC4\SUBp (optional) Human-readable string describing the source of this diagnostic, e.g.\n\ \ 'typescript' or 'super lint'.\n\ \\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\ETX\ENQ\DC2\EOT\230\ENQ\STX\b\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\ETX\SOH\DC2\EOT\230\ENQ\t\SI\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\ETX\ETX\DC2\EOT\230\ENQ\DC2\DC3\n\ \\f\n\ \\EOT\EOT\n\ \\STX\EOT\DC2\EOT\231\ENQ\STX\"\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\EOT\EOT\DC2\EOT\231\ENQ\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\EOT\ACK\DC2\EOT\231\ENQ\v\CAN\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\EOT\SOH\DC2\EOT\231\ENQ\EM\GS\n\ \\r\n\ \\ENQ\EOT\n\ \\STX\EOT\ETX\DC2\EOT\231\ENQ !\n\ \\f\n\ \\STX\ENQ\ENQ\DC2\ACK\234\ENQ\NUL\240\ENQ\SOH\n\ \\v\n\ \\ETX\ENQ\ENQ\SOH\DC2\EOT\234\ENQ\ENQ\r\n\ \\f\n\ \\EOT\ENQ\ENQ\STX\NUL\DC2\EOT\235\ENQ\STX\SUB\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\NUL\SOH\DC2\EOT\235\ENQ\STX\NAK\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\NUL\STX\DC2\EOT\235\ENQ\CAN\EM\n\ \\f\n\ \\EOT\ENQ\ENQ\STX\SOH\DC2\EOT\236\ENQ\STX\f\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\SOH\SOH\DC2\EOT\236\ENQ\STX\a\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\SOH\STX\DC2\EOT\236\ENQ\n\ \\v\n\ \\f\n\ \\EOT\ENQ\ENQ\STX\STX\DC2\EOT\237\ENQ\STX\SO\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\STX\SOH\DC2\EOT\237\ENQ\STX\t\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\STX\STX\DC2\EOT\237\ENQ\f\r\n\ \\f\n\ \\EOT\ENQ\ENQ\STX\ETX\DC2\EOT\238\ENQ\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\ETX\SOH\DC2\EOT\238\ENQ\STX\r\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\ETX\STX\DC2\EOT\238\ENQ\DLE\DC1\n\ \\f\n\ \\EOT\ENQ\ENQ\STX\EOT\DC2\EOT\239\ENQ\STX\v\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\EOT\SOH\DC2\EOT\239\ENQ\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\ENQ\STX\EOT\STX\DC2\EOT\239\ENQ\t\n\ \\n\ \\f\n\ \\STX\ENQ\ACK\DC2\ACK\242\ENQ\NUL\246\ENQ\SOH\n\ \\v\n\ \\ETX\ENQ\ACK\SOH\DC2\EOT\242\ENQ\ENQ\DC2\n\ \\f\n\ \\EOT\ENQ\ACK\STX\NUL\DC2\EOT\243\ENQ\STX\US\n\ \\r\n\ \\ENQ\ENQ\ACK\STX\NUL\SOH\DC2\EOT\243\ENQ\STX\SUB\n\ \\r\n\ \\ENQ\ENQ\ACK\STX\NUL\STX\DC2\EOT\243\ENQ\GS\RS\n\ \\f\n\ \\EOT\ENQ\ACK\STX\SOH\DC2\EOT\244\ENQ\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\ACK\STX\SOH\SOH\DC2\EOT\244\ENQ\STX\r\n\ \\r\n\ \\ENQ\ENQ\ACK\STX\SOH\STX\DC2\EOT\244\ENQ\DLE\DC1\n\ \\f\n\ \\EOT\ENQ\ACK\STX\STX\DC2\EOT\245\ENQ\STX\DC1\n\ \\r\n\ \\ENQ\ENQ\ACK\STX\STX\SOH\DC2\EOT\245\ENQ\STX\f\n\ \\r\n\ \\ENQ\ENQ\ACK\STX\STX\STX\DC2\EOT\245\ENQ\SI\DLE\n\ \\208\ETX\n\ \\STX\ENQ\a\DC2\ACK\254\ENQ\NUL\244\ACK\SOH\SUB\193\ETX Language standardises names of common programming languages that can be used\n\ \ for the `Document.language` field. The primary purpose of this enum is to\n\ \ prevent a situation where we have a single programming language ends up with\n\ \ multiple string representations. For example, the C++ language uses the name\n\ \ \"CPP\" in this enum and other names such as \"cpp\" are incompatible.\n\ \ Feel free to send a pull-request to add missing programming languages.\n\ \\n\ \\v\n\ \\ETX\ENQ\a\SOH\DC2\EOT\254\ENQ\ENQ\r\n\ \\f\n\ \\EOT\ENQ\a\STX\NUL\DC2\EOT\255\ENQ\STX\SUB\n\ \\r\n\ \\ENQ\ENQ\a\STX\NUL\SOH\DC2\EOT\255\ENQ\STX\NAK\n\ \\r\n\ \\ENQ\ENQ\a\STX\NUL\STX\DC2\EOT\255\ENQ\CAN\EM\n\ \\f\n\ \\EOT\ENQ\a\STX\SOH\DC2\EOT\128\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX\SOH\SOH\DC2\EOT\128\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX\SOH\STX\DC2\EOT\128\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX\STX\DC2\EOT\129\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX\STX\SOH\DC2\EOT\129\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX\STX\STX\DC2\EOT\129\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX\ETX\DC2\EOT\130\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX\ETX\SOH\DC2\EOT\130\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX\ETX\STX\DC2\EOT\130\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX\EOT\DC2\EOT\131\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX\EOT\SOH\DC2\EOT\131\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX\EOT\STX\DC2\EOT\131\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX\ENQ\DC2\EOT\132\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX\ENQ\SOH\DC2\EOT\132\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX\ENQ\STX\DC2\EOT\132\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX\ACK\DC2\EOT\133\ACK\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\a\STX\ACK\SOH\DC2\EOT\133\ACK\STX\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STX\ACK\STX\DC2\EOT\133\ACK\r\SI\n\ \\f\n\ \\EOT\ENQ\a\STX\a\DC2\EOT\134\ACK\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\a\STX\a\SOH\DC2\EOT\134\ACK\STX\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STX\a\STX\DC2\EOT\134\ACK\r\SI\n\ \\f\n\ \\EOT\ENQ\a\STX\b\DC2\EOT\135\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX\b\SOH\DC2\EOT\135\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX\b\STX\DC2\EOT\135\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX\t\DC2\EOT\136\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX\t\SOH\DC2\EOT\136\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX\t\STX\DC2\EOT\136\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX\n\ \\DC2\EOT\137\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX\n\ \\SOH\DC2\EOT\137\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX\n\ \\STX\DC2\EOT\137\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STX\v\DC2\EOT\138\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STX\v\SOH\DC2\EOT\138\ACK\STX\ETX\n\ \\r\n\ \\ENQ\ENQ\a\STX\v\STX\DC2\EOT\138\ACK\ACK\b\n\ \\f\n\ \\EOT\ENQ\a\STX\f\DC2\EOT\139\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STX\f\SOH\DC2\EOT\139\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STX\f\STX\DC2\EOT\139\ACK\n\ \\f\n\ \H\n\ \\EOT\ENQ\a\STX\r\DC2\EOT\140\ACK\STX\v\": C++ (the name \"CPP\" was chosen for consistency with LSP)\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STX\r\SOH\DC2\EOT\140\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX\r\STX\DC2\EOT\140\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX\SO\DC2\EOT\141\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX\SO\SOH\DC2\EOT\141\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX\SO\STX\DC2\EOT\141\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX\SI\DC2\EOT\142\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STX\SI\SOH\DC2\EOT\142\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX\SI\STX\DC2\EOT\142\ACK\v\f\n\ \\f\n\ \\EOT\ENQ\a\STX\DLE\DC2\EOT\143\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX\DLE\SOH\DC2\EOT\143\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STX\DLE\STX\DC2\EOT\143\ACK\f\r\n\ \\f\n\ \\EOT\ENQ\a\STX\DC1\DC2\EOT\144\ACK\STX\DC4\n\ \\r\n\ \\ENQ\ENQ\a\STX\DC1\SOH\DC2\EOT\144\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX\DC1\STX\DC2\EOT\144\ACK\DC1\DC3\n\ \\f\n\ \\EOT\ENQ\a\STX\DC2\DC2\EOT\145\ACK\STX\DC1\n\ \\r\n\ \\ENQ\ENQ\a\STX\DC2\SOH\DC2\EOT\145\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX\DC2\STX\DC2\EOT\145\ACK\SI\DLE\n\ \\f\n\ \\EOT\ENQ\a\STX\DC3\DC2\EOT\146\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX\DC3\SOH\DC2\EOT\146\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX\DC3\STX\DC2\EOT\146\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX\DC4\DC2\EOT\147\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX\DC4\SOH\DC2\EOT\147\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX\DC4\STX\DC2\EOT\147\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX\NAK\DC2\EOT\148\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX\NAK\SOH\DC2\EOT\148\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX\NAK\STX\DC2\EOT\148\ACK\t\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX\SYN\DC2\EOT\149\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX\SYN\SOH\DC2\EOT\149\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX\SYN\STX\DC2\EOT\149\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STX\ETB\DC2\EOT\150\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX\ETB\SOH\DC2\EOT\150\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX\ETB\STX\DC2\EOT\150\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX\CAN\DC2\EOT\151\ACK\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\a\STX\CAN\SOH\DC2\EOT\151\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX\CAN\STX\DC2\EOT\151\ACK\SI\DC1\n\ \\f\n\ \\EOT\ENQ\a\STX\EM\DC2\EOT\152\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX\EM\SOH\DC2\EOT\152\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX\EM\STX\DC2\EOT\152\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STX\SUB\DC2\EOT\153\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX\SUB\SOH\DC2\EOT\153\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX\SUB\STX\DC2\EOT\153\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STX\ESC\DC2\EOT\154\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX\ESC\SOH\DC2\EOT\154\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX\ESC\STX\DC2\EOT\154\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STX\FS\DC2\EOT\155\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX\FS\SOH\DC2\EOT\155\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX\FS\STX\DC2\EOT\155\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STX\GS\DC2\EOT\156\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX\GS\SOH\DC2\EOT\156\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX\GS\STX\DC2\EOT\156\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX\RS\DC2\EOT\157\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX\RS\SOH\DC2\EOT\157\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX\RS\STX\DC2\EOT\157\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX\US\DC2\EOT\158\ACK\STX\SI\n\ \\r\n\ \\ENQ\ENQ\a\STX\US\SOH\DC2\EOT\158\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STX\US\STX\DC2\EOT\158\ACK\f\SO\n\ \\f\n\ \\EOT\ENQ\a\STX \DC2\EOT\159\ACK\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\a\STX \SOH\DC2\EOT\159\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX \STX\DC2\EOT\159\ACK\SI\DC1\n\ \\f\n\ \\EOT\ENQ\a\STX!\DC2\EOT\160\ACK\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\a\STX!\SOH\DC2\EOT\160\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX!\STX\DC2\EOT\160\ACK\SI\DC1\n\ \\f\n\ \\EOT\ENQ\a\STX\"\DC2\EOT\161\ACK\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\a\STX\"\SOH\DC2\EOT\161\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX\"\STX\DC2\EOT\161\ACK\SI\DC1\n\ \\f\n\ \\EOT\ENQ\a\STX#\DC2\EOT\162\ACK\STX\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STX#\SOH\DC2\EOT\162\ACK\STX\EOT\n\ \\r\n\ \\ENQ\ENQ\a\STX#\STX\DC2\EOT\162\ACK\a\t\n\ \\f\n\ \\EOT\ENQ\a\STX$\DC2\EOT\163\ACK\STX\SI\n\ \\r\n\ \\ENQ\ENQ\a\STX$\SOH\DC2\EOT\163\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STX$\STX\DC2\EOT\163\ACK\f\SO\n\ \\f\n\ \\EOT\ENQ\a\STX%\DC2\EOT\164\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STX%\SOH\DC2\EOT\164\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX%\STX\DC2\EOT\164\ACK\v\f\n\ \\f\n\ \\EOT\ENQ\a\STX&\DC2\EOT\165\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX&\SOH\DC2\EOT\165\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX&\STX\DC2\EOT\165\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX'\DC2\EOT\166\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX'\SOH\DC2\EOT\166\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX'\STX\DC2\EOT\166\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX(\DC2\EOT\167\ACK\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\a\STX(\SOH\DC2\EOT\167\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX(\STX\DC2\EOT\167\ACK\SI\DC1\n\ \\f\n\ \\EOT\ENQ\a\STX)\DC2\EOT\168\ACK\STX\SI\n\ \\r\n\ \\ENQ\ENQ\a\STX)\SOH\DC2\EOT\168\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STX)\STX\DC2\EOT\168\ACK\f\SO\n\ \\f\n\ \\EOT\ENQ\a\STX*\DC2\EOT\169\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STX*\SOH\DC2\EOT\169\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STX*\STX\DC2\EOT\169\ACK\n\ \\f\n\ \\f\n\ \\EOT\ENQ\a\STX+\DC2\EOT\170\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX+\SOH\DC2\EOT\170\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX+\STX\DC2\EOT\170\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX,\DC2\EOT\171\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STX,\SOH\DC2\EOT\171\ACK\STX\ETX\n\ \\r\n\ \\ENQ\ENQ\a\STX,\STX\DC2\EOT\171\ACK\ACK\b\n\ \\f\n\ \\EOT\ENQ\a\STX-\DC2\EOT\172\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX-\SOH\DC2\EOT\172\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX-\STX\DC2\EOT\172\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX.\DC2\EOT\173\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX.\SOH\DC2\EOT\173\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX.\STX\DC2\EOT\173\ACK\t\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX/\DC2\EOT\174\ACK\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\a\STX/\SOH\DC2\EOT\174\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX/\STX\DC2\EOT\174\ACK\SI\DC1\n\ \\f\n\ \\EOT\ENQ\a\STX0\DC2\EOT\175\ACK\STX\ETB\n\ \\r\n\ \\ENQ\ENQ\a\STX0\SOH\DC2\EOT\175\ACK\STX\DC1\n\ \\r\n\ \\ENQ\ENQ\a\STX0\STX\DC2\EOT\175\ACK\DC4\SYN\n\ \\f\n\ \\EOT\ENQ\a\STX1\DC2\EOT\176\ACK\STX\SI\n\ \\r\n\ \\ENQ\ENQ\a\STX1\SOH\DC2\EOT\176\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STX1\STX\DC2\EOT\176\ACK\f\SO\n\ \\f\n\ \\EOT\ENQ\a\STX2\DC2\EOT\177\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX2\SOH\DC2\EOT\177\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STX2\STX\DC2\EOT\177\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STX3\DC2\EOT\178\ACK\STX\DC1\n\ \\r\n\ \\ENQ\ENQ\a\STX3\SOH\DC2\EOT\178\ACK\STX\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STX3\STX\DC2\EOT\178\ACK\r\DLE\n\ \\f\n\ \\EOT\ENQ\a\STX4\DC2\EOT\179\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STX4\SOH\DC2\EOT\179\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX4\STX\DC2\EOT\179\ACK\v\f\n\ \\f\n\ \\EOT\ENQ\a\STX5\DC2\EOT\180\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STX5\SOH\DC2\EOT\180\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STX5\STX\DC2\EOT\180\ACK\n\ \\f\n\ \\f\n\ \\EOT\ENQ\a\STX6\DC2\EOT\181\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX6\SOH\DC2\EOT\181\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX6\STX\DC2\EOT\181\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX7\DC2\EOT\182\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX7\SOH\DC2\EOT\182\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX7\STX\DC2\EOT\182\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STX8\DC2\EOT\183\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX8\SOH\DC2\EOT\183\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX8\STX\DC2\EOT\183\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX9\DC2\EOT\184\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STX9\SOH\DC2\EOT\184\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX9\STX\DC2\EOT\184\ACK\t\f\n\ \\f\n\ \\EOT\ENQ\a\STX:\DC2\EOT\185\ACK\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\a\STX:\SOH\DC2\EOT\185\ACK\STX\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STX:\STX\DC2\EOT\185\ACK\r\SI\n\ \\f\n\ \\EOT\ENQ\a\STX;\DC2\EOT\186\ACK\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\a\STX;\SOH\DC2\EOT\186\ACK\STX\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STX;\STX\DC2\EOT\186\ACK\r\SI\n\ \\f\n\ \\EOT\ENQ\a\STX<\DC2\EOT\187\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX<\SOH\DC2\EOT\187\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX<\STX\DC2\EOT\187\ACK\v\r\n\ \(\n\ \\EOT\ENQ\a\STX=\DC2\EOT\188\ACK\STX\SI\"\SUB https://nickel-lang.org/\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STX=\SOH\DC2\EOT\188\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX=\STX\DC2\EOT\188\ACK\v\SO\n\ \\f\n\ \\EOT\ENQ\a\STX>\DC2\EOT\189\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STX>\SOH\DC2\EOT\189\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX>\STX\DC2\EOT\189\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STX?\DC2\EOT\190\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STX?\SOH\DC2\EOT\190\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STX?\STX\DC2\EOT\190\ACK\n\ \\f\n\ \\f\n\ \\EOT\ENQ\a\STX@\DC2\EOT\191\ACK\STX\DC3\n\ \\r\n\ \\ENQ\ENQ\a\STX@\SOH\DC2\EOT\191\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STX@\STX\DC2\EOT\191\ACK\DLE\DC2\n\ \\f\n\ \\EOT\ENQ\a\STXA\DC2\EOT\192\ACK\STX\NAK\n\ \\r\n\ \\ENQ\ENQ\a\STXA\SOH\DC2\EOT\192\ACK\STX\SI\n\ \\r\n\ \\ENQ\ENQ\a\STXA\STX\DC2\EOT\192\ACK\DC2\DC4\n\ \\f\n\ \\EOT\ENQ\a\STXB\DC2\EOT\193\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STXB\SOH\DC2\EOT\193\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STXB\STX\DC2\EOT\193\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STXC\DC2\EOT\194\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STXC\SOH\DC2\EOT\194\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STXC\STX\DC2\EOT\194\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STXD\DC2\EOT\195\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STXD\SOH\DC2\EOT\195\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STXD\STX\DC2\EOT\195\ACK\n\ \\f\n\ \\f\n\ \\EOT\ENQ\a\STXE\DC2\EOT\196\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXE\SOH\DC2\EOT\196\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STXE\STX\DC2\EOT\196\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STXF\DC2\EOT\197\ACK\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\a\STXF\SOH\DC2\EOT\197\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXF\STX\DC2\EOT\197\ACK\SI\DC1\n\ \\f\n\ \\EOT\ENQ\a\STXG\DC2\EOT\198\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STXG\SOH\DC2\EOT\198\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STXG\STX\DC2\EOT\198\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STXH\DC2\EOT\199\ACK\STX\DC1\n\ \\r\n\ \\ENQ\ENQ\a\STXH\SOH\DC2\EOT\199\ACK\STX\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STXH\STX\DC2\EOT\199\ACK\r\DLE\n\ \\f\n\ \\EOT\ENQ\a\STXI\DC2\EOT\200\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STXI\SOH\DC2\EOT\200\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STXI\STX\DC2\EOT\200\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STXJ\DC2\EOT\201\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STXJ\SOH\DC2\EOT\201\ACK\STX\ETX\n\ \\r\n\ \\ENQ\ENQ\a\STXJ\STX\DC2\EOT\201\ACK\ACK\b\n\ \\f\n\ \\EOT\ENQ\a\STXK\DC2\EOT\202\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STXK\SOH\DC2\EOT\202\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STXK\STX\DC2\EOT\202\ACK\v\r\n\ \\f\n\ \\EOT\ENQ\a\STXL\DC2\EOT\203\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXL\SOH\DC2\EOT\203\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STXL\STX\DC2\EOT\203\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STXM\DC2\EOT\204\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STXM\SOH\DC2\EOT\204\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STXM\STX\DC2\EOT\204\ACK\n\ \\f\n\ \2\n\ \\EOT\ENQ\a\STXN\DC2\EOT\205\ACK\STX\SO\"$ Internal language for testing SCIP\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STXN\SOH\DC2\EOT\205\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STXN\STX\DC2\EOT\205\ACK\n\ \\r\n\ \\f\n\ \\EOT\ENQ\a\STXO\DC2\EOT\206\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXO\SOH\DC2\EOT\206\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STXO\STX\DC2\EOT\206\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STXP\DC2\EOT\207\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXP\SOH\DC2\EOT\207\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STXP\STX\DC2\EOT\207\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STXQ\DC2\EOT\208\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXQ\SOH\DC2\EOT\208\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STXQ\STX\DC2\EOT\208\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STXR\DC2\EOT\209\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STXR\SOH\DC2\EOT\209\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STXR\STX\DC2\EOT\209\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STXS\DC2\EOT\210\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXS\SOH\DC2\EOT\210\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STXS\STX\DC2\EOT\210\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STXT\DC2\EOT\211\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STXT\SOH\DC2\EOT\211\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STXT\STX\DC2\EOT\211\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STXU\DC2\EOT\212\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STXU\SOH\DC2\EOT\212\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STXU\STX\DC2\EOT\212\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STXV\DC2\EOT\213\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXV\SOH\DC2\EOT\213\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STXV\STX\DC2\EOT\213\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STXW\DC2\EOT\214\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXW\SOH\DC2\EOT\214\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STXW\STX\DC2\EOT\214\ACK\n\ \\v\n\ \\f\n\ \\EOT\ENQ\a\STXX\DC2\EOT\215\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STXX\SOH\DC2\EOT\215\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STXX\STX\DC2\EOT\215\ACK\v\r\n\ \\DC4\n\ \\EOT\ENQ\a\STXY\DC2\EOT\216\ACK\STX\DC3\"\ACK Bash\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STXY\SOH\DC2\EOT\216\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STXY\STX\DC2\EOT\216\ACK\DLE\DC2\n\ \\f\n\ \\EOT\ENQ\a\STXZ\DC2\EOT\217\ACK\STX\SI\n\ \\r\n\ \\ENQ\ENQ\a\STXZ\SOH\DC2\EOT\217\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STXZ\STX\DC2\EOT\217\ACK\f\SO\n\ \\f\n\ \\EOT\ENQ\a\STX[\DC2\EOT\218\ACK\STX\SO\n\ \\r\n\ \\ENQ\ENQ\a\STX[\SOH\DC2\EOT\218\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STX[\STX\DC2\EOT\218\ACK\n\ \\r\n\ \\f\n\ \\EOT\ENQ\a\STX\\\DC2\EOT\219\ACK\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\a\STX\\\SOH\DC2\EOT\219\ACK\STX\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STX\\\STX\DC2\EOT\219\ACK\r\SI\n\ \\f\n\ \\EOT\ENQ\a\STX]\DC2\EOT\220\ACK\STX\SI\n\ \\r\n\ \\ENQ\ENQ\a\STX]\SOH\DC2\EOT\220\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STX]\STX\DC2\EOT\220\ACK\v\SO\n\ \\f\n\ \\EOT\ENQ\a\STX^\DC2\EOT\221\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX^\SOH\DC2\EOT\221\ACK\STX\a\n\ \\r\n\ \\ENQ\ENQ\a\STX^\STX\DC2\EOT\221\ACK\n\ \\v\n\ \\f\n\ \\EOT\ENQ\a\STX_\DC2\EOT\222\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX_\SOH\DC2\EOT\222\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STX_\STX\DC2\EOT\222\ACK\b\v\n\ \\f\n\ \\EOT\ENQ\a\STX`\DC2\EOT\223\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STX`\SOH\DC2\EOT\223\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STX`\STX\DC2\EOT\223\ACK\t\v\n\ \\f\n\ \\EOT\ENQ\a\STXa\DC2\EOT\224\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STXa\SOH\DC2\EOT\224\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STXa\STX\DC2\EOT\224\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STXb\DC2\EOT\225\ACK\STX\SI\n\ \\r\n\ \\ENQ\ENQ\a\STXb\SOH\DC2\EOT\225\ACK\STX\b\n\ \\r\n\ \\ENQ\ENQ\a\STXb\STX\DC2\EOT\225\ACK\v\SO\n\ \\f\n\ \\EOT\ENQ\a\STXc\DC2\EOT\226\ACK\STX\DC2\n\ \\r\n\ \\ENQ\ENQ\a\STXc\SOH\DC2\EOT\226\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXc\STX\DC2\EOT\226\ACK\SI\DC1\n\ \\f\n\ \\EOT\ENQ\a\STXd\DC2\EOT\227\ACK\STX\ETB\n\ \\r\n\ \\ENQ\ENQ\a\STXd\SOH\DC2\EOT\227\ACK\STX\DC1\n\ \\r\n\ \\ENQ\ENQ\a\STXd\STX\DC2\EOT\227\ACK\DC4\SYN\n\ \\f\n\ \\EOT\ENQ\a\STXe\DC2\EOT\228\ACK\STX\DLE\n\ \\r\n\ \\ENQ\ENQ\a\STXe\SOH\DC2\EOT\228\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STXe\STX\DC2\EOT\228\ACK\f\SI\n\ \\f\n\ \\EOT\ENQ\a\STXf\DC2\EOT\229\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STXf\SOH\DC2\EOT\229\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STXf\STX\DC2\EOT\229\ACK\t\f\n\ \\f\n\ \\EOT\ENQ\a\STXg\DC2\EOT\230\ACK\STX\DC3\n\ \\r\n\ \\ENQ\ENQ\a\STXg\SOH\DC2\EOT\230\ACK\STX\r\n\ \\r\n\ \\ENQ\ENQ\a\STXg\STX\DC2\EOT\230\ACK\DLE\DC2\n\ \\f\n\ \\EOT\ENQ\a\STXh\DC2\EOT\231\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STXh\SOH\DC2\EOT\231\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STXh\STX\DC2\EOT\231\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STXi\DC2\EOT\232\ACK\STX\SI\n\ \\r\n\ \\ENQ\ENQ\a\STXi\SOH\DC2\EOT\232\ACK\STX\t\n\ \\r\n\ \\ENQ\ENQ\a\STXi\STX\DC2\EOT\232\ACK\f\SO\n\ \\f\n\ \\EOT\ENQ\a\STXj\DC2\EOT\233\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STXj\SOH\DC2\EOT\233\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STXj\STX\DC2\EOT\233\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STXk\DC2\EOT\234\ACK\STX\v\n\ \\r\n\ \\ENQ\ENQ\a\STXk\SOH\DC2\EOT\234\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STXk\STX\DC2\EOT\234\ACK\b\n\ \\n\ \\f\n\ \\EOT\ENQ\a\STXl\DC2\EOT\235\ACK\STX\f\n\ \\r\n\ \\ENQ\ENQ\a\STXl\SOH\DC2\EOT\235\ACK\STX\ACK\n\ \\r\n\ \\ENQ\ENQ\a\STXl\STX\DC2\EOT\235\ACK\t\v\n\ \\147\ETX\n\ \\EOT\ENQ\a\STXm\DC2\EOT\236\ACK\STX\v\"\132\ETX NextLanguage = 111;\n\ \ Steps add a new language:\n\ \ 1. Copy-paste the \"NextLanguage = N\" line above\n\ \ 2. Increment \"NextLanguage = N\" to \"NextLanguage = N+1\"\n\ \ 3. Replace \"NextLanguage = N\" with the name of the new language.\n\ \ 4. Move the new language to the correct line above using alphabetical order\n\ \ 5. (optional) Add a brief comment behind the language if the name is not self-explanatory\n\ \\n\ \\r\n\ \\ENQ\ENQ\a\STXm\SOH\DC2\EOT\236\ACK\STX\ENQ\n\ \\r\n\ \\ENQ\ENQ\a\STXm\STX\DC2\EOT\236\ACK\b\n\ \b\ACKproto3"