protocol-buffers-descriptor-2.4.17: src-auto-generated/Text/DescriptorProtos/UninterpretedOption.hs
{-# LANGUAGE BangPatterns, DeriveDataTypeable, DeriveGeneric, FlexibleInstances, MultiParamTypeClasses, OverloadedStrings #-}
{-# OPTIONS_GHC -w #-}
module Text.DescriptorProtos.UninterpretedOption (UninterpretedOption(..)) where
import Prelude ((+), (/), (++), (.))
import qualified Prelude as Prelude'
import qualified Data.List as Prelude'
import qualified Data.Typeable as Prelude'
import qualified GHC.Generics as Prelude'
import qualified Data.Data as Prelude'
import qualified Text.ProtocolBuffers.Header as P'
import qualified Text.DescriptorProtos.UninterpretedOption.NamePart as DescriptorProtos.UninterpretedOption (NamePart)
data UninterpretedOption = UninterpretedOption{name :: !(P'.Seq DescriptorProtos.UninterpretedOption.NamePart),
identifier_value :: !(P'.Maybe P'.Utf8), positive_int_value :: !(P'.Maybe P'.Word64),
negative_int_value :: !(P'.Maybe P'.Int64), double_value :: !(P'.Maybe P'.Double),
string_value :: !(P'.Maybe P'.ByteString), aggregate_value :: !(P'.Maybe P'.Utf8),
unknown'field :: !(P'.UnknownField)}
deriving (Prelude'.Show, Prelude'.Eq, Prelude'.Ord, Prelude'.Typeable, Prelude'.Data, Prelude'.Generic)
instance P'.UnknownMessage UninterpretedOption where
getUnknownField = unknown'field
putUnknownField u'f msg = msg{unknown'field = u'f}
instance P'.Mergeable UninterpretedOption where
mergeAppend (UninterpretedOption x'1 x'2 x'3 x'4 x'5 x'6 x'7 x'8) (UninterpretedOption y'1 y'2 y'3 y'4 y'5 y'6 y'7 y'8)
= let !z'1 = P'.mergeAppend x'1 y'1
!z'2 = P'.mergeAppend x'2 y'2
!z'3 = P'.mergeAppend x'3 y'3
!z'4 = P'.mergeAppend x'4 y'4
!z'5 = P'.mergeAppend x'5 y'5
!z'6 = P'.mergeAppend x'6 y'6
!z'7 = P'.mergeAppend x'7 y'7
!z'8 = P'.mergeAppend x'8 y'8
in UninterpretedOption z'1 z'2 z'3 z'4 z'5 z'6 z'7 z'8
instance P'.Default UninterpretedOption where
defaultValue
= UninterpretedOption P'.defaultValue P'.defaultValue P'.defaultValue P'.defaultValue P'.defaultValue P'.defaultValue
P'.defaultValue
P'.defaultValue
instance P'.Wire UninterpretedOption where
wireSize ft' self'@(UninterpretedOption x'1 x'2 x'3 x'4 x'5 x'6 x'7 x'8)
= case ft' of
10 -> calc'Size
11 -> P'.prependMessageSize calc'Size
_ -> P'.wireSizeErr ft' self'
where
calc'Size
= (P'.wireSizeRep 1 11 x'1 + P'.wireSizeOpt 1 9 x'2 + P'.wireSizeOpt 1 4 x'3 + P'.wireSizeOpt 1 3 x'4 +
P'.wireSizeOpt 1 1 x'5
+ P'.wireSizeOpt 1 12 x'6
+ P'.wireSizeOpt 1 9 x'7
+ P'.wireSizeUnknownField x'8)
wirePutWithSize ft' self'@(UninterpretedOption x'1 x'2 x'3 x'4 x'5 x'6 x'7 x'8)
= case ft' of
10 -> put'Fields
11 -> put'FieldsSized
_ -> P'.wirePutErr ft' self'
where
put'Fields
= P'.sequencePutWithSize
[P'.wirePutRepWithSize 18 11 x'1, P'.wirePutOptWithSize 26 9 x'2, P'.wirePutOptWithSize 32 4 x'3,
P'.wirePutOptWithSize 40 3 x'4, P'.wirePutOptWithSize 49 1 x'5, P'.wirePutOptWithSize 58 12 x'6,
P'.wirePutOptWithSize 66 9 x'7, P'.wirePutUnknownFieldWithSize x'8]
put'FieldsSized
= let size' = Prelude'.fst (P'.runPutM put'Fields)
put'Size
= do
P'.putSize size'
Prelude'.return (P'.size'WireSize size')
in P'.sequencePutWithSize [put'Size, put'Fields]
wireGet ft'
= case ft' of
10 -> P'.getBareMessageWith (P'.catch'Unknown' P'.loadUnknown update'Self)
11 -> P'.getMessageWith (P'.catch'Unknown' P'.loadUnknown update'Self)
_ -> P'.wireGetErr ft'
where
update'Self wire'Tag old'Self
= case wire'Tag of
18 -> Prelude'.fmap (\ !new'Field -> old'Self{name = P'.append (name old'Self) new'Field}) (P'.wireGet 11)
26 -> Prelude'.fmap (\ !new'Field -> old'Self{identifier_value = Prelude'.Just new'Field}) (P'.wireGet 9)
32 -> Prelude'.fmap (\ !new'Field -> old'Self{positive_int_value = Prelude'.Just new'Field}) (P'.wireGet 4)
40 -> Prelude'.fmap (\ !new'Field -> old'Self{negative_int_value = Prelude'.Just new'Field}) (P'.wireGet 3)
49 -> Prelude'.fmap (\ !new'Field -> old'Self{double_value = Prelude'.Just new'Field}) (P'.wireGet 1)
58 -> Prelude'.fmap (\ !new'Field -> old'Self{string_value = Prelude'.Just new'Field}) (P'.wireGet 12)
66 -> Prelude'.fmap (\ !new'Field -> old'Self{aggregate_value = Prelude'.Just new'Field}) (P'.wireGet 9)
_ -> let (field'Number, wire'Type) = P'.splitWireTag wire'Tag in P'.unknown field'Number wire'Type old'Self
instance P'.MessageAPI msg' (msg' -> UninterpretedOption) UninterpretedOption where
getVal m' f' = f' m'
instance P'.GPB UninterpretedOption
instance P'.ReflectDescriptor UninterpretedOption where
getMessageInfo _ = P'.GetMessageInfo (P'.fromDistinctAscList []) (P'.fromDistinctAscList [18, 26, 32, 40, 49, 58, 66])
reflectDescriptorInfo _
= Prelude'.read
"DescriptorInfo {descName = ProtoName {protobufName = FIName \".google.protobuf.UninterpretedOption\", haskellPrefix = [MName \"Text\"], parentModule = [MName \"DescriptorProtos\"], baseName = MName \"UninterpretedOption\"}, descFilePath = [\"Text\",\"DescriptorProtos\",\"UninterpretedOption.hs\"], isGroup = False, fields = fromList [FieldInfo {fieldName = ProtoFName {protobufName' = FIName \".google.protobuf.UninterpretedOption.name\", haskellPrefix' = [MName \"Text\"], parentModule' = [MName \"DescriptorProtos\",MName \"UninterpretedOption\"], baseName' = FName \"name\", baseNamePrefix' = \"\"}, fieldNumber = FieldId {getFieldId = 2}, wireTag = WireTag {getWireTag = 18}, packedTag = Nothing, wireTagLength = 1, isPacked = False, isRequired = False, canRepeat = True, mightPack = False, typeCode = FieldType {getFieldType = 11}, typeName = Just (ProtoName {protobufName = FIName \".google.protobuf.UninterpretedOption.NamePart\", haskellPrefix = [MName \"Text\"], parentModule = [MName \"DescriptorProtos\",MName \"UninterpretedOption\"], baseName = MName \"NamePart\"}), hsRawDefault = Nothing, hsDefault = Nothing},FieldInfo {fieldName = ProtoFName {protobufName' = FIName \".google.protobuf.UninterpretedOption.identifier_value\", haskellPrefix' = [MName \"Text\"], parentModule' = [MName \"DescriptorProtos\",MName \"UninterpretedOption\"], baseName' = FName \"identifier_value\", baseNamePrefix' = \"\"}, fieldNumber = FieldId {getFieldId = 3}, wireTag = WireTag {getWireTag = 26}, packedTag = Nothing, wireTagLength = 1, isPacked = False, isRequired = False, canRepeat = False, mightPack = False, typeCode = FieldType {getFieldType = 9}, typeName = Nothing, hsRawDefault = Nothing, hsDefault = Nothing},FieldInfo {fieldName = ProtoFName {protobufName' = FIName \".google.protobuf.UninterpretedOption.positive_int_value\", haskellPrefix' = [MName \"Text\"], parentModule' = [MName \"DescriptorProtos\",MName \"UninterpretedOption\"], baseName' = FName \"positive_int_value\", baseNamePrefix' = \"\"}, fieldNumber = FieldId {getFieldId = 4}, wireTag = WireTag {getWireTag = 32}, packedTag = Nothing, wireTagLength = 1, isPacked = False, isRequired = False, canRepeat = False, mightPack = False, typeCode = FieldType {getFieldType = 4}, typeName = Nothing, hsRawDefault = Nothing, hsDefault = Nothing},FieldInfo {fieldName = ProtoFName {protobufName' = FIName \".google.protobuf.UninterpretedOption.negative_int_value\", haskellPrefix' = [MName \"Text\"], parentModule' = [MName \"DescriptorProtos\",MName \"UninterpretedOption\"], baseName' = FName \"negative_int_value\", baseNamePrefix' = \"\"}, fieldNumber = FieldId {getFieldId = 5}, wireTag = WireTag {getWireTag = 40}, packedTag = Nothing, wireTagLength = 1, isPacked = False, isRequired = False, canRepeat = False, mightPack = False, typeCode = FieldType {getFieldType = 3}, typeName = Nothing, hsRawDefault = Nothing, hsDefault = Nothing},FieldInfo {fieldName = ProtoFName {protobufName' = FIName \".google.protobuf.UninterpretedOption.double_value\", haskellPrefix' = [MName \"Text\"], parentModule' = [MName \"DescriptorProtos\",MName \"UninterpretedOption\"], baseName' = FName \"double_value\", baseNamePrefix' = \"\"}, fieldNumber = FieldId {getFieldId = 6}, wireTag = WireTag {getWireTag = 49}, packedTag = Nothing, wireTagLength = 1, isPacked = False, isRequired = False, canRepeat = False, mightPack = False, typeCode = FieldType {getFieldType = 1}, typeName = Nothing, hsRawDefault = Nothing, hsDefault = Nothing},FieldInfo {fieldName = ProtoFName {protobufName' = FIName \".google.protobuf.UninterpretedOption.string_value\", haskellPrefix' = [MName \"Text\"], parentModule' = [MName \"DescriptorProtos\",MName \"UninterpretedOption\"], baseName' = FName \"string_value\", baseNamePrefix' = \"\"}, fieldNumber = FieldId {getFieldId = 7}, wireTag = WireTag {getWireTag = 58}, packedTag = Nothing, wireTagLength = 1, isPacked = False, isRequired = False, canRepeat = False, mightPack = False, typeCode = FieldType {getFieldType = 12}, typeName = Nothing, hsRawDefault = Nothing, hsDefault = Nothing},FieldInfo {fieldName = ProtoFName {protobufName' = FIName \".google.protobuf.UninterpretedOption.aggregate_value\", haskellPrefix' = [MName \"Text\"], parentModule' = [MName \"DescriptorProtos\",MName \"UninterpretedOption\"], baseName' = FName \"aggregate_value\", baseNamePrefix' = \"\"}, fieldNumber = FieldId {getFieldId = 8}, wireTag = WireTag {getWireTag = 66}, packedTag = Nothing, wireTagLength = 1, isPacked = False, isRequired = False, canRepeat = False, mightPack = False, typeCode = FieldType {getFieldType = 9}, typeName = Nothing, hsRawDefault = Nothing, hsDefault = Nothing}], descOneofs = fromList [], keys = fromList [], extRanges = [], knownKeys = fromList [], storeUnknown = True, lazyFields = False, makeLenses = False, jsonInstances = False}"
instance P'.TextType UninterpretedOption where
tellT = P'.tellSubMessage
getT = P'.getSubMessage
instance P'.TextMsg UninterpretedOption where
textPut msg
= do
P'.tellT "name" (name msg)
P'.tellT "identifier_value" (identifier_value msg)
P'.tellT "positive_int_value" (positive_int_value msg)
P'.tellT "negative_int_value" (negative_int_value msg)
P'.tellT "double_value" (double_value msg)
P'.tellT "string_value" (string_value msg)
P'.tellT "aggregate_value" (aggregate_value msg)
textGet
= do
mods <- P'.sepEndBy
(P'.choice
[parse'name, parse'identifier_value, parse'positive_int_value, parse'negative_int_value, parse'double_value,
parse'string_value, parse'aggregate_value])
P'.spaces
Prelude'.return (Prelude'.foldl' (\ v f -> f v) P'.defaultValue mods)
where
parse'name = Prelude'.fmap (\ v o -> o{name = P'.append (name o) v}) (P'.try (P'.getT "name"))
parse'identifier_value = Prelude'.fmap (\ v o -> o{identifier_value = v}) (P'.try (P'.getT "identifier_value"))
parse'positive_int_value = Prelude'.fmap (\ v o -> o{positive_int_value = v}) (P'.try (P'.getT "positive_int_value"))
parse'negative_int_value = Prelude'.fmap (\ v o -> o{negative_int_value = v}) (P'.try (P'.getT "negative_int_value"))
parse'double_value = Prelude'.fmap (\ v o -> o{double_value = v}) (P'.try (P'.getT "double_value"))
parse'string_value = Prelude'.fmap (\ v o -> o{string_value = v}) (P'.try (P'.getT "string_value"))
parse'aggregate_value = Prelude'.fmap (\ v o -> o{aggregate_value = v}) (P'.try (P'.getT "aggregate_value"))