{-# LANGUAGE BangPatterns, DeriveDataTypeable, DeriveGeneric, FlexibleInstances, MultiParamTypeClasses, OverloadedStrings #-} {-# OPTIONS_GHC -fno-warn-unused-imports #-} module Network.Riak.Protocol.TsCoverageResponse (TsCoverageResponse(..)) where import Prelude ((+), (/), (++), (.)) import qualified Prelude 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 Network.Riak.Protocol.TsCoverageEntry as Protocol (TsCoverageEntry) data TsCoverageResponse = TsCoverageResponse{entries :: !(P'.Seq Protocol.TsCoverageEntry)} deriving (Prelude'.Show, Prelude'.Eq, Prelude'.Ord, Prelude'.Typeable, Prelude'.Data, Prelude'.Generic) instance P'.Mergeable TsCoverageResponse where mergeAppend (TsCoverageResponse x'1) (TsCoverageResponse y'1) = TsCoverageResponse (P'.mergeAppend x'1 y'1) instance P'.Default TsCoverageResponse where defaultValue = TsCoverageResponse P'.defaultValue instance P'.Wire TsCoverageResponse where wireSize ft' self'@(TsCoverageResponse x'1) = case ft' of 10 -> calc'Size 11 -> P'.prependMessageSize calc'Size _ -> P'.wireSizeErr ft' self' where calc'Size = (P'.wireSizeRep 1 11 x'1) wirePutWithSize ft' self'@(TsCoverageResponse x'1) = case ft' of 10 -> put'Fields 11 -> put'FieldsSized _ -> P'.wirePutErr ft' self' where put'Fields = P'.sequencePutWithSize [P'.wirePutRepWithSize 10 11 x'1] 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'.discardUnknown update'Self) 11 -> P'.getMessageWith (P'.catch'Unknown' P'.discardUnknown update'Self) _ -> P'.wireGetErr ft' where update'Self wire'Tag old'Self = case wire'Tag of 10 -> Prelude'.fmap (\ !new'Field -> old'Self{entries = P'.append (entries old'Self) new'Field}) (P'.wireGet 11) _ -> let (field'Number, wire'Type) = P'.splitWireTag wire'Tag in P'.unknown field'Number wire'Type old'Self instance P'.MessageAPI msg' (msg' -> TsCoverageResponse) TsCoverageResponse where getVal m' f' = f' m' instance P'.GPB TsCoverageResponse instance P'.ReflectDescriptor TsCoverageResponse where getMessageInfo _ = P'.GetMessageInfo (P'.fromDistinctAscList []) (P'.fromDistinctAscList [10]) reflectDescriptorInfo _ = Prelude'.read "DescriptorInfo {descName = ProtoName {protobufName = FIName \".Protocol.TsCoverageResponse\", haskellPrefix = [MName \"Network\",MName \"Riak\"], parentModule = [MName \"Protocol\"], baseName = MName \"TsCoverageResponse\"}, descFilePath = [\"Network\",\"Riak\",\"Protocol\",\"TsCoverageResponse.hs\"], isGroup = False, fields = fromList [FieldInfo {fieldName = ProtoFName {protobufName' = FIName \".Protocol.TsCoverageResponse.entries\", haskellPrefix' = [MName \"Network\",MName \"Riak\"], parentModule' = [MName \"Protocol\",MName \"TsCoverageResponse\"], baseName' = FName \"entries\", baseNamePrefix' = \"\"}, fieldNumber = FieldId {getFieldId = 1}, wireTag = WireTag {getWireTag = 10}, packedTag = Nothing, wireTagLength = 1, isPacked = False, isRequired = False, canRepeat = True, mightPack = False, typeCode = FieldType {getFieldType = 11}, typeName = Just (ProtoName {protobufName = FIName \".Protocol.TsCoverageEntry\", haskellPrefix = [MName \"Network\",MName \"Riak\"], parentModule = [MName \"Protocol\"], baseName = MName \"TsCoverageEntry\"}), hsRawDefault = Nothing, hsDefault = Nothing}], descOneofs = fromList [], keys = fromList [], extRanges = [], knownKeys = fromList [], storeUnknown = False, lazyFields = False, makeLenses = False, jsonInstances = False}" instance P'.TextType TsCoverageResponse where tellT = P'.tellSubMessage getT = P'.getSubMessage instance P'.TextMsg TsCoverageResponse where textPut msg = do P'.tellT "entries" (entries msg) textGet = do mods <- P'.sepEndBy (P'.choice [parse'entries]) P'.spaces Prelude'.return (Prelude'.foldl (\ v f -> f v) P'.defaultValue mods) where parse'entries = P'.try (do v <- P'.getT "entries" Prelude'.return (\ o -> o{entries = P'.append (entries o) v}))