{-# LANGUAGE BangPatterns, DeriveDataTypeable, DeriveGeneric, FlexibleInstances, MultiParamTypeClasses, OverloadedStrings #-}
{-# OPTIONS_GHC  -fno-warn-unused-imports #-}
module Network.Riak.Protocol.CounterGetResponse (CounterGetResponse(..)) 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'

data CounterGetResponse = CounterGetResponse{value :: !(P'.Maybe P'.Int64)}
                          deriving (Prelude'.Show, Prelude'.Eq, Prelude'.Ord, Prelude'.Typeable, Prelude'.Data, Prelude'.Generic)

instance P'.Mergeable CounterGetResponse where
  mergeAppend (CounterGetResponse x'1) (CounterGetResponse y'1) = CounterGetResponse (P'.mergeAppend x'1 y'1)

instance P'.Default CounterGetResponse where
  defaultValue = CounterGetResponse P'.defaultValue

instance P'.Wire CounterGetResponse where
  wireSize ft' self'@(CounterGetResponse x'1)
   = case ft' of
       10 -> calc'Size
       11 -> P'.prependMessageSize calc'Size
       _ -> P'.wireSizeErr ft' self'
    where
        calc'Size = (P'.wireSizeOpt 1 18 x'1)
  wirePutWithSize ft' self'@(CounterGetResponse x'1)
   = case ft' of
       10 -> put'Fields
       11 -> put'FieldsSized
       _ -> P'.wirePutErr ft' self'
    where
        put'Fields = P'.sequencePutWithSize [P'.wirePutOptWithSize 8 18 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
             8 -> Prelude'.fmap (\ !new'Field -> old'Self{value = Prelude'.Just new'Field}) (P'.wireGet 18)
             _ -> let (field'Number, wire'Type) = P'.splitWireTag wire'Tag in P'.unknown field'Number wire'Type old'Self

instance P'.MessageAPI msg' (msg' -> CounterGetResponse) CounterGetResponse where
  getVal m' f' = f' m'

instance P'.GPB CounterGetResponse

instance P'.ReflectDescriptor CounterGetResponse where
  getMessageInfo _ = P'.GetMessageInfo (P'.fromDistinctAscList []) (P'.fromDistinctAscList [8])
  reflectDescriptorInfo _
   = Prelude'.read
      "DescriptorInfo {descName = ProtoName {protobufName = FIName \".Protocol.CounterGetResponse\", haskellPrefix = [MName \"Network\",MName \"Riak\"], parentModule = [MName \"Protocol\"], baseName = MName \"CounterGetResponse\"}, descFilePath = [\"Network\",\"Riak\",\"Protocol\",\"CounterGetResponse.hs\"], isGroup = False, fields = fromList [FieldInfo {fieldName = ProtoFName {protobufName' = FIName \".Protocol.CounterGetResponse.value\", haskellPrefix' = [MName \"Network\",MName \"Riak\"], parentModule' = [MName \"Protocol\",MName \"CounterGetResponse\"], baseName' = FName \"value\", baseNamePrefix' = \"\"}, fieldNumber = FieldId {getFieldId = 1}, wireTag = WireTag {getWireTag = 8}, packedTag = Nothing, wireTagLength = 1, isPacked = False, isRequired = False, canRepeat = False, mightPack = False, typeCode = FieldType {getFieldType = 18}, typeName = Nothing, hsRawDefault = Nothing, hsDefault = Nothing}], descOneofs = fromList [], keys = fromList [], extRanges = [], knownKeys = fromList [], storeUnknown = False, lazyFields = False, makeLenses = False, jsonInstances = False}"

instance P'.TextType CounterGetResponse where
  tellT = P'.tellSubMessage
  getT = P'.getSubMessage

instance P'.TextMsg CounterGetResponse where
  textPut msg
   = do
       P'.tellT "value" (value msg)
  textGet
   = do
       mods <- P'.sepEndBy (P'.choice [parse'value]) P'.spaces
       Prelude'.return (Prelude'.foldl (\ v f -> f v) P'.defaultValue mods)
    where
        parse'value
         = P'.try
            (do
               v <- P'.getT "value"
               Prelude'.return (\ o -> o{value = v}))