{- This file was auto-generated from utxorpc/v1alpha/cardano/cardano.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.Utxorpc.V1alpha.Cardano.Cardano ( AddressPattern(), Asset(), AssetPattern(), AuxData(), BigInt(), BigInt'BigInt(..), _BigInt'Int, _BigInt'BigUInt, _BigInt'BigNInt, Block(), BlockBody(), BlockHeader(), Certificate(), Certificate'Certificate(..), _Certificate'StakeRegistration, _Certificate'StakeDeregistration, _Certificate'StakeDelegation, _Certificate'PoolRegistration, _Certificate'PoolRetirement, _Certificate'GenesisKeyDelegation, _Certificate'MirCert, Collateral(), Constr(), CostModel(), CostModels(), EvalError(), EvalTrace(), ExPrices(), ExUnits(), GenesisKeyDelegationCert(), Metadata(), Metadatum(), Metadatum'Metadatum(..), _Metadatum'Int, _Metadatum'Bytes, _Metadatum'Text, _Metadatum'Array, _Metadatum'Map, MetadatumArray(), MetadatumMap(), MetadatumPair(), MirCert(), MirSource(..), MirSource(), MirSource'UnrecognizedValue, MirTarget(), Multiasset(), NativeScript(), NativeScript'NativeScript(..), _NativeScript'ScriptPubkey, _NativeScript'ScriptAll, _NativeScript'ScriptAny, _NativeScript'ScriptNOfK, _NativeScript'InvalidBefore, _NativeScript'InvalidHereafter, NativeScriptList(), PParams(), PlutusData(), PlutusData'PlutusData(..), _PlutusData'Constr, _PlutusData'Map, _PlutusData'BigInt, _PlutusData'BoundedBytes, _PlutusData'Array, PlutusDataArray(), PlutusDataMap(), PlutusDataPair(), PoolMetadata(), PoolRegistrationCert(), PoolRetirementCert(), ProtocolVersion(), RationalNumber(), Redeemer(), RedeemerPurpose(..), RedeemerPurpose(), RedeemerPurpose'UnrecognizedValue, Relay(), Script(), Script'Script(..), _Script'Native, _Script'PlutusV1, _Script'PlutusV2, ScriptNOfK(), StakeCredential(), StakeCredential'StakeCredential(..), _StakeCredential'AddrKeyHash, _StakeCredential'ScriptHash, StakeDelegationCert(), Tx(), TxEval(), TxInput(), TxOutput(), TxOutputPattern(), TxPattern(), TxValidity(), VKeyWitness(), Withdrawal(), WitnessSet() ) 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.Utxorpc.V1alpha.Cardano.Cardano_Fields.exactAddress' @:: Lens' AddressPattern Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.paymentPart' @:: Lens' AddressPattern Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.delegationPart' @:: Lens' AddressPattern Data.ByteString.ByteString@ -} data AddressPattern = AddressPattern'_constructor {_AddressPattern'exactAddress :: !Data.ByteString.ByteString, _AddressPattern'paymentPart :: !Data.ByteString.ByteString, _AddressPattern'delegationPart :: !Data.ByteString.ByteString, _AddressPattern'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show AddressPattern where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField AddressPattern "exactAddress" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AddressPattern'exactAddress (\ x__ y__ -> x__ {_AddressPattern'exactAddress = y__})) Prelude.id instance Data.ProtoLens.Field.HasField AddressPattern "paymentPart" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AddressPattern'paymentPart (\ x__ y__ -> x__ {_AddressPattern'paymentPart = y__})) Prelude.id instance Data.ProtoLens.Field.HasField AddressPattern "delegationPart" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AddressPattern'delegationPart (\ x__ y__ -> x__ {_AddressPattern'delegationPart = y__})) Prelude.id instance Data.ProtoLens.Message AddressPattern where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.AddressPattern" packedMessageDescriptor _ = "\n\ \\SOAddressPattern\DC2#\n\ \\rexact_address\CAN\SOH \SOH(\fR\fexactAddress\DC2!\n\ \\fpayment_part\CAN\STX \SOH(\fR\vpaymentPart\DC2'\n\ \\SIdelegation_part\CAN\ETX \SOH(\fR\SOdelegationPart" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let exactAddress__field_descriptor = Data.ProtoLens.FieldDescriptor "exact_address" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"exactAddress")) :: Data.ProtoLens.FieldDescriptor AddressPattern paymentPart__field_descriptor = Data.ProtoLens.FieldDescriptor "payment_part" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"paymentPart")) :: Data.ProtoLens.FieldDescriptor AddressPattern delegationPart__field_descriptor = Data.ProtoLens.FieldDescriptor "delegation_part" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"delegationPart")) :: Data.ProtoLens.FieldDescriptor AddressPattern in Data.Map.fromList [(Data.ProtoLens.Tag 1, exactAddress__field_descriptor), (Data.ProtoLens.Tag 2, paymentPart__field_descriptor), (Data.ProtoLens.Tag 3, delegationPart__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _AddressPattern'_unknownFields (\ x__ y__ -> x__ {_AddressPattern'_unknownFields = y__}) defMessage = AddressPattern'_constructor {_AddressPattern'exactAddress = Data.ProtoLens.fieldDefault, _AddressPattern'paymentPart = Data.ProtoLens.fieldDefault, _AddressPattern'delegationPart = Data.ProtoLens.fieldDefault, _AddressPattern'_unknownFields = []} parseMessage = let loop :: AddressPattern -> Data.ProtoLens.Encoding.Bytes.Parser AddressPattern 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "exact_address" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"exactAddress") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "payment_part" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"paymentPart") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "delegation_part" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"delegationPart") 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) "AddressPattern" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"exactAddress") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"paymentPart") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"delegationPart") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData AddressPattern where rnf = \ x__ -> Control.DeepSeq.deepseq (_AddressPattern'_unknownFields x__) (Control.DeepSeq.deepseq (_AddressPattern'exactAddress x__) (Control.DeepSeq.deepseq (_AddressPattern'paymentPart x__) (Control.DeepSeq.deepseq (_AddressPattern'delegationPart x__) ()))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.name' @:: Lens' Asset Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.outputCoin' @:: Lens' Asset Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.mintCoin' @:: Lens' Asset Data.Int.Int64@ -} data Asset = Asset'_constructor {_Asset'name :: !Data.ByteString.ByteString, _Asset'outputCoin :: !Data.Word.Word64, _Asset'mintCoin :: !Data.Int.Int64, _Asset'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Asset where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Asset "name" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Asset'name (\ x__ y__ -> x__ {_Asset'name = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Asset "outputCoin" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Asset'outputCoin (\ x__ y__ -> x__ {_Asset'outputCoin = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Asset "mintCoin" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Asset'mintCoin (\ x__ y__ -> x__ {_Asset'mintCoin = y__})) Prelude.id instance Data.ProtoLens.Message Asset where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Asset" packedMessageDescriptor _ = "\n\ \\ENQAsset\DC2\DC2\n\ \\EOTname\CAN\SOH \SOH(\fR\EOTname\DC2\US\n\ \\voutput_coin\CAN\STX \SOH(\EOTR\n\ \outputCoin\DC2\ESC\n\ \\tmint_coin\CAN\ETX \SOH(\ETXR\bmintCoin" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let name__field_descriptor = Data.ProtoLens.FieldDescriptor "name" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"name")) :: Data.ProtoLens.FieldDescriptor Asset outputCoin__field_descriptor = Data.ProtoLens.FieldDescriptor "output_coin" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"outputCoin")) :: Data.ProtoLens.FieldDescriptor Asset mintCoin__field_descriptor = Data.ProtoLens.FieldDescriptor "mint_coin" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"mintCoin")) :: Data.ProtoLens.FieldDescriptor Asset in Data.Map.fromList [(Data.ProtoLens.Tag 1, name__field_descriptor), (Data.ProtoLens.Tag 2, outputCoin__field_descriptor), (Data.ProtoLens.Tag 3, mintCoin__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Asset'_unknownFields (\ x__ y__ -> x__ {_Asset'_unknownFields = y__}) defMessage = Asset'_constructor {_Asset'name = Data.ProtoLens.fieldDefault, _Asset'outputCoin = Data.ProtoLens.fieldDefault, _Asset'mintCoin = Data.ProtoLens.fieldDefault, _Asset'_unknownFields = []} parseMessage = let loop :: Asset -> Data.ProtoLens.Encoding.Bytes.Parser Asset 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "name" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"name") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "output_coin" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"outputCoin") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "mint_coin" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"mintCoin") 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) "Asset" 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) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"outputCoin") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"mintCoin") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData Asset where rnf = \ x__ -> Control.DeepSeq.deepseq (_Asset'_unknownFields x__) (Control.DeepSeq.deepseq (_Asset'name x__) (Control.DeepSeq.deepseq (_Asset'outputCoin x__) (Control.DeepSeq.deepseq (_Asset'mintCoin x__) ()))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.policyId' @:: Lens' AssetPattern Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.assetName' @:: Lens' AssetPattern Data.ByteString.ByteString@ -} data AssetPattern = AssetPattern'_constructor {_AssetPattern'policyId :: !Data.ByteString.ByteString, _AssetPattern'assetName :: !Data.ByteString.ByteString, _AssetPattern'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show AssetPattern where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField AssetPattern "policyId" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AssetPattern'policyId (\ x__ y__ -> x__ {_AssetPattern'policyId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField AssetPattern "assetName" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AssetPattern'assetName (\ x__ y__ -> x__ {_AssetPattern'assetName = y__})) Prelude.id instance Data.ProtoLens.Message AssetPattern where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.AssetPattern" packedMessageDescriptor _ = "\n\ \\fAssetPattern\DC2\ESC\n\ \\tpolicy_id\CAN\SOH \SOH(\fR\bpolicyId\DC2\GS\n\ \\n\ \asset_name\CAN\STX \SOH(\fR\tassetName" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let policyId__field_descriptor = Data.ProtoLens.FieldDescriptor "policy_id" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"policyId")) :: Data.ProtoLens.FieldDescriptor AssetPattern assetName__field_descriptor = Data.ProtoLens.FieldDescriptor "asset_name" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"assetName")) :: Data.ProtoLens.FieldDescriptor AssetPattern in Data.Map.fromList [(Data.ProtoLens.Tag 1, policyId__field_descriptor), (Data.ProtoLens.Tag 2, assetName__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _AssetPattern'_unknownFields (\ x__ y__ -> x__ {_AssetPattern'_unknownFields = y__}) defMessage = AssetPattern'_constructor {_AssetPattern'policyId = Data.ProtoLens.fieldDefault, _AssetPattern'assetName = Data.ProtoLens.fieldDefault, _AssetPattern'_unknownFields = []} parseMessage = let loop :: AssetPattern -> Data.ProtoLens.Encoding.Bytes.Parser AssetPattern 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "policy_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"policyId") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "asset_name" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"assetName") 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) "AssetPattern" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"policyId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"assetName") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData AssetPattern where rnf = \ x__ -> Control.DeepSeq.deepseq (_AssetPattern'_unknownFields x__) (Control.DeepSeq.deepseq (_AssetPattern'policyId x__) (Control.DeepSeq.deepseq (_AssetPattern'assetName x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.metadata' @:: Lens' AuxData [Metadata]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'metadata' @:: Lens' AuxData (Data.Vector.Vector Metadata)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.scripts' @:: Lens' AuxData [Script]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'scripts' @:: Lens' AuxData (Data.Vector.Vector Script)@ -} data AuxData = AuxData'_constructor {_AuxData'metadata :: !(Data.Vector.Vector Metadata), _AuxData'scripts :: !(Data.Vector.Vector Script), _AuxData'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show AuxData where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField AuxData "metadata" [Metadata] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AuxData'metadata (\ x__ y__ -> x__ {_AuxData'metadata = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField AuxData "vec'metadata" (Data.Vector.Vector Metadata) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AuxData'metadata (\ x__ y__ -> x__ {_AuxData'metadata = y__})) Prelude.id instance Data.ProtoLens.Field.HasField AuxData "scripts" [Script] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AuxData'scripts (\ x__ y__ -> x__ {_AuxData'scripts = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField AuxData "vec'scripts" (Data.Vector.Vector Script) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _AuxData'scripts (\ x__ y__ -> x__ {_AuxData'scripts = y__})) Prelude.id instance Data.ProtoLens.Message AuxData where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.AuxData" packedMessageDescriptor _ = "\n\ \\aAuxData\DC2=\n\ \\bmetadata\CAN\SOH \ETX(\v2!.utxorpc.v1alpha.cardano.MetadataR\bmetadata\DC29\n\ \\ascripts\CAN\STX \ETX(\v2\US.utxorpc.v1alpha.cardano.ScriptR\ascripts" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let metadata__field_descriptor = Data.ProtoLens.FieldDescriptor "metadata" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Metadata) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"metadata")) :: Data.ProtoLens.FieldDescriptor AuxData scripts__field_descriptor = Data.ProtoLens.FieldDescriptor "scripts" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Script) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"scripts")) :: Data.ProtoLens.FieldDescriptor AuxData in Data.Map.fromList [(Data.ProtoLens.Tag 1, metadata__field_descriptor), (Data.ProtoLens.Tag 2, scripts__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _AuxData'_unknownFields (\ x__ y__ -> x__ {_AuxData'_unknownFields = y__}) defMessage = AuxData'_constructor {_AuxData'metadata = Data.Vector.Generic.empty, _AuxData'scripts = Data.Vector.Generic.empty, _AuxData'_unknownFields = []} parseMessage = let loop :: AuxData -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Metadata -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Script -> Data.ProtoLens.Encoding.Bytes.Parser AuxData loop x mutable'metadata mutable'scripts = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'metadata <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'metadata) frozen'scripts <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'scripts) (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'metadata") frozen'metadata (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'scripts") frozen'scripts 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" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'metadata y) loop x v mutable'scripts 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) "scripts" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'scripts y) loop x mutable'metadata v wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'metadata mutable'scripts in (Data.ProtoLens.Encoding.Bytes.) (do mutable'metadata <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'scripts <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'metadata mutable'scripts) "AuxData" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _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)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'metadata") _x)) ((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'scripts") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData AuxData where rnf = \ x__ -> Control.DeepSeq.deepseq (_AuxData'_unknownFields x__) (Control.DeepSeq.deepseq (_AuxData'metadata x__) (Control.DeepSeq.deepseq (_AuxData'scripts x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'bigInt' @:: Lens' BigInt (Prelude.Maybe BigInt'BigInt)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'int' @:: Lens' BigInt (Prelude.Maybe Data.Int.Int64)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.int' @:: Lens' BigInt Data.Int.Int64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'bigUInt' @:: Lens' BigInt (Prelude.Maybe Data.ByteString.ByteString)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.bigUInt' @:: Lens' BigInt Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'bigNInt' @:: Lens' BigInt (Prelude.Maybe Data.ByteString.ByteString)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.bigNInt' @:: Lens' BigInt Data.ByteString.ByteString@ -} data BigInt = BigInt'_constructor {_BigInt'bigInt :: !(Prelude.Maybe BigInt'BigInt), _BigInt'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show BigInt where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) data BigInt'BigInt = BigInt'Int !Data.Int.Int64 | BigInt'BigUInt !Data.ByteString.ByteString | BigInt'BigNInt !Data.ByteString.ByteString deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.Field.HasField BigInt "maybe'bigInt" (Prelude.Maybe BigInt'BigInt) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BigInt'bigInt (\ x__ y__ -> x__ {_BigInt'bigInt = y__})) Prelude.id instance Data.ProtoLens.Field.HasField BigInt "maybe'int" (Prelude.Maybe Data.Int.Int64) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BigInt'bigInt (\ x__ y__ -> x__ {_BigInt'bigInt = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (BigInt'Int x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap BigInt'Int y__)) instance Data.ProtoLens.Field.HasField BigInt "int" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BigInt'bigInt (\ x__ y__ -> x__ {_BigInt'bigInt = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (BigInt'Int x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap BigInt'Int y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField BigInt "maybe'bigUInt" (Prelude.Maybe Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BigInt'bigInt (\ x__ y__ -> x__ {_BigInt'bigInt = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (BigInt'BigUInt x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap BigInt'BigUInt y__)) instance Data.ProtoLens.Field.HasField BigInt "bigUInt" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BigInt'bigInt (\ x__ y__ -> x__ {_BigInt'bigInt = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (BigInt'BigUInt x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap BigInt'BigUInt y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField BigInt "maybe'bigNInt" (Prelude.Maybe Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BigInt'bigInt (\ x__ y__ -> x__ {_BigInt'bigInt = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (BigInt'BigNInt x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap BigInt'BigNInt y__)) instance Data.ProtoLens.Field.HasField BigInt "bigNInt" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BigInt'bigInt (\ x__ y__ -> x__ {_BigInt'bigInt = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (BigInt'BigNInt x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap BigInt'BigNInt y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Message BigInt where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.BigInt" packedMessageDescriptor _ = "\n\ \\ACKBigInt\DC2\DC2\n\ \\ETXint\CAN\SOH \SOH(\ETXH\NULR\ETXint\DC2\FS\n\ \\tbig_u_int\CAN\STX \SOH(\fH\NULR\abigUInt\DC2\FS\n\ \\tbig_n_int\CAN\ETX \SOH(\fH\NULR\abigNIntB\t\n\ \\abig_int" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let int__field_descriptor = Data.ProtoLens.FieldDescriptor "int" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'int")) :: Data.ProtoLens.FieldDescriptor BigInt bigUInt__field_descriptor = Data.ProtoLens.FieldDescriptor "big_u_int" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'bigUInt")) :: Data.ProtoLens.FieldDescriptor BigInt bigNInt__field_descriptor = Data.ProtoLens.FieldDescriptor "big_n_int" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'bigNInt")) :: Data.ProtoLens.FieldDescriptor BigInt in Data.Map.fromList [(Data.ProtoLens.Tag 1, int__field_descriptor), (Data.ProtoLens.Tag 2, bigUInt__field_descriptor), (Data.ProtoLens.Tag 3, bigNInt__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _BigInt'_unknownFields (\ x__ y__ -> x__ {_BigInt'_unknownFields = y__}) defMessage = BigInt'_constructor {_BigInt'bigInt = Prelude.Nothing, _BigInt'_unknownFields = []} parseMessage = let loop :: BigInt -> Data.ProtoLens.Encoding.Bytes.Parser BigInt 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.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "int" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"int") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "big_u_int" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"bigUInt") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "big_n_int" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"bigNInt") 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) "BigInt" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'bigInt") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (BigInt'Int v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral v) (Prelude.Just (BigInt'BigUInt v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) v) (Prelude.Just (BigInt'BigNInt v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData BigInt where rnf = \ x__ -> Control.DeepSeq.deepseq (_BigInt'_unknownFields x__) (Control.DeepSeq.deepseq (_BigInt'bigInt x__) ()) instance Control.DeepSeq.NFData BigInt'BigInt where rnf (BigInt'Int x__) = Control.DeepSeq.rnf x__ rnf (BigInt'BigUInt x__) = Control.DeepSeq.rnf x__ rnf (BigInt'BigNInt x__) = Control.DeepSeq.rnf x__ _BigInt'Int :: Data.ProtoLens.Prism.Prism' BigInt'BigInt Data.Int.Int64 _BigInt'Int = Data.ProtoLens.Prism.prism' BigInt'Int (\ p__ -> case p__ of (BigInt'Int p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _BigInt'BigUInt :: Data.ProtoLens.Prism.Prism' BigInt'BigInt Data.ByteString.ByteString _BigInt'BigUInt = Data.ProtoLens.Prism.prism' BigInt'BigUInt (\ p__ -> case p__ of (BigInt'BigUInt p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _BigInt'BigNInt :: Data.ProtoLens.Prism.Prism' BigInt'BigInt Data.ByteString.ByteString _BigInt'BigNInt = Data.ProtoLens.Prism.prism' BigInt'BigNInt (\ p__ -> case p__ of (BigInt'BigNInt p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.header' @:: Lens' Block BlockHeader@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'header' @:: Lens' Block (Prelude.Maybe BlockHeader)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.body' @:: Lens' Block BlockBody@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'body' @:: Lens' Block (Prelude.Maybe BlockBody)@ -} data Block = Block'_constructor {_Block'header :: !(Prelude.Maybe BlockHeader), _Block'body :: !(Prelude.Maybe BlockBody), _Block'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Block where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Block "header" BlockHeader where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Block'header (\ x__ y__ -> x__ {_Block'header = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Block "maybe'header" (Prelude.Maybe BlockHeader) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Block'header (\ x__ y__ -> x__ {_Block'header = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Block "body" BlockBody where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Block'body (\ x__ y__ -> x__ {_Block'body = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Block "maybe'body" (Prelude.Maybe BlockBody) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Block'body (\ x__ y__ -> x__ {_Block'body = y__})) Prelude.id instance Data.ProtoLens.Message Block where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Block" packedMessageDescriptor _ = "\n\ \\ENQBlock\DC2<\n\ \\ACKheader\CAN\SOH \SOH(\v2$.utxorpc.v1alpha.cardano.BlockHeaderR\ACKheader\DC26\n\ \\EOTbody\CAN\STX \SOH(\v2\".utxorpc.v1alpha.cardano.BlockBodyR\EOTbody" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let header__field_descriptor = Data.ProtoLens.FieldDescriptor "header" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor BlockHeader) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'header")) :: Data.ProtoLens.FieldDescriptor Block body__field_descriptor = Data.ProtoLens.FieldDescriptor "body" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor BlockBody) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'body")) :: Data.ProtoLens.FieldDescriptor Block in Data.Map.fromList [(Data.ProtoLens.Tag 1, header__field_descriptor), (Data.ProtoLens.Tag 2, body__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Block'_unknownFields (\ x__ y__ -> x__ {_Block'_unknownFields = y__}) defMessage = Block'_constructor {_Block'header = Prelude.Nothing, _Block'body = Prelude.Nothing, _Block'_unknownFields = []} parseMessage = let loop :: Block -> Data.ProtoLens.Encoding.Bytes.Parser Block 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "header" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"header") 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) "body" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"body") 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) "Block" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'header") _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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'body") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData Block where rnf = \ x__ -> Control.DeepSeq.deepseq (_Block'_unknownFields x__) (Control.DeepSeq.deepseq (_Block'header x__) (Control.DeepSeq.deepseq (_Block'body x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.tx' @:: Lens' BlockBody [Tx]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'tx' @:: Lens' BlockBody (Data.Vector.Vector Tx)@ -} data BlockBody = BlockBody'_constructor {_BlockBody'tx :: !(Data.Vector.Vector Tx), _BlockBody'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show BlockBody where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField BlockBody "tx" [Tx] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BlockBody'tx (\ x__ y__ -> x__ {_BlockBody'tx = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField BlockBody "vec'tx" (Data.Vector.Vector Tx) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BlockBody'tx (\ x__ y__ -> x__ {_BlockBody'tx = y__})) Prelude.id instance Data.ProtoLens.Message BlockBody where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.BlockBody" packedMessageDescriptor _ = "\n\ \\tBlockBody\DC2+\n\ \\STXtx\CAN\SOH \ETX(\v2\ESC.utxorpc.v1alpha.cardano.TxR\STXtx" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let tx__field_descriptor = Data.ProtoLens.FieldDescriptor "tx" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Tx) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"tx")) :: Data.ProtoLens.FieldDescriptor BlockBody in Data.Map.fromList [(Data.ProtoLens.Tag 1, tx__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _BlockBody'_unknownFields (\ x__ y__ -> x__ {_BlockBody'_unknownFields = y__}) defMessage = BlockBody'_constructor {_BlockBody'tx = Data.Vector.Generic.empty, _BlockBody'_unknownFields = []} parseMessage = let loop :: BlockBody -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Tx -> Data.ProtoLens.Encoding.Bytes.Parser BlockBody loop x mutable'tx = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'tx <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'tx) (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'tx") frozen'tx 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) "tx" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'tx 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'tx in (Data.ProtoLens.Encoding.Bytes.) (do mutable'tx <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'tx) "BlockBody" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _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)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'tx") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData BlockBody where rnf = \ x__ -> Control.DeepSeq.deepseq (_BlockBody'_unknownFields x__) (Control.DeepSeq.deepseq (_BlockBody'tx x__) ()) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.slot' @:: Lens' BlockHeader Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.hash' @:: Lens' BlockHeader Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.height' @:: Lens' BlockHeader Data.Word.Word64@ -} data BlockHeader = BlockHeader'_constructor {_BlockHeader'slot :: !Data.Word.Word64, _BlockHeader'hash :: !Data.ByteString.ByteString, _BlockHeader'height :: !Data.Word.Word64, _BlockHeader'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show BlockHeader where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField BlockHeader "slot" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BlockHeader'slot (\ x__ y__ -> x__ {_BlockHeader'slot = y__})) Prelude.id instance Data.ProtoLens.Field.HasField BlockHeader "hash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BlockHeader'hash (\ x__ y__ -> x__ {_BlockHeader'hash = y__})) Prelude.id instance Data.ProtoLens.Field.HasField BlockHeader "height" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _BlockHeader'height (\ x__ y__ -> x__ {_BlockHeader'height = y__})) Prelude.id instance Data.ProtoLens.Message BlockHeader where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.BlockHeader" packedMessageDescriptor _ = "\n\ \\vBlockHeader\DC2\DC2\n\ \\EOTslot\CAN\SOH \SOH(\EOTR\EOTslot\DC2\DC2\n\ \\EOThash\CAN\STX \SOH(\fR\EOThash\DC2\SYN\n\ \\ACKheight\CAN\ETX \SOH(\EOTR\ACKheight" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let slot__field_descriptor = Data.ProtoLens.FieldDescriptor "slot" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"slot")) :: Data.ProtoLens.FieldDescriptor BlockHeader hash__field_descriptor = Data.ProtoLens.FieldDescriptor "hash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"hash")) :: Data.ProtoLens.FieldDescriptor BlockHeader height__field_descriptor = Data.ProtoLens.FieldDescriptor "height" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"height")) :: Data.ProtoLens.FieldDescriptor BlockHeader in Data.Map.fromList [(Data.ProtoLens.Tag 1, slot__field_descriptor), (Data.ProtoLens.Tag 2, hash__field_descriptor), (Data.ProtoLens.Tag 3, height__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _BlockHeader'_unknownFields (\ x__ y__ -> x__ {_BlockHeader'_unknownFields = y__}) defMessage = BlockHeader'_constructor {_BlockHeader'slot = Data.ProtoLens.fieldDefault, _BlockHeader'hash = Data.ProtoLens.fieldDefault, _BlockHeader'height = Data.ProtoLens.fieldDefault, _BlockHeader'_unknownFields = []} parseMessage = let loop :: BlockHeader -> Data.ProtoLens.Encoding.Bytes.Parser BlockHeader 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.) Data.ProtoLens.Encoding.Bytes.getVarInt "slot" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"slot") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"hash") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "height" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"height") 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) "BlockHeader" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"slot") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"hash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"height") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData BlockHeader where rnf = \ x__ -> Control.DeepSeq.deepseq (_BlockHeader'_unknownFields x__) (Control.DeepSeq.deepseq (_BlockHeader'slot x__) (Control.DeepSeq.deepseq (_BlockHeader'hash x__) (Control.DeepSeq.deepseq (_BlockHeader'height x__) ()))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'certificate' @:: Lens' Certificate (Prelude.Maybe Certificate'Certificate)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'stakeRegistration' @:: Lens' Certificate (Prelude.Maybe StakeCredential)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.stakeRegistration' @:: Lens' Certificate StakeCredential@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'stakeDeregistration' @:: Lens' Certificate (Prelude.Maybe StakeCredential)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.stakeDeregistration' @:: Lens' Certificate StakeCredential@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'stakeDelegation' @:: Lens' Certificate (Prelude.Maybe StakeDelegationCert)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.stakeDelegation' @:: Lens' Certificate StakeDelegationCert@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'poolRegistration' @:: Lens' Certificate (Prelude.Maybe PoolRegistrationCert)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.poolRegistration' @:: Lens' Certificate PoolRegistrationCert@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'poolRetirement' @:: Lens' Certificate (Prelude.Maybe PoolRetirementCert)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.poolRetirement' @:: Lens' Certificate PoolRetirementCert@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'genesisKeyDelegation' @:: Lens' Certificate (Prelude.Maybe GenesisKeyDelegationCert)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.genesisKeyDelegation' @:: Lens' Certificate GenesisKeyDelegationCert@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'mirCert' @:: Lens' Certificate (Prelude.Maybe MirCert)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.mirCert' @:: Lens' Certificate MirCert@ -} data Certificate = Certificate'_constructor {_Certificate'certificate :: !(Prelude.Maybe Certificate'Certificate), _Certificate'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Certificate where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) data Certificate'Certificate = Certificate'StakeRegistration !StakeCredential | Certificate'StakeDeregistration !StakeCredential | Certificate'StakeDelegation !StakeDelegationCert | Certificate'PoolRegistration !PoolRegistrationCert | Certificate'PoolRetirement !PoolRetirementCert | Certificate'GenesisKeyDelegation !GenesisKeyDelegationCert | Certificate'MirCert !MirCert deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.Field.HasField Certificate "maybe'certificate" (Prelude.Maybe Certificate'Certificate) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Certificate "maybe'stakeRegistration" (Prelude.Maybe StakeCredential) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'StakeRegistration x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'StakeRegistration y__)) instance Data.ProtoLens.Field.HasField Certificate "stakeRegistration" StakeCredential where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'StakeRegistration x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'StakeRegistration y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField Certificate "maybe'stakeDeregistration" (Prelude.Maybe StakeCredential) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'StakeDeregistration x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'StakeDeregistration y__)) instance Data.ProtoLens.Field.HasField Certificate "stakeDeregistration" StakeCredential where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'StakeDeregistration x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'StakeDeregistration y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField Certificate "maybe'stakeDelegation" (Prelude.Maybe StakeDelegationCert) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'StakeDelegation x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'StakeDelegation y__)) instance Data.ProtoLens.Field.HasField Certificate "stakeDelegation" StakeDelegationCert where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'StakeDelegation x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'StakeDelegation y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField Certificate "maybe'poolRegistration" (Prelude.Maybe PoolRegistrationCert) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'PoolRegistration x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'PoolRegistration y__)) instance Data.ProtoLens.Field.HasField Certificate "poolRegistration" PoolRegistrationCert where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'PoolRegistration x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'PoolRegistration y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField Certificate "maybe'poolRetirement" (Prelude.Maybe PoolRetirementCert) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'PoolRetirement x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'PoolRetirement y__)) instance Data.ProtoLens.Field.HasField Certificate "poolRetirement" PoolRetirementCert where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'PoolRetirement x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'PoolRetirement y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField Certificate "maybe'genesisKeyDelegation" (Prelude.Maybe GenesisKeyDelegationCert) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'GenesisKeyDelegation x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'GenesisKeyDelegation y__)) instance Data.ProtoLens.Field.HasField Certificate "genesisKeyDelegation" GenesisKeyDelegationCert where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'GenesisKeyDelegation x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'GenesisKeyDelegation y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField Certificate "maybe'mirCert" (Prelude.Maybe MirCert) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'MirCert x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'MirCert y__)) instance Data.ProtoLens.Field.HasField Certificate "mirCert" MirCert where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Certificate'certificate (\ x__ y__ -> x__ {_Certificate'certificate = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Certificate'MirCert x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Certificate'MirCert y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Message Certificate where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Certificate" packedMessageDescriptor _ = "\n\ \\vCertificate\DC2Y\n\ \\DC2stake_registration\CAN\SOH \SOH(\v2(.utxorpc.v1alpha.cardano.StakeCredentialH\NULR\DC1stakeRegistration\DC2]\n\ \\DC4stake_deregistration\CAN\STX \SOH(\v2(.utxorpc.v1alpha.cardano.StakeCredentialH\NULR\DC3stakeDeregistration\DC2Y\n\ \\DLEstake_delegation\CAN\ETX \SOH(\v2,.utxorpc.v1alpha.cardano.StakeDelegationCertH\NULR\SIstakeDelegation\DC2\\\n\ \\DC1pool_registration\CAN\EOT \SOH(\v2-.utxorpc.v1alpha.cardano.PoolRegistrationCertH\NULR\DLEpoolRegistration\DC2V\n\ \\SIpool_retirement\CAN\ENQ \SOH(\v2+.utxorpc.v1alpha.cardano.PoolRetirementCertH\NULR\SOpoolRetirement\DC2i\n\ \\SYNgenesis_key_delegation\CAN\ACK \SOH(\v21.utxorpc.v1alpha.cardano.GenesisKeyDelegationCertH\NULR\DC4genesisKeyDelegation\DC2=\n\ \\bmir_cert\CAN\a \SOH(\v2 .utxorpc.v1alpha.cardano.MirCertH\NULR\amirCertB\r\n\ \\vcertificate" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let stakeRegistration__field_descriptor = Data.ProtoLens.FieldDescriptor "stake_registration" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor StakeCredential) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'stakeRegistration")) :: Data.ProtoLens.FieldDescriptor Certificate stakeDeregistration__field_descriptor = Data.ProtoLens.FieldDescriptor "stake_deregistration" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor StakeCredential) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'stakeDeregistration")) :: Data.ProtoLens.FieldDescriptor Certificate stakeDelegation__field_descriptor = Data.ProtoLens.FieldDescriptor "stake_delegation" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor StakeDelegationCert) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'stakeDelegation")) :: Data.ProtoLens.FieldDescriptor Certificate poolRegistration__field_descriptor = Data.ProtoLens.FieldDescriptor "pool_registration" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PoolRegistrationCert) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'poolRegistration")) :: Data.ProtoLens.FieldDescriptor Certificate poolRetirement__field_descriptor = Data.ProtoLens.FieldDescriptor "pool_retirement" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PoolRetirementCert) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'poolRetirement")) :: Data.ProtoLens.FieldDescriptor Certificate genesisKeyDelegation__field_descriptor = Data.ProtoLens.FieldDescriptor "genesis_key_delegation" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor GenesisKeyDelegationCert) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'genesisKeyDelegation")) :: Data.ProtoLens.FieldDescriptor Certificate mirCert__field_descriptor = Data.ProtoLens.FieldDescriptor "mir_cert" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor MirCert) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'mirCert")) :: Data.ProtoLens.FieldDescriptor Certificate in Data.Map.fromList [(Data.ProtoLens.Tag 1, stakeRegistration__field_descriptor), (Data.ProtoLens.Tag 2, stakeDeregistration__field_descriptor), (Data.ProtoLens.Tag 3, stakeDelegation__field_descriptor), (Data.ProtoLens.Tag 4, poolRegistration__field_descriptor), (Data.ProtoLens.Tag 5, poolRetirement__field_descriptor), (Data.ProtoLens.Tag 6, genesisKeyDelegation__field_descriptor), (Data.ProtoLens.Tag 7, mirCert__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Certificate'_unknownFields (\ x__ y__ -> x__ {_Certificate'_unknownFields = y__}) defMessage = Certificate'_constructor {_Certificate'certificate = Prelude.Nothing, _Certificate'_unknownFields = []} parseMessage = let loop :: Certificate -> Data.ProtoLens.Encoding.Bytes.Parser Certificate 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "stake_registration" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"stakeRegistration") 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) "stake_deregistration" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"stakeDeregistration") y x) 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) "stake_delegation" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"stakeDelegation") y x) 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) "pool_registration" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"poolRegistration") y x) 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pool_retirement" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"poolRetirement") y x) 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) "genesis_key_delegation" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"genesisKeyDelegation") y x) 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) "mir_cert" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"mirCert") 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) "Certificate" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'certificate") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (Certificate'StakeRegistration 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) (Prelude.Just (Certificate'StakeDeregistration 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) (Prelude.Just (Certificate'StakeDelegation 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) (Prelude.Just (Certificate'PoolRegistration 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) (Prelude.Just (Certificate'PoolRetirement v)) -> (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.ProtoLens.encodeMessage v) (Prelude.Just (Certificate'GenesisKeyDelegation 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) (Prelude.Just (Certificate'MirCert 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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData Certificate where rnf = \ x__ -> Control.DeepSeq.deepseq (_Certificate'_unknownFields x__) (Control.DeepSeq.deepseq (_Certificate'certificate x__) ()) instance Control.DeepSeq.NFData Certificate'Certificate where rnf (Certificate'StakeRegistration x__) = Control.DeepSeq.rnf x__ rnf (Certificate'StakeDeregistration x__) = Control.DeepSeq.rnf x__ rnf (Certificate'StakeDelegation x__) = Control.DeepSeq.rnf x__ rnf (Certificate'PoolRegistration x__) = Control.DeepSeq.rnf x__ rnf (Certificate'PoolRetirement x__) = Control.DeepSeq.rnf x__ rnf (Certificate'GenesisKeyDelegation x__) = Control.DeepSeq.rnf x__ rnf (Certificate'MirCert x__) = Control.DeepSeq.rnf x__ _Certificate'StakeRegistration :: Data.ProtoLens.Prism.Prism' Certificate'Certificate StakeCredential _Certificate'StakeRegistration = Data.ProtoLens.Prism.prism' Certificate'StakeRegistration (\ p__ -> case p__ of (Certificate'StakeRegistration p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Certificate'StakeDeregistration :: Data.ProtoLens.Prism.Prism' Certificate'Certificate StakeCredential _Certificate'StakeDeregistration = Data.ProtoLens.Prism.prism' Certificate'StakeDeregistration (\ p__ -> case p__ of (Certificate'StakeDeregistration p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Certificate'StakeDelegation :: Data.ProtoLens.Prism.Prism' Certificate'Certificate StakeDelegationCert _Certificate'StakeDelegation = Data.ProtoLens.Prism.prism' Certificate'StakeDelegation (\ p__ -> case p__ of (Certificate'StakeDelegation p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Certificate'PoolRegistration :: Data.ProtoLens.Prism.Prism' Certificate'Certificate PoolRegistrationCert _Certificate'PoolRegistration = Data.ProtoLens.Prism.prism' Certificate'PoolRegistration (\ p__ -> case p__ of (Certificate'PoolRegistration p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Certificate'PoolRetirement :: Data.ProtoLens.Prism.Prism' Certificate'Certificate PoolRetirementCert _Certificate'PoolRetirement = Data.ProtoLens.Prism.prism' Certificate'PoolRetirement (\ p__ -> case p__ of (Certificate'PoolRetirement p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Certificate'GenesisKeyDelegation :: Data.ProtoLens.Prism.Prism' Certificate'Certificate GenesisKeyDelegationCert _Certificate'GenesisKeyDelegation = Data.ProtoLens.Prism.prism' Certificate'GenesisKeyDelegation (\ p__ -> case p__ of (Certificate'GenesisKeyDelegation p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Certificate'MirCert :: Data.ProtoLens.Prism.Prism' Certificate'Certificate MirCert _Certificate'MirCert = Data.ProtoLens.Prism.prism' Certificate'MirCert (\ p__ -> case p__ of (Certificate'MirCert p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.collateral' @:: Lens' Collateral [TxInput]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'collateral' @:: Lens' Collateral (Data.Vector.Vector TxInput)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.collateralReturn' @:: Lens' Collateral TxOutput@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'collateralReturn' @:: Lens' Collateral (Prelude.Maybe TxOutput)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.totalCollateral' @:: Lens' Collateral Data.Word.Word64@ -} data Collateral = Collateral'_constructor {_Collateral'collateral :: !(Data.Vector.Vector TxInput), _Collateral'collateralReturn :: !(Prelude.Maybe TxOutput), _Collateral'totalCollateral :: !Data.Word.Word64, _Collateral'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Collateral where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Collateral "collateral" [TxInput] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Collateral'collateral (\ x__ y__ -> x__ {_Collateral'collateral = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Collateral "vec'collateral" (Data.Vector.Vector TxInput) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Collateral'collateral (\ x__ y__ -> x__ {_Collateral'collateral = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Collateral "collateralReturn" TxOutput where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Collateral'collateralReturn (\ x__ y__ -> x__ {_Collateral'collateralReturn = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Collateral "maybe'collateralReturn" (Prelude.Maybe TxOutput) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Collateral'collateralReturn (\ x__ y__ -> x__ {_Collateral'collateralReturn = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Collateral "totalCollateral" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Collateral'totalCollateral (\ x__ y__ -> x__ {_Collateral'totalCollateral = y__})) Prelude.id instance Data.ProtoLens.Message Collateral where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Collateral" packedMessageDescriptor _ = "\n\ \\n\ \Collateral\DC2@\n\ \\n\ \collateral\CAN\SOH \ETX(\v2 .utxorpc.v1alpha.cardano.TxInputR\n\ \collateral\DC2N\n\ \\DC1collateral_return\CAN\STX \SOH(\v2!.utxorpc.v1alpha.cardano.TxOutputR\DLEcollateralReturn\DC2)\n\ \\DLEtotal_collateral\CAN\ETX \SOH(\EOTR\SItotalCollateral" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let collateral__field_descriptor = Data.ProtoLens.FieldDescriptor "collateral" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor TxInput) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"collateral")) :: Data.ProtoLens.FieldDescriptor Collateral collateralReturn__field_descriptor = Data.ProtoLens.FieldDescriptor "collateral_return" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor TxOutput) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'collateralReturn")) :: Data.ProtoLens.FieldDescriptor Collateral totalCollateral__field_descriptor = Data.ProtoLens.FieldDescriptor "total_collateral" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"totalCollateral")) :: Data.ProtoLens.FieldDescriptor Collateral in Data.Map.fromList [(Data.ProtoLens.Tag 1, collateral__field_descriptor), (Data.ProtoLens.Tag 2, collateralReturn__field_descriptor), (Data.ProtoLens.Tag 3, totalCollateral__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Collateral'_unknownFields (\ x__ y__ -> x__ {_Collateral'_unknownFields = y__}) defMessage = Collateral'_constructor {_Collateral'collateral = Data.Vector.Generic.empty, _Collateral'collateralReturn = Prelude.Nothing, _Collateral'totalCollateral = Data.ProtoLens.fieldDefault, _Collateral'_unknownFields = []} parseMessage = let loop :: Collateral -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld TxInput -> Data.ProtoLens.Encoding.Bytes.Parser Collateral loop x mutable'collateral = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'collateral <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'collateral) (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'collateral") frozen'collateral 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) "collateral" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'collateral y) loop x v 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) "collateral_return" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"collateralReturn") y x) mutable'collateral 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "total_collateral" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"totalCollateral") y x) mutable'collateral wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'collateral in (Data.ProtoLens.Encoding.Bytes.) (do mutable'collateral <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'collateral) "Collateral" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _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)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'collateral") _x)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'collateralReturn") _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 @"totalCollateral") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData Collateral where rnf = \ x__ -> Control.DeepSeq.deepseq (_Collateral'_unknownFields x__) (Control.DeepSeq.deepseq (_Collateral'collateral x__) (Control.DeepSeq.deepseq (_Collateral'collateralReturn x__) (Control.DeepSeq.deepseq (_Collateral'totalCollateral x__) ()))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.tag' @:: Lens' Constr Data.Word.Word32@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.anyConstructor' @:: Lens' Constr Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.fields' @:: Lens' Constr [PlutusData]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'fields' @:: Lens' Constr (Data.Vector.Vector PlutusData)@ -} data Constr = Constr'_constructor {_Constr'tag :: !Data.Word.Word32, _Constr'anyConstructor :: !Data.Word.Word64, _Constr'fields :: !(Data.Vector.Vector PlutusData), _Constr'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Constr where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Constr "tag" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Constr'tag (\ x__ y__ -> x__ {_Constr'tag = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Constr "anyConstructor" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Constr'anyConstructor (\ x__ y__ -> x__ {_Constr'anyConstructor = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Constr "fields" [PlutusData] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Constr'fields (\ x__ y__ -> x__ {_Constr'fields = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Constr "vec'fields" (Data.Vector.Vector PlutusData) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Constr'fields (\ x__ y__ -> x__ {_Constr'fields = y__})) Prelude.id instance Data.ProtoLens.Message Constr where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Constr" packedMessageDescriptor _ = "\n\ \\ACKConstr\DC2\DLE\n\ \\ETXtag\CAN\SOH \SOH(\rR\ETXtag\DC2'\n\ \\SIany_constructor\CAN\STX \SOH(\EOTR\SOanyConstructor\DC2;\n\ \\ACKfields\CAN\ETX \ETX(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ACKfields" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let tag__field_descriptor = Data.ProtoLens.FieldDescriptor "tag" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"tag")) :: Data.ProtoLens.FieldDescriptor Constr anyConstructor__field_descriptor = Data.ProtoLens.FieldDescriptor "any_constructor" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"anyConstructor")) :: Data.ProtoLens.FieldDescriptor Constr fields__field_descriptor = Data.ProtoLens.FieldDescriptor "fields" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PlutusData) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"fields")) :: Data.ProtoLens.FieldDescriptor Constr in Data.Map.fromList [(Data.ProtoLens.Tag 1, tag__field_descriptor), (Data.ProtoLens.Tag 2, anyConstructor__field_descriptor), (Data.ProtoLens.Tag 3, fields__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Constr'_unknownFields (\ x__ y__ -> x__ {_Constr'_unknownFields = y__}) defMessage = Constr'_constructor {_Constr'tag = Data.ProtoLens.fieldDefault, _Constr'anyConstructor = Data.ProtoLens.fieldDefault, _Constr'fields = Data.Vector.Generic.empty, _Constr'_unknownFields = []} parseMessage = let loop :: Constr -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld PlutusData -> Data.ProtoLens.Encoding.Bytes.Parser Constr loop x mutable'fields = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'fields <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'fields) (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'fields") frozen'fields 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) "tag" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"tag") y x) mutable'fields 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "any_constructor" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"anyConstructor") y x) mutable'fields 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) "fields" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'fields 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'fields in (Data.ProtoLens.Encoding.Bytes.) (do mutable'fields <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'fields) "Constr" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"tag") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"anyConstructor") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _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'fields") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData Constr where rnf = \ x__ -> Control.DeepSeq.deepseq (_Constr'_unknownFields x__) (Control.DeepSeq.deepseq (_Constr'tag x__) (Control.DeepSeq.deepseq (_Constr'anyConstructor x__) (Control.DeepSeq.deepseq (_Constr'fields x__) ()))) {- | Fields : -} data CostModel = CostModel'_constructor {_CostModel'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show CostModel where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Message CostModel where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.CostModel" packedMessageDescriptor _ = "\n\ \\tCostModel" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let in Data.Map.fromList [] unknownFields = Lens.Family2.Unchecked.lens _CostModel'_unknownFields (\ x__ y__ -> x__ {_CostModel'_unknownFields = y__}) defMessage = CostModel'_constructor {_CostModel'_unknownFields = []} parseMessage = let loop :: CostModel -> Data.ProtoLens.Encoding.Bytes.Parser CostModel 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 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) "CostModel" buildMessage = \ _x -> Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x) instance Control.DeepSeq.NFData CostModel where rnf = \ x__ -> Control.DeepSeq.deepseq (_CostModel'_unknownFields x__) () {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.plutusV1' @:: Lens' CostModels CostModel@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'plutusV1' @:: Lens' CostModels (Prelude.Maybe CostModel)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.plutusV2' @:: Lens' CostModels CostModel@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'plutusV2' @:: Lens' CostModels (Prelude.Maybe CostModel)@ -} data CostModels = CostModels'_constructor {_CostModels'plutusV1 :: !(Prelude.Maybe CostModel), _CostModels'plutusV2 :: !(Prelude.Maybe CostModel), _CostModels'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show CostModels where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField CostModels "plutusV1" CostModel where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _CostModels'plutusV1 (\ x__ y__ -> x__ {_CostModels'plutusV1 = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField CostModels "maybe'plutusV1" (Prelude.Maybe CostModel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _CostModels'plutusV1 (\ x__ y__ -> x__ {_CostModels'plutusV1 = y__})) Prelude.id instance Data.ProtoLens.Field.HasField CostModels "plutusV2" CostModel where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _CostModels'plutusV2 (\ x__ y__ -> x__ {_CostModels'plutusV2 = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField CostModels "maybe'plutusV2" (Prelude.Maybe CostModel) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _CostModels'plutusV2 (\ x__ y__ -> x__ {_CostModels'plutusV2 = y__})) Prelude.id instance Data.ProtoLens.Message CostModels where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.CostModels" packedMessageDescriptor _ = "\n\ \\n\ \CostModels\DC2?\n\ \\tplutus_v1\CAN\SOH \SOH(\v2\".utxorpc.v1alpha.cardano.CostModelR\bplutusV1\DC2?\n\ \\tplutus_v2\CAN\STX \SOH(\v2\".utxorpc.v1alpha.cardano.CostModelR\bplutusV2" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let plutusV1__field_descriptor = Data.ProtoLens.FieldDescriptor "plutus_v1" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor CostModel) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'plutusV1")) :: Data.ProtoLens.FieldDescriptor CostModels plutusV2__field_descriptor = Data.ProtoLens.FieldDescriptor "plutus_v2" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor CostModel) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'plutusV2")) :: Data.ProtoLens.FieldDescriptor CostModels in Data.Map.fromList [(Data.ProtoLens.Tag 1, plutusV1__field_descriptor), (Data.ProtoLens.Tag 2, plutusV2__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _CostModels'_unknownFields (\ x__ y__ -> x__ {_CostModels'_unknownFields = y__}) defMessage = CostModels'_constructor {_CostModels'plutusV1 = Prelude.Nothing, _CostModels'plutusV2 = Prelude.Nothing, _CostModels'_unknownFields = []} parseMessage = let loop :: CostModels -> Data.ProtoLens.Encoding.Bytes.Parser CostModels 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "plutus_v1" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"plutusV1") 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) "plutus_v2" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"plutusV2") 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) "CostModels" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'plutusV1") _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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'plutusV2") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData CostModels where rnf = \ x__ -> Control.DeepSeq.deepseq (_CostModels'_unknownFields x__) (Control.DeepSeq.deepseq (_CostModels'plutusV1 x__) (Control.DeepSeq.deepseq (_CostModels'plutusV2 x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.msg' @:: Lens' EvalError Data.Text.Text@ -} data EvalError = EvalError'_constructor {_EvalError'msg :: !Data.Text.Text, _EvalError'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show EvalError where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField EvalError "msg" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _EvalError'msg (\ x__ y__ -> x__ {_EvalError'msg = y__})) Prelude.id instance Data.ProtoLens.Message EvalError where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.EvalError" packedMessageDescriptor _ = "\n\ \\tEvalError\DC2\DLE\n\ \\ETXmsg\CAN\SOH \SOH(\tR\ETXmsg" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let msg__field_descriptor = Data.ProtoLens.FieldDescriptor "msg" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"msg")) :: Data.ProtoLens.FieldDescriptor EvalError in Data.Map.fromList [(Data.ProtoLens.Tag 1, msg__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _EvalError'_unknownFields (\ x__ y__ -> x__ {_EvalError'_unknownFields = y__}) defMessage = EvalError'_constructor {_EvalError'msg = Data.ProtoLens.fieldDefault, _EvalError'_unknownFields = []} parseMessage = let loop :: EvalError -> Data.ProtoLens.Encoding.Bytes.Parser EvalError 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getText (Prelude.fromIntegral len)) "msg" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"msg") 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) "EvalError" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"msg") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData EvalError where rnf = \ x__ -> Control.DeepSeq.deepseq (_EvalError'_unknownFields x__) (Control.DeepSeq.deepseq (_EvalError'msg x__) ()) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.msg' @:: Lens' EvalTrace Data.Text.Text@ -} data EvalTrace = EvalTrace'_constructor {_EvalTrace'msg :: !Data.Text.Text, _EvalTrace'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show EvalTrace where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField EvalTrace "msg" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _EvalTrace'msg (\ x__ y__ -> x__ {_EvalTrace'msg = y__})) Prelude.id instance Data.ProtoLens.Message EvalTrace where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.EvalTrace" packedMessageDescriptor _ = "\n\ \\tEvalTrace\DC2\DLE\n\ \\ETXmsg\CAN\SOH \SOH(\tR\ETXmsg" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let msg__field_descriptor = Data.ProtoLens.FieldDescriptor "msg" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"msg")) :: Data.ProtoLens.FieldDescriptor EvalTrace in Data.Map.fromList [(Data.ProtoLens.Tag 1, msg__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _EvalTrace'_unknownFields (\ x__ y__ -> x__ {_EvalTrace'_unknownFields = y__}) defMessage = EvalTrace'_constructor {_EvalTrace'msg = Data.ProtoLens.fieldDefault, _EvalTrace'_unknownFields = []} parseMessage = let loop :: EvalTrace -> Data.ProtoLens.Encoding.Bytes.Parser EvalTrace 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getText (Prelude.fromIntegral len)) "msg" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"msg") 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) "EvalTrace" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"msg") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData EvalTrace where rnf = \ x__ -> Control.DeepSeq.deepseq (_EvalTrace'_unknownFields x__) (Control.DeepSeq.deepseq (_EvalTrace'msg x__) ()) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.steps' @:: Lens' ExPrices RationalNumber@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'steps' @:: Lens' ExPrices (Prelude.Maybe RationalNumber)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.memory' @:: Lens' ExPrices RationalNumber@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'memory' @:: Lens' ExPrices (Prelude.Maybe RationalNumber)@ -} data ExPrices = ExPrices'_constructor {_ExPrices'steps :: !(Prelude.Maybe RationalNumber), _ExPrices'memory :: !(Prelude.Maybe RationalNumber), _ExPrices'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show ExPrices where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField ExPrices "steps" RationalNumber where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ExPrices'steps (\ x__ y__ -> x__ {_ExPrices'steps = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ExPrices "maybe'steps" (Prelude.Maybe RationalNumber) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ExPrices'steps (\ x__ y__ -> x__ {_ExPrices'steps = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ExPrices "memory" RationalNumber where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ExPrices'memory (\ x__ y__ -> x__ {_ExPrices'memory = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField ExPrices "maybe'memory" (Prelude.Maybe RationalNumber) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ExPrices'memory (\ x__ y__ -> x__ {_ExPrices'memory = y__})) Prelude.id instance Data.ProtoLens.Message ExPrices where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.ExPrices" packedMessageDescriptor _ = "\n\ \\bExPrices\DC2=\n\ \\ENQsteps\CAN\SOH \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\ENQsteps\DC2?\n\ \\ACKmemory\CAN\STX \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\ACKmemory" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let steps__field_descriptor = Data.ProtoLens.FieldDescriptor "steps" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor RationalNumber) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'steps")) :: Data.ProtoLens.FieldDescriptor ExPrices memory__field_descriptor = Data.ProtoLens.FieldDescriptor "memory" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor RationalNumber) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'memory")) :: Data.ProtoLens.FieldDescriptor ExPrices in Data.Map.fromList [(Data.ProtoLens.Tag 1, steps__field_descriptor), (Data.ProtoLens.Tag 2, memory__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ExPrices'_unknownFields (\ x__ y__ -> x__ {_ExPrices'_unknownFields = y__}) defMessage = ExPrices'_constructor {_ExPrices'steps = Prelude.Nothing, _ExPrices'memory = Prelude.Nothing, _ExPrices'_unknownFields = []} parseMessage = let loop :: ExPrices -> Data.ProtoLens.Encoding.Bytes.Parser ExPrices 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "steps" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"steps") 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) "memory" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"memory") 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) "ExPrices" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'steps") _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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'memory") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData ExPrices where rnf = \ x__ -> Control.DeepSeq.deepseq (_ExPrices'_unknownFields x__) (Control.DeepSeq.deepseq (_ExPrices'steps x__) (Control.DeepSeq.deepseq (_ExPrices'memory x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.steps' @:: Lens' ExUnits Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.memory' @:: Lens' ExUnits Data.Word.Word64@ -} data ExUnits = ExUnits'_constructor {_ExUnits'steps :: !Data.Word.Word64, _ExUnits'memory :: !Data.Word.Word64, _ExUnits'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show ExUnits where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField ExUnits "steps" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ExUnits'steps (\ x__ y__ -> x__ {_ExUnits'steps = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ExUnits "memory" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ExUnits'memory (\ x__ y__ -> x__ {_ExUnits'memory = y__})) Prelude.id instance Data.ProtoLens.Message ExUnits where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.ExUnits" packedMessageDescriptor _ = "\n\ \\aExUnits\DC2\DC4\n\ \\ENQsteps\CAN\SOH \SOH(\EOTR\ENQsteps\DC2\SYN\n\ \\ACKmemory\CAN\STX \SOH(\EOTR\ACKmemory" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let steps__field_descriptor = Data.ProtoLens.FieldDescriptor "steps" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"steps")) :: Data.ProtoLens.FieldDescriptor ExUnits memory__field_descriptor = Data.ProtoLens.FieldDescriptor "memory" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"memory")) :: Data.ProtoLens.FieldDescriptor ExUnits in Data.Map.fromList [(Data.ProtoLens.Tag 1, steps__field_descriptor), (Data.ProtoLens.Tag 2, memory__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ExUnits'_unknownFields (\ x__ y__ -> x__ {_ExUnits'_unknownFields = y__}) defMessage = ExUnits'_constructor {_ExUnits'steps = Data.ProtoLens.fieldDefault, _ExUnits'memory = Data.ProtoLens.fieldDefault, _ExUnits'_unknownFields = []} parseMessage = let loop :: ExUnits -> Data.ProtoLens.Encoding.Bytes.Parser ExUnits 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.) Data.ProtoLens.Encoding.Bytes.getVarInt "steps" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"steps") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "memory" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"memory") 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) "ExUnits" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"steps") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"memory") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData ExUnits where rnf = \ x__ -> Control.DeepSeq.deepseq (_ExUnits'_unknownFields x__) (Control.DeepSeq.deepseq (_ExUnits'steps x__) (Control.DeepSeq.deepseq (_ExUnits'memory x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.genesisHash' @:: Lens' GenesisKeyDelegationCert Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.genesisDelegateHash' @:: Lens' GenesisKeyDelegationCert Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vrfKeyhash' @:: Lens' GenesisKeyDelegationCert Data.ByteString.ByteString@ -} data GenesisKeyDelegationCert = GenesisKeyDelegationCert'_constructor {_GenesisKeyDelegationCert'genesisHash :: !Data.ByteString.ByteString, _GenesisKeyDelegationCert'genesisDelegateHash :: !Data.ByteString.ByteString, _GenesisKeyDelegationCert'vrfKeyhash :: !Data.ByteString.ByteString, _GenesisKeyDelegationCert'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show GenesisKeyDelegationCert where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField GenesisKeyDelegationCert "genesisHash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _GenesisKeyDelegationCert'genesisHash (\ x__ y__ -> x__ {_GenesisKeyDelegationCert'genesisHash = y__})) Prelude.id instance Data.ProtoLens.Field.HasField GenesisKeyDelegationCert "genesisDelegateHash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _GenesisKeyDelegationCert'genesisDelegateHash (\ x__ y__ -> x__ {_GenesisKeyDelegationCert'genesisDelegateHash = y__})) Prelude.id instance Data.ProtoLens.Field.HasField GenesisKeyDelegationCert "vrfKeyhash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _GenesisKeyDelegationCert'vrfKeyhash (\ x__ y__ -> x__ {_GenesisKeyDelegationCert'vrfKeyhash = y__})) Prelude.id instance Data.ProtoLens.Message GenesisKeyDelegationCert where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.GenesisKeyDelegationCert" packedMessageDescriptor _ = "\n\ \\CANGenesisKeyDelegationCert\DC2!\n\ \\fgenesis_hash\CAN\SOH \SOH(\fR\vgenesisHash\DC22\n\ \\NAKgenesis_delegate_hash\CAN\STX \SOH(\fR\DC3genesisDelegateHash\DC2\US\n\ \\vvrf_keyhash\CAN\ETX \SOH(\fR\n\ \vrfKeyhash" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let genesisHash__field_descriptor = Data.ProtoLens.FieldDescriptor "genesis_hash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"genesisHash")) :: Data.ProtoLens.FieldDescriptor GenesisKeyDelegationCert genesisDelegateHash__field_descriptor = Data.ProtoLens.FieldDescriptor "genesis_delegate_hash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"genesisDelegateHash")) :: Data.ProtoLens.FieldDescriptor GenesisKeyDelegationCert vrfKeyhash__field_descriptor = Data.ProtoLens.FieldDescriptor "vrf_keyhash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"vrfKeyhash")) :: Data.ProtoLens.FieldDescriptor GenesisKeyDelegationCert in Data.Map.fromList [(Data.ProtoLens.Tag 1, genesisHash__field_descriptor), (Data.ProtoLens.Tag 2, genesisDelegateHash__field_descriptor), (Data.ProtoLens.Tag 3, vrfKeyhash__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _GenesisKeyDelegationCert'_unknownFields (\ x__ y__ -> x__ {_GenesisKeyDelegationCert'_unknownFields = y__}) defMessage = GenesisKeyDelegationCert'_constructor {_GenesisKeyDelegationCert'genesisHash = Data.ProtoLens.fieldDefault, _GenesisKeyDelegationCert'genesisDelegateHash = Data.ProtoLens.fieldDefault, _GenesisKeyDelegationCert'vrfKeyhash = Data.ProtoLens.fieldDefault, _GenesisKeyDelegationCert'_unknownFields = []} parseMessage = let loop :: GenesisKeyDelegationCert -> Data.ProtoLens.Encoding.Bytes.Parser GenesisKeyDelegationCert 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "genesis_hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"genesisHash") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "genesis_delegate_hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"genesisDelegateHash") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "vrf_keyhash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"vrfKeyhash") 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) "GenesisKeyDelegationCert" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"genesisHash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"genesisDelegateHash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"vrfKeyhash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData GenesisKeyDelegationCert where rnf = \ x__ -> Control.DeepSeq.deepseq (_GenesisKeyDelegationCert'_unknownFields x__) (Control.DeepSeq.deepseq (_GenesisKeyDelegationCert'genesisHash x__) (Control.DeepSeq.deepseq (_GenesisKeyDelegationCert'genesisDelegateHash x__) (Control.DeepSeq.deepseq (_GenesisKeyDelegationCert'vrfKeyhash x__) ()))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.label' @:: Lens' Metadata Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.value' @:: Lens' Metadata Metadatum@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'value' @:: Lens' Metadata (Prelude.Maybe Metadatum)@ -} data Metadata = Metadata'_constructor {_Metadata'label :: !Data.Word.Word64, _Metadata'value :: !(Prelude.Maybe Metadatum), _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 "label" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadata'label (\ x__ y__ -> x__ {_Metadata'label = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Metadata "value" Metadatum where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadata'value (\ x__ y__ -> x__ {_Metadata'value = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Metadata "maybe'value" (Prelude.Maybe Metadatum) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadata'value (\ x__ y__ -> x__ {_Metadata'value = y__})) Prelude.id instance Data.ProtoLens.Message Metadata where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Metadata" packedMessageDescriptor _ = "\n\ \\bMetadata\DC2\DC4\n\ \\ENQlabel\CAN\SOH \SOH(\EOTR\ENQlabel\DC28\n\ \\ENQvalue\CAN\STX \SOH(\v2\".utxorpc.v1alpha.cardano.MetadatumR\ENQvalue" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let label__field_descriptor = Data.ProtoLens.FieldDescriptor "label" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"label")) :: Data.ProtoLens.FieldDescriptor Metadata value__field_descriptor = Data.ProtoLens.FieldDescriptor "value" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Metadatum) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'value")) :: Data.ProtoLens.FieldDescriptor Metadata in Data.Map.fromList [(Data.ProtoLens.Tag 1, label__field_descriptor), (Data.ProtoLens.Tag 2, value__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Metadata'_unknownFields (\ x__ y__ -> x__ {_Metadata'_unknownFields = y__}) defMessage = Metadata'_constructor {_Metadata'label = Data.ProtoLens.fieldDefault, _Metadata'value = Prelude.Nothing, _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.) Data.ProtoLens.Encoding.Bytes.getVarInt "label" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"label") 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) "value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"value") 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 @"label") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'value") _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.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'label x__) (Control.DeepSeq.deepseq (_Metadata'value x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'metadatum' @:: Lens' Metadatum (Prelude.Maybe Metadatum'Metadatum)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'int' @:: Lens' Metadatum (Prelude.Maybe Data.Int.Int64)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.int' @:: Lens' Metadatum Data.Int.Int64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'bytes' @:: Lens' Metadatum (Prelude.Maybe Data.ByteString.ByteString)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.bytes' @:: Lens' Metadatum Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'text' @:: Lens' Metadatum (Prelude.Maybe Data.Text.Text)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.text' @:: Lens' Metadatum Data.Text.Text@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'array' @:: Lens' Metadatum (Prelude.Maybe MetadatumArray)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.array' @:: Lens' Metadatum MetadatumArray@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'map' @:: Lens' Metadatum (Prelude.Maybe MetadatumMap)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.map' @:: Lens' Metadatum MetadatumMap@ -} data Metadatum = Metadatum'_constructor {_Metadatum'metadatum :: !(Prelude.Maybe Metadatum'Metadatum), _Metadatum'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Metadatum where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) data Metadatum'Metadatum = Metadatum'Int !Data.Int.Int64 | Metadatum'Bytes !Data.ByteString.ByteString | Metadatum'Text !Data.Text.Text | Metadatum'Array !MetadatumArray | Metadatum'Map !MetadatumMap deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.Field.HasField Metadatum "maybe'metadatum" (Prelude.Maybe Metadatum'Metadatum) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Metadatum "maybe'int" (Prelude.Maybe Data.Int.Int64) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Metadatum'Int x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Metadatum'Int y__)) instance Data.ProtoLens.Field.HasField Metadatum "int" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Metadatum'Int x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Metadatum'Int y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField Metadatum "maybe'bytes" (Prelude.Maybe Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Metadatum'Bytes x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Metadatum'Bytes y__)) instance Data.ProtoLens.Field.HasField Metadatum "bytes" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Metadatum'Bytes x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Metadatum'Bytes y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField Metadatum "maybe'text" (Prelude.Maybe Data.Text.Text) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Metadatum'Text x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Metadatum'Text y__)) instance Data.ProtoLens.Field.HasField Metadatum "text" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Metadatum'Text x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Metadatum'Text y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField Metadatum "maybe'array" (Prelude.Maybe MetadatumArray) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Metadatum'Array x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Metadatum'Array y__)) instance Data.ProtoLens.Field.HasField Metadatum "array" MetadatumArray where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Metadatum'Array x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Metadatum'Array y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField Metadatum "maybe'map" (Prelude.Maybe MetadatumMap) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Metadatum'Map x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Metadatum'Map y__)) instance Data.ProtoLens.Field.HasField Metadatum "map" MetadatumMap where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Metadatum'metadatum (\ x__ y__ -> x__ {_Metadatum'metadatum = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Metadatum'Map x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Metadatum'Map y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Message Metadatum where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Metadatum" packedMessageDescriptor _ = "\n\ \\tMetadatum\DC2\DC2\n\ \\ETXint\CAN\SOH \SOH(\ETXH\NULR\ETXint\DC2\SYN\n\ \\ENQbytes\CAN\STX \SOH(\fH\NULR\ENQbytes\DC2\DC4\n\ \\EOTtext\CAN\ETX \SOH(\tH\NULR\EOTtext\DC2?\n\ \\ENQarray\CAN\EOT \SOH(\v2'.utxorpc.v1alpha.cardano.MetadatumArrayH\NULR\ENQarray\DC29\n\ \\ETXmap\CAN\ENQ \SOH(\v2%.utxorpc.v1alpha.cardano.MetadatumMapH\NULR\ETXmapB\v\n\ \\tmetadatum" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let int__field_descriptor = Data.ProtoLens.FieldDescriptor "int" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'int")) :: Data.ProtoLens.FieldDescriptor Metadatum bytes__field_descriptor = Data.ProtoLens.FieldDescriptor "bytes" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'bytes")) :: Data.ProtoLens.FieldDescriptor Metadatum text__field_descriptor = Data.ProtoLens.FieldDescriptor "text" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'text")) :: Data.ProtoLens.FieldDescriptor Metadatum array__field_descriptor = Data.ProtoLens.FieldDescriptor "array" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor MetadatumArray) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'array")) :: Data.ProtoLens.FieldDescriptor Metadatum map__field_descriptor = Data.ProtoLens.FieldDescriptor "map" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor MetadatumMap) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'map")) :: Data.ProtoLens.FieldDescriptor Metadatum in Data.Map.fromList [(Data.ProtoLens.Tag 1, int__field_descriptor), (Data.ProtoLens.Tag 2, bytes__field_descriptor), (Data.ProtoLens.Tag 3, text__field_descriptor), (Data.ProtoLens.Tag 4, array__field_descriptor), (Data.ProtoLens.Tag 5, map__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Metadatum'_unknownFields (\ x__ y__ -> x__ {_Metadatum'_unknownFields = y__}) defMessage = Metadatum'_constructor {_Metadatum'metadatum = Prelude.Nothing, _Metadatum'_unknownFields = []} parseMessage = let loop :: Metadatum -> Data.ProtoLens.Encoding.Bytes.Parser Metadatum 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.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "int" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"int") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "bytes" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"bytes") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getText (Prelude.fromIntegral len)) "text" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"text") y x) 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) "array" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"array") y x) 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "map" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"map") 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) "Metadatum" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'metadatum") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (Metadatum'Int v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral v) (Prelude.Just (Metadatum'Bytes v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) v) (Prelude.Just (Metadatum'Text 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) (Prelude.Just (Metadatum'Array 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) (Prelude.Just (Metadatum'Map v)) -> (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.ProtoLens.encodeMessage v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData Metadatum where rnf = \ x__ -> Control.DeepSeq.deepseq (_Metadatum'_unknownFields x__) (Control.DeepSeq.deepseq (_Metadatum'metadatum x__) ()) instance Control.DeepSeq.NFData Metadatum'Metadatum where rnf (Metadatum'Int x__) = Control.DeepSeq.rnf x__ rnf (Metadatum'Bytes x__) = Control.DeepSeq.rnf x__ rnf (Metadatum'Text x__) = Control.DeepSeq.rnf x__ rnf (Metadatum'Array x__) = Control.DeepSeq.rnf x__ rnf (Metadatum'Map x__) = Control.DeepSeq.rnf x__ _Metadatum'Int :: Data.ProtoLens.Prism.Prism' Metadatum'Metadatum Data.Int.Int64 _Metadatum'Int = Data.ProtoLens.Prism.prism' Metadatum'Int (\ p__ -> case p__ of (Metadatum'Int p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Metadatum'Bytes :: Data.ProtoLens.Prism.Prism' Metadatum'Metadatum Data.ByteString.ByteString _Metadatum'Bytes = Data.ProtoLens.Prism.prism' Metadatum'Bytes (\ p__ -> case p__ of (Metadatum'Bytes p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Metadatum'Text :: Data.ProtoLens.Prism.Prism' Metadatum'Metadatum Data.Text.Text _Metadatum'Text = Data.ProtoLens.Prism.prism' Metadatum'Text (\ p__ -> case p__ of (Metadatum'Text p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Metadatum'Array :: Data.ProtoLens.Prism.Prism' Metadatum'Metadatum MetadatumArray _Metadatum'Array = Data.ProtoLens.Prism.prism' Metadatum'Array (\ p__ -> case p__ of (Metadatum'Array p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Metadatum'Map :: Data.ProtoLens.Prism.Prism' Metadatum'Metadatum MetadatumMap _Metadatum'Map = Data.ProtoLens.Prism.prism' Metadatum'Map (\ p__ -> case p__ of (Metadatum'Map p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.items' @:: Lens' MetadatumArray [Metadatum]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'items' @:: Lens' MetadatumArray (Data.Vector.Vector Metadatum)@ -} data MetadatumArray = MetadatumArray'_constructor {_MetadatumArray'items :: !(Data.Vector.Vector Metadatum), _MetadatumArray'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show MetadatumArray where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField MetadatumArray "items" [Metadatum] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MetadatumArray'items (\ x__ y__ -> x__ {_MetadatumArray'items = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField MetadatumArray "vec'items" (Data.Vector.Vector Metadatum) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MetadatumArray'items (\ x__ y__ -> x__ {_MetadatumArray'items = y__})) Prelude.id instance Data.ProtoLens.Message MetadatumArray where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.MetadatumArray" packedMessageDescriptor _ = "\n\ \\SOMetadatumArray\DC28\n\ \\ENQitems\CAN\SOH \ETX(\v2\".utxorpc.v1alpha.cardano.MetadatumR\ENQitems" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let items__field_descriptor = Data.ProtoLens.FieldDescriptor "items" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Metadatum) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"items")) :: Data.ProtoLens.FieldDescriptor MetadatumArray in Data.Map.fromList [(Data.ProtoLens.Tag 1, items__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _MetadatumArray'_unknownFields (\ x__ y__ -> x__ {_MetadatumArray'_unknownFields = y__}) defMessage = MetadatumArray'_constructor {_MetadatumArray'items = Data.Vector.Generic.empty, _MetadatumArray'_unknownFields = []} parseMessage = let loop :: MetadatumArray -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Metadatum -> Data.ProtoLens.Encoding.Bytes.Parser MetadatumArray loop x mutable'items = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'items <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'items) (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'items") frozen'items 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) "items" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'items 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'items in (Data.ProtoLens.Encoding.Bytes.) (do mutable'items <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'items) "MetadatumArray" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _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)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'items") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData MetadatumArray where rnf = \ x__ -> Control.DeepSeq.deepseq (_MetadatumArray'_unknownFields x__) (Control.DeepSeq.deepseq (_MetadatumArray'items x__) ()) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.pairs' @:: Lens' MetadatumMap [MetadatumPair]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'pairs' @:: Lens' MetadatumMap (Data.Vector.Vector MetadatumPair)@ -} data MetadatumMap = MetadatumMap'_constructor {_MetadatumMap'pairs :: !(Data.Vector.Vector MetadatumPair), _MetadatumMap'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show MetadatumMap where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField MetadatumMap "pairs" [MetadatumPair] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MetadatumMap'pairs (\ x__ y__ -> x__ {_MetadatumMap'pairs = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField MetadatumMap "vec'pairs" (Data.Vector.Vector MetadatumPair) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MetadatumMap'pairs (\ x__ y__ -> x__ {_MetadatumMap'pairs = y__})) Prelude.id instance Data.ProtoLens.Message MetadatumMap where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.MetadatumMap" packedMessageDescriptor _ = "\n\ \\fMetadatumMap\DC2<\n\ \\ENQpairs\CAN\SOH \ETX(\v2&.utxorpc.v1alpha.cardano.MetadatumPairR\ENQpairs" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let pairs__field_descriptor = Data.ProtoLens.FieldDescriptor "pairs" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor MetadatumPair) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"pairs")) :: Data.ProtoLens.FieldDescriptor MetadatumMap in Data.Map.fromList [(Data.ProtoLens.Tag 1, pairs__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _MetadatumMap'_unknownFields (\ x__ y__ -> x__ {_MetadatumMap'_unknownFields = y__}) defMessage = MetadatumMap'_constructor {_MetadatumMap'pairs = Data.Vector.Generic.empty, _MetadatumMap'_unknownFields = []} parseMessage = let loop :: MetadatumMap -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld MetadatumPair -> Data.ProtoLens.Encoding.Bytes.Parser MetadatumMap loop x mutable'pairs = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'pairs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'pairs) (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'pairs") frozen'pairs 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) "pairs" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'pairs 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'pairs in (Data.ProtoLens.Encoding.Bytes.) (do mutable'pairs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'pairs) "MetadatumMap" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _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)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'pairs") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData MetadatumMap where rnf = \ x__ -> Control.DeepSeq.deepseq (_MetadatumMap'_unknownFields x__) (Control.DeepSeq.deepseq (_MetadatumMap'pairs x__) ()) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.key' @:: Lens' MetadatumPair Metadatum@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'key' @:: Lens' MetadatumPair (Prelude.Maybe Metadatum)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.value' @:: Lens' MetadatumPair Metadatum@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'value' @:: Lens' MetadatumPair (Prelude.Maybe Metadatum)@ -} data MetadatumPair = MetadatumPair'_constructor {_MetadatumPair'key :: !(Prelude.Maybe Metadatum), _MetadatumPair'value :: !(Prelude.Maybe Metadatum), _MetadatumPair'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show MetadatumPair where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField MetadatumPair "key" Metadatum where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MetadatumPair'key (\ x__ y__ -> x__ {_MetadatumPair'key = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField MetadatumPair "maybe'key" (Prelude.Maybe Metadatum) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MetadatumPair'key (\ x__ y__ -> x__ {_MetadatumPair'key = y__})) Prelude.id instance Data.ProtoLens.Field.HasField MetadatumPair "value" Metadatum where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MetadatumPair'value (\ x__ y__ -> x__ {_MetadatumPair'value = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField MetadatumPair "maybe'value" (Prelude.Maybe Metadatum) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MetadatumPair'value (\ x__ y__ -> x__ {_MetadatumPair'value = y__})) Prelude.id instance Data.ProtoLens.Message MetadatumPair where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.MetadatumPair" packedMessageDescriptor _ = "\n\ \\rMetadatumPair\DC24\n\ \\ETXkey\CAN\SOH \SOH(\v2\".utxorpc.v1alpha.cardano.MetadatumR\ETXkey\DC28\n\ \\ENQvalue\CAN\STX \SOH(\v2\".utxorpc.v1alpha.cardano.MetadatumR\ENQvalue" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let key__field_descriptor = Data.ProtoLens.FieldDescriptor "key" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Metadatum) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'key")) :: Data.ProtoLens.FieldDescriptor MetadatumPair value__field_descriptor = Data.ProtoLens.FieldDescriptor "value" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Metadatum) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'value")) :: Data.ProtoLens.FieldDescriptor MetadatumPair in Data.Map.fromList [(Data.ProtoLens.Tag 1, key__field_descriptor), (Data.ProtoLens.Tag 2, value__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _MetadatumPair'_unknownFields (\ x__ y__ -> x__ {_MetadatumPair'_unknownFields = y__}) defMessage = MetadatumPair'_constructor {_MetadatumPair'key = Prelude.Nothing, _MetadatumPair'value = Prelude.Nothing, _MetadatumPair'_unknownFields = []} parseMessage = let loop :: MetadatumPair -> Data.ProtoLens.Encoding.Bytes.Parser MetadatumPair 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"key") 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) "value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"value") 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) "MetadatumPair" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'key") _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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'value") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData MetadatumPair where rnf = \ x__ -> Control.DeepSeq.deepseq (_MetadatumPair'_unknownFields x__) (Control.DeepSeq.deepseq (_MetadatumPair'key x__) (Control.DeepSeq.deepseq (_MetadatumPair'value x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.from' @:: Lens' MirCert MirSource@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.to' @:: Lens' MirCert [MirTarget]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'to' @:: Lens' MirCert (Data.Vector.Vector MirTarget)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.otherPot' @:: Lens' MirCert Data.Word.Word64@ -} data MirCert = MirCert'_constructor {_MirCert'from :: !MirSource, _MirCert'to :: !(Data.Vector.Vector MirTarget), _MirCert'otherPot :: !Data.Word.Word64, _MirCert'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show MirCert where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField MirCert "from" MirSource where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MirCert'from (\ x__ y__ -> x__ {_MirCert'from = y__})) Prelude.id instance Data.ProtoLens.Field.HasField MirCert "to" [MirTarget] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MirCert'to (\ x__ y__ -> x__ {_MirCert'to = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField MirCert "vec'to" (Data.Vector.Vector MirTarget) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MirCert'to (\ x__ y__ -> x__ {_MirCert'to = y__})) Prelude.id instance Data.ProtoLens.Field.HasField MirCert "otherPot" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MirCert'otherPot (\ x__ y__ -> x__ {_MirCert'otherPot = y__})) Prelude.id instance Data.ProtoLens.Message MirCert where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.MirCert" packedMessageDescriptor _ = "\n\ \\aMirCert\DC26\n\ \\EOTfrom\CAN\SOH \SOH(\SO2\".utxorpc.v1alpha.cardano.MirSourceR\EOTfrom\DC22\n\ \\STXto\CAN\STX \ETX(\v2\".utxorpc.v1alpha.cardano.MirTargetR\STXto\DC2\ESC\n\ \\tother_pot\CAN\ETX \SOH(\EOTR\botherPot" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let from__field_descriptor = Data.ProtoLens.FieldDescriptor "from" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor MirSource) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"from")) :: Data.ProtoLens.FieldDescriptor MirCert to__field_descriptor = Data.ProtoLens.FieldDescriptor "to" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor MirTarget) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"to")) :: Data.ProtoLens.FieldDescriptor MirCert otherPot__field_descriptor = Data.ProtoLens.FieldDescriptor "other_pot" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"otherPot")) :: Data.ProtoLens.FieldDescriptor MirCert in Data.Map.fromList [(Data.ProtoLens.Tag 1, from__field_descriptor), (Data.ProtoLens.Tag 2, to__field_descriptor), (Data.ProtoLens.Tag 3, otherPot__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _MirCert'_unknownFields (\ x__ y__ -> x__ {_MirCert'_unknownFields = y__}) defMessage = MirCert'_constructor {_MirCert'from = Data.ProtoLens.fieldDefault, _MirCert'to = Data.Vector.Generic.empty, _MirCert'otherPot = Data.ProtoLens.fieldDefault, _MirCert'_unknownFields = []} parseMessage = let loop :: MirCert -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld MirTarget -> Data.ProtoLens.Encoding.Bytes.Parser MirCert loop x mutable'to = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'to <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'to) (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'to") frozen'to 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)) "from" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"from") y x) mutable'to 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) "to" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'to y) loop x v 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "other_pot" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"otherPot") y x) mutable'to wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'to in (Data.ProtoLens.Encoding.Bytes.) (do mutable'to <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'to) "MirCert" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"from") _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.<>) (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'to") _x)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"otherPot") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData MirCert where rnf = \ x__ -> Control.DeepSeq.deepseq (_MirCert'_unknownFields x__) (Control.DeepSeq.deepseq (_MirCert'from x__) (Control.DeepSeq.deepseq (_MirCert'to x__) (Control.DeepSeq.deepseq (_MirCert'otherPot x__) ()))) newtype MirSource'UnrecognizedValue = MirSource'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data MirSource = MIR_SOURCE_UNSPECIFIED | MIR_SOURCE_RESERVES | MIR_SOURCE_TREASURY | MirSource'Unrecognized !MirSource'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum MirSource where maybeToEnum 0 = Prelude.Just MIR_SOURCE_UNSPECIFIED maybeToEnum 1 = Prelude.Just MIR_SOURCE_RESERVES maybeToEnum 2 = Prelude.Just MIR_SOURCE_TREASURY maybeToEnum k = Prelude.Just (MirSource'Unrecognized (MirSource'UnrecognizedValue (Prelude.fromIntegral k))) showEnum MIR_SOURCE_UNSPECIFIED = "MIR_SOURCE_UNSPECIFIED" showEnum MIR_SOURCE_RESERVES = "MIR_SOURCE_RESERVES" showEnum MIR_SOURCE_TREASURY = "MIR_SOURCE_TREASURY" showEnum (MirSource'Unrecognized (MirSource'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "MIR_SOURCE_UNSPECIFIED" = Prelude.Just MIR_SOURCE_UNSPECIFIED | (Prelude.==) k "MIR_SOURCE_RESERVES" = Prelude.Just MIR_SOURCE_RESERVES | (Prelude.==) k "MIR_SOURCE_TREASURY" = Prelude.Just MIR_SOURCE_TREASURY | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded MirSource where minBound = MIR_SOURCE_UNSPECIFIED maxBound = MIR_SOURCE_TREASURY instance Prelude.Enum MirSource where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum MirSource: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum MIR_SOURCE_UNSPECIFIED = 0 fromEnum MIR_SOURCE_RESERVES = 1 fromEnum MIR_SOURCE_TREASURY = 2 fromEnum (MirSource'Unrecognized (MirSource'UnrecognizedValue k)) = Prelude.fromIntegral k succ MIR_SOURCE_TREASURY = Prelude.error "MirSource.succ: bad argument MIR_SOURCE_TREASURY. This value would be out of bounds." succ MIR_SOURCE_UNSPECIFIED = MIR_SOURCE_RESERVES succ MIR_SOURCE_RESERVES = MIR_SOURCE_TREASURY succ (MirSource'Unrecognized _) = Prelude.error "MirSource.succ: bad argument: unrecognized value" pred MIR_SOURCE_UNSPECIFIED = Prelude.error "MirSource.pred: bad argument MIR_SOURCE_UNSPECIFIED. This value would be out of bounds." pred MIR_SOURCE_RESERVES = MIR_SOURCE_UNSPECIFIED pred MIR_SOURCE_TREASURY = MIR_SOURCE_RESERVES pred (MirSource'Unrecognized _) = Prelude.error "MirSource.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 MirSource where fieldDefault = MIR_SOURCE_UNSPECIFIED instance Control.DeepSeq.NFData MirSource where rnf x__ = Prelude.seq x__ () {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.stakeCredential' @:: Lens' MirTarget StakeCredential@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'stakeCredential' @:: Lens' MirTarget (Prelude.Maybe StakeCredential)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.deltaCoin' @:: Lens' MirTarget Data.Int.Int64@ -} data MirTarget = MirTarget'_constructor {_MirTarget'stakeCredential :: !(Prelude.Maybe StakeCredential), _MirTarget'deltaCoin :: !Data.Int.Int64, _MirTarget'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show MirTarget where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField MirTarget "stakeCredential" StakeCredential where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MirTarget'stakeCredential (\ x__ y__ -> x__ {_MirTarget'stakeCredential = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField MirTarget "maybe'stakeCredential" (Prelude.Maybe StakeCredential) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MirTarget'stakeCredential (\ x__ y__ -> x__ {_MirTarget'stakeCredential = y__})) Prelude.id instance Data.ProtoLens.Field.HasField MirTarget "deltaCoin" Data.Int.Int64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _MirTarget'deltaCoin (\ x__ y__ -> x__ {_MirTarget'deltaCoin = y__})) Prelude.id instance Data.ProtoLens.Message MirTarget where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.MirTarget" packedMessageDescriptor _ = "\n\ \\tMirTarget\DC2S\n\ \\DLEstake_credential\CAN\SOH \SOH(\v2(.utxorpc.v1alpha.cardano.StakeCredentialR\SIstakeCredential\DC2\GS\n\ \\n\ \delta_coin\CAN\STX \SOH(\ETXR\tdeltaCoin" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let stakeCredential__field_descriptor = Data.ProtoLens.FieldDescriptor "stake_credential" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor StakeCredential) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'stakeCredential")) :: Data.ProtoLens.FieldDescriptor MirTarget deltaCoin__field_descriptor = Data.ProtoLens.FieldDescriptor "delta_coin" (Data.ProtoLens.ScalarField Data.ProtoLens.Int64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"deltaCoin")) :: Data.ProtoLens.FieldDescriptor MirTarget in Data.Map.fromList [(Data.ProtoLens.Tag 1, stakeCredential__field_descriptor), (Data.ProtoLens.Tag 2, deltaCoin__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _MirTarget'_unknownFields (\ x__ y__ -> x__ {_MirTarget'_unknownFields = y__}) defMessage = MirTarget'_constructor {_MirTarget'stakeCredential = Prelude.Nothing, _MirTarget'deltaCoin = Data.ProtoLens.fieldDefault, _MirTarget'_unknownFields = []} parseMessage = let loop :: MirTarget -> Data.ProtoLens.Encoding.Bytes.Parser MirTarget 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "stake_credential" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"stakeCredential") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "delta_coin" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"deltaCoin") 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) "MirTarget" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'stakeCredential") _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.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"deltaCoin") _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 Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData MirTarget where rnf = \ x__ -> Control.DeepSeq.deepseq (_MirTarget'_unknownFields x__) (Control.DeepSeq.deepseq (_MirTarget'stakeCredential x__) (Control.DeepSeq.deepseq (_MirTarget'deltaCoin x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.policyId' @:: Lens' Multiasset Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.assets' @:: Lens' Multiasset [Asset]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'assets' @:: Lens' Multiasset (Data.Vector.Vector Asset)@ -} data Multiasset = Multiasset'_constructor {_Multiasset'policyId :: !Data.ByteString.ByteString, _Multiasset'assets :: !(Data.Vector.Vector Asset), _Multiasset'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Multiasset where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Multiasset "policyId" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Multiasset'policyId (\ x__ y__ -> x__ {_Multiasset'policyId = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Multiasset "assets" [Asset] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Multiasset'assets (\ x__ y__ -> x__ {_Multiasset'assets = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Multiasset "vec'assets" (Data.Vector.Vector Asset) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Multiasset'assets (\ x__ y__ -> x__ {_Multiasset'assets = y__})) Prelude.id instance Data.ProtoLens.Message Multiasset where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Multiasset" packedMessageDescriptor _ = "\n\ \\n\ \Multiasset\DC2\ESC\n\ \\tpolicy_id\CAN\SOH \SOH(\fR\bpolicyId\DC26\n\ \\ACKassets\CAN\STX \ETX(\v2\RS.utxorpc.v1alpha.cardano.AssetR\ACKassets" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let policyId__field_descriptor = Data.ProtoLens.FieldDescriptor "policy_id" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"policyId")) :: Data.ProtoLens.FieldDescriptor Multiasset assets__field_descriptor = Data.ProtoLens.FieldDescriptor "assets" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Asset) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"assets")) :: Data.ProtoLens.FieldDescriptor Multiasset in Data.Map.fromList [(Data.ProtoLens.Tag 1, policyId__field_descriptor), (Data.ProtoLens.Tag 2, assets__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Multiasset'_unknownFields (\ x__ y__ -> x__ {_Multiasset'_unknownFields = y__}) defMessage = Multiasset'_constructor {_Multiasset'policyId = Data.ProtoLens.fieldDefault, _Multiasset'assets = Data.Vector.Generic.empty, _Multiasset'_unknownFields = []} parseMessage = let loop :: Multiasset -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Asset -> Data.ProtoLens.Encoding.Bytes.Parser Multiasset loop x mutable'assets = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'assets <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'assets) (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'assets") frozen'assets 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.getBytes (Prelude.fromIntegral len)) "policy_id" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"policyId") y x) mutable'assets 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) "assets" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'assets 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'assets in (Data.ProtoLens.Encoding.Bytes.) (do mutable'assets <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'assets) "Multiasset" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"policyId") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _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'assets") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData Multiasset where rnf = \ x__ -> Control.DeepSeq.deepseq (_Multiasset'_unknownFields x__) (Control.DeepSeq.deepseq (_Multiasset'policyId x__) (Control.DeepSeq.deepseq (_Multiasset'assets x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'nativeScript' @:: Lens' NativeScript (Prelude.Maybe NativeScript'NativeScript)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'scriptPubkey' @:: Lens' NativeScript (Prelude.Maybe Data.ByteString.ByteString)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.scriptPubkey' @:: Lens' NativeScript Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'scriptAll' @:: Lens' NativeScript (Prelude.Maybe NativeScriptList)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.scriptAll' @:: Lens' NativeScript NativeScriptList@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'scriptAny' @:: Lens' NativeScript (Prelude.Maybe NativeScriptList)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.scriptAny' @:: Lens' NativeScript NativeScriptList@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'scriptNOfK' @:: Lens' NativeScript (Prelude.Maybe ScriptNOfK)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.scriptNOfK' @:: Lens' NativeScript ScriptNOfK@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'invalidBefore' @:: Lens' NativeScript (Prelude.Maybe Data.Word.Word64)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.invalidBefore' @:: Lens' NativeScript Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'invalidHereafter' @:: Lens' NativeScript (Prelude.Maybe Data.Word.Word64)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.invalidHereafter' @:: Lens' NativeScript Data.Word.Word64@ -} data NativeScript = NativeScript'_constructor {_NativeScript'nativeScript :: !(Prelude.Maybe NativeScript'NativeScript), _NativeScript'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show NativeScript where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) data NativeScript'NativeScript = NativeScript'ScriptPubkey !Data.ByteString.ByteString | NativeScript'ScriptAll !NativeScriptList | NativeScript'ScriptAny !NativeScriptList | NativeScript'ScriptNOfK !ScriptNOfK | NativeScript'InvalidBefore !Data.Word.Word64 | NativeScript'InvalidHereafter !Data.Word.Word64 deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.Field.HasField NativeScript "maybe'nativeScript" (Prelude.Maybe NativeScript'NativeScript) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) Prelude.id instance Data.ProtoLens.Field.HasField NativeScript "maybe'scriptPubkey" (Prelude.Maybe Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'ScriptPubkey x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'ScriptPubkey y__)) instance Data.ProtoLens.Field.HasField NativeScript "scriptPubkey" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'ScriptPubkey x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'ScriptPubkey y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField NativeScript "maybe'scriptAll" (Prelude.Maybe NativeScriptList) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'ScriptAll x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'ScriptAll y__)) instance Data.ProtoLens.Field.HasField NativeScript "scriptAll" NativeScriptList where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'ScriptAll x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'ScriptAll y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField NativeScript "maybe'scriptAny" (Prelude.Maybe NativeScriptList) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'ScriptAny x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'ScriptAny y__)) instance Data.ProtoLens.Field.HasField NativeScript "scriptAny" NativeScriptList where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'ScriptAny x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'ScriptAny y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField NativeScript "maybe'scriptNOfK" (Prelude.Maybe ScriptNOfK) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'ScriptNOfK x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'ScriptNOfK y__)) instance Data.ProtoLens.Field.HasField NativeScript "scriptNOfK" ScriptNOfK where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'ScriptNOfK x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'ScriptNOfK y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField NativeScript "maybe'invalidBefore" (Prelude.Maybe Data.Word.Word64) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'InvalidBefore x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'InvalidBefore y__)) instance Data.ProtoLens.Field.HasField NativeScript "invalidBefore" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'InvalidBefore x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'InvalidBefore y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField NativeScript "maybe'invalidHereafter" (Prelude.Maybe Data.Word.Word64) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'InvalidHereafter x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'InvalidHereafter y__)) instance Data.ProtoLens.Field.HasField NativeScript "invalidHereafter" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScript'nativeScript (\ x__ y__ -> x__ {_NativeScript'nativeScript = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (NativeScript'InvalidHereafter x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap NativeScript'InvalidHereafter y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Message NativeScript where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.NativeScript" packedMessageDescriptor _ = "\n\ \\fNativeScript\DC2%\n\ \\rscript_pubkey\CAN\SOH \SOH(\fH\NULR\fscriptPubkey\DC2J\n\ \\n\ \script_all\CAN\STX \SOH(\v2).utxorpc.v1alpha.cardano.NativeScriptListH\NULR\tscriptAll\DC2J\n\ \\n\ \script_any\CAN\ETX \SOH(\v2).utxorpc.v1alpha.cardano.NativeScriptListH\NULR\tscriptAny\DC2H\n\ \\rscript_n_of_k\CAN\EOT \SOH(\v2#.utxorpc.v1alpha.cardano.ScriptNOfKH\NULR\n\ \scriptNOfK\DC2'\n\ \\SOinvalid_before\CAN\ENQ \SOH(\EOTH\NULR\rinvalidBefore\DC2-\n\ \\DC1invalid_hereafter\CAN\ACK \SOH(\EOTH\NULR\DLEinvalidHereafterB\SI\n\ \\rnative_script" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let scriptPubkey__field_descriptor = Data.ProtoLens.FieldDescriptor "script_pubkey" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'scriptPubkey")) :: Data.ProtoLens.FieldDescriptor NativeScript scriptAll__field_descriptor = Data.ProtoLens.FieldDescriptor "script_all" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NativeScriptList) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'scriptAll")) :: Data.ProtoLens.FieldDescriptor NativeScript scriptAny__field_descriptor = Data.ProtoLens.FieldDescriptor "script_any" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NativeScriptList) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'scriptAny")) :: Data.ProtoLens.FieldDescriptor NativeScript scriptNOfK__field_descriptor = Data.ProtoLens.FieldDescriptor "script_n_of_k" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ScriptNOfK) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'scriptNOfK")) :: Data.ProtoLens.FieldDescriptor NativeScript invalidBefore__field_descriptor = Data.ProtoLens.FieldDescriptor "invalid_before" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'invalidBefore")) :: Data.ProtoLens.FieldDescriptor NativeScript invalidHereafter__field_descriptor = Data.ProtoLens.FieldDescriptor "invalid_hereafter" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'invalidHereafter")) :: Data.ProtoLens.FieldDescriptor NativeScript in Data.Map.fromList [(Data.ProtoLens.Tag 1, scriptPubkey__field_descriptor), (Data.ProtoLens.Tag 2, scriptAll__field_descriptor), (Data.ProtoLens.Tag 3, scriptAny__field_descriptor), (Data.ProtoLens.Tag 4, scriptNOfK__field_descriptor), (Data.ProtoLens.Tag 5, invalidBefore__field_descriptor), (Data.ProtoLens.Tag 6, invalidHereafter__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NativeScript'_unknownFields (\ x__ y__ -> x__ {_NativeScript'_unknownFields = y__}) defMessage = NativeScript'_constructor {_NativeScript'nativeScript = Prelude.Nothing, _NativeScript'_unknownFields = []} parseMessage = let loop :: NativeScript -> Data.ProtoLens.Encoding.Bytes.Parser NativeScript 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "script_pubkey" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"scriptPubkey") 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) "script_all" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"scriptAll") y x) 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) "script_any" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"scriptAny") y x) 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) "script_n_of_k" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"scriptNOfK") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "invalid_before" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"invalidBefore") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "invalid_hereafter" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"invalidHereafter") 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) "NativeScript" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'nativeScript") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (NativeScript'ScriptPubkey v)) -> (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)) v) (Prelude.Just (NativeScript'ScriptAll 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) (Prelude.Just (NativeScript'ScriptAny 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) (Prelude.Just (NativeScript'ScriptNOfK 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) (Prelude.Just (NativeScript'InvalidBefore v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) (Data.ProtoLens.Encoding.Bytes.putVarInt v) (Prelude.Just (NativeScript'InvalidHereafter v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) (Data.ProtoLens.Encoding.Bytes.putVarInt v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData NativeScript where rnf = \ x__ -> Control.DeepSeq.deepseq (_NativeScript'_unknownFields x__) (Control.DeepSeq.deepseq (_NativeScript'nativeScript x__) ()) instance Control.DeepSeq.NFData NativeScript'NativeScript where rnf (NativeScript'ScriptPubkey x__) = Control.DeepSeq.rnf x__ rnf (NativeScript'ScriptAll x__) = Control.DeepSeq.rnf x__ rnf (NativeScript'ScriptAny x__) = Control.DeepSeq.rnf x__ rnf (NativeScript'ScriptNOfK x__) = Control.DeepSeq.rnf x__ rnf (NativeScript'InvalidBefore x__) = Control.DeepSeq.rnf x__ rnf (NativeScript'InvalidHereafter x__) = Control.DeepSeq.rnf x__ _NativeScript'ScriptPubkey :: Data.ProtoLens.Prism.Prism' NativeScript'NativeScript Data.ByteString.ByteString _NativeScript'ScriptPubkey = Data.ProtoLens.Prism.prism' NativeScript'ScriptPubkey (\ p__ -> case p__ of (NativeScript'ScriptPubkey p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _NativeScript'ScriptAll :: Data.ProtoLens.Prism.Prism' NativeScript'NativeScript NativeScriptList _NativeScript'ScriptAll = Data.ProtoLens.Prism.prism' NativeScript'ScriptAll (\ p__ -> case p__ of (NativeScript'ScriptAll p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _NativeScript'ScriptAny :: Data.ProtoLens.Prism.Prism' NativeScript'NativeScript NativeScriptList _NativeScript'ScriptAny = Data.ProtoLens.Prism.prism' NativeScript'ScriptAny (\ p__ -> case p__ of (NativeScript'ScriptAny p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _NativeScript'ScriptNOfK :: Data.ProtoLens.Prism.Prism' NativeScript'NativeScript ScriptNOfK _NativeScript'ScriptNOfK = Data.ProtoLens.Prism.prism' NativeScript'ScriptNOfK (\ p__ -> case p__ of (NativeScript'ScriptNOfK p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _NativeScript'InvalidBefore :: Data.ProtoLens.Prism.Prism' NativeScript'NativeScript Data.Word.Word64 _NativeScript'InvalidBefore = Data.ProtoLens.Prism.prism' NativeScript'InvalidBefore (\ p__ -> case p__ of (NativeScript'InvalidBefore p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _NativeScript'InvalidHereafter :: Data.ProtoLens.Prism.Prism' NativeScript'NativeScript Data.Word.Word64 _NativeScript'InvalidHereafter = Data.ProtoLens.Prism.prism' NativeScript'InvalidHereafter (\ p__ -> case p__ of (NativeScript'InvalidHereafter p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.items' @:: Lens' NativeScriptList [NativeScript]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'items' @:: Lens' NativeScriptList (Data.Vector.Vector NativeScript)@ -} data NativeScriptList = NativeScriptList'_constructor {_NativeScriptList'items :: !(Data.Vector.Vector NativeScript), _NativeScriptList'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show NativeScriptList where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField NativeScriptList "items" [NativeScript] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScriptList'items (\ x__ y__ -> x__ {_NativeScriptList'items = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField NativeScriptList "vec'items" (Data.Vector.Vector NativeScript) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _NativeScriptList'items (\ x__ y__ -> x__ {_NativeScriptList'items = y__})) Prelude.id instance Data.ProtoLens.Message NativeScriptList where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.NativeScriptList" packedMessageDescriptor _ = "\n\ \\DLENativeScriptList\DC2;\n\ \\ENQitems\CAN\SOH \ETX(\v2%.utxorpc.v1alpha.cardano.NativeScriptR\ENQitems" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let items__field_descriptor = Data.ProtoLens.FieldDescriptor "items" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NativeScript) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"items")) :: Data.ProtoLens.FieldDescriptor NativeScriptList in Data.Map.fromList [(Data.ProtoLens.Tag 1, items__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _NativeScriptList'_unknownFields (\ x__ y__ -> x__ {_NativeScriptList'_unknownFields = y__}) defMessage = NativeScriptList'_constructor {_NativeScriptList'items = Data.Vector.Generic.empty, _NativeScriptList'_unknownFields = []} parseMessage = let loop :: NativeScriptList -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld NativeScript -> Data.ProtoLens.Encoding.Bytes.Parser NativeScriptList loop x mutable'items = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'items <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'items) (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'items") frozen'items 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) "items" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'items 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'items in (Data.ProtoLens.Encoding.Bytes.) (do mutable'items <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'items) "NativeScriptList" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _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)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'items") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData NativeScriptList where rnf = \ x__ -> Control.DeepSeq.deepseq (_NativeScriptList'_unknownFields x__) (Control.DeepSeq.deepseq (_NativeScriptList'items x__) ()) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.coinsPerUtxoByte' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maxTxSize' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.minFeeCoefficient' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.minFeeConstant' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maxBlockBodySize' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maxBlockHeaderSize' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.stakeKeyDeposit' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.poolDeposit' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.poolRetirementEpochBound' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.desiredNumberOfPools' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.poolInfluence' @:: Lens' PParams RationalNumber@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'poolInfluence' @:: Lens' PParams (Prelude.Maybe RationalNumber)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.monetaryExpansion' @:: Lens' PParams RationalNumber@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'monetaryExpansion' @:: Lens' PParams (Prelude.Maybe RationalNumber)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.treasuryExpansion' @:: Lens' PParams RationalNumber@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'treasuryExpansion' @:: Lens' PParams (Prelude.Maybe RationalNumber)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.minPoolCost' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.protocolVersion' @:: Lens' PParams ProtocolVersion@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'protocolVersion' @:: Lens' PParams (Prelude.Maybe ProtocolVersion)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maxValueSize' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.collateralPercentage' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maxCollateralInputs' @:: Lens' PParams Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.costModels' @:: Lens' PParams CostModels@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'costModels' @:: Lens' PParams (Prelude.Maybe CostModels)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.prices' @:: Lens' PParams ExPrices@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'prices' @:: Lens' PParams (Prelude.Maybe ExPrices)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maxExecutionUnitsPerTransaction' @:: Lens' PParams ExUnits@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'maxExecutionUnitsPerTransaction' @:: Lens' PParams (Prelude.Maybe ExUnits)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maxExecutionUnitsPerBlock' @:: Lens' PParams ExUnits@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'maxExecutionUnitsPerBlock' @:: Lens' PParams (Prelude.Maybe ExUnits)@ -} data PParams = PParams'_constructor {_PParams'coinsPerUtxoByte :: !Data.Word.Word64, _PParams'maxTxSize :: !Data.Word.Word64, _PParams'minFeeCoefficient :: !Data.Word.Word64, _PParams'minFeeConstant :: !Data.Word.Word64, _PParams'maxBlockBodySize :: !Data.Word.Word64, _PParams'maxBlockHeaderSize :: !Data.Word.Word64, _PParams'stakeKeyDeposit :: !Data.Word.Word64, _PParams'poolDeposit :: !Data.Word.Word64, _PParams'poolRetirementEpochBound :: !Data.Word.Word64, _PParams'desiredNumberOfPools :: !Data.Word.Word64, _PParams'poolInfluence :: !(Prelude.Maybe RationalNumber), _PParams'monetaryExpansion :: !(Prelude.Maybe RationalNumber), _PParams'treasuryExpansion :: !(Prelude.Maybe RationalNumber), _PParams'minPoolCost :: !Data.Word.Word64, _PParams'protocolVersion :: !(Prelude.Maybe ProtocolVersion), _PParams'maxValueSize :: !Data.Word.Word64, _PParams'collateralPercentage :: !Data.Word.Word64, _PParams'maxCollateralInputs :: !Data.Word.Word64, _PParams'costModels :: !(Prelude.Maybe CostModels), _PParams'prices :: !(Prelude.Maybe ExPrices), _PParams'maxExecutionUnitsPerTransaction :: !(Prelude.Maybe ExUnits), _PParams'maxExecutionUnitsPerBlock :: !(Prelude.Maybe ExUnits), _PParams'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show PParams where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField PParams "coinsPerUtxoByte" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'coinsPerUtxoByte (\ x__ y__ -> x__ {_PParams'coinsPerUtxoByte = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "maxTxSize" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'maxTxSize (\ x__ y__ -> x__ {_PParams'maxTxSize = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "minFeeCoefficient" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'minFeeCoefficient (\ x__ y__ -> x__ {_PParams'minFeeCoefficient = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "minFeeConstant" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'minFeeConstant (\ x__ y__ -> x__ {_PParams'minFeeConstant = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "maxBlockBodySize" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'maxBlockBodySize (\ x__ y__ -> x__ {_PParams'maxBlockBodySize = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "maxBlockHeaderSize" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'maxBlockHeaderSize (\ x__ y__ -> x__ {_PParams'maxBlockHeaderSize = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "stakeKeyDeposit" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'stakeKeyDeposit (\ x__ y__ -> x__ {_PParams'stakeKeyDeposit = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "poolDeposit" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'poolDeposit (\ x__ y__ -> x__ {_PParams'poolDeposit = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "poolRetirementEpochBound" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'poolRetirementEpochBound (\ x__ y__ -> x__ {_PParams'poolRetirementEpochBound = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "desiredNumberOfPools" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'desiredNumberOfPools (\ x__ y__ -> x__ {_PParams'desiredNumberOfPools = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "poolInfluence" RationalNumber where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'poolInfluence (\ x__ y__ -> x__ {_PParams'poolInfluence = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PParams "maybe'poolInfluence" (Prelude.Maybe RationalNumber) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'poolInfluence (\ x__ y__ -> x__ {_PParams'poolInfluence = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "monetaryExpansion" RationalNumber where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'monetaryExpansion (\ x__ y__ -> x__ {_PParams'monetaryExpansion = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PParams "maybe'monetaryExpansion" (Prelude.Maybe RationalNumber) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'monetaryExpansion (\ x__ y__ -> x__ {_PParams'monetaryExpansion = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "treasuryExpansion" RationalNumber where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'treasuryExpansion (\ x__ y__ -> x__ {_PParams'treasuryExpansion = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PParams "maybe'treasuryExpansion" (Prelude.Maybe RationalNumber) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'treasuryExpansion (\ x__ y__ -> x__ {_PParams'treasuryExpansion = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "minPoolCost" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'minPoolCost (\ x__ y__ -> x__ {_PParams'minPoolCost = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "protocolVersion" ProtocolVersion where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'protocolVersion (\ x__ y__ -> x__ {_PParams'protocolVersion = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PParams "maybe'protocolVersion" (Prelude.Maybe ProtocolVersion) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'protocolVersion (\ x__ y__ -> x__ {_PParams'protocolVersion = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "maxValueSize" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'maxValueSize (\ x__ y__ -> x__ {_PParams'maxValueSize = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "collateralPercentage" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'collateralPercentage (\ x__ y__ -> x__ {_PParams'collateralPercentage = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "maxCollateralInputs" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'maxCollateralInputs (\ x__ y__ -> x__ {_PParams'maxCollateralInputs = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "costModels" CostModels where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'costModels (\ x__ y__ -> x__ {_PParams'costModels = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PParams "maybe'costModels" (Prelude.Maybe CostModels) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'costModels (\ x__ y__ -> x__ {_PParams'costModels = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "prices" ExPrices where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'prices (\ x__ y__ -> x__ {_PParams'prices = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PParams "maybe'prices" (Prelude.Maybe ExPrices) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'prices (\ x__ y__ -> x__ {_PParams'prices = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "maxExecutionUnitsPerTransaction" ExUnits where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'maxExecutionUnitsPerTransaction (\ x__ y__ -> x__ {_PParams'maxExecutionUnitsPerTransaction = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PParams "maybe'maxExecutionUnitsPerTransaction" (Prelude.Maybe ExUnits) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'maxExecutionUnitsPerTransaction (\ x__ y__ -> x__ {_PParams'maxExecutionUnitsPerTransaction = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PParams "maxExecutionUnitsPerBlock" ExUnits where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'maxExecutionUnitsPerBlock (\ x__ y__ -> x__ {_PParams'maxExecutionUnitsPerBlock = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PParams "maybe'maxExecutionUnitsPerBlock" (Prelude.Maybe ExUnits) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PParams'maxExecutionUnitsPerBlock (\ x__ y__ -> x__ {_PParams'maxExecutionUnitsPerBlock = y__})) Prelude.id instance Data.ProtoLens.Message PParams where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.PParams" packedMessageDescriptor _ = "\n\ \\aPParams\DC2-\n\ \\DC3coins_per_utxo_byte\CAN\SOH \SOH(\EOTR\DLEcoinsPerUtxoByte\DC2\RS\n\ \\vmax_tx_size\CAN\STX \SOH(\EOTR\tmaxTxSize\DC2.\n\ \\DC3min_fee_coefficient\CAN\ETX \SOH(\EOTR\DC1minFeeCoefficient\DC2(\n\ \\DLEmin_fee_constant\CAN\EOT \SOH(\EOTR\SOminFeeConstant\DC2-\n\ \\DC3max_block_body_size\CAN\ENQ \SOH(\EOTR\DLEmaxBlockBodySize\DC21\n\ \\NAKmax_block_header_size\CAN\ACK \SOH(\EOTR\DC2maxBlockHeaderSize\DC2*\n\ \\DC1stake_key_deposit\CAN\a \SOH(\EOTR\SIstakeKeyDeposit\DC2!\n\ \\fpool_deposit\CAN\b \SOH(\EOTR\vpoolDeposit\DC2=\n\ \\ESCpool_retirement_epoch_bound\CAN\t \SOH(\EOTR\CANpoolRetirementEpochBound\DC25\n\ \\ETBdesired_number_of_pools\CAN\n\ \ \SOH(\EOTR\DC4desiredNumberOfPools\DC2N\n\ \\SOpool_influence\CAN\v \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\rpoolInfluence\DC2V\n\ \\DC2monetary_expansion\CAN\f \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\DC1monetaryExpansion\DC2V\n\ \\DC2treasury_expansion\CAN\r \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\DC1treasuryExpansion\DC2\"\n\ \\rmin_pool_cost\CAN\SO \SOH(\EOTR\vminPoolCost\DC2S\n\ \\DLEprotocol_version\CAN\SI \SOH(\v2(.utxorpc.v1alpha.cardano.ProtocolVersionR\SIprotocolVersion\DC2$\n\ \\SOmax_value_size\CAN\DLE \SOH(\EOTR\fmaxValueSize\DC23\n\ \\NAKcollateral_percentage\CAN\DC1 \SOH(\EOTR\DC4collateralPercentage\DC22\n\ \\NAKmax_collateral_inputs\CAN\DC2 \SOH(\EOTR\DC3maxCollateralInputs\DC2D\n\ \\vcost_models\CAN\DC3 \SOH(\v2#.utxorpc.v1alpha.cardano.CostModelsR\n\ \costModels\DC29\n\ \\ACKprices\CAN\DC4 \SOH(\v2!.utxorpc.v1alpha.cardano.ExPricesR\ACKprices\DC2n\n\ \#max_execution_units_per_transaction\CAN\NAK \SOH(\v2 .utxorpc.v1alpha.cardano.ExUnitsR\USmaxExecutionUnitsPerTransaction\DC2b\n\ \\GSmax_execution_units_per_block\CAN\SYN \SOH(\v2 .utxorpc.v1alpha.cardano.ExUnitsR\EMmaxExecutionUnitsPerBlock" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let coinsPerUtxoByte__field_descriptor = Data.ProtoLens.FieldDescriptor "coins_per_utxo_byte" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"coinsPerUtxoByte")) :: Data.ProtoLens.FieldDescriptor PParams maxTxSize__field_descriptor = Data.ProtoLens.FieldDescriptor "max_tx_size" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maxTxSize")) :: Data.ProtoLens.FieldDescriptor PParams minFeeCoefficient__field_descriptor = Data.ProtoLens.FieldDescriptor "min_fee_coefficient" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"minFeeCoefficient")) :: Data.ProtoLens.FieldDescriptor PParams minFeeConstant__field_descriptor = Data.ProtoLens.FieldDescriptor "min_fee_constant" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"minFeeConstant")) :: Data.ProtoLens.FieldDescriptor PParams maxBlockBodySize__field_descriptor = Data.ProtoLens.FieldDescriptor "max_block_body_size" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maxBlockBodySize")) :: Data.ProtoLens.FieldDescriptor PParams maxBlockHeaderSize__field_descriptor = Data.ProtoLens.FieldDescriptor "max_block_header_size" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maxBlockHeaderSize")) :: Data.ProtoLens.FieldDescriptor PParams stakeKeyDeposit__field_descriptor = Data.ProtoLens.FieldDescriptor "stake_key_deposit" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"stakeKeyDeposit")) :: Data.ProtoLens.FieldDescriptor PParams poolDeposit__field_descriptor = Data.ProtoLens.FieldDescriptor "pool_deposit" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"poolDeposit")) :: Data.ProtoLens.FieldDescriptor PParams poolRetirementEpochBound__field_descriptor = Data.ProtoLens.FieldDescriptor "pool_retirement_epoch_bound" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"poolRetirementEpochBound")) :: Data.ProtoLens.FieldDescriptor PParams desiredNumberOfPools__field_descriptor = Data.ProtoLens.FieldDescriptor "desired_number_of_pools" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"desiredNumberOfPools")) :: Data.ProtoLens.FieldDescriptor PParams poolInfluence__field_descriptor = Data.ProtoLens.FieldDescriptor "pool_influence" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor RationalNumber) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'poolInfluence")) :: Data.ProtoLens.FieldDescriptor PParams monetaryExpansion__field_descriptor = Data.ProtoLens.FieldDescriptor "monetary_expansion" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor RationalNumber) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'monetaryExpansion")) :: Data.ProtoLens.FieldDescriptor PParams treasuryExpansion__field_descriptor = Data.ProtoLens.FieldDescriptor "treasury_expansion" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor RationalNumber) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'treasuryExpansion")) :: Data.ProtoLens.FieldDescriptor PParams minPoolCost__field_descriptor = Data.ProtoLens.FieldDescriptor "min_pool_cost" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"minPoolCost")) :: Data.ProtoLens.FieldDescriptor PParams protocolVersion__field_descriptor = Data.ProtoLens.FieldDescriptor "protocol_version" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ProtocolVersion) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'protocolVersion")) :: Data.ProtoLens.FieldDescriptor PParams maxValueSize__field_descriptor = Data.ProtoLens.FieldDescriptor "max_value_size" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maxValueSize")) :: Data.ProtoLens.FieldDescriptor PParams collateralPercentage__field_descriptor = Data.ProtoLens.FieldDescriptor "collateral_percentage" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"collateralPercentage")) :: Data.ProtoLens.FieldDescriptor PParams maxCollateralInputs__field_descriptor = Data.ProtoLens.FieldDescriptor "max_collateral_inputs" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"maxCollateralInputs")) :: Data.ProtoLens.FieldDescriptor PParams costModels__field_descriptor = Data.ProtoLens.FieldDescriptor "cost_models" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor CostModels) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'costModels")) :: Data.ProtoLens.FieldDescriptor PParams prices__field_descriptor = Data.ProtoLens.FieldDescriptor "prices" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ExPrices) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'prices")) :: Data.ProtoLens.FieldDescriptor PParams maxExecutionUnitsPerTransaction__field_descriptor = Data.ProtoLens.FieldDescriptor "max_execution_units_per_transaction" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ExUnits) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'maxExecutionUnitsPerTransaction")) :: Data.ProtoLens.FieldDescriptor PParams maxExecutionUnitsPerBlock__field_descriptor = Data.ProtoLens.FieldDescriptor "max_execution_units_per_block" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ExUnits) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'maxExecutionUnitsPerBlock")) :: Data.ProtoLens.FieldDescriptor PParams in Data.Map.fromList [(Data.ProtoLens.Tag 1, coinsPerUtxoByte__field_descriptor), (Data.ProtoLens.Tag 2, maxTxSize__field_descriptor), (Data.ProtoLens.Tag 3, minFeeCoefficient__field_descriptor), (Data.ProtoLens.Tag 4, minFeeConstant__field_descriptor), (Data.ProtoLens.Tag 5, maxBlockBodySize__field_descriptor), (Data.ProtoLens.Tag 6, maxBlockHeaderSize__field_descriptor), (Data.ProtoLens.Tag 7, stakeKeyDeposit__field_descriptor), (Data.ProtoLens.Tag 8, poolDeposit__field_descriptor), (Data.ProtoLens.Tag 9, poolRetirementEpochBound__field_descriptor), (Data.ProtoLens.Tag 10, desiredNumberOfPools__field_descriptor), (Data.ProtoLens.Tag 11, poolInfluence__field_descriptor), (Data.ProtoLens.Tag 12, monetaryExpansion__field_descriptor), (Data.ProtoLens.Tag 13, treasuryExpansion__field_descriptor), (Data.ProtoLens.Tag 14, minPoolCost__field_descriptor), (Data.ProtoLens.Tag 15, protocolVersion__field_descriptor), (Data.ProtoLens.Tag 16, maxValueSize__field_descriptor), (Data.ProtoLens.Tag 17, collateralPercentage__field_descriptor), (Data.ProtoLens.Tag 18, maxCollateralInputs__field_descriptor), (Data.ProtoLens.Tag 19, costModels__field_descriptor), (Data.ProtoLens.Tag 20, prices__field_descriptor), (Data.ProtoLens.Tag 21, maxExecutionUnitsPerTransaction__field_descriptor), (Data.ProtoLens.Tag 22, maxExecutionUnitsPerBlock__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PParams'_unknownFields (\ x__ y__ -> x__ {_PParams'_unknownFields = y__}) defMessage = PParams'_constructor {_PParams'coinsPerUtxoByte = Data.ProtoLens.fieldDefault, _PParams'maxTxSize = Data.ProtoLens.fieldDefault, _PParams'minFeeCoefficient = Data.ProtoLens.fieldDefault, _PParams'minFeeConstant = Data.ProtoLens.fieldDefault, _PParams'maxBlockBodySize = Data.ProtoLens.fieldDefault, _PParams'maxBlockHeaderSize = Data.ProtoLens.fieldDefault, _PParams'stakeKeyDeposit = Data.ProtoLens.fieldDefault, _PParams'poolDeposit = Data.ProtoLens.fieldDefault, _PParams'poolRetirementEpochBound = Data.ProtoLens.fieldDefault, _PParams'desiredNumberOfPools = Data.ProtoLens.fieldDefault, _PParams'poolInfluence = Prelude.Nothing, _PParams'monetaryExpansion = Prelude.Nothing, _PParams'treasuryExpansion = Prelude.Nothing, _PParams'minPoolCost = Data.ProtoLens.fieldDefault, _PParams'protocolVersion = Prelude.Nothing, _PParams'maxValueSize = Data.ProtoLens.fieldDefault, _PParams'collateralPercentage = Data.ProtoLens.fieldDefault, _PParams'maxCollateralInputs = Data.ProtoLens.fieldDefault, _PParams'costModels = Prelude.Nothing, _PParams'prices = Prelude.Nothing, _PParams'maxExecutionUnitsPerTransaction = Prelude.Nothing, _PParams'maxExecutionUnitsPerBlock = Prelude.Nothing, _PParams'_unknownFields = []} parseMessage = let loop :: PParams -> Data.ProtoLens.Encoding.Bytes.Parser PParams 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.) Data.ProtoLens.Encoding.Bytes.getVarInt "coins_per_utxo_byte" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"coinsPerUtxoByte") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "max_tx_size" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxTxSize") y x) 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "min_fee_coefficient" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"minFeeCoefficient") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "min_fee_constant" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"minFeeConstant") y x) 40 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "max_block_body_size" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxBlockBodySize") y x) 48 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "max_block_header_size" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxBlockHeaderSize") y x) 56 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "stake_key_deposit" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"stakeKeyDeposit") y x) 64 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "pool_deposit" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"poolDeposit") y x) 72 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "pool_retirement_epoch_bound" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"poolRetirementEpochBound") y x) 80 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "desired_number_of_pools" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"desiredNumberOfPools") y x) 90 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pool_influence" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"poolInfluence") y x) 98 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "monetary_expansion" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"monetaryExpansion") y x) 106 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "treasury_expansion" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"treasuryExpansion") y x) 112 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "min_pool_cost" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"minPoolCost") y x) 122 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "protocol_version" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"protocolVersion") y x) 128 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "max_value_size" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxValueSize") y x) 136 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "collateral_percentage" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"collateralPercentage") y x) 144 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "max_collateral_inputs" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxCollateralInputs") y x) 154 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "cost_models" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"costModels") y x) 162 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "prices" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"prices") y x) 170 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "max_execution_units_per_transaction" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxExecutionUnitsPerTransaction") y x) 178 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "max_execution_units_per_block" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"maxExecutionUnitsPerBlock") 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) "PParams" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"coinsPerUtxoByte") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maxTxSize") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"minFeeCoefficient") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"minFeeConstant") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maxBlockBodySize") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 40) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maxBlockHeaderSize") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 48) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"stakeKeyDeposit") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 56) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"poolDeposit") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 64) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"poolRetirementEpochBound") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 72) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"desiredNumberOfPools") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 80) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'poolInfluence") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 90) ((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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'monetaryExpansion") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 98) ((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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'treasuryExpansion") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 106) ((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 @"minPoolCost") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 112) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'protocolVersion") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 122) ((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 @"maxValueSize") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 128) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"collateralPercentage") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 136) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"maxCollateralInputs") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 144) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'costModels") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 154) ((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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'prices") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 162) ((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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'maxExecutionUnitsPerTransaction") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 170) ((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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'maxExecutionUnitsPerBlock") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 178) ((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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))))))))))))))))))) instance Control.DeepSeq.NFData PParams where rnf = \ x__ -> Control.DeepSeq.deepseq (_PParams'_unknownFields x__) (Control.DeepSeq.deepseq (_PParams'coinsPerUtxoByte x__) (Control.DeepSeq.deepseq (_PParams'maxTxSize x__) (Control.DeepSeq.deepseq (_PParams'minFeeCoefficient x__) (Control.DeepSeq.deepseq (_PParams'minFeeConstant x__) (Control.DeepSeq.deepseq (_PParams'maxBlockBodySize x__) (Control.DeepSeq.deepseq (_PParams'maxBlockHeaderSize x__) (Control.DeepSeq.deepseq (_PParams'stakeKeyDeposit x__) (Control.DeepSeq.deepseq (_PParams'poolDeposit x__) (Control.DeepSeq.deepseq (_PParams'poolRetirementEpochBound x__) (Control.DeepSeq.deepseq (_PParams'desiredNumberOfPools x__) (Control.DeepSeq.deepseq (_PParams'poolInfluence x__) (Control.DeepSeq.deepseq (_PParams'monetaryExpansion x__) (Control.DeepSeq.deepseq (_PParams'treasuryExpansion x__) (Control.DeepSeq.deepseq (_PParams'minPoolCost x__) (Control.DeepSeq.deepseq (_PParams'protocolVersion x__) (Control.DeepSeq.deepseq (_PParams'maxValueSize x__) (Control.DeepSeq.deepseq (_PParams'collateralPercentage x__) (Control.DeepSeq.deepseq (_PParams'maxCollateralInputs x__) (Control.DeepSeq.deepseq (_PParams'costModels x__) (Control.DeepSeq.deepseq (_PParams'prices x__) (Control.DeepSeq.deepseq (_PParams'maxExecutionUnitsPerTransaction x__) (Control.DeepSeq.deepseq (_PParams'maxExecutionUnitsPerBlock x__) ())))))))))))))))))))))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'plutusData' @:: Lens' PlutusData (Prelude.Maybe PlutusData'PlutusData)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'constr' @:: Lens' PlutusData (Prelude.Maybe Constr)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.constr' @:: Lens' PlutusData Constr@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'map' @:: Lens' PlutusData (Prelude.Maybe PlutusDataMap)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.map' @:: Lens' PlutusData PlutusDataMap@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'bigInt' @:: Lens' PlutusData (Prelude.Maybe BigInt)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.bigInt' @:: Lens' PlutusData BigInt@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'boundedBytes' @:: Lens' PlutusData (Prelude.Maybe Data.ByteString.ByteString)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.boundedBytes' @:: Lens' PlutusData Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'array' @:: Lens' PlutusData (Prelude.Maybe PlutusDataArray)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.array' @:: Lens' PlutusData PlutusDataArray@ -} data PlutusData = PlutusData'_constructor {_PlutusData'plutusData :: !(Prelude.Maybe PlutusData'PlutusData), _PlutusData'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show PlutusData where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) data PlutusData'PlutusData = PlutusData'Constr !Constr | PlutusData'Map !PlutusDataMap | PlutusData'BigInt !BigInt | PlutusData'BoundedBytes !Data.ByteString.ByteString | PlutusData'Array !PlutusDataArray deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.Field.HasField PlutusData "maybe'plutusData" (Prelude.Maybe PlutusData'PlutusData) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PlutusData "maybe'constr" (Prelude.Maybe Constr) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (PlutusData'Constr x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap PlutusData'Constr y__)) instance Data.ProtoLens.Field.HasField PlutusData "constr" Constr where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (PlutusData'Constr x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap PlutusData'Constr y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField PlutusData "maybe'map" (Prelude.Maybe PlutusDataMap) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (PlutusData'Map x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap PlutusData'Map y__)) instance Data.ProtoLens.Field.HasField PlutusData "map" PlutusDataMap where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (PlutusData'Map x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap PlutusData'Map y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField PlutusData "maybe'bigInt" (Prelude.Maybe BigInt) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (PlutusData'BigInt x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap PlutusData'BigInt y__)) instance Data.ProtoLens.Field.HasField PlutusData "bigInt" BigInt where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (PlutusData'BigInt x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap PlutusData'BigInt y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField PlutusData "maybe'boundedBytes" (Prelude.Maybe Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (PlutusData'BoundedBytes x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap PlutusData'BoundedBytes y__)) instance Data.ProtoLens.Field.HasField PlutusData "boundedBytes" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (PlutusData'BoundedBytes x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap PlutusData'BoundedBytes y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField PlutusData "maybe'array" (Prelude.Maybe PlutusDataArray) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (PlutusData'Array x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap PlutusData'Array y__)) instance Data.ProtoLens.Field.HasField PlutusData "array" PlutusDataArray where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusData'plutusData (\ x__ y__ -> x__ {_PlutusData'plutusData = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (PlutusData'Array x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap PlutusData'Array y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Message PlutusData where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.PlutusData" packedMessageDescriptor _ = "\n\ \\n\ \PlutusData\DC29\n\ \\ACKconstr\CAN\SOH \SOH(\v2\US.utxorpc.v1alpha.cardano.ConstrH\NULR\ACKconstr\DC2:\n\ \\ETXmap\CAN\STX \SOH(\v2&.utxorpc.v1alpha.cardano.PlutusDataMapH\NULR\ETXmap\DC2:\n\ \\abig_int\CAN\ETX \SOH(\v2\US.utxorpc.v1alpha.cardano.BigIntH\NULR\ACKbigInt\DC2%\n\ \\rbounded_bytes\CAN\EOT \SOH(\fH\NULR\fboundedBytes\DC2@\n\ \\ENQarray\CAN\ENQ \SOH(\v2(.utxorpc.v1alpha.cardano.PlutusDataArrayH\NULR\ENQarrayB\r\n\ \\vplutus_data" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let constr__field_descriptor = Data.ProtoLens.FieldDescriptor "constr" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Constr) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'constr")) :: Data.ProtoLens.FieldDescriptor PlutusData map__field_descriptor = Data.ProtoLens.FieldDescriptor "map" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PlutusDataMap) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'map")) :: Data.ProtoLens.FieldDescriptor PlutusData bigInt__field_descriptor = Data.ProtoLens.FieldDescriptor "big_int" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor BigInt) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'bigInt")) :: Data.ProtoLens.FieldDescriptor PlutusData boundedBytes__field_descriptor = Data.ProtoLens.FieldDescriptor "bounded_bytes" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'boundedBytes")) :: Data.ProtoLens.FieldDescriptor PlutusData array__field_descriptor = Data.ProtoLens.FieldDescriptor "array" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PlutusDataArray) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'array")) :: Data.ProtoLens.FieldDescriptor PlutusData in Data.Map.fromList [(Data.ProtoLens.Tag 1, constr__field_descriptor), (Data.ProtoLens.Tag 2, map__field_descriptor), (Data.ProtoLens.Tag 3, bigInt__field_descriptor), (Data.ProtoLens.Tag 4, boundedBytes__field_descriptor), (Data.ProtoLens.Tag 5, array__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PlutusData'_unknownFields (\ x__ y__ -> x__ {_PlutusData'_unknownFields = y__}) defMessage = PlutusData'_constructor {_PlutusData'plutusData = Prelude.Nothing, _PlutusData'_unknownFields = []} parseMessage = let loop :: PlutusData -> Data.ProtoLens.Encoding.Bytes.Parser PlutusData 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "constr" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"constr") 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) "map" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"map") y x) 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) "big_int" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"bigInt") y x) 34 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "bounded_bytes" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"boundedBytes") y x) 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "array" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"array") 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) "PlutusData" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'plutusData") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (PlutusData'Constr 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) (Prelude.Just (PlutusData'Map 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) (Prelude.Just (PlutusData'BigInt 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) (Prelude.Just (PlutusData'BoundedBytes v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 34) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) v) (Prelude.Just (PlutusData'Array v)) -> (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.ProtoLens.encodeMessage v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData PlutusData where rnf = \ x__ -> Control.DeepSeq.deepseq (_PlutusData'_unknownFields x__) (Control.DeepSeq.deepseq (_PlutusData'plutusData x__) ()) instance Control.DeepSeq.NFData PlutusData'PlutusData where rnf (PlutusData'Constr x__) = Control.DeepSeq.rnf x__ rnf (PlutusData'Map x__) = Control.DeepSeq.rnf x__ rnf (PlutusData'BigInt x__) = Control.DeepSeq.rnf x__ rnf (PlutusData'BoundedBytes x__) = Control.DeepSeq.rnf x__ rnf (PlutusData'Array x__) = Control.DeepSeq.rnf x__ _PlutusData'Constr :: Data.ProtoLens.Prism.Prism' PlutusData'PlutusData Constr _PlutusData'Constr = Data.ProtoLens.Prism.prism' PlutusData'Constr (\ p__ -> case p__ of (PlutusData'Constr p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _PlutusData'Map :: Data.ProtoLens.Prism.Prism' PlutusData'PlutusData PlutusDataMap _PlutusData'Map = Data.ProtoLens.Prism.prism' PlutusData'Map (\ p__ -> case p__ of (PlutusData'Map p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _PlutusData'BigInt :: Data.ProtoLens.Prism.Prism' PlutusData'PlutusData BigInt _PlutusData'BigInt = Data.ProtoLens.Prism.prism' PlutusData'BigInt (\ p__ -> case p__ of (PlutusData'BigInt p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _PlutusData'BoundedBytes :: Data.ProtoLens.Prism.Prism' PlutusData'PlutusData Data.ByteString.ByteString _PlutusData'BoundedBytes = Data.ProtoLens.Prism.prism' PlutusData'BoundedBytes (\ p__ -> case p__ of (PlutusData'BoundedBytes p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _PlutusData'Array :: Data.ProtoLens.Prism.Prism' PlutusData'PlutusData PlutusDataArray _PlutusData'Array = Data.ProtoLens.Prism.prism' PlutusData'Array (\ p__ -> case p__ of (PlutusData'Array p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.items' @:: Lens' PlutusDataArray [PlutusData]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'items' @:: Lens' PlutusDataArray (Data.Vector.Vector PlutusData)@ -} data PlutusDataArray = PlutusDataArray'_constructor {_PlutusDataArray'items :: !(Data.Vector.Vector PlutusData), _PlutusDataArray'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show PlutusDataArray where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField PlutusDataArray "items" [PlutusData] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusDataArray'items (\ x__ y__ -> x__ {_PlutusDataArray'items = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField PlutusDataArray "vec'items" (Data.Vector.Vector PlutusData) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusDataArray'items (\ x__ y__ -> x__ {_PlutusDataArray'items = y__})) Prelude.id instance Data.ProtoLens.Message PlutusDataArray where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.PlutusDataArray" packedMessageDescriptor _ = "\n\ \\SIPlutusDataArray\DC29\n\ \\ENQitems\CAN\SOH \ETX(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ENQitems" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let items__field_descriptor = Data.ProtoLens.FieldDescriptor "items" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PlutusData) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"items")) :: Data.ProtoLens.FieldDescriptor PlutusDataArray in Data.Map.fromList [(Data.ProtoLens.Tag 1, items__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PlutusDataArray'_unknownFields (\ x__ y__ -> x__ {_PlutusDataArray'_unknownFields = y__}) defMessage = PlutusDataArray'_constructor {_PlutusDataArray'items = Data.Vector.Generic.empty, _PlutusDataArray'_unknownFields = []} parseMessage = let loop :: PlutusDataArray -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld PlutusData -> Data.ProtoLens.Encoding.Bytes.Parser PlutusDataArray loop x mutable'items = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'items <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'items) (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'items") frozen'items 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) "items" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'items 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'items in (Data.ProtoLens.Encoding.Bytes.) (do mutable'items <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'items) "PlutusDataArray" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _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)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'items") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData PlutusDataArray where rnf = \ x__ -> Control.DeepSeq.deepseq (_PlutusDataArray'_unknownFields x__) (Control.DeepSeq.deepseq (_PlutusDataArray'items x__) ()) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.pairs' @:: Lens' PlutusDataMap [PlutusDataPair]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'pairs' @:: Lens' PlutusDataMap (Data.Vector.Vector PlutusDataPair)@ -} data PlutusDataMap = PlutusDataMap'_constructor {_PlutusDataMap'pairs :: !(Data.Vector.Vector PlutusDataPair), _PlutusDataMap'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show PlutusDataMap where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField PlutusDataMap "pairs" [PlutusDataPair] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusDataMap'pairs (\ x__ y__ -> x__ {_PlutusDataMap'pairs = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField PlutusDataMap "vec'pairs" (Data.Vector.Vector PlutusDataPair) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusDataMap'pairs (\ x__ y__ -> x__ {_PlutusDataMap'pairs = y__})) Prelude.id instance Data.ProtoLens.Message PlutusDataMap where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.PlutusDataMap" packedMessageDescriptor _ = "\n\ \\rPlutusDataMap\DC2=\n\ \\ENQpairs\CAN\SOH \ETX(\v2'.utxorpc.v1alpha.cardano.PlutusDataPairR\ENQpairs" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let pairs__field_descriptor = Data.ProtoLens.FieldDescriptor "pairs" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PlutusDataPair) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"pairs")) :: Data.ProtoLens.FieldDescriptor PlutusDataMap in Data.Map.fromList [(Data.ProtoLens.Tag 1, pairs__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PlutusDataMap'_unknownFields (\ x__ y__ -> x__ {_PlutusDataMap'_unknownFields = y__}) defMessage = PlutusDataMap'_constructor {_PlutusDataMap'pairs = Data.Vector.Generic.empty, _PlutusDataMap'_unknownFields = []} parseMessage = let loop :: PlutusDataMap -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld PlutusDataPair -> Data.ProtoLens.Encoding.Bytes.Parser PlutusDataMap loop x mutable'pairs = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'pairs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'pairs) (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'pairs") frozen'pairs 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) "pairs" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'pairs 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'pairs in (Data.ProtoLens.Encoding.Bytes.) (do mutable'pairs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'pairs) "PlutusDataMap" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _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)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'pairs") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData PlutusDataMap where rnf = \ x__ -> Control.DeepSeq.deepseq (_PlutusDataMap'_unknownFields x__) (Control.DeepSeq.deepseq (_PlutusDataMap'pairs x__) ()) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.key' @:: Lens' PlutusDataPair PlutusData@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'key' @:: Lens' PlutusDataPair (Prelude.Maybe PlutusData)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.value' @:: Lens' PlutusDataPair PlutusData@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'value' @:: Lens' PlutusDataPair (Prelude.Maybe PlutusData)@ -} data PlutusDataPair = PlutusDataPair'_constructor {_PlutusDataPair'key :: !(Prelude.Maybe PlutusData), _PlutusDataPair'value :: !(Prelude.Maybe PlutusData), _PlutusDataPair'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show PlutusDataPair where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField PlutusDataPair "key" PlutusData where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusDataPair'key (\ x__ y__ -> x__ {_PlutusDataPair'key = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PlutusDataPair "maybe'key" (Prelude.Maybe PlutusData) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusDataPair'key (\ x__ y__ -> x__ {_PlutusDataPair'key = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PlutusDataPair "value" PlutusData where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusDataPair'value (\ x__ y__ -> x__ {_PlutusDataPair'value = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PlutusDataPair "maybe'value" (Prelude.Maybe PlutusData) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PlutusDataPair'value (\ x__ y__ -> x__ {_PlutusDataPair'value = y__})) Prelude.id instance Data.ProtoLens.Message PlutusDataPair where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.PlutusDataPair" packedMessageDescriptor _ = "\n\ \\SOPlutusDataPair\DC25\n\ \\ETXkey\CAN\SOH \SOH(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ETXkey\DC29\n\ \\ENQvalue\CAN\STX \SOH(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ENQvalue" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let key__field_descriptor = Data.ProtoLens.FieldDescriptor "key" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PlutusData) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'key")) :: Data.ProtoLens.FieldDescriptor PlutusDataPair value__field_descriptor = Data.ProtoLens.FieldDescriptor "value" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PlutusData) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'value")) :: Data.ProtoLens.FieldDescriptor PlutusDataPair in Data.Map.fromList [(Data.ProtoLens.Tag 1, key__field_descriptor), (Data.ProtoLens.Tag 2, value__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PlutusDataPair'_unknownFields (\ x__ y__ -> x__ {_PlutusDataPair'_unknownFields = y__}) defMessage = PlutusDataPair'_constructor {_PlutusDataPair'key = Prelude.Nothing, _PlutusDataPair'value = Prelude.Nothing, _PlutusDataPair'_unknownFields = []} parseMessage = let loop :: PlutusDataPair -> Data.ProtoLens.Encoding.Bytes.Parser PlutusDataPair 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "key" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"key") 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) "value" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"value") 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) "PlutusDataPair" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'key") _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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'value") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData PlutusDataPair where rnf = \ x__ -> Control.DeepSeq.deepseq (_PlutusDataPair'_unknownFields x__) (Control.DeepSeq.deepseq (_PlutusDataPair'key x__) (Control.DeepSeq.deepseq (_PlutusDataPair'value x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.url' @:: Lens' PoolMetadata Data.Text.Text@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.hash' @:: Lens' PoolMetadata Data.ByteString.ByteString@ -} data PoolMetadata = PoolMetadata'_constructor {_PoolMetadata'url :: !Data.Text.Text, _PoolMetadata'hash :: !Data.ByteString.ByteString, _PoolMetadata'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show PoolMetadata where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField PoolMetadata "url" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolMetadata'url (\ x__ y__ -> x__ {_PoolMetadata'url = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PoolMetadata "hash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolMetadata'hash (\ x__ y__ -> x__ {_PoolMetadata'hash = y__})) Prelude.id instance Data.ProtoLens.Message PoolMetadata where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.PoolMetadata" packedMessageDescriptor _ = "\n\ \\fPoolMetadata\DC2\DLE\n\ \\ETXurl\CAN\SOH \SOH(\tR\ETXurl\DC2\DC2\n\ \\EOThash\CAN\STX \SOH(\fR\EOThash" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let url__field_descriptor = Data.ProtoLens.FieldDescriptor "url" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"url")) :: Data.ProtoLens.FieldDescriptor PoolMetadata hash__field_descriptor = Data.ProtoLens.FieldDescriptor "hash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"hash")) :: Data.ProtoLens.FieldDescriptor PoolMetadata in Data.Map.fromList [(Data.ProtoLens.Tag 1, url__field_descriptor), (Data.ProtoLens.Tag 2, hash__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PoolMetadata'_unknownFields (\ x__ y__ -> x__ {_PoolMetadata'_unknownFields = y__}) defMessage = PoolMetadata'_constructor {_PoolMetadata'url = Data.ProtoLens.fieldDefault, _PoolMetadata'hash = Data.ProtoLens.fieldDefault, _PoolMetadata'_unknownFields = []} parseMessage = let loop :: PoolMetadata -> Data.ProtoLens.Encoding.Bytes.Parser PoolMetadata 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getText (Prelude.fromIntegral len)) "url" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"url") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"hash") 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) "PoolMetadata" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"url") _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 @"hash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData PoolMetadata where rnf = \ x__ -> Control.DeepSeq.deepseq (_PoolMetadata'_unknownFields x__) (Control.DeepSeq.deepseq (_PoolMetadata'url x__) (Control.DeepSeq.deepseq (_PoolMetadata'hash x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.operator' @:: Lens' PoolRegistrationCert Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vrfKeyhash' @:: Lens' PoolRegistrationCert Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.pledge' @:: Lens' PoolRegistrationCert Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.cost' @:: Lens' PoolRegistrationCert Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.margin' @:: Lens' PoolRegistrationCert RationalNumber@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'margin' @:: Lens' PoolRegistrationCert (Prelude.Maybe RationalNumber)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.rewardAccount' @:: Lens' PoolRegistrationCert Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.poolOwners' @:: Lens' PoolRegistrationCert [Data.ByteString.ByteString]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'poolOwners' @:: Lens' PoolRegistrationCert (Data.Vector.Vector Data.ByteString.ByteString)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.relays' @:: Lens' PoolRegistrationCert [Relay]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'relays' @:: Lens' PoolRegistrationCert (Data.Vector.Vector Relay)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.poolMetadata' @:: Lens' PoolRegistrationCert PoolMetadata@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'poolMetadata' @:: Lens' PoolRegistrationCert (Prelude.Maybe PoolMetadata)@ -} data PoolRegistrationCert = PoolRegistrationCert'_constructor {_PoolRegistrationCert'operator :: !Data.ByteString.ByteString, _PoolRegistrationCert'vrfKeyhash :: !Data.ByteString.ByteString, _PoolRegistrationCert'pledge :: !Data.Word.Word64, _PoolRegistrationCert'cost :: !Data.Word.Word64, _PoolRegistrationCert'margin :: !(Prelude.Maybe RationalNumber), _PoolRegistrationCert'rewardAccount :: !Data.ByteString.ByteString, _PoolRegistrationCert'poolOwners :: !(Data.Vector.Vector Data.ByteString.ByteString), _PoolRegistrationCert'relays :: !(Data.Vector.Vector Relay), _PoolRegistrationCert'poolMetadata :: !(Prelude.Maybe PoolMetadata), _PoolRegistrationCert'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show PoolRegistrationCert where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField PoolRegistrationCert "operator" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'operator (\ x__ y__ -> x__ {_PoolRegistrationCert'operator = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PoolRegistrationCert "vrfKeyhash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'vrfKeyhash (\ x__ y__ -> x__ {_PoolRegistrationCert'vrfKeyhash = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PoolRegistrationCert "pledge" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'pledge (\ x__ y__ -> x__ {_PoolRegistrationCert'pledge = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PoolRegistrationCert "cost" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'cost (\ x__ y__ -> x__ {_PoolRegistrationCert'cost = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PoolRegistrationCert "margin" RationalNumber where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'margin (\ x__ y__ -> x__ {_PoolRegistrationCert'margin = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PoolRegistrationCert "maybe'margin" (Prelude.Maybe RationalNumber) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'margin (\ x__ y__ -> x__ {_PoolRegistrationCert'margin = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PoolRegistrationCert "rewardAccount" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'rewardAccount (\ x__ y__ -> x__ {_PoolRegistrationCert'rewardAccount = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PoolRegistrationCert "poolOwners" [Data.ByteString.ByteString] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'poolOwners (\ x__ y__ -> x__ {_PoolRegistrationCert'poolOwners = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField PoolRegistrationCert "vec'poolOwners" (Data.Vector.Vector Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'poolOwners (\ x__ y__ -> x__ {_PoolRegistrationCert'poolOwners = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PoolRegistrationCert "relays" [Relay] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'relays (\ x__ y__ -> x__ {_PoolRegistrationCert'relays = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField PoolRegistrationCert "vec'relays" (Data.Vector.Vector Relay) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'relays (\ x__ y__ -> x__ {_PoolRegistrationCert'relays = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PoolRegistrationCert "poolMetadata" PoolMetadata where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'poolMetadata (\ x__ y__ -> x__ {_PoolRegistrationCert'poolMetadata = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField PoolRegistrationCert "maybe'poolMetadata" (Prelude.Maybe PoolMetadata) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRegistrationCert'poolMetadata (\ x__ y__ -> x__ {_PoolRegistrationCert'poolMetadata = y__})) Prelude.id instance Data.ProtoLens.Message PoolRegistrationCert where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.PoolRegistrationCert" packedMessageDescriptor _ = "\n\ \\DC4PoolRegistrationCert\DC2\SUB\n\ \\boperator\CAN\SOH \SOH(\fR\boperator\DC2\US\n\ \\vvrf_keyhash\CAN\STX \SOH(\fR\n\ \vrfKeyhash\DC2\SYN\n\ \\ACKpledge\CAN\ETX \SOH(\EOTR\ACKpledge\DC2\DC2\n\ \\EOTcost\CAN\EOT \SOH(\EOTR\EOTcost\DC2?\n\ \\ACKmargin\CAN\ENQ \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\ACKmargin\DC2%\n\ \\SOreward_account\CAN\ACK \SOH(\fR\rrewardAccount\DC2\US\n\ \\vpool_owners\CAN\a \ETX(\fR\n\ \poolOwners\DC26\n\ \\ACKrelays\CAN\b \ETX(\v2\RS.utxorpc.v1alpha.cardano.RelayR\ACKrelays\DC2J\n\ \\rpool_metadata\CAN\t \SOH(\v2%.utxorpc.v1alpha.cardano.PoolMetadataR\fpoolMetadata" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let operator__field_descriptor = Data.ProtoLens.FieldDescriptor "operator" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"operator")) :: Data.ProtoLens.FieldDescriptor PoolRegistrationCert vrfKeyhash__field_descriptor = Data.ProtoLens.FieldDescriptor "vrf_keyhash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"vrfKeyhash")) :: Data.ProtoLens.FieldDescriptor PoolRegistrationCert pledge__field_descriptor = Data.ProtoLens.FieldDescriptor "pledge" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"pledge")) :: Data.ProtoLens.FieldDescriptor PoolRegistrationCert cost__field_descriptor = Data.ProtoLens.FieldDescriptor "cost" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"cost")) :: Data.ProtoLens.FieldDescriptor PoolRegistrationCert margin__field_descriptor = Data.ProtoLens.FieldDescriptor "margin" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor RationalNumber) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'margin")) :: Data.ProtoLens.FieldDescriptor PoolRegistrationCert rewardAccount__field_descriptor = Data.ProtoLens.FieldDescriptor "reward_account" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"rewardAccount")) :: Data.ProtoLens.FieldDescriptor PoolRegistrationCert poolOwners__field_descriptor = Data.ProtoLens.FieldDescriptor "pool_owners" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"poolOwners")) :: Data.ProtoLens.FieldDescriptor PoolRegistrationCert relays__field_descriptor = Data.ProtoLens.FieldDescriptor "relays" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Relay) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"relays")) :: Data.ProtoLens.FieldDescriptor PoolRegistrationCert poolMetadata__field_descriptor = Data.ProtoLens.FieldDescriptor "pool_metadata" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PoolMetadata) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'poolMetadata")) :: Data.ProtoLens.FieldDescriptor PoolRegistrationCert in Data.Map.fromList [(Data.ProtoLens.Tag 1, operator__field_descriptor), (Data.ProtoLens.Tag 2, vrfKeyhash__field_descriptor), (Data.ProtoLens.Tag 3, pledge__field_descriptor), (Data.ProtoLens.Tag 4, cost__field_descriptor), (Data.ProtoLens.Tag 5, margin__field_descriptor), (Data.ProtoLens.Tag 6, rewardAccount__field_descriptor), (Data.ProtoLens.Tag 7, poolOwners__field_descriptor), (Data.ProtoLens.Tag 8, relays__field_descriptor), (Data.ProtoLens.Tag 9, poolMetadata__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PoolRegistrationCert'_unknownFields (\ x__ y__ -> x__ {_PoolRegistrationCert'_unknownFields = y__}) defMessage = PoolRegistrationCert'_constructor {_PoolRegistrationCert'operator = Data.ProtoLens.fieldDefault, _PoolRegistrationCert'vrfKeyhash = Data.ProtoLens.fieldDefault, _PoolRegistrationCert'pledge = Data.ProtoLens.fieldDefault, _PoolRegistrationCert'cost = Data.ProtoLens.fieldDefault, _PoolRegistrationCert'margin = Prelude.Nothing, _PoolRegistrationCert'rewardAccount = Data.ProtoLens.fieldDefault, _PoolRegistrationCert'poolOwners = Data.Vector.Generic.empty, _PoolRegistrationCert'relays = Data.Vector.Generic.empty, _PoolRegistrationCert'poolMetadata = Prelude.Nothing, _PoolRegistrationCert'_unknownFields = []} parseMessage = let loop :: PoolRegistrationCert -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Data.ByteString.ByteString -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Relay -> Data.ProtoLens.Encoding.Bytes.Parser PoolRegistrationCert loop x mutable'poolOwners mutable'relays = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'poolOwners <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'poolOwners) frozen'relays <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'relays) (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'poolOwners") frozen'poolOwners (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'relays") frozen'relays 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.getBytes (Prelude.fromIntegral len)) "operator" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"operator") y x) mutable'poolOwners mutable'relays 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "vrf_keyhash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"vrfKeyhash") y x) mutable'poolOwners mutable'relays 24 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "pledge" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"pledge") y x) mutable'poolOwners mutable'relays 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "cost" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"cost") y x) mutable'poolOwners mutable'relays 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "margin" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"margin") y x) mutable'poolOwners mutable'relays 50 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "reward_account" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"rewardAccount") y x) mutable'poolOwners mutable'relays 58 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "pool_owners" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'poolOwners y) loop x v mutable'relays 66 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "relays" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'relays y) loop x mutable'poolOwners v 74 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "pool_metadata" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"poolMetadata") y x) mutable'poolOwners mutable'relays wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'poolOwners mutable'relays in (Data.ProtoLens.Encoding.Bytes.) (do mutable'poolOwners <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'relays <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'poolOwners mutable'relays) "PoolRegistrationCert" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"operator") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"vrfKeyhash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"pledge") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 24) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"cost") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 32) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'margin") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (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.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"rewardAccount") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 50) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (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)) _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'poolOwners") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (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.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'relays") _x)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'poolMetadata") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 74) ((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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))))))) instance Control.DeepSeq.NFData PoolRegistrationCert where rnf = \ x__ -> Control.DeepSeq.deepseq (_PoolRegistrationCert'_unknownFields x__) (Control.DeepSeq.deepseq (_PoolRegistrationCert'operator x__) (Control.DeepSeq.deepseq (_PoolRegistrationCert'vrfKeyhash x__) (Control.DeepSeq.deepseq (_PoolRegistrationCert'pledge x__) (Control.DeepSeq.deepseq (_PoolRegistrationCert'cost x__) (Control.DeepSeq.deepseq (_PoolRegistrationCert'margin x__) (Control.DeepSeq.deepseq (_PoolRegistrationCert'rewardAccount x__) (Control.DeepSeq.deepseq (_PoolRegistrationCert'poolOwners x__) (Control.DeepSeq.deepseq (_PoolRegistrationCert'relays x__) (Control.DeepSeq.deepseq (_PoolRegistrationCert'poolMetadata x__) ()))))))))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.poolKeyhash' @:: Lens' PoolRetirementCert Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.epoch' @:: Lens' PoolRetirementCert Data.Word.Word64@ -} data PoolRetirementCert = PoolRetirementCert'_constructor {_PoolRetirementCert'poolKeyhash :: !Data.ByteString.ByteString, _PoolRetirementCert'epoch :: !Data.Word.Word64, _PoolRetirementCert'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show PoolRetirementCert where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField PoolRetirementCert "poolKeyhash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRetirementCert'poolKeyhash (\ x__ y__ -> x__ {_PoolRetirementCert'poolKeyhash = y__})) Prelude.id instance Data.ProtoLens.Field.HasField PoolRetirementCert "epoch" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _PoolRetirementCert'epoch (\ x__ y__ -> x__ {_PoolRetirementCert'epoch = y__})) Prelude.id instance Data.ProtoLens.Message PoolRetirementCert where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.PoolRetirementCert" packedMessageDescriptor _ = "\n\ \\DC2PoolRetirementCert\DC2!\n\ \\fpool_keyhash\CAN\SOH \SOH(\fR\vpoolKeyhash\DC2\DC4\n\ \\ENQepoch\CAN\STX \SOH(\EOTR\ENQepoch" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let poolKeyhash__field_descriptor = Data.ProtoLens.FieldDescriptor "pool_keyhash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"poolKeyhash")) :: Data.ProtoLens.FieldDescriptor PoolRetirementCert epoch__field_descriptor = Data.ProtoLens.FieldDescriptor "epoch" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"epoch")) :: Data.ProtoLens.FieldDescriptor PoolRetirementCert in Data.Map.fromList [(Data.ProtoLens.Tag 1, poolKeyhash__field_descriptor), (Data.ProtoLens.Tag 2, epoch__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _PoolRetirementCert'_unknownFields (\ x__ y__ -> x__ {_PoolRetirementCert'_unknownFields = y__}) defMessage = PoolRetirementCert'_constructor {_PoolRetirementCert'poolKeyhash = Data.ProtoLens.fieldDefault, _PoolRetirementCert'epoch = Data.ProtoLens.fieldDefault, _PoolRetirementCert'_unknownFields = []} parseMessage = let loop :: PoolRetirementCert -> Data.ProtoLens.Encoding.Bytes.Parser PoolRetirementCert 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "pool_keyhash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"poolKeyhash") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "epoch" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"epoch") 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) "PoolRetirementCert" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"poolKeyhash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"epoch") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData PoolRetirementCert where rnf = \ x__ -> Control.DeepSeq.deepseq (_PoolRetirementCert'_unknownFields x__) (Control.DeepSeq.deepseq (_PoolRetirementCert'poolKeyhash x__) (Control.DeepSeq.deepseq (_PoolRetirementCert'epoch x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.major' @:: Lens' ProtocolVersion Data.Word.Word32@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.minor' @:: Lens' ProtocolVersion Data.Word.Word32@ -} data ProtocolVersion = ProtocolVersion'_constructor {_ProtocolVersion'major :: !Data.Word.Word32, _ProtocolVersion'minor :: !Data.Word.Word32, _ProtocolVersion'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show ProtocolVersion where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField ProtocolVersion "major" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ProtocolVersion'major (\ x__ y__ -> x__ {_ProtocolVersion'major = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ProtocolVersion "minor" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ProtocolVersion'minor (\ x__ y__ -> x__ {_ProtocolVersion'minor = y__})) Prelude.id instance Data.ProtoLens.Message ProtocolVersion where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.ProtocolVersion" packedMessageDescriptor _ = "\n\ \\SIProtocolVersion\DC2\DC4\n\ \\ENQmajor\CAN\SOH \SOH(\rR\ENQmajor\DC2\DC4\n\ \\ENQminor\CAN\STX \SOH(\rR\ENQminor" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let major__field_descriptor = Data.ProtoLens.FieldDescriptor "major" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"major")) :: Data.ProtoLens.FieldDescriptor ProtocolVersion minor__field_descriptor = Data.ProtoLens.FieldDescriptor "minor" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"minor")) :: Data.ProtoLens.FieldDescriptor ProtocolVersion in Data.Map.fromList [(Data.ProtoLens.Tag 1, major__field_descriptor), (Data.ProtoLens.Tag 2, minor__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ProtocolVersion'_unknownFields (\ x__ y__ -> x__ {_ProtocolVersion'_unknownFields = y__}) defMessage = ProtocolVersion'_constructor {_ProtocolVersion'major = Data.ProtoLens.fieldDefault, _ProtocolVersion'minor = Data.ProtoLens.fieldDefault, _ProtocolVersion'_unknownFields = []} parseMessage = let loop :: ProtocolVersion -> Data.ProtoLens.Encoding.Bytes.Parser ProtocolVersion 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.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "major" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"major") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "minor" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"minor") 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) "ProtocolVersion" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"major") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"minor") _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 Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData ProtocolVersion where rnf = \ x__ -> Control.DeepSeq.deepseq (_ProtocolVersion'_unknownFields x__) (Control.DeepSeq.deepseq (_ProtocolVersion'major x__) (Control.DeepSeq.deepseq (_ProtocolVersion'minor x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.numerator' @:: Lens' RationalNumber Data.Int.Int32@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.denominator' @:: Lens' RationalNumber Data.Word.Word32@ -} data RationalNumber = RationalNumber'_constructor {_RationalNumber'numerator :: !Data.Int.Int32, _RationalNumber'denominator :: !Data.Word.Word32, _RationalNumber'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show RationalNumber where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField RationalNumber "numerator" Data.Int.Int32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RationalNumber'numerator (\ x__ y__ -> x__ {_RationalNumber'numerator = y__})) Prelude.id instance Data.ProtoLens.Field.HasField RationalNumber "denominator" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _RationalNumber'denominator (\ x__ y__ -> x__ {_RationalNumber'denominator = y__})) Prelude.id instance Data.ProtoLens.Message RationalNumber where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.RationalNumber" packedMessageDescriptor _ = "\n\ \\SORationalNumber\DC2\FS\n\ \\tnumerator\CAN\SOH \SOH(\ENQR\tnumerator\DC2 \n\ \\vdenominator\CAN\STX \SOH(\rR\vdenominator" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let numerator__field_descriptor = Data.ProtoLens.FieldDescriptor "numerator" (Data.ProtoLens.ScalarField Data.ProtoLens.Int32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Int.Int32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"numerator")) :: Data.ProtoLens.FieldDescriptor RationalNumber denominator__field_descriptor = Data.ProtoLens.FieldDescriptor "denominator" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"denominator")) :: Data.ProtoLens.FieldDescriptor RationalNumber in Data.Map.fromList [(Data.ProtoLens.Tag 1, numerator__field_descriptor), (Data.ProtoLens.Tag 2, denominator__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _RationalNumber'_unknownFields (\ x__ y__ -> x__ {_RationalNumber'_unknownFields = y__}) defMessage = RationalNumber'_constructor {_RationalNumber'numerator = Data.ProtoLens.fieldDefault, _RationalNumber'denominator = Data.ProtoLens.fieldDefault, _RationalNumber'_unknownFields = []} parseMessage = let loop :: RationalNumber -> Data.ProtoLens.Encoding.Bytes.Parser RationalNumber 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.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "numerator" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"numerator") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "denominator" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"denominator") 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) "RationalNumber" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"numerator") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"denominator") _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 Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData RationalNumber where rnf = \ x__ -> Control.DeepSeq.deepseq (_RationalNumber'_unknownFields x__) (Control.DeepSeq.deepseq (_RationalNumber'numerator x__) (Control.DeepSeq.deepseq (_RationalNumber'denominator x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.purpose' @:: Lens' Redeemer RedeemerPurpose@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.datum' @:: Lens' Redeemer PlutusData@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'datum' @:: Lens' Redeemer (Prelude.Maybe PlutusData)@ -} data Redeemer = Redeemer'_constructor {_Redeemer'purpose :: !RedeemerPurpose, _Redeemer'datum :: !(Prelude.Maybe PlutusData), _Redeemer'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Redeemer where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Redeemer "purpose" RedeemerPurpose where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Redeemer'purpose (\ x__ y__ -> x__ {_Redeemer'purpose = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Redeemer "datum" PlutusData where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Redeemer'datum (\ x__ y__ -> x__ {_Redeemer'datum = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Redeemer "maybe'datum" (Prelude.Maybe PlutusData) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Redeemer'datum (\ x__ y__ -> x__ {_Redeemer'datum = y__})) Prelude.id instance Data.ProtoLens.Message Redeemer where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Redeemer" packedMessageDescriptor _ = "\n\ \\bRedeemer\DC2B\n\ \\apurpose\CAN\SOH \SOH(\SO2(.utxorpc.v1alpha.cardano.RedeemerPurposeR\apurpose\DC29\n\ \\ENQdatum\CAN\STX \SOH(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ENQdatum" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let purpose__field_descriptor = Data.ProtoLens.FieldDescriptor "purpose" (Data.ProtoLens.ScalarField Data.ProtoLens.EnumField :: Data.ProtoLens.FieldTypeDescriptor RedeemerPurpose) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"purpose")) :: Data.ProtoLens.FieldDescriptor Redeemer datum__field_descriptor = Data.ProtoLens.FieldDescriptor "datum" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PlutusData) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'datum")) :: Data.ProtoLens.FieldDescriptor Redeemer in Data.Map.fromList [(Data.ProtoLens.Tag 1, purpose__field_descriptor), (Data.ProtoLens.Tag 2, datum__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Redeemer'_unknownFields (\ x__ y__ -> x__ {_Redeemer'_unknownFields = y__}) defMessage = Redeemer'_constructor {_Redeemer'purpose = Data.ProtoLens.fieldDefault, _Redeemer'datum = Prelude.Nothing, _Redeemer'_unknownFields = []} parseMessage = let loop :: Redeemer -> Data.ProtoLens.Encoding.Bytes.Parser Redeemer 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)) "purpose" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"purpose") 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) "datum" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"datum") 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) "Redeemer" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"purpose") _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'datum") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData Redeemer where rnf = \ x__ -> Control.DeepSeq.deepseq (_Redeemer'_unknownFields x__) (Control.DeepSeq.deepseq (_Redeemer'purpose x__) (Control.DeepSeq.deepseq (_Redeemer'datum x__) ())) newtype RedeemerPurpose'UnrecognizedValue = RedeemerPurpose'UnrecognizedValue Data.Int.Int32 deriving stock (Prelude.Eq, Prelude.Ord, Prelude.Show) data RedeemerPurpose = REDEEMER_PURPOSE_UNSPECIFIED | REDEEMER_PURPOSE_SPEND | REDEEMER_PURPOSE_MINT | REDEEMER_PURPOSE_CERT | REDEEMER_PURPOSE_REWARD | RedeemerPurpose'Unrecognized !RedeemerPurpose'UnrecognizedValue deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.MessageEnum RedeemerPurpose where maybeToEnum 0 = Prelude.Just REDEEMER_PURPOSE_UNSPECIFIED maybeToEnum 1 = Prelude.Just REDEEMER_PURPOSE_SPEND maybeToEnum 2 = Prelude.Just REDEEMER_PURPOSE_MINT maybeToEnum 3 = Prelude.Just REDEEMER_PURPOSE_CERT maybeToEnum 4 = Prelude.Just REDEEMER_PURPOSE_REWARD maybeToEnum k = Prelude.Just (RedeemerPurpose'Unrecognized (RedeemerPurpose'UnrecognizedValue (Prelude.fromIntegral k))) showEnum REDEEMER_PURPOSE_UNSPECIFIED = "REDEEMER_PURPOSE_UNSPECIFIED" showEnum REDEEMER_PURPOSE_SPEND = "REDEEMER_PURPOSE_SPEND" showEnum REDEEMER_PURPOSE_MINT = "REDEEMER_PURPOSE_MINT" showEnum REDEEMER_PURPOSE_CERT = "REDEEMER_PURPOSE_CERT" showEnum REDEEMER_PURPOSE_REWARD = "REDEEMER_PURPOSE_REWARD" showEnum (RedeemerPurpose'Unrecognized (RedeemerPurpose'UnrecognizedValue k)) = Prelude.show k readEnum k | (Prelude.==) k "REDEEMER_PURPOSE_UNSPECIFIED" = Prelude.Just REDEEMER_PURPOSE_UNSPECIFIED | (Prelude.==) k "REDEEMER_PURPOSE_SPEND" = Prelude.Just REDEEMER_PURPOSE_SPEND | (Prelude.==) k "REDEEMER_PURPOSE_MINT" = Prelude.Just REDEEMER_PURPOSE_MINT | (Prelude.==) k "REDEEMER_PURPOSE_CERT" = Prelude.Just REDEEMER_PURPOSE_CERT | (Prelude.==) k "REDEEMER_PURPOSE_REWARD" = Prelude.Just REDEEMER_PURPOSE_REWARD | Prelude.otherwise = (Prelude.>>=) (Text.Read.readMaybe k) Data.ProtoLens.maybeToEnum instance Prelude.Bounded RedeemerPurpose where minBound = REDEEMER_PURPOSE_UNSPECIFIED maxBound = REDEEMER_PURPOSE_REWARD instance Prelude.Enum RedeemerPurpose where toEnum k__ = Prelude.maybe (Prelude.error ((Prelude.++) "toEnum: unknown value for enum RedeemerPurpose: " (Prelude.show k__))) Prelude.id (Data.ProtoLens.maybeToEnum k__) fromEnum REDEEMER_PURPOSE_UNSPECIFIED = 0 fromEnum REDEEMER_PURPOSE_SPEND = 1 fromEnum REDEEMER_PURPOSE_MINT = 2 fromEnum REDEEMER_PURPOSE_CERT = 3 fromEnum REDEEMER_PURPOSE_REWARD = 4 fromEnum (RedeemerPurpose'Unrecognized (RedeemerPurpose'UnrecognizedValue k)) = Prelude.fromIntegral k succ REDEEMER_PURPOSE_REWARD = Prelude.error "RedeemerPurpose.succ: bad argument REDEEMER_PURPOSE_REWARD. This value would be out of bounds." succ REDEEMER_PURPOSE_UNSPECIFIED = REDEEMER_PURPOSE_SPEND succ REDEEMER_PURPOSE_SPEND = REDEEMER_PURPOSE_MINT succ REDEEMER_PURPOSE_MINT = REDEEMER_PURPOSE_CERT succ REDEEMER_PURPOSE_CERT = REDEEMER_PURPOSE_REWARD succ (RedeemerPurpose'Unrecognized _) = Prelude.error "RedeemerPurpose.succ: bad argument: unrecognized value" pred REDEEMER_PURPOSE_UNSPECIFIED = Prelude.error "RedeemerPurpose.pred: bad argument REDEEMER_PURPOSE_UNSPECIFIED. This value would be out of bounds." pred REDEEMER_PURPOSE_SPEND = REDEEMER_PURPOSE_UNSPECIFIED pred REDEEMER_PURPOSE_MINT = REDEEMER_PURPOSE_SPEND pred REDEEMER_PURPOSE_CERT = REDEEMER_PURPOSE_MINT pred REDEEMER_PURPOSE_REWARD = REDEEMER_PURPOSE_CERT pred (RedeemerPurpose'Unrecognized _) = Prelude.error "RedeemerPurpose.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 RedeemerPurpose where fieldDefault = REDEEMER_PURPOSE_UNSPECIFIED instance Control.DeepSeq.NFData RedeemerPurpose where rnf x__ = Prelude.seq x__ () {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.ipV4' @:: Lens' Relay Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.ipV6' @:: Lens' Relay Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.dnsName' @:: Lens' Relay Data.Text.Text@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.port' @:: Lens' Relay Data.Word.Word32@ -} data Relay = Relay'_constructor {_Relay'ipV4 :: !Data.ByteString.ByteString, _Relay'ipV6 :: !Data.ByteString.ByteString, _Relay'dnsName :: !Data.Text.Text, _Relay'port :: !Data.Word.Word32, _Relay'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Relay where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Relay "ipV4" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Relay'ipV4 (\ x__ y__ -> x__ {_Relay'ipV4 = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Relay "ipV6" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Relay'ipV6 (\ x__ y__ -> x__ {_Relay'ipV6 = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Relay "dnsName" Data.Text.Text where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Relay'dnsName (\ x__ y__ -> x__ {_Relay'dnsName = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Relay "port" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Relay'port (\ x__ y__ -> x__ {_Relay'port = y__})) Prelude.id instance Data.ProtoLens.Message Relay where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Relay" packedMessageDescriptor _ = "\n\ \\ENQRelay\DC2\DC3\n\ \\ENQip_v4\CAN\SOH \SOH(\fR\EOTipV4\DC2\DC3\n\ \\ENQip_v6\CAN\STX \SOH(\fR\EOTipV6\DC2\EM\n\ \\bdns_name\CAN\ETX \SOH(\tR\adnsName\DC2\DC2\n\ \\EOTport\CAN\EOT \SOH(\rR\EOTport" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let ipV4__field_descriptor = Data.ProtoLens.FieldDescriptor "ip_v4" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"ipV4")) :: Data.ProtoLens.FieldDescriptor Relay ipV6__field_descriptor = Data.ProtoLens.FieldDescriptor "ip_v6" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"ipV6")) :: Data.ProtoLens.FieldDescriptor Relay dnsName__field_descriptor = Data.ProtoLens.FieldDescriptor "dns_name" (Data.ProtoLens.ScalarField Data.ProtoLens.StringField :: Data.ProtoLens.FieldTypeDescriptor Data.Text.Text) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"dnsName")) :: Data.ProtoLens.FieldDescriptor Relay port__field_descriptor = Data.ProtoLens.FieldDescriptor "port" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"port")) :: Data.ProtoLens.FieldDescriptor Relay in Data.Map.fromList [(Data.ProtoLens.Tag 1, ipV4__field_descriptor), (Data.ProtoLens.Tag 2, ipV6__field_descriptor), (Data.ProtoLens.Tag 3, dnsName__field_descriptor), (Data.ProtoLens.Tag 4, port__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Relay'_unknownFields (\ x__ y__ -> x__ {_Relay'_unknownFields = y__}) defMessage = Relay'_constructor {_Relay'ipV4 = Data.ProtoLens.fieldDefault, _Relay'ipV6 = Data.ProtoLens.fieldDefault, _Relay'dnsName = Data.ProtoLens.fieldDefault, _Relay'port = Data.ProtoLens.fieldDefault, _Relay'_unknownFields = []} parseMessage = let loop :: Relay -> Data.ProtoLens.Encoding.Bytes.Parser Relay 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "ip_v4" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"ipV4") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "ip_v6" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"ipV6") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getText (Prelude.fromIntegral len)) "dns_name" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"dnsName") y x) 32 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "port" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"port") 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) "Relay" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"ipV4") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"ipV6") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"dnsName") _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 @"port") _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 Prelude.fromIntegral _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))) instance Control.DeepSeq.NFData Relay where rnf = \ x__ -> Control.DeepSeq.deepseq (_Relay'_unknownFields x__) (Control.DeepSeq.deepseq (_Relay'ipV4 x__) (Control.DeepSeq.deepseq (_Relay'ipV6 x__) (Control.DeepSeq.deepseq (_Relay'dnsName x__) (Control.DeepSeq.deepseq (_Relay'port x__) ())))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'script' @:: Lens' Script (Prelude.Maybe Script'Script)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'native' @:: Lens' Script (Prelude.Maybe NativeScript)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.native' @:: Lens' Script NativeScript@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'plutusV1' @:: Lens' Script (Prelude.Maybe Data.ByteString.ByteString)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.plutusV1' @:: Lens' Script Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'plutusV2' @:: Lens' Script (Prelude.Maybe Data.ByteString.ByteString)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.plutusV2' @:: Lens' Script Data.ByteString.ByteString@ -} data Script = Script'_constructor {_Script'script :: !(Prelude.Maybe Script'Script), _Script'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Script where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) data Script'Script = Script'Native !NativeScript | Script'PlutusV1 !Data.ByteString.ByteString | Script'PlutusV2 !Data.ByteString.ByteString deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.Field.HasField Script "maybe'script" (Prelude.Maybe Script'Script) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Script'script (\ x__ y__ -> x__ {_Script'script = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Script "maybe'native" (Prelude.Maybe NativeScript) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Script'script (\ x__ y__ -> x__ {_Script'script = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Script'Native x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Script'Native y__)) instance Data.ProtoLens.Field.HasField Script "native" NativeScript where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Script'script (\ x__ y__ -> x__ {_Script'script = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Script'Native x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Script'Native y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage)) instance Data.ProtoLens.Field.HasField Script "maybe'plutusV1" (Prelude.Maybe Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Script'script (\ x__ y__ -> x__ {_Script'script = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Script'PlutusV1 x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Script'PlutusV1 y__)) instance Data.ProtoLens.Field.HasField Script "plutusV1" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Script'script (\ x__ y__ -> x__ {_Script'script = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Script'PlutusV1 x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Script'PlutusV1 y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField Script "maybe'plutusV2" (Prelude.Maybe Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Script'script (\ x__ y__ -> x__ {_Script'script = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Script'PlutusV2 x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Script'PlutusV2 y__)) instance Data.ProtoLens.Field.HasField Script "plutusV2" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Script'script (\ x__ y__ -> x__ {_Script'script = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (Script'PlutusV2 x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap Script'PlutusV2 y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Message Script where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Script" packedMessageDescriptor _ = "\n\ \\ACKScript\DC2?\n\ \\ACKnative\CAN\SOH \SOH(\v2%.utxorpc.v1alpha.cardano.NativeScriptH\NULR\ACKnative\DC2\GS\n\ \\tplutus_v1\CAN\STX \SOH(\fH\NULR\bplutusV1\DC2\GS\n\ \\tplutus_v2\CAN\ETX \SOH(\fH\NULR\bplutusV2B\b\n\ \\ACKscript" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let native__field_descriptor = Data.ProtoLens.FieldDescriptor "native" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NativeScript) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'native")) :: Data.ProtoLens.FieldDescriptor Script plutusV1__field_descriptor = Data.ProtoLens.FieldDescriptor "plutus_v1" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'plutusV1")) :: Data.ProtoLens.FieldDescriptor Script plutusV2__field_descriptor = Data.ProtoLens.FieldDescriptor "plutus_v2" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'plutusV2")) :: Data.ProtoLens.FieldDescriptor Script in Data.Map.fromList [(Data.ProtoLens.Tag 1, native__field_descriptor), (Data.ProtoLens.Tag 2, plutusV1__field_descriptor), (Data.ProtoLens.Tag 3, plutusV2__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Script'_unknownFields (\ x__ y__ -> x__ {_Script'_unknownFields = y__}) defMessage = Script'_constructor {_Script'script = Prelude.Nothing, _Script'_unknownFields = []} parseMessage = let loop :: Script -> Data.ProtoLens.Encoding.Bytes.Parser Script 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "native" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"native") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "plutus_v1" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"plutusV1") y x) 26 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "plutus_v2" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"plutusV2") 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) "Script" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'script") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (Script'Native 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) (Prelude.Just (Script'PlutusV1 v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) v) (Prelude.Just (Script'PlutusV2 v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 26) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData Script where rnf = \ x__ -> Control.DeepSeq.deepseq (_Script'_unknownFields x__) (Control.DeepSeq.deepseq (_Script'script x__) ()) instance Control.DeepSeq.NFData Script'Script where rnf (Script'Native x__) = Control.DeepSeq.rnf x__ rnf (Script'PlutusV1 x__) = Control.DeepSeq.rnf x__ rnf (Script'PlutusV2 x__) = Control.DeepSeq.rnf x__ _Script'Native :: Data.ProtoLens.Prism.Prism' Script'Script NativeScript _Script'Native = Data.ProtoLens.Prism.prism' Script'Native (\ p__ -> case p__ of (Script'Native p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Script'PlutusV1 :: Data.ProtoLens.Prism.Prism' Script'Script Data.ByteString.ByteString _Script'PlutusV1 = Data.ProtoLens.Prism.prism' Script'PlutusV1 (\ p__ -> case p__ of (Script'PlutusV1 p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _Script'PlutusV2 :: Data.ProtoLens.Prism.Prism' Script'Script Data.ByteString.ByteString _Script'PlutusV2 = Data.ProtoLens.Prism.prism' Script'PlutusV2 (\ p__ -> case p__ of (Script'PlutusV2 p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.k' @:: Lens' ScriptNOfK Data.Word.Word32@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.scripts' @:: Lens' ScriptNOfK [NativeScript]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'scripts' @:: Lens' ScriptNOfK (Data.Vector.Vector NativeScript)@ -} data ScriptNOfK = ScriptNOfK'_constructor {_ScriptNOfK'k :: !Data.Word.Word32, _ScriptNOfK'scripts :: !(Data.Vector.Vector NativeScript), _ScriptNOfK'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show ScriptNOfK where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField ScriptNOfK "k" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ScriptNOfK'k (\ x__ y__ -> x__ {_ScriptNOfK'k = y__})) Prelude.id instance Data.ProtoLens.Field.HasField ScriptNOfK "scripts" [NativeScript] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ScriptNOfK'scripts (\ x__ y__ -> x__ {_ScriptNOfK'scripts = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField ScriptNOfK "vec'scripts" (Data.Vector.Vector NativeScript) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _ScriptNOfK'scripts (\ x__ y__ -> x__ {_ScriptNOfK'scripts = y__})) Prelude.id instance Data.ProtoLens.Message ScriptNOfK where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.ScriptNOfK" packedMessageDescriptor _ = "\n\ \\n\ \ScriptNOfK\DC2\f\n\ \\SOHk\CAN\SOH \SOH(\rR\SOHk\DC2?\n\ \\ascripts\CAN\STX \ETX(\v2%.utxorpc.v1alpha.cardano.NativeScriptR\ascripts" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let k__field_descriptor = Data.ProtoLens.FieldDescriptor "k" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"k")) :: Data.ProtoLens.FieldDescriptor ScriptNOfK scripts__field_descriptor = Data.ProtoLens.FieldDescriptor "scripts" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor NativeScript) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"scripts")) :: Data.ProtoLens.FieldDescriptor ScriptNOfK in Data.Map.fromList [(Data.ProtoLens.Tag 1, k__field_descriptor), (Data.ProtoLens.Tag 2, scripts__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _ScriptNOfK'_unknownFields (\ x__ y__ -> x__ {_ScriptNOfK'_unknownFields = y__}) defMessage = ScriptNOfK'_constructor {_ScriptNOfK'k = Data.ProtoLens.fieldDefault, _ScriptNOfK'scripts = Data.Vector.Generic.empty, _ScriptNOfK'_unknownFields = []} parseMessage = let loop :: ScriptNOfK -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld NativeScript -> Data.ProtoLens.Encoding.Bytes.Parser ScriptNOfK loop x mutable'scripts = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'scripts <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'scripts) (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'scripts") frozen'scripts 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) "k" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"k") y x) mutable'scripts 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) "scripts" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'scripts 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'scripts in (Data.ProtoLens.Encoding.Bytes.) (do mutable'scripts <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'scripts) "ScriptNOfK" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"k") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt Prelude.fromIntegral _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'scripts") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData ScriptNOfK where rnf = \ x__ -> Control.DeepSeq.deepseq (_ScriptNOfK'_unknownFields x__) (Control.DeepSeq.deepseq (_ScriptNOfK'k x__) (Control.DeepSeq.deepseq (_ScriptNOfK'scripts x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'stakeCredential' @:: Lens' StakeCredential (Prelude.Maybe StakeCredential'StakeCredential)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'addrKeyHash' @:: Lens' StakeCredential (Prelude.Maybe Data.ByteString.ByteString)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.addrKeyHash' @:: Lens' StakeCredential Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'scriptHash' @:: Lens' StakeCredential (Prelude.Maybe Data.ByteString.ByteString)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.scriptHash' @:: Lens' StakeCredential Data.ByteString.ByteString@ -} data StakeCredential = StakeCredential'_constructor {_StakeCredential'stakeCredential :: !(Prelude.Maybe StakeCredential'StakeCredential), _StakeCredential'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show StakeCredential where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) data StakeCredential'StakeCredential = StakeCredential'AddrKeyHash !Data.ByteString.ByteString | StakeCredential'ScriptHash !Data.ByteString.ByteString deriving stock (Prelude.Show, Prelude.Eq, Prelude.Ord) instance Data.ProtoLens.Field.HasField StakeCredential "maybe'stakeCredential" (Prelude.Maybe StakeCredential'StakeCredential) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _StakeCredential'stakeCredential (\ x__ y__ -> x__ {_StakeCredential'stakeCredential = y__})) Prelude.id instance Data.ProtoLens.Field.HasField StakeCredential "maybe'addrKeyHash" (Prelude.Maybe Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _StakeCredential'stakeCredential (\ x__ y__ -> x__ {_StakeCredential'stakeCredential = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (StakeCredential'AddrKeyHash x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap StakeCredential'AddrKeyHash y__)) instance Data.ProtoLens.Field.HasField StakeCredential "addrKeyHash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _StakeCredential'stakeCredential (\ x__ y__ -> x__ {_StakeCredential'stakeCredential = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (StakeCredential'AddrKeyHash x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap StakeCredential'AddrKeyHash y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Field.HasField StakeCredential "maybe'scriptHash" (Prelude.Maybe Data.ByteString.ByteString) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _StakeCredential'stakeCredential (\ x__ y__ -> x__ {_StakeCredential'stakeCredential = y__})) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (StakeCredential'ScriptHash x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap StakeCredential'ScriptHash y__)) instance Data.ProtoLens.Field.HasField StakeCredential "scriptHash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _StakeCredential'stakeCredential (\ x__ y__ -> x__ {_StakeCredential'stakeCredential = y__})) ((Prelude..) (Lens.Family2.Unchecked.lens (\ x__ -> case x__ of (Prelude.Just (StakeCredential'ScriptHash x__val)) -> Prelude.Just x__val _otherwise -> Prelude.Nothing) (\ _ y__ -> Prelude.fmap StakeCredential'ScriptHash y__)) (Data.ProtoLens.maybeLens Data.ProtoLens.fieldDefault)) instance Data.ProtoLens.Message StakeCredential where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.StakeCredential" packedMessageDescriptor _ = "\n\ \\SIStakeCredential\DC2$\n\ \\raddr_key_hash\CAN\SOH \SOH(\fH\NULR\vaddrKeyHash\DC2!\n\ \\vscript_hash\CAN\STX \SOH(\fH\NULR\n\ \scriptHashB\DC2\n\ \\DLEstake_credential" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let addrKeyHash__field_descriptor = Data.ProtoLens.FieldDescriptor "addr_key_hash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'addrKeyHash")) :: Data.ProtoLens.FieldDescriptor StakeCredential scriptHash__field_descriptor = Data.ProtoLens.FieldDescriptor "script_hash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'scriptHash")) :: Data.ProtoLens.FieldDescriptor StakeCredential in Data.Map.fromList [(Data.ProtoLens.Tag 1, addrKeyHash__field_descriptor), (Data.ProtoLens.Tag 2, scriptHash__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _StakeCredential'_unknownFields (\ x__ y__ -> x__ {_StakeCredential'_unknownFields = y__}) defMessage = StakeCredential'_constructor {_StakeCredential'stakeCredential = Prelude.Nothing, _StakeCredential'_unknownFields = []} parseMessage = let loop :: StakeCredential -> Data.ProtoLens.Encoding.Bytes.Parser StakeCredential 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "addr_key_hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"addrKeyHash") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "script_hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"scriptHash") 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) "StakeCredential" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'stakeCredential") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just (StakeCredential'AddrKeyHash v)) -> (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)) v) (Prelude.Just (StakeCredential'ScriptHash v)) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)) instance Control.DeepSeq.NFData StakeCredential where rnf = \ x__ -> Control.DeepSeq.deepseq (_StakeCredential'_unknownFields x__) (Control.DeepSeq.deepseq (_StakeCredential'stakeCredential x__) ()) instance Control.DeepSeq.NFData StakeCredential'StakeCredential where rnf (StakeCredential'AddrKeyHash x__) = Control.DeepSeq.rnf x__ rnf (StakeCredential'ScriptHash x__) = Control.DeepSeq.rnf x__ _StakeCredential'AddrKeyHash :: Data.ProtoLens.Prism.Prism' StakeCredential'StakeCredential Data.ByteString.ByteString _StakeCredential'AddrKeyHash = Data.ProtoLens.Prism.prism' StakeCredential'AddrKeyHash (\ p__ -> case p__ of (StakeCredential'AddrKeyHash p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) _StakeCredential'ScriptHash :: Data.ProtoLens.Prism.Prism' StakeCredential'StakeCredential Data.ByteString.ByteString _StakeCredential'ScriptHash = Data.ProtoLens.Prism.prism' StakeCredential'ScriptHash (\ p__ -> case p__ of (StakeCredential'ScriptHash p__val) -> Prelude.Just p__val _otherwise -> Prelude.Nothing) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.stakeCredential' @:: Lens' StakeDelegationCert StakeCredential@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'stakeCredential' @:: Lens' StakeDelegationCert (Prelude.Maybe StakeCredential)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.poolKeyhash' @:: Lens' StakeDelegationCert Data.ByteString.ByteString@ -} data StakeDelegationCert = StakeDelegationCert'_constructor {_StakeDelegationCert'stakeCredential :: !(Prelude.Maybe StakeCredential), _StakeDelegationCert'poolKeyhash :: !Data.ByteString.ByteString, _StakeDelegationCert'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show StakeDelegationCert where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField StakeDelegationCert "stakeCredential" StakeCredential where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _StakeDelegationCert'stakeCredential (\ x__ y__ -> x__ {_StakeDelegationCert'stakeCredential = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField StakeDelegationCert "maybe'stakeCredential" (Prelude.Maybe StakeCredential) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _StakeDelegationCert'stakeCredential (\ x__ y__ -> x__ {_StakeDelegationCert'stakeCredential = y__})) Prelude.id instance Data.ProtoLens.Field.HasField StakeDelegationCert "poolKeyhash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _StakeDelegationCert'poolKeyhash (\ x__ y__ -> x__ {_StakeDelegationCert'poolKeyhash = y__})) Prelude.id instance Data.ProtoLens.Message StakeDelegationCert where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.StakeDelegationCert" packedMessageDescriptor _ = "\n\ \\DC3StakeDelegationCert\DC2S\n\ \\DLEstake_credential\CAN\SOH \SOH(\v2(.utxorpc.v1alpha.cardano.StakeCredentialR\SIstakeCredential\DC2!\n\ \\fpool_keyhash\CAN\STX \SOH(\fR\vpoolKeyhash" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let stakeCredential__field_descriptor = Data.ProtoLens.FieldDescriptor "stake_credential" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor StakeCredential) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'stakeCredential")) :: Data.ProtoLens.FieldDescriptor StakeDelegationCert poolKeyhash__field_descriptor = Data.ProtoLens.FieldDescriptor "pool_keyhash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"poolKeyhash")) :: Data.ProtoLens.FieldDescriptor StakeDelegationCert in Data.Map.fromList [(Data.ProtoLens.Tag 1, stakeCredential__field_descriptor), (Data.ProtoLens.Tag 2, poolKeyhash__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _StakeDelegationCert'_unknownFields (\ x__ y__ -> x__ {_StakeDelegationCert'_unknownFields = y__}) defMessage = StakeDelegationCert'_constructor {_StakeDelegationCert'stakeCredential = Prelude.Nothing, _StakeDelegationCert'poolKeyhash = Data.ProtoLens.fieldDefault, _StakeDelegationCert'_unknownFields = []} parseMessage = let loop :: StakeDelegationCert -> Data.ProtoLens.Encoding.Bytes.Parser StakeDelegationCert 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "stake_credential" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"stakeCredential") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "pool_keyhash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"poolKeyhash") 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) "StakeDelegationCert" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'stakeCredential") _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.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"poolKeyhash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData StakeDelegationCert where rnf = \ x__ -> Control.DeepSeq.deepseq (_StakeDelegationCert'_unknownFields x__) (Control.DeepSeq.deepseq (_StakeDelegationCert'stakeCredential x__) (Control.DeepSeq.deepseq (_StakeDelegationCert'poolKeyhash x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.inputs' @:: Lens' Tx [TxInput]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'inputs' @:: Lens' Tx (Data.Vector.Vector TxInput)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.outputs' @:: Lens' Tx [TxOutput]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'outputs' @:: Lens' Tx (Data.Vector.Vector TxOutput)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.certificates' @:: Lens' Tx [Certificate]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'certificates' @:: Lens' Tx (Data.Vector.Vector Certificate)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.withdrawals' @:: Lens' Tx [Withdrawal]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'withdrawals' @:: Lens' Tx (Data.Vector.Vector Withdrawal)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.mint' @:: Lens' Tx [Multiasset]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'mint' @:: Lens' Tx (Data.Vector.Vector Multiasset)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.referenceInputs' @:: Lens' Tx [TxInput]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'referenceInputs' @:: Lens' Tx (Data.Vector.Vector TxInput)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.witnesses' @:: Lens' Tx WitnessSet@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'witnesses' @:: Lens' Tx (Prelude.Maybe WitnessSet)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.collateral' @:: Lens' Tx Collateral@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'collateral' @:: Lens' Tx (Prelude.Maybe Collateral)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.fee' @:: Lens' Tx Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.validity' @:: Lens' Tx TxValidity@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'validity' @:: Lens' Tx (Prelude.Maybe TxValidity)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.successful' @:: Lens' Tx Prelude.Bool@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.auxiliary' @:: Lens' Tx AuxData@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'auxiliary' @:: Lens' Tx (Prelude.Maybe AuxData)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.hash' @:: Lens' Tx Data.ByteString.ByteString@ -} data Tx = Tx'_constructor {_Tx'inputs :: !(Data.Vector.Vector TxInput), _Tx'outputs :: !(Data.Vector.Vector TxOutput), _Tx'certificates :: !(Data.Vector.Vector Certificate), _Tx'withdrawals :: !(Data.Vector.Vector Withdrawal), _Tx'mint :: !(Data.Vector.Vector Multiasset), _Tx'referenceInputs :: !(Data.Vector.Vector TxInput), _Tx'witnesses :: !(Prelude.Maybe WitnessSet), _Tx'collateral :: !(Prelude.Maybe Collateral), _Tx'fee :: !Data.Word.Word64, _Tx'validity :: !(Prelude.Maybe TxValidity), _Tx'successful :: !Prelude.Bool, _Tx'auxiliary :: !(Prelude.Maybe AuxData), _Tx'hash :: !Data.ByteString.ByteString, _Tx'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Tx where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Tx "inputs" [TxInput] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'inputs (\ x__ y__ -> x__ {_Tx'inputs = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Tx "vec'inputs" (Data.Vector.Vector TxInput) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'inputs (\ x__ y__ -> x__ {_Tx'inputs = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "outputs" [TxOutput] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'outputs (\ x__ y__ -> x__ {_Tx'outputs = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Tx "vec'outputs" (Data.Vector.Vector TxOutput) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'outputs (\ x__ y__ -> x__ {_Tx'outputs = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "certificates" [Certificate] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'certificates (\ x__ y__ -> x__ {_Tx'certificates = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Tx "vec'certificates" (Data.Vector.Vector Certificate) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'certificates (\ x__ y__ -> x__ {_Tx'certificates = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "withdrawals" [Withdrawal] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'withdrawals (\ x__ y__ -> x__ {_Tx'withdrawals = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Tx "vec'withdrawals" (Data.Vector.Vector Withdrawal) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'withdrawals (\ x__ y__ -> x__ {_Tx'withdrawals = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "mint" [Multiasset] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'mint (\ x__ y__ -> x__ {_Tx'mint = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Tx "vec'mint" (Data.Vector.Vector Multiasset) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'mint (\ x__ y__ -> x__ {_Tx'mint = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "referenceInputs" [TxInput] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'referenceInputs (\ x__ y__ -> x__ {_Tx'referenceInputs = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField Tx "vec'referenceInputs" (Data.Vector.Vector TxInput) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'referenceInputs (\ x__ y__ -> x__ {_Tx'referenceInputs = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "witnesses" WitnessSet where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'witnesses (\ x__ y__ -> x__ {_Tx'witnesses = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Tx "maybe'witnesses" (Prelude.Maybe WitnessSet) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'witnesses (\ x__ y__ -> x__ {_Tx'witnesses = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "collateral" Collateral where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'collateral (\ x__ y__ -> x__ {_Tx'collateral = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Tx "maybe'collateral" (Prelude.Maybe Collateral) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'collateral (\ x__ y__ -> x__ {_Tx'collateral = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "fee" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'fee (\ x__ y__ -> x__ {_Tx'fee = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "validity" TxValidity where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'validity (\ x__ y__ -> x__ {_Tx'validity = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Tx "maybe'validity" (Prelude.Maybe TxValidity) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'validity (\ x__ y__ -> x__ {_Tx'validity = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "successful" Prelude.Bool where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'successful (\ x__ y__ -> x__ {_Tx'successful = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "auxiliary" AuxData where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'auxiliary (\ x__ y__ -> x__ {_Tx'auxiliary = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField Tx "maybe'auxiliary" (Prelude.Maybe AuxData) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'auxiliary (\ x__ y__ -> x__ {_Tx'auxiliary = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Tx "hash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Tx'hash (\ x__ y__ -> x__ {_Tx'hash = y__})) Prelude.id instance Data.ProtoLens.Message Tx where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Tx" packedMessageDescriptor _ = "\n\ \\STXTx\DC28\n\ \\ACKinputs\CAN\SOH \ETX(\v2 .utxorpc.v1alpha.cardano.TxInputR\ACKinputs\DC2;\n\ \\aoutputs\CAN\STX \ETX(\v2!.utxorpc.v1alpha.cardano.TxOutputR\aoutputs\DC2H\n\ \\fcertificates\CAN\ETX \ETX(\v2$.utxorpc.v1alpha.cardano.CertificateR\fcertificates\DC2E\n\ \\vwithdrawals\CAN\EOT \ETX(\v2#.utxorpc.v1alpha.cardano.WithdrawalR\vwithdrawals\DC27\n\ \\EOTmint\CAN\ENQ \ETX(\v2#.utxorpc.v1alpha.cardano.MultiassetR\EOTmint\DC2K\n\ \\DLEreference_inputs\CAN\ACK \ETX(\v2 .utxorpc.v1alpha.cardano.TxInputR\SIreferenceInputs\DC2A\n\ \\twitnesses\CAN\a \SOH(\v2#.utxorpc.v1alpha.cardano.WitnessSetR\twitnesses\DC2C\n\ \\n\ \collateral\CAN\b \SOH(\v2#.utxorpc.v1alpha.cardano.CollateralR\n\ \collateral\DC2\DLE\n\ \\ETXfee\CAN\t \SOH(\EOTR\ETXfee\DC2?\n\ \\bvalidity\CAN\n\ \ \SOH(\v2#.utxorpc.v1alpha.cardano.TxValidityR\bvalidity\DC2\RS\n\ \\n\ \successful\CAN\v \SOH(\bR\n\ \successful\DC2>\n\ \\tauxiliary\CAN\f \SOH(\v2 .utxorpc.v1alpha.cardano.AuxDataR\tauxiliary\DC2\DC2\n\ \\EOThash\CAN\r \SOH(\fR\EOThash" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let inputs__field_descriptor = Data.ProtoLens.FieldDescriptor "inputs" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor TxInput) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"inputs")) :: Data.ProtoLens.FieldDescriptor Tx outputs__field_descriptor = Data.ProtoLens.FieldDescriptor "outputs" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor TxOutput) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"outputs")) :: Data.ProtoLens.FieldDescriptor Tx certificates__field_descriptor = Data.ProtoLens.FieldDescriptor "certificates" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Certificate) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"certificates")) :: Data.ProtoLens.FieldDescriptor Tx withdrawals__field_descriptor = Data.ProtoLens.FieldDescriptor "withdrawals" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Withdrawal) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"withdrawals")) :: Data.ProtoLens.FieldDescriptor Tx mint__field_descriptor = Data.ProtoLens.FieldDescriptor "mint" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Multiasset) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"mint")) :: Data.ProtoLens.FieldDescriptor Tx referenceInputs__field_descriptor = Data.ProtoLens.FieldDescriptor "reference_inputs" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor TxInput) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"referenceInputs")) :: Data.ProtoLens.FieldDescriptor Tx witnesses__field_descriptor = Data.ProtoLens.FieldDescriptor "witnesses" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor WitnessSet) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'witnesses")) :: Data.ProtoLens.FieldDescriptor Tx collateral__field_descriptor = Data.ProtoLens.FieldDescriptor "collateral" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Collateral) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'collateral")) :: Data.ProtoLens.FieldDescriptor Tx fee__field_descriptor = Data.ProtoLens.FieldDescriptor "fee" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"fee")) :: Data.ProtoLens.FieldDescriptor Tx validity__field_descriptor = Data.ProtoLens.FieldDescriptor "validity" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor TxValidity) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'validity")) :: Data.ProtoLens.FieldDescriptor Tx successful__field_descriptor = Data.ProtoLens.FieldDescriptor "successful" (Data.ProtoLens.ScalarField Data.ProtoLens.BoolField :: Data.ProtoLens.FieldTypeDescriptor Prelude.Bool) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"successful")) :: Data.ProtoLens.FieldDescriptor Tx auxiliary__field_descriptor = Data.ProtoLens.FieldDescriptor "auxiliary" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor AuxData) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'auxiliary")) :: Data.ProtoLens.FieldDescriptor Tx hash__field_descriptor = Data.ProtoLens.FieldDescriptor "hash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"hash")) :: Data.ProtoLens.FieldDescriptor Tx in Data.Map.fromList [(Data.ProtoLens.Tag 1, inputs__field_descriptor), (Data.ProtoLens.Tag 2, outputs__field_descriptor), (Data.ProtoLens.Tag 3, certificates__field_descriptor), (Data.ProtoLens.Tag 4, withdrawals__field_descriptor), (Data.ProtoLens.Tag 5, mint__field_descriptor), (Data.ProtoLens.Tag 6, referenceInputs__field_descriptor), (Data.ProtoLens.Tag 7, witnesses__field_descriptor), (Data.ProtoLens.Tag 8, collateral__field_descriptor), (Data.ProtoLens.Tag 9, fee__field_descriptor), (Data.ProtoLens.Tag 10, validity__field_descriptor), (Data.ProtoLens.Tag 11, successful__field_descriptor), (Data.ProtoLens.Tag 12, auxiliary__field_descriptor), (Data.ProtoLens.Tag 13, hash__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Tx'_unknownFields (\ x__ y__ -> x__ {_Tx'_unknownFields = y__}) defMessage = Tx'_constructor {_Tx'inputs = Data.Vector.Generic.empty, _Tx'outputs = Data.Vector.Generic.empty, _Tx'certificates = Data.Vector.Generic.empty, _Tx'withdrawals = Data.Vector.Generic.empty, _Tx'mint = Data.Vector.Generic.empty, _Tx'referenceInputs = Data.Vector.Generic.empty, _Tx'witnesses = Prelude.Nothing, _Tx'collateral = Prelude.Nothing, _Tx'fee = Data.ProtoLens.fieldDefault, _Tx'validity = Prelude.Nothing, _Tx'successful = Data.ProtoLens.fieldDefault, _Tx'auxiliary = Prelude.Nothing, _Tx'hash = Data.ProtoLens.fieldDefault, _Tx'_unknownFields = []} parseMessage = let loop :: Tx -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Certificate -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld TxInput -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Multiasset -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld TxOutput -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld TxInput -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Withdrawal -> Data.ProtoLens.Encoding.Bytes.Parser Tx loop x mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'certificates <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'certificates) frozen'inputs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'inputs) frozen'mint <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'mint) frozen'outputs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'outputs) frozen'referenceInputs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'referenceInputs) frozen'withdrawals <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'withdrawals) (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'certificates") frozen'certificates (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'inputs") frozen'inputs (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'mint") frozen'mint (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'outputs") frozen'outputs (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'referenceInputs") frozen'referenceInputs (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'withdrawals") frozen'withdrawals 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) "inputs" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'inputs y) loop x mutable'certificates v mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals 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) "outputs" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'outputs y) loop x mutable'certificates mutable'inputs mutable'mint v mutable'referenceInputs mutable'withdrawals 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) "certificates" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'certificates y) loop x v mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals 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) "withdrawals" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'withdrawals y) loop x mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs v 42 -> do !y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "mint" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'mint y) loop x mutable'certificates mutable'inputs v mutable'outputs mutable'referenceInputs mutable'withdrawals 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) "reference_inputs" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'referenceInputs y) loop x mutable'certificates mutable'inputs mutable'mint mutable'outputs v mutable'withdrawals 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) "witnesses" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"witnesses") y x) mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals 66 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "collateral" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"collateral") y x) mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals 72 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "fee" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"fee") y x) mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals 82 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "validity" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"validity") y x) mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals 88 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap ((Prelude./=) 0) Data.ProtoLens.Encoding.Bytes.getVarInt) "successful" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"successful") y x) mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals 98 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "auxiliary" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"auxiliary") y x) mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals 106 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"hash") y x) mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals in (Data.ProtoLens.Encoding.Bytes.) (do mutable'certificates <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'inputs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'mint <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'outputs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'referenceInputs <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'withdrawals <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'certificates mutable'inputs mutable'mint mutable'outputs mutable'referenceInputs mutable'withdrawals) "Tx" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _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)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'inputs") _x)) ((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'outputs") _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'certificates") _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'withdrawals") _x)) ((Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _v -> (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.ProtoLens.encodeMessage _v)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'mint") _x)) ((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'referenceInputs") _x)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'witnesses") _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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'collateral") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (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.ProtoLens.encodeMessage _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"fee") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 72) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'validity") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 82) ((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 @"successful") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 88) ((Prelude..) Data.ProtoLens.Encoding.Bytes.putVarInt (\ b -> if b then 1 else 0) _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'auxiliary") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 98) ((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 @"hash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 106) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))))))))))) instance Control.DeepSeq.NFData Tx where rnf = \ x__ -> Control.DeepSeq.deepseq (_Tx'_unknownFields x__) (Control.DeepSeq.deepseq (_Tx'inputs x__) (Control.DeepSeq.deepseq (_Tx'outputs x__) (Control.DeepSeq.deepseq (_Tx'certificates x__) (Control.DeepSeq.deepseq (_Tx'withdrawals x__) (Control.DeepSeq.deepseq (_Tx'mint x__) (Control.DeepSeq.deepseq (_Tx'referenceInputs x__) (Control.DeepSeq.deepseq (_Tx'witnesses x__) (Control.DeepSeq.deepseq (_Tx'collateral x__) (Control.DeepSeq.deepseq (_Tx'fee x__) (Control.DeepSeq.deepseq (_Tx'validity x__) (Control.DeepSeq.deepseq (_Tx'successful x__) (Control.DeepSeq.deepseq (_Tx'auxiliary x__) (Control.DeepSeq.deepseq (_Tx'hash x__) ()))))))))))))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.fee' @:: Lens' TxEval Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.exUnits' @:: Lens' TxEval ExUnits@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'exUnits' @:: Lens' TxEval (Prelude.Maybe ExUnits)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.errors' @:: Lens' TxEval [EvalError]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'errors' @:: Lens' TxEval (Data.Vector.Vector EvalError)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.traces' @:: Lens' TxEval [EvalTrace]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'traces' @:: Lens' TxEval (Data.Vector.Vector EvalTrace)@ -} data TxEval = TxEval'_constructor {_TxEval'fee :: !Data.Word.Word64, _TxEval'exUnits :: !(Prelude.Maybe ExUnits), _TxEval'errors :: !(Data.Vector.Vector EvalError), _TxEval'traces :: !(Data.Vector.Vector EvalTrace), _TxEval'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show TxEval where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField TxEval "fee" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxEval'fee (\ x__ y__ -> x__ {_TxEval'fee = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxEval "exUnits" ExUnits where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxEval'exUnits (\ x__ y__ -> x__ {_TxEval'exUnits = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxEval "maybe'exUnits" (Prelude.Maybe ExUnits) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxEval'exUnits (\ x__ y__ -> x__ {_TxEval'exUnits = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxEval "errors" [EvalError] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxEval'errors (\ x__ y__ -> x__ {_TxEval'errors = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField TxEval "vec'errors" (Data.Vector.Vector EvalError) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxEval'errors (\ x__ y__ -> x__ {_TxEval'errors = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxEval "traces" [EvalTrace] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxEval'traces (\ x__ y__ -> x__ {_TxEval'traces = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField TxEval "vec'traces" (Data.Vector.Vector EvalTrace) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxEval'traces (\ x__ y__ -> x__ {_TxEval'traces = y__})) Prelude.id instance Data.ProtoLens.Message TxEval where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.TxEval" packedMessageDescriptor _ = "\n\ \\ACKTxEval\DC2\DLE\n\ \\ETXfee\CAN\SOH \SOH(\EOTR\ETXfee\DC2;\n\ \\bex_units\CAN\STX \SOH(\v2 .utxorpc.v1alpha.cardano.ExUnitsR\aexUnits\DC2:\n\ \\ACKerrors\CAN\ETX \ETX(\v2\".utxorpc.v1alpha.cardano.EvalErrorR\ACKerrors\DC2:\n\ \\ACKtraces\CAN\EOT \ETX(\v2\".utxorpc.v1alpha.cardano.EvalTraceR\ACKtraces" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let fee__field_descriptor = Data.ProtoLens.FieldDescriptor "fee" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"fee")) :: Data.ProtoLens.FieldDescriptor TxEval exUnits__field_descriptor = Data.ProtoLens.FieldDescriptor "ex_units" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor ExUnits) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'exUnits")) :: Data.ProtoLens.FieldDescriptor TxEval errors__field_descriptor = Data.ProtoLens.FieldDescriptor "errors" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor EvalError) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"errors")) :: Data.ProtoLens.FieldDescriptor TxEval traces__field_descriptor = Data.ProtoLens.FieldDescriptor "traces" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor EvalTrace) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"traces")) :: Data.ProtoLens.FieldDescriptor TxEval in Data.Map.fromList [(Data.ProtoLens.Tag 1, fee__field_descriptor), (Data.ProtoLens.Tag 2, exUnits__field_descriptor), (Data.ProtoLens.Tag 3, errors__field_descriptor), (Data.ProtoLens.Tag 4, traces__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _TxEval'_unknownFields (\ x__ y__ -> x__ {_TxEval'_unknownFields = y__}) defMessage = TxEval'_constructor {_TxEval'fee = Data.ProtoLens.fieldDefault, _TxEval'exUnits = Prelude.Nothing, _TxEval'errors = Data.Vector.Generic.empty, _TxEval'traces = Data.Vector.Generic.empty, _TxEval'_unknownFields = []} parseMessage = let loop :: TxEval -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld EvalError -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld EvalTrace -> Data.ProtoLens.Encoding.Bytes.Parser TxEval loop x mutable'errors mutable'traces = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'errors <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'errors) frozen'traces <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'traces) (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'errors") frozen'errors (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'traces") frozen'traces x))) else do tag <- Data.ProtoLens.Encoding.Bytes.getVarInt case tag of 8 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "fee" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"fee") y x) mutable'errors mutable'traces 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) "ex_units" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"exUnits") y x) mutable'errors mutable'traces 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) "errors" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'errors y) loop x v mutable'traces 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) "traces" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'traces y) loop x mutable'errors v wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'errors mutable'traces in (Data.ProtoLens.Encoding.Bytes.) (do mutable'errors <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'traces <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'errors mutable'traces) "TxEval" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"fee") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'exUnits") _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'errors") _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'traces") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))) instance Control.DeepSeq.NFData TxEval where rnf = \ x__ -> Control.DeepSeq.deepseq (_TxEval'_unknownFields x__) (Control.DeepSeq.deepseq (_TxEval'fee x__) (Control.DeepSeq.deepseq (_TxEval'exUnits x__) (Control.DeepSeq.deepseq (_TxEval'errors x__) (Control.DeepSeq.deepseq (_TxEval'traces x__) ())))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.txHash' @:: Lens' TxInput Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.outputIndex' @:: Lens' TxInput Data.Word.Word32@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.asOutput' @:: Lens' TxInput TxOutput@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'asOutput' @:: Lens' TxInput (Prelude.Maybe TxOutput)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.redeemer' @:: Lens' TxInput Redeemer@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'redeemer' @:: Lens' TxInput (Prelude.Maybe Redeemer)@ -} data TxInput = TxInput'_constructor {_TxInput'txHash :: !Data.ByteString.ByteString, _TxInput'outputIndex :: !Data.Word.Word32, _TxInput'asOutput :: !(Prelude.Maybe TxOutput), _TxInput'redeemer :: !(Prelude.Maybe Redeemer), _TxInput'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show TxInput where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField TxInput "txHash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxInput'txHash (\ x__ y__ -> x__ {_TxInput'txHash = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxInput "outputIndex" Data.Word.Word32 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxInput'outputIndex (\ x__ y__ -> x__ {_TxInput'outputIndex = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxInput "asOutput" TxOutput where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxInput'asOutput (\ x__ y__ -> x__ {_TxInput'asOutput = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxInput "maybe'asOutput" (Prelude.Maybe TxOutput) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxInput'asOutput (\ x__ y__ -> x__ {_TxInput'asOutput = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxInput "redeemer" Redeemer where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxInput'redeemer (\ x__ y__ -> x__ {_TxInput'redeemer = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxInput "maybe'redeemer" (Prelude.Maybe Redeemer) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxInput'redeemer (\ x__ y__ -> x__ {_TxInput'redeemer = y__})) Prelude.id instance Data.ProtoLens.Message TxInput where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.TxInput" packedMessageDescriptor _ = "\n\ \\aTxInput\DC2\ETB\n\ \\atx_hash\CAN\SOH \SOH(\fR\ACKtxHash\DC2!\n\ \\foutput_index\CAN\STX \SOH(\rR\voutputIndex\DC2>\n\ \\tas_output\CAN\ETX \SOH(\v2!.utxorpc.v1alpha.cardano.TxOutputR\basOutput\DC2=\n\ \\bredeemer\CAN\EOT \SOH(\v2!.utxorpc.v1alpha.cardano.RedeemerR\bredeemer" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let txHash__field_descriptor = Data.ProtoLens.FieldDescriptor "tx_hash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"txHash")) :: Data.ProtoLens.FieldDescriptor TxInput outputIndex__field_descriptor = Data.ProtoLens.FieldDescriptor "output_index" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt32Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word32) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"outputIndex")) :: Data.ProtoLens.FieldDescriptor TxInput asOutput__field_descriptor = Data.ProtoLens.FieldDescriptor "as_output" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor TxOutput) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'asOutput")) :: Data.ProtoLens.FieldDescriptor TxInput redeemer__field_descriptor = Data.ProtoLens.FieldDescriptor "redeemer" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Redeemer) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'redeemer")) :: Data.ProtoLens.FieldDescriptor TxInput in Data.Map.fromList [(Data.ProtoLens.Tag 1, txHash__field_descriptor), (Data.ProtoLens.Tag 2, outputIndex__field_descriptor), (Data.ProtoLens.Tag 3, asOutput__field_descriptor), (Data.ProtoLens.Tag 4, redeemer__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _TxInput'_unknownFields (\ x__ y__ -> x__ {_TxInput'_unknownFields = y__}) defMessage = TxInput'_constructor {_TxInput'txHash = Data.ProtoLens.fieldDefault, _TxInput'outputIndex = Data.ProtoLens.fieldDefault, _TxInput'asOutput = Prelude.Nothing, _TxInput'redeemer = Prelude.Nothing, _TxInput'_unknownFields = []} parseMessage = let loop :: TxInput -> Data.ProtoLens.Encoding.Bytes.Parser TxInput 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "tx_hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"txHash") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (Prelude.fmap Prelude.fromIntegral Data.ProtoLens.Encoding.Bytes.getVarInt) "output_index" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"outputIndex") y x) 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) "as_output" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"asOutput") y x) 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) "redeemer" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"redeemer") 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) "TxInput" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"txHash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"outputIndex") _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 Prelude.fromIntegral _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'asOutput") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _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)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'redeemer") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _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)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))) instance Control.DeepSeq.NFData TxInput where rnf = \ x__ -> Control.DeepSeq.deepseq (_TxInput'_unknownFields x__) (Control.DeepSeq.deepseq (_TxInput'txHash x__) (Control.DeepSeq.deepseq (_TxInput'outputIndex x__) (Control.DeepSeq.deepseq (_TxInput'asOutput x__) (Control.DeepSeq.deepseq (_TxInput'redeemer x__) ())))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.address' @:: Lens' TxOutput Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.coin' @:: Lens' TxOutput Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.assets' @:: Lens' TxOutput [Multiasset]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'assets' @:: Lens' TxOutput (Data.Vector.Vector Multiasset)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.datum' @:: Lens' TxOutput PlutusData@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'datum' @:: Lens' TxOutput (Prelude.Maybe PlutusData)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.datumHash' @:: Lens' TxOutput Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.script' @:: Lens' TxOutput Script@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'script' @:: Lens' TxOutput (Prelude.Maybe Script)@ -} data TxOutput = TxOutput'_constructor {_TxOutput'address :: !Data.ByteString.ByteString, _TxOutput'coin :: !Data.Word.Word64, _TxOutput'assets :: !(Data.Vector.Vector Multiasset), _TxOutput'datum :: !(Prelude.Maybe PlutusData), _TxOutput'datumHash :: !Data.ByteString.ByteString, _TxOutput'script :: !(Prelude.Maybe Script), _TxOutput'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show TxOutput where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField TxOutput "address" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutput'address (\ x__ y__ -> x__ {_TxOutput'address = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxOutput "coin" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutput'coin (\ x__ y__ -> x__ {_TxOutput'coin = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxOutput "assets" [Multiasset] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutput'assets (\ x__ y__ -> x__ {_TxOutput'assets = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField TxOutput "vec'assets" (Data.Vector.Vector Multiasset) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutput'assets (\ x__ y__ -> x__ {_TxOutput'assets = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxOutput "datum" PlutusData where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutput'datum (\ x__ y__ -> x__ {_TxOutput'datum = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxOutput "maybe'datum" (Prelude.Maybe PlutusData) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutput'datum (\ x__ y__ -> x__ {_TxOutput'datum = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxOutput "datumHash" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutput'datumHash (\ x__ y__ -> x__ {_TxOutput'datumHash = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxOutput "script" Script where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutput'script (\ x__ y__ -> x__ {_TxOutput'script = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxOutput "maybe'script" (Prelude.Maybe Script) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutput'script (\ x__ y__ -> x__ {_TxOutput'script = y__})) Prelude.id instance Data.ProtoLens.Message TxOutput where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.TxOutput" packedMessageDescriptor _ = "\n\ \\bTxOutput\DC2\CAN\n\ \\aaddress\CAN\SOH \SOH(\fR\aaddress\DC2\DC2\n\ \\EOTcoin\CAN\STX \SOH(\EOTR\EOTcoin\DC2;\n\ \\ACKassets\CAN\ETX \ETX(\v2#.utxorpc.v1alpha.cardano.MultiassetR\ACKassets\DC29\n\ \\ENQdatum\CAN\EOT \SOH(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ENQdatum\DC2\GS\n\ \\n\ \datum_hash\CAN\ENQ \SOH(\fR\tdatumHash\DC27\n\ \\ACKscript\CAN\ACK \SOH(\v2\US.utxorpc.v1alpha.cardano.ScriptR\ACKscript" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let address__field_descriptor = Data.ProtoLens.FieldDescriptor "address" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"address")) :: Data.ProtoLens.FieldDescriptor TxOutput coin__field_descriptor = Data.ProtoLens.FieldDescriptor "coin" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"coin")) :: Data.ProtoLens.FieldDescriptor TxOutput assets__field_descriptor = Data.ProtoLens.FieldDescriptor "assets" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Multiasset) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"assets")) :: Data.ProtoLens.FieldDescriptor TxOutput datum__field_descriptor = Data.ProtoLens.FieldDescriptor "datum" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PlutusData) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'datum")) :: Data.ProtoLens.FieldDescriptor TxOutput datumHash__field_descriptor = Data.ProtoLens.FieldDescriptor "datum_hash" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"datumHash")) :: Data.ProtoLens.FieldDescriptor TxOutput script__field_descriptor = Data.ProtoLens.FieldDescriptor "script" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Script) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'script")) :: Data.ProtoLens.FieldDescriptor TxOutput in Data.Map.fromList [(Data.ProtoLens.Tag 1, address__field_descriptor), (Data.ProtoLens.Tag 2, coin__field_descriptor), (Data.ProtoLens.Tag 3, assets__field_descriptor), (Data.ProtoLens.Tag 4, datum__field_descriptor), (Data.ProtoLens.Tag 5, datumHash__field_descriptor), (Data.ProtoLens.Tag 6, script__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _TxOutput'_unknownFields (\ x__ y__ -> x__ {_TxOutput'_unknownFields = y__}) defMessage = TxOutput'_constructor {_TxOutput'address = Data.ProtoLens.fieldDefault, _TxOutput'coin = Data.ProtoLens.fieldDefault, _TxOutput'assets = Data.Vector.Generic.empty, _TxOutput'datum = Prelude.Nothing, _TxOutput'datumHash = Data.ProtoLens.fieldDefault, _TxOutput'script = Prelude.Nothing, _TxOutput'_unknownFields = []} parseMessage = let loop :: TxOutput -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Multiasset -> Data.ProtoLens.Encoding.Bytes.Parser TxOutput loop x mutable'assets = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'assets <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'assets) (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'assets") frozen'assets 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.getBytes (Prelude.fromIntegral len)) "address" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"address") y x) mutable'assets 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "coin" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"coin") y x) mutable'assets 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) "assets" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'assets y) loop x v 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) "datum" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"datum") y x) mutable'assets 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "datum_hash" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"datumHash") y x) mutable'assets 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) "script" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"script") y x) mutable'assets wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'assets in (Data.ProtoLens.Encoding.Bytes.) (do mutable'assets <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'assets) "TxOutput" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"address") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"coin") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _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'assets") _x)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'datum") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _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)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"datumHash") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'script") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _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)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))))))) instance Control.DeepSeq.NFData TxOutput where rnf = \ x__ -> Control.DeepSeq.deepseq (_TxOutput'_unknownFields x__) (Control.DeepSeq.deepseq (_TxOutput'address x__) (Control.DeepSeq.deepseq (_TxOutput'coin x__) (Control.DeepSeq.deepseq (_TxOutput'assets x__) (Control.DeepSeq.deepseq (_TxOutput'datum x__) (Control.DeepSeq.deepseq (_TxOutput'datumHash x__) (Control.DeepSeq.deepseq (_TxOutput'script x__) ())))))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.address' @:: Lens' TxOutputPattern AddressPattern@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'address' @:: Lens' TxOutputPattern (Prelude.Maybe AddressPattern)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.asset' @:: Lens' TxOutputPattern AssetPattern@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'asset' @:: Lens' TxOutputPattern (Prelude.Maybe AssetPattern)@ -} data TxOutputPattern = TxOutputPattern'_constructor {_TxOutputPattern'address :: !(Prelude.Maybe AddressPattern), _TxOutputPattern'asset :: !(Prelude.Maybe AssetPattern), _TxOutputPattern'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show TxOutputPattern where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField TxOutputPattern "address" AddressPattern where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutputPattern'address (\ x__ y__ -> x__ {_TxOutputPattern'address = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxOutputPattern "maybe'address" (Prelude.Maybe AddressPattern) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutputPattern'address (\ x__ y__ -> x__ {_TxOutputPattern'address = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxOutputPattern "asset" AssetPattern where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutputPattern'asset (\ x__ y__ -> x__ {_TxOutputPattern'asset = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxOutputPattern "maybe'asset" (Prelude.Maybe AssetPattern) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxOutputPattern'asset (\ x__ y__ -> x__ {_TxOutputPattern'asset = y__})) Prelude.id instance Data.ProtoLens.Message TxOutputPattern where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.TxOutputPattern" packedMessageDescriptor _ = "\n\ \\SITxOutputPattern\DC2A\n\ \\aaddress\CAN\SOH \SOH(\v2'.utxorpc.v1alpha.cardano.AddressPatternR\aaddress\DC2;\n\ \\ENQasset\CAN\STX \SOH(\v2%.utxorpc.v1alpha.cardano.AssetPatternR\ENQasset" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let address__field_descriptor = Data.ProtoLens.FieldDescriptor "address" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor AddressPattern) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'address")) :: Data.ProtoLens.FieldDescriptor TxOutputPattern asset__field_descriptor = Data.ProtoLens.FieldDescriptor "asset" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor AssetPattern) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'asset")) :: Data.ProtoLens.FieldDescriptor TxOutputPattern in Data.Map.fromList [(Data.ProtoLens.Tag 1, address__field_descriptor), (Data.ProtoLens.Tag 2, asset__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _TxOutputPattern'_unknownFields (\ x__ y__ -> x__ {_TxOutputPattern'_unknownFields = y__}) defMessage = TxOutputPattern'_constructor {_TxOutputPattern'address = Prelude.Nothing, _TxOutputPattern'asset = Prelude.Nothing, _TxOutputPattern'_unknownFields = []} parseMessage = let loop :: TxOutputPattern -> Data.ProtoLens.Encoding.Bytes.Parser TxOutputPattern 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "address" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"address") 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) "asset" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"asset") 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) "TxOutputPattern" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'address") _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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'asset") _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.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData TxOutputPattern where rnf = \ x__ -> Control.DeepSeq.deepseq (_TxOutputPattern'_unknownFields x__) (Control.DeepSeq.deepseq (_TxOutputPattern'address x__) (Control.DeepSeq.deepseq (_TxOutputPattern'asset x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.consumes' @:: Lens' TxPattern TxOutputPattern@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'consumes' @:: Lens' TxPattern (Prelude.Maybe TxOutputPattern)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.produces' @:: Lens' TxPattern TxOutputPattern@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'produces' @:: Lens' TxPattern (Prelude.Maybe TxOutputPattern)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.hasAddress' @:: Lens' TxPattern AddressPattern@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'hasAddress' @:: Lens' TxPattern (Prelude.Maybe AddressPattern)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.movesAsset' @:: Lens' TxPattern AssetPattern@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'movesAsset' @:: Lens' TxPattern (Prelude.Maybe AssetPattern)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.mintsAsset' @:: Lens' TxPattern AssetPattern@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.maybe'mintsAsset' @:: Lens' TxPattern (Prelude.Maybe AssetPattern)@ -} data TxPattern = TxPattern'_constructor {_TxPattern'consumes :: !(Prelude.Maybe TxOutputPattern), _TxPattern'produces :: !(Prelude.Maybe TxOutputPattern), _TxPattern'hasAddress :: !(Prelude.Maybe AddressPattern), _TxPattern'movesAsset :: !(Prelude.Maybe AssetPattern), _TxPattern'mintsAsset :: !(Prelude.Maybe AssetPattern), _TxPattern'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show TxPattern where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField TxPattern "consumes" TxOutputPattern where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxPattern'consumes (\ x__ y__ -> x__ {_TxPattern'consumes = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxPattern "maybe'consumes" (Prelude.Maybe TxOutputPattern) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxPattern'consumes (\ x__ y__ -> x__ {_TxPattern'consumes = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxPattern "produces" TxOutputPattern where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxPattern'produces (\ x__ y__ -> x__ {_TxPattern'produces = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxPattern "maybe'produces" (Prelude.Maybe TxOutputPattern) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxPattern'produces (\ x__ y__ -> x__ {_TxPattern'produces = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxPattern "hasAddress" AddressPattern where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxPattern'hasAddress (\ x__ y__ -> x__ {_TxPattern'hasAddress = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxPattern "maybe'hasAddress" (Prelude.Maybe AddressPattern) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxPattern'hasAddress (\ x__ y__ -> x__ {_TxPattern'hasAddress = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxPattern "movesAsset" AssetPattern where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxPattern'movesAsset (\ x__ y__ -> x__ {_TxPattern'movesAsset = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxPattern "maybe'movesAsset" (Prelude.Maybe AssetPattern) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxPattern'movesAsset (\ x__ y__ -> x__ {_TxPattern'movesAsset = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxPattern "mintsAsset" AssetPattern where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxPattern'mintsAsset (\ x__ y__ -> x__ {_TxPattern'mintsAsset = y__})) (Data.ProtoLens.maybeLens Data.ProtoLens.defMessage) instance Data.ProtoLens.Field.HasField TxPattern "maybe'mintsAsset" (Prelude.Maybe AssetPattern) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxPattern'mintsAsset (\ x__ y__ -> x__ {_TxPattern'mintsAsset = y__})) Prelude.id instance Data.ProtoLens.Message TxPattern where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.TxPattern" packedMessageDescriptor _ = "\n\ \\tTxPattern\DC2D\n\ \\bconsumes\CAN\SOH \SOH(\v2(.utxorpc.v1alpha.cardano.TxOutputPatternR\bconsumes\DC2D\n\ \\bproduces\CAN\STX \SOH(\v2(.utxorpc.v1alpha.cardano.TxOutputPatternR\bproduces\DC2H\n\ \\vhas_address\CAN\ETX \SOH(\v2'.utxorpc.v1alpha.cardano.AddressPatternR\n\ \hasAddress\DC2F\n\ \\vmoves_asset\CAN\EOT \SOH(\v2%.utxorpc.v1alpha.cardano.AssetPatternR\n\ \movesAsset\DC2F\n\ \\vmints_asset\CAN\ENQ \SOH(\v2%.utxorpc.v1alpha.cardano.AssetPatternR\n\ \mintsAsset" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let consumes__field_descriptor = Data.ProtoLens.FieldDescriptor "consumes" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor TxOutputPattern) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'consumes")) :: Data.ProtoLens.FieldDescriptor TxPattern produces__field_descriptor = Data.ProtoLens.FieldDescriptor "produces" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor TxOutputPattern) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'produces")) :: Data.ProtoLens.FieldDescriptor TxPattern hasAddress__field_descriptor = Data.ProtoLens.FieldDescriptor "has_address" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor AddressPattern) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'hasAddress")) :: Data.ProtoLens.FieldDescriptor TxPattern movesAsset__field_descriptor = Data.ProtoLens.FieldDescriptor "moves_asset" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor AssetPattern) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'movesAsset")) :: Data.ProtoLens.FieldDescriptor TxPattern mintsAsset__field_descriptor = Data.ProtoLens.FieldDescriptor "mints_asset" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor AssetPattern) (Data.ProtoLens.OptionalField (Data.ProtoLens.Field.field @"maybe'mintsAsset")) :: Data.ProtoLens.FieldDescriptor TxPattern in Data.Map.fromList [(Data.ProtoLens.Tag 1, consumes__field_descriptor), (Data.ProtoLens.Tag 2, produces__field_descriptor), (Data.ProtoLens.Tag 3, hasAddress__field_descriptor), (Data.ProtoLens.Tag 4, movesAsset__field_descriptor), (Data.ProtoLens.Tag 5, mintsAsset__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _TxPattern'_unknownFields (\ x__ y__ -> x__ {_TxPattern'_unknownFields = y__}) defMessage = TxPattern'_constructor {_TxPattern'consumes = Prelude.Nothing, _TxPattern'produces = Prelude.Nothing, _TxPattern'hasAddress = Prelude.Nothing, _TxPattern'movesAsset = Prelude.Nothing, _TxPattern'mintsAsset = Prelude.Nothing, _TxPattern'_unknownFields = []} parseMessage = let loop :: TxPattern -> Data.ProtoLens.Encoding.Bytes.Parser TxPattern 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "consumes" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"consumes") 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) "produces" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"produces") y x) 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) "has_address" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"hasAddress") y x) 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) "moves_asset" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"movesAsset") y x) 42 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.isolate (Prelude.fromIntegral len) Data.ProtoLens.parseMessage) "mints_asset" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"mintsAsset") 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) "TxPattern" buildMessage = \ _x -> (Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'consumes") _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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'produces") _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.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'hasAddress") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _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)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'movesAsset") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _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)) ((Data.Monoid.<>) (case Lens.Family2.view (Data.ProtoLens.Field.field @"maybe'mintsAsset") _x of Prelude.Nothing -> Data.Monoid.mempty (Prelude.Just _v) -> (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.ProtoLens.encodeMessage _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))))) instance Control.DeepSeq.NFData TxPattern where rnf = \ x__ -> Control.DeepSeq.deepseq (_TxPattern'_unknownFields x__) (Control.DeepSeq.deepseq (_TxPattern'consumes x__) (Control.DeepSeq.deepseq (_TxPattern'produces x__) (Control.DeepSeq.deepseq (_TxPattern'hasAddress x__) (Control.DeepSeq.deepseq (_TxPattern'movesAsset x__) (Control.DeepSeq.deepseq (_TxPattern'mintsAsset x__) ()))))) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.start' @:: Lens' TxValidity Data.Word.Word64@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.ttl' @:: Lens' TxValidity Data.Word.Word64@ -} data TxValidity = TxValidity'_constructor {_TxValidity'start :: !Data.Word.Word64, _TxValidity'ttl :: !Data.Word.Word64, _TxValidity'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show TxValidity where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField TxValidity "start" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxValidity'start (\ x__ y__ -> x__ {_TxValidity'start = y__})) Prelude.id instance Data.ProtoLens.Field.HasField TxValidity "ttl" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _TxValidity'ttl (\ x__ y__ -> x__ {_TxValidity'ttl = y__})) Prelude.id instance Data.ProtoLens.Message TxValidity where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.TxValidity" packedMessageDescriptor _ = "\n\ \\n\ \TxValidity\DC2\DC4\n\ \\ENQstart\CAN\SOH \SOH(\EOTR\ENQstart\DC2\DLE\n\ \\ETXttl\CAN\STX \SOH(\EOTR\ETXttl" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let start__field_descriptor = Data.ProtoLens.FieldDescriptor "start" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"start")) :: Data.ProtoLens.FieldDescriptor TxValidity ttl__field_descriptor = Data.ProtoLens.FieldDescriptor "ttl" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"ttl")) :: Data.ProtoLens.FieldDescriptor TxValidity in Data.Map.fromList [(Data.ProtoLens.Tag 1, start__field_descriptor), (Data.ProtoLens.Tag 2, ttl__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _TxValidity'_unknownFields (\ x__ y__ -> x__ {_TxValidity'_unknownFields = y__}) defMessage = TxValidity'_constructor {_TxValidity'start = Data.ProtoLens.fieldDefault, _TxValidity'ttl = Data.ProtoLens.fieldDefault, _TxValidity'_unknownFields = []} parseMessage = let loop :: TxValidity -> Data.ProtoLens.Encoding.Bytes.Parser TxValidity 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.) Data.ProtoLens.Encoding.Bytes.getVarInt "start" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"start") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "ttl" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"ttl") 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) "TxValidity" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"start") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 8) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"ttl") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData TxValidity where rnf = \ x__ -> Control.DeepSeq.deepseq (_TxValidity'_unknownFields x__) (Control.DeepSeq.deepseq (_TxValidity'start x__) (Control.DeepSeq.deepseq (_TxValidity'ttl x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vkey' @:: Lens' VKeyWitness Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.signature' @:: Lens' VKeyWitness Data.ByteString.ByteString@ -} data VKeyWitness = VKeyWitness'_constructor {_VKeyWitness'vkey :: !Data.ByteString.ByteString, _VKeyWitness'signature :: !Data.ByteString.ByteString, _VKeyWitness'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show VKeyWitness where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField VKeyWitness "vkey" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _VKeyWitness'vkey (\ x__ y__ -> x__ {_VKeyWitness'vkey = y__})) Prelude.id instance Data.ProtoLens.Field.HasField VKeyWitness "signature" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _VKeyWitness'signature (\ x__ y__ -> x__ {_VKeyWitness'signature = y__})) Prelude.id instance Data.ProtoLens.Message VKeyWitness where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.VKeyWitness" packedMessageDescriptor _ = "\n\ \\vVKeyWitness\DC2\DC2\n\ \\EOTvkey\CAN\SOH \SOH(\fR\EOTvkey\DC2\FS\n\ \\tsignature\CAN\STX \SOH(\fR\tsignature" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let vkey__field_descriptor = Data.ProtoLens.FieldDescriptor "vkey" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"vkey")) :: Data.ProtoLens.FieldDescriptor VKeyWitness signature__field_descriptor = Data.ProtoLens.FieldDescriptor "signature" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"signature")) :: Data.ProtoLens.FieldDescriptor VKeyWitness in Data.Map.fromList [(Data.ProtoLens.Tag 1, vkey__field_descriptor), (Data.ProtoLens.Tag 2, signature__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _VKeyWitness'_unknownFields (\ x__ y__ -> x__ {_VKeyWitness'_unknownFields = y__}) defMessage = VKeyWitness'_constructor {_VKeyWitness'vkey = Data.ProtoLens.fieldDefault, _VKeyWitness'signature = Data.ProtoLens.fieldDefault, _VKeyWitness'_unknownFields = []} parseMessage = let loop :: VKeyWitness -> Data.ProtoLens.Encoding.Bytes.Parser VKeyWitness 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "vkey" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"vkey") y x) 18 -> do y <- (Data.ProtoLens.Encoding.Bytes.) (do len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "signature" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"signature") 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) "VKeyWitness" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"vkey") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"signature") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 18) ((\ bs -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt (Prelude.fromIntegral (Data.ByteString.length bs))) (Data.ProtoLens.Encoding.Bytes.putBytes bs)) _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData VKeyWitness where rnf = \ x__ -> Control.DeepSeq.deepseq (_VKeyWitness'_unknownFields x__) (Control.DeepSeq.deepseq (_VKeyWitness'vkey x__) (Control.DeepSeq.deepseq (_VKeyWitness'signature x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.rewardAccount' @:: Lens' Withdrawal Data.ByteString.ByteString@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.coin' @:: Lens' Withdrawal Data.Word.Word64@ -} data Withdrawal = Withdrawal'_constructor {_Withdrawal'rewardAccount :: !Data.ByteString.ByteString, _Withdrawal'coin :: !Data.Word.Word64, _Withdrawal'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show Withdrawal where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField Withdrawal "rewardAccount" Data.ByteString.ByteString where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Withdrawal'rewardAccount (\ x__ y__ -> x__ {_Withdrawal'rewardAccount = y__})) Prelude.id instance Data.ProtoLens.Field.HasField Withdrawal "coin" Data.Word.Word64 where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _Withdrawal'coin (\ x__ y__ -> x__ {_Withdrawal'coin = y__})) Prelude.id instance Data.ProtoLens.Message Withdrawal where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.Withdrawal" packedMessageDescriptor _ = "\n\ \\n\ \Withdrawal\DC2%\n\ \\SOreward_account\CAN\SOH \SOH(\fR\rrewardAccount\DC2\DC2\n\ \\EOTcoin\CAN\STX \SOH(\EOTR\EOTcoin" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let rewardAccount__field_descriptor = Data.ProtoLens.FieldDescriptor "reward_account" (Data.ProtoLens.ScalarField Data.ProtoLens.BytesField :: Data.ProtoLens.FieldTypeDescriptor Data.ByteString.ByteString) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"rewardAccount")) :: Data.ProtoLens.FieldDescriptor Withdrawal coin__field_descriptor = Data.ProtoLens.FieldDescriptor "coin" (Data.ProtoLens.ScalarField Data.ProtoLens.UInt64Field :: Data.ProtoLens.FieldTypeDescriptor Data.Word.Word64) (Data.ProtoLens.PlainField Data.ProtoLens.Optional (Data.ProtoLens.Field.field @"coin")) :: Data.ProtoLens.FieldDescriptor Withdrawal in Data.Map.fromList [(Data.ProtoLens.Tag 1, rewardAccount__field_descriptor), (Data.ProtoLens.Tag 2, coin__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _Withdrawal'_unknownFields (\ x__ y__ -> x__ {_Withdrawal'_unknownFields = y__}) defMessage = Withdrawal'_constructor {_Withdrawal'rewardAccount = Data.ProtoLens.fieldDefault, _Withdrawal'coin = Data.ProtoLens.fieldDefault, _Withdrawal'_unknownFields = []} parseMessage = let loop :: Withdrawal -> Data.ProtoLens.Encoding.Bytes.Parser Withdrawal 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 len <- Data.ProtoLens.Encoding.Bytes.getVarInt Data.ProtoLens.Encoding.Bytes.getBytes (Prelude.fromIntegral len)) "reward_account" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"rewardAccount") y x) 16 -> do y <- (Data.ProtoLens.Encoding.Bytes.) Data.ProtoLens.Encoding.Bytes.getVarInt "coin" loop (Lens.Family2.set (Data.ProtoLens.Field.field @"coin") 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) "Withdrawal" buildMessage = \ _x -> (Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"rewardAccount") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault 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)) _v)) ((Data.Monoid.<>) (let _v = Lens.Family2.view (Data.ProtoLens.Field.field @"coin") _x in if (Prelude.==) _v Data.ProtoLens.fieldDefault then Data.Monoid.mempty else (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.putVarInt 16) (Data.ProtoLens.Encoding.Bytes.putVarInt _v)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x))) instance Control.DeepSeq.NFData Withdrawal where rnf = \ x__ -> Control.DeepSeq.deepseq (_Withdrawal'_unknownFields x__) (Control.DeepSeq.deepseq (_Withdrawal'rewardAccount x__) (Control.DeepSeq.deepseq (_Withdrawal'coin x__) ())) {- | Fields : * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vkeywitness' @:: Lens' WitnessSet [VKeyWitness]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'vkeywitness' @:: Lens' WitnessSet (Data.Vector.Vector VKeyWitness)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.script' @:: Lens' WitnessSet [Script]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'script' @:: Lens' WitnessSet (Data.Vector.Vector Script)@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.plutusDatums' @:: Lens' WitnessSet [PlutusData]@ * 'Proto.Utxorpc.V1alpha.Cardano.Cardano_Fields.vec'plutusDatums' @:: Lens' WitnessSet (Data.Vector.Vector PlutusData)@ -} data WitnessSet = WitnessSet'_constructor {_WitnessSet'vkeywitness :: !(Data.Vector.Vector VKeyWitness), _WitnessSet'script :: !(Data.Vector.Vector Script), _WitnessSet'plutusDatums :: !(Data.Vector.Vector PlutusData), _WitnessSet'_unknownFields :: !Data.ProtoLens.FieldSet} deriving stock (Prelude.Eq, Prelude.Ord) instance Prelude.Show WitnessSet where showsPrec _ __x __s = Prelude.showChar '{' (Prelude.showString (Data.ProtoLens.showMessageShort __x) (Prelude.showChar '}' __s)) instance Data.ProtoLens.Field.HasField WitnessSet "vkeywitness" [VKeyWitness] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WitnessSet'vkeywitness (\ x__ y__ -> x__ {_WitnessSet'vkeywitness = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField WitnessSet "vec'vkeywitness" (Data.Vector.Vector VKeyWitness) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WitnessSet'vkeywitness (\ x__ y__ -> x__ {_WitnessSet'vkeywitness = y__})) Prelude.id instance Data.ProtoLens.Field.HasField WitnessSet "script" [Script] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WitnessSet'script (\ x__ y__ -> x__ {_WitnessSet'script = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField WitnessSet "vec'script" (Data.Vector.Vector Script) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WitnessSet'script (\ x__ y__ -> x__ {_WitnessSet'script = y__})) Prelude.id instance Data.ProtoLens.Field.HasField WitnessSet "plutusDatums" [PlutusData] where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WitnessSet'plutusDatums (\ x__ y__ -> x__ {_WitnessSet'plutusDatums = y__})) (Lens.Family2.Unchecked.lens Data.Vector.Generic.toList (\ _ y__ -> Data.Vector.Generic.fromList y__)) instance Data.ProtoLens.Field.HasField WitnessSet "vec'plutusDatums" (Data.Vector.Vector PlutusData) where fieldOf _ = (Prelude..) (Lens.Family2.Unchecked.lens _WitnessSet'plutusDatums (\ x__ y__ -> x__ {_WitnessSet'plutusDatums = y__})) Prelude.id instance Data.ProtoLens.Message WitnessSet where messageName _ = Data.Text.pack "utxorpc.v1alpha.cardano.WitnessSet" packedMessageDescriptor _ = "\n\ \\n\ \WitnessSet\DC2F\n\ \\vvkeywitness\CAN\SOH \ETX(\v2$.utxorpc.v1alpha.cardano.VKeyWitnessR\vvkeywitness\DC27\n\ \\ACKscript\CAN\STX \ETX(\v2\US.utxorpc.v1alpha.cardano.ScriptR\ACKscript\DC2H\n\ \\rplutus_datums\CAN\ETX \ETX(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\fplutusDatums" packedFileDescriptor _ = packedFileDescriptor fieldsByTag = let vkeywitness__field_descriptor = Data.ProtoLens.FieldDescriptor "vkeywitness" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor VKeyWitness) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"vkeywitness")) :: Data.ProtoLens.FieldDescriptor WitnessSet script__field_descriptor = Data.ProtoLens.FieldDescriptor "script" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor Script) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"script")) :: Data.ProtoLens.FieldDescriptor WitnessSet plutusDatums__field_descriptor = Data.ProtoLens.FieldDescriptor "plutus_datums" (Data.ProtoLens.MessageField Data.ProtoLens.MessageType :: Data.ProtoLens.FieldTypeDescriptor PlutusData) (Data.ProtoLens.RepeatedField Data.ProtoLens.Unpacked (Data.ProtoLens.Field.field @"plutusDatums")) :: Data.ProtoLens.FieldDescriptor WitnessSet in Data.Map.fromList [(Data.ProtoLens.Tag 1, vkeywitness__field_descriptor), (Data.ProtoLens.Tag 2, script__field_descriptor), (Data.ProtoLens.Tag 3, plutusDatums__field_descriptor)] unknownFields = Lens.Family2.Unchecked.lens _WitnessSet'_unknownFields (\ x__ y__ -> x__ {_WitnessSet'_unknownFields = y__}) defMessage = WitnessSet'_constructor {_WitnessSet'vkeywitness = Data.Vector.Generic.empty, _WitnessSet'script = Data.Vector.Generic.empty, _WitnessSet'plutusDatums = Data.Vector.Generic.empty, _WitnessSet'_unknownFields = []} parseMessage = let loop :: WitnessSet -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld PlutusData -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld Script -> Data.ProtoLens.Encoding.Growing.Growing Data.Vector.Vector Data.ProtoLens.Encoding.Growing.RealWorld VKeyWitness -> Data.ProtoLens.Encoding.Bytes.Parser WitnessSet loop x mutable'plutusDatums mutable'script mutable'vkeywitness = do end <- Data.ProtoLens.Encoding.Bytes.atEnd if end then do frozen'plutusDatums <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'plutusDatums) frozen'script <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'script) frozen'vkeywitness <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.unsafeFreeze mutable'vkeywitness) (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'plutusDatums") frozen'plutusDatums (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'script") frozen'script (Lens.Family2.set (Data.ProtoLens.Field.field @"vec'vkeywitness") frozen'vkeywitness 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) "vkeywitness" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'vkeywitness y) loop x mutable'plutusDatums mutable'script v 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) "script" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'script y) loop x mutable'plutusDatums v mutable'vkeywitness 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) "plutus_datums" v <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO (Data.ProtoLens.Encoding.Growing.append mutable'plutusDatums y) loop x v mutable'script mutable'vkeywitness wire -> do !y <- Data.ProtoLens.Encoding.Wire.parseTaggedValueFromWire wire loop (Lens.Family2.over Data.ProtoLens.unknownFields (\ !t -> (:) y t) x) mutable'plutusDatums mutable'script mutable'vkeywitness in (Data.ProtoLens.Encoding.Bytes.) (do mutable'plutusDatums <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'script <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new mutable'vkeywitness <- Data.ProtoLens.Encoding.Parser.Unsafe.unsafeLiftIO Data.ProtoLens.Encoding.Growing.new loop Data.ProtoLens.defMessage mutable'plutusDatums mutable'script mutable'vkeywitness) "WitnessSet" buildMessage = \ _x -> (Data.Monoid.<>) (Data.ProtoLens.Encoding.Bytes.foldMapBuilder (\ _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)) (Lens.Family2.view (Data.ProtoLens.Field.field @"vec'vkeywitness") _x)) ((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'script") _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'plutusDatums") _x)) (Data.ProtoLens.Encoding.Wire.buildFieldSet (Lens.Family2.view Data.ProtoLens.unknownFields _x)))) instance Control.DeepSeq.NFData WitnessSet where rnf = \ x__ -> Control.DeepSeq.deepseq (_WitnessSet'_unknownFields x__) (Control.DeepSeq.deepseq (_WitnessSet'vkeywitness x__) (Control.DeepSeq.deepseq (_WitnessSet'script x__) (Control.DeepSeq.deepseq (_WitnessSet'plutusDatums x__) ()))) packedFileDescriptor :: Data.ByteString.ByteString packedFileDescriptor = "\n\ \%utxorpc/v1alpha/cardano/cardano.proto\DC2\ETButxorpc.v1alpha.cardano\"\137\SOH\n\ \\bRedeemer\DC2B\n\ \\apurpose\CAN\SOH \SOH(\SO2(.utxorpc.v1alpha.cardano.RedeemerPurposeR\apurpose\DC29\n\ \\ENQdatum\CAN\STX \SOH(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ENQdatum\"\196\SOH\n\ \\aTxInput\DC2\ETB\n\ \\atx_hash\CAN\SOH \SOH(\fR\ACKtxHash\DC2!\n\ \\foutput_index\CAN\STX \SOH(\rR\voutputIndex\DC2>\n\ \\tas_output\CAN\ETX \SOH(\v2!.utxorpc.v1alpha.cardano.TxOutputR\basOutput\DC2=\n\ \\bredeemer\CAN\EOT \SOH(\v2!.utxorpc.v1alpha.cardano.RedeemerR\bredeemer\"\136\STX\n\ \\bTxOutput\DC2\CAN\n\ \\aaddress\CAN\SOH \SOH(\fR\aaddress\DC2\DC2\n\ \\EOTcoin\CAN\STX \SOH(\EOTR\EOTcoin\DC2;\n\ \\ACKassets\CAN\ETX \ETX(\v2#.utxorpc.v1alpha.cardano.MultiassetR\ACKassets\DC29\n\ \\ENQdatum\CAN\EOT \SOH(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ENQdatum\DC2\GS\n\ \\n\ \datum_hash\CAN\ENQ \SOH(\fR\tdatumHash\DC27\n\ \\ACKscript\CAN\ACK \SOH(\v2\US.utxorpc.v1alpha.cardano.ScriptR\ACKscript\"Y\n\ \\ENQAsset\DC2\DC2\n\ \\EOTname\CAN\SOH \SOH(\fR\EOTname\DC2\US\n\ \\voutput_coin\CAN\STX \SOH(\EOTR\n\ \outputCoin\DC2\ESC\n\ \\tmint_coin\CAN\ETX \SOH(\ETXR\bmintCoin\"a\n\ \\n\ \Multiasset\DC2\ESC\n\ \\tpolicy_id\CAN\SOH \SOH(\fR\bpolicyId\DC26\n\ \\ACKassets\CAN\STX \ETX(\v2\RS.utxorpc.v1alpha.cardano.AssetR\ACKassets\"4\n\ \\n\ \TxValidity\DC2\DC4\n\ \\ENQstart\CAN\SOH \SOH(\EOTR\ENQstart\DC2\DLE\n\ \\ETXttl\CAN\STX \SOH(\EOTR\ETXttl\"\201\SOH\n\ \\n\ \Collateral\DC2@\n\ \\n\ \collateral\CAN\SOH \ETX(\v2 .utxorpc.v1alpha.cardano.TxInputR\n\ \collateral\DC2N\n\ \\DC1collateral_return\CAN\STX \SOH(\v2!.utxorpc.v1alpha.cardano.TxOutputR\DLEcollateralReturn\DC2)\n\ \\DLEtotal_collateral\CAN\ETX \SOH(\EOTR\SItotalCollateral\"G\n\ \\n\ \Withdrawal\DC2%\n\ \\SOreward_account\CAN\SOH \SOH(\fR\rrewardAccount\DC2\DC2\n\ \\EOTcoin\CAN\STX \SOH(\EOTR\EOTcoin\"\215\SOH\n\ \\n\ \WitnessSet\DC2F\n\ \\vvkeywitness\CAN\SOH \ETX(\v2$.utxorpc.v1alpha.cardano.VKeyWitnessR\vvkeywitness\DC27\n\ \\ACKscript\CAN\STX \ETX(\v2\US.utxorpc.v1alpha.cardano.ScriptR\ACKscript\DC2H\n\ \\rplutus_datums\CAN\ETX \ETX(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\fplutusDatums\"\131\SOH\n\ \\aAuxData\DC2=\n\ \\bmetadata\CAN\SOH \ETX(\v2!.utxorpc.v1alpha.cardano.MetadataR\bmetadata\DC29\n\ \\ascripts\CAN\STX \ETX(\v2\US.utxorpc.v1alpha.cardano.ScriptR\ascripts\"\225\ENQ\n\ \\STXTx\DC28\n\ \\ACKinputs\CAN\SOH \ETX(\v2 .utxorpc.v1alpha.cardano.TxInputR\ACKinputs\DC2;\n\ \\aoutputs\CAN\STX \ETX(\v2!.utxorpc.v1alpha.cardano.TxOutputR\aoutputs\DC2H\n\ \\fcertificates\CAN\ETX \ETX(\v2$.utxorpc.v1alpha.cardano.CertificateR\fcertificates\DC2E\n\ \\vwithdrawals\CAN\EOT \ETX(\v2#.utxorpc.v1alpha.cardano.WithdrawalR\vwithdrawals\DC27\n\ \\EOTmint\CAN\ENQ \ETX(\v2#.utxorpc.v1alpha.cardano.MultiassetR\EOTmint\DC2K\n\ \\DLEreference_inputs\CAN\ACK \ETX(\v2 .utxorpc.v1alpha.cardano.TxInputR\SIreferenceInputs\DC2A\n\ \\twitnesses\CAN\a \SOH(\v2#.utxorpc.v1alpha.cardano.WitnessSetR\twitnesses\DC2C\n\ \\n\ \collateral\CAN\b \SOH(\v2#.utxorpc.v1alpha.cardano.CollateralR\n\ \collateral\DC2\DLE\n\ \\ETXfee\CAN\t \SOH(\EOTR\ETXfee\DC2?\n\ \\bvalidity\CAN\n\ \ \SOH(\v2#.utxorpc.v1alpha.cardano.TxValidityR\bvalidity\DC2\RS\n\ \\n\ \successful\CAN\v \SOH(\bR\n\ \successful\DC2>\n\ \\tauxiliary\CAN\f \SOH(\v2 .utxorpc.v1alpha.cardano.AuxDataR\tauxiliary\DC2\DC2\n\ \\EOThash\CAN\r \SOH(\fR\EOThash\"M\n\ \\vBlockHeader\DC2\DC2\n\ \\EOTslot\CAN\SOH \SOH(\EOTR\EOTslot\DC2\DC2\n\ \\EOThash\CAN\STX \SOH(\fR\EOThash\DC2\SYN\n\ \\ACKheight\CAN\ETX \SOH(\EOTR\ACKheight\"8\n\ \\tBlockBody\DC2+\n\ \\STXtx\CAN\SOH \ETX(\v2\ESC.utxorpc.v1alpha.cardano.TxR\STXtx\"}\n\ \\ENQBlock\DC2<\n\ \\ACKheader\CAN\SOH \SOH(\v2$.utxorpc.v1alpha.cardano.BlockHeaderR\ACKheader\DC26\n\ \\EOTbody\CAN\STX \SOH(\v2\".utxorpc.v1alpha.cardano.BlockBodyR\EOTbody\"?\n\ \\vVKeyWitness\DC2\DC2\n\ \\EOTvkey\CAN\SOH \SOH(\fR\EOTvkey\DC2\FS\n\ \\tsignature\CAN\STX \SOH(\fR\tsignature\"\128\ETX\n\ \\fNativeScript\DC2%\n\ \\rscript_pubkey\CAN\SOH \SOH(\fH\NULR\fscriptPubkey\DC2J\n\ \\n\ \script_all\CAN\STX \SOH(\v2).utxorpc.v1alpha.cardano.NativeScriptListH\NULR\tscriptAll\DC2J\n\ \\n\ \script_any\CAN\ETX \SOH(\v2).utxorpc.v1alpha.cardano.NativeScriptListH\NULR\tscriptAny\DC2H\n\ \\rscript_n_of_k\CAN\EOT \SOH(\v2#.utxorpc.v1alpha.cardano.ScriptNOfKH\NULR\n\ \scriptNOfK\DC2'\n\ \\SOinvalid_before\CAN\ENQ \SOH(\EOTH\NULR\rinvalidBefore\DC2-\n\ \\DC1invalid_hereafter\CAN\ACK \SOH(\EOTH\NULR\DLEinvalidHereafterB\SI\n\ \\rnative_script\"O\n\ \\DLENativeScriptList\DC2;\n\ \\ENQitems\CAN\SOH \ETX(\v2%.utxorpc.v1alpha.cardano.NativeScriptR\ENQitems\"[\n\ \\n\ \ScriptNOfK\DC2\f\n\ \\SOHk\CAN\SOH \SOH(\rR\SOHk\DC2?\n\ \\ascripts\CAN\STX \ETX(\v2%.utxorpc.v1alpha.cardano.NativeScriptR\ascripts\"\128\SOH\n\ \\ACKConstr\DC2\DLE\n\ \\ETXtag\CAN\SOH \SOH(\rR\ETXtag\DC2'\n\ \\SIany_constructor\CAN\STX \SOH(\EOTR\SOanyConstructor\DC2;\n\ \\ACKfields\CAN\ETX \ETX(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ACKfields\"c\n\ \\ACKBigInt\DC2\DC2\n\ \\ETXint\CAN\SOH \SOH(\ETXH\NULR\ETXint\DC2\FS\n\ \\tbig_u_int\CAN\STX \SOH(\fH\NULR\abigUInt\DC2\FS\n\ \\tbig_n_int\CAN\ETX \SOH(\fH\NULR\abigNIntB\t\n\ \\abig_int\"\130\SOH\n\ \\SOPlutusDataPair\DC25\n\ \\ETXkey\CAN\SOH \SOH(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ETXkey\DC29\n\ \\ENQvalue\CAN\STX \SOH(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ENQvalue\"\183\STX\n\ \\n\ \PlutusData\DC29\n\ \\ACKconstr\CAN\SOH \SOH(\v2\US.utxorpc.v1alpha.cardano.ConstrH\NULR\ACKconstr\DC2:\n\ \\ETXmap\CAN\STX \SOH(\v2&.utxorpc.v1alpha.cardano.PlutusDataMapH\NULR\ETXmap\DC2:\n\ \\abig_int\CAN\ETX \SOH(\v2\US.utxorpc.v1alpha.cardano.BigIntH\NULR\ACKbigInt\DC2%\n\ \\rbounded_bytes\CAN\EOT \SOH(\fH\NULR\fboundedBytes\DC2@\n\ \\ENQarray\CAN\ENQ \SOH(\v2(.utxorpc.v1alpha.cardano.PlutusDataArrayH\NULR\ENQarrayB\r\n\ \\vplutus_data\"N\n\ \\rPlutusDataMap\DC2=\n\ \\ENQpairs\CAN\SOH \ETX(\v2'.utxorpc.v1alpha.cardano.PlutusDataPairR\ENQpairs\"L\n\ \\SIPlutusDataArray\DC29\n\ \\ENQitems\CAN\SOH \ETX(\v2#.utxorpc.v1alpha.cardano.PlutusDataR\ENQitems\"\145\SOH\n\ \\ACKScript\DC2?\n\ \\ACKnative\CAN\SOH \SOH(\v2%.utxorpc.v1alpha.cardano.NativeScriptH\NULR\ACKnative\DC2\GS\n\ \\tplutus_v1\CAN\STX \SOH(\fH\NULR\bplutusV1\DC2\GS\n\ \\tplutus_v2\CAN\ETX \SOH(\fH\NULR\bplutusV2B\b\n\ \\ACKscript\"\214\SOH\n\ \\tMetadatum\DC2\DC2\n\ \\ETXint\CAN\SOH \SOH(\ETXH\NULR\ETXint\DC2\SYN\n\ \\ENQbytes\CAN\STX \SOH(\fH\NULR\ENQbytes\DC2\DC4\n\ \\EOTtext\CAN\ETX \SOH(\tH\NULR\EOTtext\DC2?\n\ \\ENQarray\CAN\EOT \SOH(\v2'.utxorpc.v1alpha.cardano.MetadatumArrayH\NULR\ENQarray\DC29\n\ \\ETXmap\CAN\ENQ \SOH(\v2%.utxorpc.v1alpha.cardano.MetadatumMapH\NULR\ETXmapB\v\n\ \\tmetadatum\"J\n\ \\SOMetadatumArray\DC28\n\ \\ENQitems\CAN\SOH \ETX(\v2\".utxorpc.v1alpha.cardano.MetadatumR\ENQitems\"L\n\ \\fMetadatumMap\DC2<\n\ \\ENQpairs\CAN\SOH \ETX(\v2&.utxorpc.v1alpha.cardano.MetadatumPairR\ENQpairs\"\DEL\n\ \\rMetadatumPair\DC24\n\ \\ETXkey\CAN\SOH \SOH(\v2\".utxorpc.v1alpha.cardano.MetadatumR\ETXkey\DC28\n\ \\ENQvalue\CAN\STX \SOH(\v2\".utxorpc.v1alpha.cardano.MetadatumR\ENQvalue\"Z\n\ \\bMetadata\DC2\DC4\n\ \\ENQlabel\CAN\SOH \SOH(\EOTR\ENQlabel\DC28\n\ \\ENQvalue\CAN\STX \SOH(\v2\".utxorpc.v1alpha.cardano.MetadatumR\ENQvalue\"n\n\ \\SIStakeCredential\DC2$\n\ \\raddr_key_hash\CAN\SOH \SOH(\fH\NULR\vaddrKeyHash\DC2!\n\ \\vscript_hash\CAN\STX \SOH(\fH\NULR\n\ \scriptHashB\DC2\n\ \\DLEstake_credential\"P\n\ \\SORationalNumber\DC2\FS\n\ \\tnumerator\CAN\SOH \SOH(\ENQR\tnumerator\DC2 \n\ \\vdenominator\CAN\STX \SOH(\rR\vdenominator\"`\n\ \\ENQRelay\DC2\DC3\n\ \\ENQip_v4\CAN\SOH \SOH(\fR\EOTipV4\DC2\DC3\n\ \\ENQip_v6\CAN\STX \SOH(\fR\EOTipV6\DC2\EM\n\ \\bdns_name\CAN\ETX \SOH(\tR\adnsName\DC2\DC2\n\ \\EOTport\CAN\EOT \SOH(\rR\EOTport\"4\n\ \\fPoolMetadata\DC2\DLE\n\ \\ETXurl\CAN\SOH \SOH(\tR\ETXurl\DC2\DC2\n\ \\EOThash\CAN\STX \SOH(\fR\EOThash\"\145\ENQ\n\ \\vCertificate\DC2Y\n\ \\DC2stake_registration\CAN\SOH \SOH(\v2(.utxorpc.v1alpha.cardano.StakeCredentialH\NULR\DC1stakeRegistration\DC2]\n\ \\DC4stake_deregistration\CAN\STX \SOH(\v2(.utxorpc.v1alpha.cardano.StakeCredentialH\NULR\DC3stakeDeregistration\DC2Y\n\ \\DLEstake_delegation\CAN\ETX \SOH(\v2,.utxorpc.v1alpha.cardano.StakeDelegationCertH\NULR\SIstakeDelegation\DC2\\\n\ \\DC1pool_registration\CAN\EOT \SOH(\v2-.utxorpc.v1alpha.cardano.PoolRegistrationCertH\NULR\DLEpoolRegistration\DC2V\n\ \\SIpool_retirement\CAN\ENQ \SOH(\v2+.utxorpc.v1alpha.cardano.PoolRetirementCertH\NULR\SOpoolRetirement\DC2i\n\ \\SYNgenesis_key_delegation\CAN\ACK \SOH(\v21.utxorpc.v1alpha.cardano.GenesisKeyDelegationCertH\NULR\DC4genesisKeyDelegation\DC2=\n\ \\bmir_cert\CAN\a \SOH(\v2 .utxorpc.v1alpha.cardano.MirCertH\NULR\amirCertB\r\n\ \\vcertificate\"\141\SOH\n\ \\DC3StakeDelegationCert\DC2S\n\ \\DLEstake_credential\CAN\SOH \SOH(\v2(.utxorpc.v1alpha.cardano.StakeCredentialR\SIstakeCredential\DC2!\n\ \\fpool_keyhash\CAN\STX \SOH(\fR\vpoolKeyhash\"\140\ETX\n\ \\DC4PoolRegistrationCert\DC2\SUB\n\ \\boperator\CAN\SOH \SOH(\fR\boperator\DC2\US\n\ \\vvrf_keyhash\CAN\STX \SOH(\fR\n\ \vrfKeyhash\DC2\SYN\n\ \\ACKpledge\CAN\ETX \SOH(\EOTR\ACKpledge\DC2\DC2\n\ \\EOTcost\CAN\EOT \SOH(\EOTR\EOTcost\DC2?\n\ \\ACKmargin\CAN\ENQ \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\ACKmargin\DC2%\n\ \\SOreward_account\CAN\ACK \SOH(\fR\rrewardAccount\DC2\US\n\ \\vpool_owners\CAN\a \ETX(\fR\n\ \poolOwners\DC26\n\ \\ACKrelays\CAN\b \ETX(\v2\RS.utxorpc.v1alpha.cardano.RelayR\ACKrelays\DC2J\n\ \\rpool_metadata\CAN\t \SOH(\v2%.utxorpc.v1alpha.cardano.PoolMetadataR\fpoolMetadata\"M\n\ \\DC2PoolRetirementCert\DC2!\n\ \\fpool_keyhash\CAN\SOH \SOH(\fR\vpoolKeyhash\DC2\DC4\n\ \\ENQepoch\CAN\STX \SOH(\EOTR\ENQepoch\"\146\SOH\n\ \\CANGenesisKeyDelegationCert\DC2!\n\ \\fgenesis_hash\CAN\SOH \SOH(\fR\vgenesisHash\DC22\n\ \\NAKgenesis_delegate_hash\CAN\STX \SOH(\fR\DC3genesisDelegateHash\DC2\US\n\ \\vvrf_keyhash\CAN\ETX \SOH(\fR\n\ \vrfKeyhash\"\DEL\n\ \\tMirTarget\DC2S\n\ \\DLEstake_credential\CAN\SOH \SOH(\v2(.utxorpc.v1alpha.cardano.StakeCredentialR\SIstakeCredential\DC2\GS\n\ \\n\ \delta_coin\CAN\STX \SOH(\ETXR\tdeltaCoin\"\146\SOH\n\ \\aMirCert\DC26\n\ \\EOTfrom\CAN\SOH \SOH(\SO2\".utxorpc.v1alpha.cardano.MirSourceR\EOTfrom\DC22\n\ \\STXto\CAN\STX \ETX(\v2\".utxorpc.v1alpha.cardano.MirTargetR\STXto\DC2\ESC\n\ \\tother_pot\CAN\ETX \SOH(\EOTR\botherPot\"\129\SOH\n\ \\SOAddressPattern\DC2#\n\ \\rexact_address\CAN\SOH \SOH(\fR\fexactAddress\DC2!\n\ \\fpayment_part\CAN\STX \SOH(\fR\vpaymentPart\DC2'\n\ \\SIdelegation_part\CAN\ETX \SOH(\fR\SOdelegationPart\"J\n\ \\fAssetPattern\DC2\ESC\n\ \\tpolicy_id\CAN\SOH \SOH(\fR\bpolicyId\DC2\GS\n\ \\n\ \asset_name\CAN\STX \SOH(\fR\tassetName\"\145\SOH\n\ \\SITxOutputPattern\DC2A\n\ \\aaddress\CAN\SOH \SOH(\v2'.utxorpc.v1alpha.cardano.AddressPatternR\aaddress\DC2;\n\ \\ENQasset\CAN\STX \SOH(\v2%.utxorpc.v1alpha.cardano.AssetPatternR\ENQasset\"\241\STX\n\ \\tTxPattern\DC2D\n\ \\bconsumes\CAN\SOH \SOH(\v2(.utxorpc.v1alpha.cardano.TxOutputPatternR\bconsumes\DC2D\n\ \\bproduces\CAN\STX \SOH(\v2(.utxorpc.v1alpha.cardano.TxOutputPatternR\bproduces\DC2H\n\ \\vhas_address\CAN\ETX \SOH(\v2'.utxorpc.v1alpha.cardano.AddressPatternR\n\ \hasAddress\DC2F\n\ \\vmoves_asset\CAN\EOT \SOH(\v2%.utxorpc.v1alpha.cardano.AssetPatternR\n\ \movesAsset\DC2F\n\ \\vmints_asset\CAN\ENQ \SOH(\v2%.utxorpc.v1alpha.cardano.AssetPatternR\n\ \mintsAsset\"7\n\ \\aExUnits\DC2\DC4\n\ \\ENQsteps\CAN\SOH \SOH(\EOTR\ENQsteps\DC2\SYN\n\ \\ACKmemory\CAN\STX \SOH(\EOTR\ACKmemory\"\138\SOH\n\ \\bExPrices\DC2=\n\ \\ENQsteps\CAN\SOH \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\ENQsteps\DC2?\n\ \\ACKmemory\CAN\STX \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\ACKmemory\"=\n\ \\SIProtocolVersion\DC2\DC4\n\ \\ENQmajor\CAN\SOH \SOH(\rR\ENQmajor\DC2\DC4\n\ \\ENQminor\CAN\STX \SOH(\rR\ENQminor\"\v\n\ \\tCostModel\"\142\SOH\n\ \\n\ \CostModels\DC2?\n\ \\tplutus_v1\CAN\SOH \SOH(\v2\".utxorpc.v1alpha.cardano.CostModelR\bplutusV1\DC2?\n\ \\tplutus_v2\CAN\STX \SOH(\v2\".utxorpc.v1alpha.cardano.CostModelR\bplutusV2\"\182\n\ \\n\ \\aPParams\DC2-\n\ \\DC3coins_per_utxo_byte\CAN\SOH \SOH(\EOTR\DLEcoinsPerUtxoByte\DC2\RS\n\ \\vmax_tx_size\CAN\STX \SOH(\EOTR\tmaxTxSize\DC2.\n\ \\DC3min_fee_coefficient\CAN\ETX \SOH(\EOTR\DC1minFeeCoefficient\DC2(\n\ \\DLEmin_fee_constant\CAN\EOT \SOH(\EOTR\SOminFeeConstant\DC2-\n\ \\DC3max_block_body_size\CAN\ENQ \SOH(\EOTR\DLEmaxBlockBodySize\DC21\n\ \\NAKmax_block_header_size\CAN\ACK \SOH(\EOTR\DC2maxBlockHeaderSize\DC2*\n\ \\DC1stake_key_deposit\CAN\a \SOH(\EOTR\SIstakeKeyDeposit\DC2!\n\ \\fpool_deposit\CAN\b \SOH(\EOTR\vpoolDeposit\DC2=\n\ \\ESCpool_retirement_epoch_bound\CAN\t \SOH(\EOTR\CANpoolRetirementEpochBound\DC25\n\ \\ETBdesired_number_of_pools\CAN\n\ \ \SOH(\EOTR\DC4desiredNumberOfPools\DC2N\n\ \\SOpool_influence\CAN\v \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\rpoolInfluence\DC2V\n\ \\DC2monetary_expansion\CAN\f \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\DC1monetaryExpansion\DC2V\n\ \\DC2treasury_expansion\CAN\r \SOH(\v2'.utxorpc.v1alpha.cardano.RationalNumberR\DC1treasuryExpansion\DC2\"\n\ \\rmin_pool_cost\CAN\SO \SOH(\EOTR\vminPoolCost\DC2S\n\ \\DLEprotocol_version\CAN\SI \SOH(\v2(.utxorpc.v1alpha.cardano.ProtocolVersionR\SIprotocolVersion\DC2$\n\ \\SOmax_value_size\CAN\DLE \SOH(\EOTR\fmaxValueSize\DC23\n\ \\NAKcollateral_percentage\CAN\DC1 \SOH(\EOTR\DC4collateralPercentage\DC22\n\ \\NAKmax_collateral_inputs\CAN\DC2 \SOH(\EOTR\DC3maxCollateralInputs\DC2D\n\ \\vcost_models\CAN\DC3 \SOH(\v2#.utxorpc.v1alpha.cardano.CostModelsR\n\ \costModels\DC29\n\ \\ACKprices\CAN\DC4 \SOH(\v2!.utxorpc.v1alpha.cardano.ExPricesR\ACKprices\DC2n\n\ \#max_execution_units_per_transaction\CAN\NAK \SOH(\v2 .utxorpc.v1alpha.cardano.ExUnitsR\USmaxExecutionUnitsPerTransaction\DC2b\n\ \\GSmax_execution_units_per_block\CAN\SYN \SOH(\v2 .utxorpc.v1alpha.cardano.ExUnitsR\EMmaxExecutionUnitsPerBlock\"\GS\n\ \\tEvalError\DC2\DLE\n\ \\ETXmsg\CAN\SOH \SOH(\tR\ETXmsg\"\GS\n\ \\tEvalTrace\DC2\DLE\n\ \\ETXmsg\CAN\SOH \SOH(\tR\ETXmsg\"\207\SOH\n\ \\ACKTxEval\DC2\DLE\n\ \\ETXfee\CAN\SOH \SOH(\EOTR\ETXfee\DC2;\n\ \\bex_units\CAN\STX \SOH(\v2 .utxorpc.v1alpha.cardano.ExUnitsR\aexUnits\DC2:\n\ \\ACKerrors\CAN\ETX \ETX(\v2\".utxorpc.v1alpha.cardano.EvalErrorR\ACKerrors\DC2:\n\ \\ACKtraces\CAN\EOT \ETX(\v2\".utxorpc.v1alpha.cardano.EvalTraceR\ACKtraces*\162\SOH\n\ \\SIRedeemerPurpose\DC2 \n\ \\FSREDEEMER_PURPOSE_UNSPECIFIED\DLE\NUL\DC2\SUB\n\ \\SYNREDEEMER_PURPOSE_SPEND\DLE\SOH\DC2\EM\n\ \\NAKREDEEMER_PURPOSE_MINT\DLE\STX\DC2\EM\n\ \\NAKREDEEMER_PURPOSE_CERT\DLE\ETX\DC2\ESC\n\ \\ETBREDEEMER_PURPOSE_REWARD\DLE\EOT*Y\n\ \\tMirSource\DC2\SUB\n\ \\SYNMIR_SOURCE_UNSPECIFIED\DLE\NUL\DC2\ETB\n\ \\DC3MIR_SOURCE_RESERVES\DLE\SOH\DC2\ETB\n\ \\DC3MIR_SOURCE_TREASURY\DLE\STXB\224\SOH\n\ \\ESCcom.utxorpc.v1alpha.cardanoB\fCardanoProtoP\SOHZ5github.com/utxorpc/go-codegen/utxorpc/v1alpha/cardano\162\STX\ETXUVC\170\STX\ETBUtxorpc.V1alpha.Cardano\202\STX\ETBUtxorpc\\V1alpha\\Cardano\226\STX#Utxorpc\\V1alpha\\Cardano\\GPBMetadata\234\STX\EMUtxorpc::V1alpha::CardanoJ\139\150\SOH\n\ \\a\DC2\ENQ\NUL\NUL\160\ETX\SOH\n\ \\b\n\ \\SOH\f\DC2\ETX\NUL\NUL\DC2\n\ \\b\n\ \\SOH\STX\DC2\ETX\STX\NUL \n\ \7\n\ \\STX\ENQ\NUL\DC2\EOT\ENQ\NUL\v\SOH\SUB+ Purpose of the redeemer in a transaction.\n\ \\n\ \\n\ \\n\ \\ETX\ENQ\NUL\SOH\DC2\ETX\ENQ\ENQ\DC4\n\ \\v\n\ \\EOT\ENQ\NUL\STX\NUL\DC2\ETX\ACK\STX#\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\NUL\SOH\DC2\ETX\ACK\STX\RS\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\NUL\STX\DC2\ETX\ACK!\"\n\ \\v\n\ \\EOT\ENQ\NUL\STX\SOH\DC2\ETX\a\STX\GS\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\SOH\SOH\DC2\ETX\a\STX\CAN\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\SOH\STX\DC2\ETX\a\ESC\FS\n\ \\v\n\ \\EOT\ENQ\NUL\STX\STX\DC2\ETX\b\STX\FS\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\STX\SOH\DC2\ETX\b\STX\ETB\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\STX\STX\DC2\ETX\b\SUB\ESC\n\ \\v\n\ \\EOT\ENQ\NUL\STX\ETX\DC2\ETX\t\STX\FS\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\ETX\SOH\DC2\ETX\t\STX\ETB\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\ETX\STX\DC2\ETX\t\SUB\ESC\n\ \\v\n\ \\EOT\ENQ\NUL\STX\EOT\DC2\ETX\n\ \\STX\RS\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\EOT\SOH\DC2\ETX\n\ \\STX\EM\n\ \\f\n\ \\ENQ\ENQ\NUL\STX\EOT\STX\DC2\ETX\n\ \\FS\GS\n\ \7\n\ \\STX\EOT\NUL\DC2\EOT\SO\NUL\DC1\SOH\SUB+ Redeemer information for a Plutus script.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\NUL\SOH\DC2\ETX\SO\b\DLE\n\ \'\n\ \\EOT\EOT\NUL\STX\NUL\DC2\ETX\SI\STX\RS\"\SUB Purpose of the redeemer.\n\ \\n\ \\f\n\ \\ENQ\EOT\NUL\STX\NUL\ACK\DC2\ETX\SI\STX\DC1\n\ \\f\n\ \\ENQ\EOT\NUL\STX\NUL\SOH\DC2\ETX\SI\DC2\EM\n\ \\f\n\ \\ENQ\EOT\NUL\STX\NUL\ETX\DC2\ETX\SI\FS\GS\n\ \8\n\ \\EOT\EOT\NUL\STX\SOH\DC2\ETX\DLE\STX\ETB\"+ Plutus data associated with the redeemer.\n\ \\n\ \\f\n\ \\ENQ\EOT\NUL\STX\SOH\ACK\DC2\ETX\DLE\STX\f\n\ \\f\n\ \\ENQ\EOT\NUL\STX\SOH\SOH\DC2\ETX\DLE\r\DC2\n\ \\f\n\ \\ENQ\EOT\NUL\STX\SOH\ETX\DC2\ETX\DLE\NAK\SYN\n\ \G\n\ \\STX\EOT\SOH\DC2\EOT\DC4\NUL\EM\SOH\SUB; Represents a transaction input in the Cardano blockchain.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\SOH\SOH\DC2\ETX\DC4\b\SI\n\ \0\n\ \\EOT\EOT\SOH\STX\NUL\DC2\ETX\NAK\STX\DC4\"# Hash of the previous transaction.\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\ENQ\DC2\ETX\NAK\STX\a\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\SOH\DC2\ETX\NAK\b\SI\n\ \\f\n\ \\ENQ\EOT\SOH\STX\NUL\ETX\DC2\ETX\NAK\DC2\DC3\n\ \?\n\ \\EOT\EOT\SOH\STX\SOH\DC2\ETX\SYN\STX\SUB\"2 Index of the output in the previous transaction.\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\SOH\ENQ\DC2\ETX\SYN\STX\b\n\ \\f\n\ \\ENQ\EOT\SOH\STX\SOH\SOH\DC2\ETX\SYN\t\NAK\n\ \\f\n\ \\ENQ\EOT\SOH\STX\SOH\ETX\DC2\ETX\SYN\CAN\EM\n\ \T\n\ \\EOT\EOT\SOH\STX\STX\DC2\ETX\ETB\STX\EM\"G Content of the input represented as output of the related transaction\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\STX\ACK\DC2\ETX\ETB\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\STX\SOH\DC2\ETX\ETB\v\DC4\n\ \\f\n\ \\ENQ\EOT\SOH\STX\STX\ETX\DC2\ETX\ETB\ETB\CAN\n\ \.\n\ \\EOT\EOT\SOH\STX\ETX\DC2\ETX\CAN\STX\CAN\"! Redeemer for the Plutus script.\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\ETX\ACK\DC2\ETX\CAN\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\SOH\STX\ETX\SOH\DC2\ETX\CAN\v\DC3\n\ \\f\n\ \\ENQ\EOT\SOH\STX\ETX\ETX\DC2\ETX\CAN\SYN\ETB\n\ \H\n\ \\STX\EOT\STX\DC2\EOT\FS\NUL#\SOH\SUB< Represents a transaction output in the Cardano blockchain.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\STX\SOH\DC2\ETX\FS\b\DLE\n\ \,\n\ \\EOT\EOT\STX\STX\NUL\DC2\ETX\GS\STX\DC4\"\US Address receiving the output.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\ENQ\DC2\ETX\GS\STX\a\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\SOH\DC2\ETX\GS\b\SI\n\ \\f\n\ \\ENQ\EOT\STX\STX\NUL\ETX\DC2\ETX\GS\DC2\DC3\n\ \+\n\ \\EOT\EOT\STX\STX\SOH\DC2\ETX\RS\STX\DC2\"\RS Amount of ADA in the output.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\ENQ\DC2\ETX\RS\STX\b\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\SOH\DC2\ETX\RS\t\r\n\ \\f\n\ \\ENQ\EOT\STX\STX\SOH\ETX\DC2\ETX\RS\DLE\DC1\n\ \@\n\ \\EOT\EOT\STX\STX\STX\DC2\ETX\US\STX!\"3 Additional native (non-ADA) assets in the output.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\EOT\DC2\ETX\US\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\ACK\DC2\ETX\US\v\NAK\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\SOH\DC2\ETX\US\SYN\FS\n\ \\f\n\ \\ENQ\EOT\STX\STX\STX\ETX\DC2\ETX\US\US \n\ \6\n\ \\EOT\EOT\STX\STX\ETX\DC2\ETX \STX\ETB\") Plutus data associated with the output.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\ETX\ACK\DC2\ETX \STX\f\n\ \\f\n\ \\ENQ\EOT\STX\STX\ETX\SOH\DC2\ETX \r\DC2\n\ \\f\n\ \\ENQ\EOT\STX\STX\ETX\ETX\DC2\ETX \NAK\SYN\n\ \'\n\ \\EOT\EOT\STX\STX\EOT\DC2\ETX!\STX\ETB\"\SUB Hash of the Plutus data.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\EOT\ENQ\DC2\ETX!\STX\a\n\ \\f\n\ \\ENQ\EOT\STX\STX\EOT\SOH\DC2\ETX!\b\DC2\n\ \\f\n\ \\ENQ\EOT\STX\STX\EOT\ETX\DC2\ETX!\NAK\SYN\n\ \1\n\ \\EOT\EOT\STX\STX\ENQ\DC2\ETX\"\STX\DC4\"$ Script associated with the output.\n\ \\n\ \\f\n\ \\ENQ\EOT\STX\STX\ENQ\ACK\DC2\ETX\"\STX\b\n\ \\f\n\ \\ENQ\EOT\STX\STX\ENQ\SOH\DC2\ETX\"\t\SI\n\ \\f\n\ \\ENQ\EOT\STX\STX\ENQ\ETX\DC2\ETX\"\DC2\DC3\n\ \B\n\ \\STX\EOT\ETX\DC2\EOT&\NUL*\SOH\SUB6 Represents a custom asset in the Cardano blockchain.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\ETX\SOH\DC2\ETX&\b\r\n\ \(\n\ \\EOT\EOT\ETX\STX\NUL\DC2\ETX'\STX\DC1\"\ESC Name of the custom asset.\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\NUL\ENQ\DC2\ETX'\STX\a\n\ \\f\n\ \\ENQ\EOT\ETX\STX\NUL\SOH\DC2\ETX'\b\f\n\ \\f\n\ \\ENQ\EOT\ETX\STX\NUL\ETX\DC2\ETX'\SI\DLE\n\ \A\n\ \\EOT\EOT\ETX\STX\SOH\DC2\ETX(\STX\EM\"4 Quantity of the custom asset in case of an output.\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\SOH\ENQ\DC2\ETX(\STX\b\n\ \\f\n\ \\ENQ\EOT\ETX\STX\SOH\SOH\DC2\ETX(\t\DC4\n\ \\f\n\ \\ENQ\EOT\ETX\STX\SOH\ETX\DC2\ETX(\ETB\CAN\n\ \>\n\ \\EOT\EOT\ETX\STX\STX\DC2\ETX)\STX\SYN\"1 Quantity of the custom asset in case of a mint.\n\ \\n\ \\f\n\ \\ENQ\EOT\ETX\STX\STX\ENQ\DC2\ETX)\STX\a\n\ \\f\n\ \\ENQ\EOT\ETX\STX\STX\SOH\DC2\ETX)\b\DC1\n\ \\f\n\ \\ENQ\EOT\ETX\STX\STX\ETX\DC2\ETX)\DC4\NAK\n\ \G\n\ \\STX\EOT\EOT\DC2\EOT-\NUL0\SOH\SUB; Represents a multi-asset group in the Cardano blockchain.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\EOT\SOH\DC2\ETX-\b\DC2\n\ \5\n\ \\EOT\EOT\EOT\STX\NUL\DC2\ETX.\STX\SYN\"( Policy ID governing the custom assets.\n\ \\n\ \\f\n\ \\ENQ\EOT\EOT\STX\NUL\ENQ\DC2\ETX.\STX\a\n\ \\f\n\ \\ENQ\EOT\EOT\STX\NUL\SOH\DC2\ETX.\b\DC1\n\ \\f\n\ \\ENQ\EOT\EOT\STX\NUL\ETX\DC2\ETX.\DC4\NAK\n\ \%\n\ \\EOT\EOT\EOT\STX\SOH\DC2\ETX/\STX\FS\"\CAN List of custom assets.\n\ \\n\ \\f\n\ \\ENQ\EOT\EOT\STX\SOH\EOT\DC2\ETX/\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\EOT\STX\SOH\ACK\DC2\ETX/\v\DLE\n\ \\f\n\ \\ENQ\EOT\EOT\STX\SOH\SOH\DC2\ETX/\DC1\ETB\n\ \\f\n\ \\ENQ\EOT\EOT\STX\SOH\ETX\DC2\ETX/\SUB\ESC\n\ \@\n\ \\STX\EOT\ENQ\DC2\EOT3\NUL6\SOH\SUB4 Represents the validity interval of a transaction.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\ENQ\SOH\DC2\ETX3\b\DC2\n\ \.\n\ \\EOT\EOT\ENQ\STX\NUL\DC2\ETX4\STX\DC3\"! Start of the validity interval.\n\ \\n\ \\f\n\ \\ENQ\EOT\ENQ\STX\NUL\ENQ\DC2\ETX4\STX\b\n\ \\f\n\ \\ENQ\EOT\ENQ\STX\NUL\SOH\DC2\ETX4\t\SO\n\ \\f\n\ \\ENQ\EOT\ENQ\STX\NUL\ETX\DC2\ETX4\DC1\DC2\n\ \@\n\ \\EOT\EOT\ENQ\STX\SOH\DC2\ETX5\STX\DC1\"3 End of the validity interval (TTL: Time to Live).\n\ \\n\ \\f\n\ \\ENQ\EOT\ENQ\STX\SOH\ENQ\DC2\ETX5\STX\b\n\ \\f\n\ \\ENQ\EOT\ENQ\STX\SOH\SOH\DC2\ETX5\t\f\n\ \\f\n\ \\ENQ\EOT\ENQ\STX\SOH\ETX\DC2\ETX5\SI\DLE\n\ \F\n\ \\STX\EOT\ACK\DC2\EOT9\NUL=\SOH\SUB: Represents the collateral information for a transaction.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\ACK\SOH\DC2\ETX9\b\DC2\n\ \5\n\ \\EOT\EOT\ACK\STX\NUL\DC2\ETX:\STX\"\"( Collateral inputs for the transaction.\n\ \\n\ \\f\n\ \\ENQ\EOT\ACK\STX\NUL\EOT\DC2\ETX:\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\ACK\STX\NUL\ACK\DC2\ETX:\v\DC2\n\ \\f\n\ \\ENQ\EOT\ACK\STX\NUL\SOH\DC2\ETX:\DC3\GS\n\ \\f\n\ \\ENQ\EOT\ACK\STX\NUL\ETX\DC2\ETX: !\n\ \;\n\ \\EOT\EOT\ACK\STX\SOH\DC2\ETX;\STX!\". Collateral return in case of script failure.\n\ \\n\ \\f\n\ \\ENQ\EOT\ACK\STX\SOH\ACK\DC2\ETX;\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\ACK\STX\SOH\SOH\DC2\ETX;\v\FS\n\ \\f\n\ \\ENQ\EOT\ACK\STX\SOH\ETX\DC2\ETX;\US \n\ \*\n\ \\EOT\EOT\ACK\STX\STX\DC2\ETX<\STX\RS\"\GS Total amount of collateral.\n\ \\n\ \\f\n\ \\ENQ\EOT\ACK\STX\STX\ENQ\DC2\ETX<\STX\b\n\ \\f\n\ \\ENQ\EOT\ACK\STX\STX\SOH\DC2\ETX<\t\EM\n\ \\f\n\ \\ENQ\EOT\ACK\STX\STX\ETX\DC2\ETX<\FS\GS\n\ \<\n\ \\STX\EOT\a\DC2\EOT@\NULC\SOH\SUB0 Represents a withdrawal from a reward account.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\a\SOH\DC2\ETX@\b\DC2\n\ \-\n\ \\EOT\EOT\a\STX\NUL\DC2\ETXA\STX\ESC\" Address of the reward account.\n\ \\n\ \\f\n\ \\ENQ\EOT\a\STX\NUL\ENQ\DC2\ETXA\STX\a\n\ \\f\n\ \\ENQ\EOT\a\STX\NUL\SOH\DC2\ETXA\b\SYN\n\ \\f\n\ \\ENQ\EOT\a\STX\NUL\ETX\DC2\ETXA\EM\SUB\n\ \'\n\ \\EOT\EOT\a\STX\SOH\DC2\ETXB\STX\DC2\"\SUB Amount of ADA withdrawn.\n\ \\n\ \\f\n\ \\ENQ\EOT\a\STX\SOH\ENQ\DC2\ETXB\STX\b\n\ \\f\n\ \\ENQ\EOT\a\STX\SOH\SOH\DC2\ETXB\t\r\n\ \\f\n\ \\ENQ\EOT\a\STX\SOH\ETX\DC2\ETXB\DLE\DC1\n\ \G\n\ \\STX\EOT\b\DC2\EOTF\NULJ\SOH\SUB; Represents a set of witnesses that validate a transaction\n\ \\n\ \\n\ \\n\ \\ETX\EOT\b\SOH\DC2\ETXF\b\DC2\n\ \&\n\ \\EOT\EOT\b\STX\NUL\DC2\ETXG\STX'\"\EM List of VKey witnesses.\n\ \\n\ \\f\n\ \\ENQ\EOT\b\STX\NUL\EOT\DC2\ETXG\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\b\STX\NUL\ACK\DC2\ETXG\v\SYN\n\ \\f\n\ \\ENQ\EOT\b\STX\NUL\SOH\DC2\ETXG\ETB\"\n\ \\f\n\ \\ENQ\EOT\b\STX\NUL\ETX\DC2\ETXG%&\n\ \\US\n\ \\EOT\EOT\b\STX\SOH\DC2\ETXH\STX\GS\"\DC2 List of scripts.\n\ \\n\ \\f\n\ \\ENQ\EOT\b\STX\SOH\EOT\DC2\ETXH\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\b\STX\SOH\ACK\DC2\ETXH\v\DC1\n\ \\f\n\ \\ENQ\EOT\b\STX\SOH\SOH\DC2\ETXH\DC2\CAN\n\ \\f\n\ \\ENQ\EOT\b\STX\SOH\ETX\DC2\ETXH\ESC\FS\n\ \L\n\ \\EOT\EOT\b\STX\STX\DC2\ETXI\STX(\"? List of Plutus data elements associated with the transaction.\n\ \\n\ \\f\n\ \\ENQ\EOT\b\STX\STX\EOT\DC2\ETXI\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\b\STX\STX\ACK\DC2\ETXI\v\NAK\n\ \\f\n\ \\ENQ\EOT\b\STX\STX\SOH\DC2\ETXI\SYN#\n\ \\f\n\ \\ENQ\EOT\b\STX\STX\ETX\DC2\ETXI&'\n\ \H\n\ \\STX\EOT\t\DC2\EOTM\NULP\SOH\SUB< Auxiliary data not directly tied to the validation process\n\ \\n\ \\n\ \\n\ \\ETX\EOT\t\SOH\DC2\ETXM\b\SI\n\ \3\n\ \\EOT\EOT\t\STX\NUL\DC2\ETXN\STX!\"& List of auxiliary metadata elements.\n\ \\n\ \\f\n\ \\ENQ\EOT\t\STX\NUL\EOT\DC2\ETXN\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\t\STX\NUL\ACK\DC2\ETXN\v\DC3\n\ \\f\n\ \\ENQ\EOT\t\STX\NUL\SOH\DC2\ETXN\DC4\FS\n\ \\f\n\ \\ENQ\EOT\t\STX\NUL\ETX\DC2\ETXN\US \n\ \)\n\ \\EOT\EOT\t\STX\SOH\DC2\ETXO\STX\RS\"\FS List of auxiliary scripts.\n\ \\n\ \\f\n\ \\ENQ\EOT\t\STX\SOH\EOT\DC2\ETXO\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\t\STX\SOH\ACK\DC2\ETXO\v\DC1\n\ \\f\n\ \\ENQ\EOT\t\STX\SOH\SOH\DC2\ETXO\DC2\EM\n\ \\f\n\ \\ENQ\EOT\t\STX\SOH\ETX\DC2\ETXO\FS\GS\n\ \A\n\ \\STX\EOT\n\ \\DC2\EOTS\NULa\SOH\SUB5 Represents a transaction in the Cardano blockchain.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\n\ \\SOH\DC2\ETXS\b\n\ \\n\ \)\n\ \\EOT\EOT\n\ \\STX\NUL\DC2\ETXT\STX\RS\"\FS List of transaction inputs\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\NUL\EOT\DC2\ETXT\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\NUL\ACK\DC2\ETXT\v\DC2\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\NUL\SOH\DC2\ETXT\DC3\EM\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\NUL\ETX\DC2\ETXT\FS\GS\n\ \*\n\ \\EOT\EOT\n\ \\STX\SOH\DC2\ETXU\STX \"\GS List of transaction outputs\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\SOH\EOT\DC2\ETXU\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\SOH\ACK\DC2\ETXU\v\DC3\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\SOH\SOH\DC2\ETXU\DC4\ESC\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\SOH\ETX\DC2\ETXU\RS\US\n\ \#\n\ \\EOT\EOT\n\ \\STX\STX\DC2\ETXV\STX(\"\SYN List of certificates\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\STX\EOT\DC2\ETXV\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\STX\ACK\DC2\ETXV\v\SYN\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\STX\SOH\DC2\ETXV\ETB#\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\STX\ETX\DC2\ETXV&'\n\ \\"\n\ \\EOT\EOT\n\ \\STX\ETX\DC2\ETXW\STX&\"\NAK List of withdrawals\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ETX\EOT\DC2\ETXW\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ETX\ACK\DC2\ETXW\v\NAK\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ETX\SOH\DC2\ETXW\SYN!\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ETX\ETX\DC2\ETXW$%\n\ \+\n\ \\EOT\EOT\n\ \\STX\EOT\DC2\ETXX\STX\US\"\RS List of minted custom assets\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\EOT\EOT\DC2\ETXX\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\EOT\ACK\DC2\ETXX\v\NAK\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\EOT\SOH\DC2\ETXX\SYN\SUB\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\EOT\ETX\DC2\ETXX\GS\RS\n\ \'\n\ \\EOT\EOT\n\ \\STX\ENQ\DC2\ETXY\STX(\"\SUB List of reference inputs\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ENQ\EOT\DC2\ETXY\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ENQ\ACK\DC2\ETXY\v\DC2\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ENQ\SOH\DC2\ETXY\DC3#\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ENQ\ETX\DC2\ETXY&'\n\ \5\n\ \\EOT\EOT\n\ \\STX\ACK\DC2\ETXZ\STX\ESC\"( Witnesses that validte the transaction\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ACK\ACK\DC2\ETXZ\STX\f\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ACK\SOH\DC2\ETXZ\r\SYN\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\ACK\ETX\DC2\ETXZ\EM\SUB\n\ \?\n\ \\EOT\EOT\n\ \\STX\a\DC2\ETX[\STX\FS\"2 Collateral details in case of failed transaction\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\a\ACK\DC2\ETX[\STX\f\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\a\SOH\DC2\ETX[\r\ETB\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\a\ETX\DC2\ETX[\SUB\ESC\n\ \%\n\ \\EOT\EOT\n\ \\STX\b\DC2\ETX\\\STX\DC1\"\CAN Transaction fee in ADA\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\b\ENQ\DC2\ETX\\\STX\b\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\b\SOH\DC2\ETX\\\t\f\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\b\ETX\DC2\ETX\\\SI\DLE\n\ \3\n\ \\EOT\EOT\n\ \\STX\t\DC2\ETX]\STX\ESC\"& Validity interval of the transaction\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\t\ACK\DC2\ETX]\STX\f\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\t\SOH\DC2\ETX]\r\NAK\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\t\ETX\DC2\ETX]\CAN\SUB\n\ \E\n\ \\EOT\EOT\n\ \\STX\n\ \\DC2\ETX^\STX\ETB\"8 Flag indicating whether the transaction was successful\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\n\ \\ENQ\DC2\ETX^\STX\ACK\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\n\ \\SOH\DC2\ETX^\a\DC1\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\n\ \\ETX\DC2\ETX^\DC4\SYN\n\ \I\n\ \\EOT\EOT\n\ \\STX\v\DC2\ETX_\STX\EM\"< Auxiliary data not directly tied to the validation process\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\v\ACK\DC2\ETX_\STX\t\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\v\SOH\DC2\ETX_\n\ \\DC3\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\v\ETX\DC2\ETX_\SYN\CAN\n\ \E\n\ \\EOT\EOT\n\ \\STX\f\DC2\ETX`\STX\DC2\"8 Hash of the transaction that serves as main identifier\n\ \\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\f\ENQ\DC2\ETX`\STX\a\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\f\SOH\DC2\ETX`\b\f\n\ \\f\n\ \\ENQ\EOT\n\ \\STX\f\ETX\DC2\ETX`\SI\DC1\n\ \:\n\ \\STX\EOT\v\DC2\EOTd\NULh\SOH\SUB. Contains the header information for a block.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\v\SOH\DC2\ETXd\b\DC3\n\ \\ESC\n\ \\EOT\EOT\v\STX\NUL\DC2\ETXe\STX\DC2\"\SO Slot number.\n\ \\n\ \\f\n\ \\ENQ\EOT\v\STX\NUL\ENQ\DC2\ETXe\STX\b\n\ \\f\n\ \\ENQ\EOT\v\STX\NUL\SOH\DC2\ETXe\t\r\n\ \\f\n\ \\ENQ\EOT\v\STX\NUL\ETX\DC2\ETXe\DLE\DC1\n\ \\SUB\n\ \\EOT\EOT\v\STX\SOH\DC2\ETXf\STX\DC1\"\r Block hash.\n\ \\n\ \\f\n\ \\ENQ\EOT\v\STX\SOH\ENQ\DC2\ETXf\STX\a\n\ \\f\n\ \\ENQ\EOT\v\STX\SOH\SOH\DC2\ETXf\b\f\n\ \\f\n\ \\ENQ\EOT\v\STX\SOH\ETX\DC2\ETXf\SI\DLE\n\ \\FS\n\ \\EOT\EOT\v\STX\STX\DC2\ETXg\STX\DC4\"\SI Block height.\n\ \\n\ \\f\n\ \\ENQ\EOT\v\STX\STX\ENQ\DC2\ETXg\STX\b\n\ \\f\n\ \\ENQ\EOT\v\STX\STX\SOH\DC2\ETXg\t\SI\n\ \\f\n\ \\ENQ\EOT\v\STX\STX\ETX\DC2\ETXg\DC2\DC3\n\ \8\n\ \\STX\EOT\f\DC2\EOTk\NULm\SOH\SUB, Contains the transaction data for a block.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\f\SOH\DC2\ETXk\b\DC1\n\ \$\n\ \\EOT\EOT\f\STX\NUL\DC2\ETXl\STX\NAK\"\ETB List of transactions.\n\ \\n\ \\f\n\ \\ENQ\EOT\f\STX\NUL\EOT\DC2\ETXl\STX\n\ \\n\ \\f\n\ \\ENQ\EOT\f\STX\NUL\ACK\DC2\ETXl\v\r\n\ \\f\n\ \\ENQ\EOT\f\STX\NUL\SOH\DC2\ETXl\SO\DLE\n\ \\f\n\ \\ENQ\EOT\f\STX\NUL\ETX\DC2\ETXl\DC3\DC4\n\ \E\n\ \\STX\EOT\r\DC2\EOTp\NULs\SOH\SUB9 Represents a complete block, including header and body.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\r\SOH\DC2\ETXp\b\r\n\ \\FS\n\ \\EOT\EOT\r\STX\NUL\DC2\ETXq\STX\EM\"\SI Block header.\n\ \\n\ \\f\n\ \\ENQ\EOT\r\STX\NUL\ACK\DC2\ETXq\STX\r\n\ \\f\n\ \\ENQ\EOT\r\STX\NUL\SOH\DC2\ETXq\SO\DC4\n\ \\f\n\ \\ENQ\EOT\r\STX\NUL\ETX\DC2\ETXq\ETB\CAN\n\ \\SUB\n\ \\EOT\EOT\r\STX\SOH\DC2\ETXr\STX\NAK\"\r Block body.\n\ \\n\ \\f\n\ \\ENQ\EOT\r\STX\SOH\ACK\DC2\ETXr\STX\v\n\ \\f\n\ \\ENQ\EOT\r\STX\SOH\SOH\DC2\ETXr\f\DLE\n\ \\f\n\ \\ENQ\EOT\r\STX\SOH\ETX\DC2\ETXr\DC3\DC4\n\ \C\n\ \\STX\EOT\SO\DC2\EOTv\NULy\SOH\SUB7 Represents a VKey witness used to sign a transaction.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\SO\SOH\DC2\ETXv\b\DC3\n\ \ \n\ \\EOT\EOT\SO\STX\NUL\DC2\ETXw\STX\DC1\"\DC3 Verification key.\n\ \\n\ \\f\n\ \\ENQ\EOT\SO\STX\NUL\ENQ\DC2\ETXw\STX\a\n\ \\f\n\ \\ENQ\EOT\SO\STX\NUL\SOH\DC2\ETXw\b\f\n\ \\f\n\ \\ENQ\EOT\SO\STX\NUL\ETX\DC2\ETXw\SI\DLE\n\ \D\n\ \\EOT\EOT\SO\STX\SOH\DC2\ETXx\STX\SYN\"7 Signature generated using the associated private key.\n\ \\n\ \\f\n\ \\ENQ\EOT\SO\STX\SOH\ENQ\DC2\ETXx\STX\a\n\ \\f\n\ \\ENQ\EOT\SO\STX\SOH\SOH\DC2\ETXx\b\DC1\n\ \\f\n\ \\ENQ\EOT\SO\STX\SOH\ETX\DC2\ETXx\DC4\NAK\n\ \5\n\ \\STX\EOT\SI\DC2\ENQ|\NUL\133\SOH\SOH\SUB( Represents a native script in Cardano.\n\ \\n\ \\n\ \\n\ \\ETX\EOT\SI\SOH\DC2\ETX|\b\DC4\n\ \\r\n\ \\EOT\EOT\SI\b\NUL\DC2\ENQ}\STX\132\SOH\ETX\n\ \\f\n\ \\ENQ\EOT\SI\b\NUL\SOH\DC2\ETX}\b\NAK\n\ \3\n\ \\EOT\EOT\SI\STX\NUL\DC2\ETX~\EOT\FS\"& Script based on an address key hash.\n\ \\n\ \\f\n\ \\ENQ\EOT\SI\STX\NUL\ENQ\DC2\ETX~\EOT\t\n\ \\f\n\ \\ENQ\EOT\SI\STX\NUL\SOH\DC2\ETX~\n\ \\ETB\n\ \\f\n\ \\ENQ\EOT\SI\STX\NUL\ETX\DC2\ETX~\SUB\ESC\n\ \G\n\ \\EOT\EOT\SI\STX\SOH\DC2\ETX\DEL\EOT$\": Script that requires all nested scripts to be satisfied.\n\ \\n\ \\f\n\ \\ENQ\EOT\SI\STX\SOH\ACK\DC2\ETX\DEL\EOT\DC4\n\ \\f\n\ \\ENQ\EOT\SI\STX\SOH\SOH\DC2\ETX\DEL\NAK\US\n\ \\f\n\ \\ENQ\EOT\SI\STX\SOH\ETX\DC2\ETX\DEL\"#\n\ \O\n\ \\EOT\EOT\SI\STX\STX\DC2\EOT\128\SOH\EOT$\"A Script that requires any of the nested scripts to be satisfied.\n\ \\n\ \\r\n\ \\ENQ\EOT\SI\STX\STX\ACK\DC2\EOT\128\SOH\EOT\DC4\n\ \\r\n\ \\ENQ\EOT\SI\STX\STX\SOH\DC2\EOT\128\SOH\NAK\US\n\ \\r\n\ \\ENQ\EOT\SI\STX\STX\ETX\DC2\EOT\128\SOH\"#\n\ \O\n\ \\EOT\EOT\SI\STX\ETX\DC2\EOT\129\SOH\EOT!\"A Script that requires k out of n nested scripts to be satisfied.\n\ \\n\ \\r\n\ \\ENQ\EOT\SI\STX\ETX\ACK\DC2\EOT\129\SOH\EOT\SO\n\ \\r\n\ \\ENQ\EOT\SI\STX\ETX\SOH\DC2\EOT\129\SOH\SI\FS\n\ \\r\n\ \\ENQ\EOT\SI\STX\ETX\ETX\DC2\EOT\129\SOH\US \n\ \?\n\ \\EOT\EOT\SI\STX\EOT\DC2\EOT\130\SOH\EOT\RS\"1 Slot number before which the script is invalid.\n\ \\n\ \\r\n\ \\ENQ\EOT\SI\STX\EOT\ENQ\DC2\EOT\130\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\SI\STX\EOT\SOH\DC2\EOT\130\SOH\v\EM\n\ \\r\n\ \\ENQ\EOT\SI\STX\EOT\ETX\DC2\EOT\130\SOH\FS\GS\n\ \>\n\ \\EOT\EOT\SI\STX\ENQ\DC2\EOT\131\SOH\EOT!\"0 Slot number after which the script is invalid.\n\ \\n\ \\r\n\ \\ENQ\EOT\SI\STX\ENQ\ENQ\DC2\EOT\131\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\SI\STX\ENQ\SOH\DC2\EOT\131\SOH\v\FS\n\ \\r\n\ \\ENQ\EOT\SI\STX\ENQ\ETX\DC2\EOT\131\SOH\US \n\ \4\n\ \\STX\EOT\DLE\DC2\ACK\136\SOH\NUL\138\SOH\SOH\SUB& Represents a list of native scripts.\n\ \\n\ \\v\n\ \\ETX\EOT\DLE\SOH\DC2\EOT\136\SOH\b\CAN\n\ \'\n\ \\EOT\EOT\DLE\STX\NUL\DC2\EOT\137\SOH\STX\"\"\EM List of native scripts.\n\ \\n\ \\r\n\ \\ENQ\EOT\DLE\STX\NUL\EOT\DC2\EOT\137\SOH\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\DLE\STX\NUL\ACK\DC2\EOT\137\SOH\v\ETB\n\ \\r\n\ \\ENQ\EOT\DLE\STX\NUL\SOH\DC2\EOT\137\SOH\CAN\GS\n\ \\r\n\ \\ENQ\EOT\DLE\STX\NUL\ETX\DC2\EOT\137\SOH !\n\ \8\n\ \\STX\EOT\DC1\DC2\ACK\141\SOH\NUL\144\SOH\SOH\SUB* Represents a \"k out of n\" native script.\n\ \\n\ \\v\n\ \\ETX\EOT\DC1\SOH\DC2\EOT\141\SOH\b\DC2\n\ \9\n\ \\EOT\EOT\DC1\STX\NUL\DC2\EOT\142\SOH\STX\SI\"+ The number of required satisfied scripts.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC1\STX\NUL\ENQ\DC2\EOT\142\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\DC1\STX\NUL\SOH\DC2\EOT\142\SOH\t\n\ \\n\ \\r\n\ \\ENQ\EOT\DC1\STX\NUL\ETX\DC2\EOT\142\SOH\r\SO\n\ \'\n\ \\EOT\EOT\DC1\STX\SOH\DC2\EOT\143\SOH\STX$\"\EM List of native scripts.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC1\STX\SOH\EOT\DC2\EOT\143\SOH\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\DC1\STX\SOH\ACK\DC2\EOT\143\SOH\v\ETB\n\ \\r\n\ \\ENQ\EOT\DC1\STX\SOH\SOH\DC2\EOT\143\SOH\CAN\US\n\ \\r\n\ \\ENQ\EOT\DC1\STX\SOH\ETX\DC2\EOT\143\SOH\"#\n\ \D\n\ \\STX\EOT\DC2\DC2\ACK\147\SOH\NUL\151\SOH\SOH\SUB6 Represents a constructor for Plutus data in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT\DC2\SOH\DC2\EOT\147\SOH\b\SO\n\ \\f\n\ \\EOT\EOT\DC2\STX\NUL\DC2\EOT\148\SOH\STX\DC1\n\ \\r\n\ \\ENQ\EOT\DC2\STX\NUL\ENQ\DC2\EOT\148\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\DC2\STX\NUL\SOH\DC2\EOT\148\SOH\t\f\n\ \\r\n\ \\ENQ\EOT\DC2\STX\NUL\ETX\DC2\EOT\148\SOH\SI\DLE\n\ \\f\n\ \\EOT\EOT\DC2\STX\SOH\DC2\EOT\149\SOH\STX\GS\n\ \\r\n\ \\ENQ\EOT\DC2\STX\SOH\ENQ\DC2\EOT\149\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\DC2\STX\SOH\SOH\DC2\EOT\149\SOH\t\CAN\n\ \\r\n\ \\ENQ\EOT\DC2\STX\SOH\ETX\DC2\EOT\149\SOH\ESC\FS\n\ \\f\n\ \\EOT\EOT\DC2\STX\STX\DC2\EOT\150\SOH\STX!\n\ \\r\n\ \\ENQ\EOT\DC2\STX\STX\EOT\DC2\EOT\150\SOH\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\DC2\STX\STX\ACK\DC2\EOT\150\SOH\v\NAK\n\ \\r\n\ \\ENQ\EOT\DC2\STX\STX\SOH\DC2\EOT\150\SOH\SYN\FS\n\ \\r\n\ \\ENQ\EOT\DC2\STX\STX\ETX\DC2\EOT\150\SOH\US \n\ \D\n\ \\STX\EOT\DC3\DC2\ACK\154\SOH\NUL\160\SOH\SOH\SUB6 Represents a big integer for Plutus data in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT\DC3\SOH\DC2\EOT\154\SOH\b\SO\n\ \\SO\n\ \\EOT\EOT\DC3\b\NUL\DC2\ACK\155\SOH\STX\159\SOH\ETX\n\ \\r\n\ \\ENQ\EOT\DC3\b\NUL\SOH\DC2\EOT\155\SOH\b\SI\n\ \\f\n\ \\EOT\EOT\DC3\STX\NUL\DC2\EOT\156\SOH\EOT\DC2\n\ \\r\n\ \\ENQ\EOT\DC3\STX\NUL\ENQ\DC2\EOT\156\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\DC3\STX\NUL\SOH\DC2\EOT\156\SOH\n\ \\r\n\ \\r\n\ \\ENQ\EOT\DC3\STX\NUL\ETX\DC2\EOT\156\SOH\DLE\DC1\n\ \\f\n\ \\EOT\EOT\DC3\STX\SOH\DC2\EOT\157\SOH\EOT\CAN\n\ \\r\n\ \\ENQ\EOT\DC3\STX\SOH\ENQ\DC2\EOT\157\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\DC3\STX\SOH\SOH\DC2\EOT\157\SOH\n\ \\DC3\n\ \\r\n\ \\ENQ\EOT\DC3\STX\SOH\ETX\DC2\EOT\157\SOH\SYN\ETB\n\ \\f\n\ \\EOT\EOT\DC3\STX\STX\DC2\EOT\158\SOH\EOT\CAN\n\ \\r\n\ \\ENQ\EOT\DC3\STX\STX\ENQ\DC2\EOT\158\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\DC3\STX\STX\SOH\DC2\EOT\158\SOH\n\ \\DC3\n\ \\r\n\ \\ENQ\EOT\DC3\STX\STX\ETX\DC2\EOT\158\SOH\SYN\ETB\n\ \G\n\ \\STX\EOT\DC4\DC2\ACK\163\SOH\NUL\166\SOH\SOH\SUB9 Represents a key-value pair for Plutus data in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT\DC4\SOH\DC2\EOT\163\SOH\b\SYN\n\ \ \n\ \\EOT\EOT\DC4\STX\NUL\DC2\EOT\164\SOH\STX\NAK\"\DC2 Key of the pair.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC4\STX\NUL\ACK\DC2\EOT\164\SOH\STX\f\n\ \\r\n\ \\ENQ\EOT\DC4\STX\NUL\SOH\DC2\EOT\164\SOH\r\DLE\n\ \\r\n\ \\ENQ\EOT\DC4\STX\NUL\ETX\DC2\EOT\164\SOH\DC3\DC4\n\ \\"\n\ \\EOT\EOT\DC4\STX\SOH\DC2\EOT\165\SOH\STX\ETB\"\DC4 Value of the pair.\n\ \\n\ \\r\n\ \\ENQ\EOT\DC4\STX\SOH\ACK\DC2\EOT\165\SOH\STX\f\n\ \\r\n\ \\ENQ\EOT\DC4\STX\SOH\SOH\DC2\EOT\165\SOH\r\DC2\n\ \\r\n\ \\ENQ\EOT\DC4\STX\SOH\ETX\DC2\EOT\165\SOH\NAK\SYN\n\ \9\n\ \\STX\EOT\NAK\DC2\ACK\169\SOH\NUL\177\SOH\SOH\SUB+ Represents a Plutus data item in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT\NAK\SOH\DC2\EOT\169\SOH\b\DC2\n\ \\SO\n\ \\EOT\EOT\NAK\b\NUL\DC2\ACK\170\SOH\STX\176\SOH\ETX\n\ \\r\n\ \\ENQ\EOT\NAK\b\NUL\SOH\DC2\EOT\170\SOH\b\DC3\n\ \\FS\n\ \\EOT\EOT\NAK\STX\NUL\DC2\EOT\171\SOH\EOT\SYN\"\SO Constructor.\n\ \\n\ \\r\n\ \\ENQ\EOT\NAK\STX\NUL\ACK\DC2\EOT\171\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\NAK\STX\NUL\SOH\DC2\EOT\171\SOH\v\DC1\n\ \\r\n\ \\ENQ\EOT\NAK\STX\NUL\ETX\DC2\EOT\171\SOH\DC4\NAK\n\ \#\n\ \\EOT\EOT\NAK\STX\SOH\DC2\EOT\172\SOH\EOT\SUB\"\NAK Map of Plutus data.\n\ \\n\ \\r\n\ \\ENQ\EOT\NAK\STX\SOH\ACK\DC2\EOT\172\SOH\EOT\DC1\n\ \\r\n\ \\ENQ\EOT\NAK\STX\SOH\SOH\DC2\EOT\172\SOH\DC2\NAK\n\ \\r\n\ \\ENQ\EOT\NAK\STX\SOH\ETX\DC2\EOT\172\SOH\CAN\EM\n\ \\FS\n\ \\EOT\EOT\NAK\STX\STX\DC2\EOT\173\SOH\EOT\ETB\"\SO Big integer.\n\ \\n\ \\r\n\ \\ENQ\EOT\NAK\STX\STX\ACK\DC2\EOT\173\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\NAK\STX\STX\SOH\DC2\EOT\173\SOH\v\DC2\n\ \\r\n\ \\ENQ\EOT\NAK\STX\STX\ETX\DC2\EOT\173\SOH\NAK\SYN\n\ \\RS\n\ \\EOT\EOT\NAK\STX\ETX\DC2\EOT\174\SOH\EOT\FS\"\DLE Bounded bytes.\n\ \\n\ \\r\n\ \\ENQ\EOT\NAK\STX\ETX\ENQ\DC2\EOT\174\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\NAK\STX\ETX\SOH\DC2\EOT\174\SOH\n\ \\ETB\n\ \\r\n\ \\ENQ\EOT\NAK\STX\ETX\ETX\DC2\EOT\174\SOH\SUB\ESC\n\ \%\n\ \\EOT\EOT\NAK\STX\EOT\DC2\EOT\175\SOH\EOT\RS\"\ETB Array of Plutus data.\n\ \\n\ \\r\n\ \\ENQ\EOT\NAK\STX\EOT\ACK\DC2\EOT\175\SOH\EOT\DC3\n\ \\r\n\ \\ENQ\EOT\NAK\STX\EOT\SOH\DC2\EOT\175\SOH\DC4\EM\n\ \\r\n\ \\ENQ\EOT\NAK\STX\EOT\ETX\DC2\EOT\175\SOH\FS\GS\n\ \;\n\ \\STX\EOT\SYN\DC2\ACK\180\SOH\NUL\182\SOH\SOH\SUB- Represents a map of Plutus data in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT\SYN\SOH\DC2\EOT\180\SOH\b\NAK\n\ \(\n\ \\EOT\EOT\SYN\STX\NUL\DC2\EOT\181\SOH\STX$\"\SUB List of key-value pairs.\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\NUL\EOT\DC2\EOT\181\SOH\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\SYN\STX\NUL\ACK\DC2\EOT\181\SOH\v\EM\n\ \\r\n\ \\ENQ\EOT\SYN\STX\NUL\SOH\DC2\EOT\181\SOH\SUB\US\n\ \\r\n\ \\ENQ\EOT\SYN\STX\NUL\ETX\DC2\EOT\181\SOH\"#\n\ \>\n\ \\STX\EOT\ETB\DC2\ACK\185\SOH\NUL\187\SOH\SOH\SUB0 Represents an array of Plutus data in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT\ETB\SOH\DC2\EOT\185\SOH\b\ETB\n\ \*\n\ \\EOT\EOT\ETB\STX\NUL\DC2\EOT\186\SOH\STX \"\FS List of Plutus data items.\n\ \\n\ \\r\n\ \\ENQ\EOT\ETB\STX\NUL\EOT\DC2\EOT\186\SOH\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\ETB\STX\NUL\ACK\DC2\EOT\186\SOH\v\NAK\n\ \\r\n\ \\ENQ\EOT\ETB\STX\NUL\SOH\DC2\EOT\186\SOH\SYN\ESC\n\ \\r\n\ \\ENQ\EOT\ETB\STX\NUL\ETX\DC2\EOT\186\SOH\RS\US\n\ \/\n\ \\STX\EOT\CAN\DC2\ACK\190\SOH\NUL\196\SOH\SOH\SUB! Represents a script in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT\CAN\SOH\DC2\EOT\190\SOH\b\SO\n\ \\SO\n\ \\EOT\EOT\CAN\b\NUL\DC2\ACK\191\SOH\STX\195\SOH\ETX\n\ \\r\n\ \\ENQ\EOT\CAN\b\NUL\SOH\DC2\EOT\191\SOH\b\SO\n\ \\RS\n\ \\EOT\EOT\CAN\STX\NUL\DC2\EOT\192\SOH\EOT\FS\"\DLE Native script.\n\ \\n\ \\r\n\ \\ENQ\EOT\CAN\STX\NUL\ACK\DC2\EOT\192\SOH\EOT\DLE\n\ \\r\n\ \\ENQ\EOT\CAN\STX\NUL\SOH\DC2\EOT\192\SOH\DC1\ETB\n\ \\r\n\ \\ENQ\EOT\CAN\STX\NUL\ETX\DC2\EOT\192\SOH\SUB\ESC\n\ \!\n\ \\EOT\EOT\CAN\STX\SOH\DC2\EOT\193\SOH\EOT\CAN\"\DC3 Plutus V1 script.\n\ \\n\ \\r\n\ \\ENQ\EOT\CAN\STX\SOH\ENQ\DC2\EOT\193\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\CAN\STX\SOH\SOH\DC2\EOT\193\SOH\n\ \\DC3\n\ \\r\n\ \\ENQ\EOT\CAN\STX\SOH\ETX\DC2\EOT\193\SOH\SYN\ETB\n\ \!\n\ \\EOT\EOT\CAN\STX\STX\DC2\EOT\194\SOH\EOT\CAN\"\DC3 Plutus V2 script.\n\ \\n\ \\r\n\ \\ENQ\EOT\CAN\STX\STX\ENQ\DC2\EOT\194\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\CAN\STX\STX\SOH\DC2\EOT\194\SOH\n\ \\DC3\n\ \\r\n\ \\ENQ\EOT\CAN\STX\STX\ETX\DC2\EOT\194\SOH\SYN\ETB\n\ \\f\n\ \\STX\EOT\EM\DC2\ACK\198\SOH\NUL\206\SOH\SOH\n\ \\v\n\ \\ETX\EOT\EM\SOH\DC2\EOT\198\SOH\b\DC1\n\ \\SO\n\ \\EOT\EOT\EM\b\NUL\DC2\ACK\199\SOH\STX\205\SOH\ETX\n\ \\r\n\ \\ENQ\EOT\EM\b\NUL\SOH\DC2\EOT\199\SOH\b\DC1\n\ \\f\n\ \\EOT\EOT\EM\STX\NUL\DC2\EOT\200\SOH\EOT\DC2\n\ \\r\n\ \\ENQ\EOT\EM\STX\NUL\ENQ\DC2\EOT\200\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\EM\STX\NUL\SOH\DC2\EOT\200\SOH\n\ \\r\n\ \\r\n\ \\ENQ\EOT\EM\STX\NUL\ETX\DC2\EOT\200\SOH\DLE\DC1\n\ \\f\n\ \\EOT\EOT\EM\STX\SOH\DC2\EOT\201\SOH\EOT\DC4\n\ \\r\n\ \\ENQ\EOT\EM\STX\SOH\ENQ\DC2\EOT\201\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\EM\STX\SOH\SOH\DC2\EOT\201\SOH\n\ \\SI\n\ \\r\n\ \\ENQ\EOT\EM\STX\SOH\ETX\DC2\EOT\201\SOH\DC2\DC3\n\ \\f\n\ \\EOT\EOT\EM\STX\STX\DC2\EOT\202\SOH\EOT\DC4\n\ \\r\n\ \\ENQ\EOT\EM\STX\STX\ENQ\DC2\EOT\202\SOH\EOT\n\ \\n\ \\r\n\ \\ENQ\EOT\EM\STX\STX\SOH\DC2\EOT\202\SOH\v\SI\n\ \\r\n\ \\ENQ\EOT\EM\STX\STX\ETX\DC2\EOT\202\SOH\DC2\DC3\n\ \\f\n\ \\EOT\EOT\EM\STX\ETX\DC2\EOT\203\SOH\EOT\GS\n\ \\r\n\ \\ENQ\EOT\EM\STX\ETX\ACK\DC2\EOT\203\SOH\EOT\DC2\n\ \\r\n\ \\ENQ\EOT\EM\STX\ETX\SOH\DC2\EOT\203\SOH\DC3\CAN\n\ \\r\n\ \\ENQ\EOT\EM\STX\ETX\ETX\DC2\EOT\203\SOH\ESC\FS\n\ \\f\n\ \\EOT\EOT\EM\STX\EOT\DC2\EOT\204\SOH\EOT\EM\n\ \\r\n\ \\ENQ\EOT\EM\STX\EOT\ACK\DC2\EOT\204\SOH\EOT\DLE\n\ \\r\n\ \\ENQ\EOT\EM\STX\EOT\SOH\DC2\EOT\204\SOH\DC1\DC4\n\ \\r\n\ \\ENQ\EOT\EM\STX\EOT\ETX\DC2\EOT\204\SOH\ETB\CAN\n\ \\f\n\ \\STX\EOT\SUB\DC2\ACK\208\SOH\NUL\210\SOH\SOH\n\ \\v\n\ \\ETX\EOT\SUB\SOH\DC2\EOT\208\SOH\b\SYN\n\ \\f\n\ \\EOT\EOT\SUB\STX\NUL\DC2\EOT\209\SOH\STX\US\n\ \\r\n\ \\ENQ\EOT\SUB\STX\NUL\EOT\DC2\EOT\209\SOH\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\SUB\STX\NUL\ACK\DC2\EOT\209\SOH\v\DC4\n\ \\r\n\ \\ENQ\EOT\SUB\STX\NUL\SOH\DC2\EOT\209\SOH\NAK\SUB\n\ \\r\n\ \\ENQ\EOT\SUB\STX\NUL\ETX\DC2\EOT\209\SOH\GS\RS\n\ \\f\n\ \\STX\EOT\ESC\DC2\ACK\212\SOH\NUL\214\SOH\SOH\n\ \\v\n\ \\ETX\EOT\ESC\SOH\DC2\EOT\212\SOH\b\DC4\n\ \\f\n\ \\EOT\EOT\ESC\STX\NUL\DC2\EOT\213\SOH\STX#\n\ \\r\n\ \\ENQ\EOT\ESC\STX\NUL\EOT\DC2\EOT\213\SOH\STX\n\ \\n\ \\r\n\ \\ENQ\EOT\ESC\STX\NUL\ACK\DC2\EOT\213\SOH\v\CAN\n\ \\r\n\ \\ENQ\EOT\ESC\STX\NUL\SOH\DC2\EOT\213\SOH\EM\RS\n\ \\r\n\ \\ENQ\EOT\ESC\STX\NUL\ETX\DC2\EOT\213\SOH!\"\n\ \\f\n\ \\STX\EOT\FS\DC2\ACK\216\SOH\NUL\219\SOH\SOH\n\ \\v\n\ \\ETX\EOT\FS\SOH\DC2\EOT\216\SOH\b\NAK\n\ \\f\n\ \\EOT\EOT\FS\STX\NUL\DC2\EOT\217\SOH\STX\DC4\n\ \\r\n\ \\ENQ\EOT\FS\STX\NUL\ACK\DC2\EOT\217\SOH\STX\v\n\ \\r\n\ \\ENQ\EOT\FS\STX\NUL\SOH\DC2\EOT\217\SOH\f\SI\n\ \\r\n\ \\ENQ\EOT\FS\STX\NUL\ETX\DC2\EOT\217\SOH\DC2\DC3\n\ \\f\n\ \\EOT\EOT\FS\STX\SOH\DC2\EOT\218\SOH\STX\SYN\n\ \\r\n\ \\ENQ\EOT\FS\STX\SOH\ACK\DC2\EOT\218\SOH\STX\v\n\ \\r\n\ \\ENQ\EOT\FS\STX\SOH\SOH\DC2\EOT\218\SOH\f\DC1\n\ \\r\n\ \\ENQ\EOT\FS\STX\SOH\ETX\DC2\EOT\218\SOH\DC4\NAK\n\ \\f\n\ \\STX\EOT\GS\DC2\ACK\221\SOH\NUL\224\SOH\SOH\n\ \\v\n\ \\ETX\EOT\GS\SOH\DC2\EOT\221\SOH\b\DLE\n\ \\f\n\ \\EOT\EOT\GS\STX\NUL\DC2\EOT\222\SOH\STX\DC3\n\ \\r\n\ \\ENQ\EOT\GS\STX\NUL\ENQ\DC2\EOT\222\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\GS\STX\NUL\SOH\DC2\EOT\222\SOH\t\SO\n\ \\r\n\ \\ENQ\EOT\GS\STX\NUL\ETX\DC2\EOT\222\SOH\DC1\DC2\n\ \\f\n\ \\EOT\EOT\GS\STX\SOH\DC2\EOT\223\SOH\STX\SYN\n\ \\r\n\ \\ENQ\EOT\GS\STX\SOH\ACK\DC2\EOT\223\SOH\STX\v\n\ \\r\n\ \\ENQ\EOT\GS\STX\SOH\SOH\DC2\EOT\223\SOH\f\DC1\n\ \\r\n\ \\ENQ\EOT\GS\STX\SOH\ETX\DC2\EOT\223\SOH\DC4\NAK\n\ \9\n\ \\STX\EOT\RS\DC2\ACK\227\SOH\NUL\232\SOH\SOH\SUB+ Represents a stake credential in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT\RS\SOH\DC2\EOT\227\SOH\b\ETB\n\ \\SO\n\ \\EOT\EOT\RS\b\NUL\DC2\ACK\228\SOH\STX\231\SOH\ETX\n\ \\r\n\ \\ENQ\EOT\RS\b\NUL\SOH\DC2\EOT\228\SOH\b\CAN\n\ \!\n\ \\EOT\EOT\RS\STX\NUL\DC2\EOT\229\SOH\EOT\FS\"\DC3 Address key hash.\n\ \\n\ \\r\n\ \\ENQ\EOT\RS\STX\NUL\ENQ\DC2\EOT\229\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\RS\STX\NUL\SOH\DC2\EOT\229\SOH\n\ \\ETB\n\ \\r\n\ \\ENQ\EOT\RS\STX\NUL\ETX\DC2\EOT\229\SOH\SUB\ESC\n\ \\FS\n\ \\EOT\EOT\RS\STX\SOH\DC2\EOT\230\SOH\EOT\SUB\"\SO Script hash.\n\ \\n\ \\r\n\ \\ENQ\EOT\RS\STX\SOH\ENQ\DC2\EOT\230\SOH\EOT\t\n\ \\r\n\ \\ENQ\EOT\RS\STX\SOH\SOH\DC2\EOT\230\SOH\n\ \\NAK\n\ \\r\n\ \\ENQ\EOT\RS\STX\SOH\ETX\DC2\EOT\230\SOH\CAN\EM\n\ \;\n\ \\STX\EOT\US\DC2\ACK\235\SOH\NUL\238\SOH\SOH\SUB- Represents a rational number as a fraction.\n\ \\n\ \\v\n\ \\ETX\EOT\US\SOH\DC2\EOT\235\SOH\b\SYN\n\ \\f\n\ \\EOT\EOT\US\STX\NUL\DC2\EOT\236\SOH\STX\SYN\n\ \\r\n\ \\ENQ\EOT\US\STX\NUL\ENQ\DC2\EOT\236\SOH\STX\a\n\ \\r\n\ \\ENQ\EOT\US\STX\NUL\SOH\DC2\EOT\236\SOH\b\DC1\n\ \\r\n\ \\ENQ\EOT\US\STX\NUL\ETX\DC2\EOT\236\SOH\DC4\NAK\n\ \\f\n\ \\EOT\EOT\US\STX\SOH\DC2\EOT\237\SOH\STX\EM\n\ \\r\n\ \\ENQ\EOT\US\STX\SOH\ENQ\DC2\EOT\237\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT\US\STX\SOH\SOH\DC2\EOT\237\SOH\t\DC4\n\ \\r\n\ \\ENQ\EOT\US\STX\SOH\ETX\DC2\EOT\237\SOH\ETB\CAN\n\ \.\n\ \\STX\EOT \DC2\ACK\241\SOH\NUL\246\SOH\SOH\SUB Represents a relay in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT \SOH\DC2\EOT\241\SOH\b\r\n\ \\f\n\ \\EOT\EOT \STX\NUL\DC2\EOT\242\SOH\STX\DC2\n\ \\r\n\ \\ENQ\EOT \STX\NUL\ENQ\DC2\EOT\242\SOH\STX\a\n\ \\r\n\ \\ENQ\EOT \STX\NUL\SOH\DC2\EOT\242\SOH\b\r\n\ \\r\n\ \\ENQ\EOT \STX\NUL\ETX\DC2\EOT\242\SOH\DLE\DC1\n\ \\f\n\ \\EOT\EOT \STX\SOH\DC2\EOT\243\SOH\STX\DC2\n\ \\r\n\ \\ENQ\EOT \STX\SOH\ENQ\DC2\EOT\243\SOH\STX\a\n\ \\r\n\ \\ENQ\EOT \STX\SOH\SOH\DC2\EOT\243\SOH\b\r\n\ \\r\n\ \\ENQ\EOT \STX\SOH\ETX\DC2\EOT\243\SOH\DLE\DC1\n\ \\f\n\ \\EOT\EOT \STX\STX\DC2\EOT\244\SOH\STX\SYN\n\ \\r\n\ \\ENQ\EOT \STX\STX\ENQ\DC2\EOT\244\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT \STX\STX\SOH\DC2\EOT\244\SOH\t\DC1\n\ \\r\n\ \\ENQ\EOT \STX\STX\ETX\DC2\EOT\244\SOH\DC4\NAK\n\ \\f\n\ \\EOT\EOT \STX\ETX\DC2\EOT\245\SOH\STX\DC2\n\ \\r\n\ \\ENQ\EOT \STX\ETX\ENQ\DC2\EOT\245\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT \STX\ETX\SOH\DC2\EOT\245\SOH\t\r\n\ \\r\n\ \\ENQ\EOT \STX\ETX\ETX\DC2\EOT\245\SOH\DLE\DC1\n\ \4\n\ \\STX\EOT!\DC2\ACK\249\SOH\NUL\252\SOH\SOH\SUB& Represents pool metadata in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT!\SOH\DC2\EOT\249\SOH\b\DC4\n\ \\f\n\ \\EOT\EOT!\STX\NUL\DC2\EOT\250\SOH\STX\DC1\n\ \\r\n\ \\ENQ\EOT!\STX\NUL\ENQ\DC2\EOT\250\SOH\STX\b\n\ \\r\n\ \\ENQ\EOT!\STX\NUL\SOH\DC2\EOT\250\SOH\t\f\n\ \\r\n\ \\ENQ\EOT!\STX\NUL\ETX\DC2\EOT\250\SOH\SI\DLE\n\ \\f\n\ \\EOT\EOT!\STX\SOH\DC2\EOT\251\SOH\STX\DC1\n\ \\r\n\ \\ENQ\EOT!\STX\SOH\ENQ\DC2\EOT\251\SOH\STX\a\n\ \\r\n\ \\ENQ\EOT!\STX\SOH\SOH\DC2\EOT\251\SOH\b\f\n\ \\r\n\ \\ENQ\EOT!\STX\SOH\ETX\DC2\EOT\251\SOH\SI\DLE\n\ \4\n\ \\STX\EOT\"\DC2\ACK\255\SOH\NUL\137\STX\SOH\SUB& Represents a certificate in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT\"\SOH\DC2\EOT\255\SOH\b\DC3\n\ \\SO\n\ \\EOT\EOT\"\b\NUL\DC2\ACK\128\STX\STX\136\STX\ETX\n\ \\r\n\ \\ENQ\EOT\"\b\NUL\SOH\DC2\EOT\128\STX\b\DC3\n\ \/\n\ \\EOT\EOT\"\STX\NUL\DC2\EOT\129\STX\EOT+\"! Stake registration certificate.\n\ \\n\ \\r\n\ \\ENQ\EOT\"\STX\NUL\ACK\DC2\EOT\129\STX\EOT\DC3\n\ \\r\n\ \\ENQ\EOT\"\STX\NUL\SOH\DC2\EOT\129\STX\DC4&\n\ \\r\n\ \\ENQ\EOT\"\STX\NUL\ETX\DC2\EOT\129\STX)*\n\ \1\n\ \\EOT\EOT\"\STX\SOH\DC2\EOT\130\STX\EOT-\"# Stake deregistration certificate.\n\ \\n\ \\r\n\ \\ENQ\EOT\"\STX\SOH\ACK\DC2\EOT\130\STX\EOT\DC3\n\ \\r\n\ \\ENQ\EOT\"\STX\SOH\SOH\DC2\EOT\130\STX\DC4(\n\ \\r\n\ \\ENQ\EOT\"\STX\SOH\ETX\DC2\EOT\130\STX+,\n\ \-\n\ \\EOT\EOT\"\STX\STX\DC2\EOT\131\STX\EOT-\"\US Stake delegation certificate.\n\ \\n\ \\r\n\ \\ENQ\EOT\"\STX\STX\ACK\DC2\EOT\131\STX\EOT\ETB\n\ \\r\n\ \\ENQ\EOT\"\STX\STX\SOH\DC2\EOT\131\STX\CAN(\n\ \\r\n\ \\ENQ\EOT\"\STX\STX\ETX\DC2\EOT\131\STX+,\n\ \.\n\ \\EOT\EOT\"\STX\ETX\DC2\EOT\132\STX\EOT/\" Pool registration certificate.\n\ \\n\ \\r\n\ \\ENQ\EOT\"\STX\ETX\ACK\DC2\EOT\132\STX\EOT\CAN\n\ \\r\n\ \\ENQ\EOT\"\STX\ETX\SOH\DC2\EOT\132\STX\EM*\n\ \\r\n\ \\ENQ\EOT\"\STX\ETX\ETX\DC2\EOT\132\STX-.\n\ \,\n\ \\EOT\EOT\"\STX\EOT\DC2\EOT\133\STX\EOT+\"\RS Pool retirement certificate.\n\ \\n\ \\r\n\ \\ENQ\EOT\"\STX\EOT\ACK\DC2\EOT\133\STX\EOT\SYN\n\ \\r\n\ \\ENQ\EOT\"\STX\EOT\SOH\DC2\EOT\133\STX\ETB&\n\ \\r\n\ \\ENQ\EOT\"\STX\EOT\ETX\DC2\EOT\133\STX)*\n\ \3\n\ \\EOT\EOT\"\STX\ENQ\DC2\EOT\134\STX\EOT8\"% Genesis key delegation certificate.\n\ \\n\ \\r\n\ \\ENQ\EOT\"\STX\ENQ\ACK\DC2\EOT\134\STX\EOT\FS\n\ \\r\n\ \\ENQ\EOT\"\STX\ENQ\SOH\DC2\EOT\134\STX\GS3\n\ \\r\n\ \\ENQ\EOT\"\STX\ENQ\ETX\DC2\EOT\134\STX67\n\ \7\n\ \\EOT\EOT\"\STX\ACK\DC2\EOT\135\STX\EOT\EM\") Move instantaneous rewards certificate.\n\ \\n\ \\r\n\ \\ENQ\EOT\"\STX\ACK\ACK\DC2\EOT\135\STX\EOT\v\n\ \\r\n\ \\ENQ\EOT\"\STX\ACK\SOH\DC2\EOT\135\STX\f\DC4\n\ \\r\n\ \\ENQ\EOT\"\STX\ACK\ETX\DC2\EOT\135\STX\ETB\CAN\n\ \E\n\ \\STX\EOT#\DC2\ACK\140\STX\NUL\143\STX\SOH\SUB7 Represents a stake delegation certificate in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT#\SOH\DC2\EOT\140\STX\b\ESC\n\ \!\n\ \\EOT\EOT#\STX\NUL\DC2\EOT\141\STX\STX'\"\DC3 Stake credential.\n\ \\n\ \\r\n\ \\ENQ\EOT#\STX\NUL\ACK\DC2\EOT\141\STX\STX\DC1\n\ \\r\n\ \\ENQ\EOT#\STX\NUL\SOH\DC2\EOT\141\STX\DC2\"\n\ \\r\n\ \\ENQ\EOT#\STX\NUL\ETX\DC2\EOT\141\STX%&\n\ \\RS\n\ \\EOT\EOT#\STX\SOH\DC2\EOT\142\STX\STX\EM\"\DLE Pool key hash.\n\ \\n\ \\r\n\ \\ENQ\EOT#\STX\SOH\ENQ\DC2\EOT\142\STX\STX\a\n\ \\r\n\ \\ENQ\EOT#\STX\SOH\SOH\DC2\EOT\142\STX\b\DC4\n\ \\r\n\ \\ENQ\EOT#\STX\SOH\ETX\DC2\EOT\142\STX\ETB\CAN\n\ \F\n\ \\STX\EOT$\DC2\ACK\146\STX\NUL\156\STX\SOH\SUB8 Represents a pool registration certificate in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT$\SOH\DC2\EOT\146\STX\b\FS\n\ \\"\n\ \\EOT\EOT$\STX\NUL\DC2\EOT\147\STX\STX\NAK\"\DC4 Operator key hash.\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\NUL\ENQ\DC2\EOT\147\STX\STX\a\n\ \\r\n\ \\ENQ\EOT$\STX\NUL\SOH\DC2\EOT\147\STX\b\DLE\n\ \\r\n\ \\ENQ\EOT$\STX\NUL\ETX\DC2\EOT\147\STX\DC3\DC4\n\ \\GS\n\ \\EOT\EOT$\STX\SOH\DC2\EOT\148\STX\STX\CAN\"\SI VRF key hash.\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\SOH\ENQ\DC2\EOT\148\STX\STX\a\n\ \\r\n\ \\ENQ\EOT$\STX\SOH\SOH\DC2\EOT\148\STX\b\DC3\n\ \\r\n\ \\ENQ\EOT$\STX\SOH\ETX\DC2\EOT\148\STX\SYN\ETB\n\ \\RS\n\ \\EOT\EOT$\STX\STX\DC2\EOT\149\STX\STX\DC4\"\DLE Pledge amount.\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\STX\ENQ\DC2\EOT\149\STX\STX\b\n\ \\r\n\ \\ENQ\EOT$\STX\STX\SOH\DC2\EOT\149\STX\t\SI\n\ \\r\n\ \\ENQ\EOT$\STX\STX\ETX\DC2\EOT\149\STX\DC2\DC3\n\ \\SUB\n\ \\EOT\EOT$\STX\ETX\DC2\EOT\150\STX\STX\DC2\"\f Pool cost.\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\ETX\ENQ\DC2\EOT\150\STX\STX\b\n\ \\r\n\ \\ENQ\EOT$\STX\ETX\SOH\DC2\EOT\150\STX\t\r\n\ \\r\n\ \\ENQ\EOT$\STX\ETX\ETX\DC2\EOT\150\STX\DLE\DC1\n\ \\FS\n\ \\EOT\EOT$\STX\EOT\DC2\EOT\151\STX\STX\FS\"\SO Pool margin.\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\EOT\ACK\DC2\EOT\151\STX\STX\DLE\n\ \\r\n\ \\ENQ\EOT$\STX\EOT\SOH\DC2\EOT\151\STX\DC1\ETB\n\ \\r\n\ \\ENQ\EOT$\STX\EOT\ETX\DC2\EOT\151\STX\SUB\ESC\n\ \\US\n\ \\EOT\EOT$\STX\ENQ\DC2\EOT\152\STX\STX\ESC\"\DC1 Reward account.\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\ENQ\ENQ\DC2\EOT\152\STX\STX\a\n\ \\r\n\ \\ENQ\EOT$\STX\ENQ\SOH\DC2\EOT\152\STX\b\SYN\n\ \\r\n\ \\ENQ\EOT$\STX\ENQ\ETX\DC2\EOT\152\STX\EM\SUB\n\ \.\n\ \\EOT\EOT$\STX\ACK\DC2\EOT\153\STX\STX!\" List of pool owner key hashes.\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\ACK\EOT\DC2\EOT\153\STX\STX\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\ACK\ENQ\DC2\EOT\153\STX\v\DLE\n\ \\r\n\ \\ENQ\EOT$\STX\ACK\SOH\DC2\EOT\153\STX\DC1\FS\n\ \\r\n\ \\ENQ\EOT$\STX\ACK\ETX\DC2\EOT\153\STX\US \n\ \\US\n\ \\EOT\EOT$\STX\a\DC2\EOT\154\STX\STX\FS\"\DC1 List of relays.\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\a\EOT\DC2\EOT\154\STX\STX\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\a\ACK\DC2\EOT\154\STX\v\DLE\n\ \\r\n\ \\ENQ\EOT$\STX\a\SOH\DC2\EOT\154\STX\DC1\ETB\n\ \\r\n\ \\ENQ\EOT$\STX\a\ETX\DC2\EOT\154\STX\SUB\ESC\n\ \\RS\n\ \\EOT\EOT$\STX\b\DC2\EOT\155\STX\STX!\"\DLE Pool metadata.\n\ \\n\ \\r\n\ \\ENQ\EOT$\STX\b\ACK\DC2\EOT\155\STX\STX\SO\n\ \\r\n\ \\ENQ\EOT$\STX\b\SOH\DC2\EOT\155\STX\SI\FS\n\ \\r\n\ \\ENQ\EOT$\STX\b\ETX\DC2\EOT\155\STX\US \n\ \D\n\ \\STX\EOT%\DC2\ACK\159\STX\NUL\162\STX\SOH\SUB6 Represents a pool retirement certificate in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT%\SOH\DC2\EOT\159\STX\b\SUB\n\ \\RS\n\ \\EOT\EOT%\STX\NUL\DC2\EOT\160\STX\STX\EM\"\DLE Pool key hash.\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\NUL\ENQ\DC2\EOT\160\STX\STX\a\n\ \\r\n\ \\ENQ\EOT%\STX\NUL\SOH\DC2\EOT\160\STX\b\DC4\n\ \\r\n\ \\ENQ\EOT%\STX\NUL\ETX\DC2\EOT\160\STX\ETB\CAN\n\ \!\n\ \\EOT\EOT%\STX\SOH\DC2\EOT\161\STX\STX\DC3\"\DC3 Retirement epoch.\n\ \\n\ \\r\n\ \\ENQ\EOT%\STX\SOH\ENQ\DC2\EOT\161\STX\STX\b\n\ \\r\n\ \\ENQ\EOT%\STX\SOH\SOH\DC2\EOT\161\STX\t\SO\n\ \\r\n\ \\ENQ\EOT%\STX\SOH\ETX\DC2\EOT\161\STX\DC1\DC2\n\ \K\n\ \\STX\EOT&\DC2\ACK\165\STX\NUL\169\STX\SOH\SUB= Represents a genesis key delegation certificate in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT&\SOH\DC2\EOT\165\STX\b \n\ \\GS\n\ \\EOT\EOT&\STX\NUL\DC2\EOT\166\STX\STX\EM\"\SI Genesis hash.\n\ \\n\ \\r\n\ \\ENQ\EOT&\STX\NUL\ENQ\DC2\EOT\166\STX\STX\a\n\ \\r\n\ \\ENQ\EOT&\STX\NUL\SOH\DC2\EOT\166\STX\b\DC4\n\ \\r\n\ \\ENQ\EOT&\STX\NUL\ETX\DC2\EOT\166\STX\ETB\CAN\n\ \&\n\ \\EOT\EOT&\STX\SOH\DC2\EOT\167\STX\STX\"\"\CAN Genesis delegate hash.\n\ \\n\ \\r\n\ \\ENQ\EOT&\STX\SOH\ENQ\DC2\EOT\167\STX\STX\a\n\ \\r\n\ \\ENQ\EOT&\STX\SOH\SOH\DC2\EOT\167\STX\b\GS\n\ \\r\n\ \\ENQ\EOT&\STX\SOH\ETX\DC2\EOT\167\STX !\n\ \\GS\n\ \\EOT\EOT&\STX\STX\DC2\EOT\168\STX\STX\CAN\"\SI VRF key hash.\n\ \\n\ \\r\n\ \\ENQ\EOT&\STX\STX\ENQ\DC2\EOT\168\STX\STX\a\n\ \\r\n\ \\ENQ\EOT&\STX\STX\SOH\DC2\EOT\168\STX\b\DC3\n\ \\r\n\ \\ENQ\EOT&\STX\STX\ETX\DC2\EOT\168\STX\SYN\ETB\n\ \\f\n\ \\STX\ENQ\SOH\DC2\ACK\171\STX\NUL\175\STX\SOH\n\ \\v\n\ \\ETX\ENQ\SOH\SOH\DC2\EOT\171\STX\ENQ\SO\n\ \\f\n\ \\EOT\ENQ\SOH\STX\NUL\DC2\EOT\172\STX\STX\GS\n\ \\r\n\ \\ENQ\ENQ\SOH\STX\NUL\SOH\DC2\EOT\172\STX\STX\CAN\n\ \\r\n\ \\ENQ\ENQ\SOH\STX\NUL\STX\DC2\EOT\172\STX\ESC\FS\n\ \\f\n\ \\EOT\ENQ\SOH\STX\SOH\DC2\EOT\173\STX\STX\SUB\n\ \\r\n\ \\ENQ\ENQ\SOH\STX\SOH\SOH\DC2\EOT\173\STX\STX\NAK\n\ \\r\n\ \\ENQ\ENQ\SOH\STX\SOH\STX\DC2\EOT\173\STX\CAN\EM\n\ \\f\n\ \\EOT\ENQ\SOH\STX\STX\DC2\EOT\174\STX\STX\SUB\n\ \\r\n\ \\ENQ\ENQ\SOH\STX\STX\SOH\DC2\EOT\174\STX\STX\NAK\n\ \\r\n\ \\ENQ\ENQ\SOH\STX\STX\STX\DC2\EOT\174\STX\CAN\EM\n\ \\f\n\ \\STX\EOT'\DC2\ACK\177\STX\NUL\180\STX\SOH\n\ \\v\n\ \\ETX\EOT'\SOH\DC2\EOT\177\STX\b\DC1\n\ \\f\n\ \\EOT\EOT'\STX\NUL\DC2\EOT\178\STX\STX'\n\ \\r\n\ \\ENQ\EOT'\STX\NUL\ACK\DC2\EOT\178\STX\STX\DC1\n\ \\r\n\ \\ENQ\EOT'\STX\NUL\SOH\DC2\EOT\178\STX\DC2\"\n\ \\r\n\ \\ENQ\EOT'\STX\NUL\ETX\DC2\EOT\178\STX%&\n\ \\f\n\ \\EOT\EOT'\STX\SOH\DC2\EOT\179\STX\STX\ETB\n\ \\r\n\ \\ENQ\EOT'\STX\SOH\ENQ\DC2\EOT\179\STX\STX\a\n\ \\r\n\ \\ENQ\EOT'\STX\SOH\SOH\DC2\EOT\179\STX\b\DC2\n\ \\r\n\ \\ENQ\EOT'\STX\SOH\ETX\DC2\EOT\179\STX\NAK\SYN\n\ \N\n\ \\STX\EOT(\DC2\ACK\183\STX\NUL\187\STX\SOH\SUB@ Represents a move instantaneous reward certificate in Cardano.\n\ \\n\ \\v\n\ \\ETX\EOT(\SOH\DC2\EOT\183\STX\b\SI\n\ \\f\n\ \\EOT\EOT(\STX\NUL\DC2\EOT\184\STX\STX\NAK\n\ \\r\n\ \\ENQ\EOT(\STX\NUL\ACK\DC2\EOT\184\STX\STX\v\n\ \\r\n\ \\ENQ\EOT(\STX\NUL\SOH\DC2\EOT\184\STX\f\DLE\n\ \\r\n\ \\ENQ\EOT(\STX\NUL\ETX\DC2\EOT\184\STX\DC3\DC4\n\ \\f\n\ \\EOT\EOT(\STX\SOH\DC2\EOT\185\STX\STX\FS\n\ \\r\n\ \\ENQ\EOT(\STX\SOH\EOT\DC2\EOT\185\STX\STX\n\ \\n\ \\r\n\ \\ENQ\EOT(\STX\SOH\ACK\DC2\EOT\185\STX\v\DC4\n\ \\r\n\ \\ENQ\EOT(\STX\SOH\SOH\DC2\EOT\185\STX\NAK\ETB\n\ \\r\n\ \\ENQ\EOT(\STX\SOH\ETX\DC2\EOT\185\STX\SUB\ESC\n\ \\f\n\ \\EOT\EOT(\STX\STX\DC2\EOT\186\STX\STX\ETB\n\ \\r\n\ \\ENQ\EOT(\STX\STX\ENQ\DC2\EOT\186\STX\STX\b\n\ \\r\n\ \\ENQ\EOT(\STX\STX\SOH\DC2\EOT\186\STX\t\DC2\n\ \\r\n\ \\ENQ\EOT(\STX\STX\ETX\DC2\EOT\186\STX\NAK\SYN\n\ \}\n\ \\STX\EOT)\DC2\ACK\193\STX\NUL\197\STX\SOH\SUBI Pattern of an address that can be used to evaluate matching predicates.\n\ \2$ PATTERN MATCHING\n\ \ ================\n\ \\n\ \\v\n\ \\ETX\EOT)\SOH\DC2\EOT\193\STX\b\SYN\n\ \B\n\ \\EOT\EOT)\STX\NUL\DC2\EOT\194\STX\STX\SUB\"4 The address should match this exact address value.\n\ \\n\ \\r\n\ \\ENQ\EOT)\STX\NUL\ENQ\DC2\EOT\194\STX\STX\a\n\ \\r\n\ \\ENQ\EOT)\STX\NUL\SOH\DC2\EOT\194\STX\b\NAK\n\ \\r\n\ \\ENQ\EOT)\STX\NUL\ETX\DC2\EOT\194\STX\CAN\EM\n\ \H\n\ \\EOT\EOT)\STX\SOH\DC2\EOT\195\STX\STX\EM\": The payment part of the address should match this value.\n\ \\n\ \\r\n\ \\ENQ\EOT)\STX\SOH\ENQ\DC2\EOT\195\STX\STX\a\n\ \\r\n\ \\ENQ\EOT)\STX\SOH\SOH\DC2\EOT\195\STX\b\DC4\n\ \\r\n\ \\ENQ\EOT)\STX\SOH\ETX\DC2\EOT\195\STX\ETB\CAN\n\ \K\n\ \\EOT\EOT)\STX\STX\DC2\EOT\196\STX\STX\FS\"= The delegation part of the address should match this value.\n\ \\n\ \\r\n\ \\ENQ\EOT)\STX\STX\ENQ\DC2\EOT\196\STX\STX\a\n\ \\r\n\ \\ENQ\EOT)\STX\STX\SOH\DC2\EOT\196\STX\b\ETB\n\ \\r\n\ \\ENQ\EOT)\STX\STX\ETX\DC2\EOT\196\STX\SUB\ESC\n\ \[\n\ \\STX\EOT*\DC2\ACK\200\STX\NUL\203\STX\SOH\SUBM Pattern of a native asset that can be used to evaluate matching predicates.\n\ \\n\ \\v\n\ \\ETX\EOT*\SOH\DC2\EOT\200\STX\b\DC4\n\ \9\n\ \\EOT\EOT*\STX\NUL\DC2\EOT\201\STX\STX\SYN\"+ The asset should belong to this policy id\n\ \\n\ \\r\n\ \\ENQ\EOT*\STX\NUL\ENQ\DC2\EOT\201\STX\STX\a\n\ \\r\n\ \\ENQ\EOT*\STX\NUL\SOH\DC2\EOT\201\STX\b\DC1\n\ \\r\n\ \\ENQ\EOT*\STX\NUL\ETX\DC2\EOT\201\STX\DC4\NAK\n\ \2\n\ \\EOT\EOT*\STX\SOH\DC2\EOT\202\STX\STX\ETB\"$ The asset should present this name\n\ \\n\ \\r\n\ \\ENQ\EOT*\STX\SOH\ENQ\DC2\EOT\202\STX\STX\a\n\ \\r\n\ \\ENQ\EOT*\STX\SOH\SOH\DC2\EOT\202\STX\b\DC2\n\ \\r\n\ \\ENQ\EOT*\STX\SOH\ETX\DC2\EOT\202\STX\NAK\SYN\n\ \X\n\ \\STX\EOT+\DC2\ACK\206\STX\NUL\209\STX\SOH\SUBJ Pattern of a tx output that can be used to evaluate matching predicates.\n\ \\n\ \\v\n\ \\ETX\EOT+\SOH\DC2\EOT\206\STX\b\ETB\n\ \K\n\ \\EOT\EOT+\STX\NUL\DC2\EOT\207\STX\STX\GS\"= Match any address in the output that exhibits this pattern.\n\ \\n\ \\r\n\ \\ENQ\EOT+\STX\NUL\ACK\DC2\EOT\207\STX\STX\DLE\n\ \\r\n\ \\ENQ\EOT+\STX\NUL\SOH\DC2\EOT\207\STX\DC1\CAN\n\ \\r\n\ \\ENQ\EOT+\STX\NUL\ETX\DC2\EOT\207\STX\ESC\FS\n\ \I\n\ \\EOT\EOT+\STX\SOH\DC2\EOT\208\STX\STX\EM\"; Match any asset in the output that exhibits this pattern.\n\ \\n\ \\r\n\ \\ENQ\EOT+\STX\SOH\ACK\DC2\EOT\208\STX\STX\SO\n\ \\r\n\ \\ENQ\EOT+\STX\SOH\SOH\DC2\EOT\208\STX\SI\DC4\n\ \\r\n\ \\ENQ\EOT+\STX\SOH\ETX\DC2\EOT\208\STX\ETB\CAN\n\ \Q\n\ \\STX\EOT,\DC2\ACK\212\STX\NUL\218\STX\SOH\SUBC Pattern of a Tx that can be used to evaluate matching predicates.\n\ \\n\ \\v\n\ \\ETX\EOT,\SOH\DC2\EOT\212\STX\b\DC1\n\ \;\n\ \\EOT\EOT,\STX\NUL\DC2\EOT\213\STX\STX\US\"- Match any input that exhibits this pattern.\n\ \\n\ \\r\n\ \\ENQ\EOT,\STX\NUL\ACK\DC2\EOT\213\STX\STX\DC1\n\ \\r\n\ \\ENQ\EOT,\STX\NUL\SOH\DC2\EOT\213\STX\DC2\SUB\n\ \\r\n\ \\ENQ\EOT,\STX\NUL\ETX\DC2\EOT\213\STX\GS\RS\n\ \<\n\ \\EOT\EOT,\STX\SOH\DC2\EOT\214\STX\STX\US\". Match any output that exhibits this pattern.\n\ \\n\ \\r\n\ \\ENQ\EOT,\STX\SOH\ACK\DC2\EOT\214\STX\STX\DC1\n\ \\r\n\ \\ENQ\EOT,\STX\SOH\SOH\DC2\EOT\214\STX\DC2\SUB\n\ \\r\n\ \\ENQ\EOT,\STX\SOH\ETX\DC2\EOT\214\STX\GS\RS\n\ \`\n\ \\EOT\EOT,\STX\STX\DC2\EOT\215\STX\STX!\"R Match any address (inputs, outputs, collateral, etc) that exhibits this pattern.\n\ \\n\ \\r\n\ \\ENQ\EOT,\STX\STX\ACK\DC2\EOT\215\STX\STX\DLE\n\ \\r\n\ \\ENQ\EOT,\STX\STX\SOH\DC2\EOT\215\STX\DC1\FS\n\ \\r\n\ \\ENQ\EOT,\STX\STX\ETX\DC2\EOT\215\STX\US \n\ \;\n\ \\EOT\EOT,\STX\ETX\DC2\EOT\216\STX\STX\US\"- Match any asset that exhibits this pattern.\n\ \\n\ \\r\n\ \\ENQ\EOT,\STX\ETX\ACK\DC2\EOT\216\STX\STX\SO\n\ \\r\n\ \\ENQ\EOT,\STX\ETX\SOH\DC2\EOT\216\STX\SI\SUB\n\ \\r\n\ \\ENQ\EOT,\STX\ETX\ETX\DC2\EOT\216\STX\GS\RS\n\ \L\n\ \\EOT\EOT,\STX\EOT\DC2\EOT\217\STX\STX\US\"> Match any tx that either mint or burn the the asset pattern.\n\ \\n\ \\r\n\ \\ENQ\EOT,\STX\EOT\ACK\DC2\EOT\217\STX\STX\SO\n\ \\r\n\ \\ENQ\EOT,\STX\EOT\SOH\DC2\EOT\217\STX\SI\SUB\n\ \\r\n\ \\ENQ\EOT,\STX\EOT\ETX\DC2\EOT\217\STX\GS\RS\n\ \\RS\n\ \\STX\EOT-\DC2\ACK\223\STX\NUL\226\STX\SOH2\DLE PARAMS\n\ \ ======\n\ \\n\ \\v\n\ \\ETX\EOT-\SOH\DC2\EOT\223\STX\b\SI\n\ \\f\n\ \\EOT\EOT-\STX\NUL\DC2\EOT\224\STX\STX\DC3\n\ \\r\n\ \\ENQ\EOT-\STX\NUL\ENQ\DC2\EOT\224\STX\STX\b\n\ \\r\n\ \\ENQ\EOT-\STX\NUL\SOH\DC2\EOT\224\STX\t\SO\n\ \\r\n\ \\ENQ\EOT-\STX\NUL\ETX\DC2\EOT\224\STX\DC1\DC2\n\ \\f\n\ \\EOT\EOT-\STX\SOH\DC2\EOT\225\STX\STX\DC4\n\ \\r\n\ \\ENQ\EOT-\STX\SOH\ENQ\DC2\EOT\225\STX\STX\b\n\ \\r\n\ \\ENQ\EOT-\STX\SOH\SOH\DC2\EOT\225\STX\t\SI\n\ \\r\n\ \\ENQ\EOT-\STX\SOH\ETX\DC2\EOT\225\STX\DC2\DC3\n\ \\f\n\ \\STX\EOT.\DC2\ACK\228\STX\NUL\231\STX\SOH\n\ \\v\n\ \\ETX\EOT.\SOH\DC2\EOT\228\STX\b\DLE\n\ \\f\n\ \\EOT\EOT.\STX\NUL\DC2\EOT\229\STX\STX\ESC\n\ \\r\n\ \\ENQ\EOT.\STX\NUL\ACK\DC2\EOT\229\STX\STX\DLE\n\ \\r\n\ \\ENQ\EOT.\STX\NUL\SOH\DC2\EOT\229\STX\DC1\SYN\n\ \\r\n\ \\ENQ\EOT.\STX\NUL\ETX\DC2\EOT\229\STX\EM\SUB\n\ \\f\n\ \\EOT\EOT.\STX\SOH\DC2\EOT\230\STX\STX\FS\n\ \\r\n\ \\ENQ\EOT.\STX\SOH\ACK\DC2\EOT\230\STX\STX\DLE\n\ \\r\n\ \\ENQ\EOT.\STX\SOH\SOH\DC2\EOT\230\STX\DC1\ETB\n\ \\r\n\ \\ENQ\EOT.\STX\SOH\ETX\DC2\EOT\230\STX\SUB\ESC\n\ \\f\n\ \\STX\EOT/\DC2\ACK\233\STX\NUL\236\STX\SOH\n\ \\v\n\ \\ETX\EOT/\SOH\DC2\EOT\233\STX\b\ETB\n\ \\f\n\ \\EOT\EOT/\STX\NUL\DC2\EOT\234\STX\STX\DC3\n\ \\r\n\ \\ENQ\EOT/\STX\NUL\ENQ\DC2\EOT\234\STX\STX\b\n\ \\r\n\ \\ENQ\EOT/\STX\NUL\SOH\DC2\EOT\234\STX\t\SO\n\ \\r\n\ \\ENQ\EOT/\STX\NUL\ETX\DC2\EOT\234\STX\DC1\DC2\n\ \\f\n\ \\EOT\EOT/\STX\SOH\DC2\EOT\235\STX\STX\DC3\n\ \\r\n\ \\ENQ\EOT/\STX\SOH\ENQ\DC2\EOT\235\STX\STX\b\n\ \\r\n\ \\ENQ\EOT/\STX\SOH\SOH\DC2\EOT\235\STX\t\SO\n\ \\r\n\ \\ENQ\EOT/\STX\SOH\ETX\DC2\EOT\235\STX\DC1\DC2\n\ \\DC4\n\ \\STX\EOT0\DC2\ACK\238\STX\NUL\240\STX\SOH\"\ACK TODO\n\ \\n\ \\v\n\ \\ETX\EOT0\SOH\DC2\EOT\238\STX\b\DC1\n\ \\f\n\ \\STX\EOT1\DC2\ACK\242\STX\NUL\245\STX\SOH\n\ \\v\n\ \\ETX\EOT1\SOH\DC2\EOT\242\STX\b\DC2\n\ \\f\n\ \\EOT\EOT1\STX\NUL\DC2\EOT\243\STX\STX\SUB\n\ \\r\n\ \\ENQ\EOT1\STX\NUL\ACK\DC2\EOT\243\STX\STX\v\n\ \\r\n\ \\ENQ\EOT1\STX\NUL\SOH\DC2\EOT\243\STX\f\NAK\n\ \\r\n\ \\ENQ\EOT1\STX\NUL\ETX\DC2\EOT\243\STX\CAN\EM\n\ \\f\n\ \\EOT\EOT1\STX\SOH\DC2\EOT\244\STX\STX\SUB\n\ \\r\n\ \\ENQ\EOT1\STX\SOH\ACK\DC2\EOT\244\STX\STX\v\n\ \\r\n\ \\ENQ\EOT1\STX\SOH\SOH\DC2\EOT\244\STX\f\NAK\n\ \\r\n\ \\ENQ\EOT1\STX\SOH\ETX\DC2\EOT\244\STX\CAN\EM\n\ \\f\n\ \\STX\EOT2\DC2\ACK\247\STX\NUL\142\ETX\SOH\n\ \\v\n\ \\ETX\EOT2\SOH\DC2\EOT\247\STX\b\SI\n\ \2\n\ \\EOT\EOT2\STX\NUL\DC2\EOT\248\STX\STX!\"$ The number of coins per UTXO byte.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\NUL\ENQ\DC2\EOT\248\STX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\NUL\SOH\DC2\EOT\248\STX\t\FS\n\ \\r\n\ \\ENQ\EOT2\STX\NUL\ETX\DC2\EOT\248\STX\US \n\ \-\n\ \\EOT\EOT2\STX\SOH\DC2\EOT\249\STX\STX\EM\"\US The maximum transaction size.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\SOH\ENQ\DC2\EOT\249\STX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\SOH\SOH\DC2\EOT\249\STX\t\DC4\n\ \\r\n\ \\ENQ\EOT2\STX\SOH\ETX\DC2\EOT\249\STX\ETB\CAN\n\ \,\n\ \\EOT\EOT2\STX\STX\DC2\EOT\250\STX\STX!\"\RS The minimum fee coefficient.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\STX\ENQ\DC2\EOT\250\STX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\STX\SOH\DC2\EOT\250\STX\t\FS\n\ \\r\n\ \\ENQ\EOT2\STX\STX\ETX\DC2\EOT\250\STX\US \n\ \)\n\ \\EOT\EOT2\STX\ETX\DC2\EOT\251\STX\STX\RS\"\ESC The minimum fee constant.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\ETX\ENQ\DC2\EOT\251\STX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\ETX\SOH\DC2\EOT\251\STX\t\EM\n\ \\r\n\ \\ENQ\EOT2\STX\ETX\ETX\DC2\EOT\251\STX\FS\GS\n\ \,\n\ \\EOT\EOT2\STX\EOT\DC2\EOT\252\STX\STX!\"\RS The maximum block body size.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\EOT\ENQ\DC2\EOT\252\STX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\EOT\SOH\DC2\EOT\252\STX\t\FS\n\ \\r\n\ \\ENQ\EOT2\STX\EOT\ETX\DC2\EOT\252\STX\US \n\ \.\n\ \\EOT\EOT2\STX\ENQ\DC2\EOT\253\STX\STX#\" The maximum block header size.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\ENQ\ENQ\DC2\EOT\253\STX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\ENQ\SOH\DC2\EOT\253\STX\t\RS\n\ \\r\n\ \\ENQ\EOT2\STX\ENQ\ETX\DC2\EOT\253\STX!\"\n\ \&\n\ \\EOT\EOT2\STX\ACK\DC2\EOT\254\STX\STX\US\"\CAN The stake key deposit.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\ACK\ENQ\DC2\EOT\254\STX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\ACK\SOH\DC2\EOT\254\STX\t\SUB\n\ \\r\n\ \\ENQ\EOT2\STX\ACK\ETX\DC2\EOT\254\STX\GS\RS\n\ \!\n\ \\EOT\EOT2\STX\a\DC2\EOT\255\STX\STX\SUB\"\DC3 The pool deposit.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\a\ENQ\DC2\EOT\255\STX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\a\SOH\DC2\EOT\255\STX\t\NAK\n\ \\r\n\ \\ENQ\EOT2\STX\a\ETX\DC2\EOT\255\STX\CAN\EM\n\ \0\n\ \\EOT\EOT2\STX\b\DC2\EOT\128\ETX\STX)\"\" The pool retirement epoch bound.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\b\ENQ\DC2\EOT\128\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\b\SOH\DC2\EOT\128\ETX\t$\n\ \\r\n\ \\ENQ\EOT2\STX\b\ETX\DC2\EOT\128\ETX'(\n\ \,\n\ \\EOT\EOT2\STX\t\DC2\EOT\129\ETX\STX&\"\RS The desired number of pools.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\t\ENQ\DC2\EOT\129\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\t\SOH\DC2\EOT\129\ETX\t \n\ \\r\n\ \\ENQ\EOT2\STX\t\ETX\DC2\EOT\129\ETX#%\n\ \#\n\ \\EOT\EOT2\STX\n\ \\DC2\EOT\130\ETX\STX%\"\NAK The pool influence.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\n\ \\ACK\DC2\EOT\130\ETX\STX\DLE\n\ \\r\n\ \\ENQ\EOT2\STX\n\ \\SOH\DC2\EOT\130\ETX\DC1\US\n\ \\r\n\ \\ENQ\EOT2\STX\n\ \\ETX\DC2\EOT\130\ETX\"$\n\ \'\n\ \\EOT\EOT2\STX\v\DC2\EOT\131\ETX\STX)\"\EM The monetary expansion.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\v\ACK\DC2\EOT\131\ETX\STX\DLE\n\ \\r\n\ \\ENQ\EOT2\STX\v\SOH\DC2\EOT\131\ETX\DC1#\n\ \\r\n\ \\ENQ\EOT2\STX\v\ETX\DC2\EOT\131\ETX&(\n\ \'\n\ \\EOT\EOT2\STX\f\DC2\EOT\132\ETX\STX)\"\EM The treasury expansion.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\f\ACK\DC2\EOT\132\ETX\STX\DLE\n\ \\r\n\ \\ENQ\EOT2\STX\f\SOH\DC2\EOT\132\ETX\DC1#\n\ \\r\n\ \\ENQ\EOT2\STX\f\ETX\DC2\EOT\132\ETX&(\n\ \&\n\ \\EOT\EOT2\STX\r\DC2\EOT\133\ETX\STX\FS\"\CAN The minimum pool cost.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\r\ENQ\DC2\EOT\133\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\r\SOH\DC2\EOT\133\ETX\t\SYN\n\ \\r\n\ \\ENQ\EOT2\STX\r\ETX\DC2\EOT\133\ETX\EM\ESC\n\ \%\n\ \\EOT\EOT2\STX\SO\DC2\EOT\134\ETX\STX(\"\ETB The protocol version.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\SO\ACK\DC2\EOT\134\ETX\STX\DC1\n\ \\r\n\ \\ENQ\EOT2\STX\SO\SOH\DC2\EOT\134\ETX\DC2\"\n\ \\r\n\ \\ENQ\EOT2\STX\SO\ETX\DC2\EOT\134\ETX%'\n\ \'\n\ \\EOT\EOT2\STX\SI\DC2\EOT\135\ETX\STX\GS\"\EM The maximum value size.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\SI\ENQ\DC2\EOT\135\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\SI\SOH\DC2\EOT\135\ETX\t\ETB\n\ \\r\n\ \\ENQ\EOT2\STX\SI\ETX\DC2\EOT\135\ETX\SUB\FS\n\ \*\n\ \\EOT\EOT2\STX\DLE\DC2\EOT\136\ETX\STX$\"\FS The collateral percentage.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\DLE\ENQ\DC2\EOT\136\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\DLE\SOH\DC2\EOT\136\ETX\t\RS\n\ \\r\n\ \\ENQ\EOT2\STX\DLE\ETX\DC2\EOT\136\ETX!#\n\ \.\n\ \\EOT\EOT2\STX\DC1\DC2\EOT\137\ETX\STX$\" The maximum collateral inputs.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\DC1\ENQ\DC2\EOT\137\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT2\STX\DC1\SOH\DC2\EOT\137\ETX\t\RS\n\ \\r\n\ \\ENQ\EOT2\STX\DC1\ETX\DC2\EOT\137\ETX!#\n\ \ \n\ \\EOT\EOT2\STX\DC2\DC2\EOT\138\ETX\STX\RS\"\DC2 The cost models.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\DC2\ACK\DC2\EOT\138\ETX\STX\f\n\ \\r\n\ \\ENQ\EOT2\STX\DC2\SOH\DC2\EOT\138\ETX\r\CAN\n\ \\r\n\ \\ENQ\EOT2\STX\DC2\ETX\DC2\EOT\138\ETX\ESC\GS\n\ \\ESC\n\ \\EOT\EOT2\STX\DC3\DC2\EOT\139\ETX\STX\ETB\"\r The prices.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\DC3\ACK\DC2\EOT\139\ETX\STX\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\DC3\SOH\DC2\EOT\139\ETX\v\DC1\n\ \\r\n\ \\ENQ\EOT2\STX\DC3\ETX\DC2\EOT\139\ETX\DC4\SYN\n\ \<\n\ \\EOT\EOT2\STX\DC4\DC2\EOT\140\ETX\STX3\". The maximum execution units per transaction.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\DC4\ACK\DC2\EOT\140\ETX\STX\t\n\ \\r\n\ \\ENQ\EOT2\STX\DC4\SOH\DC2\EOT\140\ETX\n\ \-\n\ \\r\n\ \\ENQ\EOT2\STX\DC4\ETX\DC2\EOT\140\ETX02\n\ \6\n\ \\EOT\EOT2\STX\NAK\DC2\EOT\141\ETX\STX-\"( The maximum execution units per block.\n\ \\n\ \\r\n\ \\ENQ\EOT2\STX\NAK\ACK\DC2\EOT\141\ETX\STX\t\n\ \\r\n\ \\ENQ\EOT2\STX\NAK\SOH\DC2\EOT\141\ETX\n\ \'\n\ \\r\n\ \\ENQ\EOT2\STX\NAK\ETX\DC2\EOT\141\ETX*,\n\ \&\n\ \\STX\EOT3\DC2\ACK\147\ETX\NUL\149\ETX\SOH2\CAN EVALUATION\n\ \ ==========\n\ \\n\ \\v\n\ \\ETX\EOT3\SOH\DC2\EOT\147\ETX\b\DC1\n\ \\f\n\ \\EOT\EOT3\STX\NUL\DC2\EOT\148\ETX\STX\DC1\n\ \\r\n\ \\ENQ\EOT3\STX\NUL\ENQ\DC2\EOT\148\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT3\STX\NUL\SOH\DC2\EOT\148\ETX\t\f\n\ \\r\n\ \\ENQ\EOT3\STX\NUL\ETX\DC2\EOT\148\ETX\SI\DLE\n\ \\f\n\ \\STX\EOT4\DC2\ACK\151\ETX\NUL\153\ETX\SOH\n\ \\v\n\ \\ETX\EOT4\SOH\DC2\EOT\151\ETX\b\DC1\n\ \\f\n\ \\EOT\EOT4\STX\NUL\DC2\EOT\152\ETX\STX\DC1\n\ \\r\n\ \\ENQ\EOT4\STX\NUL\ENQ\DC2\EOT\152\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT4\STX\NUL\SOH\DC2\EOT\152\ETX\t\f\n\ \\r\n\ \\ENQ\EOT4\STX\NUL\ETX\DC2\EOT\152\ETX\SI\DLE\n\ \\f\n\ \\STX\EOT5\DC2\ACK\155\ETX\NUL\160\ETX\SOH\n\ \\v\n\ \\ETX\EOT5\SOH\DC2\EOT\155\ETX\b\SO\n\ \\f\n\ \\EOT\EOT5\STX\NUL\DC2\EOT\156\ETX\STX\DC1\n\ \\r\n\ \\ENQ\EOT5\STX\NUL\ENQ\DC2\EOT\156\ETX\STX\b\n\ \\r\n\ \\ENQ\EOT5\STX\NUL\SOH\DC2\EOT\156\ETX\t\f\n\ \\r\n\ \\ENQ\EOT5\STX\NUL\ETX\DC2\EOT\156\ETX\SI\DLE\n\ \\f\n\ \\EOT\EOT5\STX\SOH\DC2\EOT\157\ETX\STX\ETB\n\ \\r\n\ \\ENQ\EOT5\STX\SOH\ACK\DC2\EOT\157\ETX\STX\t\n\ \\r\n\ \\ENQ\EOT5\STX\SOH\SOH\DC2\EOT\157\ETX\n\ \\DC2\n\ \\r\n\ \\ENQ\EOT5\STX\SOH\ETX\DC2\EOT\157\ETX\NAK\SYN\n\ \\f\n\ \\EOT\EOT5\STX\STX\DC2\EOT\158\ETX\STX \n\ \\r\n\ \\ENQ\EOT5\STX\STX\EOT\DC2\EOT\158\ETX\STX\n\ \\n\ \\r\n\ \\ENQ\EOT5\STX\STX\ACK\DC2\EOT\158\ETX\v\DC4\n\ \\r\n\ \\ENQ\EOT5\STX\STX\SOH\DC2\EOT\158\ETX\NAK\ESC\n\ \\r\n\ \\ENQ\EOT5\STX\STX\ETX\DC2\EOT\158\ETX\RS\US\n\ \\f\n\ \\EOT\EOT5\STX\ETX\DC2\EOT\159\ETX\STX \n\ \\r\n\ \\ENQ\EOT5\STX\ETX\EOT\DC2\EOT\159\ETX\STX\n\ \\n\ \\r\n\ \\ENQ\EOT5\STX\ETX\ACK\DC2\EOT\159\ETX\v\DC4\n\ \\r\n\ \\ENQ\EOT5\STX\ETX\SOH\DC2\EOT\159\ETX\NAK\ESC\n\ \\r\n\ \\ENQ\EOT5\STX\ETX\ETX\DC2\EOT\159\ETX\RS\USb\ACKproto3"