// Generated by ProtoGen, Version=2.4.1.521, Culture=neutral, PublicKeyToken=17b3b1f090c3ea48. DO NOT EDIT! #pragma warning disable 1591, 0612, 3021 #region Designer generated code using pb = global::Google.ProtocolBuffers; using pbc = global::Google.ProtocolBuffers.Collections; using pbd = global::Google.ProtocolBuffers.Descriptors; using scg = global::System.Collections.Generic; namespace math { namespace Proto { [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public static partial class Math { #region Extension registration public static void RegisterAllExtensions(pb::ExtensionRegistry registry) { } #endregion #region Static variables internal static pbd::MessageDescriptor internal__static_math_DivArgs__Descriptor; internal static pb::FieldAccess.FieldAccessorTable internal__static_math_DivArgs__FieldAccessorTable; internal static pbd::MessageDescriptor internal__static_math_DivReply__Descriptor; internal static pb::FieldAccess.FieldAccessorTable internal__static_math_DivReply__FieldAccessorTable; internal static pbd::MessageDescriptor internal__static_math_FibArgs__Descriptor; internal static pb::FieldAccess.FieldAccessorTable internal__static_math_FibArgs__FieldAccessorTable; internal static pbd::MessageDescriptor internal__static_math_Num__Descriptor; internal static pb::FieldAccess.FieldAccessorTable internal__static_math_Num__FieldAccessorTable; internal static pbd::MessageDescriptor internal__static_math_FibReply__Descriptor; internal static pb::FieldAccess.FieldAccessorTable internal__static_math_FibReply__FieldAccessorTable; #endregion #region Descriptor public static pbd::FileDescriptor Descriptor { get { return descriptor; } } private static pbd::FileDescriptor descriptor; static Math() { byte[] descriptorData = global::System.Convert.FromBase64String( string.Concat( "CgptYXRoLnByb3RvEgRtYXRoIiwKB0RpdkFyZ3MSEAoIZGl2aWRlbmQYASAB", "KAMSDwoHZGl2aXNvchgCIAEoAyIvCghEaXZSZXBseRIQCghxdW90aWVudBgB", "IAEoAxIRCglyZW1haW5kZXIYAiABKAMiGAoHRmliQXJncxINCgVsaW1pdBgB", "IAEoAyISCgNOdW0SCwoDbnVtGAEgASgDIhkKCEZpYlJlcGx5Eg0KBWNvdW50", "GAEgASgDMqQBCgRNYXRoEiYKA0RpdhINLm1hdGguRGl2QXJncxoOLm1hdGgu", "RGl2UmVwbHkiABIuCgdEaXZNYW55Eg0ubWF0aC5EaXZBcmdzGg4ubWF0aC5E", "aXZSZXBseSIAKAEwARIjCgNGaWISDS5tYXRoLkZpYkFyZ3MaCS5tYXRoLk51", "bSIAMAESHwoDU3VtEgkubWF0aC5OdW0aCS5tYXRoLk51bSIAKAE=")); pbd::FileDescriptor.InternalDescriptorAssigner assigner = delegate(pbd::FileDescriptor root) { descriptor = root; internal__static_math_DivArgs__Descriptor = Descriptor.MessageTypes[0]; internal__static_math_DivArgs__FieldAccessorTable = new pb::FieldAccess.FieldAccessorTable(internal__static_math_DivArgs__Descriptor, new string[] { "Dividend", "Divisor", }); internal__static_math_DivReply__Descriptor = Descriptor.MessageTypes[1]; internal__static_math_DivReply__FieldAccessorTable = new pb::FieldAccess.FieldAccessorTable(internal__static_math_DivReply__Descriptor, new string[] { "Quotient", "Remainder", }); internal__static_math_FibArgs__Descriptor = Descriptor.MessageTypes[2]; internal__static_math_FibArgs__FieldAccessorTable = new pb::FieldAccess.FieldAccessorTable(internal__static_math_FibArgs__Descriptor, new string[] { "Limit", }); internal__static_math_Num__Descriptor = Descriptor.MessageTypes[3]; internal__static_math_Num__FieldAccessorTable = new pb::FieldAccess.FieldAccessorTable(internal__static_math_Num__Descriptor, new string[] { "Num_", }); internal__static_math_FibReply__Descriptor = Descriptor.MessageTypes[4]; internal__static_math_FibReply__FieldAccessorTable = new pb::FieldAccess.FieldAccessorTable(internal__static_math_FibReply__Descriptor, new string[] { "Count", }); pb::ExtensionRegistry registry = pb::ExtensionRegistry.CreateInstance(); RegisterAllExtensions(registry); return registry; }; pbd::FileDescriptor.InternalBuildGeneratedFileFrom(descriptorData, new pbd::FileDescriptor[] { }, assigner); } #endregion } } #region Messages [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public sealed partial class DivArgs : pb::GeneratedMessage { private DivArgs() { } private static readonly DivArgs defaultInstance = new DivArgs().MakeReadOnly(); private static readonly string[] _divArgsFieldNames = new string[] { "dividend", "divisor" }; private static readonly uint[] _divArgsFieldTags = new uint[] { 8, 16 }; public static DivArgs DefaultInstance { get { return defaultInstance; } } public override DivArgs DefaultInstanceForType { get { return DefaultInstance; } } protected override DivArgs ThisMessage { get { return this; } } public static pbd::MessageDescriptor Descriptor { get { return global::math.Proto.Math.internal__static_math_DivArgs__Descriptor; } } protected override pb::FieldAccess.FieldAccessorTable InternalFieldAccessors { get { return global::math.Proto.Math.internal__static_math_DivArgs__FieldAccessorTable; } } public const int DividendFieldNumber = 1; private bool hasDividend; private long dividend_; public bool HasDividend { get { return hasDividend; } } public long Dividend { get { return dividend_; } } public const int DivisorFieldNumber = 2; private bool hasDivisor; private long divisor_; public bool HasDivisor { get { return hasDivisor; } } public long Divisor { get { return divisor_; } } public override bool IsInitialized { get { return true; } } public override void WriteTo(pb::ICodedOutputStream output) { int size = SerializedSize; string[] field_names = _divArgsFieldNames; if (hasDividend) { output.WriteInt64(1, field_names[0], Dividend); } if (hasDivisor) { output.WriteInt64(2, field_names[1], Divisor); } UnknownFields.WriteTo(output); } private int memoizedSerializedSize = -1; public override int SerializedSize { get { int size = memoizedSerializedSize; if (size != -1) return size; size = 0; if (hasDividend) { size += pb::CodedOutputStream.ComputeInt64Size(1, Dividend); } if (hasDivisor) { size += pb::CodedOutputStream.ComputeInt64Size(2, Divisor); } size += UnknownFields.SerializedSize; memoizedSerializedSize = size; return size; } } public static DivArgs ParseFrom(pb::ByteString data) { return ((Builder) CreateBuilder().MergeFrom(data)).BuildParsed(); } public static DivArgs ParseFrom(pb::ByteString data, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(data, extensionRegistry)).BuildParsed(); } public static DivArgs ParseFrom(byte[] data) { return ((Builder) CreateBuilder().MergeFrom(data)).BuildParsed(); } public static DivArgs ParseFrom(byte[] data, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(data, extensionRegistry)).BuildParsed(); } public static DivArgs ParseFrom(global::System.IO.Stream input) { return ((Builder) CreateBuilder().MergeFrom(input)).BuildParsed(); } public static DivArgs ParseFrom(global::System.IO.Stream input, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(input, extensionRegistry)).BuildParsed(); } public static DivArgs ParseDelimitedFrom(global::System.IO.Stream input) { return CreateBuilder().MergeDelimitedFrom(input).BuildParsed(); } public static DivArgs ParseDelimitedFrom(global::System.IO.Stream input, pb::ExtensionRegistry extensionRegistry) { return CreateBuilder().MergeDelimitedFrom(input, extensionRegistry).BuildParsed(); } public static DivArgs ParseFrom(pb::ICodedInputStream input) { return ((Builder) CreateBuilder().MergeFrom(input)).BuildParsed(); } public static DivArgs ParseFrom(pb::ICodedInputStream input, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(input, extensionRegistry)).BuildParsed(); } private DivArgs MakeReadOnly() { return this; } public static Builder CreateBuilder() { return new Builder(); } public override Builder ToBuilder() { return CreateBuilder(this); } public override Builder CreateBuilderForType() { return new Builder(); } public static Builder CreateBuilder(DivArgs prototype) { return new Builder(prototype); } [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public sealed partial class Builder : pb::GeneratedBuilder { protected override Builder ThisBuilder { get { return this; } } public Builder() { result = DefaultInstance; resultIsReadOnly = true; } internal Builder(DivArgs cloneFrom) { result = cloneFrom; resultIsReadOnly = true; } private bool resultIsReadOnly; private DivArgs result; private DivArgs PrepareBuilder() { if (resultIsReadOnly) { DivArgs original = result; result = new DivArgs(); resultIsReadOnly = false; MergeFrom(original); } return result; } public override bool IsInitialized { get { return result.IsInitialized; } } protected override DivArgs MessageBeingBuilt { get { return PrepareBuilder(); } } public override Builder Clear() { result = DefaultInstance; resultIsReadOnly = true; return this; } public override Builder Clone() { if (resultIsReadOnly) { return new Builder(result); } else { return new Builder().MergeFrom(result); } } public override pbd::MessageDescriptor DescriptorForType { get { return global::math.DivArgs.Descriptor; } } public override DivArgs DefaultInstanceForType { get { return global::math.DivArgs.DefaultInstance; } } public override DivArgs BuildPartial() { if (resultIsReadOnly) { return result; } resultIsReadOnly = true; return result.MakeReadOnly(); } public override Builder MergeFrom(pb::IMessage other) { if (other is DivArgs) { return MergeFrom((DivArgs) other); } else { base.MergeFrom(other); return this; } } public override Builder MergeFrom(DivArgs other) { if (other == global::math.DivArgs.DefaultInstance) return this; PrepareBuilder(); if (other.HasDividend) { Dividend = other.Dividend; } if (other.HasDivisor) { Divisor = other.Divisor; } this.MergeUnknownFields(other.UnknownFields); return this; } public override Builder MergeFrom(pb::ICodedInputStream input) { return MergeFrom(input, pb::ExtensionRegistry.Empty); } public override Builder MergeFrom(pb::ICodedInputStream input, pb::ExtensionRegistry extensionRegistry) { PrepareBuilder(); pb::UnknownFieldSet.Builder unknownFields = null; uint tag; string field_name; while (input.ReadTag(out tag, out field_name)) { if(tag == 0 && field_name != null) { int field_ordinal = global::System.Array.BinarySearch(_divArgsFieldNames, field_name, global::System.StringComparer.Ordinal); if(field_ordinal >= 0) tag = _divArgsFieldTags[field_ordinal]; else { if (unknownFields == null) { unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields); } ParseUnknownField(input, unknownFields, extensionRegistry, tag, field_name); continue; } } switch (tag) { case 0: { throw pb::InvalidProtocolBufferException.InvalidTag(); } default: { if (pb::WireFormat.IsEndGroupTag(tag)) { if (unknownFields != null) { this.UnknownFields = unknownFields.Build(); } return this; } if (unknownFields == null) { unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields); } ParseUnknownField(input, unknownFields, extensionRegistry, tag, field_name); break; } case 8: { result.hasDividend = input.ReadInt64(ref result.dividend_); break; } case 16: { result.hasDivisor = input.ReadInt64(ref result.divisor_); break; } } } if (unknownFields != null) { this.UnknownFields = unknownFields.Build(); } return this; } public bool HasDividend { get { return result.hasDividend; } } public long Dividend { get { return result.Dividend; } set { SetDividend(value); } } public Builder SetDividend(long value) { PrepareBuilder(); result.hasDividend = true; result.dividend_ = value; return this; } public Builder ClearDividend() { PrepareBuilder(); result.hasDividend = false; result.dividend_ = 0L; return this; } public bool HasDivisor { get { return result.hasDivisor; } } public long Divisor { get { return result.Divisor; } set { SetDivisor(value); } } public Builder SetDivisor(long value) { PrepareBuilder(); result.hasDivisor = true; result.divisor_ = value; return this; } public Builder ClearDivisor() { PrepareBuilder(); result.hasDivisor = false; result.divisor_ = 0L; return this; } } static DivArgs() { object.ReferenceEquals(global::math.Proto.Math.Descriptor, null); } } [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public sealed partial class DivReply : pb::GeneratedMessage { private DivReply() { } private static readonly DivReply defaultInstance = new DivReply().MakeReadOnly(); private static readonly string[] _divReplyFieldNames = new string[] { "quotient", "remainder" }; private static readonly uint[] _divReplyFieldTags = new uint[] { 8, 16 }; public static DivReply DefaultInstance { get { return defaultInstance; } } public override DivReply DefaultInstanceForType { get { return DefaultInstance; } } protected override DivReply ThisMessage { get { return this; } } public static pbd::MessageDescriptor Descriptor { get { return global::math.Proto.Math.internal__static_math_DivReply__Descriptor; } } protected override pb::FieldAccess.FieldAccessorTable InternalFieldAccessors { get { return global::math.Proto.Math.internal__static_math_DivReply__FieldAccessorTable; } } public const int QuotientFieldNumber = 1; private bool hasQuotient; private long quotient_; public bool HasQuotient { get { return hasQuotient; } } public long Quotient { get { return quotient_; } } public const int RemainderFieldNumber = 2; private bool hasRemainder; private long remainder_; public bool HasRemainder { get { return hasRemainder; } } public long Remainder { get { return remainder_; } } public override bool IsInitialized { get { return true; } } public override void WriteTo(pb::ICodedOutputStream output) { int size = SerializedSize; string[] field_names = _divReplyFieldNames; if (hasQuotient) { output.WriteInt64(1, field_names[0], Quotient); } if (hasRemainder) { output.WriteInt64(2, field_names[1], Remainder); } UnknownFields.WriteTo(output); } private int memoizedSerializedSize = -1; public override int SerializedSize { get { int size = memoizedSerializedSize; if (size != -1) return size; size = 0; if (hasQuotient) { size += pb::CodedOutputStream.ComputeInt64Size(1, Quotient); } if (hasRemainder) { size += pb::CodedOutputStream.ComputeInt64Size(2, Remainder); } size += UnknownFields.SerializedSize; memoizedSerializedSize = size; return size; } } public static DivReply ParseFrom(pb::ByteString data) { return ((Builder) CreateBuilder().MergeFrom(data)).BuildParsed(); } public static DivReply ParseFrom(pb::ByteString data, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(data, extensionRegistry)).BuildParsed(); } public static DivReply ParseFrom(byte[] data) { return ((Builder) CreateBuilder().MergeFrom(data)).BuildParsed(); } public static DivReply ParseFrom(byte[] data, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(data, extensionRegistry)).BuildParsed(); } public static DivReply ParseFrom(global::System.IO.Stream input) { return ((Builder) CreateBuilder().MergeFrom(input)).BuildParsed(); } public static DivReply ParseFrom(global::System.IO.Stream input, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(input, extensionRegistry)).BuildParsed(); } public static DivReply ParseDelimitedFrom(global::System.IO.Stream input) { return CreateBuilder().MergeDelimitedFrom(input).BuildParsed(); } public static DivReply ParseDelimitedFrom(global::System.IO.Stream input, pb::ExtensionRegistry extensionRegistry) { return CreateBuilder().MergeDelimitedFrom(input, extensionRegistry).BuildParsed(); } public static DivReply ParseFrom(pb::ICodedInputStream input) { return ((Builder) CreateBuilder().MergeFrom(input)).BuildParsed(); } public static DivReply ParseFrom(pb::ICodedInputStream input, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(input, extensionRegistry)).BuildParsed(); } private DivReply MakeReadOnly() { return this; } public static Builder CreateBuilder() { return new Builder(); } public override Builder ToBuilder() { return CreateBuilder(this); } public override Builder CreateBuilderForType() { return new Builder(); } public static Builder CreateBuilder(DivReply prototype) { return new Builder(prototype); } [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public sealed partial class Builder : pb::GeneratedBuilder { protected override Builder ThisBuilder { get { return this; } } public Builder() { result = DefaultInstance; resultIsReadOnly = true; } internal Builder(DivReply cloneFrom) { result = cloneFrom; resultIsReadOnly = true; } private bool resultIsReadOnly; private DivReply result; private DivReply PrepareBuilder() { if (resultIsReadOnly) { DivReply original = result; result = new DivReply(); resultIsReadOnly = false; MergeFrom(original); } return result; } public override bool IsInitialized { get { return result.IsInitialized; } } protected override DivReply MessageBeingBuilt { get { return PrepareBuilder(); } } public override Builder Clear() { result = DefaultInstance; resultIsReadOnly = true; return this; } public override Builder Clone() { if (resultIsReadOnly) { return new Builder(result); } else { return new Builder().MergeFrom(result); } } public override pbd::MessageDescriptor DescriptorForType { get { return global::math.DivReply.Descriptor; } } public override DivReply DefaultInstanceForType { get { return global::math.DivReply.DefaultInstance; } } public override DivReply BuildPartial() { if (resultIsReadOnly) { return result; } resultIsReadOnly = true; return result.MakeReadOnly(); } public override Builder MergeFrom(pb::IMessage other) { if (other is DivReply) { return MergeFrom((DivReply) other); } else { base.MergeFrom(other); return this; } } public override Builder MergeFrom(DivReply other) { if (other == global::math.DivReply.DefaultInstance) return this; PrepareBuilder(); if (other.HasQuotient) { Quotient = other.Quotient; } if (other.HasRemainder) { Remainder = other.Remainder; } this.MergeUnknownFields(other.UnknownFields); return this; } public override Builder MergeFrom(pb::ICodedInputStream input) { return MergeFrom(input, pb::ExtensionRegistry.Empty); } public override Builder MergeFrom(pb::ICodedInputStream input, pb::ExtensionRegistry extensionRegistry) { PrepareBuilder(); pb::UnknownFieldSet.Builder unknownFields = null; uint tag; string field_name; while (input.ReadTag(out tag, out field_name)) { if(tag == 0 && field_name != null) { int field_ordinal = global::System.Array.BinarySearch(_divReplyFieldNames, field_name, global::System.StringComparer.Ordinal); if(field_ordinal >= 0) tag = _divReplyFieldTags[field_ordinal]; else { if (unknownFields == null) { unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields); } ParseUnknownField(input, unknownFields, extensionRegistry, tag, field_name); continue; } } switch (tag) { case 0: { throw pb::InvalidProtocolBufferException.InvalidTag(); } default: { if (pb::WireFormat.IsEndGroupTag(tag)) { if (unknownFields != null) { this.UnknownFields = unknownFields.Build(); } return this; } if (unknownFields == null) { unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields); } ParseUnknownField(input, unknownFields, extensionRegistry, tag, field_name); break; } case 8: { result.hasQuotient = input.ReadInt64(ref result.quotient_); break; } case 16: { result.hasRemainder = input.ReadInt64(ref result.remainder_); break; } } } if (unknownFields != null) { this.UnknownFields = unknownFields.Build(); } return this; } public bool HasQuotient { get { return result.hasQuotient; } } public long Quotient { get { return result.Quotient; } set { SetQuotient(value); } } public Builder SetQuotient(long value) { PrepareBuilder(); result.hasQuotient = true; result.quotient_ = value; return this; } public Builder ClearQuotient() { PrepareBuilder(); result.hasQuotient = false; result.quotient_ = 0L; return this; } public bool HasRemainder { get { return result.hasRemainder; } } public long Remainder { get { return result.Remainder; } set { SetRemainder(value); } } public Builder SetRemainder(long value) { PrepareBuilder(); result.hasRemainder = true; result.remainder_ = value; return this; } public Builder ClearRemainder() { PrepareBuilder(); result.hasRemainder = false; result.remainder_ = 0L; return this; } } static DivReply() { object.ReferenceEquals(global::math.Proto.Math.Descriptor, null); } } [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public sealed partial class FibArgs : pb::GeneratedMessage { private FibArgs() { } private static readonly FibArgs defaultInstance = new FibArgs().MakeReadOnly(); private static readonly string[] _fibArgsFieldNames = new string[] { "limit" }; private static readonly uint[] _fibArgsFieldTags = new uint[] { 8 }; public static FibArgs DefaultInstance { get { return defaultInstance; } } public override FibArgs DefaultInstanceForType { get { return DefaultInstance; } } protected override FibArgs ThisMessage { get { return this; } } public static pbd::MessageDescriptor Descriptor { get { return global::math.Proto.Math.internal__static_math_FibArgs__Descriptor; } } protected override pb::FieldAccess.FieldAccessorTable InternalFieldAccessors { get { return global::math.Proto.Math.internal__static_math_FibArgs__FieldAccessorTable; } } public const int LimitFieldNumber = 1; private bool hasLimit; private long limit_; public bool HasLimit { get { return hasLimit; } } public long Limit { get { return limit_; } } public override bool IsInitialized { get { return true; } } public override void WriteTo(pb::ICodedOutputStream output) { int size = SerializedSize; string[] field_names = _fibArgsFieldNames; if (hasLimit) { output.WriteInt64(1, field_names[0], Limit); } UnknownFields.WriteTo(output); } private int memoizedSerializedSize = -1; public override int SerializedSize { get { int size = memoizedSerializedSize; if (size != -1) return size; size = 0; if (hasLimit) { size += pb::CodedOutputStream.ComputeInt64Size(1, Limit); } size += UnknownFields.SerializedSize; memoizedSerializedSize = size; return size; } } public static FibArgs ParseFrom(pb::ByteString data) { return ((Builder) CreateBuilder().MergeFrom(data)).BuildParsed(); } public static FibArgs ParseFrom(pb::ByteString data, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(data, extensionRegistry)).BuildParsed(); } public static FibArgs ParseFrom(byte[] data) { return ((Builder) CreateBuilder().MergeFrom(data)).BuildParsed(); } public static FibArgs ParseFrom(byte[] data, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(data, extensionRegistry)).BuildParsed(); } public static FibArgs ParseFrom(global::System.IO.Stream input) { return ((Builder) CreateBuilder().MergeFrom(input)).BuildParsed(); } public static FibArgs ParseFrom(global::System.IO.Stream input, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(input, extensionRegistry)).BuildParsed(); } public static FibArgs ParseDelimitedFrom(global::System.IO.Stream input) { return CreateBuilder().MergeDelimitedFrom(input).BuildParsed(); } public static FibArgs ParseDelimitedFrom(global::System.IO.Stream input, pb::ExtensionRegistry extensionRegistry) { return CreateBuilder().MergeDelimitedFrom(input, extensionRegistry).BuildParsed(); } public static FibArgs ParseFrom(pb::ICodedInputStream input) { return ((Builder) CreateBuilder().MergeFrom(input)).BuildParsed(); } public static FibArgs ParseFrom(pb::ICodedInputStream input, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(input, extensionRegistry)).BuildParsed(); } private FibArgs MakeReadOnly() { return this; } public static Builder CreateBuilder() { return new Builder(); } public override Builder ToBuilder() { return CreateBuilder(this); } public override Builder CreateBuilderForType() { return new Builder(); } public static Builder CreateBuilder(FibArgs prototype) { return new Builder(prototype); } [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public sealed partial class Builder : pb::GeneratedBuilder { protected override Builder ThisBuilder { get { return this; } } public Builder() { result = DefaultInstance; resultIsReadOnly = true; } internal Builder(FibArgs cloneFrom) { result = cloneFrom; resultIsReadOnly = true; } private bool resultIsReadOnly; private FibArgs result; private FibArgs PrepareBuilder() { if (resultIsReadOnly) { FibArgs original = result; result = new FibArgs(); resultIsReadOnly = false; MergeFrom(original); } return result; } public override bool IsInitialized { get { return result.IsInitialized; } } protected override FibArgs MessageBeingBuilt { get { return PrepareBuilder(); } } public override Builder Clear() { result = DefaultInstance; resultIsReadOnly = true; return this; } public override Builder Clone() { if (resultIsReadOnly) { return new Builder(result); } else { return new Builder().MergeFrom(result); } } public override pbd::MessageDescriptor DescriptorForType { get { return global::math.FibArgs.Descriptor; } } public override FibArgs DefaultInstanceForType { get { return global::math.FibArgs.DefaultInstance; } } public override FibArgs BuildPartial() { if (resultIsReadOnly) { return result; } resultIsReadOnly = true; return result.MakeReadOnly(); } public override Builder MergeFrom(pb::IMessage other) { if (other is FibArgs) { return MergeFrom((FibArgs) other); } else { base.MergeFrom(other); return this; } } public override Builder MergeFrom(FibArgs other) { if (other == global::math.FibArgs.DefaultInstance) return this; PrepareBuilder(); if (other.HasLimit) { Limit = other.Limit; } this.MergeUnknownFields(other.UnknownFields); return this; } public override Builder MergeFrom(pb::ICodedInputStream input) { return MergeFrom(input, pb::ExtensionRegistry.Empty); } public override Builder MergeFrom(pb::ICodedInputStream input, pb::ExtensionRegistry extensionRegistry) { PrepareBuilder(); pb::UnknownFieldSet.Builder unknownFields = null; uint tag; string field_name; while (input.ReadTag(out tag, out field_name)) { if(tag == 0 && field_name != null) { int field_ordinal = global::System.Array.BinarySearch(_fibArgsFieldNames, field_name, global::System.StringComparer.Ordinal); if(field_ordinal >= 0) tag = _fibArgsFieldTags[field_ordinal]; else { if (unknownFields == null) { unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields); } ParseUnknownField(input, unknownFields, extensionRegistry, tag, field_name); continue; } } switch (tag) { case 0: { throw pb::InvalidProtocolBufferException.InvalidTag(); } default: { if (pb::WireFormat.IsEndGroupTag(tag)) { if (unknownFields != null) { this.UnknownFields = unknownFields.Build(); } return this; } if (unknownFields == null) { unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields); } ParseUnknownField(input, unknownFields, extensionRegistry, tag, field_name); break; } case 8: { result.hasLimit = input.ReadInt64(ref result.limit_); break; } } } if (unknownFields != null) { this.UnknownFields = unknownFields.Build(); } return this; } public bool HasLimit { get { return result.hasLimit; } } public long Limit { get { return result.Limit; } set { SetLimit(value); } } public Builder SetLimit(long value) { PrepareBuilder(); result.hasLimit = true; result.limit_ = value; return this; } public Builder ClearLimit() { PrepareBuilder(); result.hasLimit = false; result.limit_ = 0L; return this; } } static FibArgs() { object.ReferenceEquals(global::math.Proto.Math.Descriptor, null); } } [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public sealed partial class Num : pb::GeneratedMessage { private Num() { } private static readonly Num defaultInstance = new Num().MakeReadOnly(); private static readonly string[] _numFieldNames = new string[] { "num" }; private static readonly uint[] _numFieldTags = new uint[] { 8 }; public static Num DefaultInstance { get { return defaultInstance; } } public override Num DefaultInstanceForType { get { return DefaultInstance; } } protected override Num ThisMessage { get { return this; } } public static pbd::MessageDescriptor Descriptor { get { return global::math.Proto.Math.internal__static_math_Num__Descriptor; } } protected override pb::FieldAccess.FieldAccessorTable InternalFieldAccessors { get { return global::math.Proto.Math.internal__static_math_Num__FieldAccessorTable; } } public const int Num_FieldNumber = 1; private bool hasNum_; private long num_; public bool HasNum_ { get { return hasNum_; } } public long Num_ { get { return num_; } } public override bool IsInitialized { get { return true; } } public override void WriteTo(pb::ICodedOutputStream output) { int size = SerializedSize; string[] field_names = _numFieldNames; if (hasNum_) { output.WriteInt64(1, field_names[0], Num_); } UnknownFields.WriteTo(output); } private int memoizedSerializedSize = -1; public override int SerializedSize { get { int size = memoizedSerializedSize; if (size != -1) return size; size = 0; if (hasNum_) { size += pb::CodedOutputStream.ComputeInt64Size(1, Num_); } size += UnknownFields.SerializedSize; memoizedSerializedSize = size; return size; } } public static Num ParseFrom(pb::ByteString data) { return ((Builder) CreateBuilder().MergeFrom(data)).BuildParsed(); } public static Num ParseFrom(pb::ByteString data, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(data, extensionRegistry)).BuildParsed(); } public static Num ParseFrom(byte[] data) { return ((Builder) CreateBuilder().MergeFrom(data)).BuildParsed(); } public static Num ParseFrom(byte[] data, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(data, extensionRegistry)).BuildParsed(); } public static Num ParseFrom(global::System.IO.Stream input) { return ((Builder) CreateBuilder().MergeFrom(input)).BuildParsed(); } public static Num ParseFrom(global::System.IO.Stream input, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(input, extensionRegistry)).BuildParsed(); } public static Num ParseDelimitedFrom(global::System.IO.Stream input) { return CreateBuilder().MergeDelimitedFrom(input).BuildParsed(); } public static Num ParseDelimitedFrom(global::System.IO.Stream input, pb::ExtensionRegistry extensionRegistry) { return CreateBuilder().MergeDelimitedFrom(input, extensionRegistry).BuildParsed(); } public static Num ParseFrom(pb::ICodedInputStream input) { return ((Builder) CreateBuilder().MergeFrom(input)).BuildParsed(); } public static Num ParseFrom(pb::ICodedInputStream input, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(input, extensionRegistry)).BuildParsed(); } private Num MakeReadOnly() { return this; } public static Builder CreateBuilder() { return new Builder(); } public override Builder ToBuilder() { return CreateBuilder(this); } public override Builder CreateBuilderForType() { return new Builder(); } public static Builder CreateBuilder(Num prototype) { return new Builder(prototype); } [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public sealed partial class Builder : pb::GeneratedBuilder { protected override Builder ThisBuilder { get { return this; } } public Builder() { result = DefaultInstance; resultIsReadOnly = true; } internal Builder(Num cloneFrom) { result = cloneFrom; resultIsReadOnly = true; } private bool resultIsReadOnly; private Num result; private Num PrepareBuilder() { if (resultIsReadOnly) { Num original = result; result = new Num(); resultIsReadOnly = false; MergeFrom(original); } return result; } public override bool IsInitialized { get { return result.IsInitialized; } } protected override Num MessageBeingBuilt { get { return PrepareBuilder(); } } public override Builder Clear() { result = DefaultInstance; resultIsReadOnly = true; return this; } public override Builder Clone() { if (resultIsReadOnly) { return new Builder(result); } else { return new Builder().MergeFrom(result); } } public override pbd::MessageDescriptor DescriptorForType { get { return global::math.Num.Descriptor; } } public override Num DefaultInstanceForType { get { return global::math.Num.DefaultInstance; } } public override Num BuildPartial() { if (resultIsReadOnly) { return result; } resultIsReadOnly = true; return result.MakeReadOnly(); } public override Builder MergeFrom(pb::IMessage other) { if (other is Num) { return MergeFrom((Num) other); } else { base.MergeFrom(other); return this; } } public override Builder MergeFrom(Num other) { if (other == global::math.Num.DefaultInstance) return this; PrepareBuilder(); if (other.HasNum_) { Num_ = other.Num_; } this.MergeUnknownFields(other.UnknownFields); return this; } public override Builder MergeFrom(pb::ICodedInputStream input) { return MergeFrom(input, pb::ExtensionRegistry.Empty); } public override Builder MergeFrom(pb::ICodedInputStream input, pb::ExtensionRegistry extensionRegistry) { PrepareBuilder(); pb::UnknownFieldSet.Builder unknownFields = null; uint tag; string field_name; while (input.ReadTag(out tag, out field_name)) { if(tag == 0 && field_name != null) { int field_ordinal = global::System.Array.BinarySearch(_numFieldNames, field_name, global::System.StringComparer.Ordinal); if(field_ordinal >= 0) tag = _numFieldTags[field_ordinal]; else { if (unknownFields == null) { unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields); } ParseUnknownField(input, unknownFields, extensionRegistry, tag, field_name); continue; } } switch (tag) { case 0: { throw pb::InvalidProtocolBufferException.InvalidTag(); } default: { if (pb::WireFormat.IsEndGroupTag(tag)) { if (unknownFields != null) { this.UnknownFields = unknownFields.Build(); } return this; } if (unknownFields == null) { unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields); } ParseUnknownField(input, unknownFields, extensionRegistry, tag, field_name); break; } case 8: { result.hasNum_ = input.ReadInt64(ref result.num_); break; } } } if (unknownFields != null) { this.UnknownFields = unknownFields.Build(); } return this; } public bool HasNum_ { get { return result.hasNum_; } } public long Num_ { get { return result.Num_; } set { SetNum_(value); } } public Builder SetNum_(long value) { PrepareBuilder(); result.hasNum_ = true; result.num_ = value; return this; } public Builder ClearNum_() { PrepareBuilder(); result.hasNum_ = false; result.num_ = 0L; return this; } } static Num() { object.ReferenceEquals(global::math.Proto.Math.Descriptor, null); } } [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public sealed partial class FibReply : pb::GeneratedMessage { private FibReply() { } private static readonly FibReply defaultInstance = new FibReply().MakeReadOnly(); private static readonly string[] _fibReplyFieldNames = new string[] { "count" }; private static readonly uint[] _fibReplyFieldTags = new uint[] { 8 }; public static FibReply DefaultInstance { get { return defaultInstance; } } public override FibReply DefaultInstanceForType { get { return DefaultInstance; } } protected override FibReply ThisMessage { get { return this; } } public static pbd::MessageDescriptor Descriptor { get { return global::math.Proto.Math.internal__static_math_FibReply__Descriptor; } } protected override pb::FieldAccess.FieldAccessorTable InternalFieldAccessors { get { return global::math.Proto.Math.internal__static_math_FibReply__FieldAccessorTable; } } public const int CountFieldNumber = 1; private bool hasCount; private long count_; public bool HasCount { get { return hasCount; } } public long Count { get { return count_; } } public override bool IsInitialized { get { return true; } } public override void WriteTo(pb::ICodedOutputStream output) { int size = SerializedSize; string[] field_names = _fibReplyFieldNames; if (hasCount) { output.WriteInt64(1, field_names[0], Count); } UnknownFields.WriteTo(output); } private int memoizedSerializedSize = -1; public override int SerializedSize { get { int size = memoizedSerializedSize; if (size != -1) return size; size = 0; if (hasCount) { size += pb::CodedOutputStream.ComputeInt64Size(1, Count); } size += UnknownFields.SerializedSize; memoizedSerializedSize = size; return size; } } public static FibReply ParseFrom(pb::ByteString data) { return ((Builder) CreateBuilder().MergeFrom(data)).BuildParsed(); } public static FibReply ParseFrom(pb::ByteString data, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(data, extensionRegistry)).BuildParsed(); } public static FibReply ParseFrom(byte[] data) { return ((Builder) CreateBuilder().MergeFrom(data)).BuildParsed(); } public static FibReply ParseFrom(byte[] data, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(data, extensionRegistry)).BuildParsed(); } public static FibReply ParseFrom(global::System.IO.Stream input) { return ((Builder) CreateBuilder().MergeFrom(input)).BuildParsed(); } public static FibReply ParseFrom(global::System.IO.Stream input, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(input, extensionRegistry)).BuildParsed(); } public static FibReply ParseDelimitedFrom(global::System.IO.Stream input) { return CreateBuilder().MergeDelimitedFrom(input).BuildParsed(); } public static FibReply ParseDelimitedFrom(global::System.IO.Stream input, pb::ExtensionRegistry extensionRegistry) { return CreateBuilder().MergeDelimitedFrom(input, extensionRegistry).BuildParsed(); } public static FibReply ParseFrom(pb::ICodedInputStream input) { return ((Builder) CreateBuilder().MergeFrom(input)).BuildParsed(); } public static FibReply ParseFrom(pb::ICodedInputStream input, pb::ExtensionRegistry extensionRegistry) { return ((Builder) CreateBuilder().MergeFrom(input, extensionRegistry)).BuildParsed(); } private FibReply MakeReadOnly() { return this; } public static Builder CreateBuilder() { return new Builder(); } public override Builder ToBuilder() { return CreateBuilder(this); } public override Builder CreateBuilderForType() { return new Builder(); } public static Builder CreateBuilder(FibReply prototype) { return new Builder(prototype); } [global::System.Diagnostics.DebuggerNonUserCodeAttribute()] public sealed partial class Builder : pb::GeneratedBuilder { protected override Builder ThisBuilder { get { return this; } } public Builder() { result = DefaultInstance; resultIsReadOnly = true; } internal Builder(FibReply cloneFrom) { result = cloneFrom; resultIsReadOnly = true; } private bool resultIsReadOnly; private FibReply result; private FibReply PrepareBuilder() { if (resultIsReadOnly) { FibReply original = result; result = new FibReply(); resultIsReadOnly = false; MergeFrom(original); } return result; } public override bool IsInitialized { get { return result.IsInitialized; } } protected override FibReply MessageBeingBuilt { get { return PrepareBuilder(); } } public override Builder Clear() { result = DefaultInstance; resultIsReadOnly = true; return this; } public override Builder Clone() { if (resultIsReadOnly) { return new Builder(result); } else { return new Builder().MergeFrom(result); } } public override pbd::MessageDescriptor DescriptorForType { get { return global::math.FibReply.Descriptor; } } public override FibReply DefaultInstanceForType { get { return global::math.FibReply.DefaultInstance; } } public override FibReply BuildPartial() { if (resultIsReadOnly) { return result; } resultIsReadOnly = true; return result.MakeReadOnly(); } public override Builder MergeFrom(pb::IMessage other) { if (other is FibReply) { return MergeFrom((FibReply) other); } else { base.MergeFrom(other); return this; } } public override Builder MergeFrom(FibReply other) { if (other == global::math.FibReply.DefaultInstance) return this; PrepareBuilder(); if (other.HasCount) { Count = other.Count; } this.MergeUnknownFields(other.UnknownFields); return this; } public override Builder MergeFrom(pb::ICodedInputStream input) { return MergeFrom(input, pb::ExtensionRegistry.Empty); } public override Builder MergeFrom(pb::ICodedInputStream input, pb::ExtensionRegistry extensionRegistry) { PrepareBuilder(); pb::UnknownFieldSet.Builder unknownFields = null; uint tag; string field_name; while (input.ReadTag(out tag, out field_name)) { if(tag == 0 && field_name != null) { int field_ordinal = global::System.Array.BinarySearch(_fibReplyFieldNames, field_name, global::System.StringComparer.Ordinal); if(field_ordinal >= 0) tag = _fibReplyFieldTags[field_ordinal]; else { if (unknownFields == null) { unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields); } ParseUnknownField(input, unknownFields, extensionRegistry, tag, field_name); continue; } } switch (tag) { case 0: { throw pb::InvalidProtocolBufferException.InvalidTag(); } default: { if (pb::WireFormat.IsEndGroupTag(tag)) { if (unknownFields != null) { this.UnknownFields = unknownFields.Build(); } return this; } if (unknownFields == null) { unknownFields = pb::UnknownFieldSet.CreateBuilder(this.UnknownFields); } ParseUnknownField(input, unknownFields, extensionRegistry, tag, field_name); break; } case 8: { result.hasCount = input.ReadInt64(ref result.count_); break; } } } if (unknownFields != null) { this.UnknownFields = unknownFields.Build(); } return this; } public bool HasCount { get { return result.hasCount; } } public long Count { get { return result.Count; } set { SetCount(value); } } public Builder SetCount(long value) { PrepareBuilder(); result.hasCount = true; result.count_ = value; return this; } public Builder ClearCount() { PrepareBuilder(); result.hasCount = false; result.count_ = 0L; return this; } } static FibReply() { object.ReferenceEquals(global::math.Proto.Math.Descriptor, null); } } #endregion #region Services /* * Service generation is now disabled by default, use the following option to enable: * option (google.protobuf.csharp_file_options).service_generator_type = GENERIC; */ #endregion } #endregion Designer generated code