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// Generated by the protocol buffer compiler. DO NOT EDIT!
// source: math.proto
// Original file comments:
// Copyright 2015, Google Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
#region Designer generated code
using System;
using System.Threading;
using System.Threading.Tasks;
using Grpc.Core;
namespace Math {
public static class Math
{
static readonly string __ServiceName = "math.Math";
static readonly Marshaller<global::Math.DivArgs> __Marshaller_DivArgs = Marshallers.Create((arg) => global::Google.Protobuf.MessageExtensions.ToByteArray(arg), global::Math.DivArgs.Parser.ParseFrom);
static readonly Marshaller<global::Math.DivReply> __Marshaller_DivReply = Marshallers.Create((arg) => global::Google.Protobuf.MessageExtensions.ToByteArray(arg), global::Math.DivReply.Parser.ParseFrom);
static readonly Marshaller<global::Math.FibArgs> __Marshaller_FibArgs = Marshallers.Create((arg) => global::Google.Protobuf.MessageExtensions.ToByteArray(arg), global::Math.FibArgs.Parser.ParseFrom);
static readonly Marshaller<global::Math.Num> __Marshaller_Num = Marshallers.Create((arg) => global::Google.Protobuf.MessageExtensions.ToByteArray(arg), global::Math.Num.Parser.ParseFrom);
static readonly Method<global::Math.DivArgs, global::Math.DivReply> __Method_Div = new Method<global::Math.DivArgs, global::Math.DivReply>(
MethodType.Unary,
__ServiceName,
"Div",
__Marshaller_DivArgs,
__Marshaller_DivReply);
static readonly Method<global::Math.DivArgs, global::Math.DivReply> __Method_DivMany = new Method<global::Math.DivArgs, global::Math.DivReply>(
MethodType.DuplexStreaming,
__ServiceName,
"DivMany",
__Marshaller_DivArgs,
__Marshaller_DivReply);
static readonly Method<global::Math.FibArgs, global::Math.Num> __Method_Fib = new Method<global::Math.FibArgs, global::Math.Num>(
MethodType.ServerStreaming,
__ServiceName,
"Fib",
__Marshaller_FibArgs,
__Marshaller_Num);
static readonly Method<global::Math.Num, global::Math.Num> __Method_Sum = new Method<global::Math.Num, global::Math.Num>(
MethodType.ClientStreaming,
__ServiceName,
"Sum",
__Marshaller_Num,
__Marshaller_Num);
/// <summary>Service descriptor</summary>
public static global::Google.Protobuf.Reflection.ServiceDescriptor Descriptor
{
get { return global::Math.MathReflection.Descriptor.Services[0]; }
}
/// <summary>Client for Math</summary>
[System.Obsolete("Client side interfaced will be removed in the next release. Use client class directly.")]
public interface IMathClient
{
/// <summary>
/// Div divides args.dividend by args.divisor and returns the quotient and
/// remainder.
/// </summary>
global::Math.DivReply Div(global::Math.DivArgs request, Metadata headers = null, DateTime? deadline = null, CancellationToken cancellationToken = default(CancellationToken));
/// <summary>
/// Div divides args.dividend by args.divisor and returns the quotient and
/// remainder.
/// </summary>
global::Math.DivReply Div(global::Math.DivArgs request, CallOptions options);
/// <summary>
/// Div divides args.dividend by args.divisor and returns the quotient and
/// remainder.
/// </summary>
AsyncUnaryCall<global::Math.DivReply> DivAsync(global::Math.DivArgs request, Metadata headers = null, DateTime? deadline = null, CancellationToken cancellationToken = default(CancellationToken));
/// <summary>
/// Div divides args.dividend by args.divisor and returns the quotient and
/// remainder.
/// </summary>
AsyncUnaryCall<global::Math.DivReply> DivAsync(global::Math.DivArgs request, CallOptions options);
/// <summary>
/// DivMany accepts an arbitrary number of division args from the client stream
/// and sends back the results in the reply stream. The stream continues until
/// the client closes its end; the server does the same after sending all the
/// replies. The stream ends immediately if either end aborts.
/// </summary>
AsyncDuplexStreamingCall<global::Math.DivArgs, global::Math.DivReply> DivMany(Metadata headers = null, DateTime? deadline = null, CancellationToken cancellationToken = default(CancellationToken));
/// <summary>
/// DivMany accepts an arbitrary number of division args from the client stream
/// and sends back the results in the reply stream. The stream continues until
/// the client closes its end; the server does the same after sending all the
/// replies. The stream ends immediately if either end aborts.
/// </summary>
AsyncDuplexStreamingCall<global::Math.DivArgs, global::Math.DivReply> DivMany(CallOptions options);
/// <summary>
/// Fib generates numbers in the Fibonacci sequence. If args.limit > 0, Fib
/// generates up to limit numbers; otherwise it continues until the call is
/// canceled. Unlike Fib above, Fib has no final FibReply.
/// </summary>
AsyncServerStreamingCall<global::Math.Num> Fib(global::Math.FibArgs request, Metadata headers = null, DateTime? deadline = null, CancellationToken cancellationToken = default(CancellationToken));
/// <summary>
/// Fib generates numbers in the Fibonacci sequence. If args.limit > 0, Fib
/// generates up to limit numbers; otherwise it continues until the call is
/// canceled. Unlike Fib above, Fib has no final FibReply.
/// </summary>
AsyncServerStreamingCall<global::Math.Num> Fib(global::Math.FibArgs request, CallOptions options);
/// <summary>
/// Sum sums a stream of numbers, returning the final result once the stream
/// is closed.
/// </summary>
AsyncClientStreamingCall<global::Math.Num, global::Math.Num> Sum(Metadata headers = null, DateTime? deadline = null, CancellationToken cancellationToken = default(CancellationToken));
/// <summary>
/// Sum sums a stream of numbers, returning the final result once the stream
/// is closed.
/// </summary>
AsyncClientStreamingCall<global::Math.Num, global::Math.Num> Sum(CallOptions options);
}
/// <summary>Interface of server-side implementations of Math</summary>
[System.Obsolete("Service implementations should inherit from the generated abstract base class instead.")]
public interface IMath
{
/// <summary>
/// Div divides args.dividend by args.divisor and returns the quotient and
/// remainder.
/// </summary>
global::System.Threading.Tasks.Task<global::Math.DivReply> Div(global::Math.DivArgs request, ServerCallContext context);
/// <summary>
/// DivMany accepts an arbitrary number of division args from the client stream
/// and sends back the results in the reply stream. The stream continues until
/// the client closes its end; the server does the same after sending all the
/// replies. The stream ends immediately if either end aborts.
/// </summary>
global::System.Threading.Tasks.Task DivMany(IAsyncStreamReader<global::Math.DivArgs> requestStream, IServerStreamWriter<global::Math.DivReply> responseStream, ServerCallContext context);
/// <summary>
/// Fib generates numbers in the Fibonacci sequence. If args.limit > 0, Fib
/// generates up to limit numbers; otherwise it continues until the call is
/// canceled. Unlike Fib above, Fib has no final FibReply.
/// </summary>
global::System.Threading.Tasks.Task Fib(global::Math.FibArgs request, IServerStreamWriter<global::Math.Num> responseStream, ServerCallContext context);
/// <summary>
/// Sum sums a stream of numbers, returning the final result once the stream
/// is closed.
/// </summary>
global::System.Threading.Tasks.Task<global::Math.Num> Sum(IAsyncStreamReader<global::Math.Num> requestStream, ServerCallContext context);
}
/// <summary>Base class for server-side implementations of Math</summary>
public abstract class MathBase
{
/// <summary>
/// Div divides args.dividend by args.divisor and returns the quotient and
/// remainder.
/// </summary>
public virtual global::System.Threading.Tasks.Task<global::Math.DivReply> Div(global::Math.DivArgs request, ServerCallContext context)
{
throw new RpcException(new Status(StatusCode.Unimplemented, ""));
}
/// <summary>
/// DivMany accepts an arbitrary number of division args from the client stream
/// and sends back the results in the reply stream. The stream continues until
/// the client closes its end; the server does the same after sending all the
/// replies. The stream ends immediately if either end aborts.
/// </summary>
public virtual global::System.Threading.Tasks.Task DivMany(IAsyncStreamReader<global::Math.DivArgs> requestStream, IServerStreamWriter<global::Math.DivReply> responseStream, ServerCallContext context)
{
throw new RpcException(new Status(StatusCode.Unimplemented, ""));
}
/// <summary>
/// Fib generates numbers in the Fibonacci sequence. If args.limit > 0, Fib
/// generates up to limit numbers; otherwise it continues until the call is
/// canceled. Unlike Fib above, Fib has no final FibReply.
/// </summary>
public virtual global::System.Threading.Tasks.Task Fib(global::Math.FibArgs request, IServerStreamWriter<global::Math.Num> responseStream, ServerCallContext context)
{
throw new RpcException(new Status(StatusCode.Unimplemented, ""));
}
/// <summary>
/// Sum sums a stream of numbers, returning the final result once the stream
/// is closed.
/// </summary>
public virtual global::System.Threading.Tasks.Task<global::Math.Num> Sum(IAsyncStreamReader<global::Math.Num> requestStream, ServerCallContext context)
{
throw new RpcException(new Status(StatusCode.Unimplemented, ""));
}
}
/// <summary>Client for Math</summary>
#pragma warning disable 0618
public class MathClient : ClientBase<MathClient>, IMathClient
#pragma warning restore 0618
{
public MathClient(Channel channel) : base(channel)
{
}
public MathClient(CallInvoker callInvoker) : base(callInvoker)
{
}
///<summary>Protected parameterless constructor to allow creation of test doubles.</summary>
protected MathClient() : base()
{
}
///<summary>Protected constructor to allow creation of configured clients.</summary>
protected MathClient(ClientBaseConfiguration configuration) : base(configuration)
{
}
/// <summary>
/// Div divides args.dividend by args.divisor and returns the quotient and
/// remainder.
/// </summary>
public virtual global::Math.DivReply Div(global::Math.DivArgs request, Metadata headers = null, DateTime? deadline = null, CancellationToken cancellationToken = default(CancellationToken))
{
return Div(request, new CallOptions(headers, deadline, cancellationToken));
}
/// <summary>
/// Div divides args.dividend by args.divisor and returns the quotient and
/// remainder.
/// </summary>
public virtual global::Math.DivReply Div(global::Math.DivArgs request, CallOptions options)
{
return CallInvoker.BlockingUnaryCall(__Method_Div, null, options, request);
}
/// <summary>
/// Div divides args.dividend by args.divisor and returns the quotient and
/// remainder.
/// </summary>
public virtual AsyncUnaryCall<global::Math.DivReply> DivAsync(global::Math.DivArgs request, Metadata headers = null, DateTime? deadline = null, CancellationToken cancellationToken = default(CancellationToken))
{
return DivAsync(request, new CallOptions(headers, deadline, cancellationToken));
}
/// <summary>
/// Div divides args.dividend by args.divisor and returns the quotient and
/// remainder.
/// </summary>
public virtual AsyncUnaryCall<global::Math.DivReply> DivAsync(global::Math.DivArgs request, CallOptions options)
{
return CallInvoker.AsyncUnaryCall(__Method_Div, null, options, request);
}
/// <summary>
/// DivMany accepts an arbitrary number of division args from the client stream
/// and sends back the results in the reply stream. The stream continues until
/// the client closes its end; the server does the same after sending all the
/// replies. The stream ends immediately if either end aborts.
/// </summary>
public virtual AsyncDuplexStreamingCall<global::Math.DivArgs, global::Math.DivReply> DivMany(Metadata headers = null, DateTime? deadline = null, CancellationToken cancellationToken = default(CancellationToken))
{
return DivMany(new CallOptions(headers, deadline, cancellationToken));
}
/// <summary>
/// DivMany accepts an arbitrary number of division args from the client stream
/// and sends back the results in the reply stream. The stream continues until
/// the client closes its end; the server does the same after sending all the
/// replies. The stream ends immediately if either end aborts.
/// </summary>
public virtual AsyncDuplexStreamingCall<global::Math.DivArgs, global::Math.DivReply> DivMany(CallOptions options)
{
return CallInvoker.AsyncDuplexStreamingCall(__Method_DivMany, null, options);
}
/// <summary>
/// Fib generates numbers in the Fibonacci sequence. If args.limit > 0, Fib
/// generates up to limit numbers; otherwise it continues until the call is
/// canceled. Unlike Fib above, Fib has no final FibReply.
/// </summary>
public virtual AsyncServerStreamingCall<global::Math.Num> Fib(global::Math.FibArgs request, Metadata headers = null, DateTime? deadline = null, CancellationToken cancellationToken = default(CancellationToken))
{
return Fib(request, new CallOptions(headers, deadline, cancellationToken));
}
/// <summary>
/// Fib generates numbers in the Fibonacci sequence. If args.limit > 0, Fib
/// generates up to limit numbers; otherwise it continues until the call is
/// canceled. Unlike Fib above, Fib has no final FibReply.
/// </summary>
public virtual AsyncServerStreamingCall<global::Math.Num> Fib(global::Math.FibArgs request, CallOptions options)
{
return CallInvoker.AsyncServerStreamingCall(__Method_Fib, null, options, request);
}
/// <summary>
/// Sum sums a stream of numbers, returning the final result once the stream
/// is closed.
/// </summary>
public virtual AsyncClientStreamingCall<global::Math.Num, global::Math.Num> Sum(Metadata headers = null, DateTime? deadline = null, CancellationToken cancellationToken = default(CancellationToken))
{
return Sum(new CallOptions(headers, deadline, cancellationToken));
}
/// <summary>
/// Sum sums a stream of numbers, returning the final result once the stream
/// is closed.
/// </summary>
public virtual AsyncClientStreamingCall<global::Math.Num, global::Math.Num> Sum(CallOptions options)
{
return CallInvoker.AsyncClientStreamingCall(__Method_Sum, null, options);
}
protected override MathClient NewInstance(ClientBaseConfiguration configuration)
{
return new MathClient(configuration);
}
}
/// <summary>Creates a new client for Math</summary>
public static MathClient NewClient(Channel channel)
{
return new MathClient(channel);
}
/// <summary>Creates service definition that can be registered with a server</summary>
#pragma warning disable 0618
public static ServerServiceDefinition BindService(IMath serviceImpl)
#pragma warning restore 0618
{
return ServerServiceDefinition.CreateBuilder(__ServiceName)
.AddMethod(__Method_Div, serviceImpl.Div)
.AddMethod(__Method_DivMany, serviceImpl.DivMany)
.AddMethod(__Method_Fib, serviceImpl.Fib)
.AddMethod(__Method_Sum, serviceImpl.Sum).Build();
}
/// <summary>Creates service definition that can be registered with a server</summary>
#pragma warning disable 0618
public static ServerServiceDefinition BindService(MathBase serviceImpl)
#pragma warning restore 0618
{
return ServerServiceDefinition.CreateBuilder(__ServiceName)
.AddMethod(__Method_Div, serviceImpl.Div)
.AddMethod(__Method_DivMany, serviceImpl.DivMany)
.AddMethod(__Method_Fib, serviceImpl.Fib)
.AddMethod(__Method_Sum, serviceImpl.Sum).Build();
}
}
}
#endregion
|
