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Tapeti/Tapeti.Flow/IFlowProvider.cs

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C#
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using System;
using System.Linq.Expressions;
using System.Threading.Tasks;
// ReSharper disable UnusedMember.Global
namespace Tapeti.Flow
{
/// <summary>
/// Provides methods to build an IYieldPoint to indicate if and how Flow should continue.
/// </summary>
public interface IFlowProvider
{
/// <summary>
/// Publish a request message and continue the flow when the response arrives.
/// The request message must be marked with the [Request] attribute, and the
/// Response type must match. Used for asynchronous response handlers.
/// </summary>
/// <param name="message"></param>
/// <param name="responseHandler"></param>
/// <typeparam name="TRequest"></typeparam>
/// <typeparam name="TResponse"></typeparam>
IYieldPoint YieldWithRequest<TRequest, TResponse>(TRequest message, Func<TResponse, Task<IYieldPoint>> responseHandler) where TRequest : class where TResponse : class;
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/// <summary>
/// Publish a request message and continue the flow when the response arrives.
/// The request message must be marked with the [Request] attribute, and the
/// Response type must match. Used for asynchronous response handlers.
/// </summary>
/// <param name="message"></param>
/// <param name="responseHandler"></param>
/// <typeparam name="TRequest"></typeparam>
/// <typeparam name="TResponse"></typeparam>
IYieldPoint YieldWithRequest<TRequest, TResponse>(TRequest message, Func<TResponse, ValueTask<IYieldPoint>> responseHandler) where TRequest : class where TResponse : class;
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/// <summary>
/// Publish a request message and continue the flow when the response arrives.
/// The request message must be marked with the [Request] attribute, and the
/// Response type must match. Used for synchronous response handlers.
/// </summary>
/// <remarks>
/// The reason why this requires the extra 'Sync' in the name: one does not simply overload methods
/// with Task vs non-Task Funcs. "Ambiguous call". Apparantly this is because a return type
/// of a method is not part of its signature,according to:
/// http://stackoverflow.com/questions/18715979/ambiguity-with-action-and-func-parameter
/// </remarks>
/// <param name="message"></param>
/// <param name="responseHandler"></param>
/// <typeparam name="TRequest"></typeparam>
/// <typeparam name="TResponse"></typeparam>
/// <returns></returns>
IYieldPoint YieldWithRequestSync<TRequest, TResponse>(TRequest message, Func<TResponse, IYieldPoint> responseHandler) where TRequest : class where TResponse : class;
/// <summary>
/// Create a request builder to publish one or more requests messages. Call Yield on the resulting builder
/// to acquire an IYieldPoint.
/// </summary>
IFlowParallelRequestBuilder YieldWithParallelRequest();
/// <summary>
/// End the flow by publishing the specified response message. Only allowed, and required, when the
/// current flow was started by a message handler for a Request message.
/// </summary>
/// <param name="message"></param>
/// <typeparam name="TResponse"></typeparam>
IYieldPoint EndWithResponse<TResponse>(TResponse message) where TResponse : class;
/// <summary>
/// End the flow and dispose any state.
/// </summary>
IYieldPoint End();
}
/// <summary>
/// Allows starting a flow outside of a message handler.
/// </summary>
public interface IFlowStarter
{
/// <summary>
/// Starts a new flow.
/// </summary>
/// <param name="methodSelector"></param>
Task Start<TController>(Expression<Func<TController, Func<IYieldPoint>>> methodSelector) where TController : class;
/// <summary>
/// Starts a new flow.
/// </summary>
/// <param name="methodSelector"></param>
Task Start<TController>(Expression<Func<TController, Func<Task<IYieldPoint>>>> methodSelector) where TController : class;
/// <summary>
/// Starts a new flow and passes the parameter to the method.
/// </summary>
/// <param name="methodSelector"></param>
/// <param name="parameter"></param>
Task Start<TController, TParameter>(Expression<Func<TController, Func<TParameter, IYieldPoint>>> methodSelector, TParameter parameter) where TController : class;
/// <summary>
/// Starts a new flow and passes the parameter to the method.
/// </summary>
/// <param name="methodSelector"></param>
/// <param name="parameter"></param>
Task Start<TController, TParameter>(Expression<Func<TController, Func<TParameter, Task<IYieldPoint>>>> methodSelector, TParameter parameter) where TController : class;
}
/// <summary>
/// Internal interface. Do not call directly.
/// </summary>
public interface IFlowHandler
{
/// <summary>
/// Executes the YieldPoint for the given message context.
/// </summary>
/// <param name="context"></param>
/// <param name="yieldPoint"></param>
ValueTask Execute(IFlowHandlerContext context, IYieldPoint yieldPoint);
/// <summary>
/// Returns the parallel request for the given message context.
/// </summary>
IFlowParallelRequest? GetParallelRequest(IFlowHandlerContext context);
/// <summary>
/// Calls the converge method for a parallel flow.
/// </summary>
ValueTask Converge(IFlowHandlerContext context);
}
/// <summary>
/// Determines how the Yield method of a parallel request behaves when no requests have been added.
/// Useful in cases where requests are sent conditionally.
/// </summary>
public enum FlowNoRequestsBehaviour
{
/// <summary>
/// Throw an exception. This is the default behaviour to prevent subtle bugs when not specifying the behaviour explicitly,
/// as well as for backwards compatibility.
/// </summary>
Exception,
/// <summary>
/// Immediately call the continuation method.
/// </summary>
Converge,
/// <summary>
/// End the flow without calling the converge method.
/// </summary>
EndFlow
}
/// <summary>
/// Builder to publish one or more request messages and continuing the flow when the responses arrive.
/// </summary>
public interface IFlowParallelRequestBuilder
{
/// <summary>
/// Publish a request message and continue the flow when the response arrives.
/// Note that the response handler can not influence the flow as it does not return a YieldPoint.
/// It can instead store state in the controller for the continuation passed to the Yield method.
/// Used for asynchronous response handlers.
/// </summary>
/// <param name="message"></param>
/// <param name="responseHandler"></param>
IFlowParallelRequestBuilder AddRequest<TRequest, TResponse>(TRequest message, Func<TResponse, Task> responseHandler) where TRequest : class where TResponse : class;
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/// <summary>
/// Publish a request message and continue the flow when the response arrives.
/// Note that the response handler can not influence the flow as it does not return a YieldPoint.
/// It can instead store state in the controller for the continuation passed to the Yield method.
/// Used for asynchronous response handlers.
/// </summary>
/// <param name="message"></param>
/// <param name="responseHandler"></param>
IFlowParallelRequestBuilder AddRequest<TRequest, TResponse>(TRequest message, Func<TResponse, ValueTask> responseHandler) where TRequest : class where TResponse : class;
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/// <remarks>
/// This overload allows the response handler access to the IFlowParallelRequest interface, which
/// can be used to add additional requests to the parallel request before the continuation method passed to the Yield method is called.
/// </remarks>
/// <inheritdoc cref="AddRequest{TRequest,TResponse}(TRequest,Func{TResponse,Task})"/>
IFlowParallelRequestBuilder AddRequest<TRequest, TResponse>(TRequest message, Func<TResponse, IFlowParallelRequest, Task> responseHandler) where TRequest : class where TResponse : class;
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/// <remarks>
/// This overload allows the response handler access to the IFlowParallelRequest interface, which
/// can be used to add additional requests to the parallel request before the continuation method passed to the Yield method is called.
/// </remarks>
/// <inheritdoc cref="AddRequest{TRequest,TResponse}(TRequest,Func{TResponse,ValueTask})"/>
IFlowParallelRequestBuilder AddRequest<TRequest, TResponse>(TRequest message, Func<TResponse, IFlowParallelRequest, ValueTask> responseHandler) where TRequest : class where TResponse : class;
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/// <summary>
/// Publish a request message and continue the flow when the response arrives.
/// Note that the response handler can not influence the flow as it does not return a YieldPoint.
/// It can instead store state in the controller for the continuation passed to the Yield method.
/// Used for synchronous response handlers.
/// </summary>
/// <param name="message"></param>
/// <param name="responseHandler"></param>
IFlowParallelRequestBuilder AddRequestSync<TRequest, TResponse>(TRequest message, Action<TResponse> responseHandler) where TRequest : class where TResponse : class;
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/// <remarks>
/// This overload allows the response handler access to the IFlowParallelRequest interface, which
/// can be used to add additional requests to the parallel request before the continuation method passed to the Yield method is called.
/// </remarks>
/// <inheritdoc cref="AddRequestSync{TRequest,TResponse}(TRequest,Action{TResponse})"/>
IFlowParallelRequestBuilder AddRequestSync<TRequest, TResponse>(TRequest message, Action<TResponse, IFlowParallelRequest> responseHandler) where TRequest : class where TResponse : class;
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/// There is no Sync overload with an IFlowParallelRequest parameter, as the AddRequest methods for that are
/// async, so you should always await them.
/// <summary>
/// Constructs an IYieldPoint to continue the flow when responses arrive.
/// The continuation method is called when all responses have arrived.
/// Response handlers and the continuation method are guaranteed thread-safe access to the
/// controller and can store state.
/// Used for asynchronous continuation methods.
/// </summary>
/// <param name="continuation">The converge continuation method to be called when all responses have been handled.</param>
/// <param name="noRequestsBehaviour">How the Yield method should behave when no requests have been added to the parallel request builder.</param>
IYieldPoint Yield(Func<Task<IYieldPoint>> continuation, FlowNoRequestsBehaviour noRequestsBehaviour = FlowNoRequestsBehaviour.Exception);
/// <summary>
/// Constructs an IYieldPoint to continue the flow when responses arrive.
/// The continuation method is called when all responses have arrived.
/// Response handlers and the continuation method are guaranteed thread-safe access to the
/// controller and can store state.
/// Used for synchronous continuation methods.
/// </summary>
/// <param name="continuation">The converge continuation method to be called when all responses have been handled.</param>
/// <param name="noRequestsBehaviour">How the Yield method should behave when no requests have been added to the parallel request builder.</param>
IYieldPoint YieldSync(Func<IYieldPoint> continuation, FlowNoRequestsBehaviour noRequestsBehaviour = FlowNoRequestsBehaviour.Exception);
}
/// <summary>
/// Provides means of adding one or more requests to a parallel request.
/// </summary>
/// <remarks>
/// Add a parameter of this type to a parallel request's response handler to gain access to it's functionality.
/// Not available in other contexts.
/// </remarks>
public interface IFlowParallelRequest
{
/// <summary>
/// Publish a request message and continue the flow when the response arrives.
/// Note that the response handler can not influence the flow as it does not return a YieldPoint.
/// It can instead store state in the controller for the continuation passed to the Yield method.
/// Used for asynchronous response handlers.
/// </summary>
/// <param name="message"></param>
/// <param name="responseHandler"></param>
Task AddRequest<TRequest, TResponse>(TRequest message, Func<TResponse, Task> responseHandler) where TRequest : class where TResponse : class;
/// <remarks>
/// This overload allows the response handler access to the IFlowParallelRequest interface, which
/// can be used to add additional requests to the parallel request before the continuation method passed to the Yield method is called.
/// </remarks>
/// <inheritdoc cref="AddRequest{TRequest,TResponse}(TRequest,Func{TResponse,Task})"/>
Task AddRequest<TRequest, TResponse>(TRequest message, Func<TResponse, IFlowParallelRequest, Task> responseHandler) where TRequest : class where TResponse : class;
/// <summary>
/// Publish a request message and continue the flow when the response arrives.
/// Note that the response handler can not influence the flow as it does not return a YieldPoint.
/// It can instead store state in the controller for the continuation passed to the Yield method.
/// Used for synchronous response handlers.
/// </summary>
/// <param name="message"></param>
/// <param name="responseHandler"></param>
Task AddRequestSync<TRequest, TResponse>(TRequest message, Action<TResponse> responseHandler) where TRequest : class where TResponse : class;
}
/// <summary>
/// Defines if and how the Flow should continue. Construct using any of the IFlowProvider methods.
/// </summary>
public interface IYieldPoint
{
}
}