package rpclib

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Generates a server, like GenServer, but for an implementation that raises exceptions instead of returning a result.

Parameters

Signature

include RPC with type implementation = server_implementation and type 'a res = 'a -> unit and type ('a, 'b) comp = 'a
type implementation = server_implementation

The implementation is dependent on the module, and represents the 'result' of the entire module. For example, in the Server module, the `implementation` is the server function, with type

Rpc.call -> Rpc.response.

For the Client module, the individual declarations are used to perform the RPCs, and the 'implementation' type is simply unit.

To actually construct the implementation, an interface description must be provided

type 'a res = 'a -> unit

'a res is the result type of declaring a function. For example, the Client module, given an (int -> int -> int) fn, will return a function of type 'a - in this case, (int -> int -> int)

type ('a, 'b) comp = 'a

This is for inserting a type in between the function application and its result. For example, this could be an Lwt.t, meaning that the result of a function application is a thread

type _ fn

The GADT specifying the type of the RPC

val (@->) : 'a Param.t -> 'b fn -> ('a -> 'b) fn

This infix operator is for constructing function types

val noargs : 'b fn -> (unit -> 'b) fn

Require a unit argument in OCaml without sending a parameter. Useful for methods that take no arguments.

val returning : 'a Param.t -> 'b Error.t -> ('a, 'b) comp fn

This defines the return type of an RPC

val declare : string -> string list -> 'a fn -> 'a res

declare name description typ is how an RPC is declared to the module implementing the functionality. The return type is dependent upon the module being used

val declare_notification : string -> string list -> 'a fn -> 'a res

declare_notification name description typ is mostly the same as declare, only that it allows support from JSON-RPC notifications.