Typerep_lib.Type_genericA computation is the type of an operation that can be applied to various different kind of types. It is expressed as a type with one parameter:
type 'a computation
Examples of computation:
type sexp_of_t = ('a -> Sexp.t) computation
The term generic is used to refer to a specific implementation of a computation whose concrete implementation is programmed using the type representation of values.
For example, when one uses with sexp as a way to implement the sexp_of_t computation, the technique used is code generation at compile time. Another approach is to define a generic function sexp_of_t that inspects the representation of the type at runtime.
This module offers an abstraction over type rep in order to implement generics in a efficient way.
Provided from a user enough pieces of implementation regarding a particular computation, this module returns essentially the following function:
(** main function : get the computation from the typerep *) val of_typerep : 'a Typerep.t -> `generic of 'a computation
that allows one to get the generic computation operating on a given type 'a.
module Variant_and_record_intf : module type of Variant_and_record_intfPlace holder for common Variants and Fields interface
module Helper (A : Variant_and_record_intf.S) (B : Variant_and_record_intf.S) : sig ... endmodule type Named = sig ... endmodule type Computation = sig ... endmodule Make_named_for_closure (X : sig ... end) : Named with type 'a computation := 'a X.tNot all computations are arrow types. For example:
module Ident : sig ... endmodule type S = sig ... endThe name is used for debug information only in case of Broken_dependency. The required is to handle dependencies between generics at runtime. Example: if X is the module given to build a generic computation G that depends on three other computation A,B,C then X.required shall be A.ident ; B.ident ; C.ident