Impargs (coq-core.Impargs)

Implicit Arguments

Here we store the implicit arguments. Notice that we are outside the kernel, which knows nothing about implicit arguments.

val make_implicit_args : bool -> unit

val make_strict_implicit_args : bool -> unit

val make_strongly_strict_implicit_args : bool -> unit

val make_reversible_pattern_implicit_args : bool -> unit

val make_contextual_implicit_args : bool -> unit

val make_maximal_implicit_args : bool -> unit

val is_implicit_args : unit -> bool

val is_strict_implicit_args : unit -> bool

val is_strongly_strict_implicit_args : unit -> bool

val is_reversible_pattern_implicit_args : unit -> bool

val is_contextual_implicit_args : unit -> bool

val is_maximal_implicit_args : unit -> bool

val with_implicit_protection : ('a -> 'b) -> 'a -> 'b

...

An implicits_list is a list of positions telling which arguments of a reference can be automatically inferred

type argument_position =

| Conclusion

| Hyp of int

type implicit_explanation =

`\| DepRigid of argument_position`	(* means that the implicit argument can be found by unification along a rigid path (we do not print the arguments of this kind if there is enough arguments to infer them) *)
`\| DepFlex of argument_position`	(* means that the implicit argument can be found by unification along a collapsible path only (e.g. as x in (P x) where P is another argument) (we do (defensively) print the arguments of this kind) *)
`\| DepFlexAndRigid of argument_position * argument_position`	(* means that the least argument from which the implicit argument can be inferred is following a collapsible path but there is a greater argument from where the implicit argument is inferable following a rigid path (useful to know how to print a partial application) *)
`\| Manual`	(* means the argument has been explicitly set as implicit. *)

We remember various information about why an argument is inferable as implicit

We also consider arguments inferable from the conclusion but it is operational only if conclusion_matters is true.

type maximal_insertion = bool

true = maximal contextual insertion

type force_inference = bool

true = always infer, never turn into evar/subgoal

type implicit_position = Names.Name.t * int * int option

type implicit_status_info = {

impl_pos : implicit_position;

impl_expl : implicit_explanation;

impl_max : maximal_insertion;

impl_force : force_inference;

}

type implicit_status = implicit_status_info option

None = Not implicit

type implicit_side_condition

type implicits_list = implicit_side_condition * implicit_status list

val is_status_implicit : implicit_status -> bool

val binding_kind_of_status : implicit_status -> Glob_term.binding_kind

val is_inferable_implicit : bool -> int -> implicit_status -> bool

val name_of_implicit : implicit_status -> Names.Id.t

val match_implicit : implicit_status -> Constrexpr.explicitation -> bool

val maximal_insertion_of : implicit_status -> bool

val force_inference_of : implicit_status -> bool

val is_nondep_implicit : int -> implicit_status list -> bool

val explicitation : implicit_status -> Constrexpr.explicitation

val positions_of_implicits : implicits_list -> int list

type manual_implicits = (Names.Name.t * bool) option CAst.t list

val compute_implicits_with_manual : Environ.env -> Evd.evar_map -> ?silent:bool -> EConstr.types -> bool -> manual_implicits -> implicit_status list

val compute_implicits_names : Environ.env -> Evd.evar_map -> EConstr.types -> implicit_position list

Computation of implicits (done using the global environment).

val declare_var_implicits : Names.variable -> impl:Glob_term.binding_kind -> unit

val declare_constant_implicits : Names.Constant.t -> unit

val declare_mib_implicits : Names.MutInd.t -> unit

val declare_implicits : bool -> Names.GlobRef.t -> unit

declare_manual_implicits local ref enriching l Manual declaration of which arguments are expected implicit. If not set, we decide if it should enrich by automatically inferd implicits depending on the current state. Unsets implicits if l is empty.

val declare_manual_implicits : bool -> Names.GlobRef.t -> ?enriching:bool -> manual_implicits -> unit

If the list is empty, do nothing, otherwise declare the implicits.

val maybe_declare_manual_implicits : bool -> Names.GlobRef.t -> ?enriching:bool -> manual_implicits -> unit

val set_implicits : bool -> Names.GlobRef.t -> (Names.Name.t * Glob_term.binding_kind) list list -> unit

set_implicits local ref l Manual declaration of implicit arguments. l is a list of possible sequences of implicit statuses.

val implicits_of_global : Names.GlobRef.t -> implicits_list list

val extract_impargs_data : implicits_list list -> ((int * int) option * implicit_status list) list

val make_implicits_list : implicit_status list -> implicits_list list

val drop_first_implicits : int -> implicits_list -> implicits_list

val projection_implicits : Environ.env -> Names.Projection.t -> implicit_status list -> implicit_status list

val select_impargs_size : int -> implicits_list list -> implicit_status list

val select_stronger_impargs : implicits_list list -> implicit_status list

val select_impargs_size_for_proj : nexpectedparams:int -> ngivenparams:int ->
nextraargs:int -> implicits_list list -> (implicit_status list * implicit_status list, int list Stdlib.Lazy.t) Util.union

val impargs_for_proj : nexpectedparams:int -> nextraargs:int ->
implicit_status list -> implicit_status list * implicit_status list