Module Impargs
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
...
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
type implicit_status
= (Names.Id.t * implicit_explanation * (maximal_insertion * force_inference)) 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 is_inferable_implicit : bool -> int -> implicit_status -> bool
val name_of_implicit : implicit_status -> Names.Id.t
val maximal_insertion_of : implicit_status -> bool
val force_inference_of : implicit_status -> bool
val positions_of_implicits : implicits_list -> int list
type manual_explicitation
= Constrexpr.explicitation * (maximal_insertion * force_inference * bool)
A
manual_explicitation
is a tuple of a positional or named explicitation with maximal insertion, force inference and force usage flags. Forcing usage makes the argument implicit even if the automatic inference considers it not inferable.
type manual_implicits
= manual_explicitation list
val compute_implicits_with_manual : Environ.env -> Evd.evar_map -> EConstr.types -> bool -> manual_implicits -> implicit_status list
val compute_implicits_names : Environ.env -> Evd.evar_map -> EConstr.types -> Names.Name.t list
Computation of implicits (done using the global environment).
val declare_var_implicits : Names.variable -> 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
val declare_manual_implicits : bool -> Names.GlobRef.t -> ?enriching:bool -> manual_implicits -> unit
val maybe_declare_manual_implicits : bool -> Names.GlobRef.t -> ?enriching:bool -> manual_implicits -> unit
val set_implicits : bool -> Names.GlobRef.t -> implicit_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 lift_implicits : int -> manual_implicits -> manual_implicits
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 explicitation_eq : Constrexpr.explicitation -> Constrexpr.explicitation -> bool
Equality on
explicitation
.