(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* variable_declaration -> object_name (** Declaration of global constructions i.e. Definition/Theorem/Axiom/Parameter/... *) type constant_declaration = Safe_typing.private_constants constant_entry * logical_kind (** [declare_constant id cd] declares a global declaration (constant/parameter) with name [id] in the current section; it returns the full path of the declaration internal specify if the constant has been created by the kernel or by the user, and in the former case, if its errors should be silent *) type internal_flag = | UserAutomaticRequest | InternalTacticRequest | UserIndividualRequest (* Defaut definition entries, transparent with no secctx or proj information *) val definition_entry : ?opaque:bool -> ?inline:bool -> ?types:types -> ?poly:polymorphic -> ?univs:Univ.universe_context -> ?eff:Safe_typing.private_constants -> constr -> Safe_typing.private_constants definition_entry val declare_constant : ?internal:internal_flag -> ?local:bool -> Id.t -> ?export_seff:bool -> constant_declaration -> constant val declare_definition : ?internal:internal_flag -> ?opaque:bool -> ?kind:definition_object_kind -> ?local:bool -> ?poly:polymorphic -> Id.t -> ?types:constr -> constr Univ.in_universe_context_set -> constant (** Since transparent constants' side effects are globally declared, we * need that *) val set_declare_scheme : (string -> (inductive * constant) array -> unit) -> unit (** [declare_mind me] declares a block of inductive types with their constructors in the current section; it returns the path of the whole block and a boolean indicating if it is a primitive record. *) val declare_mind : mutual_inductive_entry -> object_name * bool (** Declaration messages *) val definition_message : Id.t -> unit val assumption_message : Id.t -> unit val fixpoint_message : int array option -> Id.t list -> unit val cofixpoint_message : Id.t list -> unit val recursive_message : bool (** true = fixpoint *) -> int array option -> Id.t list -> unit val exists_name : Id.t -> bool (** Global universe names and constraints *) val do_universe : polymorphic -> Id.t Loc.located list -> unit val do_constraint : polymorphic -> (Id.t Loc.located * Univ.constraint_type * Id.t Loc.located) list -> unit