(************************************************************************) (* v * The Coq Proof Assistant / The Coq Development Team *) (* unit) -> unit val definition_message : identifier -> unit val assumption_message : identifier -> unit val declare_definition : identifier -> definition_kind -> local_binder list -> red_expr option -> constr_expr -> constr_expr option -> declaration_hook -> unit val syntax_definition : identifier -> identifier list * constr_expr -> bool -> bool -> unit val declare_one_assumption : coercion_flag -> assumption_kind -> Term.types -> Impargs.manual_explicitation list -> bool (* implicit *) -> bool (* keep *) -> bool (* inline *) -> Names.variable located -> unit val set_declare_assumption_hook : (types -> unit) -> unit val declare_assumption : identifier located list -> coercion_flag -> assumption_kind -> local_binder list -> constr_expr -> bool -> bool -> bool -> unit val declare_interning_data : 'a * Constrintern.implicits_env -> string * Topconstr.constr_expr * Topconstr.scope_name option -> unit val compute_interning_datas : Environ.env -> 'a list -> 'b list -> Term.types list -> Impargs.manual_explicitation list list -> 'a list * ('b * (Names.identifier list * Impargs.implicits_list * Topconstr.scope_name option list)) list val build_mutual : (inductive_expr * decl_notation) list -> bool -> unit val declare_mutual_with_eliminations : bool -> Entries.mutual_inductive_entry -> (Impargs.manual_explicitation list * Impargs.manual_explicitation list list) list -> mutual_inductive type fixpoint_kind = | IsFixpoint of (int option * recursion_order_expr) list | IsCoFixpoint type fixpoint_expr = { fix_name : identifier; fix_binders : local_binder list; fix_body : constr_expr; fix_type : constr_expr } val recursive_message : Decl_kinds.definition_object_kind -> int array option -> Names.identifier list -> Pp.std_ppcmds val declare_fix : bool -> Decl_kinds.definition_object_kind -> identifier -> constr -> types -> Impargs.manual_explicitation list -> global_reference val build_recursive : (Topconstr.fixpoint_expr * decl_notation) list -> bool -> unit val build_corecursive : (Topconstr.cofixpoint_expr * decl_notation) list -> bool -> unit val build_scheme : (identifier located option * scheme ) list -> unit val build_combined_scheme : identifier located -> identifier located list -> unit val generalize_constr_expr : constr_expr -> local_binder list -> constr_expr val abstract_constr_expr : constr_expr -> local_binder list -> constr_expr (* A hook start_proof calls on the type of the definition being started *) val set_start_hook : (types -> unit) -> unit val start_proof : identifier -> goal_kind -> types -> declaration_hook -> unit val start_proof_com : identifier option -> goal_kind -> (local_binder list * constr_expr) -> declaration_hook -> unit (* A hook the next three functions pass to cook_proof *) val set_save_hook : (Refiner.pftreestate -> unit) -> unit (*s [save_named b] saves the current completed proof under the name it was started; boolean [b] tells if the theorem is declared opaque; it fails if the proof is not completed *) val save_named : bool -> unit (* [save_anonymous b name] behaves as [save_named] but declares the theorem under the name [name] and respects the strength of the declaration *) val save_anonymous : bool -> identifier -> unit (* [save_anonymous_with_strength s b name] behaves as [save_anonymous] but declares the theorem under the name [name] and gives it the strength [strength] *) val save_anonymous_with_strength : theorem_kind -> bool -> identifier -> unit (* [admit ()] aborts the current goal and save it as an assmumption *) val admit : unit -> unit (* [get_current_context ()] returns the evar context and env of the current open proof if any, otherwise returns the empty evar context and the current global env *) val get_current_context : unit -> Evd.evar_map * Environ.env