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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*i $Id$ i*)
(*i*)
open Util
open Names
open Libnames
open Libobject
open Summary
open Mod_subst
(*i*)
(*s This module provides a general mechanism to keep a trace of all operations
and to backtrack (undo) those operations. It provides also the section
mechanism (at a low level; discharge is not known at this step). *)
type node =
| Leaf of obj
| CompilingLibrary of object_prefix
| OpenedModule of bool option * object_prefix * Summary.frozen
| ClosedModule of library_segment
| OpenedModtype of object_prefix * Summary.frozen
| ClosedModtype of library_segment
| OpenedSection of object_prefix * Summary.frozen
| ClosedSection of library_segment
| FrozenState of Summary.frozen
and library_segment = (object_name * node) list
type lib_objects = (identifier * obj) list
(*s Object iteratation functions. *)
val open_objects : int -> object_prefix -> lib_objects -> unit
val load_objects : int -> object_prefix -> lib_objects -> unit
val subst_objects : object_prefix -> substitution -> lib_objects -> lib_objects
(* [classify_segment seg] verifies that there are no OpenedThings,
clears ClosedSections and FrozenStates and divides Leafs according
to their answers to the [classify_object] function in three groups:
[Substitute], [Keep], [Anticipate] respectively. The order of each
returned list is the same as in the input list. *)
val classify_segment :
library_segment -> lib_objects * lib_objects * obj list
(* [segment_of_objects prefix objs] forms a list of Leafs *)
val segment_of_objects :
object_prefix -> lib_objects -> library_segment
(*s Adding operations (which call the [cache] method, and getting the
current list of operations (most recent ones coming first). *)
val add_leaf : identifier -> obj -> object_name
val add_absolutely_named_leaf : object_name -> obj -> unit
val add_anonymous_leaf : obj -> unit
(* this operation adds all objects with the same name and calls [load_object]
for each of them *)
val add_leaves : identifier -> obj list -> object_name
val add_frozen_state : unit -> unit
(* Adds a "dummy" entry in lib_stk with a unique new label number. *)
val mark_end_of_command : unit -> unit
(* Returns the current label number *)
val current_command_label : unit -> int
(* [reset_label n ] resets [lib_stk] to the label n registered by
[mark_end_of_command()]. That is it forgets the label and anything
registered after it. *)
val reset_label : int -> unit
(*s The function [contents_after] returns the current library segment,
starting from a given section path. If not given, the entire segment
is returned. *)
val contents_after : object_name option -> library_segment
(*s Functions relative to current path *)
(* User-side names *)
val cwd : unit -> dir_path
val make_path : identifier -> section_path
val path_of_include : unit -> section_path
(* Kernel-side names *)
val current_prefix : unit -> module_path * dir_path
val make_kn : identifier -> kernel_name
val make_con : identifier -> constant
(* Are we inside an opened section *)
val sections_are_opened : unit -> bool
val sections_depth : unit -> int
(* Are we inside an opened module type *)
val is_modtype : unit -> bool
val is_module : unit -> bool
val current_mod_id : unit -> module_ident
(* Returns the most recent OpenedThing node *)
val what_is_opened : unit -> object_name * node
(*s Modules and module types *)
val start_module :
bool option -> module_ident -> module_path -> Summary.frozen -> object_prefix
val end_module : module_ident
-> object_name * object_prefix * Summary.frozen * library_segment
val start_modtype :
module_ident -> module_path -> Summary.frozen -> object_prefix
val end_modtype : module_ident
-> object_name * object_prefix * Summary.frozen * library_segment
(* [Lib.add_frozen_state] must be called after each of the above functions *)
(*s Compilation units *)
val start_compilation : dir_path -> module_path -> unit
val end_compilation : dir_path -> object_prefix * library_segment
(* The function [library_dp] returns the [dir_path] of the current
compiling library (or [default_library]) *)
val library_dp : unit -> dir_path
(* Extract the library part of a name even if in a section *)
val library_part : global_reference -> dir_path
val remove_section_part : global_reference -> dir_path
(*s Sections *)
val open_section : identifier -> unit
val close_section : identifier -> unit
(*s Backtracking (undo). *)
val reset_to : object_name -> unit
val reset_name : identifier located -> unit
val remove_name : identifier located -> unit
val reset_mod : identifier located -> unit
(* [back n] resets to the place corresponding to the $n$-th call of
[mark_end_of_command] (counting backwards) *)
val back : int -> unit
(*s We can get and set the state of the operations (used in [States]). *)
type frozen
val freeze : unit -> frozen
val unfreeze : frozen -> unit
val init : unit -> unit
val declare_initial_state : unit -> unit
val reset_initial : unit -> unit
(* XML output hooks *)
val set_xml_open_section : (identifier -> unit) -> unit
val set_xml_close_section : (identifier -> unit) -> unit
(*s Section management for discharge *)
val section_segment_of_constant : constant -> Sign.named_context
val section_segment_of_mutual_inductive: mutual_inductive -> Sign.named_context
val section_instance : global_reference -> identifier array
val add_section_variable : identifier -> bool -> Term.types option -> unit
val add_section_constant : constant -> Sign.named_context -> unit
val add_section_kn : kernel_name -> Sign.named_context -> unit
val replacement_context : unit ->
(identifier array Cmap.t * identifier array KNmap.t)
(*s Discharge: decrease the section level if in the current section *)
val discharge_kn : kernel_name -> kernel_name
val discharge_con : constant -> constant
val discharge_global : global_reference -> global_reference
val discharge_inductive : inductive -> inductive
|