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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(***********************************************************************)
(* *)
(* This module defines proof facilities relevant to the *)
(* toplevel. In particular it defines the global proof *)
(* environment. *)
(* *)
(***********************************************************************)
open Util
open Pp
open Names
open Util
(*** Proof Modes ***)
(* Type of proof modes :
- A function [set] to set it *from standard mode*
- A function [reset] to reset the *standard mode* from it *)
type proof_mode = {
name : string ;
set : unit -> unit ;
reset : unit -> unit
}
let proof_modes = Hashtbl.create 6
let find_proof_mode n =
try Hashtbl.find proof_modes n
with Not_found ->
Errors.error (Format.sprintf "No proof mode named \"%s\"." n)
let register_proof_mode ({name = n} as m) =
Hashtbl.add proof_modes n (Ephemeron.create m)
(* initial mode: standard mode *)
let standard = { name = "No" ; set = (fun ()->()) ; reset = (fun () -> ()) }
let _ = register_proof_mode standard
(* Default proof mode, to be set at the beginning of proofs. *)
let default_proof_mode = ref (find_proof_mode "No")
let _ =
Goptions.declare_string_option {Goptions.
optsync = true ;
optdepr = false;
optname = "default proof mode" ;
optkey = ["Default";"Proof";"Mode"] ;
optread = begin fun () ->
(Ephemeron.default !default_proof_mode standard).name
end;
optwrite = begin fun n ->
default_proof_mode := find_proof_mode n
end
}
(*** Proof Global Environment ***)
(* Extra info on proofs. *)
type lemma_possible_guards = int list list
type proof_object = {
id : Names.Id.t;
entries : Entries.definition_entry list;
persistence : Decl_kinds.goal_kind;
}
type proof_ending =
| Admitted
| Proved of Vernacexpr.opacity_flag *
(Vernacexpr.lident * Decl_kinds.theorem_kind option) option *
proof_object
type proof_terminator = proof_ending -> unit
type closed_proof = proof_object * proof_terminator
type pstate = {
pid : Id.t;
terminator : proof_terminator Ephemeron.key;
endline_tactic : Tacexpr.raw_tactic_expr option;
section_vars : Context.section_context option;
proof : Proof.proof;
strength : Decl_kinds.goal_kind;
mode : proof_mode Ephemeron.key;
}
(* The head of [!pstates] is the actual current proof, the other ones are
to be resumed when the current proof is closed or aborted. *)
let pstates = ref ([] : pstate list)
(* Current proof_mode, for bookkeeping *)
let current_proof_mode = ref !default_proof_mode
(* combinators for proof modes *)
let update_proof_mode () =
match !pstates with
| { mode = m } :: _ ->
Ephemeron.iter_opt !current_proof_mode (fun x -> x.reset ());
current_proof_mode := m;
Ephemeron.iter_opt !current_proof_mode (fun x -> x.set ())
| _ ->
Ephemeron.iter_opt !current_proof_mode (fun x -> x.reset ());
current_proof_mode := find_proof_mode "No"
(* combinators for the current_proof lists *)
let push a l = l := a::!l;
update_proof_mode ()
exception NoSuchProof
let _ = Errors.register_handler begin function
| NoSuchProof -> Errors.error "No such proof."
| _ -> raise Errors.Unhandled
end
let extract id l =
let rec aux = function
| ({pid = id' } as np)::l when Id.equal id id' -> (np,l)
| np::l -> let (np', l) = aux l in (np' , np::l)
| [] -> raise NoSuchProof
in
let (np,l') = aux !l in
l := l';
update_proof_mode ();
np
exception NoCurrentProof
let _ = Errors.register_handler begin function
| NoCurrentProof -> Errors.error "No focused proof (No proof-editing in progress)."
| _ -> raise Errors.Unhandled
end
let extract_top l =
match !l with
| np::l' -> l := l' ; update_proof_mode (); np
| [] -> raise NoCurrentProof
(* combinators for the proof_info map *)
let add id info m =
m := Id.Map.add id info !m
let remove id m =
m := Id.Map.remove id !m
(*** Proof Global manipulation ***)
let get_all_proof_names () =
List.map (function { pid = id } -> id) !pstates
let cur_pstate () =
match !pstates with
| np::_ -> np
| [] -> raise NoCurrentProof
let give_me_the_proof () = (cur_pstate ()).proof
let get_current_proof_name () = (cur_pstate ()).pid
let interp_tac = ref (fun _ -> assert false)
let set_interp_tac f = interp_tac := f
let with_current_proof f =
match !pstates with
| [] -> raise NoCurrentProof
| p :: rest ->
let et =
match p.endline_tactic with
| None -> Proofview.tclUNIT ()
| Some tac -> !interp_tac tac in
let (newpr,status) = f et p.proof in
let p = { p with proof = newpr } in
pstates := p :: rest;
status
let simple_with_current_proof f =
ignore (with_current_proof (fun t p -> f t p , true))
(* Sets the tactic to be used when a tactic line is closed with [...] *)
let set_endline_tactic tac =
match !pstates with
| [] -> raise NoCurrentProof
| p :: rest -> pstates := { p with endline_tactic = Some tac } :: rest
(* spiwack: it might be considered to move error messages away.
Or else to remove special exceptions from Proof_global.
Arguments for the former: there is no reason Proof_global is only
accessed directly through vernacular commands. Error message should be
pushed to external layers, and so we should be able to have a finer
control on error message on complex actions. *)
let msg_proofs () =
match get_all_proof_names () with
| [] -> (spc () ++ str"(No proof-editing in progress).")
| l -> (str"." ++ fnl () ++ str"Proofs currently edited:" ++ spc () ++
(pr_sequence Nameops.pr_id l) ++ str".")
let there_is_a_proof () = not (List.is_empty !pstates)
let there_are_pending_proofs () = there_is_a_proof ()
let check_no_pending_proof () =
if not (there_are_pending_proofs ()) then
()
else begin
Errors.error (Pp.string_of_ppcmds
(str"Proof editing in progress" ++ msg_proofs () ++ fnl() ++
str"Use \"Abort All\" first or complete proof(s)."))
end
let discard_gen id =
pstates := List.filter (fun { pid = id' } -> not (Id.equal id id')) !pstates
let discard (loc,id) =
let n = List.length !pstates in
discard_gen id;
if Int.equal (List.length !pstates) n then
Errors.user_err_loc
(loc,"Pfedit.delete_proof",str"No such proof" ++ msg_proofs ())
let discard_current () =
if List.is_empty !pstates then raise NoCurrentProof else pstates := List.tl !pstates
let discard_all () = pstates := []
(* [set_proof_mode] sets the proof mode to be used after it's called. It is
typically called by the Proof Mode command. *)
let set_proof_mode m id =
pstates :=
List.map (function { pid = id' } as p ->
if Id.equal id' id then { p with mode = m } else p) !pstates;
update_proof_mode ()
let set_proof_mode mn =
set_proof_mode (find_proof_mode mn) (get_current_proof_name ())
let activate_proof_mode mode =
Ephemeron.iter_opt (find_proof_mode mode) (fun x -> x.set ())
let disactivate_proof_mode mode =
Ephemeron.iter_opt (find_proof_mode mode) (fun x -> x.reset ())
exception AlreadyExists
let _ = Errors.register_handler begin function
| AlreadyExists -> Errors.error "Already editing something of that name."
| _ -> raise Errors.Unhandled
end
(** [start_proof id str goals terminator] starts a proof of name [id]
with goals [goals] (a list of pairs of environment and
conclusion); [str] describes what kind of theorem/definition this
is (spiwack: for potential printing, I believe is used only by
closing commands and the xml plugin); [terminator] is used at the
end of the proof to close the proof. *)
let start_proof id str goals terminator =
let initial_state = {
pid = id;
terminator = Ephemeron.create terminator;
proof = Proof.start Evd.empty goals;
endline_tactic = None;
section_vars = None;
strength = str;
mode = find_proof_mode "No" } in
push initial_state pstates
let start_dependent_proof id str goals terminator =
let initial_state = {
pid = id;
terminator = Ephemeron.create terminator;
proof = Proof.dependent_start Evd.empty goals;
endline_tactic = None;
section_vars = None;
strength = str;
mode = find_proof_mode "No" } in
push initial_state pstates
let get_used_variables () = (cur_pstate ()).section_vars
let set_used_variables l =
let env = Global.env () in
let ids = List.fold_right Id.Set.add l Id.Set.empty in
let ctx = Environ.keep_hyps env ids in
match !pstates with
| [] -> raise NoCurrentProof
| p :: rest ->
if not (Option.is_empty p.section_vars) then
Errors.error "Used section variables can be declared only once";
pstates := { p with section_vars = Some ctx} :: rest
let get_open_goals () =
let gl, gll, shelf , _ , _ = Proof.proof (cur_pstate ()).proof in
List.length gl +
List.fold_left (+) 0
(List.map (fun (l1,l2) -> List.length l1 + List.length l2) gll) +
List.length shelf
let close_proof ?feedback_id ~now fpl =
let { pid; section_vars; strength; proof; terminator } = cur_pstate () in
let initial_goals = Proof.initial_goals proof in
let entries =
Future.map2 (fun p (c, t) -> { Entries.
const_entry_body = p;
const_entry_secctx = section_vars;
const_entry_feedback = feedback_id;
const_entry_type = Some t;
const_entry_inline_code = false;
const_entry_opaque = true })
fpl initial_goals in
if now then
List.iter (fun x ->ignore(Future.force x.Entries.const_entry_body)) entries;
{ id = pid; entries = entries; persistence = strength },
Ephemeron.get terminator
let return_proof () =
let { proof } = cur_pstate () in
let initial_goals = Proof.initial_goals proof in
let evd =
let error s = raise (Errors.UserError("last tactic before Qed",s)) in
try Proof.return proof with
| Proof.UnfinishedProof ->
error(str"Attempt to save an incomplete proof")
| Proof.HasShelvedGoals ->
error(str"Attempt to save a proof with shelved goals")
| Proof.HasGivenUpGoals ->
error(str"Attempt to save a proof with given up goals")
| Proof.HasUnresolvedEvar->
error(str"Attempt to save a proof with existential " ++
str"variables still non-instantiated") in
let eff = Evd.eval_side_effects evd in
(** ppedrot: FIXME, this is surely wrong. There is no reason to duplicate
side-effects... This may explain why one need to uniquize side-effects
thereafter... *)
List.map (fun (c, _) -> (Evarutil.nf_evar evd c, eff)) initial_goals
let close_future_proof ~feedback_id proof =
close_proof ~feedback_id ~now:false proof
let close_proof fix_exn =
close_proof ~now:true (Future.from_val ~fix_exn (return_proof ()))
(** Gets the current terminator without checking that the proof has
been completed. Useful for the likes of [Admitted]. *)
let get_terminator () = Ephemeron.get ( cur_pstate() ).terminator
let set_terminator hook =
match !pstates with
| [] -> raise NoCurrentProof
| p :: ps -> pstates := { p with terminator = Ephemeron.create hook } :: ps
(**********************************************************)
(* *)
(* Bullets *)
(* *)
(**********************************************************)
module Bullet = struct
type t = Vernacexpr.bullet
let bullet_eq b1 b2 = match b1, b2 with
| Vernacexpr.Dash, Vernacexpr.Dash -> true
| Vernacexpr.Star, Vernacexpr.Star -> true
| Vernacexpr.Plus, Vernacexpr.Plus -> true
| _ -> false
type behavior = {
name : string;
put : Proof.proof -> t -> Proof.proof
}
let behaviors = Hashtbl.create 4
let register_behavior b = Hashtbl.add behaviors b.name b
(*** initial modes ***)
let none = {
name = "None";
put = fun x _ -> x
}
let _ = register_behavior none
module Strict = struct
(* spiwack: we need only one focus kind as we keep a stack of (distinct!) bullets *)
let bullet_kind = (Proof.new_focus_kind () : t list Proof.focus_kind)
let bullet_cond = Proof.done_cond ~loose_end:true bullet_kind
(* spiwack: as it is bullets are reset (locally) by *any* non-bullet focusing command
experience will tell if this is the right discipline of if we want to be finer and
reset them only for a choice of bullets. *)
let get_bullets pr =
if Proof.is_last_focus bullet_kind pr then
Proof.get_at_focus bullet_kind pr
else
[]
let has_bullet bul pr =
let rec has_bullet = function
| b'::_ when bullet_eq bul b' -> true
| _::l -> has_bullet l
| [] -> false
in
has_bullet (get_bullets pr)
(* precondition: the stack is not empty *)
let pop pr =
match get_bullets pr with
| b::_ ->
let pr = Proof.unfocus bullet_kind pr () in
pr, b
| _ -> assert false
let push b pr =
Proof.focus bullet_cond (b::get_bullets pr) 1 pr
let put p bul =
if has_bullet bul p then
let rec aux p =
let p, b = pop p in
if not (bullet_eq bul b) then aux p else p in
push bul (aux p)
else
push bul p
let strict = {
name = "Strict Subproofs";
put = put
}
let _ = register_behavior strict
end
(* Current bullet behavior, controled by the option *)
let current_behavior = ref Strict.strict
let _ =
Goptions.declare_string_option {Goptions.
optsync = true;
optdepr = false;
optname = "bullet behavior";
optkey = ["Bullet";"Behavior"];
optread = begin fun () ->
(!current_behavior).name
end;
optwrite = begin fun n ->
current_behavior := Hashtbl.find behaviors n
end
}
let put p b =
(!current_behavior).put p b
end
(**********************************************************)
(* *)
(* Default goal selector *)
(* *)
(**********************************************************)
(* Default goal selector: selector chosen when a tactic is applied
without an explicit selector. *)
let default_goal_selector = ref (Vernacexpr.SelectNth 1)
let get_default_goal_selector () = !default_goal_selector
let print_goal_selector = function
| Vernacexpr.SelectAll -> "all"
| Vernacexpr.SelectNth i -> string_of_int i
let parse_goal_selector = function
| "all" -> Vernacexpr.SelectAll
| i ->
let err_msg = "A selector must be \"all\" or a natural number." in
begin try
let i = int_of_string i in
if i < 0 then Errors.error err_msg;
Vernacexpr.SelectNth i
with Failure _ -> Errors.error err_msg
end
let _ =
Goptions.declare_string_option {Goptions.
optsync = true ;
optdepr = false;
optname = "default goal selector" ;
optkey = ["Default";"Goal";"Selector"] ;
optread = begin fun () -> print_goal_selector !default_goal_selector end;
optwrite = begin fun n ->
default_goal_selector := parse_goal_selector n
end
}
module V82 = struct
let get_current_initial_conclusions () =
let { pid; strength; proof } = cur_pstate () in
pid, (List.map snd (Proof.initial_goals proof), strength)
end
type state = pstate list
let freeze ~marshallable =
match marshallable with
| `Yes ->
Errors.anomaly (Pp.str"full marshalling of proof state not supported")
| `Shallow -> !pstates
| `No -> !pstates
let unfreeze s = pstates := s; update_proof_mode ()
|