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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 *)
(************************************************************************)
(* $Id$ *)
open Vernac
open Vernacexpr
open Pfedit
open Pp
open Util
open Names
open Term
open Printer
open Environ
open Evarutil
open Evd
open Decl_mode
open Hipattern
open Tacmach
open Reductionops
open Termops
open Ideutils
let prerr_endline s = if !debug then prerr_endline s else ()
let output = ref (Format.formatter_of_out_channel stdout)
let msg m =
let b = Buffer.create 103 in
Pp.msg_with (Format.formatter_of_buffer b) m;
Buffer.contents b
let msgnl m =
(msg m)^"\n"
let init () =
(* To hide goal in lower window.
Problem: should not hide "xx is assumed"
messages *)
(**)
Flags.make_silent true;
(**)
Coqtop.init_ide ()
let i = ref 0
let get_version_date () =
let date =
if Glib.Utf8.validate Coq_config.date
then Coq_config.date
else "<date not printable>" in
try
let ch = open_in (Coq_config.coqtop^"/revision") in
let ver = input_line ch in
let rev = input_line ch in
(ver,rev)
with _ -> (Coq_config.version,date)
let short_version () =
let (ver,date) = get_version_date () in
Printf.sprintf "The Coq Proof Assistant, version %s (%s)\n" ver date
let version () =
let (ver,date) = get_version_date () in
Printf.sprintf
"The Coq Proof Assistant, version %s (%s)\
\nArchitecture %s running %s operating system\
\nGtk version is %s\
\nThis is the %s version (%s is the best one for this architecture and OS)\
\n"
ver date
Coq_config.arch Sys.os_type
(let x,y,z = GMain.Main.version in Printf.sprintf "%d.%d.%d" x y z)
(if Mltop.get () = Mltop.Native then "native" else "bytecode")
(if Coq_config.best="opt" then "native" else "bytecode")
let is_in_coq_lib dir =
prerr_endline ("Is it a coq theory ? : "^dir);
let is_same_file = same_file dir in
List.exists
(fun s ->
let fdir =
Filename.concat Coq_config.coqlib (Filename.concat "theories" s) in
prerr_endline (" Comparing to: "^fdir);
if is_same_file fdir then (prerr_endline " YES";true)
else (prerr_endline"NO";false))
Coq_config.theories_dirs
let is_in_loadpath dir =
Library.is_in_load_paths (System.physical_path_of_string dir)
let is_in_coq_path f =
try
let base = Filename.chop_extension (Filename.basename f) in
let _ = Library.locate_qualified_library
(Libnames.make_qualid Names.empty_dirpath
(Names.id_of_string base)) in
prerr_endline (f ^ " is in coq path");
true
with _ ->
prerr_endline (f ^ " is NOT in coq path");
false
let is_in_proof_mode () =
match Decl_mode.get_current_mode () with
Decl_mode.Mode_none -> false
| _ -> true
let user_error_loc l s =
raise (Stdpp.Exc_located (l, Util.UserError ("CoqIde", s)))
type printing_state = {
mutable printing_implicit : bool;
mutable printing_coercions : bool;
mutable printing_raw_matching : bool;
mutable printing_no_notation : bool;
mutable printing_all : bool;
mutable printing_evar_instances : bool;
mutable printing_universes : bool
}
let printing_state = {
printing_implicit = false;
printing_coercions = false;
printing_raw_matching = false;
printing_no_notation = false;
printing_all = false;
printing_evar_instances = false;
printing_universes = false;
}
let printing_implicit_data = ["Printing";"Implicit"], false
let printing_coercions_data = ["Printing";"Coercions"], false
let printing_raw_matching_data = ["Printing";"Matching"], true
let printing_no_synth_data = ["Printing";"Synth"], true
let printing_no_notation_data = ["Printing";"Notations"], true
let printing_all_data = ["Printing";"All"], false
let printing_evar_instances_data = ["Printing";"Existential";"Instances"],false
let printing_universes_data = ["Printing";"Universes"], false
let known_options = ref []
let prepare_option (l,dft) =
known_options := l :: !known_options;
let set = (String.concat " " ("Set"::l)) ^ "." in
let unset = (String.concat " " ("Unset"::l)) ^ "." in
if dft then unset,set else set,unset
let coqide_known_option = function
| Goptions.TertiaryTable (a,b,c) -> List.mem [a;b;c] !known_options
| Goptions.SecondaryTable (a,b) -> List.mem [a;b] !known_options
| Goptions.PrimaryTable a -> List.mem [a] !known_options
let with_printing_implicit = prepare_option printing_implicit_data
let with_printing_coercions = prepare_option printing_coercions_data
let with_printing_raw_matching = prepare_option printing_raw_matching_data
let with_printing_no_synth = prepare_option printing_no_synth_data
let with_printing_no_notation = prepare_option printing_no_notation_data
let with_printing_all = prepare_option printing_all_data
let with_printing_evar_instances = prepare_option printing_evar_instances_data
let with_printing_universes = prepare_option printing_universes_data
let make_option_commands () =
let p = printing_state in
(if p.printing_implicit then [with_printing_implicit] else [])@
(if p.printing_coercions then [with_printing_coercions] else [])@
(if p.printing_raw_matching then [with_printing_raw_matching;with_printing_no_synth] else [])@
(if p.printing_no_notation then [with_printing_no_notation] else [])@
(if p.printing_all then [with_printing_all] else [])@
(if p.printing_evar_instances then [with_printing_evar_instances] else [])@
(if p.printing_universes then [with_printing_universes] else [])
let make_option_commands () =
let l = make_option_commands () in
List.iter (fun (a,b) -> prerr_endline a; prerr_endline b) l;
l
type command_attribute =
NavigationCommand | QueryCommand | DebugCommand | KnownOptionCommand
| OtherStatePreservingCommand | GoalStartingCommand | SolveCommand
let rec attribute_of_vernac_command = function
(* Control *)
| VernacTime com -> attribute_of_vernac_command com
| VernacList _ -> [] (* unsupported *)
| VernacLoad _ -> []
(* Syntax *)
| VernacTacticNotation _ -> []
| VernacSyntaxExtension _ -> []
| VernacDelimiters _ -> []
| VernacBindScope _ -> []
| VernacOpenCloseScope _ -> []
| VernacArgumentsScope _ -> []
| VernacInfix _ -> []
| VernacNotation _ -> []
(* Gallina *)
| VernacDefinition (_,_,DefineBody _,_) -> []
| VernacDefinition (_,_,ProveBody _,_) -> [GoalStartingCommand]
| VernacStartTheoremProof _ -> [GoalStartingCommand]
| VernacEndProof _ -> []
| VernacExactProof _ -> []
| VernacAssumption _ -> []
| VernacInductive _ -> []
| VernacFixpoint _ -> []
| VernacCoFixpoint _ -> []
| VernacScheme _ -> []
| VernacCombinedScheme _ -> []
(* Modules *)
| VernacDeclareModule _ -> []
| VernacDefineModule _ -> []
| VernacDeclareModuleType _ -> []
| VernacInclude _ -> []
(* Gallina extensions *)
| VernacBeginSection _ -> []
| VernacEndSegment _ -> []
| VernacRecord _ -> []
| VernacRequire _ -> []
| VernacImport _ -> []
| VernacCanonical _ -> []
| VernacCoercion _ -> []
| VernacIdentityCoercion _ -> []
(* Type classes *)
| VernacClass _ -> []
| VernacInstance _ -> []
| VernacContext _ -> []
| VernacDeclareInstance _ -> []
(* Solving *)
| VernacSolve _ -> [SolveCommand]
| VernacSolveExistential _ -> [SolveCommand]
(* MMode *)
| VernacDeclProof -> []
| VernacReturn -> []
| VernacProofInstr _ -> []
(* Auxiliary file and library management *)
| VernacRequireFrom _ -> []
| VernacAddLoadPath _ -> []
| VernacRemoveLoadPath _ -> []
| VernacAddMLPath _ -> []
| VernacDeclareMLModule _ -> []
| VernacChdir _ -> [OtherStatePreservingCommand]
(* State management *)
| VernacWriteState _ -> []
| VernacRestoreState _ -> []
(* Resetting *)
| VernacRemoveName _ -> [NavigationCommand]
| VernacResetName _ -> [NavigationCommand]
| VernacResetInitial -> [NavigationCommand]
| VernacBack _ -> [NavigationCommand]
| VernacBackTo _ -> [NavigationCommand]
(* Commands *)
| VernacDeclareTacticDefinition _ -> []
| VernacHints _ -> []
| VernacSyntacticDefinition _ -> []
| VernacDeclareImplicits _ -> []
| VernacReserve _ -> []
| VernacSetOpacity _ -> []
| VernacSetOption (Goptions.SecondaryTable ("Ltac","Debug"), _) ->
[DebugCommand]
| VernacSetOption (o,BoolValue true) | VernacUnsetOption o ->
if coqide_known_option o then [KnownOptionCommand] else []
| VernacSetOption _ -> []
| VernacRemoveOption _ -> []
| VernacAddOption _ -> []
| VernacMemOption _ -> [QueryCommand]
| VernacPrintOption _ -> [QueryCommand]
| VernacCheckMayEval _ -> [QueryCommand]
| VernacGlobalCheck _ -> [QueryCommand]
| VernacPrint _ -> [QueryCommand]
| VernacSearch _ -> [QueryCommand]
| VernacLocate _ -> [QueryCommand]
| VernacComments _ -> [OtherStatePreservingCommand]
| VernacNop -> [OtherStatePreservingCommand]
(* Proof management *)
| VernacGoal _ -> [GoalStartingCommand]
| VernacAbort _ -> [NavigationCommand]
| VernacAbortAll -> [NavigationCommand]
| VernacRestart -> [NavigationCommand]
| VernacSuspend -> [NavigationCommand]
| VernacResume _ -> [NavigationCommand]
| VernacUndo _ -> [NavigationCommand]
| VernacUndoTo _ -> [NavigationCommand]
| VernacBacktrack _ -> [NavigationCommand]
| VernacFocus _ -> [SolveCommand]
| VernacUnfocus -> [SolveCommand]
| VernacGo _ -> []
| VernacShow _ -> [OtherStatePreservingCommand]
| VernacCheckGuard -> [OtherStatePreservingCommand]
| VernacProof (Tacexpr.TacId []) -> [OtherStatePreservingCommand]
| VernacProof _ -> []
(* Toplevel control *)
| VernacToplevelControl _ -> []
(* Extensions *)
| VernacExtend ("Subtac_Obligations", _) -> [GoalStartingCommand]
| VernacExtend _ -> []
let is_vernac_goal_starting_command com =
List.mem GoalStartingCommand (attribute_of_vernac_command com)
let is_vernac_navigation_command com =
List.mem NavigationCommand (attribute_of_vernac_command com)
let is_vernac_query_command com =
List.mem QueryCommand (attribute_of_vernac_command com)
let is_vernac_known_option_command com =
List.mem KnownOptionCommand (attribute_of_vernac_command com)
let is_vernac_debug_command com =
List.mem DebugCommand (attribute_of_vernac_command com)
let is_vernac_goal_printing_command com =
let attribute = attribute_of_vernac_command com in
List.mem GoalStartingCommand attribute or
List.mem SolveCommand attribute
let is_vernac_state_preserving_command com =
let attribute = attribute_of_vernac_command com in
List.mem OtherStatePreservingCommand attribute or
List.mem QueryCommand attribute
let is_vernac_tactic_command com =
List.mem SolveCommand (attribute_of_vernac_command com)
type reset_mark =
| ResetToId of Names.identifier
| ResetToState of Libnames.object_name
type reset_info =
| NoReset
| ResetAtSegmentStart of Names.identifier * bool ref
| ResetAtStatement of reset_mark * bool ref
| ResetAtRegisteredObject of reset_mark * bool ref
let reset_mark id = match Lib.has_top_frozen_state () with
| Some sp -> ResetToState sp
| None -> ResetToId id
let compute_reset_info = function
| VernacBeginSection id
| VernacDefineModule (_,id, _, _, _)
| VernacDeclareModule (_,id, _, _)
| VernacDeclareModuleType (id, _, _) ->
ResetAtSegmentStart (snd id, ref true)
| VernacDefinition (_, (_,id), DefineBody _, _)
| VernacAssumption (_,_ ,(_,((_,id)::_,_))::_)
| VernacInductive (_, (((_,id),_,_,_),_) :: _) ->
ResetAtRegisteredObject (reset_mark id, ref true)
| VernacDefinition (_, (_,id), ProveBody _, _)
| VernacStartTheoremProof (_, [Some (_,id), _], _, _) ->
ResetAtStatement (reset_mark id, ref false)
| VernacEndProof _ | VernacEndSegment _ -> NoReset
| _ -> match Lib.has_top_frozen_state () with
| Some sp -> ResetAtRegisteredObject (ResetToState sp, ref true)
| None -> NoReset
let reset_initial () =
prerr_endline "Reset initial called"; flush stderr;
Vernacentries.abort_refine Lib.reset_initial ()
let reset_to = function
| ResetToId id ->
prerr_endline ("Reset called with "^(string_of_id id));
Vernacentries.abort_refine Lib.reset_name (Util.dummy_loc,id)
| ResetToState sp ->
prerr_endline
("Reset called with state "^(Libnames.string_of_path (fst sp)));
Vernacentries.abort_refine Lib.reset_to_state sp
let reset_to_mod id =
prerr_endline ("Reset called to Mod/Sect with "^(string_of_id id));
Vernacentries.abort_refine Lib.reset_mod (Util.dummy_loc,id)
let raw_interp s =
Vernac.raw_do_vernac (Pcoq.Gram.parsable (Stream.of_string s))
let interp_with_options verbosely options s =
prerr_endline "Starting interp...";
prerr_endline s;
let pa = Pcoq.Gram.parsable (Stream.of_string s) in
let pe = Pcoq.Gram.Entry.parse Pcoq.main_entry pa in
match pe with
| None -> assert false
| Some((loc,vernac) as last) ->
if is_vernac_goal_starting_command vernac & is_in_proof_mode () then
user_error_loc loc (str "CoqIDE do not support nested goals");
if is_vernac_debug_command vernac then
user_error_loc loc (str "Debug mode not available within CoqIDE");
if is_vernac_navigation_command vernac then
user_error_loc loc (str "Use CoqIDE navigation instead");
if is_vernac_known_option_command vernac then
user_error_loc loc (str "Use CoqIDE buttons instead");
if is_vernac_query_command vernac then
!flash_info
"Warning: query commands should not be inserted in scripts";
if not (is_vernac_goal_printing_command vernac) then
(* Verbose if in small step forward and not a tactic *)
Flags.make_silent (not verbosely);
let reset_info = compute_reset_info vernac in
List.iter (fun (set_option,_) -> raw_interp set_option) options;
raw_interp s;
Flags.make_silent true;
List.iter (fun (_,unset_option) -> raw_interp unset_option) options;
prerr_endline ("...Done with interp of : "^s);
reset_info,last
let interp verbosely phrase =
interp_with_options verbosely (make_option_commands ()) phrase
let interp_and_replace s =
let result = interp false s in
let msg = read_stdout () in
result,msg
let nb_subgoals pf =
List.length (fst (Refiner.frontier (Tacmach.proof_of_pftreestate pf)))
type tried_tactic =
| Interrupted
| Success of int (* nb of goals after *)
| Failed
let try_interptac s =
try
prerr_endline ("Starting try_interptac: "^s);
let pf = get_pftreestate () in
let pe = Pcoq.Gram.Entry.parse
Pcoq.main_entry
(Pcoq.Gram.parsable (Stream.of_string s))
in match pe with
| Some (loc,(VernacSolve (n, tac, _))) ->
let tac = Tacinterp.interp tac in
let pf' = solve_nth_pftreestate n tac pf in
prerr_endline "Success";
let nb_goals = nb_subgoals pf' - nb_subgoals pf in
Success nb_goals
| _ ->
prerr_endline "try_interptac: not a tactic"; Failed
with
| Sys.Break | Stdpp.Exc_located (_,Sys.Break)
-> prerr_endline "try_interp: interrupted"; Interrupted
| Stdpp.Exc_located (_,e) -> prerr_endline ("try_interp: failed ("^(Printexc.to_string e)); Failed
| e -> Failed
let rec is_pervasive_exn = function
| Out_of_memory | Stack_overflow | Sys.Break -> true
| Error_in_file (_,_,e) -> is_pervasive_exn e
| Stdpp.Exc_located (_,e) -> is_pervasive_exn e
| DuringCommandInterp (_,e) -> is_pervasive_exn e
| _ -> false
let print_toplevel_error exc =
let (dloc,exc) =
match exc with
| DuringCommandInterp (loc,ie) ->
if loc = dummy_loc then (None,ie) else (Some loc, ie)
| _ -> (None, exc)
in
let (loc,exc) =
match exc with
| Stdpp.Exc_located (loc, ie) -> (Some loc),ie
| Error_in_file (s, (_,fname, loc), ie) -> None, ie
| _ -> dloc,exc
in
match exc with
| End_of_input -> str "Please report: End of input",None
| Vernacexpr.ProtectedLoop ->
str "ProtectedLoop not allowed by coqide!",None
| Vernacexpr.Drop -> str "Drop is not allowed by coqide!",None
| Vernacexpr.Quit -> str "Quit is not allowed by coqide! Use menus.",None
| _ ->
(try Cerrors.explain_exn exc with e ->
str "Failed to explain error. This is an internal Coq error. Please report.\n"
++ str (Printexc.to_string e)),
(if is_pervasive_exn exc then None else loc)
let process_exn e = let s,loc= print_toplevel_error e in (msgnl s,loc)
let interp_last last =
prerr_string "*";
try
vernac_com (States.with_heavy_rollback Vernacentries.interp) last
with e ->
let s,_ = process_exn e in prerr_endline ("Replay during undo failed because: "^s);
raise e
type hyp = env * evar_map *
((identifier * string) * constr option * constr) *
(string * string)
type concl = env * evar_map * constr * string
type meta = env * evar_map * string
type goal = hyp list * concl
let prepare_hyp sigma env ((i,c,d) as a) =
env, sigma,
((i,string_of_id i),c,d),
(msg (pr_var_decl env a), msg (pr_ltype_env env d))
let prepare_hyps sigma env =
assert (rel_context env = []);
let hyps =
fold_named_context
(fun env d acc -> let hyp = prepare_hyp sigma env d in hyp :: acc)
env ~init:[]
in
List.rev hyps
let prepare_goal_main sigma g =
let env = evar_env g in
(prepare_hyps sigma env,
(env, sigma, g.evar_concl, msg (pr_ltype_env_at_top env g.evar_concl)))
let prepare_goal sigma g =
let options = make_option_commands () in
List.iter (fun (set_option,_) -> raw_interp set_option) options;
let x = prepare_goal_main sigma g in
List.iter (fun (_,unset_option) -> raw_interp unset_option) options;
x
let get_current_pm_goal () =
let pfts = get_pftreestate () in
let gls = try nth_goal_of_pftreestate 1 pfts with _ -> raise Not_found in
let sigma= sig_sig gls in
let gl = sig_it gls in
prepare_goal sigma gl
let get_current_goals () =
let pfts = get_pftreestate () in
let gls = fst (Refiner.frontier (Tacmach.proof_of_pftreestate pfts)) in
let sigma = Tacmach.evc_of_pftreestate pfts in
List.map (prepare_goal sigma) gls
let get_current_goals_nb () =
try List.length (get_current_goals ()) with _ -> 0
let print_no_goal () =
let pfts = get_pftreestate () in
let gls = fst (Refiner.frontier (Tacmach.proof_of_pftreestate pfts)) in
assert (gls = []);
let sigma = Tacmach.project (Tacmach.top_goal_of_pftreestate pfts) in
msg (Printer.pr_subgoals (Decl_mode.get_end_command pfts) sigma gls)
let hyp_menu (env, sigma, ((coqident,ident),_,ast),(s,pr_ast)) =
[("clear "^ident),("clear "^ident^".");
("apply "^ident),
("apply "^ident^".");
("exact "^ident),
("exact "^ident^".");
("generalize "^ident),
("generalize "^ident^".");
("absurd <"^ident^">"),
("absurd "^
pr_ast
^".") ] @
(if is_equation ast then
[ "discriminate "^ident, "discriminate "^ident^".";
"injection "^ident, "injection "^ident^"." ]
else
[]) @
(let _,t = splay_prod env sigma ast in
if is_equation t then
[ "rewrite "^ident, "rewrite "^ident^".";
"rewrite <- "^ident, "rewrite <- "^ident^"." ]
else
[]) @
[("elim "^ident),
("elim "^ident^".");
("inversion "^ident),
("inversion "^ident^".");
("inversion clear "^ident),
("inversion_clear "^ident^".")]
let concl_menu (_,_,concl,_) =
let is_eq = is_equation concl in
["intro", "intro.";
"intros", "intros.";
"intuition","intuition." ] @
(if is_eq then
["reflexivity", "reflexivity.";
"discriminate", "discriminate.";
"symmetry", "symmetry." ]
else
[]) @
["assumption" ,"assumption.";
"omega", "omega.";
"ring", "ring.";
"auto with *", "auto with *.";
"eauto with *", "eauto with *.";
"tauto", "tauto.";
"trivial", "trivial.";
"decide equality", "decide equality.";
"simpl", "simpl.";
"subst", "subst.";
"red", "red.";
"split", "split.";
"left", "left.";
"right", "right.";
]
let id_of_name = function
| Names.Anonymous -> id_of_string "x"
| Names.Name x -> x
let make_cases s =
let qualified_name = Libnames.qualid_of_string s in
let glob_ref = Nametab.locate qualified_name in
match glob_ref with
| Libnames.IndRef i ->
let {Declarations.mind_nparams = np},
{Declarations.mind_consnames = carr ;
Declarations.mind_nf_lc = tarr }
= Global.lookup_inductive i
in
Util.array_fold_right2
(fun n t l ->
let (al,_) = Term.decompose_prod t in
let al,_ = Util.list_chop (List.length al - np) al in
let rec rename avoid = function
| [] -> []
| (n,_)::l ->
let n' = next_global_ident_away true
(id_of_name n)
avoid
in (string_of_id n')::(rename (n'::avoid) l)
in
let al' = rename [] (List.rev al) in
(string_of_id n :: al') :: l
)
carr
tarr
[]
| _ -> raise Not_found
let current_status () =
let path = msg (Libnames.pr_dirpath (Lib.cwd ())) in
let path = if path = "Top" then "Ready" else "Ready in " ^ String.sub path 4 (String.length path - 4) in
try
path ^ ", proving " ^ (Names.string_of_id (Pfedit.get_current_proof_name ()))
with _ -> path
|