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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2017 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Vernacexpr
open CErrors
open Util
open Pp
let default_proof_mode () = Proof_global.get_default_proof_mode_name () [@ocaml.warning "-3"]
let string_of_in_script b = if b then " (inside script)" else ""
let string_of_parallel = function
| `Yes (solve,abs) ->
"par" ^ if solve then "solve" else "" ^ if abs then "abs" else ""
| `No -> ""
let string_of_vernac_type = function
| VtUnknown -> "Unknown"
| VtStartProof _ -> "StartProof"
| VtSideff _ -> "Sideff"
| VtQed VtKeep -> "Qed(keep)"
| VtQed VtKeepAsAxiom -> "Qed(admitted)"
| VtQed VtDrop -> "Qed(drop)"
| VtProofStep { parallel; proof_block_detection } ->
"ProofStep " ^ string_of_parallel parallel ^
Option.default "" proof_block_detection
| VtProofMode s -> "ProofMode " ^ s
| VtQuery (b, route) -> "Query " ^ string_of_in_script b ^ " route " ^ string_of_int route
| VtMeta -> "Meta "
let string_of_vernac_when = function
| VtLater -> "Later"
| VtNow -> "Now"
let string_of_vernac_classification (t,w) =
string_of_vernac_type t ^ " " ^ string_of_vernac_when w
let classifiers = ref []
let declare_vernac_classifier
(s : Vernacexpr.extend_name)
(f : Genarg.raw_generic_argument list -> unit -> vernac_classification)
=
classifiers := !classifiers @ [s,f]
let classify_vernac e =
let rec static_classifier ~poly e = match e with
(* Univ poly compatibility: we run it now, so that we can just
* look at Flags in stm.ml. Would be nicer to have the stm
* look at the entire dag to detect this option. *)
| ( VernacSetOption (l,_) | VernacUnsetOption l)
when CList.equal String.equal l Vernacentries.universe_polymorphism_option_name ->
VtSideff [], VtNow
(* Nested vernac exprs *)
| VernacProgram e -> static_classifier ~poly e
| VernacLocal (_,e) -> static_classifier ~poly e
| VernacPolymorphic (b, e) -> static_classifier ~poly:b e
(* Qed *)
| VernacAbort _ -> VtQed VtDrop, VtLater
| VernacEndProof Admitted -> VtQed VtKeepAsAxiom, VtLater
| VernacEndProof _ | VernacExactProof _ -> VtQed VtKeep, VtLater
(* Query *)
| VernacShow _ | VernacPrint _ | VernacSearch _ | VernacLocate _
| VernacCheckMayEval _ -> VtQuery (true,Feedback.default_route), VtLater
(* ProofStep *)
| VernacProof _
| VernacFocus _ | VernacUnfocus
| VernacSubproof _
| VernacCheckGuard
| VernacUnfocused
| VernacSolveExistential _ ->
VtProofStep { parallel = `No; proof_block_detection = None }, VtLater
| VernacBullet _ ->
VtProofStep { parallel = `No; proof_block_detection = Some "bullet" },
VtLater
| VernacEndSubproof ->
VtProofStep { parallel = `No;
proof_block_detection = Some "curly" },
VtLater
(* Options changing parser *)
| VernacUnsetOption (["Default";"Proof";"Using"])
| VernacSetOption (["Default";"Proof";"Using"],_) -> VtSideff [], VtNow
(* StartProof *)
| VernacDefinition ((Decl_kinds.DoDischarge,_),((_,i),_),ProveBody _) ->
VtStartProof(default_proof_mode (),Doesn'tGuaranteeOpacity,[i]), VtLater
| VernacDefinition (_,((_,i),_),ProveBody _) ->
let guarantee = if poly then Doesn'tGuaranteeOpacity else GuaranteesOpacity in
VtStartProof(default_proof_mode (),guarantee,[i]), VtLater
| VernacStartTheoremProof (_,l) ->
let ids =
CList.map_filter (function (Some ((_,i),pl), _) -> Some i | _ -> None) l in
let guarantee = if poly then Doesn'tGuaranteeOpacity else GuaranteesOpacity in
VtStartProof (default_proof_mode (),guarantee,ids), VtLater
| VernacGoal _ ->
let guarantee = if poly then Doesn'tGuaranteeOpacity else GuaranteesOpacity in
VtStartProof (default_proof_mode (),guarantee,[]), VtLater
| VernacFixpoint (discharge,l) ->
let guarantee =
if discharge = Decl_kinds.DoDischarge || poly then Doesn'tGuaranteeOpacity
else GuaranteesOpacity
in
let ids, open_proof =
List.fold_left (fun (l,b) ((((_,id),_),_,_,_,p),_) ->
id::l, b || p = None) ([],false) l in
if open_proof
then VtStartProof (default_proof_mode (),guarantee,ids), VtLater
else VtSideff ids, VtLater
| VernacCoFixpoint (discharge,l) ->
let guarantee =
if discharge = Decl_kinds.DoDischarge || poly then Doesn'tGuaranteeOpacity
else GuaranteesOpacity
in
let ids, open_proof =
List.fold_left (fun (l,b) ((((_,id),_),_,_,p),_) ->
id::l, b || p = None) ([],false) l in
if open_proof
then VtStartProof (default_proof_mode (),guarantee,ids), VtLater
else VtSideff ids, VtLater
(* Sideff: apply to all open branches. usually run on master only *)
| VernacAssumption (_,_,l) ->
let ids = List.flatten (List.map (fun (_,(l,_)) -> List.map (fun (id, _) -> snd id) l) l) in
VtSideff ids, VtLater
| VernacDefinition (_,((_,id),_),DefineBody _) -> VtSideff [id], VtLater
| VernacInductive (_, _,_,l) ->
let ids = List.map (fun (((_,((_,id),_)),_,_,_,cl),_) -> id :: match cl with
| Constructors l -> List.map (fun (_,((_,id),_)) -> id) l
| RecordDecl (oid,l) -> (match oid with Some (_,x) -> [x] | _ -> []) @
CList.map_filter (function
| ((_,AssumExpr((_,Names.Name n),_)),_),_ -> Some n
| _ -> None) l) l in
VtSideff (List.flatten ids), VtLater
| VernacScheme l ->
let ids = List.map snd (CList.map_filter (fun (x,_) -> x) l) in
VtSideff ids, VtLater
| VernacCombinedScheme ((_,id),_) -> VtSideff [id], VtLater
| VernacBeginSection (_,id) -> VtSideff [id], VtLater
| VernacUniverse _ | VernacConstraint _
| VernacCanonical _ | VernacCoercion _ | VernacIdentityCoercion _
| VernacAddLoadPath _ | VernacRemoveLoadPath _ | VernacAddMLPath _
| VernacChdir _
| VernacCreateHintDb _ | VernacRemoveHints _ | VernacHints _
| VernacDeclareImplicits _ | VernacArguments _ | VernacArgumentsScope _
| VernacReserve _
| VernacGeneralizable _
| VernacSetOpacity _ | VernacSetStrategy _
| VernacUnsetOption _ | VernacSetOption _ | VernacSetAppendOption _
| VernacAddOption _ | VernacRemoveOption _
| VernacMemOption _ | VernacPrintOption _
| VernacGlobalCheck _
| VernacDeclareReduction _
| VernacDeclareClass _ | VernacDeclareInstances _
| VernacRegister _
| VernacNameSectionHypSet _
| VernacComments _ -> VtSideff [], VtLater
(* Who knows *)
| VernacLoad _ -> VtSideff [], VtNow
(* (Local) Notations have to disappear *)
| VernacEndSegment _ -> VtSideff [], VtNow
(* Modules with parameters have to be executed: can import notations *)
| VernacDeclareModule (exp,(_,id),bl,_)
| VernacDefineModule (exp,(_,id),bl,_,_) ->
VtSideff [id], if bl = [] && exp = None then VtLater else VtNow
| VernacDeclareModuleType ((_,id),bl,_,_) ->
VtSideff [id], if bl = [] then VtLater else VtNow
(* These commands alter the parser *)
| VernacOpenCloseScope _ | VernacDelimiters _ | VernacBindScope _
| VernacInfix _ | VernacNotation _ | VernacNotationAddFormat _
| VernacSyntaxExtension _
| VernacSyntacticDefinition _
| VernacRequire _ | VernacImport _ | VernacInclude _
| VernacDeclareMLModule _
| VernacContext _ (* TASSI: unsure *)
| VernacProofMode _ -> VtSideff [], VtNow
(* These are ambiguous *)
| VernacInstance _ -> VtUnknown, VtNow
(* Stm will install a new classifier to handle these *)
| VernacBack _ | VernacAbortAll
| VernacUndoTo _ | VernacUndo _
| VernacResetName _ | VernacResetInitial
| VernacBacktrack _ | VernacBackTo _ | VernacRestart -> VtMeta, VtNow
(* What are these? *)
| VernacToplevelControl _
| VernacRestoreState _
| VernacWriteState _ -> VtSideff [], VtNow
(* Plugins should classify their commands *)
| VernacExtend (s,l) ->
try List.assoc s !classifiers l ()
with Not_found -> anomaly(str"No classifier for"++spc()++str (fst s)++str".")
in
let rec static_control_classifier ~poly = function
| VernacExpr e -> static_classifier ~poly e
| VernacTimeout (_,e) -> static_control_classifier ~poly e
| VernacTime (_,e) | VernacRedirect (_, (_,e)) ->
static_control_classifier ~poly e
| VernacFail e -> (* Fail Qed or Fail Lemma must not join/fork the DAG *)
(match static_control_classifier ~poly e with
| ( VtQuery _ | VtProofStep _ | VtSideff _
| VtProofMode _ | VtMeta), _ as x -> x
| VtQed _, _ ->
VtProofStep { parallel = `No; proof_block_detection = None },
VtNow
| (VtStartProof _ | VtUnknown), _ -> VtUnknown, VtNow)
in
static_control_classifier ~poly:(Flags.is_universe_polymorphism ()) e
let classify_as_query = VtQuery (true,Feedback.default_route), VtLater
let classify_as_sideeff = VtSideff [], VtLater
let classify_as_proofstep = VtProofStep { parallel = `No; proof_block_detection = None}, VtLater
|