exception UnificationFailure of string Lazy.t;;
exception Uncertain of string Lazy.t;;
exception AssertFailure of string Lazy.t;;
+exception KeepReducing of string Lazy.t;;
+exception KeepReducingThis of
+ string Lazy.t * (NCicReduction.machine * bool) *
+ (NCicReduction.machine * bool) ;;
let (===) x y = Pervasives.compare x y = 0 ;;
-let uncert_exc metasenv subst context t1 t2 =
- Uncertain (lazy (
+let mk_msg metasenv subst context t1 t2 =
+ (lazy (
"Can't unify " ^ NCicPp.ppterm ~metasenv ~subst ~context t1 ^
" with " ^ NCicPp.ppterm ~metasenv ~subst ~context t2))
-;;
-
-let fail_exc metasenv subst context t1 t2 =
- UnificationFailure (lazy (
- "Can't unify " ^ NCicPp.ppterm ~metasenv ~subst ~context t1 ^
- " with " ^ NCicPp.ppterm ~metasenv ~subst ~context t2));
-;;
let mk_appl ~upto hd tl =
NCicReduction.head_beta_reduce ~upto
module C = NCic;;
module Ref = NReference;;
-let debug = false;;
+let debug = ref false;;
let indent = ref "";;
-let pp =
- if debug then
- fun s -> prerr_endline (Printf.sprintf "%-20s" !indent ^ " " ^ Lazy.force s)
- else
- fun _ -> ()
+let times = ref [];;
+let pp s =
+ if !debug then
+ prerr_endline (Printf.sprintf "%-20s" !indent ^ " " ^ Lazy.force s)
;;
let inside c =
- indent := !indent ^ String.make 1 c;
- if debug then prerr_endline ("{{{" ^ !indent ^ " ")
+ if !debug then
+ begin
+ let time1 = Unix.gettimeofday () in
+ indent := !indent ^ String.make 1 c;
+ times := time1 :: !times;
+ prerr_endline ("{{{" ^ !indent ^ " ")
+ end
;;
-let outside ok =
- if debug then prerr_endline "}}}";
- if not ok then pp (lazy "exception raised!");
- try
- indent := String.sub !indent 0 (String.length !indent -1)
- with
- Invalid_argument _ -> indent := "??"; ()
+let outside exc_opt =
+ if !debug then
+ begin
+ let time2 = Unix.gettimeofday () in
+ let time1 =
+ match !times with time1::tl -> times := tl; time1 | [] -> assert false in
+ prerr_endline ("}}} " ^ string_of_float (time2 -. time1));
+ (match exc_opt with
+ | Some e -> prerr_endline ("exception raised: " ^ Printexc.to_string e)
+ | None -> ());
+ try
+ indent := String.sub !indent 0 (String.length !indent -1)
+ with
+ Invalid_argument _ -> indent := "??"; ()
+ end
;;
let ppcontext ~metasenv ~subst c =
| C.Appl [] | C.LetIn _ | C.Implicit _ -> assert false
;;
-let rec lambda_intros rdb metasenv subst context t args =
- let tty = NCicTypeChecker.typeof ~metasenv ~subst context t in
- let argsty =
- List.map
- (fun arg -> arg, NCicTypeChecker.typeof ~metasenv ~subst context arg) args in
- let context_of_args = context in
- let rec mk_lambda metasenv subst context n processed_args = function
- | [] ->
+let rec lambda_intros rdb metasenv subst context argsno ty =
+ pp (lazy ("LAMBDA INTROS: " ^ NCicPp.ppterm ~metasenv ~subst ~context ty));
+ match argsno with
+ 0 ->
let metasenv, _, bo, _ =
- NCicMetaSubst.mk_meta metasenv context
- (`WithType (NCicSubstitution.lift n tty))
- in
- metasenv, subst, bo
- | (arg,ty)::tail ->
- pp(lazy("arg{ " ^
- NCicPp.ppterm ~metasenv ~subst ~context:context_of_args arg ^ " : " ^
- NCicPp.ppterm ~metasenv ~subst ~context:context_of_args ty));
- let metasenv, subst, telescopic_ty =
- if processed_args = [] then metasenv, subst, ty else
- let _ = pp(lazy("delift")) in
- delift_type_wrt_terms rdb metasenv subst context
- (NCicSubstitution.lift n ty)
- (List.map (NCicSubstitution.lift n) (List.rev processed_args))
- in
- pp(lazy("arg} "^NCicPp.ppterm ~metasenv ~subst ~context telescopic_ty));
- let name = "HBeta"^string_of_int n in
- let metasenv, subst, bo =
- mk_lambda metasenv subst ((name,NCic.Decl telescopic_ty)::context) (n+1)
- (arg::processed_args) tail
+ NCicMetaSubst.mk_meta metasenv context (`WithType ty)
in
- metasenv, subst, NCic.Lambda (name, telescopic_ty, bo)
- in
- pp(lazy("LAMBDA_INTROS{ " ^
- NCicPp.ppterm ~metasenv ~subst ~context t ^ ":" ^
- NCicPp.ppterm ~metasenv ~subst ~context tty ^ " over " ^
- String.concat "," (List.map (NCicPp.ppterm ~metasenv ~subst ~context)args)));
- let rc = mk_lambda metasenv subst context 0 [] argsty in
- pp(lazy("LAMBDA_INTROS}"));
- rc
-
-and instantiate rdb test_eq_only metasenv subst context n lc t swap =
+ metasenv, bo
+ | _ ->
+ (match NCicReduction.whd ~subst context ty with
+ C.Prod (n,so,ta) ->
+ let metasenv,bo =
+ lambda_intros rdb metasenv subst
+ ((n,C.Decl so)::context) (argsno - 1) ta
+ in
+ metasenv,C.Lambda (n,so,bo)
+ | _ -> assert false)
+;;
+
+let rec instantiate rdb test_eq_only metasenv subst context n lc t swap =
(*D*) inside 'I'; try let rc =
pp (lazy(string_of_int n ^ " :=?= "^
NCicPp.ppterm ~metasenv ~subst ~context t));
assert(has_tag ((=)`IsSort) tags);
metasenv, subst, t
| _ ->
- let exc_to_be = fail_exc metasenv subst context (NCic.Meta (n,lc)) t in
+ let exc_to_be =
+ UnificationFailure (mk_msg metasenv subst context (NCic.Meta (n,lc)) t)
+ in
let t, ty_t =
try t, NCicTypeChecker.typeof ~subst ~metasenv context t
with
let metasenv = List.filter (fun x,_ -> i <> x) metasenv in
metasenv, subst, m, j
| NCic.Appl (NCic.Meta _ as hd :: args) as t ->
- let metasenv, subst, lambda_Mj =
- lambda_intros rdb metasenv subst context t args
+ let metasenv, lambda_Mj =
+ lambda_intros rdb metasenv subst context (List.length args)
+ (NCicTypeChecker.typeof ~metasenv ~subst context hd)
in
let metasenv,subst= unify true metasenv subst context hd lambda_Mj in
let t = NCicReduction.whd ~subst context t in
List.filter (fun (m,_) -> not (n = m)) metasenv
in
metasenv, subst
- (*D*) in outside true; rc with exn -> outside false; raise exn
+ (*D*) in outside None; rc with exn -> outside (Some exn); raise exn
and unify rdb test_eq_only metasenv subst context t1 t2 =
(*D*) inside 'U'; try let rc =
- let fo_unif test_eq_only metasenv subst t1 t2 =
+ let fo_unif test_eq_only metasenv subst (norm1,t1) (norm2,t2) =
(*D*) inside 'F'; try let rc =
pp (lazy(" " ^ NCicPp.ppterm ~metasenv ~subst ~context t1 ^ " ==?== " ^
NCicPp.ppterm ~metasenv ~subst ~context t2 ^ ppmetasenv
~subst metasenv));
+ pp (lazy(" " ^ NCicPp.ppterm ~metasenv ~subst:[] ~context t1 ^ " ==??== " ^
+ NCicPp.ppterm ~metasenv ~subst:[] ~context t2 ^ ppmetasenv
+ ~subst metasenv));
if t1 === t2 then
metasenv, subst
else
assert false
| (C.Sort (C.Type a), C.Sort (C.Type b)) when not test_eq_only ->
if NCicEnvironment.universe_leq a b then metasenv, subst
- else raise (fail_exc metasenv subst context t1 t2)
+ else raise (UnificationFailure (mk_msg metasenv subst context t1 t2))
| (C.Sort (C.Type a), C.Sort (C.Type b)) ->
if NCicEnvironment.universe_eq a b then metasenv, subst
- else raise (fail_exc metasenv subst context t1 t2)
+ else raise (UnificationFailure (mk_msg metasenv subst context t1 t2))
| (C.Sort C.Prop,C.Sort (C.Type _)) ->
if (not test_eq_only) then metasenv, subst
- else raise (fail_exc metasenv subst context t1 t2)
+ else raise (UnificationFailure (mk_msg metasenv subst context t1 t2))
| (C.Lambda (name1,s1,t1), C.Lambda(_,s2,t2))
| (C.Prod (name1,s1,t1), C.Prod(_,s2,t2)) ->
let term2 = NCicSubstitution.subst_meta lc2 term in
unify rdb test_eq_only metasenv subst context term1 term2
with NCicUtils.Subst_not_found _-> raise (UnificationFailure msg))
+
+ | NCic.Appl (NCic.Meta (i,_)::_ as l1),
+ NCic.Appl (NCic.Meta (j,_)::_ as l2) when i=j ->
+ (try
+ List.fold_left2
+ (fun (metasenv, subst) t1 t2 ->
+ unify rdb test_eq_only metasenv subst context t1 t2)
+ (metasenv,subst) l1 l2
+ with Invalid_argument _ ->
+ raise (UnificationFailure (mk_msg metasenv subst context t1 t2)))
| _, NCic.Meta (n, _) when is_locked n subst ->
(let (metasenv, subst), i =
match NCicReduction.whd ~subst context t1 with
- | NCic.Appl (NCic.Meta (i,l)::args) ->
- let metasenv, subst, lambda_Mj =
- lambda_intros rdb metasenv subst context t1 args
+ | NCic.Appl (NCic.Meta (i,l) as meta :: args) ->
+ let metasenv, lambda_Mj =
+ lambda_intros rdb metasenv subst context (List.length args)
+ (NCicTypeChecker.typeof ~metasenv ~subst context meta)
in
unify rdb test_eq_only metasenv subst context
(C.Meta (i,l)) lambda_Mj,
metasenv, ((i, (name, ctx, term, ty)) :: subst)
with Not_found -> assert false))
- | C.Meta (n,lc), t ->
- (try
- let _,_,term,_ = NCicUtils.lookup_subst n subst in
- let term = NCicSubstitution.subst_meta lc term in
- unify rdb test_eq_only metasenv subst context term t
- with NCicUtils.Subst_not_found _->
- instantiate rdb test_eq_only metasenv subst context n lc
- (NCicReduction.head_beta_reduce ~subst t) false)
+ | C.Meta (n,lc), t when List.mem_assoc n subst ->
+ let _,_,term,_ = NCicUtils.lookup_subst n subst in
+ let term = NCicSubstitution.subst_meta lc term in
+ unify rdb test_eq_only metasenv subst context term t
- | t, C.Meta (n,lc) ->
- (try
- let _,_,term,_ = NCicUtils.lookup_subst n subst in
- let term = NCicSubstitution.subst_meta lc term in
- unify rdb test_eq_only metasenv subst context t term
- with NCicUtils.Subst_not_found _->
- instantiate rdb test_eq_only metasenv subst context n lc
- (NCicReduction.head_beta_reduce ~subst t) true)
+ | t, C.Meta (n,lc) when List.mem_assoc n subst ->
+ let _,_,term,_ = NCicUtils.lookup_subst n subst in
+ let term = NCicSubstitution.subst_meta lc term in
+ unify rdb test_eq_only metasenv subst context t term
| NCic.Appl (NCic.Meta (i,l)::args), _ when List.mem_assoc i subst ->
let _,_,term,_ = NCicUtils.lookup_subst i subst in
unify rdb test_eq_only metasenv subst context t1
(mk_appl ~upto:(List.length args) term args)
- | NCic.Appl (NCic.Meta (i,_)::_ as l1),
- NCic.Appl (NCic.Meta (j,_)::_ as l2) when i=j ->
- (try
- List.fold_left2
- (fun (metasenv, subst) t1 t2 ->
- unify rdb test_eq_only metasenv subst context t1 t2)
- (metasenv,subst) l1 l2
- with Invalid_argument _ ->
- raise (fail_exc metasenv subst context t1 t2))
+ | C.Meta (n,lc), t ->
+ instantiate rdb test_eq_only metasenv subst context n lc
+ (NCicReduction.head_beta_reduce ~subst t) false
- | NCic.Appl (NCic.Meta (i,l)::args), _ ->
- let metasenv, subst, lambda_Mj =
- lambda_intros rdb metasenv subst context t1 args
+ | t, C.Meta (n,lc) ->
+ instantiate rdb test_eq_only metasenv subst context n lc
+ (NCicReduction.head_beta_reduce ~subst t) true
+
+ | NCic.Appl (NCic.Meta (i,l) as meta :: args), _ ->
+ let metasenv, lambda_Mj =
+ lambda_intros rdb metasenv subst context (List.length args)
+ (NCicTypeChecker.typeof ~metasenv ~subst context meta)
in
let metasenv, subst =
+ try
unify rdb test_eq_only metasenv subst context
(C.Meta (i,l)) lambda_Mj
+ with UnificationFailure msg | Uncertain msg when not norm2->
+ (* failure: let's try again argument vs argument *)
+ raise (KeepReducing msg)
in
let metasenv, subst =
unify rdb test_eq_only metasenv subst context t1 t2
metasenv, ((i, (name, ctx, term, ty)) :: subst)
with Not_found -> assert false)
- | _, NCic.Appl (NCic.Meta (i,l)::args) ->
- let metasenv, subst, lambda_Mj =
- lambda_intros rdb metasenv subst context t2 args
+ | _, NCic.Appl (NCic.Meta (i,l) as meta :: args) ->
+ let metasenv, lambda_Mj =
+ lambda_intros rdb metasenv subst context (List.length args)
+ (NCicTypeChecker.typeof ~metasenv ~subst context meta)
in
let metasenv, subst =
+ try
unify rdb test_eq_only metasenv subst context
lambda_Mj (C.Meta (i,l))
+ with UnificationFailure msg | Uncertain msg when not norm1 ->
+ (* failure: let's try again argument vs argument *)
+ raise (KeepReducing msg)
in
let metasenv, subst =
unify rdb test_eq_only metasenv subst context t1 t2
| (C.Appl ((C.Const r1) as _hd1::tl1), C.Appl (C.Const r2::tl2))
when Ref.eq r1 r2 ->
let relevance = NCicEnvironment.get_relevance r1 in
- let relevance = match r1 with
- | Ref.Ref (_,Ref.Con (_,_,lno)) ->
- let relevance =
- try snd (HExtlib.split_nth lno relevance)
- with Failure _ -> []
- in
- HExtlib.mk_list false lno @ relevance
- | _ -> relevance
- in
let metasenv, subst, _ =
try
List.fold_left2
in
metasenv, subst, relevance)
(metasenv, subst, relevance) tl1 tl2
- with Invalid_argument _ ->
- raise (uncert_exc metasenv subst context t1 t2)
+ with
+ Invalid_argument _ ->
+ raise (Uncertain (mk_msg metasenv subst context t1 t2))
+ | UnificationFailure _ | Uncertain _ when not (norm1 && norm2) ->
+ raise (KeepReducing (mk_msg metasenv subst context t1 t2))
+ | KeepReducing _ | KeepReducingThis _ -> assert false
in
metasenv, subst
| _ -> false
in
if not (Ref.eq ref1 ref2) then
- raise (uncert_exc metasenv subst context t1 t2)
+ raise (Uncertain (mk_msg metasenv subst context t1 t2))
else
let metasenv, subst =
unify rdb test_eq_only metasenv subst context outtype1 outtype2 in
(metasenv, subst) pl1 pl2
with Invalid_argument _ -> assert false)
| (C.Implicit _, _) | (_, C.Implicit _) -> assert false
- | _ when NCicUntrusted.metas_of_term subst context t1 = [] &&
- NCicUntrusted.metas_of_term subst context t2 = [] ->
- raise (fail_exc metasenv subst context t1 t2)
- | _ -> raise (uncert_exc metasenv subst context t1 t2)
- (*D*) in outside true; rc with exn -> outside false; raise exn
+ | _ when norm1 && norm2 ->
+ if (could_reduce t1 || could_reduce t2) then
+ raise (Uncertain (mk_msg metasenv subst context t1 t2))
+ else
+ raise (UnificationFailure (mk_msg metasenv subst context t1 t2))
+ | _ -> raise (KeepReducing (mk_msg metasenv subst context t1 t2))
+ (*D*) in outside None; rc with exn -> outside (Some exn); raise exn
in
- let try_hints metasenv subst t1 t2 (* exc*) =
+ let try_hints metasenv subst (_,t1 as mt1) (_,t2 as mt2) (* exc*) =
(*D*) inside 'H'; try let rc =
pp(lazy ("\nProblema:\n" ^
NCicPp.ppterm ~metasenv ~subst ~context t1 ^ " =?= " ^
try
(*D*) inside 'K'; try let rc =
let metasenv,subst =
- fo_unif test_eq_only metasenv subst t1 c1 in
+ fo_unif test_eq_only metasenv subst mt1 (false,c1) in
let metasenv,subst =
- fo_unif test_eq_only metasenv subst c2 t2 in
+ fo_unif test_eq_only metasenv subst (false,c2) mt2 in
let metasenv,subst =
List.fold_left
(fun (metasenv, subst) (x,y) ->
in
pp(lazy("FUNZIONA!"));
Some (metasenv, subst)
- (*D*) in outside true; rc with exn -> outside false; raise exn
+ (*D*) in outside None; rc with exn -> outside (Some exn); raise exn
with
- UnificationFailure _ | Uncertain _ ->
- cand_iter tl
+ KeepReducing _ | UnificationFailure _ | Uncertain _ -> cand_iter tl
+ | KeepReducingThis _ -> assert false
in
cand_iter candidates
- (*D*) in outside true; rc with exn -> outside false; raise exn
+ (*D*) in outside None; rc with exn -> outside (Some exn); raise exn
+ in
+ let put_in_whd m1 m2 =
+ NCicReduction.reduce_machine ~delta:max_int ~subst context m1,
+ NCicReduction.reduce_machine ~delta:max_int ~subst context m2
+ in
+ let fo_unif_w_hints test_eq_only metasenv subst (xx1,t1 as m1) (xx2,t2 as m2) =
+ try fo_unif test_eq_only metasenv subst m1 m2
+ with
+ | UnificationFailure _ as exn -> raise exn
+ | KeepReducing _ | Uncertain _ as exn ->
+ let (t1,norm1 as tm1),(t2,norm2 as tm2) =
+ put_in_whd (0,[],t1,[]) (0,[],t2,[])
+ in
+ match
+ try_hints metasenv subst
+ (norm1,NCicReduction.unwind t1) (norm2,NCicReduction.unwind t2)
+ with
+ | Some x -> x
+ | None ->
+ match exn with
+ | KeepReducing msg -> raise (KeepReducingThis (msg,tm1,tm2))
+ | Uncertain _ as exn -> raise exn
+ | _ -> assert false
in
let height_of = function
| NCic.Const (Ref.Ref (_,Ref.Def h))
| NCic.Appl(NCic.Const(Ref.Ref(_,Ref.Fix (_,_,h)))::_) -> h
| _ -> 0
in
- let put_in_whd m1 m2 =
- NCicReduction.reduce_machine ~delta:max_int ~subst context m1,
- NCicReduction.reduce_machine ~delta:max_int ~subst context m2
- in
let small_delta_step ~subst
((_,_,t1,_ as m1, norm1) as x1) ((_,_,t2,_ as m2, norm2) as x2)
=
assert (not (norm1 && norm2));
if norm1 then
- x1,NCicReduction.reduce_machine ~delta:(height_of t2 -1) ~subst context m2
+ x1,NCicReduction.reduce_machine ~delta:0 ~subst context m2
else if norm2 then
- NCicReduction.reduce_machine ~delta:(height_of t1 -1) ~subst context m1,x2
+ NCicReduction.reduce_machine ~delta:0 ~subst context m1,x2
else
let h1 = height_of t1 in
let h2 = height_of t2 in
" === " ^
NCicPp.ppterm ~metasenv ~subst ~context
(NCicReduction.unwind (k2,e2,t2,s2))));
-pp (lazy (string_of_bool norm1 ^ " ?? " ^ string_of_bool norm2));
+ pp (lazy (string_of_bool norm1 ^ " ?? " ^ string_of_bool norm2));
let relevance = [] (* TO BE UNDERSTOOD
match t1 with
| C.Const r -> NCicEnvironment.get_relevance r
in
let hh1,hh2,todo=check_stack (List.rev s1) (List.rev s2) relevance [] in
try
- let metasenv,subst = fo_unif test_eq_only metasenv subst hh1 hh2 in
+ let metasenv,subst =
+ fo_unif_w_hints test_eq_only metasenv subst (norm1,hh1) (norm2,hh2) in
List.fold_left
(fun (metasenv,subst) (x1,x2,r) ->
unif_from_stack x1 x2 r metasenv subst
) (metasenv,subst) todo
- with UnificationFailure _ | Uncertain _ when not (norm1 && norm2) ->
+ with
+ | KeepReducing _ -> assert false
+ | KeepReducingThis _ ->
+ assert (not (norm1 && norm2));
unif_machines metasenv subst (small_delta_step ~subst m1 m2)
- (*D*) in outside true; rc with exn -> outside false; raise exn
+ | UnificationFailure _ | Uncertain _ when (not (norm1 && norm2))
+ -> unif_machines metasenv subst (small_delta_step ~subst m1 m2)
+ | UnificationFailure msg
+ when could_reduce (NCicReduction.unwind (fst m1))
+ || could_reduce (NCicReduction.unwind (fst m2))
+ -> raise (Uncertain msg)
+ (*D*) in outside None; rc with exn -> outside (Some exn); raise exn
in
- try fo_unif test_eq_only metasenv subst t1 t2
- with
- | UnificationFailure msg as exn ->
- (try
- unif_machines metasenv subst
- (put_in_whd (0,[],t1,[]) (0,[],t2,[]))
- with
- | UnificationFailure _ -> raise (UnificationFailure msg)
- | Uncertain _ -> raise exn)
- | Uncertain msg as exn ->
-(*
- prerr_endline "PROBLEMA";
- prerr_endline (NCicPp.ppterm ~metasenv ~subst ~context t1);
- prerr_endline (NCicPp.ppterm ~metasenv ~subst ~context t2);
-*)
- let (t1,_ as t1m),(t2,_ as t2m) = put_in_whd (0,[],t1,[]) (0,[],t2,[]) in
- match
- try_hints metasenv subst
- (NCicReduction.unwind t1) (NCicReduction.unwind t2)
- with
- | Some x -> x
- | None ->
- try
- unif_machines metasenv subst (t1m, t2m)
+ try fo_unif_w_hints test_eq_only metasenv subst (false,t1) (false,t2)
+ with
+ | KeepReducingThis (msg,tm1,tm2) ->
+ (try
+ unif_machines metasenv subst (tm1,tm2)
with
| UnificationFailure _ -> raise (UnificationFailure msg)
- | Uncertain _ -> raise exn
- (*D*) in outside true; rc with exn -> outside false; raise exn
+ | Uncertain _ -> raise (Uncertain msg)
+ | KeepReducing _ -> assert false)
+ | KeepReducing _ -> assert false
+
+ (*D*) in outside None; rc with KeepReducing _ -> assert false | exn -> outside (Some exn); raise exn
and delift_type_wrt_terms rdb metasenv subst context t args =
let lc = List.rev args @ mk_irl (List.length context) (List.length args+1) in
in
indent := ind; res)
metasenv subst context 0 (0,NCic.Ctx lc) t
- with NCicMetaSubst.MetaSubstFailure _ -> (metasenv, subst), t
+ with
+ NCicMetaSubst.MetaSubstFailure _
+ | NCicMetaSubst.Uncertain _ -> (metasenv, subst), t
in
metasenv, subst, t
;;