(*
let pp s =
- prerr_endline (Printf.sprintf "%-20s" !indent ^ " " ^ s);;
+ prerr_endline (Printf.sprintf "%-20s" !indent ^ " " ^ Lazy.force s)
+;;
*)
let pp _ = ();;
metasenv, subst, NCic.Lambda ("_", argty, NCicSubstitution.lift 1 arg)
and beta_expand_many test_equality_only swap metasenv subst context t args =
-(*D*) inside 'B'; try let rc =
- pp (String.concat ", " (List.map (NCicPp.ppterm ~metasenv ~subst ~context)
- args) ^ " ∈ " ^ NCicPp.ppterm ~metasenv ~subst ~context t);
+(* (*D*) inside 'B'; try let rc = *)
+ pp (lazy (String.concat ", "
+ (List.map (NCicPp.ppterm ~metasenv ~subst ~context)
+ args) ^ " ∈ " ^ NCicPp.ppterm ~metasenv ~subst ~context t));
let _, subst, metasenv, hd =
List.fold_right
(fun arg (num,subst,metasenv,t) ->
num+1,subst,metasenv,t)
args (1,subst,metasenv,t)
in
- pp ("Head syntesized by b-exp: " ^
- NCicPp.ppterm ~metasenv ~subst ~context hd);
+ pp (lazy ("Head syntesized by b-exp: " ^
+ NCicPp.ppterm ~metasenv ~subst ~context hd));
metasenv, subst, hd
-(*D*) in outside (); rc with exn -> outside (); raise exn
+(* (*D*) in outside (); rc with exn -> outside (); raise exn *)
and instantiate test_eq_only metasenv subst context n lc t swap =
-(*D*) inside 'I'; try let rc =
+(* (*D*) inside 'I'; try let rc = *)
let unify test_eq_only m s c t1 t2 =
if swap then unify test_eq_only m s c t2 t1
else unify test_eq_only m s c t1 t2
in
let name, ctx, ty = NCicUtils.lookup_meta n metasenv in
let lty = NCicSubstitution.subst_meta lc ty in
- pp ("On the types: " ^ NCicPp.ppterm ~metasenv ~subst ~context lty ^ " === "
- ^ NCicPp.ppterm ~metasenv ~subst ~context ty_t);
+ pp (lazy("On the types: " ^
+ NCicPp.ppterm ~metasenv ~subst ~context lty ^ " === "
+ ^ NCicPp.ppterm ~metasenv ~subst ~context ty_t));
let metasenv, subst = unify test_eq_only metasenv subst context lty ty_t in
let (metasenv, subst), t =
try NCicMetaSubst.delift metasenv subst context n lc t
(* by cumulativity when unify(?,Type_i)
* we could ? := Type_j with j <= i... *)
let subst = (n, (name, ctx, t, ty)) :: subst in
+ pp (lazy ("?"^string_of_int n^" := "^NCicPp.ppterm
+ ~metasenv ~subst ~context:ctx (NCicSubstitution.subst_meta lc t)));
let metasenv =
List.filter (fun (m,_) -> not (n = m)) metasenv
in
metasenv, subst
-(*D*) in outside(); rc with exn -> outside (); raise exn
+(* (*D*) in outside(); rc with exn -> outside (); raise exn *)
and unify test_eq_only metasenv subst context t1 t2 =
-(*D*) inside 'U'; try let rc =
+(* (*D*) inside 'U'; try let rc = *)
let fo_unif test_eq_only metasenv subst t1 t2 =
- (*D*) inside 'F'; try let rc =
- pp (" " ^ NCicPp.ppterm ~metasenv ~subst ~context t1 ^ " === " ^
- NCicPp.ppterm ~metasenv ~subst ~context t2);
+(* (*D*) inside 'F'; try let rc = *)
+(*
+ pp (lazy(" " ^ NCicPp.ppterm ~metasenv ~subst ~context t1 ^ " === " ^
+ NCicPp.ppterm ~metasenv ~subst ~context t2));
+*)
if t1 === t2 then
metasenv, subst
else
raise (uncert_exc metasenv subst context t1 t2))
| (C.Implicit _, _) | (_, C.Implicit _) -> assert false
| _ -> raise (uncert_exc metasenv subst context t1 t2)
- (*D*) in outside(); rc with exn -> outside (); raise exn
+(* (*D*) in outside(); rc with exn -> outside (); raise exn *)
in
let height_of = function
| NCic.Const (Ref.Ref (_,Ref.Def h))
| NCic.Const (Ref.Ref (_,Ref.Fix (_,_,h)))
| NCic.Appl(NCic.Const(Ref.Ref(_,Ref.Def h))::_)
- | NCic.Appl(NCic.Const(Ref.Ref(_,Ref.Fix (_,_,h)))::_) -> h, false
- | NCic.Meta _ | NCic.Appl (NCic.Meta _ :: _) -> 0, true
- | _ -> 0, false
+ | 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,
false (* not in normal form *)
in
let small_delta_step (_,_,t1,_ as m1) (_,_,t2,_ as m2) =
- let h1, flex1 = height_of t1 in
- let h2, flex2 = height_of t2 in
+ let h1 = height_of t1 in
+ let h2 = height_of t2 in
let delta =
- if flex1 then max 0 (h2 - 1) else
- if flex2 then max 0 (h1 - 1) else
+ if flexible [t1] then max 0 (h2 - 1) else
+ if flexible [t2] then max 0 (h1 - 1) else
if h1 = h2 then max 0 (h1 -1) else min h1 h2
in
- pp ("DELTA STEP TO: " ^ string_of_int delta);
+ pp (lazy("DELTA STEP TO: " ^ string_of_int delta));
let m1' = NCicReduction.reduce_machine ~delta ~subst context m1 in
let m2' = NCicReduction.reduce_machine ~delta ~subst context m2 in
- m1', m2', (m1' == m1 && m2' == m2) || delta = 0
- (* if we have as heads two Fix of height n>0, they may or may not
- * reduce, depending on their rec argument... we thus check if
- * something changed or not. This relies on the reduction machine
- * preserving the original machine if it performs no action *)
+ if (m1' == m1 && m2' == m2 && delta > 0) then
+ (* if we have as heads a Fix of height n>m>0 and another term of height
+ * m, we set delta = m. The Fix may or may not reduce, depending on its
+ * rec argument. if no reduction was performed we decrease delta to m-1
+ * to reduce the other term *)
+ let delta = delta - 1 in
+ pp (lazy("DELTA STEP TO: " ^ string_of_int delta));
+ let m1' = NCicReduction.reduce_machine ~delta ~subst context m1 in
+ let m2' = NCicReduction.reduce_machine ~delta ~subst context m2 in
+ m1', m2', (m1 == m1' && m2 == m2') (* || delta = 0 *)
+ else m1', m2', (m1 == m1' && m2 == m2') (* delta = 0 *)
in
let rec unif_machines metasenv subst =
function
| ((k1,e1,t1,s1 as m1),(k2,e2,t2,s2 as m2),are_normal) ->
- (*D*) inside 'M'; try let rc =
- pp ((if are_normal then "*" else " ") ^ " " ^
+(* (*D*) inside 'M'; try let rc = *)
+(*
+ pp (lazy((if are_normal then "*" else " ") ^ " " ^
NCicPp.ppterm ~metasenv ~subst ~context (NCicReduction.unwind m1) ^
" === " ^
- NCicPp.ppterm ~metasenv ~subst ~context (NCicReduction.unwind m2));
+ NCicPp.ppterm ~metasenv ~subst ~context (NCicReduction.unwind m2)));
+*)
let relevance = [] (* TO BE UNDERSTOOD
match t1 with
| C.Const r -> NCicEnvironment.get_relevance r
in
try check_stack (List.rev s1) (List.rev s2) relevance (metasenv,subst)
with UnificationFailure _ | Uncertain _ when not are_normal ->
-(*
- let delta = delta - 1 in
- let red = NCicReduction.reduce_machine ~delta ~subst context in
-*)
- unif_machines metasenv subst (small_delta_step m1 m2)
- (*D*) in outside(); rc with exn -> outside (); raise exn
+ let m1,m2,normal as small = small_delta_step m1 m2 in
+ if not normal then unif_machines metasenv subst small
+ else raise (UnificationFailure (lazy "TEST x"))
+(* (*D*) in outside(); rc with exn -> outside (); raise exn *)
in
try fo_unif test_eq_only metasenv subst t1 t2
with UnificationFailure msg | Uncertain msg as exn ->
with
| UnificationFailure _ -> raise (UnificationFailure msg)
| Uncertain _ -> raise exn
-(*D*) in outside(); rc with exn -> outside (); raise exn
+(* (*D*) in outside(); rc with exn -> outside (); raise exn *)
;;
let unify =