exception ReferenceToVariable;;
exception ReferenceToCurrentProof;;
exception ReferenceToInductiveDefinition;;
+exception RelToHiddenHypothesis;;
(* takes a well-typed term *)
-let whd =
+let whd context =
let rec whdaux l =
let module C = Cic in
let module S = CicSubstitution in
function
- C.Rel _ as t -> if l = [] then t else C.Appl (t::l)
+ C.Rel n as t ->
+ (match List.nth context (n-1) with
+ Some (_, C.Decl _) -> if l = [] then t else C.Appl (t::l)
+ | Some (_, C.Def bo) -> whdaux l (S.lift n bo)
+ | None -> raise RelToHiddenHypothesis
+ )
| C.Var uri as t ->
(match CicEnvironment.get_cooked_obj uri 0 with
C.Definition _ -> raise ReferenceToDefinition
| C.CurrentProof (_,_,body,_) -> whdaux l body
| C.InductiveDefinition _ -> raise ReferenceToInductiveDefinition
)
- | C.Abst _ as t -> t (*CSC l should be empty ????? *)
| C.MutInd (uri,_,_) as t -> if l = [] then t else C.Appl (t::l)
| C.MutConstruct (uri,_,_,_) as t -> if l = [] then t else C.Appl (t::l)
- | C.MutCase (mutind,cookingsno,i,_,term,pl) as t ->
+ | C.MutCase (mutind,cookingsno,i,_,term,pl) as t->
let decofix =
function
C.CoFix (i,fl) as t ->
eat_first (num_to_eat,tl)
in
whdaux (ts@l) (List.nth pl (j-1))
- | C.Abst _| C.Cast _ | C.Implicit ->
+ | C.Cast _ | C.Implicit ->
raise (Impossible 2) (* we don't trust our whd ;-) *)
- | _ -> t
+ | _ -> if l = [] then t else C.Appl (t::l)
)
| C.Fix (i,fl) as t ->
let (_,recindex,_,body) = List.nth fl i in
| None -> if l = [] then t else C.Appl (t::l)
)
| C.CoFix (i,fl) as t ->
- (*CSC vecchio codice
- let (_,_,body) = List.nth fl i in
- let body' =
- let counter = ref (List.length fl) in
- List.fold_right
- (fun _ -> decr counter ; S.subst (C.CoFix (!counter,fl)))
- fl
- body
- in
- whdaux l body'
- *)
if l = [] then t else C.Appl (t::l)
in
+(*CSC
+function t ->
+prerr_endline ("PRIMA WHD" ^ CicPp.ppterm t) ; flush stderr ;
+List.iter (function (Cic.Decl t) -> prerr_endline ("Context: " ^ CicPp.ppterm t) | (Cic.Def t) -> prerr_endline ("Context:= " ^ CicPp.ppterm t)) context ; flush stderr ; prerr_endline "<PRIMA WHD" ; flush stderr ;
+let res =
+*)
whdaux []
+(*CSC
+t in prerr_endline "DOPO WHD" ; flush stderr ; res
+*)
;;
(* t1, t2 must be well-typed *)
-let are_convertible t1 t2 =
+let are_convertible =
let module U = UriManager in
- let rec aux t1 t2 =
- debug t1 [t2] "PREWHD";
- (* this trivial euristic cuts down the total time of about five times ;-) *)
- (* this because most of the time t1 and t2 are "sintactically" the same *)
- if t1 = t2 then
- true
- else
- begin
- let module C = Cic in
- let t1' = whd t1
- and t2' = whd t2 in
- debug t1' [t2'] "POSTWHD";
- (*if !fdebug = 0 then ignore(Unix.system "read" );*)
- match (t1',t2') with
- (C.Rel n1, C.Rel n2) -> n1 = n2
- | (C.Var uri1, C.Var uri2) -> U.eq uri1 uri2
- | (C.Meta n1, C.Meta n2) -> n1 = n2
- | (C.Sort s1, C.Sort s2) -> true (*CSC da finire con gli universi *)
- | (C.Prod (_,s1,t1), C.Prod(_,s2,t2)) ->
- aux s1 s2 && aux t1 t2
- | (C.Lambda (_,s1,t1), C.Lambda(_,s2,t2)) ->
- aux s1 s2 && aux t1 t2
- | (C.Appl l1, C.Appl l2) ->
- (try
- List.fold_right2 (fun x y b -> aux x y && b) l1 l2 true
- with
- Invalid_argument _ -> false
- )
- | (C.Const (uri1,_), C.Const (uri2,_)) ->
- (*CSC: questo commento e' chiaro o delirante? Io lo sto scrivendo *)
- (*CSC: mentre sono delirante, quindi ... *)
- (* WARNING: it is really important that the two cookingsno are not *)
- (* checked for equality. This allows not to cook an object with no *)
- (* ingredients only to update the cookingsno. E.g: if a term t has *)
- (* a reference to a term t1 which does not depend on any variable *)
- (* and t1 depends on a term t2 (that can't depend on any variable *)
- (* because of t1), then t1 cooked at every level could be the same *)
- (* as t1 cooked at level 0. Doing so, t2 will be extended in t *)
- (* with cookingsno 0 and not 2. But this will not cause any trouble*)
- (* if here we don't check that the two cookingsno are equal. *)
- U.eq uri1 uri2
- | (C.MutInd (uri1,k1,i1), C.MutInd (uri2,k2,i2)) ->
- (* WARNIG: see the previous warning *)
- U.eq uri1 uri2 && i1 = i2
- | (C.MutConstruct (uri1,_,i1,j1), C.MutConstruct (uri2,_,i2,j2)) ->
- (* WARNIG: see the previous warning *)
- U.eq uri1 uri2 && i1 = i2 && j1 = j2
- | (C.MutCase (uri1,_,i1,outtype1,term1,pl1),
- C.MutCase (uri2,_,i2,outtype2,term2,pl2)) ->
- (* WARNIG: see the previous warning *)
- (* aux outtype1 outtype2 should be true if aux pl1 pl2 *)
- U.eq uri1 uri2 && i1 = i2 && aux outtype1 outtype2 &&
- aux term1 term2 &&
- List.fold_right2 (fun x y b -> b && aux x y) pl1 pl2 true
- | (C.Fix (i1,fl1), C.Fix (i2,fl2)) ->
- i1 = i2 &&
- List.fold_right2
- (fun (_,recindex1,ty1,bo1) (_,recindex2,ty2,bo2) b ->
- b && recindex1 = recindex2 && aux ty1 ty2 && aux bo1 bo2)
- fl1 fl2 true
- | (C.CoFix (i1,fl1), C.CoFix (i2,fl2)) ->
- i1 = i2 &&
- List.fold_right2
- (fun (_,ty1,bo1) (_,ty2,bo2) b ->
- b && aux ty1 ty2 && aux bo1 bo2)
- fl1 fl2 true
- | (C.Abst _, _) | (_, C.Abst _) | (C.Cast _, _) | (_, C.Cast _)
- | (C.Implicit, _) | (_, C.Implicit) ->
- raise (Impossible 3) (* we don't trust our whd ;-) *)
- | (_,_) ->
- debug t1' [t2'] "NOT-CONVERTIBLE" ;
- false
- end
+ let rec aux context t1 t2 =
+ let aux2 t1 t2 =
+ (* this trivial euristic cuts down the total time of about five times ;-) *)
+ (* this because most of the time t1 and t2 are "sintactically" the same *)
+ if t1 = t2 then
+ true
+ else
+ begin
+ let module C = Cic in
+ match (t1,t2) with
+ (C.Rel n1, C.Rel n2) -> n1 = n2
+ | (C.Var uri1, C.Var uri2) -> U.eq uri1 uri2
+ | (C.Meta (n1,l1), C.Meta (n2,l2)) ->
+ n1 = n2 &&
+ List.fold_left2
+ (fun b t1 t2 ->
+ b &&
+ match t1,t2 with
+ None,_
+ | _,None -> true
+ | Some t1',Some t2' -> aux context t1' t2'
+ ) true l1 l2
+ | (C.Sort s1, C.Sort s2) -> true (*CSC da finire con gli universi *)
+ | (C.Prod (name1,s1,t1), C.Prod(_,s2,t2)) ->
+ aux context s1 s2 && aux ((Some (name1, (C.Decl s1)))::context) t1 t2
+ | (C.Lambda (name1,s1,t1), C.Lambda(_,s2,t2)) ->
+ aux context s1 s2 && aux ((Some (name1, (C.Decl s1)))::context) t1 t2
+ | (C.LetIn (name1,s1,t1), C.LetIn(_,s2,t2)) ->
+ aux context s1 s2 && aux ((Some (name1, (C.Def s1)))::context) t1 t2
+ | (C.Appl l1, C.Appl l2) ->
+ (try
+ List.fold_right2 (fun x y b -> aux context x y && b) l1 l2 true
+ with
+ Invalid_argument _ -> false
+ )
+ | (C.Const (uri1,_), C.Const (uri2,_)) ->
+ (*CSC: questo commento e' chiaro o delirante? Io lo sto scrivendo *)
+ (*CSC: mentre sono delirante, quindi ... *)
+ (* WARNING: it is really important that the two cookingsno are not*)
+ (* checked for equality. This allows not to cook an object with no*)
+ (* ingredients only to update the cookingsno. E.g: if a term t has*)
+ (* a reference to a term t1 which does not depend on any variable *)
+ (* and t1 depends on a term t2 (that can't depend on any variable *)
+ (* because of t1), then t1 cooked at every level could be the same*)
+ (* as t1 cooked at level 0. Doing so, t2 will be extended in t *)
+ (* with cookingsno 0 and not 2. But this will not cause any *)
+ (* trouble if here we don't check that the two cookingsno are *)
+ (* equal. *)
+ U.eq uri1 uri2
+ | (C.MutInd (uri1,k1,i1), C.MutInd (uri2,k2,i2)) ->
+ (* WARNIG: see the previous warning *)
+ U.eq uri1 uri2 && i1 = i2
+ | (C.MutConstruct (uri1,_,i1,j1), C.MutConstruct (uri2,_,i2,j2)) ->
+ (* WARNIG: see the previous warning *)
+ U.eq uri1 uri2 && i1 = i2 && j1 = j2
+ | (C.MutCase (uri1,_,i1,outtype1,term1,pl1),
+ C.MutCase (uri2,_,i2,outtype2,term2,pl2)) ->
+ (* WARNIG: see the previous warning *)
+ (* aux context outtype1 outtype2 should be true if *)
+ (* aux context pl1 pl2 *)
+ U.eq uri1 uri2 && i1 = i2 && aux context outtype1 outtype2 &&
+ aux context term1 term2 &&
+ List.fold_right2 (fun x y b -> b && aux context x y) pl1 pl2 true
+ | (C.Fix (i1,fl1), C.Fix (i2,fl2)) ->
+ let tys =
+ List.map (function (n,_,ty,_) -> Some (C.Name n,(C.Decl ty))) fl1
+ in
+ i1 = i2 &&
+ List.fold_right2
+ (fun (_,recindex1,ty1,bo1) (_,recindex2,ty2,bo2) b ->
+ b && recindex1 = recindex2 && aux context ty1 ty2 &&
+ aux (tys@context) bo1 bo2)
+ fl1 fl2 true
+ | (C.CoFix (i1,fl1), C.CoFix (i2,fl2)) ->
+ let tys =
+ List.map (function (n,ty,_) -> Some (C.Name n,(C.Decl ty))) fl1
+ in
+ i1 = i2 &&
+ List.fold_right2
+ (fun (_,ty1,bo1) (_,ty2,bo2) b ->
+ b && aux context ty1 ty2 && aux (tys@context) bo1 bo2)
+ fl1 fl2 true
+ | (C.Cast _, _) | (_, C.Cast _)
+ | (C.Implicit, _) | (_, C.Implicit) ->
+ raise (Impossible 3) (* we don't trust our whd ;-) *)
+ | (_,_) -> false
+ end
+ in
+ if aux2 t1 t2 then true
+ else
+ begin
+ debug t1 [t2] "PREWHD";
+ let t1' = whd context t1
+ and t2' = whd context t2 in
+ debug t1' [t2'] "POSTWHD";
+ aux2 t1' t2'
+ end
in
- aux t1 t2
+ aux
;;