open Printf
-exception AssertFailure of string;;
exception UnificationFailure of string;;
+exception Uncertain of string;;
+exception AssertFailure of string;;
let debug_print = prerr_endline
| CicMetaSubst.MetaSubstFailure msg ->
raise (AssertFailure
((sprintf
- "Type checking error: %s in context\n%s.\nException: %s.\nBroken invariant: unification must be invoked only on well typed terms"
+ "Type checking error: %s in context\n%s\nand metasenv\n%s.\nException: %s.\nBroken invariant: unification must be invoked only on well typed terms"
(CicMetaSubst.ppterm subst term)
- (CicMetaSubst.ppcontext subst context) msg)))
+ (CicMetaSubst.ppcontext subst context)
+ (CicMetaSubst.ppmetasenv metasenv subst) msg)))
(* NUOVA UNIFICAZIONE *)
(* A substitution is a (int * Cic.term) list that associates a
a new substitution which is _NOT_ unwinded. It must be unwinded before
applying it. *)
-let rec fo_unif_subst subst context metasenv t1 t2 =
+let rec fo_unif_subst test_equality_only subst context metasenv t1 t2 =
let module C = Cic in
let module R = CicMetaSubst in
let module S = CicSubstitution in
match (t1, t2) with
(C.Meta (n,ln), C.Meta (m,lm)) when n=m ->
let ok,subst,metasenv =
+ try
List.fold_left2
(fun (b,subst,metasenv) t1 t2 ->
if b then true,subst,metasenv else
else
(try
let subst,metasenv =
- fo_unif_subst subst context metasenv t1' t2'
+ fo_unif_subst
+ test_equality_only subst context metasenv t1' t2'
in
true,subst,metasenv
with
Not_found -> false,subst,metasenv)
) (true,subst,metasenv) ln lm
+ with
+ Invalid_argument _ ->
+ raise (UnificationFailure (sprintf
+ "Error trying to unify %s with %s: the lengths of the two local contexts do not match." (CicMetaSubst.ppterm subst t1) (CicMetaSubst.ppterm subst t2)))
in
if ok then
subst,metasenv
else
raise (UnificationFailure (sprintf
"Error trying to unify %s with %s: the algorithm tried to check whether the two substitutions are convertible; if they are not, it tried to unify the two substitutions. No restriction was attempted."
- (CicPp.ppterm t1) (CicPp.ppterm t2)))
- | (C.Meta (n,l), C.Meta (m,_)) when n>m ->
- fo_unif_subst subst context metasenv t2 t1
+ (CicMetaSubst.ppterm subst t1) (CicMetaSubst.ppterm subst t2)))
+ | (C.Meta (n,_), C.Meta (m,_)) when n>m ->
+ fo_unif_subst test_equality_only subst context metasenv t2 t1
| (C.Meta (n,l), t)
| (t, C.Meta (n,l)) ->
+ let swap =
+ match t1,t2 with
+ C.Meta (n,_), C.Meta (m,_) when n < m -> false
+ | _, C.Meta _ -> false
+ | _,_ -> true
+ in
+ let lower = fun x y -> if swap then y else x in
+ let upper = fun x y -> if swap then x else y in
+ let fo_unif_subst_ordered
+ test_equality_only subst context metasenv m1 m2 =
+ fo_unif_subst test_equality_only subst context metasenv
+ (lower m1 m2) (upper m1 m2)
+ in
let subst'',metasenv' =
try
let oldt = (List.assoc n subst) in
let lifted_oldt = S.lift_meta l oldt in
- fo_unif_subst subst context metasenv lifted_oldt t
+ fo_unif_subst_ordered
+ test_equality_only subst context metasenv t lifted_oldt
with Not_found ->
let t',metasenv',subst' =
+ try
CicMetaSubst.delift n subst context metasenv l t
+ with
+ (CicMetaSubst.MetaSubstFailure msg)-> raise(UnificationFailure msg)
+ | (CicMetaSubst.Uncertain msg) -> raise (Uncertain msg)
in
- (n, t')::subst', metasenv'
+ let t'' =
+ match t' with
+ C.Sort (C.Type u) when not test_equality_only ->
+ let u' = CicUniv.fresh () in
+ let s = C.Sort (C.Type u') in
+ ignore (CicUniv.add_ge (upper u u') (lower u u')) ;
+ s
+ | _ -> t'
+ in
+ (n, t'')::subst', metasenv'
in
let (_,_,meta_type) = CicUtil.lookup_meta n metasenv' in
(try
let tyt =
type_of_aux' metasenv' subst'' context t
in
- fo_unif_subst subst'' context metasenv' (S.lift_meta l meta_type) tyt
+ fo_unif_subst
+ test_equality_only
+ subst'' context metasenv' tyt (S.lift_meta l meta_type)
with AssertFailure _ ->
(* TODO huge hack!!!!
* we keep on unifying/refining in the hope that the problem will be
| (C.Var (uri1,exp_named_subst1),C.Var (uri2,exp_named_subst2))
| (C.Const (uri1,exp_named_subst1),C.Const (uri2,exp_named_subst2)) ->
if UriManager.eq uri1 uri2 then
- fo_unif_subst_exp_named_subst subst context metasenv
+ fo_unif_subst_exp_named_subst test_equality_only subst context metasenv
exp_named_subst1 exp_named_subst2
else
raise (UnificationFailure (sprintf
"Can't unify %s with %s due to different constants"
- (CicPp.ppterm t1) (CicPp.ppterm t1)))
+ (CicMetaSubst.ppterm subst t1) (CicMetaSubst.ppterm subst t2)))
| C.MutInd (uri1,i1,exp_named_subst1),C.MutInd (uri2,i2,exp_named_subst2) ->
if UriManager.eq uri1 uri2 && i1 = i2 then
- fo_unif_subst_exp_named_subst subst context metasenv
+ fo_unif_subst_exp_named_subst test_equality_only subst context metasenv
exp_named_subst1 exp_named_subst2
else
raise (UnificationFailure (sprintf
"Can't unify %s with %s due to different inductive principles"
- (CicPp.ppterm t1) (CicPp.ppterm t1)))
+ (CicMetaSubst.ppterm subst t1) (CicMetaSubst.ppterm subst t2)))
| C.MutConstruct (uri1,i1,j1,exp_named_subst1),
C.MutConstruct (uri2,i2,j2,exp_named_subst2) ->
if UriManager.eq uri1 uri2 && i1 = i2 && j1 = j2 then
- fo_unif_subst_exp_named_subst subst context metasenv
+ fo_unif_subst_exp_named_subst test_equality_only subst context metasenv
exp_named_subst1 exp_named_subst2
else
raise (UnificationFailure (sprintf
"Can't unify %s with %s due to different inductive constructors"
- (CicPp.ppterm t1) (CicPp.ppterm t1)))
- | (C.Implicit, _) | (_, C.Implicit) -> assert false
- | (C.Cast (te,ty), t2) -> fo_unif_subst subst context metasenv te t2
- | (t1, C.Cast (te,ty)) -> fo_unif_subst subst context metasenv t1 te
+ (CicMetaSubst.ppterm subst t1) (CicMetaSubst.ppterm subst t2)))
+ | (C.Implicit _, _) | (_, C.Implicit _) -> assert false
+ | (C.Cast (te,ty), t2) -> fo_unif_subst test_equality_only
+ subst context metasenv te t2
+ | (t1, C.Cast (te,ty)) -> fo_unif_subst test_equality_only
+ subst context metasenv t1 te
| (C.Prod (n1,s1,t1), C.Prod (_,s2,t2)) ->
- let subst',metasenv' = fo_unif_subst subst context metasenv s1 s2 in
- fo_unif_subst subst' ((Some (n1,(C.Decl s1)))::context) metasenv' t1 t2
+ (* TASSI: this is the only case in which we want == *)
+ let subst',metasenv' = fo_unif_subst true
+ subst context metasenv s1 s2 in
+ fo_unif_subst test_equality_only
+ subst' ((Some (n1,(C.Decl s1)))::context) metasenv' t1 t2
| (C.Lambda (n1,s1,t1), C.Lambda (_,s2,t2)) ->
- let subst',metasenv' = fo_unif_subst subst context metasenv s1 s2 in
- fo_unif_subst subst' ((Some (n1,(C.Decl s1)))::context) metasenv' t1 t2
+ (* TASSI: ask someone a reason for not putting true here *)
+ let subst',metasenv' = fo_unif_subst test_equality_only
+ subst context metasenv s1 s2 in
+ fo_unif_subst test_equality_only
+ subst' ((Some (n1,(C.Decl s1)))::context) metasenv' t1 t2
| (C.LetIn (_,s1,t1), t2)
| (t2, C.LetIn (_,s1,t1)) ->
- fo_unif_subst subst context metasenv t2 (S.subst s1 t1)
+ fo_unif_subst
+ test_equality_only subst context metasenv t2 (S.subst s1 t1)
| (C.Appl l1, C.Appl l2) ->
let lr1 = List.rev l1 in
let lr2 = List.rev l2 in
- let rec fo_unif_l subst metasenv =
+ let rec fo_unif_l test_equality_only subst metasenv =
function
[],_
| _,[] -> assert false
| ([h1],[h2]) ->
- fo_unif_subst subst context metasenv h1 h2
+ fo_unif_subst test_equality_only subst context metasenv h1 h2
| ([h],l)
| (l,[h]) ->
- fo_unif_subst subst context metasenv h (C.Appl (List.rev l))
+ fo_unif_subst
+ test_equality_only subst context metasenv h (C.Appl (List.rev l))
| ((h1::l1),(h2::l2)) ->
let subst', metasenv' =
- fo_unif_subst subst context metasenv h1 h2
+ fo_unif_subst test_equality_only subst context metasenv h1 h2
in
- fo_unif_l subst' metasenv' (l1,l2)
+ fo_unif_l test_equality_only subst' metasenv' (l1,l2)
in
- fo_unif_l subst metasenv (lr1, lr2)
- | (C.MutCase (_,_,outt1,t1,pl1), C.MutCase (_,_,outt2,t2,pl2))->
+ fo_unif_l test_equality_only subst metasenv (lr1, lr2)
+ | (C.MutCase (_,_,outt1,t1',pl1), C.MutCase (_,_,outt2,t2',pl2))->
let subst', metasenv' =
- fo_unif_subst subst context metasenv outt1 outt2 in
+ fo_unif_subst test_equality_only subst context metasenv outt1 outt2 in
let subst'',metasenv'' =
- fo_unif_subst subst' context metasenv' t1 t2 in
- List.fold_left2
- (function (subst,metasenv) ->
- fo_unif_subst subst context metasenv
- ) (subst'',metasenv'') pl1 pl2
+ fo_unif_subst test_equality_only subst' context metasenv' t1' t2' in
+ (try
+ List.fold_left2
+ (function (subst,metasenv) ->
+ fo_unif_subst test_equality_only subst context metasenv
+ ) (subst'',metasenv'') pl1 pl2
+ with
+ Invalid_argument _ ->
+ raise (UnificationFailure (sprintf
+ "Error trying to unify %s with %s: the number of branches is not the same." (CicMetaSubst.ppterm subst t1) (CicMetaSubst.ppterm subst t2))))
| (C.Rel _, _) | (_, C.Rel _)
| (C.Sort _ ,_) | (_, C.Sort _)
| (C.Const _, _) | (_, C.Const _)
else
raise (UnificationFailure (sprintf
"Can't unify %s with %s because they are not convertible"
- (CicPp.ppterm t1) (CicPp.ppterm t2)))
+ (CicMetaSubst.ppterm subst t1) (CicMetaSubst.ppterm subst t2)))
| (_,_) ->
if R.are_convertible subst context t1 t2 then
subst, metasenv
else
raise (UnificationFailure (sprintf
"Can't unify %s with %s because they are not convertible"
- (CicPp.ppterm t1) (CicPp.ppterm t2)))
+ (CicMetaSubst.ppterm subst t1) (CicMetaSubst.ppterm subst t2)))
-and fo_unif_subst_exp_named_subst subst context metasenv
+and fo_unif_subst_exp_named_subst test_equality_only subst context metasenv
exp_named_subst1 exp_named_subst2
=
-try
- List.fold_left2
- (fun (subst,metasenv) (uri1,t1) (uri2,t2) ->
- assert (uri1=uri2) ;
- fo_unif_subst subst context metasenv t1 t2
- ) (subst,metasenv) exp_named_subst1 exp_named_subst2
-with
-e ->
-let uri = UriManager.uri_of_string "cic:/dummy.var" in
-debug_print ("@@@: " ^ CicPp.ppterm (Cic.Var (uri,exp_named_subst1)) ^
-" <==> " ^ CicPp.ppterm (Cic.Var (uri,exp_named_subst2))) ; raise e
+ try
+ List.fold_left2
+ (fun (subst,metasenv) (uri1,t1) (uri2,t2) ->
+ assert (uri1=uri2) ;
+ fo_unif_subst test_equality_only subst context metasenv t1 t2
+ ) (subst,metasenv) exp_named_subst1 exp_named_subst2
+ with
+ Invalid_argument _ ->
+ let print_ens ens =
+ String.concat " ; "
+ (List.map
+ (fun (uri,t) ->
+ UriManager.string_of_uri uri ^ " := " ^ (CicMetaSubst.ppterm subst t)
+ ) ens)
+ in
+ raise (UnificationFailure (sprintf
+ "Error trying to unify the two explicit named substitutions (local contexts) %s and %s: their lengths is different." (print_ens exp_named_subst1) (print_ens exp_named_subst2)))
(* A substitution is a (int * Cic.term) list that associates a *)
(* metavariable i with its body. *)
(* a new substitution which is already unwinded and ready to be applied and *)
(* a new metasenv in which some hypothesis in the contexts of the *)
(* metavariables may have been restricted. *)
-let fo_unif metasenv context t1 t2 = fo_unif_subst [] context metasenv t1 t2 ;;
+let fo_unif metasenv context t1 t2 =
+ fo_unif_subst false [] context metasenv t1 t2 ;;
let fo_unif_subst subst context metasenv t1 t2 =
let enrich_msg msg =
(CicMetaSubst.ppmetasenv metasenv subst) msg
in
try
- fo_unif_subst subst context metasenv t1 t2
+ fo_unif_subst false subst context metasenv t1 t2
with
| AssertFailure msg -> raise (AssertFailure (enrich_msg msg))
| UnificationFailure msg -> raise (UnificationFailure (enrich_msg msg))