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authorGravatar Samuel Mimram <smimram@debian.org>2006-07-13 14:28:31 +0000
committerGravatar Samuel Mimram <smimram@debian.org>2006-07-13 14:28:31 +0000
commitde0085539583f59dc7c4bf4e272e18711d565466 (patch)
tree347e1d95a2df56f79a01b303e485563588179e91 /contrib/funind/indfun.ml
parente978da8c41d8a3c19a29036d9c569fbe2a4616b0 (diff)
Imported Upstream version 8.0pl3+8.1beta.2upstream/8.0pl3+8.1beta.2
Diffstat (limited to 'contrib/funind/indfun.ml')
-rw-r--r--contrib/funind/indfun.ml218
1 files changed, 170 insertions, 48 deletions
diff --git a/contrib/funind/indfun.ml b/contrib/funind/indfun.ml
index f6d554a8..dffc8120 100644
--- a/contrib/funind/indfun.ml
+++ b/contrib/funind/indfun.ml
@@ -7,6 +7,124 @@ open Libnames
open Rawterm
open Declarations
+let is_rec_info scheme_info =
+ let test_branche min acc (_,_,br) =
+ acc || (
+ let new_branche =
+ Sign.it_mkProd_or_LetIn mkProp (fst (Sign.decompose_prod_assum br)) in
+ let free_rels_in_br = Termops.free_rels new_branche in
+ let max = min + scheme_info.Tactics.npredicates in
+ Util.Intset.exists (fun i -> i >= min && i< max) free_rels_in_br
+ )
+ in
+ Util.list_fold_left_i test_branche 1 false (List.rev scheme_info.Tactics.branches)
+
+
+let choose_dest_or_ind scheme_info =
+ if is_rec_info scheme_info
+ then Tactics.new_induct
+ else Tactics.new_destruct
+
+
+let functional_induction with_clean c princl pat =
+ let f,args = decompose_app c in
+ fun g ->
+ let princ,bindings, princ_type =
+ match princl with
+ | None -> (* No principle is given let's find the good one *)
+ begin
+ match kind_of_term f with
+ | Const c' ->
+ let princ_option =
+ let finfo = (* we first try to find out a graph on f *)
+ try find_Function_infos c'
+ with Not_found ->
+ errorlabstrm "" (str "Cannot find induction information on "++Printer.pr_lconstr (mkConst c') )
+ in
+ match Tacticals.elimination_sort_of_goal g with
+ | InProp -> finfo.prop_lemma
+ | InSet -> finfo.rec_lemma
+ | InType -> finfo.rect_lemma
+ in
+ let princ = (* then we get the principle *)
+ try mkConst (out_some princ_option )
+ with Failure "out_some" ->
+ (*i If there is not default lemma defined then, we cross our finger and try to
+ find a lemma named f_ind (or f_rec, f_rect) i*)
+ let princ_name =
+ Indrec.make_elimination_ident
+ (id_of_label (con_label c'))
+ (Tacticals.elimination_sort_of_goal g)
+ in
+ try
+ mkConst(const_of_id princ_name )
+ with Not_found -> (* This one is neither defined ! *)
+ errorlabstrm "" (str "Cannot find induction principle for "
+ ++Printer.pr_lconstr (mkConst c') )
+ in
+ (princ,Rawterm.NoBindings, Tacmach.pf_type_of g princ)
+ | _ -> raise (UserError("",str "functional induction must be used with a function" ))
+
+ end
+ | Some ((princ,binding)) ->
+ princ,binding,Tacmach.pf_type_of g princ
+ in
+ let princ_infos = Tactics.compute_elim_sig princ_type in
+ let args_as_induction_constr =
+ let c_list =
+ if princ_infos.Tactics.farg_in_concl
+ then [c] else []
+ in
+ List.map (fun c -> Tacexpr.ElimOnConstr c) (args@c_list)
+ in
+ let princ' = Some (princ,bindings) in
+ let princ_vars =
+ List.fold_right
+ (fun a acc ->
+ try Idset.add (destVar a) acc
+ with _ -> acc
+ )
+ args
+ Idset.empty
+ in
+ let old_idl = List.fold_right Idset.add (Tacmach.pf_ids_of_hyps g) Idset.empty in
+ let old_idl = Idset.diff old_idl princ_vars in
+ let subst_and_reduce g =
+ let idl =
+ map_succeed
+ (fun id ->
+ if Idset.mem id old_idl then failwith "subst_and_reduce";
+ id
+ )
+ (Tacmach.pf_ids_of_hyps g)
+ in
+ let flag =
+ Rawterm.Cbv
+ {Rawterm.all_flags
+ with Rawterm.rDelta = false;
+ }
+ in
+ if with_clean
+ then
+ Tacticals.tclTHEN
+ (Tacticals.tclMAP (fun id -> Tacticals.tclTRY (Equality.subst [id])) idl )
+ (Hiddentac.h_reduce flag Tacticals.allClauses)
+ g
+ else Tacticals.tclIDTAC g
+
+ in
+ Tacticals.tclTHEN
+ (choose_dest_or_ind
+ princ_infos
+ args_as_induction_constr
+ princ'
+ pat)
+ subst_and_reduce
+ g
+
+
+
+
type annot =
Struct of identifier
| Wf of Topconstr.constr_expr * identifier option
@@ -120,9 +238,22 @@ let prepare_body (name,annot,args,types,body) rt =
(fun_args,rt')
+let derive_inversion fix_names =
+ try
+ Invfun.derive_correctness
+ Functional_principles_types.make_scheme
+ functional_induction
+ (List.map (fun id -> destConst (Tacinterp.constr_of_id (Global.env ()) id)) fix_names)
+ (*i The next call to mk_rel_id is valid since we have just construct the graph
+ Ensures by : register_built
+ i*)
+ (List.map (fun id -> destInd (Tacinterp.constr_of_id (Global.env ()) (mk_rel_id id))) fix_names)
+ with e ->
+ msg_warning (str "Cannot define correction of function and graph" ++ Cerrors.explain_exn e)
+
let generate_principle
do_built fix_rec_l recdefs interactive_proof parametrize
- (continue_proof : int -> Names.constant array -> Term.constr array -> int -> Tacmach.tactic) =
+ (continue_proof : int -> Names.constant array -> Term.constr array -> int -> Tacmach.tactic) : unit =
let names = List.map (function (name,_,_,_,_) -> name) fix_rec_l in
let fun_bodies = List.map2 prepare_body fix_rec_l recdefs in
let funs_args = List.map fst fun_bodies in
@@ -133,6 +264,9 @@ let generate_principle
if do_built
then
begin
+ (*i The next call to mk_rel_id is valid since we have just construct the graph
+ Ensures by : do_built
+ i*)
let f_R_mut = Ident (dummy_loc,mk_rel_id (List.nth names 0)) in
let ind_kn =
fst (locate_with_msg
@@ -149,7 +283,7 @@ let generate_principle
in
let funs_kn = Array.of_list (List.map fname_kn fix_rec_l) in
let _ =
- Util.list_map_i
+ list_map_i
(fun i x ->
let princ = destConst (Indrec.lookup_eliminator (ind_kn,i) (InProp)) in
let princ_type =
@@ -167,6 +301,7 @@ let generate_principle
0
fix_rec_l
in
+ Array.iter add_Function funs_kn;
()
end
with e ->
@@ -210,7 +345,7 @@ let register_wf ?(is_mes=false) fname wf_rel_expr wf_arg args ret_type body
if List.length names = 1 then 1
else error "Recursive argument must be specified"
| Some wf_arg ->
- Util.list_index (Name wf_arg) names
+ list_index (Name wf_arg) names
in
let unbounded_eq =
let f_app_args =
@@ -236,7 +371,7 @@ let register_wf ?(is_mes=false) fname wf_rel_expr wf_arg args ret_type body
(generate_correction_proof_wf f_ref tcc_lemma_ref is_mes
functional_ref eq_ref rec_arg_num rec_arg_type nb_args relation
);
- Command.save_named true
+ derive_inversion [fname]
with e ->
(* No proof done *)
()
@@ -333,15 +468,15 @@ let do_generate_principle register_built interactive_proof fixpoint_exprl =
(Topconstr.names_of_local_assums args)
in
let annot =
- try Some (Util.list_index (Name id) names - 1), Topconstr.CStructRec
+ try Some (list_index (Name id) names - 1), Topconstr.CStructRec
with Not_found -> raise (UserError("",str "Cannot find argument " ++ Ppconstr.pr_id id))
in
(name,annot,args,types,body),(None:Vernacexpr.decl_notation)
| (name,None,args,types,body),recdef ->
let names = (Topconstr.names_of_local_assums args) in
if is_one_rec recdef && List.length names > 1 then
- Util.user_err_loc
- (Util.dummy_loc,"Function",
+ user_err_loc
+ (dummy_loc,"Function",
Pp.str "the recursive argument needs to be specified in Function")
else
(name,(Some 0, Topconstr.CStructRec),args,types,body),(None:Vernacexpr.decl_notation)
@@ -364,8 +499,8 @@ let do_generate_principle register_built interactive_proof fixpoint_exprl =
interactive_proof
true
(Functional_principles_proofs.prove_princ_for_struct interactive_proof);
- true
-
+ if register_built then derive_inversion fix_names;
+ true;
in
()
@@ -397,19 +532,19 @@ let rec add_args id new_args b =
| CApp(loc,(pf,b),bl) ->
CApp(loc,(pf,add_args id new_args b), List.map (fun (e,o) -> add_args id new_args e,o) bl)
| CCases(loc,b_option,cel,cal) ->
- CCases(loc,Util.option_map (add_args id new_args) b_option,
- List.map (fun (b,(na,b_option)) -> add_args id new_args b,(na,Util.option_map (add_args id new_args) b_option)) cel,
+ CCases(loc,option_map (add_args id new_args) b_option,
+ List.map (fun (b,(na,b_option)) -> add_args id new_args b,(na,option_map (add_args id new_args) b_option)) cel,
List.map (fun (loc,cpl,e) -> (loc,cpl,add_args id new_args e)) cal
)
| CLetTuple(loc,nal,(na,b_option),b1,b2) ->
- CLetTuple(loc,nal,(na,Util.option_map (add_args id new_args) b_option),
+ CLetTuple(loc,nal,(na,option_map (add_args id new_args) b_option),
add_args id new_args b1,
add_args id new_args b2
)
| CIf(loc,b1,(na,b_option),b2,b3) ->
CIf(loc,add_args id new_args b1,
- (na,Util.option_map (add_args id new_args) b_option),
+ (na,option_map (add_args id new_args) b_option),
add_args id new_args b2,
add_args id new_args b3
)
@@ -426,15 +561,17 @@ let rec add_args id new_args b =
-let make_graph (id:identifier) =
- let c_body =
- try
- let c = const_of_id id in
- Global.lookup_constant c
- with Not_found ->
- raise (UserError ("",str "Cannot find " ++ Ppconstr.pr_id id) )
- in
+let make_graph (f_ref:global_reference) =
+ let c,c_body =
+ match f_ref with
+ | ConstRef c ->
+ begin try c,Global.lookup_constant c
+ with Not_found ->
+ raise (UserError ("",str "Cannot find " ++ Printer.pr_lconstr (mkConst c)) )
+ end
+ | _ -> raise (UserError ("", str "Not a function reference") )
+ in
match c_body.const_body with
| None -> error "Cannot build a graph over an axiom !"
| Some b ->
@@ -494,7 +631,7 @@ let make_graph (id:identifier) =
(fun n (nal,t'') ->
n+List.length nal) n nal_ta'
in
- assert (n'<= n);
+(* assert (n'<= n); *)
chop_n_arrow (n - n') t'
| _ -> anomaly "Not enough products"
else t
@@ -511,16 +648,6 @@ let make_graph (id:identifier) =
let l =
List.map
(fun (id,(n,recexp),bl,t,b) ->
-(* let nal = *)
-(* List.flatten *)
-(* (List.map *)
-(* (function *)
-(* | Topconstr.LocalRawDef (na,_)-> [] *)
-(* | Topconstr.LocalRawAssum (nal,_) -> nal *)
-(* ) *)
-(* (nal_tas@bl) *)
-(* ) *)
-(* in *)
let bl' =
List.flatten
(List.map
@@ -539,7 +666,8 @@ let make_graph (id:identifier) =
(List.map
(function
| Topconstr.LocalRawDef (na,_)-> []
- | Topconstr.LocalRawAssum (nal,_) -> List.map (fun (loc,n) -> CRef(Libnames.Ident(loc, Nameops.out_name n))) nal
+ | Topconstr.LocalRawAssum (nal,_) ->
+ List.map (fun (loc,n) -> CRef(Libnames.Ident(loc, Nameops.out_name n))) nal
)
nal_tas
)
@@ -551,23 +679,17 @@ let make_graph (id:identifier) =
in
l
| _ ->
+ let id = id_of_label (con_label c) in
[(id,None,nal_tas,t,b)]
in
-(* List.iter (fun (id,rec_arg,bl,t,b) -> *)
-(* Pp.msgnl *)
-(* (Ppconstr.pr_id id ++ *)
-(* Ppconstr.pr_binders bl ++ *)
-(* begin match rec_arg with *)
-(* | Some (Struct id) -> str " { struct " ++ Ppconstr.pr_id id ++ str " }" *)
-(* | _ -> (mt ()) *)
-(* end ++ *)
-(* str " : " ++ Ppconstr.pr_lconstr_expr t ++ *)
-(* str " := " ++ *)
-(* Ppconstr.pr_lconstr_expr b *)
-(* ) *)
-(* ) *)
-(* expr_list; *)
- do_generate_principle false false expr_list
+ do_generate_principle false false expr_list;
+ (* We register the infos *)
+ let mp,dp,_ = repr_con c in
+ List.iter (fun (id,_,_,_,_) -> add_Function (make_con mp dp (label_of_id id))) expr_list
+
+
(* let make_graph _ = assert false *)
let do_generate_principle = do_generate_principle true
+
+