i.e. on obtient une contradiction.
*)
-let _R = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/R.con") 0 ;;
+
+let _False = Cic.MutInd (UriManager.uri_of_string "cic:/Coq/Init/Logic/False.ind") 0 0 ;;
+let _not = Cic.Const (UriManager.uri_of_string "cic:/Coq/Init/Logic/not.con") 0;;
let _R0 = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/R0.con") 0 ;;
let _R1 = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/R1.con") 0 ;;
+let _R = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/R.con") 0 ;;
+let _Rfourier_eqLR_to_le=Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_eqLR_to_le.con") 0 ;;
+let _Rfourier_eqRL_to_le=Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_eqRL_to_le.con") 0 ;;
+let _Rfourier_ge_to_le =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_ge_to_le.con") 0 ;;
+let _Rfourier_gt_to_lt =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_gt_to_lt.con") 0 ;;
+let _Rfourier_le=Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_le.con") 0 ;;
+let _Rfourier_le_le =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_le_le.con") 0 ;;
+let _Rfourier_le_lt =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_le_lt.con") 0 ;;
+let _Rfourier_lt=Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_lt.con") 0 ;;
+let _Rfourier_lt_le =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_lt_le.con") 0 ;;
+let _Rfourier_lt_lt =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_lt_lt.con") 0 ;;
+let _Rfourier_not_ge_lt = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_not_ge_lt.con") 0 ;;
+let _Rfourier_not_gt_le = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_not_gt_le.con") 0 ;;
+let _Rfourier_not_le_gt = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_not_le_gt.con") 0 ;;
+let _Rfourier_not_lt_ge = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_not_lt_ge.con") 0 ;;
let _Rinv = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/Rinv.con") 0 ;;
+let _Rinv_R1 = Cic.Const(UriManager.uri_of_string "cic:/Coq/Reals/Rbase/Rinv_R1.con" ) 0;;
+let _Rle = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/Rle.con") 0 ;;
let _Rle_mult_inv_pos = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rle_mult_inv_pos.con") 0 ;;
let _Rle_not_lt = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rle_not_lt.con") 0 ;;
let _Rle_zero_1 = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rle_zero_1.con") 0 ;;
let _Rle_zero_pos_plus1 = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rle_zero_pos_plus1.con") 0 ;;
let _Rle_zero_zero = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rle_zero_zero.con") 0 ;;
+let _Rlt = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/Rlt.con") 0 ;;
let _Rlt_mult_inv_pos = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rlt_mult_inv_pos.con") 0 ;;
let _Rlt_not_le = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rlt_not_le.con") 0 ;;
let _Rlt_zero_1 = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rlt_zero_1.con") 0 ;;
let _Rlt_zero_pos_plus1 = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rlt_zero_pos_plus1.con") 0 ;;
-let _Rmult = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/Rmult.con") 0 ;;
let _Rminus = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/Rminus.con") 0 ;;
-
+let _Rmult = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/Rmult.con") 0 ;;
+let _Rnot_le_le =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rnot_le_le.con") 0 ;;
let _Rnot_lt0 = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rnot_lt0.con") 0 ;;
+let _Rnot_lt_lt =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rnot_lt_lt.con") 0 ;;
let _Ropp = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/Ropp.con") 0 ;;
let _Rplus = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/Rplus.con") 0 ;;
-let _Rfourier_not_ge_lt = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_not_ge_lt.con") 0 ;;
-let _Rfourier_not_gt_le = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_not_gt_le.con") 0 ;;
-let _Rfourier_not_le_gt = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_not_le_gt.con") 0 ;;
-let _Rfourier_not_lt_ge = Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_not_lt_ge.con") 0 ;;
-let _Rfourier_gt_to_lt =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_gt_to_lt.con") 0 ;;
-
-let _Rfourier_ge_to_le =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_ge_to_le.con") 0 ;;
-let _Rfourier_lt_lt =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_lt_lt.con") 0 ;;
-let _Rfourier_lt_le =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_lt_le.con") 0 ;;
-let _Rfourier_le_lt =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_le_lt.con") 0 ;;
-let _Rfourier_le_le =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_le_le.con") 0 ;;
-
-let _Rfourier_eqLR_to_le=Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_eqLR_to_le.con") 0 ;;
-
-let _Rfourier_eqRL_to_le=Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_eqRL_to_le.con") 0 ;;
-let _Rlt = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/Rlt.con") 0 ;;
-let _Rle = Cic.Const (UriManager.uri_of_string "cic:/Coq/Reals/Rdefinitions/Rle.con") 0 ;;
-let _not = Cic.Const (UriManager.uri_of_string "cic:/Coq/Init/Logic/not.con") 0;;
-
let _sym_eqT = Cic.Const(UriManager.uri_of_string "/Coq/Init/Logic_Type/Equality_is_a_congruence/sym_eqT.con") 0 ;;
-
-let _Rfourier_lt=Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_lt.con") 0 ;;
-let _Rfourier_le=Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rfourier_le.con") 0 ;;
-
-let _False = Cic.MutInd (UriManager.uri_of_string "cic:/Coq/Init/Logic/False.ind") 0 0 ;;
-
-let _Rinv_R1 = Cic.Const(UriManager.uri_of_string "cic:/Coq/Reals/Rbase/Rinv_R1.con" ) 0;;
-
-
-let _Rnot_lt_lt =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rnot_lt_lt.con") 0 ;;
-let _Rnot_le_le =Cic.Const (UriManager.uri_of_string "cic:/Coq/fourier/Fourier_util/Rnot_le_le.con") 0 ;;
-
-
-
-
-
-
+(*****************************************************************************************************)
let is_int x = (x.den)=1
;;
(* preuve que 0<n*1/d
*)
+
+(*
let tac_zero_inf_pos gl (n,d) =
(*let cste = pf_parse_constr gl in*)
let tacn=ref (PrimitiveTactics.apply_tac ~term:_Rlt_zero_1 ) in
for i=1 to d-1 do
tacd:=(Tacticals.then_ ~start:(PrimitiveTactics.apply_tac ~term:_Rlt_zero_pos_plus1) ~continuation:!tacd); done;
(Tacticals.thens ~start:(PrimitiveTactics.apply_tac ~term:_Rlt_mult_inv_pos) ~continuations:[!tacn;!tacd])
-;;
+;;*)
+let tac_zero_inf_pos (n,d) ~status =
+ (*let cste = pf_parse_constr gl in*)
+ let pall str ~status:(proof,goal) t =
+ debug ("tac "^str^" :\n" );
+ let curi,metasenv,pbo,pty = proof in
+ let metano,context,ty = List.find (function (m,_,_) -> m=goal) metasenv in
+ debug ("th = "^ CicPp.ppterm t ^"\n");
+ debug ("ty = "^ CicPp.ppterm ty^"\n");
+ in
+ let tacn=ref
+ (fun ~status -> pall "n0" ~status _Rlt_zero_1 ;PrimitiveTactics.apply_tac ~term:_Rlt_zero_1 ~status ) in
+ let tacd=ref
+ (fun ~status -> pall "d0" ~status _Rlt_zero_1 ;PrimitiveTactics.apply_tac ~term:_Rlt_zero_1 ~status ) in
+ for i=1 to n-1 do
+ tacn:=(Tacticals.then_ ~start:(fun ~status -> pall ("n"^string_of_int i) ~status _Rlt_zero_pos_plus1;PrimitiveTactics.apply_tac ~term:_Rlt_zero_pos_plus1 ~status) ~continuation:!tacn); done;
+ for i=1 to d-1 do
+ tacd:=(Tacticals.then_ ~start:(fun ~status -> pall "d" ~status _Rlt_zero_pos_plus1 ;PrimitiveTactics.apply_tac ~term:_Rlt_zero_pos_plus1 ~status) ~continuation:!tacd); done;
+
+
+
+debug("\nTAC ZERO INF POS\n");
+
+(Tacticals.thens ~start:(PrimitiveTactics.apply_tac ~term:_Rlt_mult_inv_pos)
+ ~continuations:[
+ !tacn ;
+ !tacd ]
+ ~status)
+;;
+
(* preuve que 0<=n*1/d
let tac_zero_infeq_false gl (n,d) =
(Tacticals.then_ ~start:(PrimitiveTactics.apply_tac ~term:_Rlt_not_le)
- ~continuation:(tac_zero_inf_pos gl (-n,d)))
+ ~continuation:(tac_zero_inf_pos (-n,d)))
;;
let exact = PrimitiveTactics.exact_tac;;
-let tac_use h = match h.htype with
- "Rlt" -> exact ~term:h.hname
- |"Rle" -> exact ~term:h.hname
- |"Rgt" -> (Tacticals.then_ ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_gt_to_lt)
- ~continuation:(exact ~term:h.hname))
- |"Rge" -> (Tacticals.then_ ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_ge_to_le)
- ~continuation:(exact ~term:h.hname))
- |"eqTLR" -> (Tacticals.then_ ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_eqLR_to_le)
- ~continuation:(exact ~term:h.hname))
- |"eqTRL" -> (Tacticals.then_ ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_eqRL_to_le)
- ~continuation:(exact ~term:h.hname))
- |_->assert false
+let tac_use h ~status =
+debug("Inizio TC_USE\n");
+let res =
+match h.htype with
+ "Rlt" -> exact ~term:h.hname ~status
+ |"Rle" -> exact ~term:h.hname ~status
+ |"Rgt" -> (Tacticals.then_ ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_gt_to_lt)
+ ~continuation:(exact ~term:h.hname)) ~status
+ |"Rge" -> (Tacticals.then_ ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_ge_to_le)
+ ~continuation:(exact ~term:h.hname)) ~status
+ |"eqTLR" -> (Tacticals.then_ ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_eqLR_to_le)
+ ~continuation:(exact ~term:h.hname)) ~status
+ |"eqTRL" -> (Tacticals.then_ ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_eqRL_to_le)
+ ~continuation:(exact ~term:h.hname)) ~status
+ |_->assert false
+in
+debug("Fine TAC_USE");
+res
;;
debug "inizio a costruire tac1\n";
- let tac1=ref ( if h1.hstrict then
+ let tac1=ref ( fun ~status ->
+ debug "Sotto tattica t1\n";
+ if h1.hstrict then
(Tacticals.thens ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_lt)
- ~continuations:[tac_use h1;tac_zero_inf_pos goal
- (rational_to_fraction c1)])
+ ~continuations:[tac_use h1;tac_zero_inf_pos (rational_to_fraction c1)] ~status)
else
(Tacticals.thens ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_le)
- ~continuations:[tac_use h1;tac_zero_inf_pos goal
- (rational_to_fraction c1)]))
+ ~continuations:[tac_use h1;tac_zero_inf_pos (rational_to_fraction c1)] ~status))
+
in
s:=h1.hstrict;
List.iter (fun (h,c) ->
(if (!s) then
(if h.hstrict then
+ (debug("tac1 1\n");
tac1:=(Tacticals.thens ~start:(PrimitiveTactics.apply_tac
~term:_Rfourier_lt_lt)
~continuations:[!tac1;tac_use h;
- tac_zero_inf_pos goal
- (rational_to_fraction c)])
+ tac_zero_inf_pos
+ (rational_to_fraction c)]))
else
+ (
+ debug("tac1 2\n");
tac1:=(Tacticals.thens ~start:(PrimitiveTactics.apply_tac
~term:_Rfourier_lt_le)
~continuations:[!tac1;tac_use h;
- tac_zero_inf_pos goal
- (rational_to_fraction c)])
+ tac_zero_inf_pos
+ (rational_to_fraction c)]))
)
else
(if h.hstrict then
+ (
+
+ debug("tac1 3\n");
tac1:=(Tacticals.thens ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_le_lt)
~continuations:[!tac1;tac_use h;
- tac_zero_inf_pos goal
- (rational_to_fraction c)])
+ tac_zero_inf_pos
+ (rational_to_fraction c)]))
else
- tac1:=(Tacticals.thens ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_le_le)
+ (
+ debug("tac1 4\n");
+ tac1:=(Tacticals.thens ~start:(PrimitiveTactics.apply_tac ~term:_Rfourier_le_le)
~continuations:[!tac1;tac_use h;
- tac_zero_inf_pos goal
- (rational_to_fraction c)])));
+ tac_zero_inf_pos
+ (rational_to_fraction c)]))
+
+ )
+ );
s:=(!s)||(h.hstrict))
lutil;(*end List.iter*)
|_-> assert false)(*match (!lutil) *)
|_-> assert false); (*match res*)
- debug ("finalmente applico t1\n");
+ debug ("finalmente applico tac\n");
(!tac ~status:(proof,goal))
;;
projects / helm.git / commitdiff