- new library/logic/coimplication.ma uses new decompose tactic

[helm.git] / helm / software / matita / contribs / CoRN-Decl / reals / Max_AbsIR.ma
diff --git a/helm/software/matita/contribs/CoRN-Decl/reals/Max_AbsIR.ma b/helm/software/matita/contribs/CoRN-Decl/reals/Max_AbsIR.ma

index 7a1e016b4c3fe2a6e4b1f71dca0e232c8c504f2d..6c3b89c8d26e937db963d80bc0e5d54368604a06 100644 (file)
--- a/helm/software/matita/contribs/CoRN-Decl/reals/Max_AbsIR.ma
+++ b/helm/software/matita/contribs/CoRN-Decl/reals/Max_AbsIR.ma
@@ -16,22 +16,22 @@
  
  set "baseuri" "cic:/matita/CoRN-Decl/reals/Max_AbsIR".
  
+include "CoRN.ma".
+
  (* $Id: Max_AbsIR.v,v 1.13 2004/04/23 10:01:04 lcf Exp $ *)
  
  (*#* printing Max %\ensuremath{\max}% *)
  
  (*#* printing Min %\ensuremath{\min}% *)
  
-(* INCLUDE
-CauchySeq
-*)
+include "reals/CauchySeq.ma".
  
  (* UNEXPORTED
-Section Maximum.
+Section Maximum
  *)
  
  (* UNEXPORTED
-Section Max_function.
+Section Max_function
  *)
  
  (*#* ** Maximum, Minimum and Absolute Value
@@ -42,19 +42,19 @@ Let [x] and [y] be reals
  %\end{convention}%
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/x.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Maximum/Max_function/x.var" "Maximum__Max_function__".
  
-inline cic:/CoRN/reals/Max_AbsIR/y.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Maximum/Max_function/y.var" "Maximum__Max_function__".
  
-inline cic:/CoRN/reals/Max_AbsIR/Max_seq.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max_seq.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Max_seq_char.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max_seq_char.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Cauchy_Max_seq.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Cauchy_Max_seq.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Max_CauchySeq.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max_CauchySeq.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/MAX.con.
+inline "cic:/CoRN/reals/Max_AbsIR/MAX.con".
  
  (*#*
  Constructively, the elementary properties of the maximum function are:
@@ -70,64 +70,64 @@ With strong extensionality, we can make the binary operation [Max].
  (So [Max] is [MAX] coupled with some proofs.)
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/lft_leEq_MAX.con.
+inline "cic:/CoRN/reals/Max_AbsIR/lft_leEq_MAX.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/rht_leEq_MAX.con.
+inline "cic:/CoRN/reals/Max_AbsIR/rht_leEq_MAX.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/less_MAX_imp.con.
+inline "cic:/CoRN/reals/Max_AbsIR/less_MAX_imp.con".
  
  (* UNEXPORTED
-End Max_function.
+End Max_function
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/MAX_strext.con.
+inline "cic:/CoRN/reals/Max_AbsIR/MAX_strext.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/MAX_wd.con.
+inline "cic:/CoRN/reals/Max_AbsIR/MAX_wd.con".
  
  (* UNEXPORTED
-Section properties_of_Max.
+Section properties_of_Max
  *)
  
  (*#* *** Maximum *)
  
-inline cic:/CoRN/reals/Max_AbsIR/Max.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Max_wd_unfolded.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max_wd_unfolded.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/lft_leEq_Max.con.
+inline "cic:/CoRN/reals/Max_AbsIR/lft_leEq_Max.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/rht_leEq_Max.con.
+inline "cic:/CoRN/reals/Max_AbsIR/rht_leEq_Max.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/less_Max_imp.con.
+inline "cic:/CoRN/reals/Max_AbsIR/less_Max_imp.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Max_leEq.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max_leEq.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Max_less.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max_less.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/equiv_imp_eq_max.con.
+inline "cic:/CoRN/reals/Max_AbsIR/equiv_imp_eq_max.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Max_id.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max_id.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Max_comm.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max_comm.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/leEq_imp_Max_is_rht.con.
+inline "cic:/CoRN/reals/Max_AbsIR/leEq_imp_Max_is_rht.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Max_is_rht_imp_leEq.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max_is_rht_imp_leEq.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Max_minus_eps_leEq.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Max_minus_eps_leEq.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/max_one_ap_zero.con.
+inline "cic:/CoRN/reals/Max_AbsIR/max_one_ap_zero.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/pos_max_one.con.
+inline "cic:/CoRN/reals/Max_AbsIR/pos_max_one.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/x_div_Max_leEq_x.con.
+inline "cic:/CoRN/reals/Max_AbsIR/x_div_Max_leEq_x.con".
  
  (* UNEXPORTED
-End properties_of_Max.
+End properties_of_Max
  *)
  
  (* UNEXPORTED
-End Maximum.
+End Maximum
  *)
  
  (* UNEXPORTED
@@ -135,7 +135,7 @@ Hint Resolve Max_id: algebra.
  *)
  
  (* UNEXPORTED
-Section Minimum.
+Section Minimum
  *)
  
  (*#* *** Mininum
@@ -144,134 +144,134 @@ The minimum is defined by the formula
  [Min(x,y) [=] [--]Max( [--]x,[--]y)].
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/MIN.con.
+inline "cic:/CoRN/reals/Max_AbsIR/MIN.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/MIN_wd.con.
+inline "cic:/CoRN/reals/Max_AbsIR/MIN_wd.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/MIN_strext.con.
+inline "cic:/CoRN/reals/Max_AbsIR/MIN_strext.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_wd_unfolded.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_wd_unfolded.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_strext_unfolded.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_strext_unfolded.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_leEq_lft.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_leEq_lft.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_leEq_rht.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_leEq_rht.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_less_imp.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_less_imp.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/leEq_Min.con.
+inline "cic:/CoRN/reals/Max_AbsIR/leEq_Min.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/less_Min.con.
+inline "cic:/CoRN/reals/Max_AbsIR/less_Min.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/equiv_imp_eq_min.con.
+inline "cic:/CoRN/reals/Max_AbsIR/equiv_imp_eq_min.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_id.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_id.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_comm.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_comm.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/leEq_imp_Min_is_lft.con.
+inline "cic:/CoRN/reals/Max_AbsIR/leEq_imp_Min_is_lft.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_is_lft_imp_leEq.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_is_lft_imp_leEq.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/leEq_Min_plus_eps.con.
+inline "cic:/CoRN/reals/Max_AbsIR/leEq_Min_plus_eps.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/a.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Minimum/a.var" "Minimum__".
  
-inline cic:/CoRN/reals/Max_AbsIR/b.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Minimum/b.var" "Minimum__".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_leEq_Max.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_leEq_Max.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_leEq_Max'.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_leEq_Max'.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min3_leEq_Max3.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min3_leEq_Max3.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_less_Max.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_less_Max.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/ap_imp_Min_less_Max.con.
+inline "cic:/CoRN/reals/Max_AbsIR/ap_imp_Min_less_Max.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Min_less_Max_imp_ap.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Min_less_Max_imp_ap.con".
  
  (* UNEXPORTED
-End Minimum.
+End Minimum
  *)
  
  (*#**********************************)
  
  (* UNEXPORTED
-Section Absolute.
+Section Absolute
  *)
  
  (*#**********************************)
  
  (*#* *** Absolute value *)
  
-inline cic:/CoRN/reals/Max_AbsIR/ABSIR.con.
+inline "cic:/CoRN/reals/Max_AbsIR/ABSIR.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/ABSIR_strext.con.
+inline "cic:/CoRN/reals/Max_AbsIR/ABSIR_strext.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/ABSIR_wd.con.
+inline "cic:/CoRN/reals/Max_AbsIR/ABSIR_wd.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_wd.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_wd.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_wdl.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_wdl.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_wdr.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_wdr.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIRz_isz.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIRz_isz.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_nonneg.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_nonneg.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_pos.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_pos.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_cancel_ap_zero.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_cancel_ap_zero.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_resp_ap_zero.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_resp_ap_zero.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/leEq_AbsIR.con.
+inline "cic:/CoRN/reals/Max_AbsIR/leEq_AbsIR.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/inv_leEq_AbsIR.con.
+inline "cic:/CoRN/reals/Max_AbsIR/inv_leEq_AbsIR.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsSmall_e.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsSmall_e.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsSmall_imp_AbsIR.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsSmall_imp_AbsIR.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_eq_AbsSmall.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_eq_AbsSmall.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_imp_AbsSmall.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_imp_AbsSmall.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsSmall_transitive.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsSmall_transitive.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/zero_less_AbsIR_plus_one.con.
+inline "cic:/CoRN/reals/Max_AbsIR/zero_less_AbsIR_plus_one.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_inv.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_inv.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_minus.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_minus.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_eq_x.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_eq_x.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_eq_inv_x.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_eq_inv_x.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/less_AbsIR.con.
+inline "cic:/CoRN/reals/Max_AbsIR/less_AbsIR.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/leEq_distr_AbsIR.con.
+inline "cic:/CoRN/reals/Max_AbsIR/leEq_distr_AbsIR.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_approach_zero.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_approach_zero.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_eq_zero.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_eq_zero.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/Abs_Max.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Abs_Max.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_str_bnd.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_str_bnd.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/AbsIR_bnd.con.
+inline "cic:/CoRN/reals/Max_AbsIR/AbsIR_bnd.con".
  
  (* UNEXPORTED
-End Absolute.
+End Absolute
  *)
  
  (* UNEXPORTED
@@ -279,7 +279,7 @@ Hint Resolve AbsIRz_isz: algebra.
  *)
  
  (* UNEXPORTED
-Section Part_Function_Max.
+Section Part_Function_Max
  *)
  
  (*#* *** Functional Operators
@@ -291,87 +291,87 @@ Let [F,G:PartIR] and denote by [P] and [Q] their respective domains.
  %\end{convention}%
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/F.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Part_Function_Max/F.var" "Part_Function_Max__".
  
-inline cic:/CoRN/reals/Max_AbsIR/G.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Part_Function_Max/G.var" "Part_Function_Max__".
  
  (* begin hide *)
  
-inline cic:/CoRN/reals/Max_AbsIR/P.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Part_Function_Max/P.con" "Part_Function_Max__".
  
-inline cic:/CoRN/reals/Max_AbsIR/Q.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Part_Function_Max/Q.con" "Part_Function_Max__".
  
  (* end hide *)
  
-inline cic:/CoRN/reals/Max_AbsIR/part_function_Max_strext.con.
+inline "cic:/CoRN/reals/Max_AbsIR/part_function_Max_strext.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/FMax.con.
+inline "cic:/CoRN/reals/Max_AbsIR/FMax.con".
  
  (* UNEXPORTED
-End Part_Function_Max.
+End Part_Function_Max
  *)
  
  (* UNEXPORTED
-Section Part_Function_Abs.
+Section Part_Function_Abs
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/F.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Part_Function_Abs/F.var" "Part_Function_Abs__".
  
-inline cic:/CoRN/reals/Max_AbsIR/G.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Part_Function_Abs/G.var" "Part_Function_Abs__".
  
  (* begin hide *)
  
-inline cic:/CoRN/reals/Max_AbsIR/P.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Part_Function_Abs/P.con" "Part_Function_Abs__".
  
-inline cic:/CoRN/reals/Max_AbsIR/Q.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Part_Function_Abs/Q.con" "Part_Function_Abs__".
  
  (* end hide *)
  
-inline cic:/CoRN/reals/Max_AbsIR/FMin.con.
+inline "cic:/CoRN/reals/Max_AbsIR/FMin.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/FAbs.con.
+inline "cic:/CoRN/reals/Max_AbsIR/FAbs.con".
  
  (* UNEXPORTED
  Opaque Max.
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/FMin_char.con.
+inline "cic:/CoRN/reals/Max_AbsIR/FMin_char.con".
  
  (* UNEXPORTED
  Transparent Max.
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/FAbs_char.con.
+inline "cic:/CoRN/reals/Max_AbsIR/FAbs_char.con".
  
  (* UNEXPORTED
-End Part_Function_Abs.
+End Part_Function_Abs
  *)
  
  (* UNEXPORTED
  Hint Resolve FAbs_char: algebra.
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/FAbs_char'.con.
+inline "cic:/CoRN/reals/Max_AbsIR/FAbs_char'.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/FAbs_nonneg.con.
+inline "cic:/CoRN/reals/Max_AbsIR/FAbs_nonneg.con".
  
  (* UNEXPORTED
  Hint Resolve FAbs_char': algebra.
  *)
  
  (* UNEXPORTED
-Section Inclusion.
+Section Inclusion
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/F.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Inclusion/F.var" "Inclusion__".
  
-inline cic:/CoRN/reals/Max_AbsIR/G.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Inclusion/G.var" "Inclusion__".
  
  (* begin hide *)
  
-inline cic:/CoRN/reals/Max_AbsIR/P.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Inclusion/P.con" "Inclusion__".
  
-inline cic:/CoRN/reals/Max_AbsIR/Q.con.
+inline "cic:/CoRN/reals/Max_AbsIR/Inclusion/Q.con" "Inclusion__".
  
  (* end hide *)
  
@@ -380,26 +380,26 @@ inline cic:/CoRN/reals/Max_AbsIR/Q.con.
  %\end{convention}%
  *)
  
-inline cic:/CoRN/reals/Max_AbsIR/R.var.
+inline "cic:/CoRN/reals/Max_AbsIR/Inclusion/R.var" "Inclusion__".
  
-inline cic:/CoRN/reals/Max_AbsIR/included_FMax.con.
+inline "cic:/CoRN/reals/Max_AbsIR/included_FMax.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/included_FMax'.con.
+inline "cic:/CoRN/reals/Max_AbsIR/included_FMax'.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/included_FMax''.con.
+inline "cic:/CoRN/reals/Max_AbsIR/included_FMax''.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/included_FMin.con.
+inline "cic:/CoRN/reals/Max_AbsIR/included_FMin.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/included_FMin'.con.
+inline "cic:/CoRN/reals/Max_AbsIR/included_FMin'.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/included_FMin''.con.
+inline "cic:/CoRN/reals/Max_AbsIR/included_FMin''.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/included_FAbs.con.
+inline "cic:/CoRN/reals/Max_AbsIR/included_FAbs.con".
  
-inline cic:/CoRN/reals/Max_AbsIR/included_FAbs'.con.
+inline "cic:/CoRN/reals/Max_AbsIR/included_FAbs'.con".
  
  (* UNEXPORTED
-End Inclusion.
+End Inclusion
  *)
  
  (* UNEXPORTED