set "baseuri" "cic:/matita/CoRN-Decl/model/monoids/Zmonoid".
+include "CoRN.ma".
+
(* $Id: Zmonoid.v,v 1.6 2004/04/08 08:20:33 lcf Exp $ *)
-(* INCLUDE
-Zsemigroup
-*)
+include "model/semigroups/Zsemigroup.ma".
-(* INCLUDE
-CMonoids
-*)
+include "algebra/CMonoids.ma".
(*#* **Examples of monoids: $\langle$#⟨#[Z],[[+]]$\rangle$#⟩# and $\langle$#⟨#[Z],[[*]]$\rangle$#⟩#
***$\langle$#⟨#[Z],[[+]]$\rangle$#⟩#
unit of monoid:
*)
-inline cic:/CoRN/model/monoids/Zmonoid/ZERO_as_rht_unit.con.
+inline "cic:/CoRN/model/monoids/Zmonoid/ZERO_as_rht_unit.con".
-inline cic:/CoRN/model/monoids/Zmonoid/ZERO_as_lft_unit.con.
+inline "cic:/CoRN/model/monoids/Zmonoid/ZERO_as_lft_unit.con".
-inline cic:/CoRN/model/monoids/Zmonoid/Z_is_CMonoid.con.
+inline "cic:/CoRN/model/monoids/Zmonoid/Z_is_CMonoid.con".
-inline cic:/CoRN/model/monoids/Zmonoid/Z_as_CMonoid.con.
+inline "cic:/CoRN/model/monoids/Zmonoid/Z_as_CMonoid.con".
(*#* The term [Z_as_CMonoid] is of type [CMonoid]. Hence we have proven that [Z] is a constructive monoid.
the representation we have for integers.
*)
-inline cic:/CoRN/model/monoids/Zmonoid/ONE_as_rht_unit.con.
+inline "cic:/CoRN/model/monoids/Zmonoid/ONE_as_rht_unit.con".
-inline cic:/CoRN/model/monoids/Zmonoid/ONE_as_lft_unit.con.
+inline "cic:/CoRN/model/monoids/Zmonoid/ONE_as_lft_unit.con".
-inline cic:/CoRN/model/monoids/Zmonoid/Z_mul_is_CMonoid.con.
+inline "cic:/CoRN/model/monoids/Zmonoid/Z_mul_is_CMonoid.con".
-inline cic:/CoRN/model/monoids/Zmonoid/Z_mul_as_CMonoid.con.
+inline "cic:/CoRN/model/monoids/Zmonoid/Z_mul_as_CMonoid.con".
(*#* The term [Z_mul_as_CMonoid] is another term of type [CMonoid]. *)