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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2010 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*i $Id$ i*)
(** THIS FILE IS DEPRECATED. Use [Zminmax] instead. *)
Require Export BinInt Zorder Zminmax.
Open Local Scope Z_scope.
(** [Zmax] is now [Zminmax.Zmax]. Code that do things like
[unfold Zmin.Zmin] will have to be adapted, and neither
a [Definition] or a [Notation] here can help much. *)
(** * Characterization of maximum on binary integer numbers *)
Definition Zmax_case := Z.max_case.
Definition Zmax_case_strong := Z.max_case_strong.
Lemma Zmax_spec : forall x y,
x >= y /\ Zmax x y = x \/ x < y /\ Zmax x y = y.
Proof.
intros x y. rewrite Zge_iff_le. destruct (Z.max_spec x y); auto.
Qed.
Lemma Zmax_left : forall n m, n>=m -> Zmax n m = n.
Proof. intros x y. rewrite Zge_iff_le. apply Zmax_l. Qed.
Definition Zmax_right : forall n m, n<=m -> Zmax n m = m := Zmax_r.
(** * Least upper bound properties of max *)
Definition Zle_max_l : forall n m, n <= Zmax n m := Z.le_max_l.
Definition Zle_max_r : forall n m, m <= Zmax n m := Z.le_max_r.
Definition Zmax_lub : forall n m p, n <= p -> m <= p -> Zmax n m <= p
:= Z.max_lub.
Definition Zmax_lub_lt : forall n m p:Z, n < p -> m < p -> Zmax n m < p
:= Z.max_lub_lt.
(** * Compatibility with order *)
Definition Zle_max_compat_r : forall n m p, n <= m -> Zmax n p <= Zmax m p
:= Z.max_le_compat_r.
Definition Zle_max_compat_l : forall n m p, n <= m -> Zmax p n <= Zmax p m
:= Z.max_le_compat_l.
(** * Semi-lattice properties of max *)
Definition Zmax_idempotent : forall n, Zmax n n = n := Z.max_id.
Definition Zmax_comm : forall n m, Zmax n m = Zmax m n := Z.max_comm.
Definition Zmax_assoc : forall n m p, Zmax n (Zmax m p) = Zmax (Zmax n m) p
:= Z.max_assoc.
(** * Additional properties of max *)
Lemma Zmax_irreducible_dec : forall n m, {Zmax n m = n} + {Zmax n m = m}.
Proof. exact Z.max_dec. Qed.
Definition Zmax_le_prime : forall n m p, p <= Zmax n m -> p <= n \/ p <= m
:= Z.max_le.
(** * Operations preserving max *)
Definition Zsucc_max_distr :
forall n m:Z, Zsucc (Zmax n m) = Zmax (Zsucc n) (Zsucc m)
:= Z.succ_max_distr.
Definition Zplus_max_distr_l : forall n m p:Z, Zmax (p + n) (p + m) = p + Zmax n m
:= Z.plus_max_distr_l.
Definition Zplus_max_distr_r : forall n m p:Z, Zmax (n + p) (m + p) = Zmax n m + p
:= Z.plus_max_distr_r.
(** * Maximum and Zpos *)
Definition Zpos_max : forall p q, Zpos (Pmax p q) = Zmax (Zpos p) (Zpos q)
:= Z.pos_max.
Definition Zpos_max_1 : forall p, Zmax 1 (Zpos p) = Zpos p
:= Z.pos_max_1.
(** * Characterization of Pminus in term of Zminus and Zmax *)
Definition Zpos_minus :
forall p q, Zpos (Pminus p q) = Zmax 1 (Zpos p - Zpos q)
:= Zpos_minus.
(* begin hide *)
(* Compatibility *)
Notation Zmax1 := Zle_max_l (only parsing).
Notation Zmax2 := Zle_max_r (only parsing).
Notation Zmax_irreducible_inf := Zmax_irreducible_dec (only parsing).
Notation Zmax_le_prime_inf := Zmax_le_prime (only parsing).
(* end hide *)
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