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Diffstat (limited to 'theories7/Arith/Between.v')
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diff --git a/theories7/Arith/Between.v b/theories7/Arith/Between.v new file mode 100755 index 00000000..b3fef325 --- /dev/null +++ b/theories7/Arith/Between.v @@ -0,0 +1,185 @@ +(************************************************************************) +(* v * The Coq Proof Assistant / The Coq Development Team *) +(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *) +(* \VV/ **************************************************************) +(* // * This file is distributed under the terms of the *) +(* * GNU Lesser General Public License Version 2.1 *) +(************************************************************************) + +(*i $Id: Between.v,v 1.1.2.1 2004/07/16 19:31:23 herbelin Exp $ i*) + +Require Le. +Require Lt. + +V7only [Import nat_scope.]. +Open Local Scope nat_scope. + +Implicit Variables Type k,l,p,q,r:nat. + +Section Between. +Variables P,Q : nat -> Prop. + +Inductive between [k:nat] : nat -> Prop + := bet_emp : (between k k) + | bet_S : (l:nat)(between k l)->(P l)->(between k (S l)). + +Hint constr_between : arith v62 := Constructors between. + +Lemma bet_eq : (k,l:nat)(l=k)->(between k l). +Proof. +NewInduction 1; Auto with arith. +Qed. + +Hints Resolve bet_eq : arith v62. + +Lemma between_le : (k,l:nat)(between k l)->(le k l). +Proof. +NewInduction 1; Auto with arith. +Qed. +Hints Immediate between_le : arith v62. + +Lemma between_Sk_l : (k,l:nat)(between k l)->(le (S k) l)->(between (S k) l). +Proof. +NewInduction 1. +Intros; Absurd (le (S k) k); Auto with arith. +NewDestruct H; Auto with arith. +Qed. +Hints Resolve between_Sk_l : arith v62. + +Lemma between_restr : + (k,l,m:nat)(le k l)->(le l m)->(between k m)->(between l m). +Proof. +NewInduction 1; Auto with arith. +Qed. + +Inductive exists [k:nat] : nat -> Prop + := exists_S : (l:nat)(exists k l)->(exists k (S l)) + | exists_le: (l:nat)(le k l)->(Q l)->(exists k (S l)). + +Hint constr_exists : arith v62 := Constructors exists. + +Lemma exists_le_S : (k,l:nat)(exists k l)->(le (S k) l). +Proof. +NewInduction 1; Auto with arith. +Qed. + +Lemma exists_lt : (k,l:nat)(exists k l)->(lt k l). +Proof exists_le_S. +Hints Immediate exists_le_S exists_lt : arith v62. + +Lemma exists_S_le : (k,l:nat)(exists k (S l))->(le k l). +Proof. +Intros; Apply le_S_n; Auto with arith. +Qed. +Hints Immediate exists_S_le : arith v62. + +Definition in_int := [p,q,r:nat](le p r)/\(lt r q). + +Lemma in_int_intro : (p,q,r:nat)(le p r)->(lt r q)->(in_int p q r). +Proof. +Red; Auto with arith. +Qed. +Hints Resolve in_int_intro : arith v62. + +Lemma in_int_lt : (p,q,r:nat)(in_int p q r)->(lt p q). +Proof. +NewInduction 1; Intros. +Apply le_lt_trans with r; Auto with arith. +Qed. + +Lemma in_int_p_Sq : + (p,q,r:nat)(in_int p (S q) r)->((in_int p q r) \/ <nat>r=q). +Proof. +NewInduction 1; Intros. +Elim (le_lt_or_eq r q); Auto with arith. +Qed. + +Lemma in_int_S : (p,q,r:nat)(in_int p q r)->(in_int p (S q) r). +Proof. +NewInduction 1;Auto with arith. +Qed. +Hints Resolve in_int_S : arith v62. + +Lemma in_int_Sp_q : (p,q,r:nat)(in_int (S p) q r)->(in_int p q r). +Proof. +NewInduction 1; Auto with arith. +Qed. +Hints Immediate in_int_Sp_q : arith v62. + +Lemma between_in_int : (k,l:nat)(between k l)->(r:nat)(in_int k l r)->(P r). +Proof. +NewInduction 1; Intros. +Absurd (lt k k); Auto with arith. +Apply in_int_lt with r; Auto with arith. +Elim (in_int_p_Sq k l r); Intros; Auto with arith. +Rewrite H2; Trivial with arith. +Qed. + +Lemma in_int_between : + (k,l:nat)(le k l)->((r:nat)(in_int k l r)->(P r))->(between k l). +Proof. +NewInduction 1; Auto with arith. +Qed. + +Lemma exists_in_int : + (k,l:nat)(exists k l)->(EX m:nat | (in_int k l m) & (Q m)). +Proof. +NewInduction 1. +Case IHexists; Intros p inp Qp; Exists p; Auto with arith. +Exists l; Auto with arith. +Qed. + +Lemma in_int_exists : (k,l,r:nat)(in_int k l r)->(Q r)->(exists k l). +Proof. +NewDestruct 1; Intros. +Elim H0; Auto with arith. +Qed. + +Lemma between_or_exists : + (k,l:nat)(le k l)->((n:nat)(in_int k l n)->((P n)\/(Q n))) + ->((between k l)\/(exists k l)). +Proof. +NewInduction 1; Intros; Auto with arith. +Elim IHle; Intro; Auto with arith. +Elim (H0 m); Auto with arith. +Qed. + +Lemma between_not_exists : (k,l:nat)(between k l)-> + ((n:nat)(in_int k l n) -> (P n) -> ~(Q n)) + -> ~(exists k l). +Proof. +NewInduction 1; Red; Intros. +Absurd (lt k k); Auto with arith. +Absurd (Q l); Auto with arith. +Elim (exists_in_int k (S l)); Auto with arith; Intros l' inl' Ql'. +Replace l with l'; Auto with arith. +Elim inl'; Intros. +Elim (le_lt_or_eq l' l); Auto with arith; Intros. +Absurd (exists k l); Auto with arith. +Apply in_int_exists with l'; Auto with arith. +Qed. + +Inductive P_nth [init:nat] : nat->nat->Prop + := nth_O : (P_nth init init O) + | nth_S : (k,l:nat)(n:nat)(P_nth init k n)->(between (S k) l) + ->(Q l)->(P_nth init l (S n)). + +Lemma nth_le : (init,l,n:nat)(P_nth init l n)->(le init l). +Proof. +NewInduction 1; Intros; Auto with arith. +Apply le_trans with (S k); Auto with arith. +Qed. + +Definition eventually := [n:nat](EX k:nat | (le k n) & (Q k)). + +Lemma event_O : (eventually O)->(Q O). +Proof. +NewInduction 1; Intros. +Replace O with x; Auto with arith. +Qed. + +End Between. + +Hints Resolve nth_O bet_S bet_emp bet_eq between_Sk_l exists_S exists_le + in_int_S in_int_intro : arith v62. +Hints Immediate in_int_Sp_q exists_le_S exists_S_le : arith v62. |