set "baseuri" "cic:/matita/RELATIONAL-ARITHMETICS/add_props".
-include "nat_props.ma".
-include "add_defs.ma".
+include "add_fwd.ma".
-theorem add_gen_O_2: \forall p,r. add p O r \to p = r.
- intros. inversion H; clear H; intros;
- [ reflexivity
- | lapply eq_gen_O_S to H2 as H0. apply H0
- ].
-qed.
-
-theorem add_gen_S_2: \forall p,q,r. add p (S q) r \to
- \exists s. r = (S s) \land add p q s.
- intros. inversion H; clear H; intros;
- [ lapply eq_gen_S_O to H as H0. apply H0
- | lapply eq_gen_S_S to H2 as H0. clear H2.
- rewrite > H0. clear H0.
- apply ex_intro; [| auto ] (**)
- ].
-qed.
-
theorem add_O_1: \forall q. add O q q.
intros. elim q; clear q; auto.
qed.
theorem add_S_1: \forall p,q,r. add p q r \to add (S p) q (S r).
intros 2. elim q; clear q;
- [ lapply add_gen_O_2 to H as H0. clear H.
- rewrite > H0. clear H0. clear p
- | lapply add_gen_S_2 to H1 as H0. clear H1.
- decompose H0.
- rewrite > H2. clear H2. clear r
+ [ lapply linear add_gen_O_2 to H as H0.
+ rewrite > H0. clear H0 p
+ | lapply linear add_gen_S_2 to H1 as H0.
+ decompose.
+ rewrite > H2. clear H2 r
]; auto.
qed.
theorem add_sym: \forall p,q,r. add p q r \to add q p r.
intros 2. elim q; clear q;
- [ lapply add_gen_O_2 to H as H0. clear H.
- rewrite > H0. clear H0. clear p
- | lapply add_gen_S_2 to H1 as H0. clear H1.
- decompose H0.
- rewrite > H2. clear H2. clear r
+ [ lapply linear add_gen_O_2 to H as H0.
+ rewrite > H0. clear H0 p
+ | lapply linear add_gen_S_2 to H1 as H0.
+ decompose.
+ rewrite > H2. clear H2 r
]; auto.
qed.
theorem add_shift_S_sx: \forall p,q,r. add p (S q) r \to add (S p) q r.
intros.
- lapply add_gen_S_2 to H as H0. clear H.
- decompose H0.
- rewrite > H1. clear H1. clear r.
+ lapply linear add_gen_S_2 to H as H0.
+ decompose.
+ rewrite > H1. clear H1 r.
auto.
qed.
-theorem add_gen_O_1: \forall q,r. add O q r \to q = r.
- intros. auto.
-qed.
-
-theorem add_gen_S_1: \forall p,q,r. add (S p) q r \to
- \exists s. r = (S s) \land add p q s.
- intros. auto.
-qed.
-
theorem add_shift_S_dx: \forall p,q,r. add (S p) q r \to add p (S q) r.
intros.
- lapply add_gen_S_1 to H as H0. clear H.
- decompose H0.
- rewrite > H1. clear H1. clear r.
+ lapply linear add_gen_S_1 to H as H0.
+ decompose.
+ rewrite > H1. clear H1 r.
auto.
qed.
\forall q2,r2. add r1 q2 r2 \to
\exists q. add q1 q2 q \land add p q r2.
intros 2; elim q1; clear q1; intros;
- [ lapply add_gen_O_2 to H as H0. clear H.
- rewrite > H0. clear H0. clear p
- | lapply add_gen_S_2 to H1 as H0. clear H1.
- decompose H0.
- rewrite > H3. rewrite > H3 in H2. clear H3. clear r1.
- lapply add_gen_S_1 to H2 as H0. clear H2.
- decompose H0.
- rewrite > H2. clear H2. clear r2.
- lapply H to H4, H3 as H0. clear H. clear H4. clear H3.
- decompose H0.
+ [ lapply linear add_gen_O_2 to H as H0.
+ rewrite > H0. clear H0 p
+ | lapply linear add_gen_S_2 to H1 as H0.
+ decompose.
+ rewrite > H3. rewrite > H3 in H2. clear H3 r1.
+ lapply linear add_gen_S_1 to H2 as H0.
+ decompose.
+ rewrite > H2. clear H2 r2.
+ lapply linear H to H4, H3 as H0.
+ decompose.
]; apply ex_intro; [| auto || auto ]. (**)
qed.
\forall p2,r2. add p2 r1 r2 \to
\exists p. add p1 p2 p \land add p q r2.
intros 2; elim q; clear q; intros;
- [ lapply add_gen_O_2 to H as H0. clear H.
- rewrite > H0. clear H0. clear p1
- | lapply add_gen_S_2 to H1 as H0. clear H1.
- decompose H0.
- rewrite > H3. rewrite > H3 in H2. clear H3. clear r1.
- lapply add_gen_S_2 to H2 as H0. clear H2.
- decompose H0.
- rewrite > H2. clear H2. clear r2.
- lapply H to H4, H3 as H0. clear H. clear H4. clear H3.
- decompose H0.
+ [ lapply linear add_gen_O_2 to H as H0.
+ rewrite > H0. clear H0 p1
+ | lapply linear add_gen_S_2 to H1 as H0.
+ decompose.
+ rewrite > H3. rewrite > H3 in H2. clear H3 r1.
+ lapply linear add_gen_S_2 to H2 as H0.
+ decompose.
+ rewrite > H2. clear H2 r2.
+ lapply linear H to H4, H3 as H0.
+ decompose.
]; apply ex_intro; [| auto || auto ]. (**)
qed.
theorem add_conf: \forall p,q,r1. add p q r1 \to
\forall r2. add p q r2 \to r1 = r2.
intros 2. elim q; clear q; intros;
- [ lapply add_gen_O_2 to H as H0. clear H.
- rewrite > H0 in H1. clear H0. clear p
- | lapply add_gen_S_2 to H1 as H0. clear H1.
- decompose H0.
- rewrite > H3. clear H3. clear r1.
- lapply add_gen_S_2 to H2 as H0. clear H2.
- decompose H0.
- rewrite > H2. clear H2. clear r2.
+ [ lapply linear add_gen_O_2 to H as H0.
+ rewrite > H0 in H1. clear H0 p
+ | lapply linear add_gen_S_2 to H1 as H0.
+ decompose.
+ rewrite > H3. clear H3 r1.
+ lapply linear add_gen_S_2 to H2 as H0.
+ decompose.
+ rewrite > H2. clear H2 r2.
]; auto.
qed.