let rec div2 n ≝
match n with
-[ O ⇒ \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,1,0)"\ 6O\ 5/a\ 6,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,2,0)"\ 6ff\ 5/a\ 6〉
+[ O ⇒ \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,1,0)"\ 6O\ 5/a\ 6\ 5span class="error" title="Parse error: [sym,] expected after [term level 19] (in [term])"\ 6\ 5/span\ 6,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,2,0)"\ 6ff\ 5/a\ 6〉
| S a ⇒ \ 5span style="text-decoration: underline;"\ 6\ 5/span\ 6
let p ≝ (div2 a) in
- match (\ 5a href="cic:/matita/basics/types/snd.def(1)"\ 6snd\ 5/a\ 6 … p) with
- [ tt ⇒ \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,2,0)"\ 6S\ 5/a\ 6 (\ 5a href="cic:/matita/basics/types/fst.def(1)"\ 6fst\ 5/a\ 6 … p),\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,2,0)"\ 6ff\ 5/a\ 6〉
- | ff ⇒ \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/basics/types/fst.def(1)"\ 6fst\ 5/a\ 6 … p, \ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,1,0)"\ 6tt\ 5/a\ 6〉
+ match (\ 5a href="cic:/matita/basics/types/snd.fix(0,2,1)"\ 6snd\ 5/a\ 6\ 5span class="error" title="Parse error: SYMBOL ':' or RPAREN expected after [term] (in [term])"\ 6\ 5/span\ 6 … p) with
+ [ tt ⇒ \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,2,0)"\ 6S\ 5/a\ 6 (\ 5a href="cic:/matita/basics/types/fst.fix(0,2,1)"\ 6fst\ 5/a\ 6 … p),\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,2,0)"\ 6ff\ 5/a\ 6〉
+ | ff ⇒ \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/basics/types/fst.fix(0,2,1)"\ 6fst\ 5/a\ 6 … p, \ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,1,0)"\ 6tt\ 5/a\ 6〉
]
].
Let us now prove that our div2 function has the expected behaviour.
*)
-lemma surjective_pairing: ∀A,B.∀p:A\ 5a title="Product" href="cic:/fakeuri.def(1)"\ 6×\ 5/a\ 6B. p \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/basics/types/fst.def(1)"\ 6fst\ 5/a\ 6 … p,\ 5a title="pair pi2" href="cic:/fakeuri.def(1)"\ 6\snd\ 5/a\ 6 … p〉.
+lemma surjective_pairing: ∀A,B.∀p:A\ 5a title="Product" href="cic:/fakeuri.def(1)"\ 6×\ 5/a\ 6B. p \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/basics/types/fst.fix(0,2,1)"\ 6fst\ 5/a\ 6 … p,\ 5a title="pair pi2" href="cic:/fakeuri.def(1)"\ 6\snd\ 5/a\ 6\ 5span class="error" title="Parse error: [sym〉] or [sym,] expected after [term level 19] (in [term])"\ 6\ 5/span\ 6 … p〉.
#A #B * // qed.
lemma div2SO: ∀n,q. \ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 n \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6q,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,2,0)"\ 6ff\ 5/a\ 6〉 → \ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 (\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,2,0)"\ 6S\ 5/a\ 6 n) \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5span style="text-decoration: underline;"\ 6\ 5/span\ 6q,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,1,0)"\ 6tt\ 5/a\ 6〉.
#n #q #H normalize >H normalize // qed.
-lemma div2S1: ∀n,q. \ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 n \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6q,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,1,0)"\ 6tt\ 5/a\ 6〉 → \ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 (\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,2,0)"\ 6S\ 5/a\ 6 n) \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,2,0)"\ 6S\ 5/a\ 6 q,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,2,0)"\ 6ff\ 5/a\ 6〉.
+lemma div2S1: ∀n,q. \ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 n \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6q,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,1,0)"\ 6tt\ 5/a\ 6〉 → \ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 (\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,2,0)"\ 6S\ 5/a\ 6 n) \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6\ 5span class="error" title="Parse error: [term] expected after [sym=] (in [term])"\ 6\ 5/span\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,2,0)"\ 6S\ 5/a\ 6 q,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,2,0)"\ 6ff\ 5/a\ 6〉.
#n #q #H normalize >H normalize // qed.
lemma div2_ok: ∀n,q,r. \ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 n \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6q,r〉 → n \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a href="cic:/matita/tutorial/chapter2/add.fix(0,0,1)"\ 6add\ 5/a\ 6 (\ 5a href="cic:/matita/tutorial/chapter2/twice.def(2)"\ 6twice\ 5/a\ 6 q) (\ 5a href="cic:/matita/tutorial/chapter2/nat_of_bool.def(1)"\ 6nat_of_bool\ 5/a\ 6 r).
#n elim n
[#q #r normalize #H destruct //
|#a #Hind #q #r
- cut (\ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 a \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/basics/types/fst.def(1)"\ 6fst\ 5/a\ 6 … (\ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 a), \ 5a href="cic:/matita/basics/types/snd.def(1)"\ 6snd\ 5/a\ 6 … (\ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 a)〉) [//]
- cases (\ 5a href="cic:/matita/basics/types/snd.def(1)"\ 6snd\ 5/a\ 6 … (\ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 a))
+ cut (\ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 a \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/basics/types/fst.fix(0,2,1)"\ 6fst\ 5/a\ 6 … (\ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 a), \ 5a href="cic:/matita/basics/types/snd.fix(0,2,1)"\ 6snd\ 5/a\ 6 … (\ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 a)〉) [//]
+ cases (\ 5a href="cic:/matita/basics/types/snd.fix(0,2,1)"\ 6snd\ 5/a\ 6 … (\ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 a))
[#H >(\ 5a href="cic:/matita/tutorial/chapter2/div2S1.def(3)"\ 6div2S1\ 5/a\ 6 … H) #H1 destruct @\ 5a href="cic:/matita/basics/logic/eq_f.def(3)"\ 6eq_f\ 5/a\ 6 \ 5span style="text-decoration: underline;"\ 6>\ 5/span\ 6\ 5a href="cic:/matita/tutorial/chapter2/add_S.def(2)"\ 6add_S\ 5/a\ 6 whd in ⊢ (???%); <\ 5a href="cic:/matita/tutorial/chapter2/add_S.def(2)"\ 6add_S\ 5/a\ 6 @(Hind … H)
|#H >(\ 5a href="cic:/matita/tutorial/chapter2/div2SO.def(3)"\ 6div2SO\ 5/a\ 6 … H) #H1 destruct >\ 5a href="cic:/matita/tutorial/chapter2/add_S.def(2)"\ 6add_S\ 5/a\ 6 @\ 5a href="cic:/matita/basics/logic/eq_f.def(3)"\ 6eq_f\ 5/a\ 6 @(Hind … H)
]
(* We can now construct a function from n to {p|qr_spec n p} by composing the objects
we already have *)
-definition div2P: ∀n.\ 5a href="cic:/matita/tutorial/chapter2/Sub.ind(1,0,2)"\ 6 Sub\ 5/a\ 6 (\ 5a href="cic:/matita/tutorial/chapter2/nat.ind(1,0,0)"\ 6nat\ 5/a\ 6\ 5a title="Product" href="cic:/fakeuri.def(1)"\ 6×\ 5/a\ 6\ 5span style="text-decoration: underline;"\ 6\ 5a href="cic:/matita/tutorial/chapter2/bool.ind(1,0,0)"\ 6bool\ 5/a\ 6\ 5/span\ 6) (\ 5a href="cic:/matita/tutorial/chapter2/qr_spec.def(3)"\ 6qr_spec\ 5/a\ 6 n) ≝ λn.
+definition div2P: ∀n. \ 5a href="cic:/matita/tutorial/chapter2/Sub.ind(1,0,2)"\ 6Sub\ 5/a\ 6 (\ 5a href="cic:/matita/tutorial/chapter2/nat.ind(1,0,0)"\ 6nat\ 5/a\ 6\ 5a title="Product" href="cic:/fakeuri.def(1)"\ 6×\ 5/a\ 6\ 5span style="text-decoration: underline;"\ 6\ 5a href="cic:/matita/tutorial/chapter2/bool.ind(1,0,0)"\ 6bool\ 5/a\ 6\ 5/span\ 6) (\ 5a href="cic:/matita/tutorial/chapter2/qr_spec.def(3)"\ 6qr_spec\ 5/a\ 6 n) ≝ λn.
\ 5a href="cic:/matita/tutorial/chapter2/Sub.con(0,1,2)"\ 6mk_Sub\ 5/a\ 6 ?? (\ 5a href="cic:/matita/tutorial/chapter2/div2.fix(0,0,2)"\ 6div2\ 5/a\ 6 n) (\ 5a href="cic:/matita/tutorial/chapter2/div2_ok.def(4)"\ 6div2_ok\ 5/a\ 6 n).
(* But we can also try do directly build such an object *)
#n elim n
[@(\ 5a href="cic:/matita/tutorial/chapter2/Sub.con(0,1,2)"\ 6mk_Sub\ 5/a\ 6 … \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,1,0)"\ 6O\ 5/a\ 6,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,2,0)"\ 6ff\ 5/a\ 6〉) normalize #q #r #H destruct //
|#a * #p #qrspec
- cut (p \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/basics/types/fst.def(1)"\ 6fst\ 5/a\ 6 … p, \ 5a href="cic:/matita/basics/types/snd.def(1)"\ 6snd\ 5/a\ 6 … p〉) [//]
- cases (\ 5a href="cic:/matita/basics/types/snd.def(1)"\ 6snd\ 5/a\ 6 … p)
- [#H @(\ 5a href="cic:/matita/tutorial/chapter2/Sub.con(0,1,2)"\ 6mk_Sub\ 5/a\ 6 … \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,2,0)"\ 6S\ 5/a\ 6 (\ 5a href="cic:/matita/basics/types/fst.def(1)"\ 6fst\ 5/a\ 6 … p),\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,2,0)"\ 6ff\ 5/a\ 6〉) whd #q #r #H1 destruct @\ 5a href="cic:/matita/basics/logic/eq_f.def(3)"\ 6eq_f\ 5/a\ 6 \ 5span style="text-decoration: underline;"\ 6>\ 5/span\ 6\ 5a href="cic:/matita/tutorial/chapter2/add_S.def(2)"\ 6add_S\ 5/a\ 6
+ cut (p \ 5a title="leibnitz's equality" href="cic:/fakeuri.def(1)"\ 6=\ 5/a\ 6 \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/basics/types/fst.fix(0,2,1)"\ 6fst\ 5/a\ 6 … p, \ 5a href="cic:/matita/basics/types/snd.fix(0,2,1)"\ 6snd\ 5/a\ 6 … p〉) [//]
+ cases (\ 5a href="cic:/matita/basics/types/snd.fix(0,2,1)"\ 6snd\ 5/a\ 6 … p)
+ [#H @(\ 5a href="cic:/matita/tutorial/chapter2/Sub.con(0,1,2)"\ 6mk_Sub\ 5/a\ 6 … \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/tutorial/chapter2/nat.con(0,2,0)"\ 6S\ 5/a\ 6 (\ 5a href="cic:/matita/basics/types/fst.fix(0,2,1)"\ 6fst\ 5/a\ 6 … p),\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,2,0)"\ 6ff\ 5/a\ 6〉) whd #q #r #H1 destruct @\ 5a href="cic:/matita/basics/logic/eq_f.def(3)"\ 6eq_f\ 5/a\ 6 \ 5span style="text-decoration: underline;"\ 6>\ 5/span\ 6\ 5a href="cic:/matita/tutorial/chapter2/add_S.def(2)"\ 6add_S\ 5/a\ 6
whd in ⊢ (???%); <\ 5a href="cic:/matita/tutorial/chapter2/add_S.def(2)"\ 6add_S\ 5/a\ 6 @(qrspec … H)
- |#H @(\ 5a href="cic:/matita/tutorial/chapter2/Sub.con(0,1,2)"\ 6mk_Sub\ 5/a\ 6 … \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/basics/types/fst.def(1)"\ 6fst\ 5/a\ 6 … p,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,1,0)"\ 6tt\ 5/a\ 6〉) whd #q #r #H1 destruct >\ 5a href="cic:/matita/tutorial/chapter2/add_S.def(2)"\ 6add_S\ 5/a\ 6 @\ 5a href="cic:/matita/basics/logic/eq_f.def(3)"\ 6eq_f\ 5/a\ 6 @(qrspec … H)
+ |#H @(\ 5a href="cic:/matita/tutorial/chapter2/Sub.con(0,1,2)"\ 6mk_Sub\ 5/a\ 6 … \ 5a title="Pair construction" href="cic:/fakeuri.def(1)"\ 6〈\ 5/a\ 6\ 5a href="cic:/matita/basics/types/fst.fix(0,2,1)"\ 6fst\ 5/a\ 6 … p,\ 5a href="cic:/matita/tutorial/chapter2/bool.con(0,1,0)"\ 6tt\ 5/a\ 6〉) whd #q #r #H1 destruct >\ 5a href="cic:/matita/tutorial/chapter2/add_S.def(2)"\ 6add_S\ 5/a\ 6 @\ 5a href="cic:/matita/basics/logic/eq_f.def(3)"\ 6eq_f\ 5/a\ 6 @(qrspec … H)
]
qed.