2015-03-07 03:04:09 +00:00
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import data.nat logic
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open bool nat
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check
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show nat → bool
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| 0 := tt
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| (n+1) := ff
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definition mult : nat → nat → nat :=
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have plus : nat → nat → nat
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| 0 b := b
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| (succ a) b := succ (plus a b),
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have mult : nat → nat → nat
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| 0 b := 0
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| (succ a) b := plus (mult a b) b,
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mult
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print definition mult
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example : mult 3 7 = 21 := rfl
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example : mult 8 7 = 56 := rfl
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theorem add_eq_addl : ∀ x y, x + y = x ⊕ y
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| 0 0 := rfl
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| (succ x) 0 :=
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begin
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have addl_z : ∀ a : nat, a ⊕ 0 = a
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| 0 := rfl
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| (succ a) := calc
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(succ a) ⊕ 0 = succ (a ⊕ 0) : rfl
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... = succ a : addl_z,
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rewrite addl_z
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end
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| 0 (succ y) :=
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begin
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have z_add : ∀ a : nat, 0 + a = a
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| 0 := rfl
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| (succ a) :=
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begin
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rewrite ▸ succ(0 + a) = _,
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rewrite z_add
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end,
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rewrite z_add
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end
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| (succ x) (succ y) :=
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begin
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change (succ x + succ y = succ (x ⊕ succ y)),
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have s_add : ∀ a b : nat, succ a + b = succ (a + b)
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| 0 0 := rfl
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| (succ a) 0 := rfl
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| 0 (succ b) :=
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begin
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change (succ (succ 0 + b) = succ (succ (0 + b))),
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rewrite -(s_add 0 b)
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end
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| (succ a) (succ b) :=
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begin
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change (succ (succ (succ a) + b) = succ (succ (succ a + b))),
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apply (congr_arg succ),
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rewrite (s_add (succ a) b),
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end,
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rewrite [s_add, add_eq_addl]
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end
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2015-05-09 03:54:16 +00:00
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reveal add_eq_addl
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2015-03-07 03:04:09 +00:00
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print definition add_eq_addl
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