lean2/tests/lean/run/local_eqns.lean

import data.nat logic

open bool nat

check
 show nat → bool
 | 0     := tt
 | (n+1) := ff

definition mult : nat → nat → nat :=
have plus : nat → nat → nat
| 0        b := b
| (succ a) b := succ (plus a b),
have mult : nat → nat → nat
| 0        b := 0
| (succ a) b := plus (mult a b) b,
mult

print definition mult

example : mult 3 7 = 21 := rfl

example : mult 8 7 = 56 := rfl

theorem add_eq_addl : ∀ x y, x + y = x ⊕ y
| 0        0     := rfl
| (succ x) 0     :=
  begin
    have addl_z : ∀ a : nat, a ⊕ 0 = a
    | 0        := rfl
    | (succ a) := calc
          (succ a) ⊕ 0 = succ (a ⊕ 0) : rfl
                   ... = succ a       : addl_z,
    rewrite addl_z
  end
| 0     (succ y) :=
  begin
    have z_add : ∀ a : nat, 0 + a = a
    | 0        := rfl
    | (succ a) :=
      begin
        rewrite ▸ succ(0 + a) = _,
        rewrite z_add
      end,
    rewrite z_add
  end
| (succ x) (succ y) :=
  begin
    change (succ x + succ y = succ (x ⊕ succ y)),
    have s_add : ∀ a b : nat, succ a + b = succ (a + b)
    | 0        0        := rfl
    | (succ a) 0        := rfl
    | 0        (succ b) :=
      begin
        change (succ (succ 0 + b) = succ (succ (0 + b))),
        rewrite -(s_add 0 b)
      end
    | (succ a) (succ b) :=
       begin
         change (succ (succ (succ a) + b) = succ (succ (succ a + b))),
         apply (congr_arg succ),
         rewrite (s_add (succ a) b),
       end,
    rewrite [s_add, add_eq_addl]
  end

reveal add_eq_addl
print definition add_eq_addl
feat(frontends/lean): nested dependent pattern matching 2015-03-07 03:04:09 +00:00			`import data.nat logic`

			`open bool nat`

			`check`
			`show nat → bool`
			`\| 0 := tt`
			`\| (n+1) := ff`

			`definition mult : nat → nat → nat :=`
			`have plus : nat → nat → nat`
			`\| 0 b := b`
			`\| (succ a) b := succ (plus a b),`
			`have mult : nat → nat → nat`
			`\| 0 b := 0`
			`\| (succ a) b := plus (mult a b) b,`
			`mult`

			`print definition mult`

			`example : mult 3 7 = 21 := rfl`

			`example : mult 8 7 = 56 := rfl`

			`theorem add_eq_addl : ∀ x y, x + y = x ⊕ y`
			`\| 0 0 := rfl`
			`\| (succ x) 0 :=`
			`begin`
			`have addl_z : ∀ a : nat, a ⊕ 0 = a`
			`\| 0 := rfl`
			`\| (succ a) := calc`
			`(succ a) ⊕ 0 = succ (a ⊕ 0) : rfl`
			`... = succ a : addl_z,`
			`rewrite addl_z`
			`end`
			`\| 0 (succ y) :=`
			`begin`
			`have z_add : ∀ a : nat, 0 + a = a`
			`\| 0 := rfl`
			`\| (succ a) :=`
			`begin`
			`rewrite ▸ succ(0 + a) = _,`
			`rewrite z_add`
			`end,`
			`rewrite z_add`
			`end`
			`\| (succ x) (succ y) :=`
			`begin`
			`change (succ x + succ y = succ (x ⊕ succ y)),`
			`have s_add : ∀ a b : nat, succ a + b = succ (a + b)`
			`\| 0 0 := rfl`
			`\| (succ a) 0 := rfl`
			`\| 0 (succ b) :=`
			`begin`
			`change (succ (succ 0 + b) = succ (succ (0 + b))),`
			`rewrite -(s_add 0 b)`
			`end`
			`\| (succ a) (succ b) :=`
			`begin`
			`change (succ (succ (succ a) + b) = succ (succ (succ a + b))),`
			`apply (congr_arg succ),`
			`rewrite (s_add (succ a) b),`
			`end,`
			`rewrite [s_add, add_eq_addl]`
			`end`

feat(frontends/lean): rename 'wait' to 'reveal' Signed-off-by: Leonardo de Moura <leonardo@microsoft.com> 2015-05-09 03:54:16 +00:00			`reveal add_eq_addl`
feat(frontends/lean): nested dependent pattern matching 2015-03-07 03:04:09 +00:00			`print definition add_eq_addl`