2014-01-05 20:05:08 +00:00
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import kernel
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import macros
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2013-12-30 11:29:20 +00:00
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2014-01-05 20:05:08 +00:00
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variable Nat : Type
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alias ℕ : Nat
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2014-01-05 20:05:08 +00:00
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namespace Nat
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builtin numeral
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builtin add : Nat → Nat → Nat
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infixl 65 + : add
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builtin mul : Nat → Nat → Nat
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infixl 70 * : mul
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builtin le : Nat → Nat → Bool
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infix 50 <= : le
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infix 50 ≤ : le
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definition ge (a b : Nat) := b ≤ a
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infix 50 >= : ge
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infix 50 ≥ : ge
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definition lt (a b : Nat) := ¬ (a ≥ b)
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infix 50 < : lt
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definition gt (a b : Nat) := ¬ (a ≤ b)
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infix 50 > : gt
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definition id (a : Nat) := a
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notation 55 | _ | : id
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axiom SuccNeZero (a : Nat) : a + 1 ≠ 0
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axiom SuccInj {a b : Nat} (H : a + 1 = b + 1) : a = b
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axiom PlusZero (a : Nat) : a + 0 = a
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axiom PlusSucc (a b : Nat) : a + (b + 1) = (a + b) + 1
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axiom MulZero (a : Nat) : a * 0 = 0
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axiom MulSucc (a b : Nat) : a * (b + 1) = a * b + a
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axiom LeDef (a b : Nat) : a ≤ b ⇔ ∃ c, a + c = b
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axiom Induction {P : Nat → Bool} (a : Nat) (H1 : P 0) (H2 : Π (n : Nat) (iH : P n), P (n + 1)) : P a
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theorem ZeroNeOne : 0 ≠ 1 := Trivial
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theorem NeZeroPred' (a : Nat) : a ≠ 0 ⇒ ∃ b, b + 1 = a
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:= Induction a
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(Assume H : 0 ≠ 0, FalseElim (∃ b, b + 1 = 0) H)
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(λ (n : Nat) (iH : n ≠ 0 ⇒ ∃ b, b + 1 = n),
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Assume H : n + 1 ≠ 0,
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DisjCases (EM (n = 0))
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(λ Heq0 : n = 0, ExistsIntro 0 (calc 0 + 1 = n + 1 : { Symm Heq0 }))
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(λ Hne0 : n ≠ 0,
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Obtain (w : Nat) (Hw : w + 1 = n), from (MP iH Hne0),
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ExistsIntro (w + 1) (calc w + 1 + 1 = n + 1 : { Hw })))
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theorem NeZeroPred {a : Nat} (H : a ≠ 0) : ∃ b, b + 1 = a
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:= MP (NeZeroPred' a) H
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theorem Destruct {B : Bool} {a : Nat} (H1: a = 0 → B) (H2 : Π n, a = n + 1 → B) : B
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:= DisjCases (EM (a = 0))
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(λ Heq0 : a = 0, H1 Heq0)
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(λ Hne0 : a ≠ 0, Obtain (w : Nat) (Hw : w + 1 = a), from (NeZeroPred Hne0),
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H2 w (Symm Hw))
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theorem ZeroPlus (a : Nat) : 0 + a = a
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:= Induction a
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(have 0 + 0 = 0 : Trivial)
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(λ (n : Nat) (iH : 0 + n = n),
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calc 0 + (n + 1) = (0 + n) + 1 : PlusSucc 0 n
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... = n + 1 : { iH })
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theorem SuccPlus (a b : Nat) : (a + 1) + b = (a + b) + 1
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:= Induction b
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(calc (a + 1) + 0 = a + 1 : PlusZero (a + 1)
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... = (a + 0) + 1 : { Symm (PlusZero a) })
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(λ (n : Nat) (iH : (a + 1) + n = (a + n) + 1),
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calc (a + 1) + (n + 1) = ((a + 1) + n) + 1 : PlusSucc (a + 1) n
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... = ((a + n) + 1) + 1 : { iH }
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... = (a + (n + 1)) + 1 : { have (a + n) + 1 = a + (n + 1) : Symm (PlusSucc a n) })
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theorem PlusComm (a b : Nat) : a + b = b + a
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:= Induction b
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(calc a + 0 = a : PlusZero a
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... = 0 + a : Symm (ZeroPlus a))
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(λ (n : Nat) (iH : a + n = n + a),
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calc a + (n + 1) = (a + n) + 1 : PlusSucc a n
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... = (n + a) + 1 : { iH }
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... = (n + 1) + a : Symm (SuccPlus n a))
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theorem PlusAssoc (a b c : Nat) : a + (b + c) = (a + b) + c
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:= Induction a
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(calc 0 + (b + c) = b + c : ZeroPlus (b + c)
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... = (0 + b) + c : { Symm (ZeroPlus b) })
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(λ (n : Nat) (iH : n + (b + c) = (n + b) + c),
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calc (n + 1) + (b + c) = (n + (b + c)) + 1 : SuccPlus n (b + c)
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... = ((n + b) + c) + 1 : { iH }
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... = ((n + b) + 1) + c : Symm (SuccPlus (n + b) c)
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... = ((n + 1) + b) + c : { have (n + b) + 1 = (n + 1) + b : Symm (SuccPlus n b) })
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theorem ZeroMul (a : Nat) : 0 * a = 0
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:= Induction a
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(have 0 * 0 = 0 : Trivial)
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(λ (n : Nat) (iH : 0 * n = 0),
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calc 0 * (n + 1) = (0 * n) + 0 : MulSucc 0 n
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... = 0 + 0 : { iH }
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... = 0 : Trivial)
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theorem SuccMul (a b : Nat) : (a + 1) * b = a * b + b
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:= Induction b
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(calc (a + 1) * 0 = 0 : MulZero (a + 1)
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... = a * 0 : Symm (MulZero a)
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... = a * 0 + 0 : Symm (PlusZero (a * 0)))
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(λ (n : Nat) (iH : (a + 1) * n = a * n + n),
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calc (a + 1) * (n + 1) = (a + 1) * n + (a + 1) : MulSucc (a + 1) n
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... = a * n + n + (a + 1) : { iH }
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... = a * n + n + a + 1 : PlusAssoc (a * n + n) a 1
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... = a * n + (n + a) + 1 : { have a * n + n + a = a * n + (n + a) : Symm (PlusAssoc (a * n) n a) }
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... = a * n + (a + n) + 1 : { PlusComm n a }
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... = a * n + a + n + 1 : { PlusAssoc (a * n) a n }
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... = a * (n + 1) + n + 1 : { Symm (MulSucc a n) }
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... = a * (n + 1) + (n + 1) : Symm (PlusAssoc (a * (n + 1)) n 1))
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theorem OneMul (a : Nat) : 1 * a = a
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:= Induction a
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(have 1 * 0 = 0 : Trivial)
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(λ (n : Nat) (iH : 1 * n = n),
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calc 1 * (n + 1) = 1 * n + 1 : MulSucc 1 n
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... = n + 1 : { iH })
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theorem MulOne (a : Nat) : a * 1 = a
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:= Induction a
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(have 0 * 1 = 0 : Trivial)
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(λ (n : Nat) (iH : n * 1 = n),
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calc (n + 1) * 1 = n * 1 + 1 : SuccMul n 1
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... = n + 1 : { iH })
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theorem MulComm (a b : Nat) : a * b = b * a
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:= Induction b
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(calc a * 0 = 0 : MulZero a
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... = 0 * a : Symm (ZeroMul a))
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(λ (n : Nat) (iH : a * n = n * a),
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calc a * (n + 1) = a * n + a : MulSucc a n
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... = n * a + a : { iH }
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... = (n + 1) * a : Symm (SuccMul n a))
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theorem Distribute (a b c : Nat) : a * (b + c) = a * b + a * c
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:= Induction a
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(calc 0 * (b + c) = 0 : ZeroMul (b + c)
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... = 0 + 0 : Trivial
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... = 0 * b + 0 : { Symm (ZeroMul b) }
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... = 0 * b + 0 * c : { Symm (ZeroMul c) })
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(λ (n : Nat) (iH : n * (b + c) = n * b + n * c),
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calc (n + 1) * (b + c) = n * (b + c) + (b + c) : SuccMul n (b + c)
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... = n * b + n * c + (b + c) : { iH }
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... = n * b + n * c + b + c : PlusAssoc (n * b + n * c) b c
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... = n * b + (n * c + b) + c : { Symm (PlusAssoc (n * b) (n * c) b) }
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... = n * b + (b + n * c) + c : { PlusComm (n * c) b }
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... = n * b + b + n * c + c : { PlusAssoc (n * b) b (n * c) }
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... = (n + 1) * b + n * c + c : { Symm (SuccMul n b) }
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... = (n + 1) * b + (n * c + c) : Symm (PlusAssoc ((n + 1) * b) (n * c) c)
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... = (n + 1) * b + (n + 1) * c : { Symm (SuccMul n c) })
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theorem Distribute2 (a b c : Nat) : (a + b) * c = a * c + b * c
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:= calc (a + b) * c = c * (a + b) : MulComm (a + b) c
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... = c * a + c * b : Distribute c a b
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... = a * c + c * b : { MulComm c a }
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... = a * c + b * c : { MulComm c b }
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theorem MulAssoc (a b c : Nat) : a * (b * c) = a * b * c
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:= Induction a
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(calc 0 * (b * c) = 0 : ZeroMul (b * c)
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... = 0 * c : Symm (ZeroMul c)
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... = (0 * b) * c : { Symm (ZeroMul b) })
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(λ (n : Nat) (iH : n * (b * c) = n * b * c),
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calc (n + 1) * (b * c) = n * (b * c) + (b * c) : SuccMul n (b * c)
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... = n * b * c + (b * c) : { iH }
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... = (n * b + b) * c : Symm (Distribute2 (n * b) b c)
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... = (n + 1) * b * c : { Symm (SuccMul n b) })
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2014-01-02 01:19:12 +00:00
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theorem PlusInj' (a b c : Nat) : a + b = a + c ⇒ b = c
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:= Induction a
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(Assume H : 0 + b = 0 + c,
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calc b = 0 + b : Symm (ZeroPlus b)
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... = 0 + c : H
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... = c : ZeroPlus c)
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(λ (n : Nat) (iH : n + b = n + c ⇒ b = c),
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Assume H : n + 1 + b = n + 1 + c,
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let L1 : n + b + 1 = n + c + 1
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:= (calc n + b + 1 = n + (b + 1) : Symm (PlusAssoc n b 1)
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... = n + (1 + b) : { PlusComm b 1 }
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... = n + 1 + b : PlusAssoc n 1 b
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... = n + 1 + c : H
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... = n + (1 + c) : Symm (PlusAssoc n 1 c)
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... = n + (c + 1) : { PlusComm 1 c }
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... = n + c + 1 : PlusAssoc n c 1),
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2014-01-03 18:33:57 +00:00
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L2 : n + b = n + c := SuccInj L1
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2014-01-05 20:05:08 +00:00
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in MP iH L2)
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2014-01-03 02:24:32 +00:00
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2014-01-05 20:05:08 +00:00
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theorem PlusInj {a b c : Nat} (H : a + b = a + c) : b = c
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:= MP (PlusInj' a b c) H
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2014-01-03 02:24:32 +00:00
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2014-01-05 20:05:08 +00:00
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theorem PlusEq0 {a b : Nat} (H : a + b = 0) : a = 0
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2014-01-03 06:48:10 +00:00
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:= Destruct (λ H1 : a = 0, H1)
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(λ (n : Nat) (H1 : a = n + 1),
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AbsurdElim (a = 0)
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H (calc a + b = n + 1 + b : { H1 }
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... = n + (1 + b) : Symm (PlusAssoc n 1 b)
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... = n + (b + 1) : { PlusComm 1 b }
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... = n + b + 1 : PlusAssoc n b 1
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... ≠ 0 : SuccNeZero (n + b)))
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2014-01-05 20:05:08 +00:00
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theorem LeIntro {a b c : Nat} (H : a + c = b) : a ≤ b
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:= EqMP (Symm (LeDef a b)) (have (∃ x, a + x = b) : ExistsIntro c H)
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2014-01-03 02:24:32 +00:00
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2014-01-05 20:05:08 +00:00
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theorem LeElim {a b : Nat} (H : a ≤ b) : ∃ x, a + x = b
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:= EqMP (LeDef a b) H
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2014-01-03 02:24:32 +00:00
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2014-01-05 20:05:08 +00:00
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theorem LeRefl (a : Nat) : a ≤ a := LeIntro (PlusZero a)
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2014-01-03 02:24:32 +00:00
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2014-01-05 20:05:08 +00:00
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theorem LeZero (a : Nat) : 0 ≤ a := LeIntro (ZeroPlus a)
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2014-01-03 02:24:32 +00:00
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2014-01-05 20:05:08 +00:00
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theorem LeTrans {a b c : Nat} (H1 : a ≤ b) (H2 : b ≤ c) : a ≤ c
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2014-01-04 02:11:01 +00:00
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:= Obtain (w1 : Nat) (Hw1 : a + w1 = b), from (LeElim H1),
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Obtain (w2 : Nat) (Hw2 : b + w2 = c), from (LeElim H2),
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2014-01-03 18:33:57 +00:00
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LeIntro (calc a + (w1 + w2) = a + w1 + w2 : PlusAssoc a w1 w2
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2014-01-05 20:05:08 +00:00
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... = b + w2 : { Hw1 }
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... = c : Hw2)
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2014-01-03 02:24:32 +00:00
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2014-01-05 20:05:08 +00:00
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theorem LeInj {a b : Nat} (H : a ≤ b) (c : Nat) : a + c ≤ b + c
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2014-01-04 02:11:01 +00:00
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:= Obtain (w : Nat) (Hw : a + w = b), from (LeElim H),
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2014-01-03 18:33:57 +00:00
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LeIntro (calc a + c + w = a + (c + w) : Symm (PlusAssoc a c w)
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2014-01-05 20:05:08 +00:00
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... = a + (w + c) : { PlusComm c w }
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... = a + w + c : PlusAssoc a w c
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... = b + c : { Hw })
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2014-01-03 02:24:32 +00:00
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2014-01-05 20:05:08 +00:00
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theorem LeAntiSymm {a b : Nat} (H1 : a ≤ b) (H2 : b ≤ a) : a = b
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2014-01-04 02:11:01 +00:00
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:= Obtain (w1 : Nat) (Hw1 : a + w1 = b), from (LeElim H1),
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Obtain (w2 : Nat) (Hw2 : b + w2 = a), from (LeElim H2),
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2014-01-03 18:33:57 +00:00
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let L1 : w1 + w2 = 0
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:= PlusInj (calc a + (w1 + w2) = a + w1 + w2 : { PlusAssoc a w1 w2 }
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2014-01-05 20:05:08 +00:00
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... = b + w2 : { Hw1 }
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... = a : Hw2
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... = a + 0 : Symm (PlusZero a)),
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2014-01-03 18:33:57 +00:00
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L2 : w1 = 0 := PlusEq0 L1
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in calc a = a + 0 : Symm (PlusZero a)
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2014-01-05 20:05:08 +00:00
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... = a + w1 : { Symm L2 }
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... = b : Hw1
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setopaque ge true
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setopaque lt true
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setopaque gt true
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setopaque id true
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end
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