74 lines
2.5 KiB
Text
74 lines
2.5 KiB
Text
/-
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Copyright (c) 2015 Microsoft Corporation. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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Module: data.nat.pairing
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Authors: Leonardo de Moura
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Elegant pairing function.
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-/
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import data.nat.sqrt data.nat.div
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open prod decidable
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namespace nat
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definition mkpair (a b : nat) : nat :=
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if a < b then b*b + a else a*a + a + b
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definition unpair (n : nat) : nat × nat :=
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let s := sqrt n in
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if n - s*s < s then (n - s*s, s) else (s, n - s*s - s)
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theorem mkpair_unpair (n : nat) : mkpair (pr1 (unpair n)) (pr2 (unpair n)) = n :=
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let s := sqrt n in
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by_cases
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(λ h₁ : n - s*s < s,
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begin
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esimp [unpair],
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rewrite [if_pos h₁],
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esimp [mkpair],
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rewrite [if_pos h₁, add_sub_of_le (sqrt_lower n)]
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end)
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(λ h₂ : ¬ n - s*s < s,
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have g₁ : s ≤ n - s*s, from le_of_not_lt h₂,
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assert g₂ : s + s*s ≤ n - s*s + s*s, from add_le_add_right g₁ (s*s),
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assert g₃ : s*s + s ≤ n, by rewrite [sub_add_cancel (sqrt_lower n) at g₂, add.comm at g₂]; exact g₂,
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have l₁ : n ≤ s*s + s + s, from sqrt_upper n,
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have l₂ : n - s*s ≤ s + s, from calc
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n - s*s ≤ (s*s + s + s) - s*s : sub_le_sub_right l₁ (s*s)
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... = (s*s + (s+s)) - s*s : by rewrite add.assoc
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... = s + s : by rewrite add_sub_cancel_left,
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have l₃ : n - s*s - s ≤ s, from calc
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n - s*s - s ≤ (s + s) - s : sub_le_sub_right l₂ s
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... = s : by rewrite add_sub_cancel_left,
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assert l₄ : ¬ s < n - s*s - s, from not_lt_of_le l₃,
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begin
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esimp [unpair],
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rewrite [if_neg h₂], esimp,
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esimp [mkpair],
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rewrite [if_neg l₄, sub_sub, add_sub_of_le g₃],
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end)
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theorem unpair_mkpair (a b : nat) : unpair (mkpair a b) = (a, b) :=
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by_cases
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(λ h : a < b,
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assert aux₁ : a ≤ b + b, from calc
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a ≤ b : le_of_lt h
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... ≤ b+b : !le_add_right,
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begin
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esimp [mkpair],
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rewrite [if_pos h],
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esimp [unpair],
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rewrite [sqrt_offset_eq aux₁, add_sub_cancel_left, if_pos h]
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end)
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(λ h : ¬ a < b,
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have h₁ : b ≤ a, from le_of_not_lt h,
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assert aux₁ : a + b ≤ a + a, from add_le_add_left h₁ a,
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have aux₂ : a + b ≥ a, from !le_add_right,
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assert aux₃ : ¬ a + b < a, from not_lt_of_le aux₂,
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begin
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esimp [mkpair],
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rewrite [if_neg h],
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esimp [unpair],
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rewrite [add.assoc (a * a) a b, sqrt_offset_eq aux₁, *add_sub_cancel_left, if_neg aux₃]
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end)
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end nat
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