lean2/library/data/nat/fact.lean

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/-
Copyright (c) 2015 Microsoft Corporation. All rights reserved.
Released under Apache 2.0 license as described in the file LICENSE.
Authors: Leonardo de Moura
Factorial
-/
import data.nat.div
open algebra
namespace nat
definition fact : nat → nat
| 0 := 1
| (succ n) := (succ n) * fact n
lemma fact_zero : fact 0 = 1 :=
rfl
lemma fact_one : fact 1 = 1 :=
rfl
lemma fact_succ (n) : fact (succ n) = succ n * fact n :=
rfl
lemma fact_pos : ∀ n, fact n > 0
| 0 := zero_lt_one
| (succ n) := mul_pos !succ_pos (fact_pos n)
lemma fact_ne_zero (n : ) : fact n ≠ 0 := ne_of_gt !fact_pos
lemma dvd_fact : ∀ {m n}, m > 0 → m ≤ n → m fact n
| m 0 h₁ h₂ := absurd h₁ (not_lt_of_ge h₂)
| m (succ n) h₁ h₂ :=
begin
rewrite fact_succ,
cases (eq_or_lt_of_le h₂) with he hl,
{subst m, apply dvd_mul_right},
{have aux : m fact n, from dvd_fact h₁ (le_of_lt_succ hl),
apply dvd_mul_of_dvd_right aux}
end
lemma fact_le {m n} : m ≤ n → fact m ≤ fact n :=
begin
induction n with n ih,
{intro h,
have meq0 : m = 0, from eq_zero_of_le_zero h,
subst m},
{intro m_le_succ_n,
cases (eq_or_lt_of_le m_le_succ_n) with h₁ h₂,
{subst m},
{transitivity (fact n),
exact ih (le_of_lt_succ h₂),
rewrite [fact_succ, -one_mul at {1}],
exact nat.mul_le_mul (succ_le_succ (zero_le n)) !le.refl}}
end
end nat