Extended GCD and divisibility over ℤ #
Main definitions #
- Given
x y : ℕ
,xgcd x y
computes the pair of integers(a, b)
such thatgcd x y = x * a + y * b
.gcd_a x y
andgcd_b x y
are defined to bea
andb
, respectively.
Main statements #
gcd_eq_gcd_ab
: Bézout's lemma, givenx y : ℕ
,gcd x y = x * gcd_a x y + y * gcd_b x y
.
Tags #
Bézout's lemma, Bezout's lemma
Extended Euclidean algorithm #
Divisibility over ℤ #
theorem
int.dvd_of_dvd_mul_left_of_gcd_one
{a b c : ℤ}
(habc : a ∣ b * c)
(hab : a.gcd c = 1) :
a ∣ b
Euclid's lemma: if a ∣ b * c
and gcd a c = 1
then a ∣ b
.
Compare with is_coprime.dvd_of_dvd_mul_left
and
unique_factorization_monoid.dvd_of_dvd_mul_left_of_no_prime_factors
theorem
int.dvd_of_dvd_mul_right_of_gcd_one
{a b c : ℤ}
(habc : a ∣ b * c)
(hab : a.gcd b = 1) :
a ∣ c
Euclid's lemma: if a ∣ b * c
and gcd a b = 1
then a ∣ c
.
Compare with is_coprime.dvd_of_dvd_mul_right
and
unique_factorization_monoid.dvd_of_dvd_mul_right_of_no_prime_factors