NoZeroSMulDivisors
#
This file defines the NoZeroSMulDivisors
class, and includes some tests
for the vanishing of elements (especially in modules over division rings).
NoZeroSMulDivisors R M
states that a scalar multiple is 0
only if either argument is 0
.
This is a version of saying that M
is torsion free, without assuming R
is zero-divisor free.
The main application of NoZeroSMulDivisors R M
, when M
is a module,
is the result smul_eq_zero
: a scalar multiple is 0
iff either argument is 0
.
It is a generalization of the NoZeroDivisors
class to heterogeneous multiplication.
If scalar multiplication yields zero, either the scalar or the vector was zero.
Instances
theorem
Function.Injective.noZeroSMulDivisors
{R : Type u_3}
{M : Type u_4}
{N : Type u_5}
[Zero R]
[Zero M]
[Zero N]
[SMul R M]
[SMul R N]
[NoZeroSMulDivisors R N]
(f : M → N)
(hf : Function.Injective f)
(h0 : f 0 = 0)
(hs : ∀ (c : R) (x : M), f (c • x) = c • f x)
:
Pullback a NoZeroSMulDivisors
instance along an injective function.
@[simp]
theorem
smul_eq_zero
{R : Type u_1}
{M : Type u_2}
[Zero R]
[Zero M]
[SMulWithZero R M]
[NoZeroSMulDivisors R M]
{c : R}
{x : M}
:
theorem
smul_ne_zero_iff
{R : Type u_1}
{M : Type u_2}
[Zero R]
[Zero M]
[SMulWithZero R M]
[NoZeroSMulDivisors R M]
{c : R}
{x : M}
:
theorem
smul_eq_zero_iff_left
{R : Type u_1}
{M : Type u_2}
[Zero R]
[Zero M]
[SMulWithZero R M]
[NoZeroSMulDivisors R M]
{c : R}
{x : M}
(hx : x ≠ 0)
:
theorem
smul_eq_zero_iff_right
{R : Type u_1}
{M : Type u_2}
[Zero R]
[Zero M]
[SMulWithZero R M]
[NoZeroSMulDivisors R M]
{c : R}
{x : M}
(hc : c ≠ 0)
:
theorem
smul_ne_zero_iff_left
{R : Type u_1}
{M : Type u_2}
[Zero R]
[Zero M]
[SMulWithZero R M]
[NoZeroSMulDivisors R M]
{c : R}
{x : M}
(hx : x ≠ 0)
:
theorem
smul_ne_zero_iff_right
{R : Type u_1}
{M : Type u_2}
[Zero R]
[Zero M]
[SMulWithZero R M]
[NoZeroSMulDivisors R M]
{c : R}
{x : M}
(hc : c ≠ 0)
: