Documentation

Mathlib.RingTheory.Subring.Pointwise

Pointwise instances on Subrings #

This file provides the action Subring.pointwiseMulAction which matches the action of mulActionSet.

This actions is available in the Pointwise locale.

Implementation notes #

This file is almost identical to RingTheory/Subsemiring/Pointwise.lean. Where possible, try to keep them in sync.

def Subring.pointwiseMulAction {M : Type u_1} {R : Type u_2} [Monoid M] [Ring R] [MulSemiringAction M R] :

The action on a subring corresponding to applying the action to every element.

This is available as an instance in the Pointwise locale.

Equations
  • One or more equations did not get rendered due to their size.
Instances For
    theorem Subring.pointwise_smul_def {M : Type u_1} {R : Type u_2} [Monoid M] [Ring R] [MulSemiringAction M R] {a : M} (S : Subring R) :
    @[simp]
    theorem Subring.coe_pointwise_smul {M : Type u_1} {R : Type u_2} [Monoid M] [Ring R] [MulSemiringAction M R] (m : M) (S : Subring R) :
    (m S) = m S
    @[simp]
    theorem Subring.pointwise_smul_toSubsemiring {M : Type u_1} {R : Type u_2} [Monoid M] [Ring R] [MulSemiringAction M R] (m : M) (S : Subring R) :
    (m S).toSubsemiring = m S.toSubsemiring
    theorem Subring.smul_mem_pointwise_smul {M : Type u_1} {R : Type u_2} [Monoid M] [Ring R] [MulSemiringAction M R] (m : M) (r : R) (S : Subring R) :
    r Sm r m S
    theorem Subring.mem_smul_pointwise_iff_exists {M : Type u_1} {R : Type u_2} [Monoid M] [Ring R] [MulSemiringAction M R] (m : M) (r : R) (S : Subring R) :
    r m S ∃ s ∈ S, m s = r
    @[simp]
    theorem Subring.smul_bot {M : Type u_1} {R : Type u_2} [Monoid M] [Ring R] [MulSemiringAction M R] (a : M) :
    theorem Subring.smul_sup {M : Type u_1} {R : Type u_2} [Monoid M] [Ring R] [MulSemiringAction M R] (a : M) (S : Subring R) (T : Subring R) :
    a (S T) = a S a T
    theorem Subring.smul_closure {M : Type u_1} {R : Type u_2} [Monoid M] [Ring R] [MulSemiringAction M R] (a : M) (s : Set R) :
    @[simp]
    theorem Subring.smul_mem_pointwise_smul_iff {M : Type u_1} {R : Type u_2} [Group M] [Ring R] [MulSemiringAction M R] {a : M} {S : Subring R} {x : R} :
    a x a S x S
    theorem Subring.mem_pointwise_smul_iff_inv_smul_mem {M : Type u_1} {R : Type u_2} [Group M] [Ring R] [MulSemiringAction M R] {a : M} {S : Subring R} {x : R} :
    x a S a⁻¹ x S
    theorem Subring.mem_inv_pointwise_smul_iff {M : Type u_1} {R : Type u_2} [Group M] [Ring R] [MulSemiringAction M R] {a : M} {S : Subring R} {x : R} :
    x a⁻¹ S a x S
    @[simp]
    theorem Subring.pointwise_smul_le_pointwise_smul_iff {M : Type u_1} {R : Type u_2} [Group M] [Ring R] [MulSemiringAction M R] {a : M} {S : Subring R} {T : Subring R} :
    a S a T S T
    theorem Subring.pointwise_smul_subset_iff {M : Type u_1} {R : Type u_2} [Group M] [Ring R] [MulSemiringAction M R] {a : M} {S : Subring R} {T : Subring R} :
    a S T S a⁻¹ T
    theorem Subring.subset_pointwise_smul_iff {M : Type u_1} {R : Type u_2} [Group M] [Ring R] [MulSemiringAction M R] {a : M} {S : Subring R} {T : Subring R} :
    S a T a⁻¹ S T

    TODO: add equivSMul like we have for subgroup.

    @[simp]
    theorem Subring.smul_mem_pointwise_smul_iff₀ {M : Type u_1} {R : Type u_2} [GroupWithZero M] [Ring R] [MulSemiringAction M R] {a : M} (ha : a 0) (S : Subring R) (x : R) :
    a x a S x S
    theorem Subring.mem_pointwise_smul_iff_inv_smul_mem₀ {M : Type u_1} {R : Type u_2} [GroupWithZero M] [Ring R] [MulSemiringAction M R] {a : M} (ha : a 0) (S : Subring R) (x : R) :
    x a S a⁻¹ x S
    theorem Subring.mem_inv_pointwise_smul_iff₀ {M : Type u_1} {R : Type u_2} [GroupWithZero M] [Ring R] [MulSemiringAction M R] {a : M} (ha : a 0) (S : Subring R) (x : R) :
    x a⁻¹ S a x S
    @[simp]
    theorem Subring.pointwise_smul_le_pointwise_smul_iff₀ {M : Type u_1} {R : Type u_2} [GroupWithZero M] [Ring R] [MulSemiringAction M R] {a : M} (ha : a 0) {S : Subring R} {T : Subring R} :
    a S a T S T
    theorem Subring.pointwise_smul_le_iff₀ {M : Type u_1} {R : Type u_2} [GroupWithZero M] [Ring R] [MulSemiringAction M R] {a : M} (ha : a 0) {S : Subring R} {T : Subring R} :
    a S T S a⁻¹ T
    theorem Subring.le_pointwise_smul_iff₀ {M : Type u_1} {R : Type u_2} [GroupWithZero M] [Ring R] [MulSemiringAction M R] {a : M} (ha : a 0) {S : Subring R} {T : Subring R} :
    S a T a⁻¹ S T