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[Merged by Bors] - feat: the finite adele ring is an algebra over the finite integral adeles. #13705

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45 changes: 34 additions & 11 deletions Mathlib/RingTheory/DedekindDomain/FiniteAdeleRing.lean
Original file line number Diff line number Diff line change
Expand Up @@ -197,6 +197,10 @@ def IsFiniteAdele (x : K_hat R K) :=
∀ᶠ v : HeightOneSpectrum R in Filter.cofinite, x v ∈ v.adicCompletionIntegers K
#align dedekind_domain.prod_adic_completions.is_finite_adele DedekindDomain.ProdAdicCompletions.IsFiniteAdele

@[simp]
lemma isFiniteAdele_iff (x : K_hat R K) :
x.IsFiniteAdele ↔ {v | x v ∉ adicCompletionIntegers K v}.Finite := Iff.rfl

namespace IsFiniteAdele

/-- The sum of two finite adèles is a finite adèle. -/
Expand Down Expand Up @@ -312,22 +316,27 @@ end ProdAdicCompletions
open ProdAdicCompletions.IsFiniteAdele

/-- The finite adèle ring of `R` is the restricted product over all maximal ideals `v` of `R`
of `adicCompletion` with respect to `adicCompletionIntegers`. -/
def FiniteAdeleRing : Type _ := (
{ carrier := {x : K_hat R K | x.IsFiniteAdele}
mul_mem' := mul
one_mem' := one
add_mem' := add
zero_mem' := zero
algebraMap_mem' := algebraMap'
} : Subalgebra K (K_hat R K))
of `adicCompletion`, with respect to `adicCompletionIntegers`. -/
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def FiniteAdeleRing : Type _ := {x : K_hat R K // x.IsFiniteAdele}
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#align dedekind_domain.finite_adele_ring DedekindDomain.FiniteAdeleRing

namespace FiniteAdeleRing

instance : CommRing (FiniteAdeleRing R K) := Subalgebra.toCommRing _
/-- The finite adèle ring of `R`, regarded as a `K`-subalgebra of the
product of the local completions of `K`. -/
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def subalgebra : Subalgebra K (K_hat R K) where
carrier := {x : K_hat R K | x.IsFiniteAdele}
mul_mem' := mul
one_mem' := one
add_mem' := add
zero_mem' := zero
algebraMap_mem' := algebraMap'

instance : Algebra K (FiniteAdeleRing R K) := Subalgebra.algebra _
instance : CommRing (FiniteAdeleRing R K) :=
Subalgebra.toCommRing (subalgebra R K)

instance : Algebra K (FiniteAdeleRing R K) :=
Subalgebra.algebra (subalgebra R K)

instance : Coe (FiniteAdeleRing R K) (K_hat R K) where
coe := fun x ↦ x.1
Expand All @@ -336,6 +345,20 @@ instance : Coe (FiniteAdeleRing R K) (K_hat R K) where
lemma ext {a₁ a₂ : FiniteAdeleRing R K} (h : (a₁ : K_hat R K) = a₂) : a₁ = a₂ :=
Subtype.ext h

/-- The finite adele ring is an algebra over the finite integral adeles. -/
instance : Algebra (R_hat R K) (FiniteAdeleRing R K) where
smul rhat fadele := ⟨fun v ↦ rhat v * fadele.1 v, Finite.subset fadele.2 <| fun v hv ↦ by
simp only [mem_adicCompletionIntegers, mem_compl_iff, mem_setOf_eq, map_mul] at hv ⊢
exact mt (mul_le_one₀ (rhat v).2) hv
toFun r := ⟨r, by simp_all⟩
map_one' := by ext; rfl
map_mul' _ _ := by ext; rfl
map_zero' := by ext; rfl
map_add' _ _ := by ext; rfl
commutes' _ _ := mul_comm _ _
smul_def' r x := rfl

end FiniteAdeleRing

end DedekindDomain
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