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LeanCat / CAT_statement /S_0016.lean

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	import Mathlib

	open CategoryTheory

	namespace CAT_statement_S_0016

	universe u uX

	variable {X : Type uX} [Category.{vX} X]

	namespace AHS

	structure ConcreteCat (X : Type v) [Category X] where
	C : Type u
	[cat : Category C]
	U : C ⥤ X
	[U_Faithful : U.Faithful]

	attribute [instance] ConcreteCat.cat ConcreteCat.U_Faithful


	def IsInitialHom {C : ConcreteCat (X:= X)} {A B : C.C} (f : A ⟶ B) : Prop :=
	∀ ⦃Z : C.C⦄ (g : C.U.obj Z ⟶ C.U.obj A),
	(∃ h : Z ⟶ B, C.U.map h = g ≫ C.U.map f) →
	(∃ k : Z ⟶ A, C.U.map k = g)


	def IsEmbedding {C : ConcreteCat (X:= X)} {A B : C.C} (f : A ⟶ B) : Prop :=
	IsInitialHom f ∧ Mono (C.U.map f)


	def IsInjectiveObj {C : ConcreteCat (X:= X)} (I : C.C) : Prop :=
	∀ ⦃A B : C.C⦄ (m : A ⟶ B),
	IsEmbedding m →
	∀ (f : A ⟶ I), ∃ g : B ⟶ I, m ≫ g = f

	end AHS

	def AddCommGrpConcrete : AHS.ConcreteCat (X := Type u) :=
	{ C := AddCommGrp.{u}
	U := forget AddCommGrp}

	theorem AddCommGrp.injective_iff_divisible (A : AddCommGrp.{u}) :
	AHS.IsInjectiveObj (C:= AddCommGrpConcrete) A ↔ ∀ (n : ℕ) (hn : n ≠ 0) (a : A), ∃ b : A, n • b = a := by
	sorry

	end CAT_statement_S_0016