Derivatives on WithLp

theorem differentiableWithinAt_piLp {𝕜 : Type u_1} {ι : Type u_2} {E : ι → Type u_3} {H : Type u_4} [NontriviallyNormedField 𝕜] [NormedAddCommGroup H] [(i : ι) → NormedAddCommGroup (E i)] [(i : ι) → NormedSpace 𝕜 (E i)] [NormedSpace 𝕜 H] [Fintype ι] (p : ENNReal) [Fact (1 ≤ p)] {f : H → PiLp p E} {t : Set H} {y : H} : DifferentiableWithinAt 𝕜 f t y ↔ ∀ (i : ι), DifferentiableWithinAt 𝕜 (fun (x : H) => f x i) t y

theorem differentiableAt_piLp {𝕜 : Type u_1} {ι : Type u_2} {E : ι → Type u_3} {H : Type u_4} [NontriviallyNormedField 𝕜] [NormedAddCommGroup H] [(i : ι) → NormedAddCommGroup (E i)] [(i : ι) → NormedSpace 𝕜 (E i)] [NormedSpace 𝕜 H] [Fintype ι] (p : ENNReal) [Fact (1 ≤ p)] {f : H → PiLp p E} {y : H} : DifferentiableAt 𝕜 f y ↔ ∀ (i : ι), DifferentiableAt 𝕜 (fun (x : H) => f x i) y

theorem differentiableOn_piLp {𝕜 : Type u_1} {ι : Type u_2} {E : ι → Type u_3} {H : Type u_4} [NontriviallyNormedField 𝕜] [NormedAddCommGroup H] [(i : ι) → NormedAddCommGroup (E i)] [(i : ι) → NormedSpace 𝕜 (E i)] [NormedSpace 𝕜 H] [Fintype ι] (p : ENNReal) [Fact (1 ≤ p)] {f : H → PiLp p E} {t : Set H} : DifferentiableOn 𝕜 f t ↔ ∀ (i : ι), DifferentiableOn 𝕜 (fun (x : H) => f x i) t

theorem differentiable_piLp {𝕜 : Type u_1} {ι : Type u_2} {E : ι → Type u_3} {H : Type u_4} [NontriviallyNormedField 𝕜] [NormedAddCommGroup H] [(i : ι) → NormedAddCommGroup (E i)] [(i : ι) → NormedSpace 𝕜 (E i)] [NormedSpace 𝕜 H] [Fintype ι] (p : ENNReal) [Fact (1 ≤ p)] {f : H → PiLp p E} : Differentiable 𝕜 f ↔ ∀ (i : ι), Differentiable 𝕜 fun (x : H) => f x i

theorem hasStrictFDerivAt_piLp {𝕜 : Type u_1} {ι : Type u_2} {E : ι → Type u_3} {H : Type u_4} [NontriviallyNormedField 𝕜] [NormedAddCommGroup H] [(i : ι) → NormedAddCommGroup (E i)] [(i : ι) → NormedSpace 𝕜 (E i)] [NormedSpace 𝕜 H] [Fintype ι] (p : ENNReal) [Fact (1 ≤ p)] {f : H → PiLp p E} {f' : H →L[𝕜] PiLp p E} {y : H} : HasStrictFDerivAt f f' y ↔ ∀ (i : ι), HasStrictFDerivAt (fun (x : H) => f x i) ((PiLp.proj p E i).comp f') y

theorem hasFDerivWithinAt_piLp {𝕜 : Type u_1} {ι : Type u_2} {E : ι → Type u_3} {H : Type u_4} [NontriviallyNormedField 𝕜] [NormedAddCommGroup H] [(i : ι) → NormedAddCommGroup (E i)] [(i : ι) → NormedSpace 𝕜 (E i)] [NormedSpace 𝕜 H] [Fintype ι] (p : ENNReal) [Fact (1 ≤ p)] {f : H → PiLp p E} {f' : H →L[𝕜] PiLp p E} {t : Set H} {y : H} : HasFDerivWithinAt f f' t y ↔ ∀ (i : ι), HasFDerivWithinAt (fun (x : H) => f x i) ((PiLp.proj p E i).comp f') t y