Update holomorphic.primitive.lean
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@ -243,14 +243,38 @@ theorem primitive_fderivAtBasepoint
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let A := mem_ball_iff_norm.1 hy
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let A := mem_ball_iff_norm.1 hy
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simp at A
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simp at A
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assumption
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assumption
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have h₂y : |y.im| < ε := by
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calc |y.im|
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_ ≤ Complex.abs y := by apply Complex.abs_im_le_abs
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_ < ε := by
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let A := mem_ball_iff_norm.1 hy
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simp at A
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assumption
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have intervalComputation {x' y' : ℝ} (h : x' ∈ Ι 0 y') : |x'| ≤ |y'| := by
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let A := h.1
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let B := h.2
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rcases le_total 0 y' with hy | hy
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· simp [hy] at A
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simp [hy] at B
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rw [abs_of_nonneg hy]
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rw [abs_of_nonneg (le_of_lt A)]
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exact B
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· simp [hy] at A
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simp [hy] at B
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rw [abs_of_nonpos hy]
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rw [abs_of_nonpos]
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linarith [h.1]
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exact B
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have t₁ : ‖(∫ (x : ℝ) in (0)..(y.re), f { re := x, im := 0 } - f 0)‖ ≤ (c / (4 : ℝ)) * |y.re - 0| := by
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have t₁ : ‖(∫ (x : ℝ) in (0)..(y.re), f { re := x, im := 0 } - f 0)‖ ≤ (c / (4 : ℝ)) * |y.re - 0| := by
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apply intervalIntegral.norm_integral_le_of_norm_le_const
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apply intervalIntegral.norm_integral_le_of_norm_le_const
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intro x hx
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intro x hx
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have h₁x : |x| < ε := by
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have h₁x : |x| < ε := by
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calc |x|
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sorry
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_ ≤ |y.re| := intervalComputation hx
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_ < ε := h₁y
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apply le_of_lt
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apply le_of_lt
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apply h₃ε { re := x, im := 0 }
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apply h₃ε { re := x, im := 0 }
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rw [mem_ball_iff_norm]
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rw [mem_ball_iff_norm]
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@ -264,16 +288,21 @@ theorem primitive_fderivAtBasepoint
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have t₂ : ‖∫ (x : ℝ) in (0)..(y.im), f { re := y.re, im := x } - f 0‖ ≤ (c / (4 : ℝ)) * |y.im - 0| := by
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have t₂ : ‖∫ (x : ℝ) in (0)..(y.im), f { re := y.re, im := x } - f 0‖ ≤ (c / (4 : ℝ)) * |y.im - 0| := by
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apply intervalIntegral.norm_integral_le_of_norm_le_const
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apply intervalIntegral.norm_integral_le_of_norm_le_const
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intro x hx
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intro x hx
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have h₁x : |x| < ε := by
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have h₁x : |x| < ε := by
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sorry
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calc |x|
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_ ≤ |y.im| := intervalComputation hx
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_ < ε := h₂y
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apply le_of_lt
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apply le_of_lt
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apply h₃ε { re := y.re, im := x }
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apply h₃ε { re := y.re, im := x }
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simp
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simp
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have : { re := y.re, im := x } = (x : ℂ) := by
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rfl
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calc Complex.abs { re := y.re, im := x }
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rw [this]
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_ ≤ |y.re| + |x| := by
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rw [Complex.abs_ofReal]
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apply Complex.abs_le_abs_re_add_abs_im { re := y.re, im := x }
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exact h₁x
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_ ≤ 2 * ε := by
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linarith
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calc ‖(∫ (x : ℝ) in (0)..(y.re), f { re := x, im := 0 } - f 0) + Complex.I • ∫ (x : ℝ) in (0)..(y.im), f { re := y.re, im := x } - f 0‖
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calc ‖(∫ (x : ℝ) in (0)..(y.re), f { re := x, im := 0 } - f 0) + Complex.I • ∫ (x : ℝ) in (0)..(y.im), f { re := y.re, im := x } - f 0‖
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_ ≤ ‖(∫ (x : ℝ) in (0)..(y.re), f { re := x, im := 0 } - f 0)‖ + ‖Complex.I • ∫ (x : ℝ) in (0)..(y.im), f { re := y.re, im := x } - f 0‖ := by
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_ ≤ ‖(∫ (x : ℝ) in (0)..(y.re), f { re := x, im := 0 } - f 0)‖ + ‖Complex.I • ∫ (x : ℝ) in (0)..(y.im), f { re := y.re, im := x } - f 0‖ := by
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@ -282,13 +311,18 @@ theorem primitive_fderivAtBasepoint
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simp
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simp
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rw [norm_smul]
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rw [norm_smul]
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simp
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simp
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_ ≤ (c / (4 : ℝ)) * |y.re - 0| + ‖∫ (x : ℝ) in (0)..(y.im), f { re := y.re, im := x } - f 0‖ := by
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_ ≤ (c / (4 : ℝ)) * |y.re - 0| + (c / (4 : ℝ)) * |y.im - 0| := by
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apply add_le_add
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apply add_le_add
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exact t₁
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exact t₁
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rfl
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exact t₂
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_ ≤ c * ‖y‖ := by sorry
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_ ≤ (c / (4 : ℝ)) * (|y.re| + |y.im|) := by
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simp
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rw [mul_add]
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_ ≤ c * ‖y‖ := by
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apply mul_le_mul
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apply div_le_self
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exact le_of_lt hc
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linarith
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sorry
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sorry
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