Split (1)

train · 219k rows

url stringclasses 147 values	commit stringclasses 147 values	file_path stringlengths 7 101	full_name stringlengths 1 94	start stringlengths 6 10	end stringlengths 6 11	tactic stringlengths 1 11.2k	state_before stringlengths 3 2.09M	state_after stringlengths 6 2.09M	input stringlengths 73 2.09M
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	fc_f	[183, 1]	[185, 49]	exact one_ne_zero	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ 1 ≠ 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ 1 ≠ 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	fd_f	[187, 1]	[189, 34]	rw [fl_f', analyticAt_gl.monomial_mul_orderAt gl_frequently_ne_zero, orderAt_eq_zero, add_zero]	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ orderAt (fl (f d) ∞ c) 0 = d	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ gl d c 0 ≠ 0	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ orderAt (fl (f d) ∞ c) 0 = d TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	fd_f	[187, 1]	[189, 34]	rw [gl_zero]	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ gl d c 0 ≠ 0	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ 1 ≠ 0	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ gl d c 0 ≠ 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	fd_f	[187, 1]	[189, 34]	exact one_ne_zero	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ 1 ≠ 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ 1 ≠ 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	f_inf	[191, 1]	[191, 95]	simp only [f, f', lift_inf', eq_self_iff_true, imp_true_iff]	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ f d c ∞ = ∞	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ f d c ∞ = ∞ TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	set s := superF d	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ ⊢ SuperNear (fl (f d) ∞ c) d {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹}	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d ⊢ SuperNear (fl (f d) ∞ c) d {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹}	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ ⊢ SuperNear (fl (f d) ∞ c) d {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	generalize ht : {z : ℂ \| abs z < (max 16 (abs c / 2))⁻¹} = t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d ⊢ SuperNear (fl (f d) ∞ c) d {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹}	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t ⊢ SuperNear (fl (f d) ∞ c) d t	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d ⊢ SuperNear (fl (f d) ∞ c) d {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	have cz : ∀ {z}, z ∈ t → abs (c * z ^ d) ≤ 1 / 8 := by intro z m; simp only [← ht, mem_setOf] at m simp only [Complex.abs.map_mul, Complex.abs.map_pow] trans abs c * (max 16 (abs c / 2))⁻¹ ^ d; bound rw [inv_pow, mul_inv_le_iff]; swap; bound rw [mul_one_div]; rw [le_div_iff, mul_comm]; swap; norm_num refine le_trans ?_ (pow_le_pow_right (le_max_of_le_left (by norm_num)) (two_le_d d)) by_cases cb : abs c / 2 ≤ 16 rw [max_eq_left cb, pow_two]; linarith rw [max_eq_right (not_le.mp cb).le, pow_two]; nlinarith	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t ⊢ SuperNear (fl (f d) ∞ c) d t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 ⊢ SuperNear (fl (f d) ∞ c) d t	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t ⊢ SuperNear (fl (f d) ∞ c) d t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	have cz1 : ∀ {z}, z ∈ t → 7 / 8 ≤ abs (1 + c * z ^ d) := by intro z m calc abs (1 + c * z ^ d) _ ≥ Complex.abs 1 - abs (c * z ^ d) := by bound _ ≥ Complex.abs 1 - 1 / 8 := by linarith [cz m] _ = 7 / 8 := by norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 ⊢ SuperNear (fl (f d) ∞ c) d t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ SuperNear (fl (f d) ∞ c) d t	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 ⊢ SuperNear (fl (f d) ∞ c) d t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	have zb : ∀ {z}, z ∈ t → abs z ≤ 1 / 8 := by intro z m; rw [← ht] at m; refine le_trans (le_of_lt m) ?_ rw [one_div]; exact inv_le_inv_of_le (by norm_num) (le_trans (by norm_num) (le_max_left _ _))	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ SuperNear (fl (f d) ∞ c) d t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ SuperNear (fl (f d) ∞ c) d t	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ SuperNear (fl (f d) ∞ c) d t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	exact { d2 := two_le_d d fa0 := (s.fla c).along_snd fd := fd_f fc := fc_f o := by rw [← ht]; exact isOpen_lt Complex.continuous_abs continuous_const t0 := by simp only [← ht, mem_setOf, Complex.abs.map_zero]; bound t2 := fun {z} m ↦ le_trans (zb m) (by norm_num) fa := by intro z m; rw [fl_f] refine ((analyticAt_id _ _).pow _).div (analyticAt_const.add (analyticAt_const.mul ((analyticAt_id _ _).pow _))) ?_ rw [← Complex.abs.ne_zero_iff]; exact (lt_of_lt_of_le (by norm_num) (cz1 m)).ne' ft := by intro z m; specialize cz1 m; specialize zb m simp only [fl_f, mem_setOf, map_div₀, Complex.abs.map_pow, ← ht] at m ⊢ refine lt_of_le_of_lt ?_ m; rw [div_le_iff (lt_of_lt_of_le (by norm_num) cz1)] refine le_trans (pow_le_pow_of_le_one (Complex.abs.nonneg _) (le_trans zb (by norm_num)) (two_le_d d)) ?_ rw [pow_two]; refine mul_le_mul_of_nonneg_left ?_ (Complex.abs.nonneg _) exact le_trans zb (le_trans (by norm_num) cz1) gs' := by intro z z0 m; simp only [fl_f, div_div_cancel_left' (pow_ne_zero d z0)] specialize cz1 m have czp : 0 < abs (1 + c * z ^ d) := lt_of_lt_of_le (by norm_num) cz1 refine le_of_mul_le_mul_right ?_ czp rw [← Complex.abs.map_mul, mul_sub_right_distrib, one_mul, inv_mul_cancel (Complex.abs.ne_zero_iff.mp czp.ne'), ← sub_sub, sub_self, zero_sub, Complex.abs.map_neg] exact le_trans (cz m) (le_trans (by norm_num) (mul_le_mul_of_nonneg_left cz1 (by norm_num))) }	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ SuperNear (fl (f d) ∞ c) d t	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ SuperNear (fl (f d) ∞ c) d t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	intro z m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t ⊢ ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : z ∈ t ⊢ Complex.abs (c * z ^ d) ≤ 1 / 8	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t ⊢ ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	simp only [← ht, mem_setOf] at m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : z ∈ t ⊢ Complex.abs (c * z ^ d) ≤ 1 / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs (c * z ^ d) ≤ 1 / 8	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : z ∈ t ⊢ Complex.abs (c * z ^ d) ≤ 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	simp only [Complex.abs.map_mul, Complex.abs.map_pow]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs (c * z ^ d) ≤ 1 / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * Complex.abs z ^ d ≤ 1 / 8	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs (c * z ^ d) ≤ 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	trans abs c * (max 16 (abs c / 2))⁻¹ ^ d	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * Complex.abs z ^ d ≤ 1 / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * Complex.abs z ^ d ≤ Complex.abs c * (max 16 (Complex.abs c / 2))⁻¹ ^ d c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * (max 16 (Complex.abs c / 2))⁻¹ ^ d ≤ 1 / 8	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * Complex.abs z ^ d ≤ 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	bound	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * Complex.abs z ^ d ≤ Complex.abs c * (max 16 (Complex.abs c / 2))⁻¹ ^ d c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * (max 16 (Complex.abs c / 2))⁻¹ ^ d ≤ 1 / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * (max 16 (Complex.abs c / 2))⁻¹ ^ d ≤ 1 / 8	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * Complex.abs z ^ d ≤ Complex.abs c * (max 16 (Complex.abs c / 2))⁻¹ ^ d c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * (max 16 (Complex.abs c / 2))⁻¹ ^ d ≤ 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [inv_pow, mul_inv_le_iff]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * (max 16 (Complex.abs c / 2))⁻¹ ^ d ≤ 1 / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d * (1 / 8) c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < max 16 (Complex.abs c / 2) ^ d	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c * (max 16 (Complex.abs c / 2))⁻¹ ^ d ≤ 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	swap	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d * (1 / 8) c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < max 16 (Complex.abs c / 2) ^ d	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < max 16 (Complex.abs c / 2) ^ d c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d * (1 / 8)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d * (1 / 8) c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < max 16 (Complex.abs c / 2) ^ d TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	bound	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < max 16 (Complex.abs c / 2) ^ d c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d * (1 / 8)	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d * (1 / 8)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < max 16 (Complex.abs c / 2) ^ d c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d * (1 / 8) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [mul_one_div]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d * (1 / 8)	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d / 8	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d * (1 / 8) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [le_div_iff, mul_comm]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < 8	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	swap	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < 8 c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < 8 c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < 8 c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	refine le_trans ?_ (pow_le_pow_right (le_max_of_le_left (by norm_num)) (two_le_d d))	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ d TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	by_cases cb : abs c / 2 ≤ 16	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2	case pos c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2 case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [max_eq_left cb, pow_two]	case pos c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2 case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2	case pos c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ 16 * 16 case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2	Please generate a tactic in lean4 to solve the state. STATE: case pos c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2 case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	linarith	case pos c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ 16 * 16 case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2	case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2	Please generate a tactic in lean4 to solve the state. STATE: case pos c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ 16 * 16 case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [max_eq_right (not_le.mp cb).le, pow_two]	case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2	case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ Complex.abs c / 2 * (Complex.abs c / 2)	Please generate a tactic in lean4 to solve the state. STATE: case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ max 16 (Complex.abs c / 2) ^ 2 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	nlinarith	case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ Complex.abs c / 2 * (Complex.abs c / 2)	no goals	Please generate a tactic in lean4 to solve the state. STATE: case neg c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ cb : ¬Complex.abs c / 2 ≤ 16 ⊢ 8 * Complex.abs c ≤ Complex.abs c / 2 * (Complex.abs c / 2) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 1 ≤ 16	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t z : ℂ m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 1 ≤ 16 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	intro z m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 ⊢ ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d)	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ 7 / 8 ≤ Complex.abs (1 + c * z ^ d)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 ⊢ ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	calc abs (1 + c * z ^ d) _ ≥ Complex.abs 1 - abs (c * z ^ d) := by bound _ ≥ Complex.abs 1 - 1 / 8 := by linarith [cz m] _ = 7 / 8 := by norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ 7 / 8 ≤ Complex.abs (1 + c * z ^ d)	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ 7 / 8 ≤ Complex.abs (1 + c * z ^ d) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	bound	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ Complex.abs (1 + c * z ^ d) ≥ Complex.abs 1 - Complex.abs (c * z ^ d)	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ Complex.abs (1 + c * z ^ d) ≥ Complex.abs 1 - Complex.abs (c * z ^ d) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	linarith [cz m]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ Complex.abs 1 - Complex.abs (c * z ^ d) ≥ Complex.abs 1 - 1 / 8	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ Complex.abs 1 - Complex.abs (c * z ^ d) ≥ Complex.abs 1 - 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ Complex.abs 1 - 1 / 8 = 7 / 8	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ Complex.abs 1 - 1 / 8 = 7 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	intro z m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ t ⊢ Complex.abs z ≤ 1 / 8	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [← ht] at m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ t ⊢ Complex.abs z ≤ 1 / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ Complex.abs z ≤ 1 / 8	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ t ⊢ Complex.abs z ≤ 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	refine le_trans (le_of_lt m) ?_	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ Complex.abs z ≤ 1 / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ (max 16 (Complex.abs c / 2))⁻¹ ≤ 1 / 8	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ Complex.abs z ≤ 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [one_div]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ (max 16 (Complex.abs c / 2))⁻¹ ≤ 1 / 8	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ (max 16 (Complex.abs c / 2))⁻¹ ≤ 8⁻¹	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ (max 16 (Complex.abs c / 2))⁻¹ ≤ 1 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	exact inv_le_inv_of_le (by norm_num) (le_trans (by norm_num) (le_max_left _ _))	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ (max 16 (Complex.abs c / 2))⁻¹ ≤ 8⁻¹	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ (max 16 (Complex.abs c / 2))⁻¹ ≤ 8⁻¹ TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ 0 < 8	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ 0 < 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ 8 ≤ 16	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) z : ℂ m : z ∈ {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} ⊢ 8 ≤ 16 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [← ht]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ IsOpen t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ IsOpen {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹}	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ IsOpen t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	exact isOpen_lt Complex.continuous_abs continuous_const	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ IsOpen {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹}	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ IsOpen {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	simp only [← ht, mem_setOf, Complex.abs.map_zero]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ 0 ∈ t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ 0 < (max 16 (Complex.abs c / 2))⁻¹	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ 0 ∈ t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	bound	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ 0 < (max 16 (Complex.abs c / 2))⁻¹	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ 0 < (max 16 (Complex.abs c / 2))⁻¹ TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ 1 / 8 ≤ 1 / 2	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ 1 / 8 ≤ 1 / 2 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	intro z m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ AnalyticOn ℂ (fl (f d) ∞ c) t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ AnalyticAt ℂ (fl (f d) ∞ c) z	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ AnalyticOn ℂ (fl (f d) ∞ c) t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [fl_f]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ AnalyticAt ℂ (fl (f d) ∞ c) z	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ AnalyticAt ℂ ((fun c z => z ^ d / (1 + c * z ^ d)) c) z	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ AnalyticAt ℂ (fl (f d) ∞ c) z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	refine ((analyticAt_id _ _).pow _).div (analyticAt_const.add (analyticAt_const.mul ((analyticAt_id _ _).pow _))) ?_	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ AnalyticAt ℂ ((fun c z => z ^ d / (1 + c * z ^ d)) c) z	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ 1 + c * z ^ d ≠ 0	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ AnalyticAt ℂ ((fun c z => z ^ d / (1 + c * z ^ d)) c) z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [← Complex.abs.ne_zero_iff]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ 1 + c * z ^ d ≠ 0	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ Complex.abs (1 + c * z ^ d) ≠ 0	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ 1 + c * z ^ d ≠ 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	exact (lt_of_lt_of_le (by norm_num) (cz1 m)).ne'	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ Complex.abs (1 + c * z ^ d) ≠ 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ Complex.abs (1 + c * z ^ d) ≠ 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ 0 < 7 / 8	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ 0 < 7 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	intro z m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ MapsTo (fl (f d) ∞ c) t t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ fl (f d) ∞ c z ∈ t	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ MapsTo (fl (f d) ∞ c) t t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	specialize cz1 m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ fl (f d) ∞ c z ∈ t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ fl (f d) ∞ c z ∈ t	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t ⊢ fl (f d) ∞ c z ∈ t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	specialize zb m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ fl (f d) ∞ c z ∈ t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 ⊢ fl (f d) ∞ c z ∈ t	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ fl (f d) ∞ c z ∈ t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	simp only [fl_f, mem_setOf, map_div₀, Complex.abs.map_pow, ← ht] at m ⊢	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 ⊢ fl (f d) ∞ c z ∈ t	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ d / Complex.abs (1 + c * z ^ d) < (max 16 (Complex.abs c / 2))⁻¹	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 ⊢ fl (f d) ∞ c z ∈ t TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	refine lt_of_le_of_lt ?_ m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ d / Complex.abs (1 + c * z ^ d) < (max 16 (Complex.abs c / 2))⁻¹	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ d / Complex.abs (1 + c * z ^ d) ≤ Complex.abs z	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ d / Complex.abs (1 + c * z ^ d) < (max 16 (Complex.abs c / 2))⁻¹ TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [div_le_iff (lt_of_lt_of_le (by norm_num) cz1)]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ d / Complex.abs (1 + c * z ^ d) ≤ Complex.abs z	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ d ≤ Complex.abs z * Complex.abs (1 + c * z ^ d)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ d / Complex.abs (1 + c * z ^ d) ≤ Complex.abs z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	refine le_trans (pow_le_pow_of_le_one (Complex.abs.nonneg _) (le_trans zb (by norm_num)) (two_le_d d)) ?_	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ d ≤ Complex.abs z * Complex.abs (1 + c * z ^ d)	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ 2 ≤ Complex.abs z * Complex.abs (1 + c * z ^ d)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ d ≤ Complex.abs z * Complex.abs (1 + c * z ^ d) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [pow_two]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ 2 ≤ Complex.abs z * Complex.abs (1 + c * z ^ d)	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z * Complex.abs z ≤ Complex.abs z * Complex.abs (1 + c * z ^ d)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ^ 2 ≤ Complex.abs z * Complex.abs (1 + c * z ^ d) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	refine mul_le_mul_of_nonneg_left ?_ (Complex.abs.nonneg _)	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z * Complex.abs z ≤ Complex.abs z * Complex.abs (1 + c * z ^ d)	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ≤ Complex.abs (1 + c * z ^ d)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z * Complex.abs z ≤ Complex.abs z * Complex.abs (1 + c * z ^ d) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	exact le_trans zb (le_trans (by norm_num) cz1)	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ≤ Complex.abs (1 + c * z ^ d)	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ Complex.abs z ≤ Complex.abs (1 + c * z ^ d) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < 7 / 8	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 0 < 7 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 1 / 8 ≤ 1	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 1 / 8 ≤ 1 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 1 / 8 ≤ 7 / 8	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 z : ℂ cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : Complex.abs z ≤ 1 / 8 m : Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹ ⊢ 1 / 8 ≤ 7 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	intro z z0 m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ ∀ {z : ℂ}, z ≠ 0 → z ∈ t → Complex.abs (fl (f d) ∞ c z / z ^ d - 1) ≤ 1 / 4	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t ⊢ Complex.abs (fl (f d) ∞ c z / z ^ d - 1) ≤ 1 / 4	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 ⊢ ∀ {z : ℂ}, z ≠ 0 → z ∈ t → Complex.abs (fl (f d) ∞ c z / z ^ d - 1) ≤ 1 / 4 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	simp only [fl_f, div_div_cancel_left' (pow_ne_zero d z0)]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t ⊢ Complex.abs (fl (f d) ∞ c z / z ^ d - 1) ≤ 1 / 4	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) ≤ 1 / 4	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t ⊢ Complex.abs (fl (f d) ∞ c z / z ^ d - 1) ≤ 1 / 4 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	specialize cz1 m	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) ≤ 1 / 4	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) ≤ 1 / 4	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 cz1 : ∀ {z : ℂ}, z ∈ t → 7 / 8 ≤ Complex.abs (1 + c * z ^ d) zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) ≤ 1 / 4 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	have czp : 0 < abs (1 + c * z ^ d) := lt_of_lt_of_le (by norm_num) cz1	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) ≤ 1 / 4	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) ≤ 1 / 4	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) ≤ 1 / 4 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	refine le_of_mul_le_mul_right ?_ czp	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) ≤ 1 / 4	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) * Complex.abs (1 + c * z ^ d) ≤ 1 / 4 * Complex.abs (1 + c * z ^ d)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) ≤ 1 / 4 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	rw [← Complex.abs.map_mul, mul_sub_right_distrib, one_mul, inv_mul_cancel (Complex.abs.ne_zero_iff.mp czp.ne'), ← sub_sub, sub_self, zero_sub, Complex.abs.map_neg]	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) * Complex.abs (1 + c * z ^ d) ≤ 1 / 4 * Complex.abs (1 + c * z ^ d)	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ Complex.abs (c * z ^ d) ≤ 1 / 4 * Complex.abs (1 + c * z ^ d)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ Complex.abs ((1 + c * z ^ d)⁻¹ - 1) * Complex.abs (1 + c * z ^ d) ≤ 1 / 4 * Complex.abs (1 + c * z ^ d) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	exact le_trans (cz m) (le_trans (by norm_num) (mul_le_mul_of_nonneg_left cz1 (by norm_num)))	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ Complex.abs (c * z ^ d) ≤ 1 / 4 * Complex.abs (1 + c * z ^ d)	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ Complex.abs (c * z ^ d) ≤ 1 / 4 * Complex.abs (1 + c * z ^ d) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ 0 < 7 / 8	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) ⊢ 0 < 7 / 8 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ 1 / 8 ≤ 1 / 4 * (7 / 8)	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ 1 / 8 ≤ 1 / 4 * (7 / 8) TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	superNearF	[203, 1]	[256, 59]	norm_num	c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ 0 ≤ 1 / 4	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d✝ : ℕ inst✝¹ : Fact (2 ≤ d✝) d : ℕ inst✝ : Fact (2 ≤ d) c : ℂ s : Super (f d) d ∞ := superF d t : Set ℂ ht : {z \| Complex.abs z < (max 16 (Complex.abs c / 2))⁻¹} = t cz : ∀ {z : ℂ}, z ∈ t → Complex.abs (c * z ^ d) ≤ 1 / 8 zb : ∀ {z : ℂ}, z ∈ t → Complex.abs z ≤ 1 / 8 z : ℂ z0 : z ≠ 0 m : z ∈ t cz1 : 7 / 8 ≤ Complex.abs (1 + c * z ^ d) czp : 0 < Complex.abs (1 + c * z ^ d) ⊢ 0 ≤ 1 / 4 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	critical_f	[266, 1]	[281, 31]	induction' z using OnePoint.rec with z	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : 𝕊 ⊢ Critical (f d c) z ↔ z = 0 ∨ z = ∞	case h₁ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ Critical (f d c) ∞ ↔ ∞ = 0 ∨ ∞ = ∞ case h₂ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ ⊢ Critical (f d c) ↑z ↔ ↑z = 0 ∨ ↑z = ∞	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : 𝕊 ⊢ Critical (f d c) z ↔ z = 0 ∨ z = ∞ TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	critical_f	[266, 1]	[281, 31]	simp only [(superF d).critical_a, or_true]	case h₁ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ Critical (f d c) ∞ ↔ ∞ = 0 ∨ ∞ = ∞	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h₁ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ Critical (f d c) ∞ ↔ ∞ = 0 ∨ ∞ = ∞ TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	critical_f	[266, 1]	[281, 31]	have zx : ∀ x : ℂ, (0 : ℂ →L[ℂ] ℂ) x = 0 := fun x ↦ ContinuousLinearMap.zero_apply _	case h₂ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ ⊢ Critical (f d c) ↑z ↔ ↑z = 0 ∨ ↑z = ∞	case h₂ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ Critical (f d c) ↑z ↔ ↑z = 0 ∨ ↑z = ∞	Please generate a tactic in lean4 to solve the state. STATE: case h₂ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ ⊢ Critical (f d c) ↑z ↔ ↑z = 0 ∨ ↑z = ∞ TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	critical_f	[266, 1]	[281, 31]	simp only [Critical, mfderiv, (holomorphicF (c, z)).along_snd.mdifferentiableAt, if_pos, ModelWithCorners.Boundaryless.range_eq_univ, fderivWithin_univ, writtenInExtChartAt_coe_f, RiemannSphere.extChartAt_coe, coePartialEquiv_symm_apply, toComplex_coe, coe_eq_zero, coe_eq_inf_iff, or_false_iff, ← deriv_fderiv, deriv_f', ContinuousLinearMap.ext_iff, ContinuousLinearMap.smulRight_apply, ContinuousLinearMap.one_apply, Algebra.id.smul_eq_mul, one_mul, mul_eq_zero, Nat.cast_eq_zero, d_ne_zero, false_or_iff, pow_eq_zero_iff (d_minus_one_pos d).ne', zx]	case h₂ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ Critical (f d c) ↑z ↔ ↑z = 0 ∨ ↑z = ∞	case h₂ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ (∀ (x : ℂ), x = 0 ∨ z = 0) ↔ z = 0	Please generate a tactic in lean4 to solve the state. STATE: case h₂ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ Critical (f d c) ↑z ↔ ↑z = 0 ∨ ↑z = ∞ TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	critical_f	[266, 1]	[281, 31]	constructor	case h₂ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ (∀ (x : ℂ), x = 0 ∨ z = 0) ↔ z = 0	case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ (∀ (x : ℂ), x = 0 ∨ z = 0) → z = 0 case h₂.mpr c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ z = 0 → ∀ (x : ℂ), x = 0 ∨ z = 0	Please generate a tactic in lean4 to solve the state. STATE: case h₂ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ (∀ (x : ℂ), x = 0 ∨ z = 0) ↔ z = 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	critical_f	[266, 1]	[281, 31]	intro h	case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ (∀ (x : ℂ), x = 0 ∨ z = 0) → z = 0	case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 h : ∀ (x : ℂ), x = 0 ∨ z = 0 ⊢ z = 0	Please generate a tactic in lean4 to solve the state. STATE: case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ (∀ (x : ℂ), x = 0 ∨ z = 0) → z = 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	critical_f	[266, 1]	[281, 31]	specialize h 1	case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 h : ∀ (x : ℂ), x = 0 ∨ z = 0 ⊢ z = 0	case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 h : 1 = 0 ∨ z = 0 ⊢ z = 0	Please generate a tactic in lean4 to solve the state. STATE: case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 h : ∀ (x : ℂ), x = 0 ∨ z = 0 ⊢ z = 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	critical_f	[266, 1]	[281, 31]	simp only [one_mul, mul_eq_zero, one_ne_zero, false_or_iff] at h	case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 h : 1 = 0 ∨ z = 0 ⊢ z = 0	case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 h : z = 0 ⊢ z = 0	Please generate a tactic in lean4 to solve the state. STATE: case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 h : 1 = 0 ∨ z = 0 ⊢ z = 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	critical_f	[266, 1]	[281, 31]	exact h	case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 h : z = 0 ⊢ z = 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h₂.mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 h : z = 0 ⊢ z = 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	critical_f	[266, 1]	[281, 31]	exact fun h x ↦ Or.inr h	case h₂.mpr c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ z = 0 → ∀ (x : ℂ), x = 0 ∨ z = 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h₂.mpr c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) z : ℂ zx : ∀ (x : ℂ), 0 x = 0 ⊢ z = 0 → ∀ (x : ℂ), x = 0 ∨ z = 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin'	[284, 1]	[285, 71]	simp only [multibrot, mem_setOf, Super.basin_iff_attracts, Attracts]	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ c ∈ multibrot d ↔ (c, ↑c) ∉ ⋯.basin	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ c ∈ multibrot d ↔ (c, ↑c) ∉ ⋯.basin TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	set s := superF d	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ c ∈ multibrot d ↔ (c, 0) ∉ ⋯.basin	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d ⊢ c ∈ multibrot d ↔ (c, 0) ∉ s.basin	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) ⊢ c ∈ multibrot d ↔ (c, 0) ∉ ⋯.basin TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	simp only [multibrot_basin', not_iff_not, Super.basin, mem_setOf]	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d ⊢ c ∈ multibrot d ↔ (c, 0) ∉ s.basin	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d ⊢ (∃ n, (c, (f d c)^[n] ↑c) ∈ ⋯.near) ↔ ∃ n, (c, (f d c)^[n] 0) ∈ s.near	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d ⊢ c ∈ multibrot d ↔ (c, 0) ∉ s.basin TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	simp only [e]	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n] ↑c) ∈ ⋯.near) ↔ ∃ n, (c, (f d c)^[n] 0) ∈ s.near	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near) ↔ ∃ n, (c, (f d c)^[n] 0) ∈ s.near	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n] ↑c) ∈ ⋯.near) ↔ ∃ n, (c, (f d c)^[n] 0) ∈ s.near TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	constructor	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near) ↔ ∃ n, (c, (f d c)^[n] 0) ∈ s.near	case mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near) → ∃ n, (c, (f d c)^[n] 0) ∈ s.near case mpr c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n] 0) ∈ s.near) → ∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near) ↔ ∃ n, (c, (f d c)^[n] 0) ∈ s.near TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	intro n	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d ⊢ ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d n : ℕ ⊢ (f d c)^[n] ↑c = (f d c)^[n + 1] 0	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d ⊢ ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	induction' n with n h	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d n : ℕ ⊢ (f d c)^[n] ↑c = (f d c)^[n + 1] 0	case zero c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d ⊢ (f d c)^[0] ↑c = (f d c)^[0 + 1] 0 case succ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d n : ℕ h : (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (f d c)^[n + 1] ↑c = (f d c)^[n + 1 + 1] 0	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d n : ℕ ⊢ (f d c)^[n] ↑c = (f d c)^[n + 1] 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	simp only [Function.iterate_zero_apply, zero_add, Function.iterate_one, f_0, Nat.zero_eq]	case zero c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d ⊢ (f d c)^[0] ↑c = (f d c)^[0 + 1] 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: case zero c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d ⊢ (f d c)^[0] ↑c = (f d c)^[0 + 1] 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	simp only [Function.iterate_succ_apply', h]	case succ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d n : ℕ h : (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (f d c)^[n + 1] ↑c = (f d c)^[n + 1 + 1] 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: case succ c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d n : ℕ h : (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (f d c)^[n + 1] ↑c = (f d c)^[n + 1 + 1] 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	intro ⟨n, h⟩	case mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near) → ∃ n, (c, (f d c)^[n] 0) ∈ s.near	case mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 n : ℕ h : (c, (f d c)^[n + 1] 0) ∈ ⋯.near ⊢ ∃ n, (c, (f d c)^[n] 0) ∈ s.near	Please generate a tactic in lean4 to solve the state. STATE: case mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near) → ∃ n, (c, (f d c)^[n] 0) ∈ s.near TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	exact ⟨n + 1, h⟩	case mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 n : ℕ h : (c, (f d c)^[n + 1] 0) ∈ ⋯.near ⊢ ∃ n, (c, (f d c)^[n] 0) ∈ s.near	no goals	Please generate a tactic in lean4 to solve the state. STATE: case mp c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 n : ℕ h : (c, (f d c)^[n + 1] 0) ∈ ⋯.near ⊢ ∃ n, (c, (f d c)^[n] 0) ∈ s.near TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	intro ⟨n, h⟩	case mpr c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n] 0) ∈ s.near) → ∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near	case mpr c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 n : ℕ h : (c, (f d c)^[n] 0) ∈ s.near ⊢ ∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near	Please generate a tactic in lean4 to solve the state. STATE: case mpr c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 ⊢ (∃ n, (c, (f d c)^[n] 0) ∈ s.near) → ∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	use n	case mpr c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 n : ℕ h : (c, (f d c)^[n] 0) ∈ s.near ⊢ ∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near	case h c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 n : ℕ h : (c, (f d c)^[n] 0) ∈ s.near ⊢ (c, (f d c)^[n + 1] 0) ∈ ⋯.near	Please generate a tactic in lean4 to solve the state. STATE: case mpr c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 n : ℕ h : (c, (f d c)^[n] 0) ∈ s.near ⊢ ∃ n, (c, (f d c)^[n + 1] 0) ∈ ⋯.near TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Basic.lean	multibrot_basin	[287, 1]	[296, 88]	simp only [Function.iterate_succ_apply']	case h c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 n : ℕ h : (c, (f d c)^[n] 0) ∈ s.near ⊢ (c, (f d c)^[n + 1] 0) ∈ ⋯.near	case h c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 n : ℕ h : (c, (f d c)^[n] 0) ∈ s.near ⊢ (c, f d c ((f d c)^[n] 0)) ∈ ⋯.near	Please generate a tactic in lean4 to solve the state. STATE: case h c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) s : Super (f d) d ∞ := superF d e : ∀ (n : ℕ), (f d c)^[n] ↑c = (f d c)^[n + 1] 0 n : ℕ h : (c, (f d c)^[n] 0) ∈ s.near ⊢ (c, (f d c)^[n + 1] 0) ∈ ⋯.near TACTIC:

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