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/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	norm_num	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ⊢ (4 - 1).log / log 4 = log 3 / log 4	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ⊢ (4 - 1).log / log 4 = log 3 / log 4 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	positivity	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ⊢ 0 ≤ log 3	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ⊢ 0 ≤ log 3 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	positivity	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ⊢ 0 < log 4	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ⊢ 0 < log 4 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	norm_num	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ⊢ 1.098 / 1.387 ≥ 0.791	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ⊢ 1.098 / 1.387 ≥ 0.791 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	positivity	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ⊢ 0 ≤ (x - 1).log / x.log	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ⊢ 0 ≤ (x - 1).log / x.log TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	linarith	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ⊢ 0 < x - 1	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ⊢ 0 < x - 1 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	linarith	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ⊢ x - 1 ≤ x	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ⊢ x - 1 ≤ x TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	positivity	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ⊢ 0 ≤ x.log	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ⊢ 0 ≤ x.log TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	nlinarith	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ 1 < (x - 1) * x	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ 1 < (x - 1) * x TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	rw [mul_comm, Real.log_mul (by positivity) (by linarith)]	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ ((x - 1) * x).log.log = (x.log + (x - 1).log).log	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ ((x - 1) * x).log.log = (x.log +...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	positivity	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ x ≠ 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ x ≠ 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	linarith	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ x - 1 ≠ 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ x - 1 ≠ 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	rw [log_add _ _ (by linarith) (by linarith)]	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ (x.log + (x - 1).log).log = x.log.log + (1 + (x - 1).log / x.log).log	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ (x.log + (x - 1).log).log = x.lo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	linarith	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ 0 < x.log	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ 0 < x.log TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	linarith	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ 0 < x.log + (x - 1).log	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ 0 < x.log + (x - 1).log TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	bound [le_log_one_add ll0 ll1]	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ x.log.log + (1 + (x - 1).log / x.log).log ≥ x.log.log + log 2 * ((x - 1).log / x.log)	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ x.log.log + (1 + (x - 1).log / x...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	bound [lt_log_2]	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ x.log.log + log 2 * ((x - 1).log / x.log) ≥ x.log.log + 0.693 * 0.791	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ x.log.log + log 2 * ((x - 1).log...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	log_log_iter	[66, 1]	[100, 40]	bound	c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ x.log.log + 0.693 * 0.791 ≥ x.log.log + 0.548	no goals	Please generate a tactic in lean4 to solve the state. STATE: c : ℂ d : ℕ inst✝ : Fact (2 ≤ d) w x : ℝ z4 : 4 ≤ x x0 : 0 < x x1 : 1 < x zw : (x - 1) * x ≤ w lx1 : 1 < (x - 1).log lx : 1 < x.log ll : 0.791 ≤ (x - 1).log / x.log ll0 : 0 ≤ (x - 1).log / x.log ll1 : (x - 1).log / x.log ≤ 1 ⊢ x.log.log + 0.693 * 0.791 ≥ x.lo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have d0 : 0 < d := d_pos d	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z ⊢ Postcritical ⋯ c ↑z	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d ⊢ Postcritical ⋯ c ↑z	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z ⊢ Postcritical ⋯ c ↑z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have lcz : log (log (abs c)) ≤ log (log (abs z)) := log_log_mono (by linarith) cz	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d ⊢ Postcritical ⋯ c ↑z	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log ⊢ Postcritical ⋯ c ↑z	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d ⊢ Postcritical ⋯ c ↑z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	simp only [Postcritical, multibrot_p]	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log ⊢ Postcritical ⋯ c ↑z	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log ⊢ ⋯.potential c ↑z < ⋯.potential c 0	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log ⊢ Postcritical ⋯ c ↑z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	set s := superF d	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log ⊢ ⋯.potential c ↑z < ⋯.potential c 0	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ s.potential c ↑z < s.potential c 0	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log ⊢ ⋯.potential c ↑z < ⋯.potential c 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	rw [← Real.pow_rpow_inv_natCast s.potential_nonneg d0.ne', ← Real.pow_rpow_inv_natCast (s.potential_nonneg : 0 ≤ s.potential c 0) d0.ne']	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ s.potential c ↑z < s.potential c 0	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ (s.potential c ↑z ^ d) ^ (↑d)⁻¹ < (s.potential c 0 ^ d) ^ (↑d)⁻¹	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ s.potential c ↑z < s.potential c 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	simp only [← s.potential_eqn]	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ (s.potential c ↑z ^ d) ^ (↑d)⁻¹ < (s.potential c 0 ^ d) ^ (↑d)⁻¹	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ s.potential c (f d c ↑z) ^ (↑d)⁻¹ < s.potential c (f d c 0) ^ (↑d)⁻¹	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ (s.potential c ↑z ^ d) ^ (↑d)⁻¹ < (s.potential c 0 ^ d) ^ ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	refine Real.rpow_lt_rpow s.potential_nonneg ?_ (by bound)	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ s.potential c (f d c ↑z) ^ (↑d)⁻¹ < s.potential c (f d c 0) ^ (↑d)⁻¹	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ s.potential c (f d c ↑z) < s.potential c (f d c 0)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ s.potential c (f d c ↑z) ^ (↑d)⁻¹ < s.potential c (f d c 0...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	generalize hw : f' d c z = w	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ s.potential c (f d c ↑z) < s.potential c (f d c 0)	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ s.potential c (f d c ↑z) < s.potential c (f d c 0)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ s.potential c (f d c ↑z) < s.potential c (f d c 0) TACTIC:...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have e : f d c z = w := by rw [f, lift_coe', hw]	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ s.potential c (f d c ↑z) < s.potential c (f d c 0)	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w e : f d c ↑z = ↑w ⊢ s.potential c (f d c ↑z) < s.potential c (f d c 0)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ s.potential c (f d c ↑z) < s.poten...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	simp only [f_0, e]	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w e : f d c ↑z = ↑w ⊢ s.potential c (f d c ↑z) < s.potential c (f d c 0)	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w e : f d c ↑z = ↑w ⊢ s.potential c ↑w < s.potential c ↑c	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w e : f d c ↑z = ↑w ⊢ s.potential c (f...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	clear e	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w e : f d c ↑z = ↑w ⊢ s.potential c ↑w < s.potential c ↑c	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ s.potential c ↑w < s.potential c ↑c	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w e : f d c ↑z = ↑w ⊢ s.potential c ↑w...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have zw : abs z ≤ abs w := by rw [←hw]; exact le_self_iter d (by linarith) cz 1	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ s.potential c ↑w < s.potential c ↑c	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w ⊢ s.potential c ↑w < s.potential c ↑c	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ s.potential c ↑w < s.potential c ↑...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have cw : abs c ≤ abs w := le_trans cz zw	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w ⊢ s.potential c ↑w < s.potential c ↑c	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w ⊢ s.potential c ↑w < s.pote...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w ⊢...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have pc1 : s.potential c c < 1 := potential_lt_one_of_two_lt (by linarith) (le_refl _)	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w ⊢ s.potential c ↑w < s.pote...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have pw1 : s.potential c w < 1 := potential_lt_one_of_two_lt (by linarith) (by linarith)	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	rw [←log_neg_log_strict_anti potential_pos potential_pos pw1 pc1]	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	refine lt_of_lt_of_le ?_ (le_sub_iff_add_le.mp (abs_le.mp (log_neg_log_potential_approx d (by linarith) cw)).1)	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	refine lt_of_le_of_lt (sub_le_iff_le_add.mp (abs_le.mp (log_neg_log_potential_approx d (by linarith) (le_refl _))).2) ?_	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have lzw : log (log (abs z)) + 0.548 ≤ log (log (abs w)) := by rw [←hw]; exact log_log_iter (by linarith) cz	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have ie : ∀ z : ℂ, 4 ≤ abs z → abs c ≤ abs z → iter_error d c z ≤ 0.15 := by intro z z4 cz refine le_trans (iter_error_le_of_z4 d z4 cz) ?_ calc 0.8095 / (abs z * log (abs z)) _ ≤ 0.8095 / (4 * log 4) := by bound _ ≤ 0.8095 / (4 * 1.386) := by bound [lt_log_4] _ ≤ 0.15 := by norm_num	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have iec := ie c c4 (le_refl _)	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	have iew := ie w (by linarith) cw	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	refine lt_of_lt_of_le (lt_of_le_of_lt (add_le_add iec lcz) ?_) (add_le_add (neg_le_neg iew) lzw)	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	ring_nf	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	simp only [add_lt_add_iff_right]	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	norm_num	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	linarith	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d ⊢ 1 < Complex.abs c	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d ⊢ 1 < Complex.abs c TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	bound	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ 0 < (↑d)⁻¹	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d ⊢ 0 < (↑d)⁻¹ TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	rw [f, lift_coe', hw]	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ f d c ↑z = ↑w	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ f d c ↑z = ↑w TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	rw [←hw]	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ Complex.abs z ≤ Complex.abs w	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ Complex.abs z ≤ Complex.abs (f' d c z)	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ Complex.abs z ≤ Complex.abs w TACT...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	exact le_self_iter d (by linarith) cz 1	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ Complex.abs z ≤ Complex.abs (f' d c z)	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ Complex.abs z ≤ Complex.abs (f' d ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	linarith	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ 3 ≤ Complex.abs z	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w ⊢ 3 ≤ Complex.abs z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	linarith	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w ⊢ 2 < Complex.abs c	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	linarith	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	linarith	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	linarith	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	linarith	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	rw [←hw]	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	exact log_log_iter (by linarith) cz	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	linarith	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	intro z z4 cz	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	refine le_trans (iter_error_le_of_z4 d z4 cz) ?_	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑...	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑...	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.a...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	calc 0.8095 / (abs z * log (abs z)) _ ≤ 0.8095 / (4 * log 4) := by bound _ ≤ 0.8095 / (4 * 1.386) := by bound [lt_log_4] _ ≤ 0.15 := by norm_num	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.a...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	bound	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.a...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	bound [lt_log_4]	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.a...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	norm_num	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z✝ : ℂ c4 : 4 ≤ Complex.abs c cz✝ : Complex.abs c ≤ Complex.abs z✝ d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z✝).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z✝ = w zw : Complex.abs z✝ ≤ Complex.a...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Multibrot/Postcritical.lean	postcritical_large	[103, 1]	[142, 54]	linarith	c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w cw : Complex.abs c ≤ Complex.abs w pc1 : s.potential c ↑c < 1 ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: c✝ : ℂ d : ℕ inst✝ : Fact (2 ≤ d) c z : ℂ c4 : 4 ≤ Complex.abs c cz : Complex.abs c ≤ Complex.abs z d0 : 0 < d lcz : (Complex.abs c).log.log ≤ (Complex.abs z).log.log s : Super (f d) d ∞ := superF d w : ℂ hw : f' d c z = w zw : Complex.abs z ≤ Complex.abs w c...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	eqn_near	[71, 1]	[79, 61]	have m : ∀ᶠ y : ℂ × ℂ in 𝓝 (c, x), (y.1, (f y.1)^[n] (r y.1 y.2)) ∈ s.near := by refine ContinuousAt.eventually_mem ?_ (s.isOpen_near.mem_nhds mem) exact continuousAt_fst.prod (s.continuousAt_iter continuousAt_fst holo.continuousAt)	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	eqn_near	[71, 1]	[79, 61]	apply holo.eventually.mp	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	eqn_near	[71, 1]	[79, 61]	apply loc.mp	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	eqn_near	[71, 1]	[79, 61]	apply m.mp	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	eqn_near	[71, 1]	[79, 61]	apply eventually_of_forall	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	case hp S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem ...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	eqn_near	[71, 1]	[79, 61]	intro _ m l h	case hp S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem ...	case hp S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem ...	Please generate a tactic in lean4 to solve the state. STATE: case hp S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	eqn_near	[71, 1]	[79, 61]	exact ⟨h, m, l⟩	case hp S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case hp S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	eqn_near	[71, 1]	[79, 61]	refine ContinuousAt.eventually_mem ?_ (s.isOpen_near.mem_nhds mem)	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	eqn_near	[71, 1]	[79, 61]	exact continuousAt_fst.prod (s.continuousAt_iter continuousAt_fst holo.continuousAt)	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo : HolomorphicAt (I.prod I) I (uncurry r) (c, x) mem : (c, (f...	no goals	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n✝ : ℕ p : ℝ s✝ : Super f d a r✝ : ℂ → ℂ → S s : Super f d a n : ℕ r : ℂ → ℂ → S c x : ℂ holo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	Eqn.congr	[82, 1]	[88, 41]	have s := loc.self_of_nhds	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s n r0 x loc : (𝓝 x).EventuallyEq (uncurry r0) (uncurry r1) ⊢ Eqn s n r1 x	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s✝ : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s✝ n r0 x loc : (𝓝 x).EventuallyEq (uncurry r0) (uncurry r1) s : uncurry r0...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s n r0 x loc : (...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	Eqn.congr	[82, 1]	[88, 41]	simp only [uncurry] at s	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s✝ : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s✝ n r0 x loc : (𝓝 x).EventuallyEq (uncurry r0) (uncurry r1) s : uncurry r0...	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s✝ : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s✝ n r0 x loc : (𝓝 x).EventuallyEq (uncurry r0) (uncurry r1) s : r0 x.1 x.2...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s✝ : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s✝ n r0 x loc :...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	Eqn.congr	[82, 1]	[88, 41]	exact { holo := e.holo.congr loc near := by simp only [← s, e.near] eqn := by simp only [← s, e.eqn] }	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s✝ : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s✝ n r0 x loc : (𝓝 x).EventuallyEq (uncurry r0) (uncurry r1) s : r0 x.1 x.2...	no goals	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s✝ : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s✝ n r0 x loc :...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	Eqn.congr	[82, 1]	[88, 41]	simp only [← s, e.near]	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s✝ : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s✝ n r0 x loc : (𝓝 x).EventuallyEq (uncurry r0) (uncurry r1) s : r0 x.1 x.2...	no goals	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s✝ : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s✝ n r0 x loc :...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	Eqn.congr	[82, 1]	[88, 41]	simp only [← s, e.eqn]	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s✝ : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s✝ n r0 x loc : (𝓝 x).EventuallyEq (uncurry r0) (uncurry r1) s : r0 x.1 x.2...	no goals	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s✝ : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ r0 r1 : ℂ → ℂ → S e : Eqn s✝ n r0 x loc :...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	Eqn.mono	[91, 1]	[97, 80]	refine Nat.le_induction e.eqn ?_ m nm	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ e : Eqn s n r x m : ℕ nm : n ≤ m ⊢ s.bottcherNear x.1 ((f x.1)^[m] (r x.1 x.2)) = x.2 ^ d ^ m	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ e : Eqn s n r x m : ℕ nm : n ≤ m ⊢ ∀ (n_1 : ℕ), n ≤ n_1 → s.bottcherNear x.1 ((f x.1)^[n_1] (...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ e : Eqn s n r x m : ℕ nm : n ≤ m ⊢ s.bottc...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	Eqn.mono	[91, 1]	[97, 80]	intro k nk h	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ e : Eqn s n r x m : ℕ nm : n ≤ m ⊢ ∀ (n_1 : ℕ), n ≤ n_1 → s.bottcherNear x.1 ((f x.1)^[n_1] (...	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ e : Eqn s n r x m : ℕ nm : n ≤ m k : ℕ nk : n ≤ k h : s.bottcherNear x.1 ((f x.1)^[k] (r x.1 x.2)) = x....	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ e : Eqn s n r x m : ℕ nm : n ≤ m ⊢ ∀ (n_1 ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	Eqn.mono	[91, 1]	[97, 80]	simp only [h, Function.iterate_succ_apply', s.bottcherNear_eqn (s.iter_stays_near' e.near nk), pow_succ, pow_mul]	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ e : Eqn s n r x m : ℕ nm : n ≤ m k : ℕ nk : n ≤ k h : s.bottcherNear x.1 ((f x.1)^[k] (r x.1 x.2)) = x....	no goals	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S x : ℂ × ℂ e : Eqn s n r x m : ℕ nm : n ≤ m k : ℕ nk ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	mem_domain_self	[112, 1]	[115, 37]	simp only [mem_prod_eq, mem_singleton_iff, eq_self_iff_true, mem_closedBall, Complex.dist_eq, sub_zero, true_and_iff, le_refl]	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S c x : ℂ ⊢ (c, x) ∈ {c} ×ˢ closedBall 0 (Complex.abs x)	no goals	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c✝ : ℂ a z : S d n : ℕ p : ℝ s : Super f d a r : ℂ → ℂ → S c x : ℂ ⊢ (c, x) ∈ {c} ×ˢ closedBall 0 (Complex.abs...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	set u := Complex.abs '' (closedBall 0 (p + 1) \ t)	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t ⊢ ∃ q, p < q ∧ closedBall 0 q ⊆ t	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + 1) \ t) ⊢...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpe...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	by_cases ne : u = ∅	S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + 1) \ t) ⊢...	case pos S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	Please generate a tactic in lean4 to solve the state. STATE: S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpe...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	replace ne := nonempty_iff_ne_empty.mpr ne	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	Please generate a tactic in lean4 to solve the state. STATE: case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t o...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	have uc : IsClosed u := (((isCompact_closedBall _ _).diff ot).image Complex.continuous_abs).isClosed	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	Please generate a tactic in lean4 to solve the state. STATE: case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t o...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	have up : ∀ x : ℝ, x ∈ u → p < x := by intro x m; rcases m with ⟨z, ⟨_, mt⟩, e⟩; rw [← e]; contrapose mt simp only [not_not, not_lt] at mt ⊢ apply sub; simp only [mem_closedBall, Complex.dist_eq, sub_zero, mt]	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	Please generate a tactic in lean4 to solve the state. STATE: case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t o...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	have ub : BddBelow u := ⟨p, fun _ m ↦ (up _ m).le⟩	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	Please generate a tactic in lean4 to solve the state. STATE: case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t o...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	have iu : sInf u ∈ u := IsClosed.csInf_mem uc ne ub	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	Please generate a tactic in lean4 to solve the state. STATE: case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t o...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	rcases exists_between (up _ iu) with ⟨q, pq, qi⟩	case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p + ...	case neg.intro.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closed...	Please generate a tactic in lean4 to solve the state. STATE: case neg S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t o...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	use min q (p + 1), lt_min pq (by linarith)	case neg.intro.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closed...	case right S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p ...	Please generate a tactic in lean4 to solve the state. STATE: case neg.intro.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBa...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	intro z m	case right S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p ...	case right S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p...	Please generate a tactic in lean4 to solve the state. STATE: case right S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	simp only [mem_closedBall, Complex.dist_eq, sub_zero, le_min_iff] at m	case right S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p...	case right S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p...	Please generate a tactic in lean4 to solve the state. STATE: case right S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	rcases m with ⟨zq, zp⟩	case right S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBall 0 (p...	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	Please generate a tactic in lean4 to solve the state. STATE: case right S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	have zi := lt_of_le_of_lt zq qi	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	Please generate a tactic in lean4 to solve the state. STATE: case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	contrapose zi	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	Please generate a tactic in lean4 to solve the state. STATE: case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	simp only [not_lt]	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	Please generate a tactic in lean4 to solve the state. STATE: case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	refine csInf_le ub (mem_image_of_mem _ ?_)	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	Please generate a tactic in lean4 to solve the state. STATE: case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/Dynamics/Grow.lean	domain_open'	[128, 1]	[147, 78]	simp only [mem_diff, mem_closedBall, Complex.dist_eq, sub_zero]	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall 0 p ⊆ t ot : IsOpen t u : Set ℝ := ⇑Complex.abs '' (closedBal...	Please generate a tactic in lean4 to solve the state. STATE: case right.intro S : Type inst✝⁴ : TopologicalSpace S inst✝³ : CompactSpace S inst✝² : T3Space S inst✝¹ : ChartedSpace ℂ S inst✝ : AnalyticManifold I S f : ℂ → S → S c : ℂ a z✝ : S d n : ℕ p✝ : ℝ s : Super f d a r : ℂ → ℂ → S p : ℝ t : Set ℂ sub : closedBall ...

Subsets and Splits

No community queries yet

The top public SQL queries from the community will appear here once available.