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/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_denseRange | [188, 1] | [205, 84] | intro d hd | case h.left.a
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (σ →₀ ... | case h.left.a
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (σ →₀ ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.left.a
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f :... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_denseRange | [188, 1] | [205, 84] | apply mem_of_mem_nhds | case h.left.a
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (σ →₀ ... | case h.left.a.a
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (σ →... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.left.a
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f :... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_denseRange | [188, 1] | [205, 84] | convert hp d using 2 | case h.left.a.a
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (σ →... | case h.e'_5.h.e'_3
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.left.a.a
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_denseRange | [188, 1] | [205, 84] | change MvPolynomial.coeff d (truncFun' n f) = MvPowerSeries.coeff R d f | case h.e'_5.h.e'_3
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (... | case h.e'_5.h.e'_3
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.e'_5.h.e'_3
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_denseRange | [188, 1] | [205, 84] | rw [coeff_truncFun'] | case h.e'_5.h.e'_3
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (... | case h.e'_5.h.e'_3
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.e'_5.h.e'_3
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_denseRange | [188, 1] | [205, 84] | rw [if_pos (hn hd)] | case h.e'_5.h.e'_3
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case h.e'_5.h.e'_3
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_denseRange | [188, 1] | [205, 84] | simp only [Set.mem_range, coeToMvPowerSeries.ringHom_apply, coe_inj, exists_eq] | case h.right
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : MvPowerSeries σ R
t : Set (MvPowerSeries σ R)
I : Set (σ →₀ ℕ... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right
σ : Type u_1
inst✝⁶ : DecidableEq σ
R : Type u_2
inst✝⁵ : CommRing R
inst✝⁴ : TopologicalSpace R
inst✝³ : TopologicalRing R
S : Type u_3
inst✝² : CommRing S
inst✝¹ : TopologicalSpace S
inst✝ : TopologicalRing S
φ : R →+* S
hφ : Continuous ⇑φ
f : ... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | apply uniformContinuous_of_continuousAt_zero | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* ... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | intro u hu | case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* ... | case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* ... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topologica... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [coe_eval₂Hom, (induced_iff_nhds_eq _).mp rfl, coe_zero,
Filter.mem_map, Filter.mem_comap] | case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* ... | case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* ... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topologica... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | rw [map_zero, hS.mem_nhds_zero_iff] at hu | case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* ... | case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* ... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topologica... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | rcases hu with ⟨I, _, hI, hI'⟩ | case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* ... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topologica... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | let tendsto_zero := ha.tendsto_zero | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | let hpow := ha.hpow | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [Filter.tendsto_def] at tendsto_zero hpow | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | specialize tendsto_zero I hI | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [Filter.mem_cofinite] at tendsto_zero | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | let hpow' := fun s ↦ hpow s hI | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [Filter.mem_map, Filter.mem_atTop_sets, ge_iff_le, Set.mem_preimage, SetLike.mem_coe] at hpow' | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | let n : σ → ℕ := fun s ↦ sInf {n : ℕ | (a s) ^ n.succ ∈ I} | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | have hn_ne : ∀ s, Set.Nonempty {n : ℕ | (a s) ^ n.succ ∈ I} := fun s ↦ by
rcases hpow' s with ⟨n, hn⟩
use n
simp only [Set.mem_setOf_eq]
refine hn n.succ (Nat.le_succ n) | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | have hn : Set.Finite (n.support) := by
apply @Finite.Set.subset _ _ _ tendsto_zero
intro s
simp only [Function.mem_support, ne_eq, Set.mem_compl_iff, Set.mem_preimage, SetLike.mem_coe, not_imp_comm, not_not]
simp only [imp_or, n, Nat.sInf_eq_zero, Set.mem_setOf_eq, zero_add, pow_one, imp_self, true_or] | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | let n₀ : σ →₀ ℕ := {
toFun := n
support := hn.toFinset
mem_support_toFun := fun (s : σ) ↦ by simp } | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | let D := Set.Iic n₀ | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | have hD : Set.Finite D := Set.finite_Iic _ | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | use Set.iInter (fun (d : D) ↦ { p | φ (p d.val) ∈ I}) | case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complete... | case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S... | Please generate a tactic in lean4 to solve the state.
STATE:
case hf.intro.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
i... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | rw [nhds_pi, Filter.mem_pi] | case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S... | case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topological... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | constructor | case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S... | case h.left
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topological... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | rcases hpow' s with ⟨n, hn⟩ | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | case intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | use n | case intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →... | case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S... | Please generate a tactic in lean4 to solve the state.
STATE:
case intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topolog... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [Set.mem_setOf_eq] | case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S... | case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topological... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | refine hn n.succ (Nat.le_succ n) | case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topological... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | apply @Finite.Set.subset _ _ _ tendsto_zero | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | intro s | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [Function.mem_support, ne_eq, Set.mem_compl_iff, Set.mem_preimage, SetLike.mem_coe, not_imp_comm, not_not] | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [imp_or, n, Nat.sInf_eq_zero, Set.mem_setOf_eq, zero_add, pow_one, imp_self, true_or] | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | use D, hD | case h.left
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R ... | case right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.left
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topolo... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | use fun d ↦ if d ∈ D then φ ⁻¹' I else Set.univ | case right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →... | case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S... | Please generate a tactic in lean4 to solve the state.
STATE:
case right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topolog... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | constructor | case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S... | case h.left
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topological... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | intro d | case h.left
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R ... | case h.left
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.left
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topolo... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | split_ifs with hd | case h.left
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R ... | case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+*... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.left
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topolo... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | apply hφ.continuousAt.preimage_mem_nhds | case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+*... | case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+*... | Please generate a tactic in lean4 to solve the state.
STATE:
case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topologic... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | erw [RingHom.map_zero] | case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+*... | case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+*... | Please generate a tactic in lean4 to solve the state.
STATE:
case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topologic... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | exact hI | case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+*... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topologic... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | exact Filter.univ_mem | case neg
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+*... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case neg
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topologic... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | intro p | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [Set.mem_pi, Set.mem_ite_univ_right, Set.mem_preimage, SetLike.mem_coe,
Set.iInter_coe_set, Set.mem_iInter] | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | exact fun hp i hi ↦ hp i hi hi | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | intro p hp | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [Set.iInter_coe_set, Set.mem_preimage, coeToMvPowerSeries.ringHom_apply,
Set.mem_iInter, Set.mem_setOf_eq] at hp | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [Set.mem_preimage] | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | apply hI' | case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R... | case h.right.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ :... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [coe_eval₂Hom, SetLike.mem_coe] | case h.right.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ :... | case h.right.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ :... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Top... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | rw [eval₂_eq] | case h.right.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ :... | case h.right.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ :... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Top... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | apply Ideal.sum_mem | case h.right.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ :... | case h.right.a.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Top... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | intro d _ | case h.right.a.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ... | case h.right.a.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right.a.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : T... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | by_cases hd : d ∈ D | case h.right.a.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ... | case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+*... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.right.a.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : T... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | exact Ideal.mul_mem_right _ _ (hp d hd) | case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+*... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case pos
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topologic... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | apply Ideal.mul_mem_left | case neg
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+*... | case neg.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →... | Please generate a tactic in lean4 to solve the state.
STATE:
case neg
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topologic... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [Set.mem_Iic, D, Finsupp.le_iff] at hd | case neg.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →... | case neg.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →... | Please generate a tactic in lean4 to solve the state.
STATE:
case neg.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topolog... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | push_neg at hd | case neg.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →... | case neg.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →... | Please generate a tactic in lean4 to solve the state.
STATE:
case neg.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topolog... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | rcases hd with ⟨s, hs', hs⟩ | case neg.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →... | case neg.a.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpa... | Please generate a tactic in lean4 to solve the state.
STATE:
case neg.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topolog... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | rw [Finset.prod_eq_prod_diff_singleton_mul hs'] | case neg.a.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpa... | case neg.a.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpa... | Please generate a tactic in lean4 to solve the state.
STATE:
case neg.a.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | apply Ideal.mul_mem_left | case neg.a.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpa... | case neg.a.intro.intro.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteS... | Please generate a tactic in lean4 to solve the state.
STATE:
case neg.a.intro.intro
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | rw [← Nat.add_sub_of_le (Nat.succ_le_of_lt hs), pow_add] | case neg.a.intro.intro.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteS... | case neg.a.intro.intro.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteS... | Please generate a tactic in lean4 to solve the state.
STATE:
case neg.a.intro.intro.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
in... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | apply Ideal.mul_mem_right | case neg.a.intro.intro.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteS... | case neg.a.intro.intro.a.h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complet... | Please generate a tactic in lean4 to solve the state.
STATE:
case neg.a.intro.intro.a
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
in... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | simp only [Finsupp.coe_mk, n₀, n] | case neg.a.intro.intro.a.h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complet... | case neg.a.intro.intro.a.h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complet... | Please generate a tactic in lean4 to solve the state.
STATE:
case neg.a.intro.intro.a.h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPolynomial.coeToMvPowerSeries_uniformContinuous | [250, 1] | [320, 37] | exact Nat.sInf_mem (hn_ne s) | case neg.a.intro.intro.a.h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : Complet... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case neg.a.intro.intro.a.h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.coe_eval₂Hom | [346, 1] | [348, 6] | rfl | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.eval₂_coe | [361, 1] | [366, 60] | simp only [eval₂] | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.eval₂_coe | [361, 1] | [366, 60] | apply DenseInducing.extend_eq
coeToMvPowerSeries_denseInducing
(coeToMvPowerSeries_uniformContinuous hφ ha).continuous | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.eval₂_C | [368, 1] | [370, 54] | rw [← coe_C, eval₂_coe hφ ha, MvPolynomial.eval₂_C] | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.eval₂_X | [372, 1] | [374, 54] | rw [← coe_X, eval₂_coe hφ ha, MvPolynomial.eval₂_X] | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.hasSum_eval₂ | [378, 1] | [383, 110] | convert (hasSum_of_monomials_self f).map (eval₂Hom hφ ha) (continuous_eval₂ hφ ha) with d | σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : R →+* S
hφ : C... | case h.e'_5.h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : ... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.hasSum_eval₂ | [378, 1] | [383, 110] | simp only [Function.comp_apply, coe_eval₂Hom, ← MvPolynomial.coe_monomial, eval₂_coe hφ ha, eval₂_monomial] | case h.e'_5.h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : TopologicalRing S
inst✝¹ : T2Space S
inst✝ : CompleteSpace S
φ : ... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case h.e'_5.h
σ : Type u_1
inst✝¹⁰ : DecidableEq σ
R : Type u_2
inst✝⁹ : CommRing R
inst✝⁸ : UniformSpace R
inst✝⁷ : UniformAddGroup R
inst✝⁶ : TopologicalRing R
S : Type u_3
inst✝⁵ : CommRing S
inst✝⁴ : UniformSpace S
inst✝³ : UniformAddGroup S
inst✝² : Topo... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.comp_eval₂ | [396, 1] | [408, 6] | rw [← coe_eval₂Hom hφ ha, ← RingHom.coe_comp] | σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R →+* S
h... | σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R →+* S
h... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRin... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.comp_eval₂ | [396, 1] | [408, 6] | apply eval₂_unique | σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R →+* S
h... | case hε
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRin... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.comp_eval₂ | [396, 1] | [408, 6] | simp only [RingHom.coe_comp] | case hε
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R... | case hε
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R... | Please generate a tactic in lean4 to solve the state.
STATE:
case hε
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : Topolo... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.comp_eval₂ | [396, 1] | [408, 6] | exact Continuous.comp hε (continuous_eval₂ hφ ha) | case hε
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R... | case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R ... | Please generate a tactic in lean4 to solve the state.
STATE:
case hε
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : Topolo... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.comp_eval₂ | [396, 1] | [408, 6] | intro p | case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R ... | case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : Topolog... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.comp_eval₂ | [396, 1] | [408, 6] | simp only [RingHom.coe_comp, Function.comp_apply, eval₂_coe] | case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R ... | case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : Topolog... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.comp_eval₂ | [396, 1] | [408, 6] | rw [coe_eval₂Hom hφ ha, eval₂_coe hφ ha, ← MvPolynomial.coe_eval₂Hom] | case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R ... | case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : Topolog... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.comp_eval₂ | [396, 1] | [408, 6] | rw [← RingHom.comp_apply, MvPolynomial.comp_eval₂Hom] | case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R ... | case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : Topolog... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.comp_eval₂ | [396, 1] | [408, 6] | rfl | case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : TopologicalRing S
inst✝⁵ : T2Space S
inst✝⁴ : CompleteSpace S
φ : R ... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹⁴ : DecidableEq σ
R : Type u_2
inst✝¹³ : CommRing R
inst✝¹² : UniformSpace R
inst✝¹¹ : UniformAddGroup R
inst✝¹⁰ : TopologicalRing R
S : Type u_3
inst✝⁹ : CommRing S
inst✝⁸ : UniformSpace S
inst✝⁷ : UniformAddGroup S
inst✝⁶ : Topolog... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_coe | [428, 1] | [430, 77] | simp only [coe_aeval, eval₂_coe (continuous_algebraMap R S) ha, aeval_def] | σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+* S
hφ ... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing ... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | apply DFunLike.ext' | σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+* S
hφ ... | case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing ... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | rw [coe_aeval] | case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+... | case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : Topologic... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | apply eval₂_unique hε | case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+... | case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : Topologic... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | intro p | case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+... | case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+... | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : Topologic... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | induction p using MvPolynomial.induction_on with
| h_C r =>
simp only [AlgHom.toRingHom_eq_coe, coe_C, RingHom.coe_coe, MvPolynomial.eval₂_C]
rw [c_eq_algebraMap, AlgHom.commutes]
| h_add p q hp hq =>
simp only [AlgHom.toRingHom_eq_coe, RingHom.coe_coe] at hp hq
simp only [AlgHom.toRingHom_eq_coe, coe_add, map_... | case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case h
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : Topologic... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | simp only [AlgHom.toRingHom_eq_coe, coe_C, RingHom.coe_coe, MvPolynomial.eval₂_C] | case h.h_C
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : ... | case h.h_C
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.h_C
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | rw [c_eq_algebraMap, AlgHom.commutes] | case h.h_C
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : ... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case h.h_C
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | simp only [AlgHom.toRingHom_eq_coe, RingHom.coe_coe] at hp hq | case h.h_add
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ ... | case h.h_add
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.h_add
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : Top... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | simp only [AlgHom.toRingHom_eq_coe, coe_add, map_add,
RingHom.coe_coe, eval₂_add, hp, hq] | case h.h_add
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ ... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case h.h_add
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : Top... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | simp only [AlgHom.toRingHom_eq_coe, RingHom.coe_coe] at h | case h.h_X
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : ... | case h.h_X
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : ... | Please generate a tactic in lean4 to solve the state.
STATE:
case h.h_X
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.aeval_unique | [432, 1] | [449, 59] | simp only [AlgHom.toRingHom_eq_coe, coe_mul, coe_X, map_mul,
RingHom.coe_coe, eval₂_mul, MvPolynomial.eval₂_X, h] | case h.h_X
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : ... | no goals | Please generate a tactic in lean4 to solve the state.
STATE:
case h.h_X
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : Topol... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.hasSum_aeval | [451, 1] | [459, 13] | have := hasSum_eval₂ (continuous_algebraMap R S) ha f | σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+* S
hφ ... | σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+* S
hφ ... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing ... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.hasSum_aeval | [451, 1] | [459, 13] | simp_rw [← smul_eq_mul, algebraMap_smul] at this | σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+* S
hφ ... | σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+* S
hφ ... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing ... |
https://github.com/AntoineChambert-Loir/DividedPowers4.git | 18a13603ed0158d2880b6b0b0369d78417040a1d | DividedPowers/ForMathlib/MvPowerSeries/Evaluation.lean | MvPowerSeries.hasSum_aeval | [451, 1] | [459, 13] | rw [coe_aeval] | σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+* S
hφ ... | σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing S
inst✝³ : T2Space S
inst✝² : CompleteSpace S
φ : R →+* S
hφ ... | Please generate a tactic in lean4 to solve the state.
STATE:
σ : Type u_1
inst✝¹² : DecidableEq σ
R : Type u_2
inst✝¹¹ : CommRing R
inst✝¹⁰ : UniformSpace R
inst✝⁹ : UniformAddGroup R
inst✝⁸ : TopologicalRing R
S : Type u_3
inst✝⁷ : CommRing S
inst✝⁶ : UniformSpace S
inst✝⁵ : UniformAddGroup S
inst✝⁴ : TopologicalRing ... |
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