LeanMachineLearning exposition

Learning.stepsUntil_eq_top_iff🔗

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Minimal Lean file

stepsUntil_eq_top_iff🔗

LemmaLearning.stepsUntil_eq_top_iff

No docstring.

🔗theorem
Learning.stepsUntil_eq_top_iff.{u_1, u_3} {𝓐 : Type u_1} {Ω : Type u_3} [DecidableEq 𝓐] {A : Ω 𝓐} {a : 𝓐} {m : } {ω : Ω} : stepsUntil A a m ω = (s : ), pullCount A a (s + 1) ω m
Learning.stepsUntil_eq_top_iff.{u_1, u_3} {𝓐 : Type u_1} {Ω : Type u_3} [DecidableEq 𝓐] {A : Ω 𝓐} {a : 𝓐} {m : } {ω : Ω} : stepsUntil A a m ω = (s : ), pullCount A a (s + 1) ω m

Code

lemma stepsUntil_eq_top_iff : stepsUntil A a m ω = ⊤ ↔ ∀ s, pullCount A a (s + 1) ω ≠ m
Type uses (2)
Used by (4)

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Proof
by
  simp [stepsUntil, sInf_eq_top]

Dependency graph

Type dependencies (2)

stepsUntil🔗

DefinitionLearning.stepsUntil

Number of steps until action a was pulled exactly m times.

🔗def
Learning.stepsUntil.{u_1, u_3} {𝓐 : Type u_1} {Ω : Type u_3} [DecidableEq 𝓐] (A : Ω 𝓐) (a : 𝓐) (m : ) (ω : Ω) : ℕ∞
Learning.stepsUntil.{u_1, u_3} {𝓐 : Type u_1} {Ω : Type u_3} [DecidableEq 𝓐] (A : Ω 𝓐) (a : 𝓐) (m : ) (ω : Ω) : ℕ∞

Code

noncomputable
def stepsUntil (A : ℕ → Ω → 𝓐) (a : 𝓐) (m : ℕ) (ω : Ω) : ℕ∞ :=
  sInf ((↑) '' {s | pullCount A a (s + 1) ω = m})
Body uses (1)
Used by (46)

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pullCount🔗

DefinitionLearning.pullCount

Number of times action a was chosen up to time t (excluding t).

🔗def
Learning.pullCount.{u_1, u_3} {𝓐 : Type u_1} {Ω : Type u_3} [DecidableEq 𝓐] (A : Ω 𝓐) (a : 𝓐) (t : ) (ω : Ω) :
Learning.pullCount.{u_1, u_3} {𝓐 : Type u_1} {Ω : Type u_3} [DecidableEq 𝓐] (A : Ω 𝓐) (a : 𝓐) (t : ) (ω : Ω) :

Code

noncomputable
def pullCount (A : ℕ → Ω → 𝓐) (a : 𝓐) (t : ℕ) (ω : Ω) : ℕ :=
  #(filter (fun s ↦ A s ω = a) (range t))
Used by (146)

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