diff options
Diffstat (limited to 'backends/lean/Base/Diverge.lean')
-rw-r--r-- | backends/lean/Base/Diverge.lean | 34 |
1 files changed, 19 insertions, 15 deletions
diff --git a/backends/lean/Base/Diverge.lean b/backends/lean/Base/Diverge.lean index 65c061bd..97ffa214 100644 --- a/backends/lean/Base/Diverge.lean +++ b/backends/lean/Base/Diverge.lean @@ -271,9 +271,7 @@ namespace Fix revert Hvm split <;> simp [*] <;> intros <;> simp [*] - -- The final fixed point equation - -- TODO: remove the `forall x` - theorem fix_fixed_eq {{f : (a → Result b) → a → Result b}} + theorem fix_fixed_eq_forall {{f : (a → Result b) → a → Result b}} (Hmono : is_mono f) (Hcont : is_cont f) : ∀ x, fix f x = f (fix f) x := by intros x @@ -291,6 +289,14 @@ namespace Fix simp [Hcont] | .inl ⟨ n, He ⟩ => apply fix_fixed_eq_terminates f Hmono x n He + -- The final fixed point equation + theorem fix_fixed_eq {{f : (a → Result b) → a → Result b}} + (Hmono : is_mono f) (Hcont : is_cont f) : + fix f = f (fix f) := by + have Heq := fix_fixed_eq_forall Hmono Hcont + have Heq1 : fix f = (λ x => fix f x) := by simp + rw [Heq1] + conv => lhs; ext; simp [Heq] /-! # Making the proofs of validity manageable (and automatable) -/ @@ -451,11 +457,9 @@ namespace Fix simp [*] simp [*] - -- TODO: functional extensionality theorem is_valid_p_fix_fixed_eq {{e : (a → Result b) → a → Result b}} (Hvalid : ∀ k x, is_valid_p k (λ k => e k x)) : fix e = e (fix e) := by - apply funext have ⟨ Hmono, Hcont ⟩ := is_valid_p_imp_is_valid Hvalid exact fix_fixed_eq Hmono Hcont @@ -484,7 +488,7 @@ namespace Ex1 noncomputable def list_nth (ls : List a) (i : Int) : Result a := fix list_nth_body (ls, i) - -- The unfolding equation + -- The unfolding equation - diverges if `i < 0` theorem list_nth_eq (ls : List a) (i : Int) : list_nth ls i = match ls with @@ -527,7 +531,7 @@ namespace Ex2 noncomputable def list_nth (ls : List a) (i : Int) : Result a := fix list_nth_body (ls, i) - -- The unfolding equation + -- The unfolding equation - diverges if `i < 0` theorem list_nth_eq (ls : List a) (i : Int) : (list_nth ls i = match ls with @@ -553,10 +557,10 @@ namespace Ex3 and the output types: - inputs: the sum allows to select the function to call in the recursive calls (and the functions may not have the same input types) - - outpus: this case is degenerate because `even` and `odd` both have the + - outputs: this case is degenerate because `even` and `odd` have the same return type `Bool`, but generally speaking we need a sum type because - the functions in the mutually recursive group may not have the same - return type. + the functions in the mutually recursive group may have different + return types. -/ variable (k : (Int ⊕ Int) → Result (Bool ⊕ Bool)) @@ -565,7 +569,7 @@ namespace Ex3 | .inl i => -- Body of `is_even` if i = 0 - then .ret (.inl true) -- We return .inl because this is `is_even` + then .ret (.inl true) -- We use .inl because this is `is_even` else do let b ← @@ -581,7 +585,7 @@ namespace Ex3 | .inr i => -- Body of `is_odd` if i = 0 - then .ret (.inr false) -- We return .inr because this is `is_odd` + then .ret (.inr false) -- We use .inr because this is `is_odd` else do let b ← @@ -633,7 +637,7 @@ namespace Ex3 else do let z ← y; f z) := by split <;> simp - -- The unfolding equation for `is_even` + -- The unfolding equation for `is_even` - diverges if `i < 0` theorem is_even_eq (i : Int) : is_even i = (if i = 0 then .ret true else is_odd (i - 1)) := by @@ -651,9 +655,9 @@ namespace Ex3 rename_i v split <;> simp - -- The unfolding equation for `is_odd` + -- The unfolding equation for `is_odd` - diverges if `i < 0` theorem is_odd_eq (i : Int) : - is_odd i = (if i = 0 then .ret false else is_even (i - 1)) + is_odd i = (if i = 0 then .ret false else is_even (i - 1)) := by have Heq := is_valid_p_fix_fixed_eq is_even_is_odd_body_is_valid simp [is_even, is_odd] |