Commit result of (unsuccessfully) trying to prove monotonicity of plus.

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>
This commit is contained in:
Danila Fedorin 2024-03-10 13:54:19 -07:00
parent fdc40632bf
commit afe5bac2dc

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@ -1,10 +1,11 @@
module Analysis.Sign where
open import Data.String using (String) renaming (_≟_ to _≟ˢ_)
open import Data.Product using (proj₁)
open import Data.List using (foldr)
open import Data.Product using (_×_; proj₁; _,_)
open import Data.List using (List; _∷_; []; foldr; cartesianProduct; cartesianProductWith)
open import Relation.Binary.PropositionalEquality using (_≡_; refl; sym; trans)
open import Relation.Nullary using (¬_; Dec; yes; no)
open import Data.Unit using ()
open import Language
open import Lattice
@ -30,19 +31,56 @@ _≟ᵍ_ 0ˢ + = no (λ ())
_≟ᵍ_ 0ˢ - = no (λ ())
_≟ᵍ_ 0ˢ 0ˢ = yes refl
module _ (prog : Program) where
open Program prog
-- embelish 'sign' with a top and bottom element.
open import Lattice.AboveBelow Sign _≡_ (record { ≈-refl = refl; ≈-sym = sym; ≈-trans = trans }) _≟ᵍ_ as AB
using ()
renaming (AboveBelow to SignLattice; ≈-dec to ≈ᵍ-dec)
renaming
( AboveBelow to SignLattice
; ≈-dec to ≈ᵍ-dec
; to ⊥ᵍ
; to ⊤ᵍ
; [_] to [_]ᵍ
; ≈-⊥-⊥ to ≈ᵍ-⊥ᵍ-⊥ᵍ
; ≈-- to ≈ᵍ-⊤ᵍ-⊤ᵍ
; ≈-lift to ≈ᵍ-lift
)
-- 'sign' has no underlying lattice structure, so use the 'plain' above-below lattice.
open AB.Plain using () renaming (finiteHeightLattice to finiteHeightLatticeᵍ-if-inhabited)
finiteHeightLatticeᵍ = finiteHeightLatticeᵍ-if-inhabited 0ˢ
open FiniteHeightLattice finiteHeightLatticeᵍ
using ()
renaming
( _≼_ to _≼ᵍ_
; _≈_ to _≈ᵍ_
; _⊔_ to _⊔ᵍ_
; ≈-refl to ≈ᵍ-refl
)
plus : SignLattice SignLattice SignLattice
plus ⊥ᵍ _ = ⊥ᵍ
plus _ ⊥ᵍ = ⊥ᵍ
plus ⊤ᵍ _ = ⊤ᵍ
plus _ ⊤ᵍ = ⊤ᵍ
plus [ + ]ᵍ [ + ]ᵍ = [ + ]ᵍ
plus [ + ]ᵍ [ - ]ᵍ = ⊤ᵍ
plus [ + ]ᵍ [ 0ˢ ]ᵍ = [ + ]ᵍ
plus [ - ]ᵍ [ + ]ᵍ = ⊤ᵍ
plus [ - ]ᵍ [ - ]ᵍ = [ - ]ᵍ
plus [ - ]ᵍ [ 0ˢ ]ᵍ = [ - ]ᵍ
plus [ 0ˢ ]ᵍ [ + ]ᵍ = [ + ]ᵍ
plus [ 0ˢ ]ᵍ [ - ]ᵍ = [ - ]ᵍ
plus [ 0ˢ ]ᵍ [ 0ˢ ]ᵍ = [ 0ˢ ]ᵍ
-- this is incredibly tedious: 125 cases per monotonicity proof, and tactics
-- are hard. postulate for now.
postulate plus-Monoˡ : (s₂ : SignLattice) Monotonic _≼ᵍ_ _≼ᵍ_ (λ s₁ plus s₁ s₂)
postulate plus-Monoʳ : (s₁ : SignLattice) Monotonic _≼ᵍ_ _≼ᵍ_ (plus s₁)
module _ (prog : Program) where
open Program prog
-- The variable -> sign map is a finite value-map with keys strings. Use a bundle to avoid explicitly specifying operators.
open FixedHeightFiniteMap String SignLattice _≟ˢ_ finiteHeightLatticeᵍ vars-Unique ≈ᵍ-dec
using ()