agda-spa/Main.agda

module Main where

open import IO
open import Level using (0ℓ)
open import Data.Nat.Show using (show)
open import Data.List using (List; _∷_; []; foldr)
open import Data.String using (String; _++_) renaming (_≟_ to _≟ˢ_)
open import Data.Unit using (⊤; tt) renaming (_≟_ to _≟ᵘ_)
open import Data.Product using (_,_; _×_; proj₁; proj₂)
open import Data.List.Relation.Unary.All using (_∷_; [])
open import Relation.Binary.PropositionalEquality as Eq using (_≡_; sym; subst; refl; trans)
open import Relation.Nullary using (¬_)

open import Utils using (Unique; push; empty)

xyzw : List String
xyzw = "x" ∷ "y" ∷ "z" ∷ "w" ∷ []

xyzw-Unique : Unique xyzw
xyzw-Unique = push ((λ ()) ∷ (λ ()) ∷ (λ ()) ∷ []) (push ((λ ()) ∷ (λ ()) ∷ []) (push ((λ ()) ∷ []) (push [] empty)))

open import Lattice using (IsFiniteHeightLattice; FiniteHeightLattice; Monotonic)

open import Lattice.AboveBelow ⊤ _≡_ (record { ≈-refl = refl; ≈-sym = sym; ≈-trans = trans }) _≟ᵘ_  as AB using () renaming (≈-dec to ≈ᵘ-dec)
open AB.Plain using () renaming (finiteHeightLattice to finiteHeightLatticeᵘ)

showAboveBelow : AB.AboveBelow → String
showAboveBelow AB.⊤ = "⊤"
showAboveBelow AB.⊥ = "⊥"
showAboveBelow (AB.[_] tt) = "()"

fhlᵘ = finiteHeightLatticeᵘ (Data.Unit.tt)

import Lattice.Bundles.FiniteValueMap
open Lattice.Bundles.FiniteValueMap.FromFiniteHeightLattice String AB.AboveBelow _≟ˢ_ fhlᵘ xyzw-Unique ≈ᵘ-dec using (FiniteMap; ≈-dec) renaming (finiteHeightLattice to fhlⁱᵖ)

showMap : FiniteMap → String
showMap ((kvs , _) , _) = "{" ++ foldr (λ (x , y) rest → x ++ " ↦ " ++ showAboveBelow y ++ ", " ++ rest) "" kvs ++ "}"

open FiniteHeightLattice fhlⁱᵖ using (_≈_; _⊔_; _⊓_; ⊔-idemp; _≼_; ≈-⊔-cong; ≈-refl; ≈-trans; ≈-sym; ⊔-assoc; ⊔-comm; ⊔-Monotonicˡ)
open import Relation.Binary.Reasoning.Base.Single _≈_ (λ {m} → ≈-refl {m}) (λ {m₁} {m₂} {m₃} → ≈-trans {m₁} {m₂} {m₃}) -- why am I having to eta-expand here?

smallestMap = proj₁ (proj₁ (proj₁ (FiniteHeightLattice.fixedHeight fhlⁱᵖ)))
largestMap = proj₂ (proj₁ (proj₁ (FiniteHeightLattice.fixedHeight fhlⁱᵖ)))

dumb : FiniteMap
dumb = ((("x" , AB.[_] tt) ∷ ("y" , AB.⊥) ∷ ("z" , AB.⊥) ∷ ("w" , AB.⊥) ∷ [] , xyzw-Unique) , refl)

dumbFunction : FiniteMap → FiniteMap
dumbFunction = _⊔_ dumb

dumbFunction-Monotonic : Monotonic _≼_ _≼_ dumbFunction
dumbFunction-Monotonic {m₁} {m₂} m₁≼m₂ = ⊔-Monotonicˡ dumb {m₁} {m₂} m₁≼m₂

open import Fixedpoint {0ℓ} {FiniteMap} {8} {_≈_} {_⊔_} {_⊓_} ≈-dec (FiniteHeightLattice.isFiniteHeightLattice fhlⁱᵖ) dumbFunction (λ {m₁} {m₂} m₁≼m₂ → dumbFunction-Monotonic {m₁} {m₂} m₁≼m₂)

main = run {0ℓ} (putStrLn (showMap aᶠ))
-												Create bundles and add a program to evaluate some code with finite maps

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 21:58:58 -08:00
+								module Main where
 								open import IO
-												Make main run the fixed point algorithm

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 23:42:10 -08:00
+								open import Level using (0ℓ)
-												Create bundles and add a program to evaluate some code with finite maps

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 21:58:58 -08:00
+								open import Data.Nat.Show using (show)
-												Make main run the fixed point algorithm

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 23:42:10 -08:00
+								open import Data.List using (List; _∷_; []; foldr)
 								open import Data.String using (String; _++_) renaming (_≟_ to _≟ˢ_)
-												Create bundles and add a program to evaluate some code with finite maps

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 21:58:58 -08:00
+								open import Data.Unit using (⊤; tt) renaming (_≟_ to _≟ᵘ_)
-												Make main run the fixed point algorithm

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 23:42:10 -08:00
+								open import Data.Product using (_,_; _×_; proj₁; proj₂)
-												Create bundles and add a program to evaluate some code with finite maps

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 21:58:58 -08:00
+								open import Data.List.Relation.Unary.All using (_∷_; [])
 								open import Relation.Binary.PropositionalEquality as Eq using (_≡_; sym; subst; refl; trans)
 								open import Relation.Nullary using (¬_)
 								open import Utils using (Unique; push; empty)
 								xyzw : List String
 								xyzw = "x" ∷ "y" ∷ "z" ∷ "w" ∷ []
 								xyzw-Unique : Unique xyzw
 								xyzw-Unique = push ((λ ()) ∷ (λ ()) ∷ (λ ()) ∷ []) (push ((λ ()) ∷ (λ ()) ∷ []) (push ((λ ()) ∷ []) (push [] empty)))
-												Make main run the fixed point algorithm

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 23:42:10 -08:00
+								open import Lattice using (IsFiniteHeightLattice; FiniteHeightLattice; Monotonic)
-												Use named modules to avoid having to pass redundant parameters

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-09 21:46:15 -08:00
-												Make main run the fixed point algorithm

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 23:42:10 -08:00
+								open import Lattice.AboveBelow ⊤ _≡_ (record { ≈-refl = refl; ≈-sym = sym; ≈-trans = trans }) _≟ᵘ_  as AB using () renaming (≈-dec to ≈ᵘ-dec)
 								open AB.Plain using () renaming (finiteHeightLattice to finiteHeightLatticeᵘ)
 								showAboveBelow : AB.AboveBelow → String
 								showAboveBelow AB.⊤ = "⊤"
 								showAboveBelow AB.⊥ = "⊥"
 								showAboveBelow (AB.[_] tt) = "()"
-												Use named modules to avoid having to pass redundant parameters

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-09 21:46:15 -08:00
+								fhlᵘ = finiteHeightLatticeᵘ (Data.Unit.tt)
 								import Lattice.Bundles.FiniteValueMap
 								open Lattice.Bundles.FiniteValueMap.FromFiniteHeightLattice String AB.AboveBelow _≟ˢ_ fhlᵘ xyzw-Unique ≈ᵘ-dec using (FiniteMap; ≈-dec) renaming (finiteHeightLattice to fhlⁱᵖ)
-												Make main run the fixed point algorithm

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 23:42:10 -08:00
-												Use named modules to avoid having to pass redundant parameters

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-09 21:46:15 -08:00
+								showMap : FiniteMap → String
 								showMap ((kvs , _) , _) = "{" ++ foldr (λ (x , y) rest → x ++ " ↦ " ++ showAboveBelow y ++ ", " ++ rest) "" kvs ++ "}"
-												Create bundles and add a program to evaluate some code with finite maps

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 21:58:58 -08:00
-												Make main run the fixed point algorithm

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 23:42:10 -08:00
+								open FiniteHeightLattice fhlⁱᵖ using (_≈_; _⊔_; _⊓_; ⊔-idemp; _≼_; ≈-⊔-cong; ≈-refl; ≈-trans; ≈-sym; ⊔-assoc; ⊔-comm; ⊔-Monotonicˡ)
 								open import Relation.Binary.Reasoning.Base.Single _≈_ (λ {m} → ≈-refl {m}) (λ {m₁} {m₂} {m₃} → ≈-trans {m₁} {m₂} {m₃}) -- why am I having to eta-expand here?
 								smallestMap = proj₁ (proj₁ (proj₁ (FiniteHeightLattice.fixedHeight fhlⁱᵖ)))
 								largestMap = proj₂ (proj₁ (proj₁ (FiniteHeightLattice.fixedHeight fhlⁱᵖ)))
-												Use named modules to avoid having to pass redundant parameters

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-09 21:46:15 -08:00
+								dumb : FiniteMap
-												Make main run the fixed point algorithm

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 23:42:10 -08:00
+								dumb = ((("x" , AB.[_] tt) ∷ ("y" , AB.⊥) ∷ ("z" , AB.⊥) ∷ ("w" , AB.⊥) ∷ [] , xyzw-Unique) , refl)
-												Use named modules to avoid having to pass redundant parameters

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-09 21:46:15 -08:00
+								dumbFunction : FiniteMap → FiniteMap
-												Make main run the fixed point algorithm

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 23:42:10 -08:00
+								dumbFunction = _⊔_ dumb
 								dumbFunction-Monotonic : Monotonic _≼_ _≼_ dumbFunction
 								dumbFunction-Monotonic {m₁} {m₂} m₁≼m₂ = ⊔-Monotonicˡ dumb {m₁} {m₂} m₁≼m₂
-												Use named modules to avoid having to pass redundant parameters

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-09 21:46:15 -08:00
+								open import Fixedpoint {0ℓ} {FiniteMap} {8} {_≈_} {_⊔_} {_⊓_} ≈-dec (FiniteHeightLattice.isFiniteHeightLattice fhlⁱᵖ) dumbFunction (λ {m₁} {m₂} m₁≼m₂ → dumbFunction-Monotonic {m₁} {m₂} m₁≼m₂)
-												Make main run the fixed point algorithm

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>

											
										
										
											2024-03-01 23:42:10 -08:00
 								main = run {0ℓ} (putStrLn (showMap aᶠ))