Define simple sequential-only programs
Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>
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module Language where
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module Language where
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open import Data.String using (String)
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open import Data.Nat using (ℕ; suc; pred)
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open import Data.Nat using (ℕ)
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open import Data.String using (String) renaming (_≟_ to _≟ˢ_)
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open import Data.Product using (Σ; _,_; proj₁; proj₂)
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open import Data.Vec using (Vec; foldr)
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open import Data.List using ([]; _∷_; List) renaming (foldr to foldrˡ; map to mapˡ)
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open import Data.List.Relation.Unary.All using (All; []; _∷_)
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open import Data.Fin using (Fin; suc; zero; fromℕ; inject₁) renaming (_≟_ to _≟ᶠ_)
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open import Data.Fin.Properties using (suc-injective)
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open import Relation.Binary.PropositionalEquality using (cong; _≡_)
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open import Relation.Nullary using (¬_)
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open import Function using (_∘_)
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open import Lattice
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open import Utils using (Unique; Unique-map; empty; push)
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data Expr : Set where
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data Expr : Set where
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_+_ : Expr → Expr → Expr
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_+_ : Expr → Expr → Expr
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_-_ : Expr → Expr → Expr
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_-_ : Expr → Expr → Expr
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`_ : String → Expr
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`_ : String → Expr
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#_ : ℕ → Expr
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#_ : ℕ → Expr
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data Stmt : Set where
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_←_ : String → Expr → Stmt
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open import Lattice.MapSet String _≟ˢ_
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renaming
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( MapSet to StringSet
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; insert to insertˢ
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; to-List to to-Listˢ
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; empty to emptyˢ
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; _⊔_ to _⊔ˢ_
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)
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private
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Expr-vars : Expr → StringSet
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Expr-vars (l + r) = Expr-vars l ⊔ˢ Expr-vars r
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Expr-vars (l - r) = Expr-vars l ⊔ˢ Expr-vars r
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Expr-vars (` s) = insertˢ s emptyˢ
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Expr-vars (# _) = emptyˢ
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Stmt-vars : Stmt → StringSet
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Stmt-vars (x ← e) = insertˢ x (Expr-vars e)
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-- Creating a new number from a natural number can never create one
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-- equal to one you get from weakening the bounds on another number.
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z≢sf : ∀ {n : ℕ} (f : Fin n) → ¬ (zero ≡ suc f)
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z≢sf f ()
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z≢mapsfs : ∀ {n : ℕ} (fs : List (Fin n)) → All (λ sf → ¬ zero ≡ sf) (mapˡ suc fs)
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z≢mapsfs [] = []
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z≢mapsfs (f ∷ fs') = z≢sf f ∷ z≢mapsfs fs'
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indices : ∀ (n : ℕ) → Σ (List (Fin n)) Unique
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indices 0 = ([] , empty)
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indices (suc n') =
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let
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(inds' , unids') = indices n'
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in
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( zero ∷ mapˡ suc inds'
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, push (z≢mapsfs inds') (Unique-map suc suc-injective unids')
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)
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-- For now, just represent the program and CFG as one type, without branching.
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record Program : Set where
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field
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length : ℕ
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stmts : Vec Stmt length
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private
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vars-Set : StringSet
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vars-Set = foldr (λ n → StringSet)
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(λ {k} stmt acc → (Stmt-vars stmt) ⊔ˢ acc) emptyˢ stmts
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vars : List String
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vars = to-Listˢ vars-Set
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vars-Unique : Unique vars
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vars-Unique = proj₂ vars-Set
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State : Set
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State = Fin length
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states : List State
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states = proj₁ (indices length)
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states-Unique : Unique states
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states-Unique = proj₂ (indices length)
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_≟_ : IsDecidable (_≡_ {_} {State})
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_≟_ = _≟ᶠ_
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