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Author SHA1 Message Date
62f59a9a4d Add a formalization of the nested-loop language
Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>
2024-09-23 00:28:57 -07:00
deb4378af2 Extract values into a separate module 2024-09-22 22:02:01 -07:00
d763d7a639 Rename language file 2024-09-22 21:54:52 -07:00
3 changed files with 228 additions and 19 deletions

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@ -1,5 +1,15 @@
{-# OPTIONS --guardedness #-} {-# OPTIONS --guardedness #-}
module Lang where module Language.Flat where
open import Language.Values using
( Value; int; bool
; ValueType; tint; tbool
; ⟦_⟧ˢ; ⟦⟧ˢ-empty; ⟦⟧ˢ-int; ⟦⟧ˢ-bool
; s; s'; s''
; st; st'; st''
; b; b₁; b₂
; z; z₁; z₂
)
open import Data.Integer using (; _+_; +_) open import Data.Integer using (; _+_; +_)
open import Data.Nat using (; suc; _<_) open import Data.Nat using (; suc; _<_)
@ -10,10 +20,6 @@ open import Data.Unit using (; tt)
open import Data.Empty using (⊥; ⊥-elim) open import Data.Empty using (⊥; ⊥-elim)
open import Data.Product using (Σ; _×_; _,_) open import Data.Product using (Σ; _×_; _,_)
data Value : Set where
int : Value
bool : Bool Value
data Instruction : Set where data Instruction : Set where
pushint : Instruction pushint : Instruction
pushbool : Bool Instruction pushbool : Bool Instruction
@ -33,10 +39,7 @@ variable
i : Instruction i : Instruction
is is' is'' : Program is is' is'' : Program
S S' S'' : Env S S' S'' : Env
s s' s'' : List Value
n : n :
b : Bool
z z₁ z₂ :
data _⇒ₓ_ : Program Program Set where data _⇒ₓ_ : Program Program Set where
pushint-skip : is ⇒ₓ is' (pushint z is) ⇒ₓ is' pushint-skip : is ⇒ₓ is' (pushint z is) ⇒ₓ is'
@ -97,9 +100,6 @@ basic₂ = loop-evalⁿ thenᵉ pushbool-eval thenᵉ break-evalᵗ (pushint-ski
basic₃ : ( [] , (loop 1 pushbool false break pushint (+ 1) end []) , [] ) ⇒* ( (int (+ 1) []) , [] , [] ) basic₃ : ( [] , (loop 1 pushbool false break pushint (+ 1) end []) , [] ) ⇒* ( (int (+ 1) []) , [] , [] )
basic₃ = loop-evalⁿ thenᵉ pushbool-eval thenᵉ break-evalᶠ thenᵉ pushint-eval thenᵉ end-eval thenᵉ (loop-eval⁰ (pushbool-skip (break-skip (pushint-skip end-skip)))) thenᵉ doneᵉ basic₃ = loop-evalⁿ thenᵉ pushbool-eval thenᵉ break-evalᶠ thenᵉ pushint-eval thenᵉ end-eval thenᵉ (loop-eval⁰ (pushbool-skip (break-skip (pushint-skip end-skip)))) thenᵉ doneᵉ
data ValueType : Set where
tint tbool : ValueType
-- A stack type describes the current stack and the continuation types -- A stack type describes the current stack and the continuation types
infix 35 _⟨_⟩ infix 35 _⟨_⟩
record StackType : Set where record StackType : Set where
@ -109,7 +109,6 @@ record StackType : Set where
frames : List (List ValueType) frames : List (List ValueType)
variable variable
st st' st'' : List ValueType
F F' F'' : List (List ValueType) F F' F'' : List (List ValueType)
σ σ' σ'' : StackType σ σ' σ'' : StackType
@ -146,6 +145,9 @@ _⊢_↦|_ σ is st = σ ⊢ is ↦* st ⟨ [] ⟩
basict₁ : [] [] (pushint (+ 1) pushint (+ 2) pushint (+ 3) add add []) ↦* (tint []) [] basict₁ : [] [] (pushint (+ 1) pushint (+ 2) pushint (+ 3) add add []) ↦* (tint []) []
basict₁ = pushint-t thenᵗ pushint-t thenᵗ pushint-t thenᵗ add-t thenᵗ add-t thenᵗ doneᵗ basict₁ = pushint-t thenᵗ pushint-t thenᵗ pushint-t thenᵗ add-t thenᵗ add-t thenᵗ doneᵗ
basict₄ : [] [] (pushint (+ 1) loop 3 pushint (+ 2) add end []) ↦* (tint []) []
basict₄ = pushint-t thenᵗ loop-t thenᵗ pushint-t thenᵗ add-t thenᵗ end-t thenᵗ doneᵗ
-- doesn't typecheck: violates type discipline because on break, stack has different type than on end. -- doesn't typecheck: violates type discipline because on break, stack has different type than on end.
-- --
-- basict₂ : ([] ⟨ [] ⟩) ⊢ (loop 1 ∷ pushbool true ∷ break ∷ pushint (+ 1) ∷ end ∷ []) ↦* ([] ⟨ [] ⟩) -- basict₂ : ([] ⟨ [] ⟩) ⊢ (loop 1 ∷ pushbool true ∷ break ∷ pushint (+ 1) ∷ end ∷ []) ↦* ([] ⟨ [] ⟩)
@ -185,12 +187,6 @@ lemma₂ (loop-t thenᵗ ist⊢is↦|st'') =
(_ , loop-skip is''⇒ₓis' is'₁⇒ₓis'₂ , is'₂↦|st'') (_ , loop-skip is''⇒ₓis' is'₁⇒ₓis'₂ , is'₂↦|st'')
lemma₂ (end-t thenᵗ rest) = (_ , end-skip , rest) lemma₂ (end-t thenᵗ rest) = (_ , end-skip , rest)
-- what it means for list of value types to describe a list of values
data ⟦_⟧ˢ : List ValueType List Value Set where
⟦⟧ˢ-empty : [] ⟧ˢ []
⟦⟧ˢ-int : st ⟧ˢ s tint st ⟧ˢ (int z s)
⟦⟧ˢ-bool : st ⟧ˢ s tbool st ⟧ˢ (bool b s)
-- Parameterize by final stack type. The reason to do this is that we want -- Parameterize by final stack type. The reason to do this is that we want
-- all continuations to end in the same type, so that control flow doesn't change -- all continuations to end in the same type, so that control flow doesn't change
-- what final type the program is evaluated to. This is an unfortunate consequence -- what final type the program is evaluated to. This is an unfortunate consequence
@ -277,4 +273,4 @@ stackToString (bool b ∷ s) = showBool b ++ " :: " ++ stackToString s
open import IO open import IO
open import Level using (0) open import Level using (0)
main = run {0} (putStrLn (stackToString (proj₁ (static-dynamic _ (⟦⟧ˢ-empty , ⟦⟧ᶠ-empty , basict))))) main = run {0} (putStrLn (stackToString (proj₁ (static-dynamic _ (⟦⟧ˢ-empty , ⟦⟧ᶠ-empty , basict)))))

189
Language/Nested.agda Normal file
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@ -0,0 +1,189 @@
{-# OPTIONS --guardedness #-}
module Language.Nested where
open import Language.Values using
( Value; int; bool
; ValueType; tint; tbool
; ⟦_⟧ˢ; ⟦⟧ˢ-empty; ⟦⟧ˢ-int; ⟦⟧ˢ-bool
; s; s'; s''
; st; st'; st''
; b; b₁; b₂
; z; z₁; z₂
)
open import Data.Integer using (; _+_; +_)
open import Data.Nat using (; suc)
open import Data.Bool using (Bool; true; false)
open import Data.List using (List; _∷_; []; length)
open import Data.Unit using (; tt)
open import Data.Empty using (⊥; ⊥-elim)
open import Data.Product using (Σ; _×_; _,_)
open import Data.Maybe using (Maybe; just; nothing)
open import Data.Sum using (_⊎_; inj₁; inj₂)
open import Relation.Binary.PropositionalEquality using (_≡_; refl)
data Instruction : Set where
pushint : Instruction
pushbool : Bool Instruction
add : Instruction
loop : List Instruction Instruction
break : Instruction
Program : Set
Program = List Instruction
Env : Set
Env = List (List Instruction)
variable
i : Instruction
is is' is'' : Program
S S' S'' : Env
n :
Triple : Set
Triple = List Value × Program × Env
data _⇒_ : Triple Triple Set where
pushint-eval : ( s , (pushint z is) , S ) ( ((int z) s) , is , S )
pushbool-eval : ( s , (pushbool b is) , S ) ( ((bool b) s) , is , S )
add-eval : ( (int z₁ int z₂ s) , (add is), S ) ( ((int (z₁ + z₂)) s) , is , S )
loop-eval⁰ : (s , loop 0 is' is , S) (s , is , S)
loop-evalⁿ : (s , loop (suc n) is' is , S) (s , is' , (loop n is' is) S)
break-evalᶠ : (bool false s , break is , is' S) (s , is , is' S)
break-evalᵗ : (bool true s , break is , (loop n is'' is') S) (s , is' , S)
empty-eval : (s , [] , is' S) (s , is' , S)
infixr 30 _thenᵉ_
data _⇒*_ : Triple Triple Set where
doneᵉ : ( s , [] , [] ) ⇒* ( s , [] , [] )
_thenᵉ_ : ( s , is , S ) ( s' , is' , S' )
( s' , is' , S' ) ⇒* ( s'' , is'' , S'' )
( s , is , S ) ⇒* ( s'' , is'' , S'' )
StackType : Set
StackType = List ValueType
variable
F F' F'' : List (List ValueType)
σ σ' σ'' : StackType
mst : Maybe StackType
interleaved mutual
data _⊢⟨_⟩_↦_ : StackType Maybe StackType Instruction StackType Set
data _⊢⟨_⟩_↦*_ : StackType Maybe StackType Program StackType Set
data _⊢⟨_⟩_↦_ where
pushint-t : st ⊢⟨ mst (pushint z) (tint st)
pushbool-t : st ⊢⟨ mst (pushbool b) (tbool st)
add-t : (tint tint st) ⊢⟨ mst add (tint st)
loop-t : st ⊢⟨ just st is ↦* st
st ⊢⟨ mst loop n is st
break-t : (tbool st) ⊢⟨ just st break st
infixr 30 _thenᵗ_
data _⊢⟨_⟩_↦*_ where
doneᵗ-just : st ⊢⟨ just st [] ↦* st
doneᵗ-nothing : st ⊢⟨ nothing [] ↦* st
_thenᵗ_ : st ⊢⟨ mst i st'
st' ⊢⟨ mst is ↦* st''
st ⊢⟨ mst (i is) ↦* st''
_⊢_↦|_ : StackType Program StackType Set
_⊢_↦|_ st is st' = st ⊢⟨ nothing is ↦* st'
basict₄ : [] (pushint (+ 1) loop 3 (pushint (+ 2) add []) pushint (+ 1) add []) ↦| (tint [])
basict₄ = pushint-t thenᵗ loop-t (pushint-t thenᵗ add-t thenᵗ doneᵗ-just) thenᵗ pushint-t thenᵗ add-t thenᵗ doneᵗ-nothing
data _⊢_↦*_ : StackType (Program × Env) StackType Set where
program-typed-flat : st ⊢⟨ nothing is ↦* st'
st (is , []) ↦* st'
program-typed-rec : {stˡ}
st ⊢⟨ just st' is ↦* st'
st' (loop n is'' is' , S) ↦* stˡ
st (is , (loop n is'' is') S) ↦* stˡ
skip-loop-continuation : st (loop n is is' , S) ↦* st'
st (is' , S) ↦* st'
skip-loop-continuation (program-typed-flat (loop-t _ thenᵗ rest)) = (program-typed-flat rest)
skip-loop-continuation (program-typed-rec (loop-t _ thenᵗ rest) frames) = (program-typed-rec rest frames)
preservation : {stˡ}
(s , is , S) (s' , is' , S')
st ⟧ˢ s
st (is , S) ↦* stˡ
Σ StackType (λ st' st' ⟧ˢ s' × st' (is' , S') ↦* stˡ)
preservation pushint-eval ⟦st⟧ (program-typed-flat (pushint-t thenᵗ rest)) = (_ , ⟦⟧ˢ-int ⟦st⟧ , (program-typed-flat rest))
preservation pushint-eval ⟦st⟧ (program-typed-rec (pushint-t thenᵗ rest) frames) = (_ , ⟦⟧ˢ-int ⟦st⟧ , (program-typed-rec rest frames))
preservation pushbool-eval ⟦st⟧ (program-typed-flat (pushbool-t thenᵗ rest)) = (_ , ⟦⟧ˢ-bool ⟦st⟧ , (program-typed-flat rest))
preservation pushbool-eval ⟦st⟧ (program-typed-rec (pushbool-t thenᵗ rest) frames) = (_ , ⟦⟧ˢ-bool ⟦st⟧ , (program-typed-rec rest frames))
preservation add-eval (⟦⟧ˢ-int (⟦⟧ˢ-int ⟦st⟧)) (program-typed-flat (add-t thenᵗ rest)) = (_ , ⟦⟧ˢ-int ⟦st⟧ , (program-typed-flat rest))
preservation add-eval (⟦⟧ˢ-int (⟦⟧ˢ-int ⟦st⟧)) (program-typed-rec (add-t thenᵗ rest) frames) = (_ , ⟦⟧ˢ-int ⟦st⟧ , (program-typed-rec rest frames))
preservation loop-eval⁰ ⟦st⟧ (program-typed-flat ((loop-t _) thenᵗ rest)) = (_ , ⟦st⟧ , (program-typed-flat rest))
preservation loop-eval⁰ ⟦st⟧ (program-typed-rec ((loop-t _) thenᵗ rest) frames) = (_ , ⟦st⟧ , (program-typed-rec rest) frames)
preservation loop-evalⁿ ⟦st⟧ (program-typed-flat ((loop-t loopt) thenᵗ rest)) = (_ , ⟦st⟧ , (program-typed-rec loopt (program-typed-flat (loop-t loopt thenᵗ rest))))
preservation loop-evalⁿ ⟦st⟧ (program-typed-rec ((loop-t loopt) thenᵗ rest) frames) = (_ , ⟦st⟧ , (program-typed-rec loopt (program-typed-rec (loop-t loopt thenᵗ rest) frames)))
preservation break-evalᵗ (⟦⟧ˢ-bool ⟦st⟧) (program-typed-rec (break-t thenᵗ rest) frames) = (_ , ⟦st⟧ , skip-loop-continuation frames)
preservation break-evalᶠ (⟦⟧ˢ-bool ⟦st⟧) (program-typed-rec (break-t thenᵗ rest) frames) = (_ , ⟦st⟧ , (program-typed-rec rest frames))
preservation empty-eval ⟦st⟧ (program-typed-rec (doneᵗ-just) frames) = (_ , ⟦st⟧ , frames)
progress : {stˡ}
st (is , S) ↦* stˡ
st ⟧ˢ s
(Σ Triple ((s , is , S) ⇒_)) (is [] × S [] × stˡ ⟧ˢ s)
progress (program-typed-flat (pushint-t thenᵗ rest)) ⟦st⟧ = inj₁ (_ , pushint-eval)
progress (program-typed-rec (pushint-t thenᵗ rest) frames) ⟦st⟧ = inj₁ (_ , pushint-eval)
progress (program-typed-flat (pushbool-t thenᵗ rest)) ⟦st⟧ = inj₁ (_ , pushbool-eval)
progress (program-typed-rec (pushbool-t thenᵗ rest) frames) ⟦st⟧ = inj₁ (_ , pushbool-eval)
progress (program-typed-flat (add-t thenᵗ rest)) (⟦⟧ˢ-int (⟦⟧ˢ-int ⟦st⟧)) = inj₁ (_ , add-eval)
progress (program-typed-rec (add-t thenᵗ rest) frames) (⟦⟧ˢ-int (⟦⟧ˢ-int ⟦st⟧)) = inj₁ (_ , add-eval)
progress {is = loop 0 is' is} (program-typed-flat (loop-t _ thenᵗ rest)) ⟦st⟧ = inj₁ (_ , loop-eval⁰)
progress {is = loop 0 is' is} (program-typed-rec (loop-t _ thenᵗ rest) frames) ⟦st⟧ = inj₁ (_ , loop-eval⁰)
progress {is = loop (suc n) is' is} (program-typed-flat (loop-t _ thenᵗ rest)) ⟦st⟧ = inj₁ (_ , loop-evalⁿ)
progress {is = loop (suc n) is' is} (program-typed-rec (loop-t _ thenᵗ rest) frames) ⟦st⟧ = inj₁ (_ , loop-evalⁿ)
progress {s = bool true s} (program-typed-rec (break-t thenᵗ rest) frames) (⟦⟧ˢ-bool ⟦st⟧) = inj₁ (_ , break-evalᵗ)
progress {s = bool false s} (program-typed-rec (break-t thenᵗ rest) frames) (⟦⟧ˢ-bool ⟦st⟧) = inj₁ (_ , break-evalᶠ)
progress {is = []} (program-typed-rec (doneᵗ-just) frames) ⟦st⟧ = inj₁ (_ , empty-eval)
progress {is = []} (program-typed-flat (doneᵗ-nothing)) ⟦st⟧ = inj₂ (refl , refl , ⟦st⟧)
{-# TERMINATING #-} -- evaluation always terminates, but proving it is tedious
static-dynamic-help : {stˡ}
st (is , S) ↦* stˡ
st ⟧ˢ s
Σ (List Value) (λ stˡ ⟧ˢ × (s , is , S) ⇒* ( , [] , []))
static-dynamic-help {s = s} frames ⟦st⟧
with progress frames ⟦st⟧
... | inj₁ ((s' , is' , S') , is⇒is') =
let (st' , (⟦st'⟧ , frames')) = preservation is⇒is' ⟦st⟧ frames in
let ( , (⟦stˡ⟧ , is'⇒*[])) = static-dynamic-help frames' ⟦st'⟧ in
( , (⟦stˡ⟧ , is⇒is' thenᵉ is'⇒*[]))
... | inj₂ (refl , refl , ⟦stˡ⟧) = (s , (⟦stˡ⟧ , doneᵉ))
static-dynamic : {stˡ}
st is ↦| stˡ
st ⟧ˢ s
Σ (List Value) (λ stˡ ⟧ˢ × (s , is , []) ⇒* ( , [] , []))
static-dynamic st⊢is↦|stˡ = static-dynamic-help (program-typed-flat st⊢is↦|stˡ)
-- Copied from Flat.agda
open import Data.Nat.Show using () renaming (show to show)
open import Data.Integer.Show using () renaming (show to show)
open import Data.Bool.Show using () renaming (show to showBool)
open import Data.String using (String; _++_)
open import Data.Product using (proj₁)
stackToString : List Value String
stackToString [] = "[]"
stackToString (int i s) = show i ++ " :: " ++ stackToString s
stackToString (bool b s) = showBool b ++ " :: " ++ stackToString s
open import IO
open import Level using (0)
main = run {0} (putStrLn (stackToString (proj₁ (static-dynamic basict₄ ⟦⟧ˢ-empty))))

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Language/Values.agda Normal file
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@ -0,0 +1,24 @@
module Language.Values where
open import Data.Integer using ()
open import Data.Bool using (Bool)
open import Data.List using (List; []; _∷_)
data Value : Set where
int : Value
bool : Bool Value
data ValueType : Set where
tint tbool : ValueType
variable
s s' s'' : List Value
st st' st'' : List ValueType
b b₁ b₂ : Bool
z z₁ z₂ :
-- what it means for list of value types to describe a list of values
data ⟦_⟧ˢ : List ValueType List Value Set where
⟦⟧ˢ-empty : [] ⟧ˢ []
⟦⟧ˢ-int : st ⟧ˢ s tint st ⟧ˢ (int z s)
⟦⟧ˢ-bool : st ⟧ˢ s tbool st ⟧ˢ (bool b s)