quox/tests/Tests/Equal.idr

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module Tests.Equal
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import Quox.Equal
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import Quox.Syntax.Qty.Three
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import public TypingImpls
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import TAP
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0 M : Type -> Type
M = ReaderT (Definitions Three) (Either (Error Three))
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defGlobals : Definitions Three
defGlobals = fromList
[("A", mkPostulate Zero $ TYPE 0),
("B", mkPostulate Zero $ TYPE 0),
("a", mkPostulate Any $ FT "A"),
("a'", mkPostulate Any $ FT "A"),
("b", mkPostulate Any $ FT "B"),
("f", mkPostulate Any $ Arr One (FT "A") (FT "A")),
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("id", mkDef Any (Arr One (FT "A") (FT "A")) (["x"] :\\ BVT 0)),
("eq-AB", mkPostulate Zero $ Eq0 (TYPE 0) (FT "A") (FT "B"))]
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parameters (label : String) (act : Lazy (M ()))
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{default defGlobals globals : Definitions Three}
testEq : Test
testEq = test label $ runReaderT globals act
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testNeq : Test
testNeq = testThrows label (const True) $ runReaderT globals act
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parameters (0 d : Nat) (ctx : TyContext Three d n)
subTD, equalTD : Term Three d n -> Term Three d n -> Term Three d n -> M ()
subTD ty s t = Term.sub ctx ty s t
equalTD ty s t = Term.equal ctx ty s t
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subED, equalED : Elim Three d n -> Elim Three d n -> M ()
subED e f = Elim.sub ctx e f
equalED e f = Elim.equal ctx e f
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parameters (ctx : TyContext Three 0 n)
subT, equalT : Term Three 0 n -> Term Three 0 n -> Term Three 0 n -> M ()
subT = subTD 0 ctx
equalT = equalTD 0 ctx
subE, equalE : Elim Three 0 n -> Elim Three 0 n -> M ()
subE = subED 0 ctx
equalE = equalED 0 ctx
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empty01 : TyContext q 0 0
empty01 = {dctx := ZeroIsOne} empty
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export
tests : Test
tests = "equality & subtyping" :- [
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note #""s{t,…}" for term substs; "sp,…›" for dim substs"#,
note #""0=1𝒥" means that 𝒥 holds in an inconsistent dim context"#,
"universes" :- [
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testEq "★₀ = ★₀" $
equalT empty (TYPE 1) (TYPE 0) (TYPE 0),
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testNeq "★₀ ≠ ★₁" $
equalT empty (TYPE 2) (TYPE 0) (TYPE 1),
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testNeq "★₁ ≠ ★₀" $
equalT empty (TYPE 2) (TYPE 1) (TYPE 0),
testEq "★₀ <: ★₀" $
subT empty (TYPE 1) (TYPE 0) (TYPE 0),
testEq "★₀ <: ★₁" $
subT empty (TYPE 2) (TYPE 0) (TYPE 1),
testNeq "★₁ ≮: ★₀" $
subT empty (TYPE 2) (TYPE 1) (TYPE 0)
],
"pi" :- [
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note #""𝐴𝐵" for (1·𝐴)𝐵"#,
note #""𝐴𝐵" for (0·𝐴)𝐵"#,
testEq "★₀ ⇾ ★₀ = ★₀ ⇾ ★₀" $
let tm = Arr Zero (TYPE 0) (TYPE 0) in
equalT empty (TYPE 1) tm tm,
testEq "★₀ ⇾ ★₀ <: ★₀ ⇾ ★₀" $
let tm = Arr Zero (TYPE 0) (TYPE 0) in
subT empty (TYPE 1) tm tm,
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testNeq "★₁ ⊸ ★₀ ≠ ★₀ ⇾ ★₀" $
let tm1 = Arr Zero (TYPE 1) (TYPE 0)
tm2 = Arr Zero (TYPE 0) (TYPE 0) in
equalT empty (TYPE 2) tm1 tm2,
testEq "★₁ ⊸ ★₀ <: ★₀ ⊸ ★₀" $
let tm1 = Arr One (TYPE 1) (TYPE 0)
tm2 = Arr One (TYPE 0) (TYPE 0) in
subT empty (TYPE 2) tm1 tm2,
testEq "★₀ ⊸ ★₀ <: ★₀ ⊸ ★₁" $
let tm1 = Arr One (TYPE 0) (TYPE 0)
tm2 = Arr One (TYPE 0) (TYPE 1) in
subT empty (TYPE 2) tm1 tm2,
testEq "★₀ ⊸ ★₀ <: ★₀ ⊸ ★₁" $
let tm1 = Arr One (TYPE 0) (TYPE 0)
tm2 = Arr One (TYPE 0) (TYPE 1) in
subT empty (TYPE 2) tm1 tm2,
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testEq "A ⊸ B = A ⊸ B" $
let tm = Arr One (FT "A") (FT "B") in
equalT empty (TYPE 0) tm tm,
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testEq "A ⊸ B <: A ⊸ B" $
let tm = Arr One (FT "A") (FT "B") in
subT empty (TYPE 0) tm tm,
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note "incompatible quantities",
testNeq "★₀ ⊸ ★₀ ≠ ★₀ ⇾ ★₁" $
let tm1 = Arr Zero (TYPE 0) (TYPE 0)
tm2 = Arr Zero (TYPE 0) (TYPE 1) in
equalT empty (TYPE 2) tm1 tm2,
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testNeq "A ⇾ B ≠ A ⊸ B" $
let tm1 = Arr Zero (FT "A") (FT "B")
tm2 = Arr One (FT "A") (FT "B") in
equalT empty (TYPE 0) tm1 tm2,
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testNeq "A ⇾ B ≮: A ⊸ B" $
let tm1 = Arr Zero (FT "A") (FT "B")
tm2 = Arr One (FT "A") (FT "B") in
subT empty (TYPE 0) tm1 tm2,
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testEq "0=1 ⊢ A ⇾ B = A ⊸ B" $
let tm1 = Arr Zero (FT "A") (FT "B")
tm2 = Arr One (FT "A") (FT "B") in
equalT empty01 (TYPE 0) tm1 tm2,
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todo "dependent function types",
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note "[todo] should π ≤ ρ ⊢ (ρ·A) → B <: (π·A) → B?"
],
"lambda" :- [
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testEq "λ x ⇒ [x] = λ x ⇒ [x]" $
equalT empty (Arr One (FT "A") (FT "A"))
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(["x"] :\\ BVT 0)
(["x"] :\\ BVT 0),
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testEq "λ x ⇒ [x] <: λ x ⇒ [x]" $
subT empty (Arr One (FT "A") (FT "A"))
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(["x"] :\\ BVT 0)
(["x"] :\\ BVT 0),
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testEq "λ x ⇒ [x] = λ y ⇒ [y]" $
equalT empty (Arr One (FT "A") (FT "A"))
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(["x"] :\\ BVT 0)
(["y"] :\\ BVT 0),
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testEq "λ x ⇒ [x] <: λ y ⇒ [y]" $
equalT empty (Arr One (FT "A") (FT "A"))
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(["x"] :\\ BVT 0)
(["y"] :\\ BVT 0),
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testNeq "λ x y ⇒ [x] ≠ λ x y ⇒ [y]" $
equalT empty (Arr One (FT "A") $ Arr One (FT "A") (FT "A"))
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(["x", "y"] :\\ BVT 1)
(["x", "y"] :\\ BVT 0),
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testEq "λ x ⇒ [a] = λ x ⇒ [a] (Y vs N)" $
equalT empty (Arr Zero (FT "B") (FT "A"))
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(Lam $ SY ["x"] $ FT "a")
(Lam $ SN $ FT "a"),
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testEq "λ x ⇒ [f [x]] = [f] (η)" $
equalT empty (Arr One (FT "A") (FT "A"))
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(["x"] :\\ E (F "f" :@ BVT 0))
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(FT "f")
],
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"eq type" :- [
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testEq "(★₀ ≡ ★₀ : ★₁) = (★₀ ≡ ★₀ : ★₁)" $
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let tm = Eq0 (TYPE 1) (TYPE 0) (TYPE 0) in
equalT empty (TYPE 2) tm tm,
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testEq "A ≔ ★₁ ⊢ (★₀ ≡ ★₀ : ★₁) = (★₀ ≡ ★₀ : A)"
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{globals = fromList [("A", mkDef zero (TYPE 2) (TYPE 1))]} $
equalT empty (TYPE 2)
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(Eq0 (TYPE 1) (TYPE 0) (TYPE 0))
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(Eq0 (FT "A") (TYPE 0) (TYPE 0)),
todo "dependent equality types"
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],
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"equalities and uip" :-
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let refl : Term q d n -> Term q d n -> Elim q d n
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refl a x = (DLam $ S ["_"] $ N x) :# (Eq0 a x x)
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in
[
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note #""refl [A] x" is an abbreviation for "(δ i ⇒ x)(x ≡ x : A)""#,
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note "binds before ∥ are globals, after it are BVs",
testEq "refl [A] a = refl [A] a" $
equalE empty (refl (FT "A") (FT "a")) (refl (FT "A") (FT "a")),
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testEq "p : (a ≡ a' : A), q : (a ≡ a' : A) ∥ ⊢ p = q (free)"
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{globals =
let def = mkPostulate Zero $ Eq0 (FT "A") (FT "a") (FT "a'") in
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defGlobals `mergeLeft` fromList [("p", def), ("q", def)]} $
equalE empty (F "p") (F "q"),
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testEq "∥ x : (a ≡ a' : A), y : (a ≡ a' : A) ⊢ x = y (bound)" $
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let ty : forall n. Term Three 0 n := Eq0 (FT "A") (FT "a") (FT "a'") in
equalE (extendTyN [< ("x", ty), ("y", ty)] empty)
(BV 0) (BV 1),
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testEq "∥ x : [(a ≡ a' : A) ∷ Type 0], y : [ditto] ⊢ x = y" $
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let ty : forall n. Term Three 0 n :=
E (Eq0 (FT "A") (FT "a") (FT "a'") :# TYPE 0) in
equalE (extendTyN [< ("x", ty), ("y", ty)] empty)
(BV 0) (BV 1),
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testEq "E ≔ a ≡ a' : A, EE ≔ E ∥ x : EE, y : EE ⊢ x = y"
{globals = defGlobals `mergeLeft` fromList
[("E", mkDef zero (TYPE 0) (Eq0 (FT "A") (FT "a") (FT "a'"))),
("EE", mkDef zero (TYPE 0) (FT "E"))]} $
equalE (extendTyN [< ("x", FT "EE"), ("y", FT "EE")] empty)
(BV 0) (BV 1),
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testEq "E ≔ a ≡ a' : A, EE ≔ E ∥ x : EE, y : E ⊢ x = y"
{globals = defGlobals `mergeLeft` fromList
[("E", mkDef zero (TYPE 0) (Eq0 (FT "A") (FT "a") (FT "a'"))),
("EE", mkDef zero (TYPE 0) (FT "E"))]} $
equalE (extendTyN [< ("x", FT "EE"), ("y", FT "E")] empty)
(BV 0) (BV 1),
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testEq "E ≔ a ≡ a' : A ∥ x : E, y : E ⊢ x = y"
{globals = defGlobals `mergeLeft` fromList
[("E", mkDef zero (TYPE 0) (Eq0 (FT "A") (FT "a") (FT "a'")))]} $
equalE (extendTyN [< ("x", FT "E"), ("y", FT "E")] empty) (BV 0) (BV 1),
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testEq "E ≔ a ≡ a' : A ∥ x : (E×E), y : (E×E) ⊢ x = y"
{globals = defGlobals `mergeLeft` fromList
[("E", mkDef zero (TYPE 0) (Eq0 (FT "A") (FT "a") (FT "a'")))]} $
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let ty : forall n. Term Three 0 n :=
Sig (FT "E") $ S ["_"] $ N $ FT "E" in
equalE (extendTyN [< ("x", ty), ("y", ty)] empty) (BV 0) (BV 1),
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testEq "E ≔ a ≡ a' : A, W ≔ E × E ∥ x : W, y : W ⊢ x = y"
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{globals = defGlobals `mergeLeft` fromList
[("E", mkDef zero (TYPE 0) (Eq0 (FT "A") (FT "a") (FT "a'"))),
("W", mkDef zero (TYPE 0) (FT "E" `And` FT "E"))]} $
equalE
(extendTyN [< ("x", FT "W"), ("y", FT "W")] empty)
(BV 0) (BV 1)
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],
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"term closure" :- [
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testEq "[#0]{} = [#0] : A" $
equalT (extendTy "x" (FT "A") empty)
(FT "A")
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(CloT (BVT 0) id)
(BVT 0),
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testEq "[#0]{a} = [a] : A" $
equalT empty (FT "A")
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(CloT (BVT 0) (F "a" ::: id))
(FT "a"),
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testEq "[#0]{a,b} = [a] : A" $
equalT empty (FT "A")
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(CloT (BVT 0) (F "a" ::: F "b" ::: id))
(FT "a"),
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testEq "[#1]{a,b} = [b] : A" $
equalT empty (FT "A")
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(CloT (BVT 1) (F "a" ::: F "b" ::: id))
(FT "b"),
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testEq "(λy ⇒ [#1]){a} = λy ⇒ [a] : B ⇾ A (N)" $
equalT empty (Arr Zero (FT "B") (FT "A"))
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(CloT (Lam $ S ["y"] $ N $ BVT 0) (F "a" ::: id))
(Lam $ S ["y"] $ N $ FT "a"),
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testEq "(λy ⇒ [#1]){a} = λy ⇒ [a] : B ⇾ A (Y)" $
equalT empty (Arr Zero (FT "B") (FT "A"))
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(CloT (["y"] :\\ BVT 1) (F "a" ::: id))
(["y"] :\\ FT "a")
],
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"term d-closure" :- [
testEq "★₀‹𝟎› = ★₀ : ★₁" $
equalTD 1
(extendDim "𝑗" empty)
(TYPE 1) (DCloT (TYPE 0) (K Zero ::: id)) (TYPE 0),
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testEq "(δ i ⇒ a)𝟎 = (δ i ⇒ a) : (a ≡ a : A)" $
equalTD 1
(extendDim "𝑗" empty)
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(Eq0 (FT "A") (FT "a") (FT "a"))
(DCloT (["i"] :\\% FT "a") (K Zero ::: id))
(["i"] :\\% FT "a"),
note "it is hard to think of well-typed terms with big dctxs"
],
"free var" :-
let au_bu = fromList
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[("A", mkDef Any (TYPE 1) (TYPE 0)),
("B", mkDef Any (TYPE 1) (TYPE 0))]
au_ba = fromList
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[("A", mkDef Any (TYPE 1) (TYPE 0)),
("B", mkDef Any (TYPE 1) (FT "A"))]
in [
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testEq "A = A" $
equalE empty (F "A") (F "A"),
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testNeq "A ≠ B" $
equalE empty (F "A") (F "B"),
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testEq "0=1 ⊢ A = B" $
equalE empty01 (F "A") (F "B"),
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testEq "A : ★₁ ≔ ★₀ ⊢ A = (★₀ ∷ ★₁)" {globals = au_bu} $
equalE empty (F "A") (TYPE 0 :# TYPE 1),
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testEq "A : ★₁ ≔ ★₀ ⊢ [A] = ★₀" {globals = au_bu} $
equalT empty (TYPE 1) (FT "A") (TYPE 0),
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testEq "A ≔ ★₀, B ≔ ★₀ ⊢ A = B" {globals = au_bu} $
equalE empty (F "A") (F "B"),
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testEq "A ≔ ★₀, B ≔ A ⊢ A = B" {globals = au_ba} $
equalE empty (F "A") (F "B"),
testEq "A <: A" $
subE empty (F "A") (F "A"),
testNeq "A ≮: B" $
subE empty (F "A") (F "B"),
testEq "A : ★₃ ≔ ★₀, B : ★₃ ≔ ★₂ ⊢ A <: B"
{globals = fromList [("A", mkDef Any (TYPE 3) (TYPE 0)),
("B", mkDef Any (TYPE 3) (TYPE 2))]} $
subE empty (F "A") (F "B"),
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note "(A and B in different universes)",
testEq "A : ★₁ ≔ ★₀, B : ★₃ ≔ ★₂ ⊢ A <: B"
{globals = fromList [("A", mkDef Any (TYPE 1) (TYPE 0)),
("B", mkDef Any (TYPE 3) (TYPE 2))]} $
subE empty (F "A") (F "B"),
testEq "0=1 ⊢ A <: B" $
subE empty01 (F "A") (F "B")
],
"bound var" :- [
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testEq "#0 = #0" $
equalE (extendTy "A" (TYPE 0) empty) (BV 0) (BV 0),
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testEq "#0 <: #0" $
subE (extendTy "A" (TYPE 0) empty) (BV 0) (BV 0),
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testNeq "#0 ≠ #1" $
equalE (extendTyN [< ("A", TYPE 0), ("B", TYPE 0)] empty) (BV 0) (BV 1),
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testNeq "#0 ≮: #1" $
subE (extendTyN [< ("A", TYPE 0), ("B", TYPE 0)] empty) (BV 0) (BV 1),
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testEq "0=1 ⊢ #0 = #1" $
equalE (extendTyN [< ("A", TYPE 0), ("B", TYPE 0)] empty01) (BV 0) (BV 1)
],
"application" :- [
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testEq "f [a] = f [a]" $
equalE empty (F "f" :@ FT "a") (F "f" :@ FT "a"),
testEq "f [a] <: f [a]" $
subE empty (F "f" :@ FT "a") (F "f" :@ FT "a"),
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testEq "(λ x ⇒ [x] ∷ A ⊸ A) a = ([a ∷ A] ∷ A) (β)" $
equalE empty
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(((["x"] :\\ BVT 0) :# Arr One (FT "A") (FT "A")) :@ FT "a")
(E (FT "a" :# FT "A") :# FT "A"),
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testEq "(λ x ⇒ [x] ∷ A ⊸ A) a = a (βυ)" $
equalE empty
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(((["x"] :\\ BVT 0) :# Arr One (FT "A") (FT "A")) :@ FT "a")
(F "a"),
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testEq "(λ g ⇒ [g [a]] ∷ ⋯)) [f] = (λ y ⇒ [f [y]] ∷ ⋯) [a] (β↘↙)" $
let a = FT "A"; a2a = (Arr One a a) in
equalE empty
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(((["g"] :\\ E (BV 0 :@ FT "a")) :# Arr One a2a a) :@ FT "f")
(((["y"] :\\ E (F "f" :@ BVT 0)) :# a2a) :@ FT "a"),
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testEq "(λ x ⇒ [x] ∷ A ⊸ A) a <: a" $
subE empty
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(((["x"] :\\ BVT 0) :# (Arr One (FT "A") (FT "A"))) :@ FT "a")
(F "a"),
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note "id : A ⊸ A ≔ λ x ⇒ [x]",
testEq "id [a] = a" $ equalE empty (F "id" :@ FT "a") (F "a"),
testEq "id [a] <: a" $ subE empty (F "id" :@ FT "a") (F "a")
],
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"dim application" :- [
testEq "eq-AB @0 = eq-AB @0" $
equalE empty (F "eq-AB" :% K Zero) (F "eq-AB" :% K Zero),
testNeq "eq-AB @0 ≠ eq-AB @1" $
equalE empty (F "eq-AB" :% K Zero) (F "eq-AB" :% K One),
testEq "𝑖 | ⊢ eq-AB @𝑖 = eq-AB @𝑖" $
equalED 1
(extendDim "𝑖" empty)
(F "eq-AB" :% BV 0) (F "eq-AB" :% BV 0),
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testNeq "𝑖 | ⊢ eq-AB @𝑖 ≠ eq-AB @0" $
equalED 1
(extendDim "𝑖" empty)
(F "eq-AB" :% BV 0) (F "eq-AB" :% K Zero),
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testEq "𝑖, 𝑖=0 | ⊢ eq-AB @𝑖 = eq-AB @0" $
equalED 1
(eqDim (BV 0) (K Zero) $ extendDim "𝑖" empty)
(F "eq-AB" :% BV 0) (F "eq-AB" :% K Zero),
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testNeq "𝑖, 𝑖=1 | ⊢ eq-AB @𝑖 ≠ eq-AB @0" $
equalED 1
(eqDim (BV 0) (K One) $ extendDim "𝑖" empty)
(F "eq-AB" :% BV 0) (F "eq-AB" :% K Zero),
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testNeq "𝑖, 𝑗 | ⊢ eq-AB @𝑖 ≠ eq-AB @𝑗" $
equalED 2
(extendDim "𝑗" $ extendDim "𝑖" empty)
(F "eq-AB" :% BV 1) (F "eq-AB" :% BV 0),
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testEq "𝑖, 𝑗, 𝑖=𝑗 | ⊢ eq-AB @𝑖 = eq-AB @𝑗" $
equalED 2
(eqDim (BV 0) (BV 1) $ extendDim "𝑗" $ extendDim "𝑖" empty)
(F "eq-AB" :% BV 1) (F "eq-AB" :% BV 0),
testEq "𝑖, 𝑗, 𝑖=0, 𝑗=0 | ⊢ eq-AB @𝑖 = eq-AB @𝑗" $
equalED 2
(eqDim (BV 0) (K Zero) $ eqDim (BV 1) (K Zero) $
extendDim "𝑗" $ extendDim "𝑖" empty)
(F "eq-AB" :% BV 1) (F "eq-AB" :% BV 0),
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testEq "0=1 | ⊢ eq-AB @𝑖 = eq-AB @𝑗" $
equalED 2
(extendDim "𝑗" $ extendDim "𝑖" empty01)
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(F "eq-AB" :% BV 1) (F "eq-AB" :% BV 0),
testEq "eq-AB @0 = A" $ equalE empty (F "eq-AB" :% K Zero) (F "A"),
testEq "eq-AB @1 = B" $ equalE empty (F "eq-AB" :% K One) (F "B"),
testEq "((δ i ⇒ a) ∷ a ≡ a) @0 = a" $
equalE empty
(((DLam $ SN $ FT "a") :# Eq0 (FT "A") (FT "a") (FT "a")) :% K Zero)
(F "a"),
testEq "((δ i ⇒ a) ∷ a ≡ a) @0 = ((δ i ⇒ a) ∷ a ≡ a) @1" $
equalE empty
(((DLam $ SN $ FT "a") :# Eq0 (FT "A") (FT "a") (FT "a")) :% K Zero)
(((DLam $ SN $ FT "a") :# Eq0 (FT "A") (FT "a") (FT "a")) :% K One)
],
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"annotation" :- [
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testEq "(λ x ⇒ f [x]) ∷ A ⊸ A = [f] ∷ A ⊸ A" $
equalE empty
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((["x"] :\\ E (F "f" :@ BVT 0)) :# Arr One (FT "A") (FT "A"))
(FT "f" :# Arr One (FT "A") (FT "A")),
testEq "[f] ∷ A ⊸ A = f" $
equalE empty (FT "f" :# Arr One (FT "A") (FT "A")) (F "f"),
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testEq "(λ x ⇒ f [x]) ∷ A ⊸ A = f" $
equalE empty
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((["x"] :\\ E (F "f" :@ BVT 0)) :# Arr One (FT "A") (FT "A"))
(F "f")
],
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"elim closure" :- [
testEq "#0{a} = a" $
equalE empty (CloE (BV 0) (F "a" ::: id)) (F "a"),
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testEq "#1{a} = #0" $
equalE (extendTy "x" (FT "A") empty)
(CloE (BV 1) (F "a" ::: id)) (BV 0)
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],
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"elim d-closure" :- [
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note "0·eq-AB : (A ≡ B : ★₀)",
testEq "(eq-AB #0)𝟎 = eq-AB 𝟎" $
equalED 1
(extendDim "𝑖" empty)
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(DCloE (F "eq-AB" :% BV 0) (K Zero ::: id))
(F "eq-AB" :% K Zero),
testEq "(eq-AB #0)𝟎 = A" $
equalED 1
(extendDim "𝑖" empty)
(DCloE (F "eq-AB" :% BV 0) (K Zero ::: id)) (F "A"),
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testEq "(eq-AB #0)𝟏 = B" $
equalED 1
(extendDim "𝑖" empty)
(DCloE (F "eq-AB" :% BV 0) (K One ::: id)) (F "B"),
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testNeq "(eq-AB #0)𝟏 ≠ A" $
equalED 1
(extendDim "𝑖" empty)
(DCloE (F "eq-AB" :% BV 0) (K One ::: id)) (F "A"),
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testEq "(eq-AB #0)#0,𝟎 = (eq-AB #0)" $
equalED 2
(extendDim "𝑗" $ extendDim "𝑖" empty)
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(DCloE (F "eq-AB" :% BV 0) (BV 0 ::: K Zero ::: id))
(F "eq-AB" :% BV 0),
testNeq "(eq-AB #0)𝟎 ≠ (eq-AB 𝟎)" $
equalED 2
(extendDim "𝑗" $ extendDim "𝑖" empty)
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(DCloE (F "eq-AB" :% BV 0) (BV 0 ::: K Zero ::: id))
(F "eq-AB" :% K Zero),
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testEq "#0𝟎 = #0 # term and dim vars distinct" $
equalED 1
(extendTy "x" (FT "A") $ extendDim "𝑖" empty)
(DCloE (BV 0) (K Zero ::: id)) (BV 0),
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testEq "a𝟎 = a" $
equalED 1 (extendDim "𝑖" empty) (DCloE (F "a") (K Zero ::: id)) (F "a"),
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testEq "(f [a])𝟎 = f𝟎 [a]𝟎" $
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let th = K Zero ::: id in
equalED 1 (extendDim "𝑖" empty)
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(DCloE (F "f" :@ FT "a") th)
(DCloE (F "f") th :@ DCloT (FT "a") th)
],
"clashes" :- [
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testNeq "★₀ ≠ ★₀ ⇾ ★₀" $
equalT empty (TYPE 1) (TYPE 0) (Arr Zero (TYPE 0) (TYPE 0)),
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testEq "0=1 ⊢ ★₀ = ★₀ ⇾ ★₀" $
equalT empty01 (TYPE 1) (TYPE 0) (Arr Zero (TYPE 0) (TYPE 0)),
todo "others"
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]
]