quox/tests/Tests/Equal.idr

module Tests.Equal

import Quox.Equal
import Quox.Syntax.Qty.Three
import public TypingImpls
import TAP

0 M : Type -> Type
M = ReaderT (Definitions Three) (Either (Error Three))

defGlobals : Definitions Three
defGlobals = fromList
  [("A", mkAbstract Zero $ TYPE 0),
   ("B", mkAbstract Zero $ TYPE 0),
   ("a", mkAbstract Any  $ FT "A"),
   ("a'", mkAbstract Any  $ FT "A"),
   ("b", mkAbstract Any  $ FT "B"),
   ("f", mkAbstract Any  $ Arr One (FT "A") (FT "A"))]

parameters (label : String) (act : Lazy (M ()))
           {default defGlobals globals : Definitions Three}
  testEq : Test
  testEq = test label $ runReaderT globals act

  testNeq : Test
  testNeq = testThrows label (const True) $ runReaderT globals act


parameters {default 0   d, n : Nat}
           {default new eqs  : DimEq d}
           (ctx : TContext Three d n)
  subT : Term Three d n -> Term Three d n -> Term Three d n -> M ()
  subT ty s t = Term.sub eqs ctx ty s t

  equalT : Term Three d n -> Term Three d n -> Term Three d n -> M ()
  equalT ty s t = Term.equal eqs ctx ty s t

  subE : Elim Three d n -> Elim Three d n -> M ()
  subE e f = Elim.sub eqs ctx e f

  equalE : Elim Three d n -> Elim Three d n -> M ()
  equalE e f = Elim.equal eqs ctx e f


export
tests : Test
tests = "equality & subtyping" :- [
  note #""0=1 ⊢ 𝒥" means that 𝒥 holds in an inconsistent dim context"#,
  note #""s{…}" for term substs; "s‹…›" for dim substs"#,

  "universes" :- [
    testEq "★₀ ≡ ★₀" $
      equalT [<] (TYPE 1) (TYPE 0) (TYPE 0),
    testNeq "★₀ ≢ ★₁" $
      equalT [<] (TYPE 2) (TYPE 0) (TYPE 1),
    testNeq "★₁ ≢ ★₀" $
      equalT [<] (TYPE 2) (TYPE 1) (TYPE 0),
    testEq "★₀ <: ★₀" $
      subT [<] (TYPE 1) (TYPE 0) (TYPE 0),
    testEq "★₀ <: ★₁" $
      subT [<] (TYPE 2) (TYPE 0) (TYPE 1),
    testNeq "★₁ ≮: ★₀" $
      subT [<] (TYPE 2) (TYPE 1) (TYPE 0)
  ],

  "pi" :- [
    note #""A ⊸ B" for (1·A) → B"#,
    note #""A ⇾ B" for (0·A) → B"#,
    testEq "A ⊸ B ≡ A ⊸ B" $
      let tm = Arr One (FT "A") (FT "B") in
      equalT [<] (TYPE 0) tm tm,
    testNeq "A ⇾ B ≢ A ⊸ B" $
      let tm1 = Arr Zero (FT "A") (FT "B")
          tm2 = Arr One  (FT "A") (FT "B") in
      equalT [<] (TYPE 0) tm1 tm2,
    testEq "0=1 ⊢ A ⇾ B ≢ A ⊸ B" $
      let tm1 = Arr Zero (FT "A") (FT "B")
          tm2 = Arr One  (FT "A") (FT "B") in
      equalT [<] (TYPE 0) tm1 tm2 {eqs = ZeroIsOne},
    testEq "A ⊸ B <: A ⊸ B" $
      let tm = Arr One (FT "A") (FT "B") in
      subT [<] (TYPE 0) tm tm,
    testNeq "A ⇾ B ≮: A ⊸ B" $
      let tm1 = Arr Zero (FT "A") (FT "B")
          tm2 = Arr One  (FT "A") (FT "B") in
      subT [<] (TYPE 0) tm1 tm2,
    testEq "★₀ ⇾ ★₀ ≡ ★₀ ⇾ ★₀" $
      let tm = Arr Zero (TYPE 0) (TYPE 0) in
      equalT [<] (TYPE 1) tm tm,
    testEq "★₀ ⇾ ★₀ <: ★₀ ⇾ ★₀" $
      let tm = Arr Zero (TYPE 0) (TYPE 0) in
      subT [<] (TYPE 1) tm tm,
    testNeq "★₁ ⊸ ★₀ ≢ ★₀ ⇾ ★₀" $
      let tm1 = Arr Zero (TYPE 1) (TYPE 0)
          tm2 = Arr Zero (TYPE 0) (TYPE 0) in
      equalT [<] (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 [<] (TYPE 2) tm1 tm2,
    testNeq "★₀ ⊸ ★₀ ≢ ★₀ ⇾ ★₁" $
      let tm1 = Arr Zero (TYPE 0) (TYPE 0)
          tm2 = Arr Zero (TYPE 0) (TYPE 1) in
      equalT [<] (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 [<] (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 [<] (TYPE 2) tm1 tm2
  ],

  "lambda" :- [
    testEq "λ x ⇒ [x] ≡ λ x ⇒ [x]" $
      equalT [<] (Arr One (FT "A") (FT "A"))
        (["x"] :\\ BVT 0)
        (["x"] :\\ BVT 0),
    testEq "λ x ⇒ [x] <: λ x ⇒ [x]" $
      subT [<] (Arr One (FT "A") (FT "A"))
        (["x"] :\\ BVT 0)
        (["x"] :\\ BVT 0),
    testEq "λ x ⇒ [x] ≡ λ y ⇒ [y]" $
      equalT [<] (Arr One (FT "A") (FT "A"))
        (["x"] :\\ BVT 0)
        (["y"] :\\ BVT 0),
    testEq "λ x ⇒ [x] <: λ y ⇒ [y]" $
      equalT [<] (Arr One (FT "A") (FT "A"))
        (["x"] :\\ BVT 0)
        (["y"] :\\ BVT 0),
    testNeq "λ x y ⇒ [x] ≢ λ x y ⇒ [y]" $
      equalT [<] (Arr One (FT "A") $ Arr One (FT "A") (FT "A"))
        (["x", "y"] :\\ BVT 1)
        (["x", "y"] :\\ BVT 0),
    testEq "λ x ⇒ [a] ≡ λ x ⇒ [a]  (TUsed vs TUnused)" $
      equalT [<] (Arr Zero (FT "B") (FT "A"))
        (Lam "x" $ TUsed   $ FT "a")
        (Lam "x" $ TUnused $ FT "a"),
    testEq "λ x ⇒ [f [x]] ≡ [f]  (η)" $
      equalT [<] (Arr One (FT "A") (FT "A"))
        (["x"] :\\ E (F "f" :@ BVT 0))
        (FT "f")
  ],

  "eq type" :- [
    testEq "(★₀ = ★₀ : ★₁) ≡ (★₀ = ★₀ : ★₁)" $
      let tm = Eq0 (TYPE 1) (TYPE 0) (TYPE 0) in
      equalT [<] (TYPE 2) tm tm,
    testEq "A ≔ ★₁ ⊢ (★₀ = ★₀ : ★₁) ≡ (★₀ = ★₀ : A)"
        {globals = fromList [("A", mkDef zero (TYPE 2) (TYPE 1))]} $
      equalT [<] (TYPE 2)
        (Eq0 (TYPE 1) (TYPE 0) (TYPE 0))
        (Eq0 (FT "A") (TYPE 0) (TYPE 0))
  ],

  "equalities" :-
  let refl : Term q d n -> Term q d n -> Elim q d n
      refl a x = (DLam "_" $ DUnused x) :# (Eq0 a x x)
  in
  [
    note #""refl [A] x" is an abbreviation for "(λᴰi ⇒ x) ∷ (x ≡ x : A)""#,
    testEq "refl [A] a ≡ refl [A] a" $
      equalE [<] (refl (FT "A") (FT "a")) (refl (FT "A") (FT "a")),
    testEq "p : (a ≡ a' : A), q : (a ≡ a' : A) ⊢ p ≡ q  (free)"
           {globals =
              let def = mkAbstract Zero $ Eq0 (FT "A") (FT "a") (FT "a'") in
              defGlobals `mergeLeft` fromList [("p", def), ("q", def)]} $
      equalE [<] (F "p") (F "q"),
    testEq "x : (a ≡ a' : A), y : (a ≡ a' : A) ⊢ x ≡ y  (bound)" $
      let ty : forall n. Term Three 0 n := Eq0 (FT "A") (FT "a") (FT "a'") in
      equalE [< ty, ty] (BV 0) (BV 1) {n = 2}
  ],

  "term closure" :- [
    note "𝑖, 𝑗 for bound variables pointing outside of the current expr",
    testEq "[𝑖]{} ≡ [𝑖]" $
      equalT [< FT "A"] (FT "A") {n = 1}
        (CloT (BVT 0) id)
        (BVT 0),
    testEq "[𝑖]{a/𝑖} ≡ [a]" $
      equalT [<] (FT "A")
        (CloT (BVT 0) (F "a" ::: id))
        (FT "a"),
    testEq "[𝑖]{a/𝑖,b/𝑗} ≡ [a]" $
      equalT [<] (FT "A")
        (CloT (BVT 0) (F "a" ::: F "b" ::: id))
        (FT "a"),
    testEq "(λy. [𝑖]){y/y, a/𝑖} ≡ λy. [a]  (TUnused)" $
      equalT [<] (Arr Zero (FT "B") (FT "A"))
        (CloT (Lam "y" $ TUnused $ BVT 0) (F "a" ::: id))
        (Lam "y" $ TUnused $ FT "a"),
    testEq "(λy. [𝑖]){y/y, a/𝑖} ≡ λy. [a]  (TUsed)" $
      equalT [<] (Arr Zero (FT "B") (FT "A"))
        (CloT (["y"] :\\ BVT 1) (F "a" ::: id))
        (["y"] :\\ FT "a")
  ],

  todo "term d-closure",

  "free var" :-
  let au_bu = fromList
        [("A", mkDef Any (TYPE (U 1)) (TYPE (U 0))),
         ("B", mkDef Any (TYPE (U 1)) (TYPE (U 0)))]
      au_ba = fromList
        [("A", mkDef Any (TYPE (U 1)) (TYPE (U 0))),
         ("B", mkDef Any (TYPE (U 1)) (FT "A"))]
  in [
    testEq "A ≡ A" $
      equalE [<] (F "A") (F "A"),
    testNeq "A ≢ B" $
      equalE [<] (F "A") (F "B"),
    testEq "0=1 ⊢ A ≡ B" $
      equalE {eqs = ZeroIsOne} [<] (F "A") (F "B"),
    testEq "A : ★₁ ≔ ★₀ ⊢ A ≡ (★₀ ∷ ★₁)" {globals = au_bu} $
      equalE [<] (F "A") (TYPE 0 :# TYPE 1),
    testEq "A ≔ ★₀, B ≔ ★₀ ⊢ A ≡ B" {globals = au_bu} $
      equalE [<] (F "A") (F "B"),
    testEq "A ≔ ★₀, B ≔ A ⊢ A ≡ B" {globals = au_ba} $
      equalE [<] (F "A") (F "B"),
    testEq "A <: A" $
      subE [<] (F "A") (F "A"),
    testNeq "A ≮: B" $
      subE [<] (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 [<] (F "A") (F "B"),
    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 [<] (F "A") (F "B"),
    testEq "0=1 ⊢ A <: B" $
      subE [<] (F "A") (F "B") {eqs = ZeroIsOne}
  ],

  "bound var" :- [
    note "𝑖, 𝑗 for distinct bound variables",
    testEq "𝑖 ≡ 𝑖" $
      equalE [< TYPE 0] (BV 0) (BV 0) {n = 1},
    testNeq "𝑖 ≢ 𝑗" $
      equalE [< TYPE 0, TYPE 0] (BV 0) (BV 1) {n = 2},
    testEq "0=1 ⊢ 𝑖 ≡ 𝑗" $
      equalE [< TYPE 0, TYPE 0] (BV 0) (BV 1)
        {n = 2, eqs = ZeroIsOne}
  ],

  "application" :- [
    testEq "f [a] ≡ f [a]" $
      equalE [<] (F "f" :@ FT "a") (F "f" :@ FT "a"),
    testEq "f [a] <: f [a]" $
      subE [<] (F "f" :@ FT "a") (F "f" :@ FT "a"),
    testEq "(λ x ⇒ [x] ∷ A ⊸ A) a ≡ ([a ∷ A] ∷ A)  (β)" $
      equalE [<]
        (((["x"] :\\ BVT 0) :# Arr One (FT "A") (FT "A")) :@ FT "a")
        (E (FT "a" :# FT "A") :# FT "A"),
    testEq "(λ x ⇒ [x] ∷ A ⊸ A) a ≡ a  (βυ)" $
      equalE [<]
        (((["x"] :\\ BVT 0) :# Arr One (FT "A") (FT "A")) :@ FT "a")
        (F "a"),
    testEq "(λ g ⇒ [g [a]] ∷ ⋯)) [f] ≡ (λ y ⇒ [f [y]] ∷ ⋯) [a]  (β↘↙)" $
      let a = FT "A"; a2a = (Arr One a a) in
      equalE [<]
        (((["g"] :\\ E (BV 0 :@ FT "a")) :# Arr One a2a a) :@ FT "f")
        (((["y"] :\\ E (F "f" :@ BVT 0)) :# a2a) :@ FT "a"),
    testEq "(λ x ⇒ [x] ∷ A ⊸ A) a <: a" $
      subE [<]
        (((["x"] :\\ BVT 0) :# (Arr One (FT "A") (FT "A"))) :@ FT "a")
        (F "a"),
    testEq "id : A ⊸ A ≔ λ x ⇒ [x] ⊢ id [a] ≡ a"
           {globals = defGlobals `mergeLeft` fromList
              [("id", mkDef Any (Arr One (FT "A") (FT "A"))
                                (["x"] :\\ BVT 0))]} $
      equalE [<] (F "id" :@ FT "a") (F "a")
  ],

  todo "dim application",

  todo "annotation",

  todo "elim closure",

  todo "elim d-closure",

  "clashes" :- [
    testNeq "★₀ ≢ ★₀ ⇾ ★₀" $
      equalT [<] (TYPE 1) (TYPE 0) (Arr Zero (TYPE 0) (TYPE 0)),
    testEq "0=1 ⊢ ★₀ ≡ ★₀ ⇾ ★₀" $
      equalT [<] (TYPE 1) (TYPE 0) (Arr Zero (TYPE 0) (TYPE 0))
        {eqs = ZeroIsOne},
    todo "others"
  ]
]
-												a few tests

											
										
										
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+								module Tests.Equal
-												more typed equality, uip, etc

											
										
										
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+								import Quox.Equal
-												parameterise over qty semiring

											
										
										
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+								import Quox.Syntax.Qty.Three
-												more typed equality, uip, etc

											
										
										
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+								import public TypingImpls
-												a few tests

											
										
										
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+								import TAP
-												parameterise over qty semiring

											
										
										
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+M : Type -> Type
 								M = ReaderT (Definitions Three) (Either (Error Three))
-												a few tests

											
										
										
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-												typed equality

											
										
										
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+								defGlobals : Definitions Three
 								defGlobals = fromList
 								  [("A", mkAbstract Zero $ TYPE 0),
 								   ("B", mkAbstract Zero $ TYPE 0),
 								   ("a", mkAbstract Any  $ FT "A"),
-												more typed equality, uip, etc

											
										
										
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+								   ("a'", mkAbstract Any  $ FT "A"),
-												typed equality

											
										
										
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+								   ("b", mkAbstract Any  $ FT "B"),
 								   ("f", mkAbstract Any  $ Arr One (FT "A") (FT "A"))]
-												unfold definitions in equality checking, plus cleanup

											
										
										
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+								parameters (label : String) (act : Lazy (M ()))
-												typed equality

											
										
										
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+								           {default defGlobals globals : Definitions Three}
-												unfold definitions in equality checking, plus cleanup

											
										
										
											2022-08-22 23:43:23 -04:00
+								  testEq : Test
 								  testEq = test label $ runReaderT globals act
-												a few tests

											
										
										
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-												unfold definitions in equality checking, plus cleanup

											
										
										
											2022-08-22 23:43:23 -04:00
+								  testNeq : Test
 								  testNeq = testThrows label (const True) $ runReaderT globals act
-												a few tests

											
										
										
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-												whnf actually reduces to whnf now (probably)

											
										
										
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+								parameters {default 0   d, n : Nat}
 								           {default new eqs  : DimEq d}
-												typed equality

											
										
										
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+								           (ctx : TContext Three d n)
 								  subT : Term Three d n -> Term Three d n -> Term Three d n -> M ()
 								  subT ty s t = Term.sub eqs ctx ty s t
-												a few tests

											
										
										
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-												typed equality

											
										
										
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+								  equalT : Term Three d n -> Term Three d n -> Term Three d n -> M ()
 								  equalT ty s t = Term.equal eqs ctx ty s t
-												a few tests

											
										
										
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-												whnf actually reduces to whnf now (probably)

											
										
										
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+								  subE : Elim Three d n -> Elim Three d n -> M ()
-												typed equality

											
										
										
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+								  subE e f = Elim.sub eqs ctx e f
-												a few tests

											
										
										
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-												whnf actually reduces to whnf now (probably)

											
										
										
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+								  equalE : Elim Three d n -> Elim Three d n -> M ()
-												typed equality

											
										
										
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+								  equalE e f = Elim.equal eqs ctx e f
-												a few tests

											
										
										
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 								export
 								tests : Test
 								tests = "equality & subtyping" :- [
-												whnf actually reduces to whnf now (probably)

											
										
										
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+								  note #""0=1 ⊢ 𝒥" means that 𝒥 holds in an inconsistent dim context"#,
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								  note #""s{…}" for term substs; "s‹…›" for dim substs"#,
-												whnf actually reduces to whnf now (probably)

											
										
										
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 								  "universes" :- [
 								    testEq "★₀ ≡ ★₀" $
-												typed equality

											
										
										
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+								      equalT [<] (TYPE 1) (TYPE 0) (TYPE 0),
-												whnf actually reduces to whnf now (probably)

											
										
										
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+								    testNeq "★₀ ≢ ★₁" $
-												typed equality

											
										
										
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+								      equalT [<] (TYPE 2) (TYPE 0) (TYPE 1),
-												whnf actually reduces to whnf now (probably)

											
										
										
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+								    testNeq "★₁ ≢ ★₀" $
-												typed equality

											
										
										
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+								      equalT [<] (TYPE 2) (TYPE 1) (TYPE 0),
-												whnf actually reduces to whnf now (probably)

											
										
										
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+								    testEq "★₀ <: ★₀" $
-												typed equality

											
										
										
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+								      subT [<] (TYPE 1) (TYPE 0) (TYPE 0),
-												whnf actually reduces to whnf now (probably)

											
										
										
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+								    testEq "★₀ <: ★₁" $
-												typed equality

											
										
										
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+								      subT [<] (TYPE 2) (TYPE 0) (TYPE 1),
-												whnf actually reduces to whnf now (probably)

											
										
										
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+								    testNeq "★₁ ≮: ★₀" $
-												typed equality

											
										
										
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+								      subT [<] (TYPE 2) (TYPE 1) (TYPE 0)
-												whnf actually reduces to whnf now (probably)

											
										
										
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+								  ],
 								  "pi" :- [
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								    note #""A ⊸ B" for (1·A) → B"#,
 								    note #""A ⇾ B" for (0·A) → B"#,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "A ⊸ B ≡ A ⊸ B" $
 								      let tm = Arr One (FT "A") (FT "B") in
-												typed equality

											
										
										
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+								      equalT [<] (TYPE 0) tm tm,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testNeq "A ⇾ B ≢ A ⊸ B" $
 								      let tm1 = Arr Zero (FT "A") (FT "B")
 								          tm2 = Arr One  (FT "A") (FT "B") in
-												typed equality

											
										
										
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+								      equalT [<] (TYPE 0) tm1 tm2,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "0=1 ⊢ A ⇾ B ≢ A ⊸ B" $
 								      let tm1 = Arr Zero (FT "A") (FT "B")
 								          tm2 = Arr One  (FT "A") (FT "B") in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (TYPE 0) tm1 tm2 {eqs = ZeroIsOne},
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "A ⊸ B <: A ⊸ B" $
 								      let tm = Arr One (FT "A") (FT "B") in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subT [<] (TYPE 0) tm tm,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testNeq "A ⇾ B ≮: A ⊸ B" $
 								      let tm1 = Arr Zero (FT "A") (FT "B")
 								          tm2 = Arr One  (FT "A") (FT "B") in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subT [<] (TYPE 0) tm1 tm2,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "★₀ ⇾ ★₀ ≡ ★₀ ⇾ ★₀" $
 								      let tm = Arr Zero (TYPE 0) (TYPE 0) in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (TYPE 1) tm tm,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "★₀ ⇾ ★₀ <: ★₀ ⇾ ★₀" $
 								      let tm = Arr Zero (TYPE 0) (TYPE 0) in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subT [<] (TYPE 1) tm tm,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testNeq "★₁ ⊸ ★₀ ≢ ★₀ ⇾ ★₀" $
 								      let tm1 = Arr Zero (TYPE 1) (TYPE 0)
 								          tm2 = Arr Zero (TYPE 0) (TYPE 0) in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (TYPE 2) tm1 tm2,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "★₁ ⊸ ★₀ <: ★₀ ⊸ ★₀" $
 								      let tm1 = Arr One (TYPE 1) (TYPE 0)
 								          tm2 = Arr One (TYPE 0) (TYPE 0) in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subT [<] (TYPE 2) tm1 tm2,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testNeq "★₀ ⊸ ★₀ ≢ ★₀ ⇾ ★₁" $
 								      let tm1 = Arr Zero (TYPE 0) (TYPE 0)
 								          tm2 = Arr Zero (TYPE 0) (TYPE 1) in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (TYPE 2) tm1 tm2,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "★₀ ⊸ ★₀ <: ★₀ ⊸ ★₁" $
 								      let tm1 = Arr One (TYPE 0) (TYPE 0)
 								          tm2 = Arr One (TYPE 0) (TYPE 1) in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subT [<] (TYPE 2) tm1 tm2,
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "★₀ ⊸ ★₀ <: ★₀ ⊸ ★₁" $
 								      let tm1 = Arr One (TYPE 0) (TYPE 0)
 								          tm2 = Arr One (TYPE 0) (TYPE 1) in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subT [<] (TYPE 2) tm1 tm2
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								  ],
 								  "lambda" :- [
 								    testEq "λ x ⇒ [x] ≡ λ x ⇒ [x]" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (Arr One (FT "A") (FT "A"))
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (["x"] :\\ BVT 0)
 								        (["x"] :\\ BVT 0),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "λ x ⇒ [x] <: λ x ⇒ [x]" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subT [<] (Arr One (FT "A") (FT "A"))
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (["x"] :\\ BVT 0)
 								        (["x"] :\\ BVT 0),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "λ x ⇒ [x] ≡ λ y ⇒ [y]" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (Arr One (FT "A") (FT "A"))
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (["x"] :\\ BVT 0)
 								        (["y"] :\\ BVT 0),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "λ x ⇒ [x] <: λ y ⇒ [y]" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (Arr One (FT "A") (FT "A"))
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (["x"] :\\ BVT 0)
 								        (["y"] :\\ BVT 0),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testNeq "λ x y ⇒ [x] ≢ λ x y ⇒ [y]" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (Arr One (FT "A") $ Arr One (FT "A") (FT "A"))
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (["x", "y"] :\\ BVT 1)
 								        (["x", "y"] :\\ BVT 0),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "λ x ⇒ [a] ≡ λ x ⇒ [a]  (TUsed vs TUnused)" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (Arr Zero (FT "B") (FT "A"))
 								        (Lam "x" $ TUsed   $ FT "a")
 								        (Lam "x" $ TUnused $ FT "a"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "λ x ⇒ [f [x]] ≡ [f]  (η)" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (Arr One (FT "A") (FT "A"))
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (["x"] :\\ E (F "f" :@ BVT 0))
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								        (FT "f")
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								  ],
-												pair stuff

											
										
										
											2023-01-26 13:54:46 -05:00
+								  "eq type" :- [
 								    testEq "(★₀ = ★₀ : ★₁) ≡ (★₀ = ★₀ : ★₁)" $
 								      let tm = Eq0 (TYPE 1) (TYPE 0) (TYPE 0) in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (TYPE 2) tm tm,
-												pair stuff

											
										
										
											2023-01-26 13:54:46 -05:00
+								    testEq "A ≔ ★₁ ⊢ (★₀ = ★₀ : ★₁) ≡ (★₀ = ★₀ : A)"
 								        {globals = fromList [("A", mkDef zero (TYPE 2) (TYPE 1))]} $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (TYPE 2)
 								        (Eq0 (TYPE 1) (TYPE 0) (TYPE 0))
 								        (Eq0 (FT "A") (TYPE 0) (TYPE 0))
-												pair stuff

											
										
										
											2023-01-26 13:54:46 -05:00
+								  ],
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								  "equalities" :-
 								  let refl : Term q d n -> Term q d n -> Elim q d n
 								      refl a x = (DLam "_" $ DUnused x) :# (Eq0 a x x)
 								  in
 								  [
 								    note #""refl [A] x" is an abbreviation for "(λᴰi ⇒ x) ∷ (x ≡ x : A)""#,
 								    testEq "refl [A] a ≡ refl [A] a" $
 								      equalE [<] (refl (FT "A") (FT "a")) (refl (FT "A") (FT "a")),
 								    testEq "p : (a ≡ a' : A), q : (a ≡ a' : A) ⊢ p ≡ q  (free)"
 								           {globals =
 								              let def = mkAbstract Zero $ Eq0 (FT "A") (FT "a") (FT "a'") in
 								              defGlobals `mergeLeft` fromList [("p", def), ("q", def)]} $
 								      equalE [<] (F "p") (F "q"),
 								    testEq "x : (a ≡ a' : A), y : (a ≡ a' : A) ⊢ x ≡ y  (bound)" $
 								      let ty : forall n. Term Three 0 n := Eq0 (FT "A") (FT "a") (FT "a'") in
 								      equalE [< ty, ty] (BV 0) (BV 1) {n = 2}
 								  ],
-												pair stuff

											
										
										
											2023-01-26 13:54:46 -05:00
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								  "term closure" :- [
 								    note "𝑖, 𝑗 for bound variables pointing outside of the current expr",
 								    testEq "[𝑖]{} ≡ [𝑖]" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [< FT "A"] (FT "A") {n = 1}
 								        (CloT (BVT 0) id)
 								        (BVT 0),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "[𝑖]{a/𝑖} ≡ [a]" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (FT "A")
 								        (CloT (BVT 0) (F "a" ::: id))
 								        (FT "a"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "[𝑖]{a/𝑖,b/𝑗} ≡ [a]" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (FT "A")
 								        (CloT (BVT 0) (F "a" ::: F "b" ::: id))
 								        (FT "a"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "(λy. [𝑖]){y/y, a/𝑖} ≡ λy. [a]  (TUnused)" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (Arr Zero (FT "B") (FT "A"))
 								        (CloT (Lam "y" $ TUnused $ BVT 0) (F "a" ::: id))
 								        (Lam "y" $ TUnused $ FT "a"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "(λy. [𝑖]){y/y, a/𝑖} ≡ λy. [a]  (TUsed)" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (Arr Zero (FT "B") (FT "A"))
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (CloT (["y"] :\\ BVT 1) (F "a" ::: id))
 								        (["y"] :\\ FT "a")
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								  ],
 								  todo "term d-closure",
 								  "free var" :-
 								  let au_bu = fromList
 								        [("A", mkDef Any (TYPE (U 1)) (TYPE (U 0))),
 								         ("B", mkDef Any (TYPE (U 1)) (TYPE (U 0)))]
 								      au_ba = fromList
 								        [("A", mkDef Any (TYPE (U 1)) (TYPE (U 0))),
 								         ("B", mkDef Any (TYPE (U 1)) (FT "A"))]
 								  in [
 								    testEq "A ≡ A" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [<] (F "A") (F "A"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testNeq "A ≢ B" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [<] (F "A") (F "B"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "0=1 ⊢ A ≡ B" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE {eqs = ZeroIsOne} [<] (F "A") (F "B"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "A : ★₁ ≔ ★₀ ⊢ A ≡ (★₀ ∷ ★₁)" {globals = au_bu} $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [<] (F "A") (TYPE 0 :# TYPE 1),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "A ≔ ★₀, B ≔ ★₀ ⊢ A ≡ B" {globals = au_bu} $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [<] (F "A") (F "B"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "A ≔ ★₀, B ≔ A ⊢ A ≡ B" {globals = au_ba} $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [<] (F "A") (F "B"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "A <: A" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subE [<] (F "A") (F "A"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testNeq "A ≮: B" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subE [<] (F "A") (F "B"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    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))]} $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subE [<] (F "A") (F "B"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    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))]} $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subE [<] (F "A") (F "B"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "0=1 ⊢ A <: B" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subE [<] (F "A") (F "B") {eqs = ZeroIsOne}
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								  ],
 								  "bound var" :- [
 								    note "𝑖, 𝑗 for distinct bound variables",
 								    testEq "𝑖 ≡ 𝑖" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [< TYPE 0] (BV 0) (BV 0) {n = 1},
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testNeq "𝑖 ≢ 𝑗" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [< TYPE 0, TYPE 0] (BV 0) (BV 1) {n = 2},
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "0=1 ⊢ 𝑖 ≡ 𝑗" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [< TYPE 0, TYPE 0] (BV 0) (BV 1)
 								        {n = 2, eqs = ZeroIsOne}
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								  ],
 								  "application" :- [
 								    testEq "f [a] ≡ f [a]" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [<] (F "f" :@ FT "a") (F "f" :@ FT "a"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "f [a] <: f [a]" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subE [<] (F "f" :@ FT "a") (F "f" :@ FT "a"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "(λ x ⇒ [x] ∷ A ⊸ A) a ≡ ([a ∷ A] ∷ A)  (β)" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [<]
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (((["x"] :\\ BVT 0) :# Arr One (FT "A") (FT "A")) :@ FT "a")
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								        (E (FT "a" :# FT "A") :# FT "A"),
 								    testEq "(λ x ⇒ [x] ∷ A ⊸ A) a ≡ a  (βυ)" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [<]
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (((["x"] :\\ BVT 0) :# Arr One (FT "A") (FT "A")) :@ FT "a")
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								        (F "a"),
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								    testEq "(λ g ⇒ [g [a]] ∷ ⋯)) [f] ≡ (λ y ⇒ [f [y]] ∷ ⋯) [a]  (β↘↙)" $
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								      let a = FT "A"; a2a = (Arr One a a) in
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [<]
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (((["g"] :\\ E (BV 0 :@ FT "a")) :# Arr One a2a a) :@ FT "f")
 								        (((["y"] :\\ E (F "f" :@ BVT 0)) :# a2a) :@ FT "a"),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "(λ x ⇒ [x] ∷ A ⊸ A) a <: a" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      subE [<]
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								        (((["x"] :\\ BVT 0) :# (Arr One (FT "A") (FT "A"))) :@ FT "a")
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								        (F "a"),
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								    testEq "id : A ⊸ A ≔ λ x ⇒ [x] ⊢ id [a] ≡ a"
 								           {globals = defGlobals `mergeLeft` fromList
 								              [("id", mkDef Any (Arr One (FT "A") (FT "A"))
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								                                (["x"] :\\ BVT 0))]} $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalE [<] (F "id" :@ FT "a") (F "a")
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								  ],
-												more typed equality, uip, etc

											
										
										
											2023-02-11 12:15:50 -05:00
+								  todo "dim application",
-												pair stuff

											
										
										
											2023-01-26 13:54:46 -05:00
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								  todo "annotation",
 								  todo "elim closure",
 								  todo "elim d-closure",
 								  "clashes" :- [
 								    testNeq "★₀ ≢ ★₀ ⇾ ★₀" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (TYPE 1) (TYPE 0) (Arr Zero (TYPE 0) (TYPE 0)),
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    testEq "0=1 ⊢ ★₀ ≡ ★₀ ⇾ ★₀" $
-												typed equality

											
										
										
											2023-02-10 15:40:44 -05:00
+								      equalT [<] (TYPE 1) (TYPE 0) (Arr Zero (TYPE 0) (TYPE 0))
 								        {eqs = ZeroIsOne},
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								    todo "others"
-												a few tests

											
										
										
											2022-04-27 14:06:39 -04:00
+								  ]
-												whnf actually reduces to whnf now (probably)

											
										
										
											2023-01-22 18:53:34 -05:00
+								]