240 lines
7.1 KiB
Idris
240 lines
7.1 KiB
Idris
module Tests.PrettyTerm
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import TAP
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import Quox.Syntax
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import PrettyExtra
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parameters (ds : BContext d) (ns : BContext n)
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testPrettyT : Term d n -> (uni, asc : String) ->
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{default uni label : String} -> Test
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testPrettyT t uni asc {label} =
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testPretty (prettyTerm ds ns) t uni asc {label}
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testPrettyT1 : Term d n -> (str : String) ->
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{default str label : String} -> Test
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testPrettyT1 t str {label} = testPrettyT t str str {label}
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testPrettyE : Elim d n -> (uni, asc : String) ->
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{default uni label : String} -> Test
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testPrettyE e uni asc {label} = testPrettyT (E e) uni asc {label}
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testPrettyE1 : Elim d n -> (str : String) ->
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{default str label : String} -> Test
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testPrettyE1 e str {label} = testPrettyT1 (E e) str {label}
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prefix 9 ^
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(^) : (Loc -> a) -> a
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(^) a = a noLoc
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FromString BindName where fromString str = BN (fromString str) noLoc
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export
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tests : Test
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tests = "pretty printing terms" :- [
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"free vars" :- [
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testPrettyE1 [<] [<] (^F "x" 0) "x",
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testPrettyE [<] [<] (^F "x" 1) "x¹" "x^1",
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testPrettyE1 [<] [<] (^F (MakeName [< "A", "B", "C"] "x") 0) "A.B.C.x",
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testPrettyE [<] [<] (^F (MakeName [< "A", "B", "C"] "x") 2)
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"A.B.C.x²"
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"A.B.C.x^2"
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],
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"bound vars" :- [
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testPrettyE1 [< "𝑖", "𝑗"] [< "x", "y"] (^BV 0) "y",
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testPrettyE1 [< "𝑖", "𝑗"] [< "x", "y"] (^BV 1) "x",
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testPrettyE1 [< "𝑖", "𝑗"] [< "x", "y"]
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(^DApp (^F "eq" 0) (^BV 1))
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"eq @𝑖",
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testPrettyE1 [< "𝑖", "𝑗"] [< "x", "y"]
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(^DApp (^DApp (^F "eq" 0) (^BV 1)) (^BV 0))
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"eq @𝑖 @𝑗"
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],
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"applications" :- [
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testPrettyE1 [<] [<]
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(^App (^F "f" 0) (^FT "x" 0))
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"f x",
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testPrettyE1 [<] [<]
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(^App (^App (^F "f" 0) (^FT "x" 0)) (^FT "y" 0))
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"f x y",
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testPrettyE1 [<] [<]
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(^DApp (^F "f" 0) (^K Zero))
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"f @0",
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testPrettyE1 [<] [<]
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(^DApp (^App (^F "f" 0) (^FT "x" 0)) (^K Zero))
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"f x @0",
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testPrettyE1 [<] [<]
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(^App (^DApp (^F "g" 0) (^K One)) (^FT "y" 0))
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"g @1 y"
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],
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"lambda" :- [
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testPrettyT [<] [<]
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(^LamY "x" (^BVT 0))
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"λ x ⇒ x"
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"fun x => x",
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testPrettyT [<] [<]
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(^LamN (^FT "a" 0))
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"λ _ ⇒ a"
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"fun _ => a",
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testPrettyT [<] [< "y"]
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(^LamY "x" (^BVT 1))
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"λ x ⇒ y"
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"fun x => y",
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testPrettyT [<] [<]
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(^LamY "x" (^LamY "y" (^LamY "f"
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(E $ ^App (^App (^BV 0) (^BVT 2)) (^BVT 1)))))
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"λ x y f ⇒ f x y"
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"fun x y f => f x y",
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testPrettyT [<] [<]
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(^DLam (SN (^FT "a" 0)))
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"δ _ ⇒ a"
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"dfun _ => a",
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testPrettyT [<] [<]
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(^DLamY "i" (^FT "x" 0))
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"δ i ⇒ x"
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"dfun i => x",
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testPrettyT [<] [<]
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(^LamY "x" (^DLamY "i" (E $ ^DApp (^BV 0) (^BV 0))))
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"λ x ⇒ δ i ⇒ x @i"
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"fun x => dfun i => x @i"
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],
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"type universes" :- [
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testPrettyT [<] [<] (^TYPE 0) "★⁰" "Type 0",
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testPrettyT [<] [<] (^TYPE 100) "★¹⁰⁰" "Type 100"
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],
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"function types" :- [
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testPrettyT [<] [<]
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(^Arr One (^FT "A" 0) (^FT "B" 0))
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"1.A → B"
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"1.A -> B",
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testPrettyT [<] [<]
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(^PiY One "x" (^FT "A" 0) (E $ ^App (^F "B" 0) (^BVT 0)))
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"1.(x : A) → B x"
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"1.(x : A) -> B x",
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testPrettyT [<] [<]
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(^PiY Zero "A" (^TYPE 0) (^Arr Any (^BVT 0) (^BVT 0)))
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"0.(A : ★⁰) → ω.A → A"
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"0.(A : Type 0) -> #.A -> A",
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testPrettyT [<] [<]
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(^Arr Any (^Arr Any (^FT "A" 0) (^FT "A" 0)) (^FT "A" 0))
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"ω.(ω.A → A) → A"
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"#.(#.A -> A) -> A",
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testPrettyT [<] [<]
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(^Arr Any (^FT "A" 0) (^Arr Any (^FT "A" 0) (^FT "A" 0)))
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"ω.A → ω.A → A"
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"#.A -> #.A -> A",
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testPrettyT [<] [<]
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(^PiY Zero "P" (^Arr Zero (^FT "A" 0) (^TYPE 0))
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(E $ ^App (^BV 0) (^FT "a" 0)))
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"0.(P : 0.A → ★⁰) → P a"
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"0.(P : 0.A -> Type 0) -> P a"
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],
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"pair types" :- [
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testPrettyT [<] [<]
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(^And (^FT "A" 0) (^FT "B" 0))
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"A × B"
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"A ** B",
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testPrettyT [<] [<]
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(^SigY "x" (^FT "A" 0) (E $ ^App (^F "B" 0) (^BVT 0)))
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"(x : A) × B x"
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"(x : A) ** B x",
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testPrettyT [<] [<]
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(^SigY "x" (^FT "A" 0)
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(^SigY "y" (E $ ^App (^F "B" 0) (^BVT 0))
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(E $ ^App (^App (^F "C" 0) (^BVT 1)) (^BVT 0))))
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"(x : A) × (y : B x) × C x y"
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"(x : A) ** (y : B x) ** C x y",
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todo "non-dependent, left and right nested"
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],
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"pairs" :- [
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testPrettyT1 [<] [<]
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(^Pair (^FT "A" 0) (^FT "B" 0))
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"(A, B)",
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testPrettyT1 [<] [<]
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(^Pair (^FT "A" 0) (^Pair (^FT "B" 0) (^FT "C" 0)))
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"(A, B, C)",
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testPrettyT1 [<] [<]
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(^Pair (^Pair (^FT "A" 0) (^FT "B" 0)) (^FT "C" 0))
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"((A, B), C)",
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testPrettyT [<] [<]
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(^Pair (^LamY "x" (^BVT 0)) (^Arr One (^FT "B₁" 0) (^FT "B₂" 0)))
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"(λ x ⇒ x, 1.B₁ → B₂)"
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"(fun x => x, 1.B₁ -> B₂)"
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],
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"enum types" :- [
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testPrettyT1 [<] [<] (^enum []) "{}",
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testPrettyT1 [<] [<] (^enum ["a"]) "{a}",
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testPrettyT1 [<] [<] (^enum ["aa", "bb", "cc"]) "{aa, bb, cc}",
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testPrettyT1 [<] [<] (^enum ["a b c"]) #"{"a b c"}"#,
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testPrettyT1 [<] [<] (^enum ["\"", ",", "\\"]) #" {"\"", ",", \} "#
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{label = #"{"\"", ",", \} # 「\」 is an identifier"#}
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],
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"tags" :- [
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testPrettyT1 [<] [<] (^Tag "a") "'a",
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testPrettyT1 [<] [<] (^Tag "hello") "'hello",
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testPrettyT1 [<] [<] (^Tag "qualified.tag") "'qualified.tag",
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testPrettyT1 [<] [<] (^Tag "non-identifier tag") #"'"non-identifier tag""#,
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testPrettyT1 [<] [<] (^Tag #"""#) #" '"\"" "#
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],
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todo "equality types",
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"case" :- [
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testPrettyE [<] [<]
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(^CasePair One (^F "a" 0) (SN $ ^TYPE 1) (SN $ ^TYPE 0))
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"case1 a return ★¹ of { (_, _) ⇒ ★⁰ }"
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"case1 a return Type 1 of { (_, _) => Type 0 }",
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testPrettyT [<] [<]
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(^LamY "u" (E $
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^CaseEnum One (^F "u" 0)
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(SY [< "x"] $ ^Eq0 (^enum ["tt"]) (^BVT 0) (^Tag "tt"))
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(fromList [("tt", ^DLamN (^Tag "tt"))])))
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"λ u ⇒ case1 u return x ⇒ x ≡ 'tt : {tt} of { 'tt ⇒ δ _ ⇒ 'tt }"
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"""
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fun u =>
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case1 u return x => x == 'tt : {tt} of { 'tt => dfun _ => 'tt }
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"""
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],
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"type-case" :- [
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testPrettyE [<] [<]
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{label = "type-case ℕ ∷ ★⁰ return ★⁰ of { ⋯ }"}
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(^TypeCase (^Ann (^NAT) (^TYPE 0)) (^TYPE 0) empty (^NAT))
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"type-case ℕ ∷ ★⁰ return ★⁰ of { _ ⇒ ℕ }"
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"type-case Nat :: Type 0 return Type 0 of { _ => Nat }"
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],
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"annotations" :- [
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testPrettyE [<] [<]
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(^Ann (^FT "a" 0) (^FT "A" 0))
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"a ∷ A"
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"a :: A",
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testPrettyE [<] [<]
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(^Ann (^FT "a" 0) (E $ ^Ann (^FT "A" 0) (^FT "𝐀" 0)))
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"a ∷ A ∷ 𝐀"
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"a :: A :: 𝐀",
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testPrettyE [<] [<]
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(^Ann (E $ ^Ann (^FT "α" 0) (^FT "a" 0)) (^FT "A" 0))
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"(α ∷ a) ∷ A"
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"(α :: a) :: A",
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testPrettyE [<] [<]
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(^Ann (^LamY "x" (^BVT 0)) (^Arr One (^FT "A" 0) (^FT "A" 0)))
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"(λ x ⇒ x) ∷ 1.A → A"
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"(fun x => x) :: 1.A -> A",
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testPrettyE [<] [<]
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(^Ann (^Arr One (^FT "A" 0) (^FT "A" 0)) (^TYPE 7))
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"(1.A → A) ∷ ★⁷"
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"(1.A -> A) :: Type 7"
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]
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]
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