chore: Version 0.3 #136
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@ -46,64 +46,45 @@ def type_expr_to_bound (expr: Expr): MetaM Protocol.BoundExpression := do
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return (toString (← fvar.fvarId!.getUserName), toString (← Meta.ppExpr (← fvar.fvarId!.getType)))
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return { binders, target := toString (← Meta.ppExpr body) }
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private def name_to_ast (name: Lean.Name) (sanitize: Bool := true): String := match name with
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| .anonymous => ":anon"
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| .num n i => match sanitize with
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| false => s!"{toString n} {i}"
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| true => ":anon"
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| n@(.str _ _) => toString n
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private def level_depth: Level → Nat
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| .zero => 0
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| .succ l => 1 + (level_depth l)
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| .max u v | .imax u v => 1 + max (level_depth u) (level_depth v)
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| .param _ | .mvar _ => 0
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theorem level_depth_max_imax (u v: Level): (level_depth (Level.max u v) = level_depth (Level.imax u v)) := by
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constructor
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theorem level_max_depth_decrease (u v: Level): (level_depth u < level_depth (Level.max u v)) := by
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have h1: level_depth (Level.max u v) = 1 + Nat.max (level_depth u) (level_depth v) := by constructor
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rewrite [h1]
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simp_arith
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conv =>
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rhs
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apply Nat.max_def
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sorry
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theorem level_offset_decrease (u v: Level): (level_depth u ≤ level_depth (Level.max u v).getLevelOffset) := sorry
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def name_to_ast (name: Name) (sanitize: Bool := true): String :=
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let internal := name.isInaccessibleUserName || name.hasMacroScopes
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if sanitize && internal then "_"
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else toString name |> enclose_if_escaped
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where
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enclose_if_escaped (n: String) :=
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let quote := "̈̈\""
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if n.contains Lean.idBeginEscape then s!"{quote}{n}{quote}" else n
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/-- serialize a sort level. Expression is optimized to be compact e.g. `(+ u 2)` -/
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def serialize_sort_level_ast (level: Level): String :=
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partial def serialize_sort_level_ast (level: Level) (sanitize: Bool): String :=
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let k := level.getOffset
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let u := level.getLevelOffset
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let u_str := match u with
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| .zero => "0"
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| .succ _ => panic! "getLevelOffset should not return .succ"
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| .max v w =>
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let v := serialize_sort_level_ast v
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let w := serialize_sort_level_ast w
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let v := serialize_sort_level_ast v sanitize
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let w := serialize_sort_level_ast w sanitize
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s!"(:max {v} {w})"
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| .imax v w =>
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let v := serialize_sort_level_ast v
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let w := serialize_sort_level_ast w
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let v := serialize_sort_level_ast v sanitize
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let w := serialize_sort_level_ast w sanitize
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s!"(:imax {v} {w})"
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| .param name =>
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let name := name_to_ast name
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let name := name_to_ast name sanitize
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s!"{name}"
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| .mvar id =>
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let name := name_to_ast id.name
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let name := name_to_ast id.name sanitize
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s!"(:mv {name})"
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match k, u with
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| 0, _ => u_str
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| _, .zero => s!"{k}"
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| _, _ => s!"(+ {u_str} {k})"
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termination_by serialize_sort_level_ast level => level_depth level
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decreasing_by
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. sorry
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/--
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Completely serializes an expression tree. Json not used due to compactness
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-/
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def serialize_expression_ast (expr: Expr) (sanitize: Bool := true): String :=
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partial def serialize_expression_ast (expr: Expr) (sanitize: Bool := true): String :=
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self expr
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where
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self (e: Expr): String :=
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@ -120,16 +101,17 @@ def serialize_expression_ast (expr: Expr) (sanitize: Bool := true): String :=
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let name := of_name mvarId.name
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s!"(:mv {name})"
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| .sort level =>
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let level := serialize_sort_level_ast level
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let level := serialize_sort_level_ast level sanitize
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s!"(:sort {level})"
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| .const declName _ =>
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-- The universe level of the const expression is elided since it should be
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-- inferrable from surrounding expression
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s!"(:c {declName})"
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| .app fn arg =>
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let fn' := self fn
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let arg' := self arg
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s!"({fn'} {arg'})"
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| .app _ _ =>
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let fn' := self e.getAppFn
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let args := e.getAppArgs.map self |>.toList
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let args := " ".intercalate args
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s!"({fn'} {args})"
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| .lam binderName binderType body binderInfo =>
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let binderName' := of_name binderName
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let binderType' := self binderType
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@ -1,5 +1,5 @@
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namespace Pantograph
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def version := "0.2.6"
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def version := "0.2.7"
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end Pantograph
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@ -45,7 +45,7 @@ def subroutine_runner (steps: List (MainM LSpec.TestSeq)): IO LSpec.TestSeq := d
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def test_option_modify : IO LSpec.TestSeq :=
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let pp? := Option.some "∀ (n : Nat), n + 1 = Nat.succ n"
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let sexp? := Option.some "(:forall n (:c Nat) ((((:c Eq) (:c Nat)) (((((((:c HAdd.hAdd) (:c Nat)) (:c Nat)) (:c Nat)) (((:c instHAdd) (:c Nat)) (:c instAddNat))) 0) ((((:c OfNat.ofNat) (:c Nat)) (:lit 1)) ((:c instOfNatNat) (:lit 1))))) ((:c Nat.succ) 0)))"
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let sexp? := Option.some "(:forall n (:c Nat) ((:c Eq) (:c Nat) ((:c HAdd.hAdd) (:c Nat) (:c Nat) (:c Nat) ((:c instHAdd) (:c Nat) (:c instAddNat)) 0 ((:c OfNat.ofNat) (:c Nat) (:lit 1) ((:c instOfNatNat) (:lit 1)))) ((:c Nat.succ) 0)))"
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let module? := Option.some "Init.Data.Nat.Basic"
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let options: Protocol.Options := {}
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subroutine_runner [
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@ -85,7 +85,7 @@ def test_malformed_command : IO LSpec.TestSeq :=
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def test_tactic : IO LSpec.TestSeq :=
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let goal: Protocol.Goal := {
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target := { pp? := .some "∀ (q : Prop), x ∨ q → q ∨ x" },
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vars := #[{ name := "_uniq 9", userName := "x", isInaccessible? := .some false, type? := .some { pp? := .some "Prop" }}],
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vars := #[{ name := "_uniq.9", userName := "x", isInaccessible? := .some false, type? := .some { pp? := .some "Prop" }}],
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}
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subroutine_runner [
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subroutine_step "goal.start"
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@ -10,7 +10,14 @@ open Lean
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deriving instance Repr, DecidableEq for Protocol.BoundExpression
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def test_str_to_name: LSpec.TestSeq :=
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LSpec.test "Symbol parsing" (Name.str (.str (.str .anonymous "Lean") "Meta") "run" = Pantograph.str_to_name "Lean.Meta.run")
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LSpec.test "Symbol parsing" (Name.str (.str (.str .anonymous "Lean") "Meta") "run" = Pantograph.str_to_name "Lean.Meta.run")
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def test_name_to_ast: LSpec.TestSeq :=
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let quote := "̈̈\""
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LSpec.test "a.b.1" (name_to_ast (Name.num (.str (.str .anonymous "a") "b") 1) = "a.b.1") ++
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LSpec.test "seg.«a.b»" (name_to_ast (Name.str (.str .anonymous "seg") "a.b") = s!"{quote}seg.«a.b»{quote}")
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-- Pathological test case
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--LSpec.test s!"«̈{escape}{quote}»" (name_to_ast (Name.str .anonymous s!"{escape}{quote}") = s!"{quote}«̈{escape}{quote}»{quote}")
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def test_expr_to_binder (env: Environment): IO LSpec.TestSeq := do
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let entries: List (String × Protocol.BoundExpression) := [
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@ -36,10 +43,10 @@ def test_expr_to_binder (env: Environment): IO LSpec.TestSeq := do
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def test_sexp_of_symbol (env: Environment): IO LSpec.TestSeq := do
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let entries: List (String × String) := [
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-- This one contains unhygienic variable names which must be suppressed
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("Nat.add", "(:forall :anon (:c Nat) (:forall :anon (:c Nat) (:c Nat)))"),
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("Nat.add", "(:forall _ (:c Nat) (:forall _ (:c Nat) (:c Nat)))"),
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-- These ones are normal and easy
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("Nat.add_one", "(:forall n (:c Nat) ((((:c Eq) (:c Nat)) (((((((:c HAdd.hAdd) (:c Nat)) (:c Nat)) (:c Nat)) (((:c instHAdd) (:c Nat)) (:c instAddNat))) 0) ((((:c OfNat.ofNat) (:c Nat)) (:lit 1)) ((:c instOfNatNat) (:lit 1))))) ((:c Nat.succ) 0)))"),
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("Nat.le_of_succ_le", "(:forall n (:c Nat) (:forall m (:c Nat) (:forall h (((((:c LE.le) (:c Nat)) (:c instLENat)) ((:c Nat.succ) 1)) 0) (((((:c LE.le) (:c Nat)) (:c instLENat)) 2) 1)) :implicit) :implicit)"),
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("Nat.add_one", "(:forall n (:c Nat) ((:c Eq) (:c Nat) ((:c HAdd.hAdd) (:c Nat) (:c Nat) (:c Nat) ((:c instHAdd) (:c Nat) (:c instAddNat)) 0 ((:c OfNat.ofNat) (:c Nat) (:lit 1) ((:c instOfNatNat) (:lit 1)))) ((:c Nat.succ) 0)))"),
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("Nat.le_of_succ_le", "(:forall n (:c Nat) (:forall m (:c Nat) (:forall h ((:c LE.le) (:c Nat) (:c instLENat) ((:c Nat.succ) 1) 0) ((:c LE.le) (:c Nat) (:c instLENat) 2 1)) :implicit) :implicit)"),
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-- Handling of higher order types
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("Or", "(:forall a (:sort 0) (:forall b (:sort 0) (:sort 0)))"),
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("List", "(:forall α (:sort (+ u 1)) (:sort (+ u 1)))")
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@ -70,6 +77,7 @@ def suite: IO LSpec.TestSeq := do
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return LSpec.group "Serialization" $
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(LSpec.group "str_to_name" test_str_to_name) ++
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(LSpec.group "name_to_ast" test_name_to_ast) ++
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(LSpec.group "Expression binder" (← test_expr_to_binder env)) ++
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(LSpec.group "Sexp from symbol" (← test_sexp_of_symbol env))
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