chore: Version 0.3 #136
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@ -67,7 +67,7 @@ end TacticInvocation
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/-- Return all `TacticInfo` nodes in an `InfoTree` corresponding to tactics,
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each equipped with its relevant `ContextInfo`, and any children info trees. -/
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private def collectTacticNodes (t : Elab.InfoTree) : List TacticInvocation :=
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let infos := t.findAllInfo none fun i => match i with
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let infos := t.findAllInfo none false fun i => match i with
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| .ofTacticInfo _ => true
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| _ => false
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infos.filterMap fun p => match p with
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@ -101,21 +101,27 @@ structure InfoWithContext where
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info: Elab.Info
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context?: Option Elab.ContextInfo := .none
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private def collectSorrysInTree (t : Elab.InfoTree) : List InfoWithContext :=
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let infos := t.findAllInfo none fun i => match i with
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| .ofTermInfo { expectedType?, expr, stx, .. } =>
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expr.isSorry ∧ expectedType?.isSome ∧ stx.isOfKind `Lean.Parser.Term.sorry
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private def collectSorrysInTree (t : Elab.InfoTree) : IO (List InfoWithContext) := do
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let infos ← t.findAllInfoM none true fun i ctx? => match i with
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| .ofTermInfo { expectedType?, expr, stx, lctx, .. } => do
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let .some expectedType := expectedType? | return false
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let .some ctx := ctx? | return false
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if expr.isSorry ∧ stx.isOfKind `Lean.Parser.Term.sorry then
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return true
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ctx.runMetaM lctx do
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let type ← Meta.inferType expr
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Bool.not <$> Meta.isDefEq type expectedType
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| .ofTacticInfo { stx, goalsBefore, .. } =>
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-- The `sorry` term is distinct from the `sorry` tactic
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let isSorry := stx.isOfKind `Lean.Parser.Tactic.tacticSorry
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isSorry ∧ !goalsBefore.isEmpty
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| _ => false
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infos.map fun (info, context?, _) => { info, context? }
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return isSorry ∧ !goalsBefore.isEmpty
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| _ => return false
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return infos.map fun (info, context?, _) => { info, context? }
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-- NOTE: Plural deliberately not spelled "sorries"
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@[export pantograph_frontend_collect_sorrys_m]
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def collectSorrys (step: CompilationStep) : List InfoWithContext :=
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step.trees.bind collectSorrysInTree
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def collectSorrys (step: CompilationStep) : IO (List InfoWithContext) := do
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return (← step.trees.mapM collectSorrysInTree).join
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@ -93,14 +93,35 @@ partial def InfoTree.filter (p : Info → Bool) (m : MVarId → Bool := fun _ =>
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| .hole mvar => if m mvar then [.hole mvar] else []
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/-- Analogue of `Lean.Elab.InfoTree.findInfo?`, but that returns a list of all results. -/
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partial def InfoTree.findAllInfo (t : InfoTree) (context?: Option Elab.ContextInfo) (pred : Elab.Info → Bool) :
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List (Elab.Info × Option Elab.ContextInfo × PersistentArray Elab.InfoTree) :=
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partial def InfoTree.findAllInfo
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(t : InfoTree)
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(context?: Option Elab.ContextInfo)
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(haltOnMatch : Bool := false)
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(pred : Elab.Info → Bool)
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: List (Elab.Info × Option Elab.ContextInfo × PersistentArray Elab.InfoTree) :=
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match t with
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| .context inner t => findAllInfo t (inner.mergeIntoOuter? context?) pred
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| .context inner t => findAllInfo t (inner.mergeIntoOuter? context?) haltOnMatch pred
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| .node i children =>
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(if pred i then [(i, context?, children)] else []) ++ children.toList.bind (fun t => findAllInfo t context? pred)
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let head := if pred i then [(i, context?, children)] else []
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let tail := if haltOnMatch then [] else children.toList.bind (fun t => findAllInfo t context? haltOnMatch pred)
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head ++ tail
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| _ => []
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/-- Monadic analogue of `findAllInfo` -/
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partial def InfoTree.findAllInfoM [Monad m]
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(t : InfoTree)
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(context?: Option Elab.ContextInfo)
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(haltOnMatch : Bool)
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(pred : Elab.Info → Option Elab.ContextInfo → m Bool)
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: m (List (Elab.Info × Option Elab.ContextInfo × PersistentArray Elab.InfoTree)) := do
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match t with
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| .context inner t => t.findAllInfoM (inner.mergeIntoOuter? context?) haltOnMatch pred
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| .node i children =>
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let head := if ← pred i context? then [(i, context?, children)] else []
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let tail := if haltOnMatch then pure [] else children.toList.mapM (fun t => t.findAllInfoM context? haltOnMatch pred)
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return head ++ (← tail).join
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| _ => return []
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@[export pantograph_infotree_to_string_m]
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partial def InfoTree.toString (t : InfoTree) (ctx?: Option Elab.ContextInfo := .none) : IO String := do
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match t with
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@ -257,10 +257,10 @@ def execute (command: Protocol.Command): MainM Lean.Json := do
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pure $ .some invocations
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else
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pure .none
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let sorrys := if args.sorrys then
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let sorrys ← if args.sorrys then
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Frontend.collectSorrys step
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else
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[]
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pure []
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let messages ← step.messageStrings
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return (step.before, boundary, invocations?, sorrys, messages)
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let li ← frontendM.run context |>.run' state
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@ -10,7 +10,9 @@ def collectSorrysFromSource (source: String) : MetaM (List GoalState) := do
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let filename := "<anonymous>"
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let (context, state) ← do Frontend.createContextStateFromFile source filename (← getEnv) {}
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let m := Frontend.mapCompilationSteps λ step => do
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return (step.before, Frontend.collectSorrys step)
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for tree in step.trees do
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IO.println s!"{← tree.toString}"
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return (step.before, ← Frontend.collectSorrys step)
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let li ← m.run context |>.run' state
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let goalStates ← li.filterMapM λ (env, sorrys) => withEnv env do
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if sorrys.isEmpty then
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@ -177,6 +179,13 @@ example (n: Nat) : mystery n + 1 = n + 2 := sorry
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}
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])
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def test_capture_type_mismatch : TestT MetaM Unit := do
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let input := "
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def mystery : Nat := true
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"
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let goalStates ← (collectSorrysFromSource input).run' {}
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let [goalState] := goalStates | panic! s!"Incorrect number of states: {goalStates.length}"
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def suite (env : Environment): List (String × IO LSpec.TestSeq) :=
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let tests := [
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@ -185,6 +194,7 @@ def suite (env : Environment): List (String × IO LSpec.TestSeq) :=
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("sorry_in_induction", test_sorry_in_induction),
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("sorry_in_coupled", test_sorry_in_coupled),
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("environment_capture", test_environment_capture),
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("capture_type_mismatch", test_capture_type_mismatch),
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]
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tests.map (fun (name, test) => (name, runMetaMSeq env $ runTest test))
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