feat: Partial instantiate metavariables
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@ -176,9 +176,9 @@ def goalPrint (state: GoalState) (options: @&Protocol.Options): Lean.CoreM Proto
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state.restoreMetaM
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return {
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root? := ← state.rootExpr?.mapM (λ expr => do
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serializeExpression options (← unfoldAuxLemmas expr)),
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serializeExpression options (← instantiateAll expr)),
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parent? := ← state.parentExpr?.mapM (λ expr => do
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serializeExpression options (← unfoldAuxLemmas expr)),
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serializeExpression options (← instantiateAll expr)),
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}
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@[export pantograph_goal_diag_m]
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def goalDiag (state: GoalState) (diagOptions: Protocol.GoalDiag) : Lean.CoreM String :=
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@ -18,6 +18,23 @@ namespace Pantograph
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def unfoldAuxLemmas (e : Expr) : CoreM Expr := do
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Lean.Meta.deltaExpand e Lean.Name.isAuxLemma
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def instantiatePartialDelayedMVars (e: Expr): MetaM Expr := do
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Meta.transform e
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(pre := fun e => e.withApp fun f args => do
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if let .mvar mvarId := f then
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if let some decl ← getDelayedMVarAssignment? mvarId then
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if args.size ≥ decl.fvars.size then
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let pending ← instantiateMVars (.mvar decl.mvarIdPending)
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if !pending.isMVar then
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return .visit <| (← Meta.mkLambdaFVars decl.fvars pending).beta args
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return .continue)
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def instantiateAll (e: Expr): MetaM Expr := do
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let e ← instantiateMVars e
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let e ← unfoldAuxLemmas e
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let e ← instantiatePartialDelayedMVars e
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return e
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--- Input Functions ---
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/-- Read syntax object from string -/
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@ -103,11 +120,9 @@ partial def serializeExpressionSexp (expr: Expr) (sanitize: Bool := true): MetaM
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let name := ofName fvarId.name
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pure s!"(:fv {name})"
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| .mvar mvarId => do
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if ← mvarId.isDelayedAssigned then
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pure s!"(:mv)"
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else
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let pref := if ← mvarId.isDelayedAssigned then "mvd" else "mv"
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let name := ofName mvarId.name
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pure s!"(:mv {name})"
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pure s!"(:{pref} {name})"
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| .sort level =>
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let level := serializeSortLevel level sanitize
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pure s!"(:sort {level})"
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@ -210,7 +225,7 @@ def serializeGoal (options: @&Protocol.Options) (goal: MVarId) (mvarDecl: Metava
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match localDecl with
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| .cdecl _ fvarId userName type _ _ =>
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let userName := userName.simpMacroScopes
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let type ← instantiateMVars type
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let type ← instantiate type
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return {
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name := ofName fvarId.name,
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userName:= ofName userName,
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@ -219,9 +234,9 @@ def serializeGoal (options: @&Protocol.Options) (goal: MVarId) (mvarDecl: Metava
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}
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| .ldecl _ fvarId userName type val _ _ => do
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let userName := userName.simpMacroScopes
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let type ← instantiateMVars type
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let type ← instantiate type
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let value? ← if showLetValues then
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let val ← instantiateMVars val
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let val ← instantiate val
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pure $ .some (← serializeExpression options val)
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else
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pure $ .none
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@ -248,10 +263,11 @@ def serializeGoal (options: @&Protocol.Options) (goal: MVarId) (mvarDecl: Metava
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name := ofName goal.name,
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userName? := if mvarDecl.userName == .anonymous then .none else .some (ofName mvarDecl.userName),
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isConversion := isLHSGoal? mvarDecl.type |>.isSome,
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target := (← serializeExpression options (← instantiateMVars mvarDecl.type)),
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target := (← serializeExpression options (← instantiateAll mvarDecl.type)),
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vars := vars.reverse.toArray
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}
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where
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instantiate := instantiateAll
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ofName (n: Name) := serializeName n (sanitize := false)
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protected def GoalState.serializeGoals
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@ -88,11 +88,11 @@ def test_tactic : IO LSpec.TestSeq :=
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vars := #[{ name := "_uniq.10", userName := "x", isInaccessible? := .some false, type? := .some { pp? := .some "Prop" }}],
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}
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let goal2: Protocol.Goal := {
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name := "_uniq.14",
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name := "_uniq.17",
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target := { pp? := .some "x ∨ y → y ∨ x" },
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vars := #[
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{ name := "_uniq.10", userName := "x", isInaccessible? := .some false, type? := .some { pp? := .some "Prop" }},
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{ name := "_uniq.13", userName := "y", isInaccessible? := .some false, type? := .some { pp? := .some "Prop" }}
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{ name := "_uniq.16", userName := "y", isInaccessible? := .some false, type? := .some { pp? := .some "Prop" }}
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],
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}
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subroutine_runner [
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@ -245,7 +245,7 @@ def test_or_comm: TestM Unit := do
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let state2parent ← serializeExpressionSexp state2.parentExpr?.get! (sanitize := false)
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-- This is due to delayed assignment
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addTest $ LSpec.test "(2 parent)" (state2parent ==
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"((:mv) (:fv _uniq.16) ((:c Eq.refl) ((:c Or) (:fv _uniq.10) (:fv _uniq.13)) (:fv _uniq.16)))")
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"((:mvd _uniq.43) (:fv _uniq.16) ((:c Eq.refl) ((:c Or) (:fv _uniq.10) (:fv _uniq.13)) (:fv _uniq.16)))")
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let state3_1 ← match ← state2.tryTactic (goalId := 0) (tactic := "apply Or.inr") with
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| .success state => pure state
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@ -52,6 +52,7 @@ def test_sexp_of_elab (env: Environment): IO LSpec.TestSeq := do
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("λ x: Array Nat => x.data", "(:lambda x ((:c Array) (:c Nat)) ((:c Array.data) (:c Nat) 0))"),
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-- This tests `autoBoundImplicit`
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("λ {α : Sort (u + 1)} => List α", "(:lambda α (:sort (+ u 1)) ((:c List) 0) :implicit)"),
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("(2: Nat) <= (5: Nat)", "((:c LE.le) (:mv _uniq.37) (:mv _uniq.38) ((:c OfNat.ofNat) (:mv _uniq.23) (:lit 2) (:mv _uniq.24)) ((:c OfNat.ofNat) (:mv _uniq.33) (:lit 5) (:mv _uniq.34)))"),
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]
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let termElabM: Elab.TermElabM LSpec.TestSeq := entries.foldlM (λ suites (source, target) => do
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let env ← MonadEnv.getEnv
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@ -93,12 +93,50 @@ def test_list_brec_on (env: Environment): IO LSpec.TestSeq :=
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tests := tests ++ test
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return tests
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def test_partial_motive_instantiation (env: Environment): IO LSpec.TestSeq := do
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let expr := "λ (n t: Nat) => n + 0 = n"
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runMetaMSeq env $ runTermElabMInMeta do
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let recursor ← match Parser.runParserCategory
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(env := ← MonadEnv.getEnv)
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(catName := `term)
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(input := "@Nat.brecOn")
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(fileName := filename) with
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| .ok syn => pure syn
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| .error error => throwError "Failed to parse: {error}"
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let (expr, exprType) ← valueAndType expr
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Meta.lambdaTelescope expr $ λ _ body => do
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let mut tests := LSpec.TestSeq.done
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-- Apply the tactic
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let target ← Meta.mkFreshExprSyntheticOpaqueMVar body
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let tactic := Tactic.motivatedApply recursor
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let newGoals ← runTacticOnMVar tactic target.mvarId!
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tests := tests ++ (LSpec.check "goals" ((← newGoals.mapM (λ g => do exprToStr (← g.getType))) =
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[
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"Nat → Prop",
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"Nat",
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"∀ (t : Nat), Nat.below t → ?motive t",
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"?motive ?m.69 = (n + 0 = n)",
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]))
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let [motive, major, step, conduit] := newGoals | panic! "Incorrect goal number"
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tests := tests ++ (LSpec.check "goal name" (major.name.toString = "_uniq.69"))
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-- Assign motive to `λ x => x + _`
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let (motive_assign, _) ← valueAndType "λ (x: Nat) => @Nat.add x + 0 = _"
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motive.assign motive_assign
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let test ← conduit.withContext do
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let t := toString (← Meta.ppExpr $ ← conduit.getType)
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return LSpec.check "conduit" (t = "(?m.69.add + 0 = ?m.140 ?m.69) = (n + 0 = n)")
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tests := tests ++ test
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return tests
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def suite (env: Environment): List (String × IO LSpec.TestSeq) :=
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[
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("type_extract", test_type_extract env),
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("nat_brec_on", test_nat_brec_on env),
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("list_brec_on", test_list_brec_on env),
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("Nat.brecOn", test_nat_brec_on env),
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("List.brecOn", test_list_brec_on env),
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("Nat.brecOn partial motive instantiation", test_partial_motive_instantiation env),
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]
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end Pantograph.Test.Tactic.MotivatedApply
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