chore: Version 0.3 #136
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@ -547,7 +547,7 @@ protected def GoalState.tryMotivatedApply (state: GoalState) (goalId: Nat) (recu
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try
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try
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-- Implemented similarly to the intro tactic
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-- Implemented similarly to the intro tactic
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let nextGoals: List MVarId ← goal.withContext do
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let nextGoals: List MVarId ← goal.withContext do
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let recursor ← Elab.Term.elabType (stx := recursor)
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let recursor ← Elab.Term.elabTerm (stx := recursor) .none
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let recursorType ← Meta.inferType recursor
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let recursorType ← Meta.inferType recursor
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let (forallArgs, forallBody) := getForallArgsBody recursorType
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let (forallArgs, forallBody) := getForallArgsBody recursorType
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@ -555,14 +555,24 @@ protected def GoalState.tryMotivatedApply (state: GoalState) (goalId: Nat) (recu
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let numArgs ← Meta.getExpectedNumArgs recursorType
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let numArgs ← Meta.getExpectedNumArgs recursorType
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let rec go (i: Nat): MetaM (List MVarId × Expr) := do
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let rec go (i: Nat) (prev: Array Expr): MetaM (Array Expr) := do
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if i ≥ numArgs then
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return prev
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else
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let argType := forallArgs.get! i
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let argType := forallArgs.get! i
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sorry
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-- If `argType` has motive references, its goal needs to be placed in it
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let (newMVars, assign) ← go numArgs
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let argType := argType.instantiateRev prev
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-- Create the goal
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let argGoal ← Meta.mkFreshExprMVar argType .natural .anonymous
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let prev := prev ++ [argGoal]
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go (i + 1) prev
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termination_by numArgs - i
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let newMVars ← go 0 #[]
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goal.assign assign
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-- Create the main goal for the return type of the recursor
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goal.assign (mkAppN recursor newMVars)
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pure newMVars
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pure $ newMVars.toList.map (·.mvarId!)
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return .success {
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return .success {
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root := state.root,
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root := state.root,
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savedState := {
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savedState := {
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@ -10,11 +10,9 @@ namespace Pantograph
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-- Auxiliary functions
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-- Auxiliary functions
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namespace Protocol
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namespace Protocol
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/-- Set internal names to "" -/
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def Goal.devolatilizeVars (goal: Goal): Goal :=
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def Goal.devolatilize (goal: Goal): Goal :=
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{
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{
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goal with
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goal with
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name := "",
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vars := goal.vars.map removeInternalAux,
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vars := goal.vars.map removeInternalAux,
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}
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}
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where removeInternalAux (v: Variable): Variable :=
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where removeInternalAux (v: Variable): Variable :=
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@ -22,6 +20,13 @@ def Goal.devolatilize (goal: Goal): Goal :=
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v with
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v with
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name := ""
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name := ""
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}
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}
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/-- Set internal names to "" -/
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def Goal.devolatilize (goal: Goal): Goal :=
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{
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goal.devolatilizeVars with
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name := "",
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}
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deriving instance DecidableEq, Repr for Expression
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deriving instance DecidableEq, Repr for Expression
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deriving instance DecidableEq, Repr for Variable
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deriving instance DecidableEq, Repr for Variable
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deriving instance DecidableEq, Repr for Goal
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deriving instance DecidableEq, Repr for Goal
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@ -49,6 +49,16 @@ def startProof (start: Start): TestM (Option GoalState) := do
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let goal ← GoalState.create (expr := expr)
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let goal ← GoalState.create (expr := expr)
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return Option.some goal
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return Option.some goal
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def buildNamedGoal (name: String) (nameType: List (String × String)) (target: String): Protocol.Goal :=
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{
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name,
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target := { pp? := .some target},
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vars := (nameType.map fun x => ({
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userName := x.fst,
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type? := .some { pp? := .some x.snd },
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isInaccessible? := .some false
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})).toArray
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}
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def buildGoal (nameType: List (String × String)) (target: String) (userName?: Option String := .none): Protocol.Goal :=
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def buildGoal (nameType: List (String × String)) (target: String) (userName?: Option String := .none): Protocol.Goal :=
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{
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{
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userName?,
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userName?,
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@ -582,7 +592,7 @@ def test_let (specialized: Bool): TestM Unit := do
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interiorGoal [] "let b := ?m.20;\np ∨ ¬p"
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interiorGoal [] "let b := ?m.20;\np ∨ ¬p"
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])
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])
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-- Check that the goal mvar ids match up
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-- Check that the goal mvar ids match up
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addTest $ LSpec.check expr ((serializedState2.map (·.name) |>.get! 0) = "_uniq.20")
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addTest $ LSpec.check "(mvarId)" ((serializedState2.map (·.name) |>.get! 0) = "_uniq.20")
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let tactic := "exact a"
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let tactic := "exact a"
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let state3 ← match ← state2.tryTactic (goalId := 0) (tactic := tactic) with
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let state3 ← match ← state2.tryTactic (goalId := 0) (tactic := tactic) with
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@ -625,6 +635,80 @@ def test_let (specialized: Bool): TestM Unit := do
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let free := [("a", "Nat"), ("p", "Prop"), ("h", "p")] ++ free
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let free := [("a", "Nat"), ("p", "Prop"), ("h", "p")] ++ free
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buildGoal free target userName?
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buildGoal free target userName?
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def test_nat_zero_add: TestM Unit := do
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let state? ← startProof (.expr "∀ (n: Nat), n + 0 = n")
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let state0 ← match state? with
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| .some state => pure state
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| .none => do
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addTest $ assertUnreachable "Goal could not parse"
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return ()
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let tactic := "intro n"
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let state1 ← match ← state0.tryTactic (goalId := 0) (tactic := tactic) with
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| .success state => pure state
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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addTest $ LSpec.check tactic ((← state1.serializeGoals (options := ← read)).map (·.devolatilize) =
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#[buildGoal [("n", "Nat")] "n + 0 = n"])
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let recursor := "@Nat.brecOn"
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let state2 ← match ← state1.tryMotivatedApply (goalId := 0) (recursor := recursor) with
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| .success state => pure state
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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addTest $ LSpec.check s!"mapply {recursor}" ((← state2.serializeGoals (options := ← read)).map (·.devolatilizeVars) =
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#[
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buildNamedGoal "_uniq.70" [("n", "Nat")] "Nat → Sort ?u.66",
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buildNamedGoal "_uniq.71" [("n", "Nat")] "Nat",
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buildNamedGoal "_uniq.72" [("n", "Nat")] "(t : Nat) → Nat.below t → ?m.70 t"
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])
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let tactic := "exact n"
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let state3b ← match ← state2.tryTactic (goalId := 1) (tactic := tactic) with
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| .success state => pure state
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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addTest $ LSpec.check tactic ((← state3b.serializeGoals (options := ← read)).map (·.devolatilize) =
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#[])
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let state2b ← match state3b.continue state2 with
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| .ok state => pure state
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| .error e => do
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addTest $ assertUnreachable e
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return ()
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let tactic := "exact (λ x => x + 0 = x)"
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let state3c ← match ← state2b.tryTactic (goalId := 0) (tactic := tactic) with
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| .success state => pure state
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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addTest $ LSpec.check tactic ((← state3c.serializeGoals (options := ← read)).map (·.devolatilize) =
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#[])
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let state2c ← match state3c.continue state2b with
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| .ok state => pure state
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| .error e => do
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addTest $ assertUnreachable e
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return ()
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let tactic := "intro t h"
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let state3 ← match ← state2c.tryTactic (goalId := 0) (tactic := tactic) with
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| .success state => pure state
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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addTest $ LSpec.check tactic ((← state3.serializeGoals (options := ← read)).map (·.devolatilize) =
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#[buildGoal [("n", "Nat"), ("t", "Nat"), ("h", "Nat.below t")] "t + 0 = t"])
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let tactic := "simp"
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let stateF ← match ← state3.tryTactic (goalId := 0) (tactic := tactic) with
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| .success state => pure state
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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addTest $ LSpec.check tactic ((← stateF.serializeGoals (options := ← read)) =
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#[])
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addTest $ LSpec.check "(F root)" stateF.rootExpr?.isSome
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def suite (env: Environment): List (String × IO LSpec.TestSeq) :=
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def suite (env: Environment): List (String × IO LSpec.TestSeq) :=
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let tests := [
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let tests := [
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("Nat.add_comm", test_nat_add_comm false),
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("Nat.add_comm", test_nat_add_comm false),
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@ -637,6 +721,7 @@ def suite (env: Environment): List (String × IO LSpec.TestSeq) :=
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("calc", test_calc),
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("calc", test_calc),
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("let via assign", test_let false),
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("let via assign", test_let false),
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("let via tryLet", test_let true),
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("let via tryLet", test_let true),
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("Nat.zero_add", test_nat_zero_add),
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]
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]
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tests.map (fun (name, test) => (name, proofRunner env test))
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tests.map (fun (name, test) => (name, proofRunner env test))
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