feat: Add REPL function for root expression
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@ -39,6 +39,7 @@ def execute (command: Protocol.Command): MainM Lean.Json := do
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| "goal.start" => run goal_start
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| "goal.start" => run goal_start
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| "goal.tactic" => run goal_tactic
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| "goal.tactic" => run goal_tactic
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| "goal.delete" => run goal_delete
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| "goal.delete" => run goal_delete
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| "goal.print" => run goal_print
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| cmd =>
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| cmd =>
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let error: Protocol.InteractionError :=
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let error: Protocol.InteractionError :=
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errorCommand s!"Unknown command {cmd}"
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errorCommand s!"Unknown command {cmd}"
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@ -174,5 +175,14 @@ def execute (command: Protocol.Command): MainM Lean.Json := do
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let goalStates := args.stateIds.foldl (λ map id => map.remove id) state.goalStates
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let goalStates := args.stateIds.foldl (λ map id => map.remove id) state.goalStates
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set { state with goalStates }
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set { state with goalStates }
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return .ok {}
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return .ok {}
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goal_print (args: Protocol.GoalPrint): MainM (CR Protocol.GoalPrintResult) := do
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let state ← get
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match state.goalStates.get? args.stateId with
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| .none => return .error $ errorIndex s!"Invalid state index {args.stateId}"
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| .some goalState => do
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let root? ← goalState.rootExpr?.mapM (λ expr => serialize_expression state.options expr)
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return .ok {
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root?,
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}
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end Pantograph
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end Pantograph
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@ -190,7 +190,7 @@ protected def GoalState.continue (target: GoalState) (graftee: GoalState): Excep
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newMVars := graftee.newMVars,
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newMVars := graftee.newMVars,
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}
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}
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protected def GoalState.rootExpr (goalState: GoalState): Option Expr :=
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protected def GoalState.rootExpr? (goalState: GoalState): Option Expr :=
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let expr := goalState.mctx.eAssignment.find! goalState.root
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let expr := goalState.mctx.eAssignment.find! goalState.root
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let (expr, _) := instantiateMVarsCore (mctx := goalState.mctx) (e := expr)
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let (expr, _) := instantiateMVarsCore (mctx := goalState.mctx) (e := expr)
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if expr.hasMVar then
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if expr.hasMVar then
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@ -171,6 +171,15 @@ structure GoalDeleteResult where
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deriving Lean.ToJson
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deriving Lean.ToJson
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structure GoalPrint where
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structure GoalPrint where
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stateId: Nat
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deriving Lean.FromJson
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structure GoalPrintResult where
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-- The root expression
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root?: Option Expression
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deriving Lean.ToJson
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-- Diagnostic Options, not available in REPL
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structure GoalDiag where
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printContext: Bool := true
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printContext: Bool := true
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printValue: Bool := true
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printValue: Bool := true
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printNewMVars: Bool := false
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printNewMVars: Bool := false
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@ -269,7 +269,7 @@ protected def GoalState.serializeGoals (state: GoalState) (parent: Option GoalSt
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| .none => throwError s!"Metavariable does not exist in context {goal.name}"
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| .none => throwError s!"Metavariable does not exist in context {goal.name}"
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/-- Print the metavariables in a readable format -/
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/-- Print the metavariables in a readable format -/
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protected def GoalState.print (goalState: GoalState) (options: Protocol.GoalPrint := {}): MetaM Unit := do
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protected def GoalState.print (goalState: GoalState) (options: Protocol.GoalDiag := {}): MetaM Unit := do
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let savedState := goalState.savedState
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let savedState := goalState.savedState
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savedState.term.meta.restore
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savedState.term.meta.restore
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let goals := savedState.tactic.goals
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let goals := savedState.tactic.goals
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@ -76,8 +76,9 @@ See `Pantograph/Commands.lean` for a description of the parameters and return va
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have to be set via command line arguments.), for options, see `Pantograph/Commands.lean`
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have to be set via command line arguments.), for options, see `Pantograph/Commands.lean`
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- `options.print`: Display the current set of options
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- `options.print`: Display the current set of options
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- `goal.start {["name": <name>], ["expr": <expr>], ["copyFrom": <symbol>]}`: Start a new goal from a given expression or symbol
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- `goal.start {["name": <name>], ["expr": <expr>], ["copyFrom": <symbol>]}`: Start a new goal from a given expression or symbol
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- `goal.tactic {"goalId": <id>, "tactic": <tactic>}`: Execute a tactic string on a given goal
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- `goal.tactic {"stateId": <id>, "goalId": <id>, ["tactic": <tactic>], ["expr": <expr>]}`: Execute a tactic string on a given goal
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- `goal.remove {"goalIds": [<id>]}"`: Remove a bunch of stored goals.
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- `goal.remove {"stateIds": [<id>]}"`: Remove a bunch of stored goals.
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- `goal.print {"stateId": <id>}"`: Print a goal state
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- `stat`: Display resource usage
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- `stat`: Display resource usage
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## Errors
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## Errors
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@ -188,21 +188,21 @@ def proof_arith: TestM Unit := do
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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return ()
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return ()
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addTest $ LSpec.check "intros" (state1.goals.length = 1)
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addTest $ LSpec.check "intros" (state1.goals.length = 1)
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addTest $ LSpec.test "(1 root)" state1.rootExpr.isNone
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addTest $ LSpec.test "(1 root)" state1.rootExpr?.isNone
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let state2 ← match ← state1.execute (goalId := 0) (tactic := "simp [Nat.add_assoc, Nat.add_comm, Nat.add_left_comm, Nat.mul_comm, Nat.mul_assoc, Nat.mul_left_comm] at *") with
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let state2 ← match ← state1.execute (goalId := 0) (tactic := "simp [Nat.add_assoc, Nat.add_comm, Nat.add_left_comm, Nat.mul_comm, Nat.mul_assoc, Nat.mul_left_comm] at *") with
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| .success state => pure state
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| .success state => pure state
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| other => do
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| other => do
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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return ()
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return ()
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addTest $ LSpec.check "simp ..." (state2.goals.length = 1)
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addTest $ LSpec.check "simp ..." (state2.goals.length = 1)
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addTest $ LSpec.check "(2 root)" state2.rootExpr.isNone
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addTest $ LSpec.check "(2 root)" state2.rootExpr?.isNone
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let state3 ← match ← state2.execute (goalId := 0) (tactic := "assumption") with
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let state3 ← match ← state2.execute (goalId := 0) (tactic := "assumption") with
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| .success state => pure state
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| .success state => pure state
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| other => do
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| other => do
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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return ()
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return ()
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addTest $ LSpec.test "assumption" state3.goals.isEmpty
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addTest $ LSpec.test "assumption" state3.goals.isEmpty
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addTest $ LSpec.check "(3 root)" state3.rootExpr.isSome
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addTest $ LSpec.check "(3 root)" state3.rootExpr?.isSome
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return ()
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return ()
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-- Two ways to write the same theorem
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-- Two ways to write the same theorem
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@ -255,7 +255,7 @@ def proof_or_comm: TestM Unit := do
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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return ()
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return ()
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addTest $ LSpec.check " assumption" state4_1.goals.isEmpty
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addTest $ LSpec.check " assumption" state4_1.goals.isEmpty
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addTest $ LSpec.check "(4_1 root)" state4_1.rootExpr.isNone
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addTest $ LSpec.check "(4_1 root)" state4_1.rootExpr?.isNone
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let state3_2 ← match ← state2.execute (goalId := 1) (tactic := "apply Or.inl") with
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let state3_2 ← match ← state2.execute (goalId := 1) (tactic := "apply Or.inl") with
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| .success state => pure state
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| .success state => pure state
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| other => do
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| other => do
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@ -268,7 +268,7 @@ def proof_or_comm: TestM Unit := do
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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return ()
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return ()
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addTest $ LSpec.check " assumption" state4_2.goals.isEmpty
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addTest $ LSpec.check " assumption" state4_2.goals.isEmpty
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addTest $ LSpec.check "(4_2 root)" state4_2.rootExpr.isNone
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addTest $ LSpec.check "(4_2 root)" state4_2.rootExpr?.isNone
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-- Ensure the proof can continue from `state4_2`.
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-- Ensure the proof can continue from `state4_2`.
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let state2b ← match state2.continue state4_2 with
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let state2b ← match state2.continue state4_2 with
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| .error msg => do
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| .error msg => do
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@ -288,7 +288,7 @@ def proof_or_comm: TestM Unit := do
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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return ()
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return ()
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addTest $ LSpec.check " assumption" state4_1.goals.isEmpty
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addTest $ LSpec.check " assumption" state4_1.goals.isEmpty
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addTest $ LSpec.check "(4_1 root)" state4_1.rootExpr.isSome
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addTest $ LSpec.check "(4_1 root)" state4_1.rootExpr?.isSome
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return ()
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return ()
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where
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where
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@ -319,14 +319,14 @@ def proof_m_couple: TestM Unit := do
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return ()
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return ()
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addTest $ LSpec.check "apply Nat.le_trans" ((← state1.serializeGoals (options := ← read)).map (·.target.pp?) =
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addTest $ LSpec.check "apply Nat.le_trans" ((← state1.serializeGoals (options := ← read)).map (·.target.pp?) =
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#[.some "2 ≤ ?m", .some "?m ≤ 5", .some "Nat"])
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#[.some "2 ≤ ?m", .some "?m ≤ 5", .some "Nat"])
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addTest $ LSpec.test "(1 root)" state1.rootExpr.isNone
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addTest $ LSpec.test "(1 root)" state1.rootExpr?.isNone
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-- Set m to 3
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-- Set m to 3
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let state2 ← match ← state1.execute (goalId := 2) (tactic := "exact 3") with
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let state2 ← match ← state1.execute (goalId := 2) (tactic := "exact 3") with
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| .success state => pure state
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| .success state => pure state
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| other => do
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| other => do
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addTest $ assertUnreachable $ other.toString
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addTest $ assertUnreachable $ other.toString
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return ()
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return ()
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addTest $ LSpec.test "(1b root)" state2.rootExpr.isNone
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addTest $ LSpec.test "(1b root)" state2.rootExpr?.isNone
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let state1b ← match state1.continue state2 with
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let state1b ← match state1.continue state2 with
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| .error msg => do
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| .error msg => do
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addTest $ assertUnreachable $ msg
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addTest $ assertUnreachable $ msg
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@ -334,7 +334,7 @@ def proof_m_couple: TestM Unit := do
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| .ok state => pure state
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| .ok state => pure state
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addTest $ LSpec.check "exact 3" ((← state1b.serializeGoals (options := ← read)).map (·.target.pp?) =
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addTest $ LSpec.check "exact 3" ((← state1b.serializeGoals (options := ← read)).map (·.target.pp?) =
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#[.some "2 ≤ 3", .some "3 ≤ 5"])
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#[.some "2 ≤ 3", .some "3 ≤ 5"])
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addTest $ LSpec.test "(2 root)" state1b.rootExpr.isNone
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addTest $ LSpec.test "(2 root)" state1b.rootExpr?.isNone
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return ()
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return ()
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def proof_proposition_generation: TestM Unit := do
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def proof_proposition_generation: TestM Unit := do
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@ -355,7 +355,7 @@ def proof_proposition_generation: TestM Unit := do
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buildGoal [] "?fst" (caseName? := .some "snd"),
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buildGoal [] "?fst" (caseName? := .some "snd"),
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buildGoal [] "Prop" (caseName? := .some "fst")
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buildGoal [] "Prop" (caseName? := .some "fst")
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])
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])
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addTest $ LSpec.test "(1 root)" state1.rootExpr.isNone
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addTest $ LSpec.test "(1 root)" state1.rootExpr?.isNone
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let state2 ← match ← state1.tryAssign (goalId := 0) (expr := "λ (x: Nat) => _") with
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let state2 ← match ← state1.tryAssign (goalId := 0) (expr := "λ (x: Nat) => _") with
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| .success state => pure state
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| .success state => pure state
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@ -364,7 +364,7 @@ def proof_proposition_generation: TestM Unit := do
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return ()
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return ()
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addTest $ LSpec.check ":= λ (x: Nat), _" ((← state2.serializeGoals (options := ← read)).map (·.target.pp?) =
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addTest $ LSpec.check ":= λ (x: Nat), _" ((← state2.serializeGoals (options := ← read)).map (·.target.pp?) =
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#[.some "Nat → Prop", .some "∀ (x : Nat), ?m.29 x"])
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#[.some "Nat → Prop", .some "∀ (x : Nat), ?m.29 x"])
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addTest $ LSpec.test "(2 root)" state2.rootExpr.isNone
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addTest $ LSpec.test "(2 root)" state2.rootExpr?.isNone
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let state3 ← match ← state2.tryAssign (goalId := 1) (expr := "fun x => Eq.refl x") with
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let state3 ← match ← state2.tryAssign (goalId := 1) (expr := "fun x => Eq.refl x") with
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| .success state => pure state
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| .success state => pure state
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@ -373,7 +373,7 @@ def proof_proposition_generation: TestM Unit := do
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return ()
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return ()
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addTest $ LSpec.check ":= Eq.refl" ((← state3.serializeGoals (options := ← read)).map (·.target.pp?) =
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addTest $ LSpec.check ":= Eq.refl" ((← state3.serializeGoals (options := ← read)).map (·.target.pp?) =
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#[])
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#[])
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addTest $ LSpec.test "(3 root)" state3.rootExpr.isSome
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addTest $ LSpec.test "(3 root)" state3.rootExpr?.isSome
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return ()
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return ()
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def suite: IO LSpec.TestSeq := do
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def suite: IO LSpec.TestSeq := do
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