import LSpec import Pantograph import Repl import Test.Common open Lean Pantograph namespace Pantograph.Test.Frontend def collectSorrysFromSource (source: String) : MetaM (List GoalState) := do let filename := "" let (context, state) ← do Frontend.createContextStateFromFile source filename (← getEnv) {} let m := Frontend.mapCompilationSteps λ step => do return (step.before, ← Frontend.collectSorrys step) let li ← m.run context |>.run' state let goalStates ← li.filterMapM λ (env, sorrys) => withEnv env do if sorrys.isEmpty then return .none let goalState ← Frontend.sorrysToGoalState sorrys return .some goalState return goalStates def test_multiple_sorrys_in_proof : TestT MetaM Unit := do let sketch := " theorem plus_n_Sm_proved_formal_sketch : ∀ n m : Nat, n + (m + 1) = (n + m) + 1 := by have h_nat_add_succ: ∀ n m : Nat, n = m := sorry sorry " let goalStates ← (collectSorrysFromSource sketch).run' {} let [goalState] := goalStates | panic! "Incorrect number of states" addTest $ LSpec.check "goals" ((← goalState.serializeGoals (options := {})).map (·.devolatilize) = #[ { target := { pp? := "∀ (n m : Nat), n = m" }, vars := #[ ] }, { target := { pp? := "∀ (n m : Nat), n + (m + 1) = n + m + 1" }, vars := #[{ userName := "h_nat_add_succ", type? := .some { pp? := "∀ (n m : Nat), n = m" }, }], } ]) def test_sorry_in_middle: TestT MetaM Unit := do let sketch := " example : ∀ (n m: Nat), n + m = m + n := by intros n m sorry " let goalStates ← (collectSorrysFromSource sketch).run' {} let [goalState] := goalStates | panic! s!"Incorrect number of states: {goalStates.length}" addTest $ LSpec.check "goals" ((← goalState.serializeGoals (options := {})).map (·.devolatilize) = #[ { target := { pp? := "n + m = m + n" }, vars := #[{ userName := "n", type? := .some { pp? := "Nat" }, }, { userName := "m", type? := .some { pp? := "Nat" }, } ], } ]) def test_sorry_in_induction : TestT MetaM Unit := do let sketch := " example : ∀ (n m: Nat), n + m = m + n := by intros n m induction n with | zero => have h1 : 0 + m = m := sorry sorry | succ n ih => have h2 : n + m = m := sorry sorry " let goalStates ← (collectSorrysFromSource sketch).run' {} let [goalState] := goalStates | panic! s!"Incorrect number of states: {goalStates.length}" addTest $ LSpec.check "goals" ((← goalState.serializeGoals (options := {})).map (·.devolatilize) = #[ { target := { pp? := "0 + m = m" }, vars := #[{ userName := "m", type? := .some { pp? := "Nat" }, }] }, { userName? := .some "zero", target := { pp? := "0 + m = m + 0" }, vars := #[{ userName := "m", type? := .some { pp? := "Nat" }, }, { userName := "h1", type? := .some { pp? := "0 + m = m" }, }] }, { target := { pp? := "n + m = m" }, vars := #[{ userName := "m", type? := .some { pp? := "Nat" }, }, { userName := "n", type? := .some { pp? := "Nat" }, }, { userName := "ih", type? := .some { pp? := "n + m = m + n" }, }] }, { userName? := .some "succ", target := { pp? := "n + 1 + m = m + (n + 1)" }, vars := #[{ userName := "m", type? := .some { pp? := "Nat" }, }, { userName := "n", type? := .some { pp? := "Nat" }, }, { userName := "ih", type? := .some { pp? := "n + m = m + n" }, }, { userName := "h2", type? := .some { pp? := "n + m = m" }, }] } ]) def test_sorry_in_coupled: TestT MetaM Unit := do let sketch := " example : ∀ (y: Nat), ∃ (x: Nat), y + 1 = x := by intro y apply Exists.intro case h => sorry case w => sorry " let goalStates ← (collectSorrysFromSource sketch).run' {} let [goalState] := goalStates | panic! s!"Incorrect number of states: {goalStates.length}" addTest $ LSpec.check "goals" ((← goalState.serializeGoals (options := {})).map (·.devolatilize) = #[ { target := { pp? := "y + 1 = ?w" }, vars := #[{ userName := "y", type? := .some { pp? := "Nat" }, } ], }, { userName? := .some "w", target := { pp? := "Nat" }, vars := #[{ userName := "y", type? := .some { pp? := "Nat" }, } ], } ]) def test_environment_capture: TestT MetaM Unit := do let sketch := " def mystery (n: Nat) := n + 1 example (n: Nat) : mystery n + 1 = n + 2 := sorry " let goalStates ← (collectSorrysFromSource sketch).run' {} let [goalState] := goalStates | panic! s!"Incorrect number of states: {goalStates.length}" addTest $ LSpec.check "goals" ((← goalState.serializeGoals (options := {})).map (·.devolatilize) = #[ { target := { pp? := "mystery n + 1 = n + 2" }, vars := #[{ userName := "n", type? := .some { pp? := "Nat" }, }], } ]) def test_capture_type_mismatch : TestT MetaM Unit := do let input := " def mystery : Nat := true " let goalStates ← (collectSorrysFromSource input).run' {} let [goalState] := goalStates | panic! s!"Incorrect number of states: {goalStates.length}" def collectNewConstants (source: String) : MetaM (List (List Name)) := do let filename := "" let (context, state) ← do Frontend.createContextStateFromFile source filename (← getEnv) {} let m := Frontend.mapCompilationSteps λ step => do Frontend.collectNewDefinedConstants step m.run context |>.run' state def test_collect_one_constant : TestT MetaM Unit := do let input := " def mystery : Nat := 123 " let names ← collectNewConstants input checkEq "constants" names [[`mystery]] def test_collect_one_theorem : TestT MetaM Unit := do let input := " theorem mystery [SizeOf α] (as : List α) (i : Fin as.length) : sizeOf (as.get i) < sizeOf as := by match as, i with | a::as, ⟨0, _⟩ => simp_arith [get] | a::as, ⟨i+1, h⟩ => have ih := sizeOf_get as ⟨i, Nat.le_of_succ_le_succ h⟩ apply Nat.lt_trans ih simp_arith " let names ← collectNewConstants input checkEq "constants" names [[`mystery]] def suite (env : Environment): List (String × IO LSpec.TestSeq) := let tests := [ ("multiple_sorrys_in_proof", test_multiple_sorrys_in_proof), ("sorry_in_middle", test_sorry_in_middle), ("sorry_in_induction", test_sorry_in_induction), ("sorry_in_coupled", test_sorry_in_coupled), ("environment_capture", test_environment_capture), ("capture_type_mismatch", test_capture_type_mismatch), ("collect_one_constant", test_collect_one_constant), ("collect_one_theorem", test_collect_one_theorem), ] tests.map (fun (name, test) => (name, runMetaMSeq env $ runTest test)) end Pantograph.Test.Frontend