293 lines
11 KiB
Plaintext
293 lines
11 KiB
Plaintext
/-
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Tests pertaining to goals with no interdependencies
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-/
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import LSpec
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import Pantograph.Goal
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import Pantograph.Serial
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import Test.Common
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namespace Pantograph
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def TacticResult.toString : TacticResult → String
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| .success _ goals => s!".success ({goals.size} goals)"
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| .failure messages =>
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let messages := "\n".intercalate messages.toList
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s!".failure {messages}"
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| .parseError error => s!".parseError {error}"
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| .indexError index => s!".indexError {index}"
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end Pantograph
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namespace Pantograph.Test.Proofs
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open Pantograph
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open Lean
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inductive Start where
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| copy (name: String) -- Start from some name in the environment
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| expr (expr: String) -- Start from some expression
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abbrev TestM := StateRefT LSpec.TestSeq (ReaderT Protocol.Options M)
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deriving instance DecidableEq, Repr for Protocol.Expression
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deriving instance DecidableEq, Repr for Protocol.Variable
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deriving instance DecidableEq, Repr for Protocol.Goal
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def addTest (test: LSpec.TestSeq): TestM Unit := do
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set $ (← get) ++ test
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def startProof (start: Start): TestM (Option GoalState) := do
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let env ← Lean.MonadEnv.getEnv
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match start with
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| .copy name =>
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let cInfo? := str_to_name name |> env.find?
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addTest $ LSpec.check s!"Symbol exists {name}" cInfo?.isSome
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match cInfo? with
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| .some cInfo =>
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let goal ← GoalState.create (expr := cInfo.type)
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return Option.some goal
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| .none =>
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return Option.none
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| .expr expr =>
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let syn? := syntax_from_str env expr
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addTest $ LSpec.check s!"Parsing {expr}" (syn?.isOk)
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match syn? with
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| .error error =>
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IO.println error
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return Option.none
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| .ok syn =>
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let expr? ← syntax_to_expr_type syn
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addTest $ LSpec.check s!"Elaborating" expr?.isOk
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match expr? with
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| .error error =>
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IO.println error
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return Option.none
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| .ok expr =>
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let goal ← GoalState.create (expr := expr)
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return Option.some goal
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def assertUnreachable (message: String): LSpec.TestSeq := LSpec.check message false
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def buildGoal (nameType: List (String × String)) (target: String): Protocol.Goal :=
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{
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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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-- Like `buildGoal` but allow certain variables to be elided.
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def buildGoalSelective (nameType: List (String × Option String)) (target: String): Protocol.Goal :=
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{
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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? := x.snd.map (λ type => { pp? := type }),
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isInaccessible? := x.snd.map (λ _ => false)
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})).toArray
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}
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def proofRunner (env: Lean.Environment) (tests: TestM Unit): IO LSpec.TestSeq := do
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let termElabM := tests.run LSpec.TestSeq.done |>.run {} -- with default options
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let coreContext: Lean.Core.Context := {
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currNamespace := Name.append .anonymous "Aniva",
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openDecls := [], -- No 'open' directives needed
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fileName := "<Pantograph>",
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fileMap := { source := "", positions := #[0], lines := #[1] }
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}
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let metaM := termElabM.run' (ctx := {
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declName? := some "_pantograph",
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errToSorry := false
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})
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let coreM := metaM.run'
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match ← (coreM.run' coreContext { env := env }).toBaseIO with
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| .error exception =>
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return LSpec.test "Exception" (s!"internal exception #{← exception.toMessageData.toString}" = "")
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| .ok (_, a) =>
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return a
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-- Individual test cases
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example: ∀ (a b: Nat), a + b = b + a := by
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intro n m
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rw [Nat.add_comm]
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def proof_nat_add_comm (manual: Bool): TestM Unit := do
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let state? ← startProof <| match manual with
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| false => .copy "Nat.add_comm"
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| true => .expr "∀ (a b: Nat), a + b = b + a"
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addTest $ LSpec.check "Start goal" state?.isSome
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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 (state1, goal1) ← match ← state0.execute (goalId := 0) (tactic := "intro n m") with
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| .success state #[goal] => pure (state, goal)
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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 "intro n m" (goal1.devolatilize = buildGoal [("n", "Nat"), ("m", "Nat")] "n + m = m + n")
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match ← state1.execute (goalId := 0) (tactic := "assumption") with
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| .failure #[message] =>
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addTest $ LSpec.check "assumption" (message = "tactic 'assumption' failed\nn m : Nat\n⊢ n + m = m + n")
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| other => do
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addTest $ assertUnreachable $ other.toString
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let state2 ← match ← state1.execute (goalId := 0) (tactic := "rw [Nat.add_comm]") 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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return ()
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-- Two ways to write the same theorem
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example: ∀ (p q: Prop), p ∨ q → q ∨ p := by
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intro p q h
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cases h
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apply Or.inr
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assumption
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apply Or.inl
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assumption
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example: ∀ (p q: Prop), p ∨ q → q ∨ p := by
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intro p q h
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cases h
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. apply Or.inr
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assumption
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. apply Or.inl
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assumption
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def proof_or_comm: TestM Unit := do
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let state? ← startProof (.expr "∀ (p q: Prop), p ∨ q → q ∨ p")
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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 (state1, goal1) ← match ← state0.execute (goalId := 0) (tactic := "intro p q h") with
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| .success state #[goal] => pure (state, goal)
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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 "p q h" (goal1.devolatilize = buildGoal [("p", "Prop"), ("q", "Prop"), ("h", "p ∨ q")] "q ∨ p")
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let (state2, goal1, goal2) ← match ← state1.execute (goalId := 0) (tactic := "cases h") with
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| .success state #[goal1, goal2] => pure (state, goal1, goal2)
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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 "cases h/1" (goal1.devolatilize = branchGoal "inl" "p")
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addTest $ LSpec.check "cases h/2" (goal2.devolatilize = branchGoal "inr" "q")
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let (state3_1, _goal) ← match ← state2.execute (goalId := 0) (tactic := "apply Or.inr") with
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| .success state #[goal] => pure (state, goal)
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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let state4_1 ← match ← state3_1.execute (goalId := 0) (tactic := "assumption") 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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let (state3_2, _goal) ← match ← state2.execute (goalId := 1) (tactic := "apply Or.inl") with
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| .success state #[goal] => pure (state, goal)
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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let state4_2 ← match ← state3_2.execute (goalId := 0) (tactic := "assumption") 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 "4_2 root" state4_2.rootExpr.isNone
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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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| .error msg => do
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addTest $ assertUnreachable $ msg
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return ()
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| .ok state => pure state
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addTest $ LSpec.test "state2b" (state2b.goals == [state2.goals.get! 0])
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let (state3_1, _goal) ← match ← state2b.execute (goalId := 0) (tactic := "apply Or.inr") with
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| .success state #[goal] => pure (state, goal)
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| other => do
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addTest $ assertUnreachable $ other.toString
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return ()
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let state4_1 ← match ← state3_1.execute (goalId := 0) (tactic := "assumption") 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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state4_1.print
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addTest $ LSpec.check "4_1 root" state4_1.rootExpr.isSome
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return ()
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where
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typeProp: Protocol.Expression := { pp? := .some "Prop" }
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branchGoal (caseName name: String): Protocol.Goal := {
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caseName? := .some caseName,
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target := { pp? := .some "q ∨ p" },
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vars := #[
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{ userName := "p", type? := .some typeProp, isInaccessible? := .some false },
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{ userName := "q", type? := .some typeProp, isInaccessible? := .some false },
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{ userName := "h✝", type? := .some { pp? := .some name }, isInaccessible? := .some true }
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]
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}
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--example (w x y z : Nat) (p : Nat → Prop)
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-- (h : p (x * y + z * w * x)) : p (x * w * z + y * x) := by
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-- simp [Nat.add_assoc, Nat.add_comm, Nat.add_left_comm, Nat.mul_comm, Nat.mul_assoc, Nat.mul_left_comm] at *
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-- assumption
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--def proof_arith_1: TestM Unit := do
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-- let goal? ← startProof (.expr "∀ (w x y z : Nat) (p : Nat → Prop) (h : p (x * y + z * w * x)), p (x * w * z + y * x)")
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-- addTest $ LSpec.check "Start goal" goal?.isSome
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-- if let .some goal := goal? then
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-- if let .success #[(goal, _)] ← goal.execute "intros" then
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-- if let .success #[(goal, _)] ← goal.execute "simp [Nat.add_assoc, Nat.add_comm, Nat.add_left_comm, Nat.mul_comm, Nat.mul_assoc, Nat.mul_left_comm] at *" then
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-- if let .success #[] ← goal.execute "assumption" then
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-- return ()
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-- else
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-- addTest $ assertUnreachable "assumption"
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-- else
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-- addTest $ assertUnreachable "simp ..."
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-- else
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-- addTest $ assertUnreachable "intros"
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--
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--def proof_delta_variable: TestM Unit := withReader (fun _ => {proofVariableDelta := true}) do
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-- let goal? ← startProof (.expr "∀ (a b: Nat), a + b = b + a")
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-- addTest $ LSpec.check "Start goal" goal?.isSome
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-- if let .some goal := goal? then
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-- if let .success #[(goal, sGoal)] ← goal.execute "intro n" then
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-- let sGoal1e: Protocol.Goal :=buildGoalSelective [("n", .some "Nat")] "∀ (b : Nat), n + b = b + n"
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-- addTest $ LSpec.check "intro n" (sGoal = sGoal1e)
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--
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-- if let .success #[(_, sGoal)] ← goal.execute "intro m" then
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-- let sGoal2e: Protocol.Goal :=buildGoalSelective [("n", .none), ("m", .some "Nat")] "n + m = m + n"
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-- addTest $ LSpec.check "intro m" (sGoal = sGoal2e)
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-- else
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-- addTest $ assertUnreachable "intro m"
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-- else
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-- addTest $ assertUnreachable "intro n"
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/-- Tests the most basic form of proofs whose goals do not relate to each other -/
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def suite: IO LSpec.TestSeq := do
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let env: Lean.Environment ← Lean.importModules
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(imports := #[{ module := Name.append .anonymous "Init", runtimeOnly := false}])
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(opts := {})
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(trustLevel := 1)
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let tests := [
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("Nat.add_comm", proof_nat_add_comm false),
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("Nat.add_comm manual", proof_nat_add_comm true),
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("Or.comm", proof_or_comm)
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--("arithmetic 1", proof_arith_1),
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--("delta variable", proof_delta_variable)
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]
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let tests ← tests.foldlM (fun acc tests => do
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let (name, tests) := tests
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let tests ← proofRunner env tests
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return acc ++ (LSpec.group name tests)) LSpec.TestSeq.done
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return LSpec.group "Proofs" tests
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end Pantograph.Test.Proofs
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