import LSpec import Lean import Pantograph.Library import Test.Common open Lean open Pantograph namespace Pantograph.Test.Library def test_expr_echo (env: Environment): IO LSpec.TestSeq := do let inner: CoreM LSpec.TestSeq := do let prop_and_proof := "⟨∀ (x: Prop), x → x, λ (x: Prop) (h: x) => h⟩" let tests := LSpec.TestSeq.done let echoResult ← exprEcho prop_and_proof (options := {}) let tests := tests.append (LSpec.test "fail" (echoResult.toOption == .some { type := { pp? := "?m.2" }, expr := { pp? := "?m.3" } })) let echoResult ← exprEcho prop_and_proof (expectedType? := .some "Σ' p:Prop, p") (options := { printExprAST := true }) let tests := tests.append (LSpec.test "fail" (echoResult.toOption == .some { type := { pp? := "(p : Prop) ×' p", sexp? := "((:c PSigma) (:sort 0) (:lambda p (:sort 0) 0))", }, expr := { pp? := "⟨∀ (x : Prop), x → x, fun x h => h⟩", sexp? := "((:c PSigma.mk) (:sort 0) (:lambda p (:sort 0) 0) (:forall x (:sort 0) (:forall a 0 1)) (:lambda x (:sort 0) (:lambda h 0 0)))", } })) return tests runCoreMSeq env (options := #["pp.proofs.threshold=100"]) inner def suite (env: Environment): List (String × IO LSpec.TestSeq) := [ ("expr_echo", test_expr_echo env), ] end Pantograph.Test.Library