// RUN: %target-typecheck-verify-swift -strict-concurrency=targeted -disable-availability-checking // REQUIRES: concurrency @available(SwiftStdlib 5.1, *) func someAsyncFunc() async -> String { "" } struct MyError: Error {} @available(SwiftStdlib 5.1, *) func someThrowingAsyncFunc() async throws -> String { throw MyError() } // ==== Unsafe Continuations --------------------------------------------------- struct Vegetable {} func buyVegetables( shoppingList: [String], // a) if all veggies were in store, this is invoked *exactly-once* onGotAllVegetables: ([Vegetable]) -> (), // b) if not all veggies were in store, invoked one by one (one or more times) onGotVegetable: (Vegetable) -> (), // b) if at least one onGotVegetable was called *exactly-once* // this is invoked once no more veggies will be emitted onNoMoreVegetables: () -> (), // c) if no veggies _at all_ were available, this is invoked *exactly once* onNoVegetablesInStore: (Error) -> () ) {} // returns 1 or more vegetables or throws an error @available(SwiftStdlib 5.1, *) func buyVegetables(shoppingList: [String]) async throws -> [Vegetable] { try await withUnsafeThrowingContinuation { continuation in var veggies: [Vegetable] = [] buyVegetables( shoppingList: shoppingList, onGotAllVegetables: { veggies in continuation.resume(returning: veggies) }, onGotVegetable: { v in veggies.append(v) }, onNoMoreVegetables: { continuation.resume(returning: veggies) }, onNoVegetablesInStore: { error in continuation.resume(throwing: error) } ) } } @available(SwiftStdlib 5.1, *) func test_unsafeContinuations() async { // the closure should not allow async operations; // after all: if you have async code, just call it directly, without the unsafe continuation let _: String = withUnsafeContinuation { continuation in // expected-error{{cannot pass function of type '(UnsafeContinuation) async -> Void' to parameter expecting synchronous function type}} let s = await someAsyncFunc() // expected-note {{'async' inferred from asynchronous operation used here}} continuation.resume(returning: s) } let _: String = await withUnsafeContinuation { continuation in continuation.resume(returning: "") } // rdar://76475495 - suppress warnings for invalid expressions func test_invalid_async_no_warnings() async -> Int { return await withUnsafeContinuation { $0.resume(throwing: 1) // expected-error {{cannot convert value of type 'Int' to expected argument type 'Never'}} } } } @available(SwiftStdlib 5.1, *) func test_unsafeThrowingContinuations() async throws { let _: String = try await withUnsafeThrowingContinuation { continuation in continuation.resume(returning: "") } let _: String = try await withUnsafeThrowingContinuation { continuation in continuation.resume(throwing: MyError()) } // using resume(with:) let _: String = try await withUnsafeThrowingContinuation { continuation in let result : Result = .success("") continuation.resume(with: result) } let _: String = try await withUnsafeThrowingContinuation { continuation in continuation.resume(with: .failure(MyError())) } // TODO: Potentially could offer some warnings if we know that a continuation was resumed or escaped at all in a closure? } // ==== Sendability ------------------------------------------------------------ class NotSendable { } @available(SwiftStdlib 5.1, *) func test_nonsendableContinuation() async throws { let _: NotSendable = try await withUnsafeThrowingContinuation { continuation in continuation.resume(returning: NotSendable()) } let _: NotSendable = try await withUnsafeThrowingContinuation { continuation in Task { continuation.resume(returning: NotSendable()) // okay } } } // ==== Detached Tasks --------------------------------------------------------- @available(SwiftStdlib 5.1, *) func test_detached() async throws { let handle = Task.detached { await someAsyncFunc() // able to call async functions } let result: String = await handle.value _ = result } @available(SwiftStdlib 5.1, *) func test_detached_throwing() async -> String { let handle: Task = Task.detached { try await someThrowingAsyncFunc() // able to call async functions } do { return try await handle.value } catch { print("caught: \(error)") } } // ==== Detached Tasks with inout Params--------------------------------------- @available(SwiftStdlib 5.1, *) func printOrderNumber(n: inout Int) async { Task.detached { n+=1 //expected-error {{mutable capture of 'inout' parameter 'n' is not allowed in concurrently-executing code}} print(n) //expected-error {{mutable capture of 'inout' parameter 'n' is not allowed in concurrently-executing code}} } }