waitFor<T> function

  1. @provisional
T waitFor <T>(Future<T> future, { Duration timeout })

Suspends the stack, runs microtasks, and handles incoming events until future completes.

WARNING: EXPERIMENTAL. USE AT YOUR OWN RISK.

This call does the following:

  • While future is not completed:
    • suspends the current execution stack,
    • runs the microtask queue until it is empty,
    • waits until the message queue is not empty,
    • handles messages on the message queue, plus their associated microtasks, until the message queue is empty,
    • resumes the original stack.

This function breaks the usual promise offered by Dart semantics that message handlers and microtasks run to completion before the next message handler or microtask begins to run. Of particular note is that use of this function in a finally block will allow microtasks and message handlers to run before all finally blocks for an exception have completed, possibly breaking invariants in your program.

Use of this function should be considered a last resort when it is not possible to convert a Dart program entirely to an asynchronous style using async and await.

If the Future completes normally, its result is returned. If the Future completes with an error, the error and stack trace are wrapped in an AsyncError and thrown. If a microtask or message handler run during this call results in an unhandled exception, that exception will be propagated as though the microtask or message handler was the only Dart invocation on the stack. That is, unhandled exceptions in a microtask or message handler will skip over stacks suspended in a call to waitFor.

If the optional timeout parameter is passed, waitFor throws a TimeoutException if the Future is not completed within the specified period.

Calls to waitFor may be nested. Earlier invocations will not complete until subsequent ones do, but the completion of a subsequent invocation will cause the previous invocation to wake up and check its Future for completion.

Please be aware that nesting calls to waitFor can lead to deadlock if subsequent calls block waiting for a condition that is only satisfied when an earlier call returns.

Implementation

@provisional
T waitFor<T>(Future<T> future, {Duration timeout}) {
  T result;
  bool futureCompleted = false;
  Object error;
  StackTrace stacktrace;
  future.then((r) {
    futureCompleted = true;
    result = r;
  }, onError: (e, st) {
    error = e;
    stacktrace = st;
  });

  Stopwatch s;
  if (timeout != null) {
    s = new Stopwatch()..start();
  }
  Timer.run(() {}); // Enusre there is at least one message.
  while (!futureCompleted && (error == null)) {
    Duration remaining;
    if (timeout != null) {
      if (s.elapsed >= timeout) {
        throw new TimeoutException("waitFor() timed out", timeout);
      }
      remaining = timeout - s.elapsed;
    }
    _WaitForUtils.waitForEvent(timeout: remaining);
  }
  if (timeout != null) {
    s.stop();
  }
  Timer.run(() {}); // Ensure that previous calls to waitFor are woken up.

  if (error != null) {
    throw new AsyncError(error, stacktrace);
  }

  return result;
}