Ejemplo n.º 1
0
// FinallyCoverage provides coverage for the Finally function.
func (t *RSuite) FinallyCoverage() async.R {
	expected := fmt.Errorf("some error")
	didRun := false
	r, s := async.NewR()
	s.Fail(expected)
	w := async.Finally(r, func() {
		didRun = true
	})

	// Verify that the value was round-tripped.
	return async.When(w, func(val interface{}, err error) async.R {
		if !didRun {
			return async.NewErrorf("Expected finally to run.  Got: false, Want: true")
		}
		if err != expected {
			return async.NewErrorf("Expected error.  Got: %v, Want: %v", err, expected)
		}
		if val != nil {
			return async.NewErrorf("Expected error.  Got: %v, Want: nil", val)
		}
		return async.Done()
	})
}
Ejemplo n.º 2
0
// AsyncTurn verifies that a parallel turn executed by a Source does run, and that its resolution is
// reflected correctly on the main turn queue.
func (t *TurnSourceSuite) AsyncTurn() async.R {
	src := turns.NewTurnSource()

	syncPoint1 := make(chan struct{}, 0)
	syncPoint2 := make(chan struct{}, 0)

	// Create a truly parallel turn.
	r := src.New(func() error {
		t.Infof("Beginning async turn.")

		// produce sync point 1.
		close(syncPoint1)

		// wait for sync point 2.
		<-syncPoint2

		return nil
	})

	// Create a coop-turn to provide the sync point.
	async.New(func() async.R {
		t.Infof("Beginning coop turn that provides sync point.")
		// Wait for both parallel and coop turns to have started.
		<-syncPoint1

		// Completed the parallel turn.
		close(syncPoint2)
		return async.Done()
	})

	// Cleanup the source.
	return async.Finally(r, func() {
		// Destroy the TurnSource since we don't need it anymore.
		src.Close()
	})
}