public void ZScheduledTask_IsInDanger()
{
// Arrange
DateTime deadline = new DateTime(2018, 5, 6, 12, 0, 0);
TimeSpan buffer = TimeSpan.FromDays(1);
task.Deadline = deadline;
task.ZBuffer = buffer;
// Assume
Assume.That(task.GetUrgentDate(), Is.EqualTo(new DateTime(2018, 5, 5, 12, 0, 0)));
// Assert
Assert.That(task.IsUrgent, Is.True);
Assert.That(task.IsInDanger(), Is.True);
}
public void ZTaskManager_GetAndUpdateCurrentTask()
{
// Arrange
foreach (ITask task in tasks)
{
manager.PushTask(task);
}
ITask lastTask = tasks[tasks.Count - 1];
ZScheduledTask mostUrgent = pTasks[0];
// Select the most urgent task
int priorityListLength = pTasks.Count;
for (int i = 1; i < priorityListLength; ++i)
{
if (pTasks[i].GetUrgentDate() < mostUrgent.GetUrgentDate())
{
mostUrgent = pTasks[i];
}
}
// Assume
Assume.That(manager.CurrentTask, Is.EqualTo(lastTask));
// Act I - push priority
foreach (var task in pTasks) // tasks with priority
{
manager.PushTaskWithPriority(task);
}
// Assert I - Current Task is still stale
Assert.That(manager.CurrentTask, Is.EqualTo(lastTask));
// Act II - update Current Task
manager.Update();
// Assert II - Current Task is updated
Assert.That(manager.CurrentTask, Is.EqualTo(mostUrgent));
}
public void PriorityList_GetMostUrgentTask(string method)
{
// Arrange
var getFunc = SelectViewMethod(method);
ZPriorityList pList = new ZPriorityList();
ZScheduledTask mostUrgent = pTasks[0];
for (int i = 1; i < pTasks.Count; i++)
{
if (pTasks[i].GetUrgentDate() < mostUrgent.GetUrgentDate())
{
mostUrgent = pTasks[i];
}
}
// Assume
Assume.That(mostUrgent, Is.EqualTo(pTasks[2])); // manually selected
// Act
PushAllTasks(pList, pTasks);
// Assert
Assert.That(getFunc(pList), Is.EqualTo(mostUrgent));
}
