using GFramework.Core.Abstractions.Events;
using GFramework.Core.Events;
using NUnit.Framework;
namespace GFramework.Core.Tests.Events;
///
/// 测试 PriorityEvent 的线程安全性和边界情况
///
[TestFixture]
public class PriorityEventTests
{
[Test]
public void Trigger_Should_Not_Throw_When_Handler_Unregisters_Itself()
{
// Arrange
var evt = new PriorityEvent();
IUnRegister? unregister = null;
unregister = evt.Register(x => { unregister?.UnRegister(); });
// Act & Assert
Assert.DoesNotThrow(() => evt.Trigger(42));
}
[Test]
public void Trigger_Should_Be_Thread_Safe()
{
// Arrange
var evt = new PriorityEvent();
var counter = 0;
evt.Register(x => Interlocked.Increment(ref counter));
// Act
var tasks = Enumerable.Range(0, 100).Select(_ => Task.Run(() =>
{
evt.Trigger(1);
evt.Register(x => { });
})).ToArray();
// Assert
Assert.DoesNotThrow(() => Task.WaitAll(tasks));
}
[Test]
public void Multiple_Handlers_Unregistering_During_Trigger_Should_Not_Throw()
{
// Arrange
var evt = new PriorityEvent();
var unregisters = new List();
for (int i = 0; i < 10; i++)
{
var index = i;
var unreg = evt.Register(x =>
{
if (index % 2 == 0)
{
unregisters[index].UnRegister();
}
});
unregisters.Add(unreg);
}
// Act & Assert
Assert.DoesNotThrow(() => evt.Trigger(1));
}
[Test]
public void Context_Handler_Should_Receive_Correct_Data()
{
// Arrange
var evt = new PriorityEvent();
string? receivedData = null;
evt.RegisterWithContext(ctx => { receivedData = ctx.Data; });
// Act
evt.Trigger("test data", EventPropagation.All);
// Assert
Assert.That(receivedData, Is.EqualTo("test data"));
}
[Test]
public void Context_Handler_MarkAsHandled_Should_Stop_UntilHandled_Propagation()
{
// Arrange
var evt = new PriorityEvent();
var executionOrder = new List();
evt.RegisterWithContext(ctx =>
{
executionOrder.Add(1);
ctx.MarkAsHandled();
}, priority: 10);
evt.RegisterWithContext(ctx => { executionOrder.Add(2); }, priority: 5);
// Act
evt.Trigger(42, EventPropagation.UntilHandled);
// Assert
Assert.That(executionOrder, Is.EqualTo(new[] { 1 }));
}
[Test]
public void Mixed_Normal_And_Context_Handlers_Should_Work_Together()
{
// Arrange
var evt = new PriorityEvent();
var executionOrder = new List();
evt.Register(x => executionOrder.Add("normal"), priority: 5);
evt.RegisterWithContext(ctx => executionOrder.Add("context"), priority: 10);
// Act
evt.Trigger(1, EventPropagation.All);
// Assert
Assert.That(executionOrder, Is.EqualTo(new[] { "context", "normal" }));
}
[Test]
public void UntilHandled_With_Mixed_Handlers_Should_Respect_Priority()
{
// Arrange
var evt = new PriorityEvent();
var executionOrder = new List();
evt.Register(x => executionOrder.Add("normal-low"), priority: 1);
evt.RegisterWithContext(ctx =>
{
executionOrder.Add("context-high");
ctx.MarkAsHandled();
}, priority: 10);
evt.Register(x => executionOrder.Add("normal-mid"), priority: 5);
// Act
evt.Trigger(1, EventPropagation.UntilHandled);
// Assert
Assert.That(executionOrder, Is.EqualTo(new[] { "context-high" }));
}
[Test]
public void Highest_Propagation_Should_Execute_All_Highest_Priority_Handlers()
{
// Arrange
var evt = new PriorityEvent();
var executionOrder = new List();
evt.Register(x => executionOrder.Add("normal-high"), priority: 10);
evt.RegisterWithContext(ctx => executionOrder.Add("context-high"), priority: 10);
evt.Register(x => executionOrder.Add("normal-low"), priority: 1);
// Act
evt.Trigger(1, EventPropagation.Highest);
// Assert
Assert.That(executionOrder.Count, Is.EqualTo(2));
Assert.That(executionOrder, Does.Contain("normal-high"));
Assert.That(executionOrder, Does.Contain("context-high"));
}
}