UnityGame/Library/PackageCache/com.unity.test-framework/UnityEngine.TestRunner/Assertions/LogScope/LogScope.cs
2024-10-27 10:53:47 +03:00

249 lines
7.9 KiB
C#

using System;
using System.Collections.Generic;
using System.Linq;
using UnityEngine.TestTools.TestRunner;
namespace UnityEngine.TestTools.Logging
{
internal sealed class LogScope : ILogScope
{
private static List<LogScope> s_ActiveScopes = new List<LogScope>();
private readonly object m_Lock = new object();
private bool m_Disposed;
private bool m_NeedToProcessLogs;
public Queue<LogMatch> ExpectedLogs { get; set; }
public List<LogEvent> AllLogs { get; }
public List<LogEvent> FailingLogs { get; }
public bool IgnoreFailingMessages { get; set; }
public bool IsNUnitException { get; private set; }
public bool IsNUnitSuccessException { get; private set; }
public bool IsNUnitInconclusiveException { get; private set; }
public bool IsNUnitIgnoreException { get; private set; }
public string NUnitExceptionMessage { get; private set; }
public static LogScope Current
{
get
{
if (s_ActiveScopes.Count == 0)
throw new InvalidOperationException("No log scope is available");
return s_ActiveScopes[0];
}
}
public static bool HasCurrentLogScope()
{
return s_ActiveScopes.Count > 0;
}
public LogScope()
{
AllLogs = new List<LogEvent>();
FailingLogs = new List<LogEvent>();
ExpectedLogs = new Queue<LogMatch>();
IgnoreFailingMessages = false;
Activate();
}
private void Activate()
{
s_ActiveScopes.Insert(0, this);
RegisterScope(this);
Application.logMessageReceivedThreaded -= AddLog;
Application.logMessageReceivedThreaded += AddLog;
}
private void Deactivate()
{
Application.logMessageReceivedThreaded -= AddLog;
s_ActiveScopes.Remove(this);
UnregisterScope(this);
}
private static void RegisterScope(LogScope logScope)
{
Application.logMessageReceivedThreaded += logScope.AddLog;
}
private static void UnregisterScope(LogScope logScope)
{
Application.logMessageReceivedThreaded -= logScope.AddLog;
}
public void AddLog(string message, string stacktrace, LogType type)
{
lock (m_Lock)
{
m_NeedToProcessLogs = true;
var log = new LogEvent
{
LogType = type,
Message = message,
StackTrace = stacktrace,
};
AllLogs.Add(log);
if (IsNUnitResultStateException(stacktrace, type))
{
if (message.StartsWith("SuccessException"))
{
IsNUnitException = true;
IsNUnitSuccessException = true;
if (message.StartsWith("SuccessException: "))
{
NUnitExceptionMessage = message.Substring("SuccessException: ".Length);
return;
}
}
else if (message.StartsWith("InconclusiveException"))
{
IsNUnitException = true;
IsNUnitInconclusiveException = true;
if (message.StartsWith("InconclusiveException: "))
{
NUnitExceptionMessage = message.Substring("InconclusiveException: ".Length);
return;
}
}
else if (message.StartsWith("IgnoreException"))
{
IsNUnitException = true;
IsNUnitIgnoreException = true;
if (message.StartsWith("IgnoreException: "))
{
NUnitExceptionMessage = message.Substring("IgnoreException: ".Length);
return;
}
}
}
if (IsFailingLog(type) && !IgnoreFailingMessages)
{
FailingLogs.Add(log);
}
}
}
private static bool IsNUnitResultStateException(string stacktrace, LogType logType)
{
if (logType != LogType.Exception)
return false;
return string.IsNullOrEmpty(stacktrace) || stacktrace.StartsWith("NUnit.Framework.Assert.");
}
private static bool IsFailingLog(LogType type)
{
switch (type)
{
case LogType.Assert:
case LogType.Error:
case LogType.Exception:
return true;
default:
return false;
}
}
public void Dispose()
{
Dispose(true);
GC.SuppressFinalize(this);
}
private void Dispose(bool disposing)
{
if (m_Disposed)
{
return;
}
m_Disposed = true;
if (disposing)
{
Deactivate();
}
}
public bool AnyFailingLogs()
{
ProcessExpectedLogs();
return FailingLogs.Any();
}
public void EvaluateLogScope(bool endOfScopeCheck)
{
ProcessExpectedLogs();
if (FailingLogs.Any())
{
var failureInWrongOrder = FailingLogs.FirstOrDefault(log => ExpectedLogs.Any(expected => expected.Matches(log)));
if (failureInWrongOrder != null)
{
var nextExpected = ExpectedLogs.Peek();
throw new OutOfOrderExpectedLogMessageException(failureInWrongOrder, nextExpected);
}
var failingLog = FailingLogs.First();
throw new UnhandledLogMessageException(failingLog);
}
if (endOfScopeCheck && ExpectedLogs.Any())
{
throw new UnexpectedLogMessageException(ExpectedLogs.Peek());
}
}
public void ProcessExpectedLogs()
{
lock (m_Lock)
{
if (!m_NeedToProcessLogs || !ExpectedLogs.Any())
return;
LogMatch expectedLog = null;
foreach (var logEvent in AllLogs)
{
if (!ExpectedLogs.Any())
break;
if (logEvent.IsHandled)
{
continue;
}
if (expectedLog == null && ExpectedLogs.Any())
expectedLog = ExpectedLogs.Peek();
if (expectedLog != null && expectedLog.Matches(logEvent))
{
ExpectedLogs.Dequeue();
logEvent.IsHandled = true;
if (FailingLogs.Any(expectedLog.Matches))
{
var failingLog = FailingLogs.First(expectedLog.Matches);
FailingLogs.Remove(failingLog);
}
expectedLog = null;
}
}
m_NeedToProcessLogs = false;
}
}
public void NoUnexpectedReceived()
{
lock (m_Lock)
{
ProcessExpectedLogs();
var unhandledLog = AllLogs.FirstOrDefault(x => !x.IsHandled);
if (unhandledLog != null)
{
throw new UnhandledLogMessageException(unhandledLog);
}
}
}
}
}