public static Event CreateEvent(LogFileReader reader, EventType type, byte extendedInfo) { switch (type) { case EventType.Alloc: return(AllocEvent.Read(reader, extendedInfo)); case EventType.Exception: return(ExceptionEvent.Read(reader, extendedInfo)); case EventType.Gc: switch (extendedInfo) { case TYPE_GC_EVENT: return(GcEvent.Read(reader)); case TYPE_GC_RESIZE: return(ResizeGcEvent.Read(reader)); case TYPE_GC_MOVE: return(MoveGcEvent.Read(reader)); case TYPE_GC_HANDLE_CREATED: case TYPE_GC_HANDLE_CREATED_BT: return(HandleCreatedGcEvent.Read(reader, extendedInfo)); case TYPE_GC_HANDLE_DESTROYED: case TYPE_GC_HANDLE_DESTROYED_BT: return(HandleDestroyedGcEvent.Read(reader, extendedInfo)); } throw new InvalidOperationException("unknown gc type:" + extendedInfo); case EventType.Heap: return(HeapEvent.Read(reader, extendedInfo)); case EventType.Metadata: return(MetadataEvent.Read(reader, extendedInfo)); case EventType.Method: return(MethodEvent.Read(reader, extendedInfo)); case EventType.Monitor: return(MonitiorEvent.Read(reader, extendedInfo)); case EventType.Sample: return(SampleEvent.Read(reader, extendedInfo)); case EventType.Runtime: return(RuntimeEvent.Read(reader, extendedInfo)); case EventType.Coverage: return(CoverageEvent.Read(reader, extendedInfo)); } throw new InvalidOperationException("invalid event type " + type); }
public virtual object Visit (HandleCreatedGcEvent handleCreatedGcEvent) { return null; }
public override object Visit (HandleCreatedGcEvent handleCreatedGcEvent) { TimeBase += handleCreatedGcEvent.TimeDiff; return null; }
public virtual object Visit(HandleCreatedGcEvent handleCreatedGcEvent) { return(null); }
public override object Visit(HandleCreatedGcEvent handleCreatedGcEvent) { TimeBase += handleCreatedGcEvent.TimeDiff; return(null); }
public static Event CreateEvent(BinaryReader reader, EventType type, byte extendedInfo) { switch (type) { case EventType.Alloc: return(AllocEvent.Read(reader, extendedInfo)); case EventType.Exception: switch (extendedInfo & (TYPE_EXCEPTION_BT - 1)) { case TYPE_CLAUSE: return(new ExceptionClauseEvent(reader)); case TYPE_THROW: return(new ExceptionThrowEvent(reader)); default: throw new InvalidOperationException("Unknown exception event type:" + (extendedInfo & (TYPE_EXCEPTION_BT - 1))); } case EventType.Gc: switch (extendedInfo) { case TYPE_GC_EVENT: return(GcEvent.Read(reader)); case TYPE_GC_RESIZE: return(ResizeGcEvent.Read(reader)); case TYPE_GC_MOVE: return(MoveGcEvent.Read(reader)); case TYPE_GC_HANDLE_CREATED: return(HandleCreatedGcEvent.Read(reader)); case TYPE_GC_HANDLE_DESTROYED: return(HandleDestroyedGcEvent.Read(reader)); } throw new InvalidOperationException("unknown gc type:" + extendedInfo); case EventType.Heap: switch (extendedInfo) { case TYPE_HEAP_START: return(new HeapStartEvent(reader)); case TYPE_HEAP_END: return(new HeapEndEvent(reader)); case TYPE_HEAP_OBJECT: return(new HeapObjectEvent(reader)); case TYPE_HEAP_ROOT: return(new HeapRootEvent(reader)); default: throw new InvalidOperationException("Unknown heap event type:" + extendedInfo); } case EventType.Metadata: return(MetadataEvent.Read(reader)); case EventType.Method: switch (extendedInfo) { case TYPE_LEAVE: return(new MethodLeaveEvent(reader)); case TYPE_ENTER: return(new MethodEnterEvent(reader)); case TYPE_EXC_LEAVE: return(new MethodExcLeaveEvent(reader)); case TYPE_JIT: return(new MethodJitEvent(reader)); default: throw new InvalidOperationException("Unknown method event type:" + extendedInfo); } case EventType.Monitor: return(MonitiorEvent.Read(reader, extendedInfo)); case EventType.Sample: switch (extendedInfo) { case TYPE_SAMPLE_HIT: return(new SampleHitEvent(reader)); case TYPE_SAMPLE_USYM: return(new SampleUSymEvent(reader)); case TYPE_SAMPLE_UBIN: return(new SampleUBinEvent(reader)); default: throw new InvalidOperationException("Unknown sample event:" + extendedInfo); } } throw new InvalidOperationException("invalid event type " + type); }