internal AdapterAttribute(AdapterAttribute Other) { this.Value = Other.Value; this.Annotations = Other.Annotations; this.Access = Other.Access; this.COVBehavior = Other.COVBehavior; }
public BridgeAdapterAttribute(string ObjectName, object DefaultData, E_ACCESS_TYPE access = E_ACCESS_TYPE.ACCESS_READ) { this.Value = new BridgeAdapterValue(ObjectName, DefaultData); this.Annotations = new Dictionary <string, string>(); this.Access = access; this.COVBehavior = SignalBehavior.Never; }
internal ModbusSensorAttribute(ModbusSensorAttribute Other) { this.m_device = Other.m_device; this.Value = Other.Value; this.Annotations = Other.Annotations; this.Access = Other.Access; this.COVBehavior = Other.COVBehavior; }
internal AdapterAttribute(string ObjectName, object DefaultData, E_ACCESS_TYPE access = E_ACCESS_TYPE.ACCESS_READ) { try { this.Value = new AdapterValue(ObjectName, DefaultData); this.Annotations = new Dictionary <string, string>(); this.Access = access; this.COVBehavior = SignalBehavior.Never; } catch (OutOfMemoryException) { throw; } }
public void DoSignal(uint PC, uint Signal, SignalBehavior Behavior, bool ExecuteNow) { if (Debug) { Console.WriteLine("SIGNAL : {0}: Behavior:{1}", Signal, Behavior); } Status.SetValue(DisplayListStatusEnum.Paused); if (Callbacks.SignalFunction != 0) { //Console.Error.WriteLine("OP_SIGNAL! ({0}, {1})", Signal, Behavior); GpuProcessor.Connector.Signal(PC, Callbacks, Signal, Behavior, ExecuteNow); } Status.SetValue(DisplayListStatusEnum.Drawing); }
void IGpuConnector.Signal(uint PC, PspGeCallbackData CallbackData, uint Signal, SignalBehavior Behavior, bool ExecuteNow) { if (DynarecConfig.EnableGpuSignalsCallback) { if (HleConfig.CompilerVersion <= 0x01FFFFFF) { PC = 0; } Console.Error.WriteLine( "HleThreadManager:: IGpuConnector.Signal :: 0x{0:X8}, 0x{1:X8}, 0x{2:X8}, {3}, {4}", CallbackData.SignalFunction, CallbackData.SignalArgument, PC, Signal, Behavior); HleInterop.ExecuteFunctionNowLater(CallbackData.SignalFunction, ExecuteNow, new object[] { Signal, CallbackData.SignalArgument, PC }); } else { } }
internal AdapterAttribute(string ObjectName, object DefaultData, E_ACCESS_TYPE access = E_ACCESS_TYPE.ACCESS_READ) { try { this.Value = new AdapterValue(ObjectName, DefaultData); this.Annotations = new Dictionary<string, string>(); this.Access = access; this.COVBehavior = SignalBehavior.Never; } catch (OutOfMemoryException ex) { throw; } }
public void DoSignal(uint PC, uint Signal, SignalBehavior Behavior, bool ExecuteNow) { if (Debug) Console.WriteLine("SIGNAL : {0}: Behavior:{1}", Signal, Behavior); Status.SetValue(DisplayListStatusEnum.Paused); if (Callbacks.SignalFunction != 0) { //Console.Error.WriteLine("OP_SIGNAL! ({0}, {1})", Signal, Behavior); GpuProcessor.Connector.Signal(PC, Callbacks, Signal, Behavior, ExecuteNow); } Status.SetValue(DisplayListStatusEnum.Drawing); }
void IGpuConnector.Signal(uint PC, PspGeCallbackData CallbackData, uint Signal, SignalBehavior Behavior, bool ExecuteNow) { if (_DynarecConfig.EnableGpuSignalsCallback) { if (HleConfig.CompilerVersion <= 0x01FFFFFF) PC = 0; Console.Error.WriteLine("HleThreadManager:: IGpuConnector.Signal :: 0x{0:X8}, 0x{1:X8}, 0x{2:X8}, {3}, {4}", CallbackData.SignalFunction, CallbackData.SignalArgument, PC, Signal, Behavior); HleInterop.ExecuteFunctionNowLater(CallbackData.SignalFunction, ExecuteNow, new Object[] { Signal, CallbackData.SignalArgument, PC }); } else { } }