private static void AddSink(DimmableLightDiscovery sender, UPnPDevice d) { Console.WriteLine("Added Device: " + d.FriendlyName); // To interface with a service, instantiate the appropriate wrapper class on the appropriate service // Traverse the device heirarchy to the correct device, and invoke 'GetServices', passing in the static field 'SERVICE_NAME' // of the appropriate wrapper class. This method returns an array of all services with this service type. For most purposes, // there will only be one service, in which case you can use array index 0. // Save a reference to this instance of the wrapper class for later use. CpDimming Dimming = new CpDimming(d.GetServices(CpDimming.SERVICE_NAME)[0]); sw = new CpSwitchPower(d.GetServices(CpSwitchPower.SERVICE_NAME)[0]); // To subscribe to Events, call the '_subscribe' method of the wrapper class. The only parameter is // the duration of the event. A good value is 300 seconds. //Dimming._subscribe(300); // The wrapper class exposes all the evented state variables through events in the form 'OnStateVariable_xx', where xx is the variable name. // The wrapper class exposes methods in two formats. Asyncronous and Syncronous. The Async method calls are exposed simply // by the name of the method. The Syncronous version is the same, except with the word, 'Sync_' prepended to the name. // Asyncronous responses to th async method calls are dispatched through the event in the format, 'OnResult_x' where x is the method name. // Note: All arguments are automatically type checked. Allowed Values are abstracted through enumerations, that are defined in the wrapper class. // To access the list of allowed values or ranges for a given device, refer to the property 'Values_XXX' for a list of the allowed values for a // given state variable. Similarly, refer to the properties 'HasMaximum_XXX', 'HasMinimum_XXX', 'Maximum_XXX', and 'Minimum_XXX' where XXX is the variable name, for the Max/Min values. // To determine if a given service implements a particular StateVariable or Method, use the properties, 'HasStateVariableXXX' and 'HasActionXXX' where XXX is the method/variable name. }
static void Main(string[] args) { System.Console.WriteLine("UPnP .NET Framework Stack"); System.Console.WriteLine("StackBuilder Build#Device Builder Build#1.0.4144.25068"); DimmableLightDiscovery disco = new DimmableLightDiscovery(); disco.OnAddedDevice += new DimmableLightDiscovery.DiscoveryHandler(AddSink); disco.OnRemovedDevice += new DimmableLightDiscovery.DiscoveryHandler(RemoveSink); System.Console.WriteLine("Press return to stop CP."); disco.Start(); string x = ""; bool bo = new bool(); object obj = new object(); //CpSwitchPower.Delegate_OnResult_GetStatus del = CpSwitchPower.Delegate_OnResult_GetStatus(); while (x != "q") { x = System.Console.ReadLine(); if (x == "on") sw.SetTarget(true); else if (x == "off") sw.SetTarget(false); else if (x == "check") { sw.Sync_GetTarget(out bo); Console.WriteLine(bo); } } }
static void Main(string[] args) { System.Console.WriteLine("UPnP .NET Framework Stack"); System.Console.WriteLine("StackBuilder Build#Device Builder Build#1.0.4144.25068"); DimmableLightDiscovery disco = new DimmableLightDiscovery(); disco.OnAddedDevice += new DimmableLightDiscovery.DiscoveryHandler(AddSink); disco.OnRemovedDevice += new DimmableLightDiscovery.DiscoveryHandler(RemoveSink); System.Console.WriteLine("Press return to stop CP."); disco.Start(); System.Console.ReadLine(); }
private static void RemoveSink(DimmableLightDiscovery sender, UPnPDevice d) { Console.WriteLine("Removed Device: " + d.FriendlyName); }