/// <summary> /// Initializes ENet with given startup options. /// </summary> /// <param name="startupOptions">The startup options.</param> public static void Startup(ENetStartupOptions startupOptions) { ThrowHelper.ThrowIfArgumentNull(startupOptions, nameof(startupOptions)); startupOptions.CheckValues(); var allocator = startupOptions.Allocator; if (Started) { return; } Started = true; if (startupOptions.ModulePath != null) { LibENet.Load(startupOptions.ModulePath); } else if (startupOptions.ModuleHandle != IntPtr.Zero) { LibENet.Load(startupOptions.ModuleHandle); } else { // load from native dependencies. LibENet.Load(); } var linkedVer = LibENet.LinkedVersion(); s_LinkedVersion = new Version((int)(((linkedVer) >> 16) & 0xFF), (int)(((linkedVer) >> 8) & 0xFF), (int)((linkedVer) & 0xFF)); if (allocator == null) { if (LibENet.Initialize() != 0) { ThrowHelper.ThrowENetInitializationFailed(); } } else { s_Allocator = allocator; NativeENetCallbacks callbacks = new NativeENetCallbacks { Malloc = Marshal.GetFunctionPointerForDelegate(s_MemAllocDelegate), Free = Marshal.GetFunctionPointerForDelegate(s_MemFreeDelegate), NoMemory = Marshal.GetFunctionPointerForDelegate(s_NoMemoryDelegate) }; if (LibENet.InitializeWithCallbacks(linkedVer, &callbacks) != 0) { ThrowHelper.ThrowENetInitializationFailed(); } } }
/// <summary> /// Initializes ENet with specified memory allocator /// </summary> /// <param name="allocator">If this parameter receives null ENet will use its own heap allocator.</param> public static void Startup(ENetAllocator?allocator = null) { var startupOptions = new ENetStartupOptions { Allocator = allocator }; Startup(startupOptions); }