private async Task UpdateDeviceListAsync()
        {
            IsUpdatingDeviceList = true;

            AvailableDevices.Clear();
            CurrentDevice = null;

            var devices = await BluetoothManager.GetDevicesAsync();

            Task <IBluetoothService[]>[] tasks = devices.Select(d => d.GetServicesAsync()).ToArray();

            await Task.WhenAll(tasks);

            for (int i = 0; i < tasks.Length; ++i)
            {
                if (tasks[i].Result.Any(s => s.Id == Bluetooth.TricorderServiceId))
                {
                    AvailableDevices.Add(devices[i]);
                }
            }

            if (AvailableDevices.Count > 0 && CurrentDevice == null)
            {
                CurrentDevice = AvailableDevices[0];
            }

            IsUpdatingDeviceList = false;
        }
Exemple #2
0
 public void RemoveShadowDevice(DeviceViewModel device)
 {
     if (ShadowDevices.Remove(device))
     {
         device.Checked = false;
         AvailableDevices.Add(device);
     }
 }
Exemple #3
0
        private void RendererDiscovererItemAdded(object sender, DeviceAddedArgs e)
        {
            var item = e.Receiver;

            _logger.LogInformation(
                $"{nameof(RendererDiscovererItemAdded)}: New item discovered: " +
                $"{e.Receiver.FriendlyName} - Ip = {item.Host}:{item.Port}");
            AvailableDevices.Add(item);

            OnCastableDeviceAdded?.Invoke(item.Id, item.FriendlyName, item.Type, item.Host, item.Port);
        }
Exemple #4
0
        public Task SetCastRenderer(string host, int port)
        {
            if (!AvailableDevices.Any(d => d.Host == host && d.Port == port))
            {
                AvailableDevices.Add(Receiver.Default(host, port));
            }

            var renderer = AvailableDevices.Find(d => d.Host == host && d.Port == port);

            return(SetCastRenderer(renderer));
        }
Exemple #5
0
        public async Task OnDiscoverDevices()
        {
            WpfUtilities.RunOnUiThread(() => { AvailableDevices.Clear(); }, Application.Current.Dispatcher);

            CommunicationHandlerFactory.DiscoverDevices();
            await Task.Delay(500);

            foreach (var device in CommunicationHandlerFactory.AvailableDevices)
            {
                var handler = CommunicationHandlerFactory.AvailableHandlers.First(h => h.IsDriverForDevice(device));
                var driver  = new DeviceDriver(device, handler.SupportsSetupDialog, new DelegateCommand((p) => OnRunDeviceHandlerSetup(handler, p)));
                WpfUtilities.RunOnUiThread(() => { AvailableDevices.Add(driver); }, Application.Current.Dispatcher);
            }
        }
 private void CallBackForUserDetails(User user)
 {
     Device.BeginInvokeOnMainThread(() =>
     {
         var record = AvailableDevices.Where(a => a.IPAddress == user.IPAddress);
         if (record.Any())
         {
             AvailableDevices.Remove(record.First());
         }
         AvailableDevices.Add(new User()
         {
             IPAddress = user.IPAddress, Name = user.Name
         });
     });
 }
Exemple #7
0
        private void UpdateDisplayIndices(LinuxDisplay display, DisplayDevice device)
        {
            if (!DisplayIds.ContainsKey(display.Id))
            {
                Debug.Print("[KMS] Adding display {0} as {1}", display.Id, AvailableDevices.Count);
                DisplayIds.Add(display.Id, AvailableDevices.Count);
            }
            int index = DisplayIds[display.Id];

            if (index >= AvailableDevices.Count)
            {
                AvailableDevices.Add(device);
            }
            else
            {
                AvailableDevices[index] = device;
            }
        }
        public Sdl2DisplayDeviceDriver()
        {
            int displays = SDL.GetNumVideoDisplays();

            for (int d = 0; d < displays; d++)
            {
                Rect bounds;
                SDL.GetDisplayBounds(d, out bounds);

                DisplayMode current_mode;
                SDL.GetCurrentDisplayMode(d, out current_mode);

                var mode_list = new List <DisplayResolution>();
                int num_modes = SDL.GetNumDisplayModes(d);
                for (int m = 0; m < num_modes; m++)
                {
                    DisplayMode sdl_mode;
                    SDL.GetDisplayMode(d, m, out sdl_mode);
                    mode_list.Add(new DisplayResolution(
                                      bounds.X, bounds.Y,
                                      sdl_mode.Width, sdl_mode.Height,
                                      TranslateFormat(sdl_mode.Format),
                                      sdl_mode.RefreshRate));
                }

                var current_resolution = new DisplayResolution(
                    bounds.X, bounds.Y,
                    current_mode.Width, current_mode.Height,
                    TranslateFormat(current_mode.Format),
                    current_mode.RefreshRate);

                var device = new DisplayDevice(
                    current_resolution, d == 0, mode_list, TranslateBounds(bounds), d);

                AvailableDevices.Add(device);
                if (d == 0)
                {
                    Primary = device;
                }
            }
        }
        public async Task EnumerateDevicesAsync()
        {
            try
            {
                var DeviceInfos = await DeviceInformation.FindAllAsync(DeviceSelector);

                AvailableDevices.Clear();

                if (DeviceInfos.Count > 0)
                {
                    foreach (var deviceInfo in DeviceInfos)
                    {
                        AvailableDevices.Add(deviceInfo);
                    }
                }
            }
            catch (Exception)
            {
                CloseDevice();
            }
        }
Exemple #10
0
        public CameraSnapshot()
        {
            InitializeComponent();

            if (AvailableDevices.Count == 0)
            {
                foreach (var devices in WebcamDevice.VideoDevices)
                {
                    AvailableDevices.Add(devices);
                }
            }

            SelectedDevice = AvailableDevices.LastOrDefault(id => SelectedDeviceId == id.UsbId)
                             ?? AvailableDevices.LastOrDefault();

            Unloaded += delegate
            {
                SelectedDeviceId     = SelectedDevice?.UsbId;
                Webcam.VideoSourceId = "";
            };
        }
        private async void OnScanForDevicesCommand()
        {
            if (!ScanningForDevices)
            {
                ScanningForDevices = true;
                ScanForDevicesCommand.RaiseCanExecuteChanged();

                if (CrossBleAdapter.Current.Status == AdapterStatus.PoweredOn || CrossBleAdapter.Current.Status == AdapterStatus.Unsupported)
                {
                    AvailableDevices.Clear();
                    foundDevices.Clear();
                    try
                    {
                        bleService.ScanForDevicesCommand(TimeSpan.FromSeconds(10), device =>
                        {
                            if (device != null)
                            {
                                foundDevices.Add(device.Name, device);
                                AvailableDevices.Add(device.Name);
                            }
                        });
                        await Task.Delay(TimeSpan.FromSeconds(10));

                        ScanningForDevices = false;
                        ScanForDevicesCommand.RaiseCanExecuteChanged();
                    }
                    catch (Exception e)
                    {
                        // Crashes.TrackError(e);
                        ScanningForDevices = false;
                        ScanForDevicesCommand.RaiseCanExecuteChanged();
                    }
                }
                else
                {
                    await dialogService.DisplayAlertAsync("Bluetooth", "Please check your Bluetooth Settings", "Ok");
                }
            }
        }
        private void OnLoadDevicesCommand()
        {
            IsBusy = true;

            try
            {
                if (BluetoothAdapter.DefaultAdapter != null && BluetoothAdapter.DefaultAdapter.IsEnabled)
                {
                    foreach (var pairedDevice in BluetoothAdapter.DefaultAdapter.BondedDevices)
                    {
                        AvailableDevices.Add(pairedDevice);
                    }
                }
            }
            catch (Exception ex)
            {
                Debug.WriteLine(ex);
            }
            finally
            {
                IsBusy = false;
            }
        }
        async Task LoadAvailableDevicesAsync()
        {
            try
            {
                IsLoadingDevices = true;

                var availableNetworks = await DeviceDriveManager.Current.GetAvailableDevicesAsync(null);

                foreach (var network in availableNetworks)
                {
                    AvailableDevices.Add(network);
                }

                // We have a list of devices, do nothing, just wait for a device selection
                IsWaitingForNetwork   = false;
                WaitingLabel          = string.Empty;
                IsLoadingDevices      = false;
                NoDevicesFoundVisible = !AvailableDevices.Any();
            }
            catch (TaskCanceledException)
            {
                // Swallow
            }
        }
Exemple #14
0
        public void RefreshDisplayDevices()
        {
            lock (display_lock)
            {
                // Store an array of the current available DisplayDevice objects.
                // This is needed to preserve the original resolution.
                var previousDevices = AvailableDevices.ToArray();

                AvailableDevices.Clear();

                // We save all necessary parameters in temporary variables
                // and construct the device when every needed detail is available.
                // The main DisplayDevice constructor adds the newly constructed device
                // to the list of available devices.
                DisplayDevice     opentk_dev;
                DisplayResolution opentk_dev_current_res = null;
                var  opentk_dev_available_res            = new List <DisplayResolution>();
                bool opentk_dev_primary = false;
                uint device_count = 0, mode_count = 0;

                // Get available video adapters and enumerate all monitors
                while (User32.DeviceContext.EnumDisplayDevices(null, device_count++, out var dev1, 0))
                {
                    if ((dev1.StateFlags & DisplayDeviceStateFlags.AttachedToDesktop) == 0)
                    {
                        continue;
                    }

                    // The second function should only be executed when the first one fails
                    // (e.g. when the monitor is disabled)
                    if (User32.DeviceContext.EnumDisplaySettingsEx(dev1.DeviceName, DisplayModeSetting.CurrentSettings,
                                                                   out DeviceMode monitor_mode, 0) ||
                        User32.DeviceContext.EnumDisplaySettingsEx(dev1.DeviceName, DisplayModeSetting.RegistrySettings,
                                                                   out monitor_mode, 0))
                    {
                        VerifyMode(dev1, monitor_mode);

                        var scale = GetScale(ref monitor_mode);
                        opentk_dev_current_res = new DisplayResolution(
                            (int)(monitor_mode.DisplayOptions.Position.X / scale),
                            (int)(monitor_mode.DisplayOptions.Position.Y / scale),
                            (int)(monitor_mode.WidthInPixels / scale),
                            (int)(monitor_mode.HeightInPixels / scale),
                            (int)monitor_mode.BitsPerPixel,
                            monitor_mode.DisplayFrequency
                            );

                        opentk_dev_primary = (dev1.StateFlags & DisplayDeviceStateFlags.PrimaryDevice) != 0;
                    }

                    opentk_dev_available_res.Clear();
                    mode_count = 0;
                    while (User32.DeviceContext.EnumDisplaySettingsEx(dev1.DeviceName, (DisplayModeSetting)mode_count++, out monitor_mode, 0))
                    {
                        VerifyMode(dev1, monitor_mode);

                        var scale = GetScale(ref monitor_mode);
                        var res   = new DisplayResolution(
                            (int)(monitor_mode.DisplayOptions.Position.X / scale),
                            (int)(monitor_mode.DisplayOptions.Position.Y / scale),
                            (int)(monitor_mode.WidthInPixels / scale),
                            (int)(monitor_mode.HeightInPixels / scale),
                            (int)monitor_mode.BitsPerPixel,
                            monitor_mode.DisplayFrequency
                            );

                        opentk_dev_available_res.Add(res);
                    }

                    // Construct the OpenTK DisplayDevice through the accumulated parameters.
                    // The constructor will automatically add the DisplayDevice to the list
                    // of available devices.
#pragma warning disable 612,618
                    opentk_dev = new DisplayDevice(
                        opentk_dev_current_res,
                        opentk_dev_primary,
                        opentk_dev_available_res,
                        opentk_dev_current_res.Bounds,
                        dev1.DeviceName
                        );
#pragma warning restore 612,618

                    // Set the original resolution if the DisplayDevice was previously available.
                    foreach (var existingDevice in previousDevices)
                    {
                        if ((string)existingDevice.Id == (string)opentk_dev.Id)
                        {
                            opentk_dev.OriginalResolution = existingDevice.OriginalResolution;
                        }
                    }

                    AvailableDevices.Add(opentk_dev);

                    if (opentk_dev_primary)
                    {
                        Primary = opentk_dev;
                    }

                    Debug.Print("DisplayDevice {0} ({1}) supports {2} resolutions.",
                                device_count, opentk_dev.IsPrimary ? "primary" : "secondary",
                                opentk_dev.AvailableResolutions.Count);
                }
            }
        }
        public QuartzDisplayDeviceDriver()
        {
            lock (display_lock)
            {
                // To minimize the need to add static methods to OpenTK.Graphics.DisplayDevice
                // we only allow settings to be set through its constructor.
                // Thus, we save all necessary parameters in temporary variables
                // and construct the device when every needed detail is available.
                // The main DisplayDevice constructor adds the newly constructed device
                // to the list of available devices.
                const int maxDisplayCount = 20;
                IntPtr[]  displays        = new IntPtr[maxDisplayCount];
                int       displayCount;

                unsafe
                {
                    fixed(IntPtr *displayPtr = displays)
                    {
                        CG.GetActiveDisplayList(maxDisplayCount, displayPtr, out displayCount);
                    }
                }

                Debug.Print("CoreGraphics reported {0} display(s).", displayCount);
                Debug.Indent();

                for (int i = 0; i < displayCount; i++)
                {
                    IntPtr currentDisplay = displays[i];

                    // according to docs, first element in the array is always the
                    // main display.
                    bool primary = (i == 0);

                    // gets current settings
                    int currentWidth  = CG.DisplayPixelsWide(currentDisplay);
                    int currentHeight = CG.DisplayPixelsHigh(currentDisplay);
                    Debug.Print("Display {0} is at  {1}x{2}", i, currentWidth, currentHeight);

                    IntPtr  displayModesPtr = CG.DisplayAvailableModes(currentDisplay);
                    CFArray displayModes    = new CFArray(displayModesPtr);
                    Debug.Print("Supports {0} display modes.", displayModes.Count);

                    DisplayResolution        opentk_dev_current_res   = null;
                    List <DisplayResolution> opentk_dev_available_res = new List <DisplayResolution>();
                    IntPtr       currentModePtr = CG.DisplayCurrentMode(currentDisplay);
                    CFDictionary currentMode    = new CFDictionary(currentModePtr);

                    for (int j = 0; j < displayModes.Count; j++)
                    {
                        CFDictionary dict = new CFDictionary(displayModes[j]);

                        int    width   = (int)dict.GetNumberValue("Width");
                        int    height  = (int)dict.GetNumberValue("Height");
                        int    bpp     = (int)dict.GetNumberValue("BitsPerPixel");
                        double freq    = dict.GetNumberValue("RefreshRate");
                        bool   current = currentMode.Ref == dict.Ref;

                        //if (current) Debug.Write("  * ");
                        //else Debug.Write("    ");

                        //Debug.Print("Mode {0} is {1}x{2}x{3} @ {4}.", j, width, height, bpp, freq);

                        DisplayResolution thisRes = new DisplayResolution(0, 0, width, height, bpp, (float)freq);
                        opentk_dev_available_res.Add(thisRes);

                        if (current)
                        {
                            opentk_dev_current_res = thisRes;
                        }
                    }

                    HIRect    bounds  = CG.DisplayBounds(currentDisplay);
                    Rectangle newRect = new Rectangle((int)bounds.Origin.X, (int)bounds.Origin.Y, (int)bounds.Size.Width, (int)bounds.Size.Height);

                    Debug.Print("Display {0} bounds: {1}", i, newRect);

                    DisplayDevice opentk_dev = new DisplayDevice(opentk_dev_current_res,
                                                                 primary, opentk_dev_available_res, newRect, currentDisplay);

                    AvailableDevices.Add(opentk_dev);

                    if (primary)
                    {
                        Primary = opentk_dev;
                    }
                }

                Debug.Unindent();
            }
        }
Exemple #16
0
        public QuartzDisplayDeviceDriver()
        {
            lock (display_lock)
            {
                // To minimize the need to add static methods to OpenTK.Graphics.DisplayDevice
                // we only allow settings to be set through its constructor.
                // Thus, we save all necessary parameters in temporary variables
                // and construct the device when every needed detail is available.
                // The main DisplayDevice constructor adds the newly constructed device
                // to the list of available devices.
                const int maxDisplayCount = 20;
                var       displays        = new IntPtr[maxDisplayCount];
                int       displayCount;

                unsafe
                {
                    fixed(IntPtr *displayPtr = displays)
                    {
                        CG.GetActiveDisplayList(maxDisplayCount, displayPtr, out displayCount);
                    }
                }

                Debug.Print("CoreGraphics reported {0} display(s).", displayCount);
                Debug.Indent();

                for (var i = 0; i < displayCount; i++)
                {
                    var currentDisplay = displays[i];

                    // according to docs, first element in the array is always the
                    // main display.
                    var primary = i == 0;

                    // gets current settings
                    var currentWidth  = CG.DisplayPixelsWide(currentDisplay);
                    var currentHeight = CG.DisplayPixelsHigh(currentDisplay);
                    Debug.Print("Display {0} is at  {1}x{2}", i, currentWidth, currentHeight);

                    var displayModesPtr = CG.DisplayAvailableModes(currentDisplay);
                    var displayModes    = new CFArray(displayModesPtr);
                    Debug.Print("Supports {0} display modes.", displayModes.Count);

                    DisplayResolution opentk_dev_current_res = null;
                    var opentk_dev_available_res             = new List <DisplayResolution>();
                    var currentModePtr = CG.DisplayCurrentMode(currentDisplay);
                    var currentMode    = new CFDictionary(currentModePtr);

                    for (var j = 0; j < displayModes.Count; j++)
                    {
                        var dict = new CFDictionary(displayModes[j]);

                        var width   = (int)dict.GetNumberValue("Width");
                        var height  = (int)dict.GetNumberValue("Height");
                        var bpp     = (int)dict.GetNumberValue("BitsPerPixel");
                        var freq    = dict.GetNumberValue("RefreshRate");
                        var current = currentMode.Ref == dict.Ref;

                        if (freq <= 0)
                        {
                            IntPtr displayLink;
                            CV.DisplayLinkCreateWithCGDisplay(currentDisplay, out displayLink);

                            var t = CV.DisplayLinkGetNominalOutputVideoRefreshPeriod(displayLink);
                            if ((t.flags & (int)CV.TimeFlags.TimeIsIndefinite) != (int)CV.TimeFlags.TimeIsIndefinite)
                            {
                                freq = (double)t.timeScale / t.timeValue;
                            }

                            CV.DisplayLinkRelease(displayLink);
                        }

                        //if (current) Debug.Write("  * ");
                        //else Debug.Write("    ");

                        //Debug.Print("Mode {0} is {1}x{2}x{3} @ {4}.", j, width, height, bpp, freq);

                        var thisRes = new DisplayResolution(0, 0, width, height, bpp, (float)freq);
                        opentk_dev_available_res.Add(thisRes);

                        if (current)
                        {
                            opentk_dev_current_res = thisRes;
                        }
                    }

                    var bounds  = CG.DisplayBounds(currentDisplay);
                    var newRect = new Rectangle((int)bounds.Location.X, (int)bounds.Location.Y,
                                                (int)bounds.Size.Width, (int)bounds.Size.Height);

                    Debug.Print("Display {0} bounds: {1}", i, newRect);

                    var opentk_dev = new DisplayDevice(opentk_dev_current_res,
                                                       primary, opentk_dev_available_res, newRect, currentDisplay);

                    AvailableDevices.Add(opentk_dev);

                    if (primary)
                    {
                        Primary = opentk_dev;
                    }
                }

                Debug.Unindent();
            }
        }
Exemple #17
0
        public void RefreshDisplayDevices()
        {
            lock (display_lock)
            {
                AvailableDevices.Clear();

                // We save all necessary parameters in temporary variables
                // and construct the device when every needed detail is available.
                // The main DisplayDevice constructor adds the newly constructed device
                // to the list of available devices.
                DisplayDevice            opentk_dev;
                DisplayResolution        opentk_dev_current_res   = null;
                List <DisplayResolution> opentk_dev_available_res = new List <DisplayResolution>();
                bool opentk_dev_primary = false;
                int  device_count = 0, mode_count = 0;

                // Get available video adapters and enumerate all monitors
                WindowsDisplayDevice dev1 = new WindowsDisplayDevice(), dev2 = new WindowsDisplayDevice();
                while (Functions.EnumDisplayDevices(null, device_count++, dev1, 0))
                {
                    if ((dev1.StateFlags & DisplayDeviceStateFlags.AttachedToDesktop) == DisplayDeviceStateFlags.None)
                    {
                        continue;
                    }

                    DeviceMode monitor_mode = new DeviceMode();

                    // The second function should only be executed when the first one fails
                    // (e.g. when the monitor is disabled)
                    if (Functions.EnumDisplaySettingsEx(dev1.DeviceName.ToString(), DisplayModeSettingsEnum.CurrentSettings, monitor_mode, 0) ||
                        Functions.EnumDisplaySettingsEx(dev1.DeviceName.ToString(), DisplayModeSettingsEnum.RegistrySettings, monitor_mode, 0))
                    {
                        VerifyMode(dev1, monitor_mode);

                        float scale = GetScale(ref monitor_mode);
                        opentk_dev_current_res = new DisplayResolution(
                            (int)(monitor_mode.Position.X / scale), (int)(monitor_mode.Position.Y / scale),
                            (int)(monitor_mode.PelsWidth / scale), (int)(monitor_mode.PelsHeight / scale),
                            monitor_mode.BitsPerPel, monitor_mode.DisplayFrequency);

                        opentk_dev_primary =
                            (dev1.StateFlags & DisplayDeviceStateFlags.PrimaryDevice) != DisplayDeviceStateFlags.None;
                    }

                    opentk_dev_available_res.Clear();
                    mode_count = 0;
                    while (Functions.EnumDisplaySettingsEx(dev1.DeviceName.ToString(), mode_count++, monitor_mode, 0))
                    {
                        VerifyMode(dev1, monitor_mode);

                        float             scale = GetScale(ref monitor_mode);
                        DisplayResolution res   = new DisplayResolution(
                            (int)(monitor_mode.Position.X / scale), (int)(monitor_mode.Position.Y / scale),
                            (int)(monitor_mode.PelsWidth / scale), (int)(monitor_mode.PelsHeight / scale),
                            monitor_mode.BitsPerPel, monitor_mode.DisplayFrequency);

                        opentk_dev_available_res.Add(res);
                    }

                    // Construct the OpenTK DisplayDevice through the accumulated parameters.
                    // The constructor will automatically add the DisplayDevice to the list
                    // of available devices.
                    opentk_dev = new DisplayDevice(
                        opentk_dev_current_res,
                        opentk_dev_primary,
                        opentk_dev_available_res,
                        opentk_dev_current_res.Bounds,
                        dev1.DeviceName);

                    AvailableDevices.Add(opentk_dev);

                    if (opentk_dev_primary)
                    {
                        Primary = opentk_dev;
                    }

                    Debug.Print("DisplayDevice {0} ({1}) supports {2} resolutions.",
                                device_count, opentk_dev.IsPrimary ? "primary" : "secondary", opentk_dev.AvailableResolutions.Count);
                }
            }
        }
Exemple #18
0
 /// <summary>
 /// Операция добавления устройства
 /// </summary>
 /// <param name="parDevice">Физическое устройство OpenTK</param>
 private void DeviceAdd(MDeviceOpenTk parDevice)
 {
     AvailableDevices.Add(parDevice);
     OnDeviceAdded?.Invoke(parDevice);
 }