using RGB.NET.Core;
using RGB.NET.Devices.Msi.Native;
namespace RGB.NET.Devices.Msi
{
///
///
/// Represents MSI VGA adapters.
///
public class MsiGraphicsCardRGBDevice : MsiRGBDevice, IGraphicsCard
{
#region Constructors
///
///
/// Initializes a new instance of the class.
///
/// The specific information provided by MSI for graphics cards.
internal MsiGraphicsCardRGBDevice(MsiRGBDeviceInfo info)
: base(info)
{ }
#endregion
#region Methods
///
protected override void InitializeLayout(int ledCount)
{
for (int i = 0; i < ledCount; i++)
{
//Hex3l: Should it be configurable in order to provide style access?
//Hex3l: Sets led style to "Steady" in order to have a solid color output therefore a controllable led color
//Hex3l: This is a string defined by the output of _MsiSDK.GetLedStyle, "Steady" should be always present
const string LED_STYLE = "Steady";
//Hex3l: Every led is a video card adapter.
_MsiSDK.SetLedStyle(DeviceInfo.MsiDeviceType, i, LED_STYLE);
InitializeLed(LedId.GraphicsCard1 + i, new Rectangle(i * 10, 0, 10, 10));
}
//TODO DarthAffe 07.10.2017: We don't know the model, how to save layouts and images?
ApplyLayoutFromFile(PathHelper.GetAbsolutePath(this, $@"Layouts\MSI\GraphicsCard\{DeviceInfo.Model.Replace(" ", string.Empty).ToUpper()}.xml"), null);
}
///
protected override object CreateLedCustomData(LedId ledId) => (int)ledId - (int)LedId.GraphicsCard1;
///
public override void SyncBack()
{ }
#endregion
}
}