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path: root/Software/Visual_Studio/MachineStudio/Tango.MachineStudio.Common/Controls/MachineConnectionIcon.xaml.cs
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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using System.Windows;
using System.Windows.Controls;
using System.Windows.Data;
using System.Windows.Documents;
using System.Windows.Input;
using System.Windows.Media;
using System.Windows.Media.Imaging;
using System.Windows.Navigation;
using System.Windows.Shapes;
using Tango.BL.Enumerations;
using Tango.Emulations.ExternalBridge;
using Tango.Integration.ExternalBridge;

namespace Tango.MachineStudio.Common.Controls
{
    public enum ExternalBridgeClientType
    {
        Usb,
        Tcp,
        Wifi,
        SignalR,
        Emulator,
    }

    /// <summary>
    /// Interaction logic for MachineConnectionIcon.xaml
    /// </summary>
    public partial class MachineConnectionIcon : UserControl
    {
        public MachineTypes MachineType
        {
            get { return (MachineTypes)GetValue(MachineTypeProperty); }
            set { SetValue(MachineTypeProperty, value); }
        }
        public static readonly DependencyProperty MachineTypeProperty =
            DependencyProperty.Register("MachineType", typeof(MachineTypes), typeof(MachineConnectionIcon), new PropertyMetadata(MachineTypes.TS1800));

        public IExternalBridgeClient ExternalBridgeClient
        {
            get { return (IExternalBridgeClient)GetValue(ExternalBridgeClientProperty); }
            set { SetValue(ExternalBridgeClientProperty, value); }
        }
        public static readonly DependencyProperty ExternalBridgeClientProperty =
            DependencyProperty.Register("ExternalBridgeClient", typeof(IExternalBridgeClient), typeof(MachineConnectionIcon), new PropertyMetadata((d,e) => (d as MachineConnectionIcon).OnExternalBridgeClientChanged()));

        public ExternalBridgeClientType ExternalBridgeClientType
        {
            get { return (ExternalBridgeClientType)GetValue(ExternalBridgeClientTypeProperty); }
            set { SetValue(ExternalBridgeClientTypeProperty, value); }
        }
        public static readonly DependencyProperty ExternalBridgeClientTypeProperty =
            DependencyProperty.Register("ExternalBridgeClientType", typeof(ExternalBridgeClientType), typeof(MachineConnectionIcon), new PropertyMetadata(ExternalBridgeClientType.Usb));

        private void OnExternalBridgeClientChanged()
        {
            if (ExternalBridgeClient != null)
            {
                if (ExternalBridgeClient.GetType() == typeof(ExternalBridgeUsbClient))
                {
                    ExternalBridgeClientType = ExternalBridgeClientType.Usb;
                }
                else if (ExternalBridgeClient.GetType() == typeof(ExternalBridgeTcpFirmwareClient))
                {
                    ExternalBridgeClientType = ExternalBridgeClientType.Tcp;
                    MachineType = ExternalBridgeClient.MachineType;
                }
                else if (ExternalBridgeClient.GetType() == typeof(ExternalBridgeTcpClient))
                {
                    ExternalBridgeClientType = ExternalBridgeClientType.Wifi;
                    MachineType = ExternalBridgeClient.MachineType;
                }
                else if (ExternalBridgeClient.GetType() == typeof(ExternalBridgeSignalRClient))
                {
                    ExternalBridgeClientType = ExternalBridgeClientType.SignalR;
                    MachineType = ExternalBridgeClient.MachineType;
                }
                else if (ExternalBridgeClient.GetType() == typeof(EmulatorExternalBridge))
                {
                    ExternalBridgeClientType = ExternalBridgeClientType.Emulator;
                }
            }
        }

        public MachineConnectionIcon()
        {
            InitializeComponent();
        }
    }
}
n class="w"> ActualValues.RemoveAt(index); ActualValues.Insert(index, actualValue); } return p; } public void RemoveFromStart(int count) { if (count < 1) return; lock (Points) { if (Points.Count < count) return; Points.RemoveRange(0, count); ActualValues.RemoveRange(0, count); double offSet = Points[0].XValue; for (int i = 0; i < Points.Count; i++) { Points[i].XValue = Points[i].XValue - offSet; } } } public void ClearPoints() { Points.Clear(); } public void ClearActualPoints() { ActualValues.Clear(); } public int[] ToPolygonPoints() { lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)Points[i].XValue); points.Add((int)Points[i].YValue); } return points.ToArray(); } } public int[] ToPolygonPoints(double scaleFactor, Func<double, double> scaleY) { double xValue = 0; lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)xValue); points.Add((int)scaleY(Points[i].YValue)); xValue += scaleFactor; } return points.ToArray(); } } public int[] ToPolygonPoints(double offsetX, double offsetY, double scaleFactor, Func<double, double> scaleY) { double xValue = 0; lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)(xValue + offsetX)); points.Add((int)(scaleY(Points[i].YValue) + offsetY)); xValue += scaleFactor; } return points.ToArray(); } } public int[] ToPolygonPointsFill(double offsetX, double offsetY, double width, double height, double scaleFactor, Func<double, double> scaleY) { double xValue = 0; lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)(xValue + offsetX)); points.Add((int)(scaleY(Points[i].YValue) + offsetY)); xValue += scaleFactor; } points.Add((int)((xValue - scaleFactor) + offsetX)); points.Add((int)height); points.Add(0); points.Add((int)height); points.Add(0); points.Add(points[1]); return points.ToArray(); } } public int[] ToPolygonPointsReflection(double offsetX, double offsetY, double height, double scaleFactor, Func<double, double> scaleY) { double xValue = 0; lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)(xValue + offsetX)); points.Add((int)((height - scaleY(Points[i].YValue)) + offsetY)); xValue += scaleFactor; } return points.ToArray(); } } public int[] ToPolygonPointsWaveFill(double offsetX, double offsetY, double width, double height, double scaleFactor, Func<double, double> scaleY) { double xValue = 0; lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)(xValue + offsetX)); points.Add((int)((scaleY(Points[i].YValue)) + offsetY)); xValue += scaleFactor; } points.Add((int)width); points.Add((int)(height / 2)); points.Add((int)width); points.Add((int)((height - scaleY(Points[Points.Count - 1].YValue)) + offsetY)); xValue -= scaleFactor; for (int i = Points.Count - 1; i >= 0; i--) { points.Add((int)(xValue + offsetX)); points.Add((int)((height - scaleY(Points[i].YValue)) + offsetY)); xValue -= scaleFactor; } points.Add(0); points.Add(points[points.Count - 2]); points.Add(points[0]); points.Add((int)(height / 2)); points.Add(0); points.Add((int)(height / 2)); points.Add(0); points.Add(points[1]); return points.ToArray(); } } public int[] ToPolygonPointsReflection(double height) { lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)Points[i].XValue); points.Add((int)(height - Points[i].YValue)); } return points.ToArray(); } } public int[] ToPolygonPointsReflection(double height, double scaleFactor, Func<double, double> scaleY) { double xValue = 0; lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)xValue); points.Add((int)(height - scaleY(Points[i].YValue))); xValue += scaleFactor; } return points.ToArray(); } } public int[] ToPolygonPointsFill(double width, double height) { lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)Points[i].XValue); points.Add((int)Points[i].YValue); } points.Add((int)width); points.Add((int)height); points.Add(0); points.Add((int)height); points.Add(0); points.Add(points[1]); return points.ToArray(); } } public int[] ToPolygonPointsFill(double width, double height, double scaleFactor, Func<double, double> scaleY) { double xValue = 0; lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)xValue); points.Add((int)scaleY(Points[i].YValue)); xValue += scaleFactor; } points.Add((int)(xValue - scaleFactor)); points.Add((int)height); points.Add(0); points.Add((int)height); points.Add(0); points.Add(points[1]); return points.ToArray(); } } public int[] ToPolygonPointsWaveFill(double width, double height) { lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)Points[i].XValue); points.Add((int)Points[i].YValue); } for (int i = Points.Count - 1; i >= 0; i--) { points.Add((int)Points[i].XValue); points.Add((int)(height - Points[i].YValue)); } points.Add(points[0]); points.Add((int)(height / 2)); points.Add(0); points.Add((int)(height / 2)); points.Add(0); points.Add(points[1]); return points.ToArray(); } } public int[] ToPolygonPointsWaveFill(double width, double height, double scaleFactor, Func<double, double> scaleY) { double xValue = 0; lock (Points) { List<int> points = new List<int>(); for (int i = 0; i < Points.Count; i++) { points.Add((int)xValue); points.Add((int)(scaleY(Points[i].YValue))); xValue += scaleFactor; } points.Add((int)width); points.Add((int)(height / 2)); points.Add((int)width); points.Add((int)(height - scaleY(Points[Points.Count - 1].YValue))); xValue -= scaleFactor; for (int i = Points.Count - 1; i >= 0; i--) { points.Add((int)xValue); points.Add((int)(height - scaleY(Points[i].YValue))); xValue -= scaleFactor; } points.Add(0); points.Add(points[points.Count - 2]); points.Add(points[0]); points.Add((int)(height / 2)); points.Add(0); points.Add((int)(height / 2)); points.Add(0); points.Add(points[1]); return points.ToArray(); } } } }