using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
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 Aitex.Core.Common.DeviceData;
using Aitex.Core.RT.Log;
using Aitex.Core.UI.Control;
using MECF.Framework.Common.OperationCenter;
namespace Aitex.Core.UI.DeviceControl
{
///
/// AITRfGenerator.xaml 的交互逻辑
///
public partial class AITRfGenerator : UserControl
{
public AITRfGenerator()
{
InitializeComponent();
}
// define dependency properties
public static readonly DependencyProperty CommandProperty = DependencyProperty.Register(
"Command", typeof(ICommand), typeof(AITRfGenerator),
new FrameworkPropertyMetadata(null, FrameworkPropertyMetadataOptions.AffectsRender));
public static readonly DependencyProperty DeviceDataProperty = DependencyProperty.Register(
"DeviceData", typeof(AITRfData), typeof(AITRfGenerator),
new FrameworkPropertyMetadata(new AITRfData(), FrameworkPropertyMetadataOptions.AffectsRender));
public static readonly DependencyProperty IsAutoModeProperty = DependencyProperty.Register(
"IsAutoMode", typeof(bool), typeof(AITRfGenerator),
new FrameworkPropertyMetadata(false, FrameworkPropertyMetadataOptions.AffectsRender));
public ICommand Command
{
get
{
return (ICommand)this.GetValue(CommandProperty);
}
set
{
this.SetValue(CommandProperty, value);
}
}
public bool IsAutoMode
{
get
{
return (bool)this.GetValue(IsAutoModeProperty);
}
set
{
this.SetValue(IsAutoModeProperty, value);
}
}
///
/// set, get current progress value AnalogDeviceData
///
public AITRfData DeviceData
{
get
{
return (AITRfData)this.GetValue(DeviceDataProperty);
}
set
{
this.SetValue(DeviceDataProperty, value);
}
}
protected override void OnRender(DrawingContext drawingContext)
{
base.OnRender(drawingContext);
if (DeviceData != null)
{
//draw red board if meets a warning
rectBkground.Stroke = !DeviceData.IsInterlockOk ? Brushes.Red : Brushes.Gray;
//labelValue.Foreground = !DeviceData.IsInterlockOK ? Brushes.Pink : Brushes.MidnightBlue;
rectBkground.StrokeThickness = !DeviceData.IsInterlockOk ? 2 : 1;
if (dialogBox != null)
{
dialogBox.ForwardPower = DeviceData.ForwardPower ;
dialogBox.ReflectPower = DeviceData.ReflectPower ;
dialogBox.IsRfOn = DeviceData.IsRfOn;
dialogBox.SetPointPower = DeviceData.PowerSetPoint;
dialogBox.IsContinuousMode = DeviceData.WorkMode == (int) RfMode.ContinuousWaveMode;
dialogBox.IsPulsingMode = DeviceData.WorkMode == (int) RfMode.PulsingMode;
dialogBox.Voltage = DeviceData.Voltage;
dialogBox.Current = DeviceData.Current;
}
rectBkground.Fill = DeviceData.IsRfOn ? new SolidColorBrush(System.Windows.Media.Color.FromRgb(0xF1, 0xA2, 0xE4)) : (DeviceData.IsInterlockOk ? new SolidColorBrush(System.Windows.Media.Color.FromRgb(0xD2, 0xD3, 0xD7)) : Brushes.Red);
if (DeviceData.EnableVoltageCurrent)
{
labelValue.Content = string.Format("{0}/{1}/{2}", DeviceData.ForwardPower.ToString("F0"), DeviceData.Voltage.ToString("F0"), DeviceData.Current.ToString("F0"));
}
else
{
labelValue.Content = string.Format("{0} : {1}", DeviceData.ForwardPower.ToString("F1"), DeviceData.ReflectPower.ToString("F1"));
}
}
}
private AITRfInputDialogBox dialogBox;
public Window AnalogOwner { get; set; }
private void Grid_MouseLeftButtonUp(object sender, MouseButtonEventArgs e)
{
if (IsAutoMode) return;
if (DeviceData == null)
return;
dialogBox = new AITRfInputDialogBox
{
SetRfModeCommandDelegate = ExecuteSetMode,
SetContinuousCommandDelegate = ExecuteContinuous,
SetPulsingCommandDelegate = ExecutePulsing,
SetRfPowerOnOffCommandDelegate = ExecutePowerOnOff,
DeviceName = DeviceData.DisplayName,
DeviceId = DeviceData.DeviceSchematicId,
ForwardPower = DeviceData.ForwardPower,
ReflectPower = DeviceData.ReflectPower,
IsRfOn = DeviceData.IsRfOn,
Voltage = DeviceData.Voltage,
Current = DeviceData.Current,
SetPointPower = Math.Round(DeviceData.PowerSetPoint, 1),
MaxValuePower = DeviceData.ScalePower,
UnitPower = DeviceData.UnitPower,
SetPointFrequency = Math.Round(DeviceData.FrequencySetPoint, 1),
MaxValueFrequency = DeviceData.ScaleFrequency,
UnitFrequency = DeviceData.UnitFrequency,
SetPointDuty = Math.Round(DeviceData.DutySetPoint, 1),
MaxValueDuty = DeviceData.ScaleDuty,
UnitDuty = DeviceData.UnitDuty,
IsContinuousMode = DeviceData.WorkMode == (int)RfMode.ContinuousWaveMode,
IsPulsingMode = DeviceData.WorkMode==(int)RfMode.PulsingMode,
EnablePulsing = DeviceData.EnablePulsing,
GridLengthReflect = DeviceData.EnableReflectPower ? GridLength.Auto : new GridLength(0),
GridLengthVoltageCurrent = DeviceData.EnableVoltageCurrent ? GridLength.Auto : new GridLength(0)
};
if (AnalogOwner != null)
dialogBox.Owner = AnalogOwner;
dialogBox.Topmost = true;
dialogBox.WindowStartupLocation = WindowStartupLocation.CenterScreen;
dialogBox.FocasAll();
dialogBox.ShowDialog();
dialogBox = null;
}
private void ExecuteSetMode(RfMode value)
{
if (Command == null)
{
InvokeClient.Instance.Service.DoOperation($"{DeviceData.Module}.{DeviceData.DeviceName}.{AITRfOperation.SetMode}", value.ToString());
return;
}
Command.Execute(new object[] { DeviceData.DeviceName, AITRfOperation.SetMode.ToString(), value.ToString() });
}
private void ExecutePowerOnOff(bool value)
{
if (Command == null)
{
InvokeClient.Instance.Service.DoOperation($"{DeviceData.Module}.{DeviceData.DeviceName}.{AITRfOperation.SetPowerOnOff}", value.ToString());
return;
}
Command.Execute(new object[] { DeviceData.DeviceName, AITRfOperation.SetPowerOnOff.ToString(), value.ToString() });
}
private void ExecuteContinuous(double power)
{
if (Command == null)
{
InvokeClient.Instance.Service.DoOperation($"{DeviceData.Module}.{DeviceData.DeviceName}.{AITRfOperation.SetContinuousPower}", power.ToString());
return;
}
Command.Execute(new object[] { DeviceData.DeviceName, AITRfOperation.SetContinuousPower.ToString(), power.ToString() });
}
private void ExecutePulsing(double power, double frequency, double duty)
{
if (Command == null)
{
InvokeClient.Instance.Service.DoOperation($"{DeviceData.Module}.{DeviceData.DeviceName}.{AITRfOperation.SetPulsingPower}", power.ToString());
return;
}
Command.Execute(new object[] { DeviceData.DeviceName, AITRfOperation.SetPulsingPower.ToString(), power.ToString(), frequency.ToString(), duty.ToString() });
}
private void Grid_MouseEnter(object sender, MouseEventArgs e)
{
if (DeviceData != null)
{
try
{
string tooltipValue =
DeviceData.EnableVoltageCurrent
? string.Format("{0}:{1}\r\n\r\nID:{2}\r\nForward Power:{3} w\r\nVoltage:{4} \r\nCurrent:{5} \r\nSetPoint:{6} w",
"RF",
DeviceData.DisplayName,
DeviceData.DeviceSchematicId,
DeviceData.ForwardPower.ToString("F1"),
DeviceData.Voltage.ToString("F1"),
DeviceData.Current.ToString("F1"),
DeviceData.PowerSetPoint.ToString("F1"))
: string.Format("{0}:{1}\r\n\r\nID:{2}\r\nForward Power:{3} w\r\nReflect Power:{4} w \r\nSetPoint:{5} w",
"RF",
DeviceData.DisplayName,
DeviceData.DeviceSchematicId,
DeviceData.ForwardPower.ToString("F1"),
DeviceData.ReflectPower.ToString("F1"),
DeviceData.PowerSetPoint.ToString("F1"));
ToolTip = tooltipValue;
}
catch (Exception ex)
{
LOG.WriteExeption(ex);
}
}
}
}
}