cemu-DS4Windows/DS4Windows/DS4Forms/ViewModels/ProfileSettingsViewModel.cs
2020-03-06 14:23:10 -06:00

2245 lines
75 KiB
C#

using DS4Windows;
using Microsoft.Win32;
using System;
using System.Collections.Generic;
using System.Drawing;
using System.IO;
using System.Windows;
using System.Windows.Controls;
using System.Windows.Input;
using System.Windows.Interop;
using System.Windows.Media;
using System.Windows.Media.Imaging;
namespace DS4WinWPF.DS4Forms.ViewModels
{
public class ProfileSettingsViewModel
{
private int device;
public int Device { get => device; }
private int funcDevNum;
public int FuncDevNum { get => funcDevNum; }
private ImageBrush lightbarImgBrush = new ImageBrush();
private SolidColorBrush lightbarColBrush = new SolidColorBrush();
public int LightbarModeIndex
{
get
{
int index = 0;
switch(Global.LightbarSettingsInfo[device].Mode)
{
case LightbarMode.DS4Win:
index = 0; break;
case LightbarMode.Passthru:
index = 1; break;
default: break;
}
return index;
}
set
{
LightbarMode temp = LightbarMode.DS4Win;
switch(value)
{
case 0:
temp = LightbarMode.DS4Win; break;
case 1:
temp = LightbarMode.Passthru; break;
default: break;
}
Global.LightbarSettingsInfo[device].Mode = temp;
LightbarModeIndexChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler LightbarModeIndexChanged;
public Visibility DS4WinLightVisible
{
get
{
Visibility temp = Visibility.Visible;
switch(Global.LightbarSettingsInfo[device].Mode)
{
case LightbarMode.DS4Win:
temp = Visibility.Visible; break;
case LightbarMode.Passthru:
temp = Visibility.Collapsed; break;
}
return temp;
}
}
public event EventHandler DS4WinLightVisibleChanged;
public System.Windows.Media.Brush LightbarBrush
{
get
{
System.Windows.Media.Brush tempBrush;
ref DS4Color color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_Led;
if (!RainbowExists)
{
lightbarColBrush.Color = new System.Windows.Media.Color()
{
A = 255,
R = color.red,
G = color.green,
B = color.blue
};
tempBrush = lightbarColBrush as System.Windows.Media.Brush;
}
else
{
tempBrush = lightbarImgBrush as System.Windows.Media.Brush;
}
return tempBrush;
}
}
public event EventHandler LightbarBrushChanged;
public System.Windows.Media.Color MainColor
{
get
{
ref DS4Color color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_Led; //ref Global.MainColor[device];
return new System.Windows.Media.Color()
{
A = 255,
R = color.red,
G = color.green,
B = color.blue
};
}
}
public event EventHandler MainColorChanged;
public string MainColorString
{
get
{
ref DS4Color color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_Led; //ref Global.MainColor[device];
return $"#FF{color.red.ToString("X2")}{color.green.ToString("X2")}{color.blue.ToString("X2")}";
/*return new System.Windows.Media.Color()
{
A = 255,
R = color.red,
G = color.green,
B = color.blue
}.ToString();
*/
}
}
public event EventHandler MainColorStringChanged;
public int MainColorR
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.m_Led.red;
set
{
Global.LightbarSettingsInfo[device].ds4winSettings.m_Led.red = (byte)value;
MainColorRChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler MainColorRChanged;
public string MainColorRString
{
get => $"#{ Global.LightbarSettingsInfo[device].ds4winSettings.m_Led.red.ToString("X2")}FF0000";
}
public event EventHandler MainColorRStringChanged;
public int MainColorG
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.m_Led.green;
set
{
Global.LightbarSettingsInfo[device].ds4winSettings.m_Led.green = (byte)value;
MainColorGChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler MainColorGChanged;
public string MainColorGString
{
get => $"#{ Global.LightbarSettingsInfo[device].ds4winSettings.m_Led.green.ToString("X2")}00FF00";
}
public event EventHandler MainColorGStringChanged;
public int MainColorB
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.m_Led.blue;
set
{
Global.LightbarSettingsInfo[device].ds4winSettings.m_Led.blue = (byte)value;
MainColorBChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler MainColorBChanged;
public string MainColorBString
{
get => $"#{ Global.LightbarSettingsInfo[device].ds4winSettings.m_Led.blue.ToString("X2")}0000FF";
}
public event EventHandler MainColorBStringChanged;
public string LowColor
{
get
{
ref DS4Color color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed; //ref Global.LowColor[device];
return $"#FF{color.red.ToString("X2")}{color.green.ToString("X2")}{color.blue.ToString("X2")}";
}
}
public event EventHandler LowColorChanged;
public int LowColorR
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed.red;
set
{
Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed.red = (byte)value;
LowColorRChanged?.Invoke(this, EventArgs.Empty);
LowColorRStringChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler LowColorRChanged;
public string LowColorRString
{
get => $"#{ Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed.red.ToString("X2")}FF0000";
}
public event EventHandler LowColorRStringChanged;
public int LowColorG
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed.green;
set
{
Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed.green = (byte)value;
LowColorGChanged?.Invoke(this, EventArgs.Empty);
LowColorGStringChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler LowColorGChanged;
public string LowColorGString
{
get => $"#{ Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed.green.ToString("X2")}00FF00";
}
public event EventHandler LowColorGStringChanged;
public int LowColorB
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed.blue;
set
{
Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed.blue = (byte)value;
LowColorBChanged?.Invoke(this, EventArgs.Empty);
LowColorBStringChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler LowColorBChanged;
public string LowColorBString
{
get => $"#{ Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed.blue.ToString("X2")}0000FF";
}
public event EventHandler LowColorBStringChanged;
public System.Windows.Media.Color LowColorMedia
{
get
{
ref DS4Color color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed;
return new System.Windows.Media.Color()
{
A = 255,
R = color.red,
B = color.blue,
G = color.green
};
}
}
public int FlashTypeIndex
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.flashType; //Global.FlashType[device];
set => Global.LightbarSettingsInfo[device].ds4winSettings.flashType = (byte)value;
}
public int FlashAt
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.flashAt; //Global.FlashAt[device];
set => Global.LightbarSettingsInfo[device].ds4winSettings.flashAt = value;
}
public string FlashColor
{
get
{
ref DS4Color color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_FlashLed;
if (color.red == 0 && color.green == 0 && color.blue == 0)
{
color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_Led;
}
return $"#FF{color.red.ToString("X2")}{color.green.ToString("X2")}{color.blue.ToString("X2")}";
}
}
public event EventHandler FlashColorChanged;
public System.Windows.Media.Color FlashColorMedia
{
get
{
ref DS4Color color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_FlashLed;
if (color.red == 0 && color.green == 0 && color.blue == 0)
{
color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_Led;
}
return new System.Windows.Media.Color()
{
A = 255,
R = color.red,
B = color.blue,
G = color.green
};
}
}
public int ChargingType
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.chargingType;
set
{
Global.LightbarSettingsInfo[device].ds4winSettings.chargingType = value;
ChargingColorVisibleChanged?.Invoke(this, EventArgs.Empty);
}
}
public bool ColorBatteryPercent
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.ledAsBattery;
set
{
Global.LightbarSettingsInfo[device].ds4winSettings.ledAsBattery = value;
}
}
public string ChargingColor
{
get
{
ref DS4Color color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_ChargingLed;
return $"#FF{color.red.ToString("X2")}{color.green.ToString("X2")}{color.blue.ToString("X2")}";
}
}
public event EventHandler ChargingColorChanged;
public System.Windows.Media.Color ChargingColorMedia
{
get
{
ref DS4Color color = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_ChargingLed;
return new System.Windows.Media.Color()
{
A = 255,
R = color.red,
B = color.blue,
G = color.green
};
}
}
public Visibility ChargingColorVisible
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.chargingType == 3 ? Visibility.Visible : Visibility.Hidden;
}
public event EventHandler ChargingColorVisibleChanged;
public double Rainbow
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.rainbow;
set
{
Global.LightbarSettingsInfo[device].ds4winSettings.rainbow = value;
RainbowChanged?.Invoke(this, EventArgs.Empty);
RainbowExistsChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler RainbowChanged;
public bool RainbowExists
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.rainbow != 0.0;
}
public event EventHandler RainbowExistsChanged;
public double MaxSatRainbow
{
get => Global.LightbarSettingsInfo[device].ds4winSettings.maxRainbowSat * 100.0;
set => Global.LightbarSettingsInfo[device].ds4winSettings.maxRainbowSat = value / 100.0;
}
public int RumbleBoost
{
get => Global.RumbleBoost[device];
set => Global.RumbleBoost[device] = (byte)value;
}
public int RumbleAutostopTime
{
// RumbleAutostopTime value is in milliseconds in XML config file, but GUI uses just seconds
get => Global.getRumbleAutostopTime(device) / 1000;
set => Global.setRumbleAutostopTime(device, value * 1000);
}
private bool heavyRumbleActive;
public bool HeavyRumbleActive
{
get => heavyRumbleActive;
set
{
heavyRumbleActive = value;
HeavyRumbleActiveChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler HeavyRumbleActiveChanged;
private bool lightRumbleActive;
public bool LightRumbleActive
{
get => lightRumbleActive;
set
{
lightRumbleActive = value;
LightRumbleActiveChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler LightRumbleActiveChanged;
public bool UseControllerReadout
{
get => Global.DS4Mapping;
set => Global.DS4Mapping = value;
}
public int ButtonMouseSensitivity
{
get => Global.ButtonMouseSensitivity[device];
set
{
int temp = Global.ButtonMouseSensitivity[device];
if (temp == value) return;
Global.ButtonMouseSensitivity[device] = value;
ButtonMouseSensitivityChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler ButtonMouseSensitivityChanged;
private int outputMouseSpeed;
public int OutputMouseSpeed
{
get => outputMouseSpeed;
set
{
if (value == outputMouseSpeed) return;
outputMouseSpeed = value;
OutputMouseSpeedChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler OutputMouseSpeedChanged;
public bool MouseAcceleration
{
get => Global.MouseAccel[device];
set => Global.MouseAccel[device] = value;
}
public bool EnableTouchpadToggle
{
get => Global.EnableTouchToggle[device];
set => Global.EnableTouchToggle[device] = value;
}
public bool LaunchProgramExists
{
get => !string.IsNullOrEmpty(Global.LaunchProgram[device]);
set
{
if (!value) ResetLauchProgram();
}
}
public event EventHandler LaunchProgramExistsChanged;
public string LaunchProgram
{
get => Global.LaunchProgram[device];
}
public event EventHandler LaunchProgramChanged;
public string LaunchProgramName
{
get
{
string temp = Global.LaunchProgram[device];
if (!string.IsNullOrEmpty(temp))
{
temp = Path.GetFileNameWithoutExtension(temp);
}
else
{
temp = "Browse";
}
return temp;
}
}
public event EventHandler LaunchProgramNameChanged;
public ImageSource LaunchProgramIcon
{
get
{
ImageSource exeicon = null;
string path = Global.LaunchProgram[device];
if (File.Exists(path) && Path.GetExtension(path) == ".exe")
{
using (Icon ico = Icon.ExtractAssociatedIcon(path))
{
exeicon = Imaging.CreateBitmapSourceFromHIcon(ico.Handle, Int32Rect.Empty,
BitmapSizeOptions.FromEmptyOptions());
exeicon.Freeze();
}
}
return exeicon;
}
}
public event EventHandler LaunchProgramIconChanged;
public bool DInputOnly
{
get => Global.DinputOnly[device];
set => Global.DinputOnly[device] = value;
}
public bool FlushHid
{
get => Global.FlushHIDQueue[device];
set => Global.FlushHIDQueue[device] = value;
}
public bool IdleDisconnectExists
{
get => Global.IdleDisconnectTimeout[device] != 0;
set
{
Global.IdleDisconnectTimeout[device] = value ? 5 * 60 : 0;
IdleDisconnectChanged?.Invoke(this, EventArgs.Empty);
IdleDisconnectExistsChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler IdleDisconnectExistsChanged;
public int IdleDisconnect
{
get => Global.IdleDisconnectTimeout[device] / 60;
set
{
int temp = Global.IdleDisconnectTimeout[device] / 60;
if (temp == value) return;
Global.IdleDisconnectTimeout[device] = value * 60;
IdleDisconnectChanged?.Invoke(this, EventArgs.Empty);
IdleDisconnectExistsChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler IdleDisconnectChanged;
private int tempBtPollRate;
public int TempBTPollRateIndex
{
get => tempBtPollRate;
set => tempBtPollRate = value;
}
public int ControllerTypeIndex
{
get
{
int type = 0;
switch (Global.OutContType[device])
{
case OutContType.X360:
type = 0;
break;
case OutContType.DS4:
type = 1;
break;
default: break;
}
return type;
}
}
private int tempControllerIndex;
public int TempControllerIndex
{
get => tempControllerIndex; set
{
tempControllerIndex = value;
Global.outDevTypeTemp[device] = TempConType;
}
}
public OutContType TempConType
{
get
{
OutContType result = OutContType.None;
switch (tempControllerIndex)
{
case 0:
result = OutContType.X360; break;
case 1:
result = OutContType.DS4; break;
default: result = OutContType.X360; break;
}
return result;
}
}
public int GyroOutModeIndex
{
get
{
int index = 0;
switch (Global.GyroOutputMode[device])
{
case GyroOutMode.Controls:
index = 0; break;
case GyroOutMode.Mouse:
index = 1; break;
case GyroOutMode.MouseJoystick:
index = 2; break;
default: break;
}
return index;
}
set
{
GyroOutMode temp = GyroOutMode.Controls;
switch(value)
{
case 0: break;
case 1:
temp = GyroOutMode.Mouse; break;
case 2:
temp = GyroOutMode.MouseJoystick; break;
default: break;
}
Global.GyroOutputMode[device] = temp;
}
}
public OutContType ContType
{
get => Global.OutContType[device];
}
public int SASteeringWheelEmulationAxisIndex
{
get => (int)Global.SASteeringWheelEmulationAxis[device];
set => Global.SASteeringWheelEmulationAxis[device] = (SASteeringWheelEmulationAxisType)value;
}
private int[] saSteeringRangeValues =
new int[9] { 90, 180, 270, 360, 450, 720, 900, 1080, 1440 };
public int SASteeringWheelEmulationRangeIndex
{
get
{
int index = 360;
switch(Global.SASteeringWheelEmulationRange[device])
{
case 90:
index = 0; break;
case 180:
index = 1; break;
case 270:
index = 2; break;
case 360:
index = 3; break;
case 450:
index = 4; break;
case 720:
index = 5; break;
case 900:
index = 6; break;
case 1080:
index = 7; break;
case 1440:
index = 8; break;
default: break;
}
return index;
}
set
{
int temp = saSteeringRangeValues[value];
Global.SASteeringWheelEmulationRange[device] = temp;
}
}
public int SASteeringWheelEmulationRange
{
get => Global.SASteeringWheelEmulationRange[device];
set => Global.SASteeringWheelEmulationRange[device] = value;
}
public double LSDeadZone
{
get => Global.LSModInfo[device].deadZone / 127d;
set
{
double temp = Global.LSModInfo[device].deadZone / 127d;
if (temp == value) return;
Global.LSModInfo[device].deadZone = (int)(value * 127d);
LSDeadZoneChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler LSDeadZoneChanged;
public double RSDeadZone
{
get => Global.RSModInfo[device].deadZone / 127d;
set
{
double temp = Global.RSModInfo[device].deadZone / 127d;
if (temp == value) return;
Global.RSModInfo[device].deadZone = (int)(value * 127d);
RSDeadZoneChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler RSDeadZoneChanged;
public double LSMaxZone
{
get => Global.LSModInfo[device].maxZone / 100.0;
set => Global.LSModInfo[device].maxZone = (int)(value * 100.0);
}
public double RSMaxZone
{
get => Global.RSModInfo[device].maxZone / 100.0;
set => Global.RSModInfo[device].maxZone = (int)(value * 100.0);
}
public double LSAntiDeadZone
{
get => Global.LSModInfo[device].antiDeadZone / 100.0;
set => Global.LSModInfo[device].antiDeadZone = (int)(value * 100.0);
}
public double RSAntiDeadZone
{
get => Global.RSModInfo[device].antiDeadZone / 100.0;
set => Global.RSModInfo[device].antiDeadZone = (int)(value * 100.0);
}
public double LSMaxOutput
{
get => Global.LSModInfo[device].maxOutput / 100.0;
set => Global.LSModInfo[device].maxOutput = value * 100.0;
}
public double RSMaxOutput
{
get => Global.RSModInfo[device].maxOutput / 100.0;
set => Global.RSModInfo[device].maxOutput = value * 100.0;
}
public double LSSens
{
get => Global.LSSens[device];
set => Global.LSSens[device] = value;
}
public double RSSens
{
get => Global.RSSens[device];
set => Global.RSSens[device] = value;
}
public bool LSSquareStick
{
get => Global.SquStickInfo[device].lsMode;
set => Global.SquStickInfo[device].lsMode = value;
}
public bool RSSquareStick
{
get => Global.SquStickInfo[device].rsMode;
set => Global.SquStickInfo[device].rsMode = value;
}
public double LSSquareRoundness
{
get => Global.SquStickInfo[device].lsRoundness;
set => Global.SquStickInfo[device].lsRoundness = value;
}
public double RSSquareRoundness
{
get => Global.SquStickInfo[device].rsRoundness;
set => Global.SquStickInfo[device].rsRoundness = value;
}
public int LSOutputCurveIndex
{
get => Global.getLsOutCurveMode(device);
set
{
Global.setLsOutCurveMode(device, value);
LSCustomCurveSelectedChanged?.Invoke(this, EventArgs.Empty);
}
}
public int RSOutputCurveIndex
{
get => Global.getRsOutCurveMode(device);
set
{
Global.setRsOutCurveMode(device, value);
RSCustomCurveSelectedChanged?.Invoke(this, EventArgs.Empty);
}
}
public int LSCurve
{
get => Global.LSCurve[device];
set => Global.LSCurve[device] = value;
}
public int RSCurve
{
get => Global.RSCurve[device];
set => Global.RSCurve[device] = value;
}
public double LSRotation
{
get => Global.LSRotation[device] * 180.0 / Math.PI;
set => Global.LSRotation[device] = value * Math.PI / 180.0;
}
public double RSRotation
{
get => Global.RSRotation[device] * 180.0 / Math.PI;
set => Global.RSRotation[device] = value * Math.PI / 180.0;
}
public bool LSCustomCurveSelected
{
get => Global.getLsOutCurveMode(device) == 6;
}
public event EventHandler LSCustomCurveSelectedChanged;
public bool RSCustomCurveSelected
{
get => Global.getRsOutCurveMode(device) == 6;
}
public event EventHandler RSCustomCurveSelectedChanged;
public string LSCustomCurve
{
get => Global.lsOutBezierCurveObj[device].CustomDefinition;
set => Global.lsOutBezierCurveObj[device].InitBezierCurve(value, BezierCurve.AxisType.LSRS, true);
}
public string RSCustomCurve
{
get => Global.rsOutBezierCurveObj[device].CustomDefinition;
set => Global.rsOutBezierCurveObj[device].InitBezierCurve(value, BezierCurve.AxisType.LSRS, true);
}
public double L2DeadZone
{
get => Global.L2ModInfo[device].deadZone / 255.0;
set
{
double temp = Global.L2ModInfo[device].deadZone / 255.0;
if (temp == value) return;
Global.L2ModInfo[device].deadZone = (byte)(value * 255.0);
L2DeadZoneChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler L2DeadZoneChanged;
public double R2DeadZone
{
get => Global.R2ModInfo[device].deadZone / 255.0;
set
{
double temp = Global.R2ModInfo[device].deadZone / 255.0;
if (temp == value) return;
Global.R2ModInfo[device].deadZone = (byte)(value * 255.0);
R2DeadZoneChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler R2DeadZoneChanged;
public double L2MaxZone
{
get => Global.L2ModInfo[device].maxZone / 100.0;
set => Global.L2ModInfo[device].maxZone = (int)(value * 100.0);
}
public double R2MaxZone
{
get => Global.R2ModInfo[device].maxZone / 100.0;
set => Global.R2ModInfo[device].maxZone = (int)(value * 100.0);
}
public double L2AntiDeadZone
{
get => Global.L2ModInfo[device].antiDeadZone / 100.0;
set => Global.L2ModInfo[device].antiDeadZone = (int)(value * 100.0);
}
public double R2AntiDeadZone
{
get => Global.R2ModInfo[device].antiDeadZone / 100.0;
set => Global.R2ModInfo[device].antiDeadZone = (int)(value * 100.0);
}
public double L2MaxOutput
{
get => Global.L2ModInfo[device].maxOutput / 100.0;
set => Global.L2ModInfo[device].maxOutput = value * 100.0;
}
public double R2MaxOutput
{
get => Global.R2ModInfo[device].maxOutput / 100.0;
set => Global.R2ModInfo[device].maxOutput = value * 100.0;
}
public double L2Sens
{
get => Global.L2Sens[device];
set => Global.L2Sens[device] = value;
}
public double R2Sens
{
get => Global.R2Sens[device];
set => Global.R2Sens[device] = value;
}
public int L2OutputCurveIndex
{
get => Global.getL2OutCurveMode(device);
set
{
Global.setL2OutCurveMode(device, value);
L2CustomCurveSelectedChanged?.Invoke(this, EventArgs.Empty);
}
}
public int R2OutputCurveIndex
{
get => Global.getR2OutCurveMode(device);
set
{
Global.setR2OutCurveMode(device, value);
R2CustomCurveSelectedChanged?.Invoke(this, EventArgs.Empty);
}
}
public bool L2CustomCurveSelected
{
get => Global.getL2OutCurveMode(device) == 6;
}
public event EventHandler L2CustomCurveSelectedChanged;
public bool R2CustomCurveSelected
{
get => Global.getR2OutCurveMode(device) == 6;
}
public event EventHandler R2CustomCurveSelectedChanged;
public string L2CustomCurve
{
get => Global.l2OutBezierCurveObj[device].CustomDefinition;
set => Global.l2OutBezierCurveObj[device].InitBezierCurve(value, BezierCurve.AxisType.L2R2, true);
}
public string R2CustomCurve
{
get => Global.r2OutBezierCurveObj[device].CustomDefinition;
set => Global.r2OutBezierCurveObj[device].InitBezierCurve(value, BezierCurve.AxisType.L2R2, true);
}
public double SXDeadZone
{
get => Global.SXDeadzone[device];
set
{
double temp = Global.SXDeadzone[device];
if (temp == value) return;
Global.SXDeadzone[device] = value;
SXDeadZoneChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler SXDeadZoneChanged;
public double SZDeadZone
{
get => Global.SZDeadzone[device];
set
{
double temp = Global.SZDeadzone[device];
if (temp == value) return;
Global.SZDeadzone[device] = value;
SZDeadZoneChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler SZDeadZoneChanged;
public double SXMaxZone
{
get => Global.SXMaxzone[device];
set => Global.SXMaxzone[device] = value;
}
public double SZMaxZone
{
get => Global.SZMaxzone[device];
set => Global.SZMaxzone[device] = value;
}
public double SXAntiDeadZone
{
get => Global.SXAntiDeadzone[device];
set => Global.SXAntiDeadzone[device] = value;
}
public double SZAntiDeadZone
{
get => Global.SZAntiDeadzone[device];
set => Global.SZAntiDeadzone[device] = value;
}
public double SXSens
{
get => Global.SXSens[device];
set => Global.SXSens[device] = value;
}
public double SZSens
{
get => Global.SZSens[device];
set => Global.SZSens[device] = value;
}
public int SXOutputCurveIndex
{
get => Global.getSXOutCurveMode(device);
set
{
Global.setSXOutCurveMode(device, value);
SXCustomCurveSelectedChanged?.Invoke(this, EventArgs.Empty);
}
}
public int SZOutputCurveIndex
{
get => Global.getSZOutCurveMode(device);
set
{
Global.setSZOutCurveMode(device, value);
SZCustomCurveSelectedChanged?.Invoke(this, EventArgs.Empty);
}
}
public bool SXCustomCurveSelected
{
get => Global.getSXOutCurveMode(device) == 6;
}
public event EventHandler SXCustomCurveSelectedChanged;
public bool SZCustomCurveSelected
{
get => Global.getSZOutCurveMode(device) == 6;
}
public event EventHandler SZCustomCurveSelectedChanged;
public string SXCustomCurve
{
get => Global.sxOutBezierCurveObj[device].CustomDefinition;
set => Global.sxOutBezierCurveObj[device].InitBezierCurve(value, BezierCurve.AxisType.SA, true);
}
public string SZCustomCurve
{
get => Global.szOutBezierCurveObj[device].CustomDefinition;
set => Global.szOutBezierCurveObj[device].InitBezierCurve(value, BezierCurve.AxisType.SA, true);
}
public bool UseTouchMouse
{
get => !Global.UseTPforControls[device];
set
{
bool temp = !Global.UseTPforControls[device];
if (temp == value) return;
Global.UseTPforControls[device] = !value;
UseTouchMouseChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler UseTouchMouseChanged;
public bool UseTouchControls
{
get => Global.UseTPforControls[device];
set
{
bool temp = Global.UseTPforControls[device];
if (temp == value) return;
Global.UseTPforControls[device] = value;
UseTouchControlsChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler UseTouchControlsChanged;
public bool TouchSenExists
{
get => Global.TouchSensitivity[device] != 0;
set
{
Global.TouchSensitivity[device] = value ? (byte)100 : (byte)0;
TouchSenExistsChanged?.Invoke(this, EventArgs.Empty);
TouchSensChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler TouchSenExistsChanged;
public int TouchSens
{
get => Global.TouchSensitivity[device];
set
{
int temp = Global.TouchSensitivity[device];
if (temp == value) return;
Global.TouchSensitivity[device] = (byte)value;
if (value == 0) TouchSenExistsChanged?.Invoke(this, EventArgs.Empty);
TouchSensChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler TouchSensChanged;
public bool TouchScrollExists
{
get => Global.ScrollSensitivity[device] != 0;
set
{
Global.ScrollSensitivity[device] = value ? (byte)100 : (byte)0;
TouchScrollExistsChanged?.Invoke(this, EventArgs.Empty);
TouchScrollChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler TouchScrollExistsChanged;
public int TouchScroll
{
get => Global.ScrollSensitivity[device];
set
{
int temp = Global.ScrollSensitivity[device];
if (temp == value) return;
Global.ScrollSensitivity[device] = value;
if (value == 0) TouchScrollExistsChanged?.Invoke(this, EventArgs.Empty);
TouchScrollChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler TouchScrollChanged;
public bool TouchTapExists
{
get => Global.TapSensitivity[device] != 0;
set
{
Global.TapSensitivity[device] = value ? (byte)100 : (byte)0;
TouchTapExistsChanged?.Invoke(this, EventArgs.Empty);
TouchTapChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler TouchTapExistsChanged;
public int TouchTap
{
get => Global.TapSensitivity[device];
set
{
int temp = Global.TapSensitivity[device];
if (temp == value) return;
Global.TapSensitivity[device] = (byte)value;
if (value == 0) TouchTapExistsChanged?.Invoke(this, EventArgs.Empty);
TouchTapChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler TouchTapChanged;
public bool TouchDoubleTap
{
get => Global.DoubleTap[device];
set
{
Global.DoubleTap[device] = value;
}
}
public bool TouchJitter
{
get => Global.TouchpadJitterCompensation[device];
set => Global.TouchpadJitterCompensation[device] = value;
}
private int[] touchpadInvertToValue = new int[4] { 0, 2, 1, 3 };
public int TouchInvertIndex
{
get
{
int invert = Global.TouchpadInvert[device];
int index = Array.IndexOf(touchpadInvertToValue, invert);
return index;
}
set
{
int invert = touchpadInvertToValue[value];
Global.TouchpadInvert[device] = invert;
}
}
public bool LowerRightTouchRMB
{
get => Global.LowerRCOn[device];
set
{
Global.LowerRCOn[device] = value;
}
}
public bool StartTouchpadOff
{
get => Global.StartTouchpadOff[device];
set
{
Global.StartTouchpadOff[device] = value;
}
}
public bool TouchTrackball
{
get => Global.TrackballMode[device];
set => Global.TrackballMode[device] = value;
}
public double TouchTrackballFriction
{
get => Global.TrackballFriction[device];
set => Global.TrackballFriction[device] = value;
}
public bool GyroMouseTurns
{
get => Global.GyroMouseStickTriggerTurns[device];
set => Global.GyroMouseStickTriggerTurns[device] = value;
}
public int GyroSensitivity
{
get => Global.GyroSensitivity[device];
set => Global.GyroSensitivity[device] = value;
}
public int GyroVertScale
{
get => Global.GyroSensVerticalScale[device];
set => Global.GyroSensVerticalScale[device] = value;
}
public int GyroMouseEvalCondIndex
{
get => Global.getSATriggerCond(device) ? 0 : 1;
set => Global.SetSaTriggerCond(device, value == 0 ? "and" : "or");
}
public int GyroMouseXAxis
{
get => Global.GyroMouseHorizontalAxis[device];
set => Global.GyroMouseHorizontalAxis[device] = value;
}
public bool GyroMouseInvertX
{
get => (Global.GyroInvert[device] & 2) == 2;
set
{
if (value)
{
Global.GyroInvert[device] |= 2;
}
else
{
Global.GyroInvert[device] &= ~2;
}
}
}
public bool GyroMouseInvertY
{
get => (Global.GyroInvert[device] & 1) == 1;
set
{
if (value)
{
Global.GyroInvert[device] |= 1;
}
else
{
Global.GyroInvert[device] &= ~1;
}
}
}
public bool GyroMouseSmooth
{
get => Global.GyroSmoothing[device];
set => Global.GyroSmoothing[device] = value;
}
public double GyroMouseSmoothWeight
{
get => Global.GyroSmoothingWeight[device];
set => Global.GyroSmoothingWeight[device] = value;
}
public int GyroMouseDeadZone
{
get => Global.GyroMouseDeadZone[device];
set
{
Global.SetGyroMouseDeadZone(device, value, App.rootHub);
}
}
public bool GyroMouseToggle
{
get => Global.GyroMouseToggle[device];
set
{
Global.SetGyroMouseToggle(device, value, App.rootHub);
}
}
public bool GyroMouseStickTurns
{
get => Global.GyroMouseStickTriggerTurns[device];
set
{
Global.GyroMouseStickTriggerTurns[device] = value;
}
}
public bool GyroMouseStickToggle
{
get => Global.GyroMouseStickToggle[device];
set
{
Global.SetGyroMouseStickToggle(device, value, App.rootHub);
}
}
public int GyroMouseStickDeadZone
{
get => Global.GyroMouseStickInf[device].deadZone;
set => Global.GyroMouseStickInf[device].deadZone = value;
}
public int GyroMouseStickMaxZone
{
get => Global.GyroMouseStickInf[device].maxZone;
set => Global.GyroMouseStickInf[device].maxZone = value;
}
public double GyroMouseStickAntiDeadX
{
get => Global.GyroMouseStickInf[device].antiDeadX;
set => Global.GyroMouseStickInf[device].antiDeadX = value;
}
public double GyroMouseStickAntiDeadY
{
get => Global.GyroMouseStickInf[device].antiDeadY;
set => Global.GyroMouseStickInf[device].antiDeadY = value;
}
public int GyroMouseStickVertScale
{
get => Global.GyroMouseStickInf[device].vertScale;
set => Global.GyroMouseStickInf[device].vertScale = value;
}
public int GyroMouseStickEvalCondIndex
{
get => Global.GetSAMouseStickTriggerCond(device) ? 0 : 1;
set => Global.SetSaMouseStickTriggerCond(device, value == 0 ? "and" : "or");
}
public int GyroMouseStickXAxis
{
get => Global.GyroMouseStickHorizontalAxis[device];
set => Global.GyroMouseStickHorizontalAxis[device] = value;
}
public bool GyroMouseStickInvertX
{
get => (Global.GyroMouseStickInf[device].inverted & 2) == 2;
set
{
if (value)
{
Global.GyroMouseStickInf[device].inverted |= 2;
}
else
{
Global.GyroMouseStickInf[device].inverted &= 1;
}
}
}
public bool GyroMouseStickInvertY
{
get => (Global.GyroInvert[device] & 1) == 1;
set
{
if (value)
{
Global.GyroInvert[device] |= 1;
}
else
{
Global.GyroInvert[device] &= 2;
}
}
}
public bool GyroMouseStickSmooth
{
get => Global.GyroMouseStickInf[device].useSmoothing;
set => Global.GyroMouseStickInf[device].useSmoothing = value;
}
public double GyroMousetickSmoothWeight
{
get => Global.GyroMouseStickInf[device].smoothWeight;
set => Global.GyroMouseStickInf[device].smoothWeight = value;
}
private string touchDisInvertString = "None";
public string TouchDisInvertString
{
get => touchDisInvertString;
set
{
touchDisInvertString = value;
TouchDisInvertStringChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler TouchDisInvertStringChanged;
private string gyroMouseTrigDisplay = "Always On";
public string GyroMouseTrigDisplay
{
get => gyroMouseTrigDisplay;
set
{
gyroMouseTrigDisplay = value;
GyroMouseTrigDisplayChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler GyroMouseTrigDisplayChanged;
private string gyroMouseStickTrigDisplay = "Always On";
public string GyroMouseStickTrigDisplay
{
get => gyroMouseStickTrigDisplay;
set
{
gyroMouseStickTrigDisplay = value;
GyroMouseStickTrigDisplayChanged?.Invoke(this, EventArgs.Empty);
}
}
public event EventHandler GyroMouseStickTrigDisplayChanged;
private PresetMenuHelper presetMenuUtil;
public PresetMenuHelper PresetMenuUtil
{
get => presetMenuUtil;
}
public ProfileSettingsViewModel(int device)
{
this.device = device;
funcDevNum = device < 4 ? device : 0;
tempControllerIndex = ControllerTypeIndex;
Global.outDevTypeTemp[device] = OutContType.X360;
tempBtPollRate = Global.BTPollRate[device];
outputMouseSpeed = CalculateOutputMouseSpeed(ButtonMouseSensitivity);
ImageSourceConverter sourceConverter = new ImageSourceConverter();
ImageSource temp = sourceConverter.
ConvertFromString("pack://application:,,,/DS4Windows;component/Resources/rainbowCCrop.png") as ImageSource;
lightbarImgBrush.ImageSource = temp.Clone();
presetMenuUtil = new PresetMenuHelper(device);
MainColorChanged += ProfileSettingsViewModel_MainColorChanged;
MainColorRChanged += (sender, args) =>
{
MainColorRStringChanged?.Invoke(this, EventArgs.Empty);
MainColorStringChanged?.Invoke(this, EventArgs.Empty);
LightbarBrushChanged?.Invoke(this, EventArgs.Empty);
};
MainColorGChanged += (sender, args) =>
{
MainColorGStringChanged?.Invoke(this, EventArgs.Empty);
MainColorStringChanged?.Invoke(this, EventArgs.Empty);
LightbarBrushChanged?.Invoke(this, EventArgs.Empty);
};
MainColorBChanged += (sender, args) =>
{
MainColorBStringChanged?.Invoke(this, EventArgs.Empty);
MainColorStringChanged?.Invoke(this, EventArgs.Empty);
LightbarBrushChanged?.Invoke(this, EventArgs.Empty);
};
RainbowChanged += (sender, args) =>
{
LightbarBrushChanged?.Invoke(this, EventArgs.Empty);
};
ButtonMouseSensitivityChanged += (sender, args) =>
{
OutputMouseSpeed = CalculateOutputMouseSpeed(ButtonMouseSensitivity);
};
LightbarModeIndexChanged += (sender, args) =>
{
DS4WinLightVisibleChanged?.Invoke(this, EventArgs.Empty);
};
}
private void ProfileSettingsViewModel_MainColorChanged(object sender, EventArgs e)
{
MainColorStringChanged?.Invoke(this, EventArgs.Empty);
MainColorRChanged?.Invoke(this, EventArgs.Empty);
MainColorGChanged?.Invoke(this, EventArgs.Empty);
MainColorBChanged?.Invoke(this, EventArgs.Empty);
LightbarBrushChanged?.Invoke(this, EventArgs.Empty);
}
public void UpdateFlashColor(System.Windows.Media.Color color)
{
Global.LightbarSettingsInfo[device].ds4winSettings.m_FlashLed = new DS4Color() { red = color.R, green = color.G, blue = color.B };
FlashColorChanged?.Invoke(this, EventArgs.Empty);
}
public void UpdateMainColor(System.Windows.Media.Color color)
{
Global.LightbarSettingsInfo[device].ds4winSettings.m_Led = new DS4Color() { red = color.R, green = color.G, blue = color.B };
MainColorChanged?.Invoke(this, EventArgs.Empty);
}
public void UpdateLowColor(System.Windows.Media.Color color)
{
ref DS4Color lowColor = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_LowLed;
lowColor.red = color.R;
lowColor.green = color.G;
lowColor.blue = color.B;
LowColorChanged?.Invoke(this, EventArgs.Empty);
LowColorRChanged?.Invoke(this, EventArgs.Empty);
LowColorGChanged?.Invoke(this, EventArgs.Empty);
LowColorBChanged?.Invoke(this, EventArgs.Empty);
LowColorRStringChanged?.Invoke(this, EventArgs.Empty);
LowColorGStringChanged?.Invoke(this, EventArgs.Empty);
LowColorBStringChanged?.Invoke(this, EventArgs.Empty);
}
public void UpdateForcedColor(System.Windows.Media.Color color)
{
if (device < 4)
{
DS4Color dcolor = new DS4Color() { red = color.R, green = color.G, blue = color.B };
DS4LightBar.forcedColor[device] = dcolor;
DS4LightBar.forcedFlash[device] = 0;
DS4LightBar.forcelight[device] = true;
}
}
public void StartForcedColor(System.Windows.Media.Color color)
{
if (device < 4)
{
DS4Color dcolor = new DS4Color() { red = color.R, green = color.G, blue = color.B };
DS4LightBar.forcedColor[device] = dcolor;
DS4LightBar.forcedFlash[device] = 0;
DS4LightBar.forcelight[device] = true;
}
}
public void EndForcedColor()
{
if (device < 4)
{
DS4LightBar.forcedColor[device] = new DS4Color(0, 0, 0);
DS4LightBar.forcedFlash[device] = 0;
DS4LightBar.forcelight[device] = false;
}
}
public void UpdateChargingColor(System.Windows.Media.Color color)
{
ref DS4Color chargeColor = ref Global.LightbarSettingsInfo[device].ds4winSettings.m_ChargingLed;
chargeColor.red = color.R;
chargeColor.green = color.G;
chargeColor.blue = color.B;
ChargingColorChanged?.Invoke(this, EventArgs.Empty);
}
public void UpdateLaunchProgram(string path)
{
Global.LaunchProgram[device] = path;
LaunchProgramExistsChanged?.Invoke(this, EventArgs.Empty);
LaunchProgramChanged?.Invoke(this, EventArgs.Empty);
LaunchProgramNameChanged?.Invoke(this, EventArgs.Empty);
LaunchProgramIconChanged?.Invoke(this, EventArgs.Empty);
}
public void ResetLauchProgram()
{
Global.LaunchProgram[device] = string.Empty;
LaunchProgramExistsChanged?.Invoke(this, EventArgs.Empty);
LaunchProgramChanged?.Invoke(this, EventArgs.Empty);
LaunchProgramNameChanged?.Invoke(this, EventArgs.Empty);
LaunchProgramIconChanged?.Invoke(this, EventArgs.Empty);
}
public void UpdateTouchDisInvert(ContextMenu menu)
{
int index = 0;
List<int> triggerList = new List<int>();
List<string> triggerName = new List<string>();
foreach(MenuItem item in menu.Items)
{
if (item.IsChecked)
{
triggerList.Add(index);
triggerName.Add(item.Header.ToString());
}
index++;
}
if (triggerList.Count == 0)
{
triggerList.Add(-1);
triggerName.Add("None");
}
Global.TouchDisInvertTriggers[device] = triggerList.ToArray();
TouchDisInvertString = string.Join(", ", triggerName.ToArray());
}
public void PopulateTouchDisInver(ContextMenu menu)
{
int[] triggers = Global.TouchDisInvertTriggers[device];
int itemCount = menu.Items.Count;
List<string> triggerName = new List<string>();
foreach (int trigid in triggers)
{
if (trigid >= 0 && trigid < itemCount - 1)
{
MenuItem current = menu.Items[trigid] as MenuItem;
current.IsChecked = true;
triggerName.Add(current.Header.ToString());
}
else if (trigid == -1)
{
triggerName.Add("None");
break;
}
}
if (triggerName.Count == 0)
{
triggerName.Add("None");
}
TouchDisInvertString = string.Join(", ", triggerName.ToArray());
}
public void UpdateGyroMouseTrig(ContextMenu menu, bool alwaysOnChecked)
{
int index = 0;
List<int> triggerList = new List<int>();
List<string> triggerName = new List<string>();
int itemCount = menu.Items.Count;
MenuItem alwaysOnItem = menu.Items[itemCount - 1] as MenuItem;
if (alwaysOnChecked)
{
for (int i = 0; i < itemCount - 1; i++)
{
MenuItem item = menu.Items[i] as MenuItem;
item.IsChecked = false;
}
}
else
{
alwaysOnItem.IsChecked = false;
foreach (MenuItem item in menu.Items)
{
if (item.IsChecked)
{
triggerList.Add(index);
triggerName.Add(item.Header.ToString());
}
index++;
}
}
if (triggerList.Count == 0)
{
triggerList.Add(-1);
triggerName.Add("Always On");
alwaysOnItem.IsChecked = true;
}
Global.SATriggers[device] = string.Join(",", triggerList.ToArray());
GyroMouseTrigDisplay = string.Join(", ", triggerName.ToArray());
}
public void PopulateGyroMouseTrig(ContextMenu menu)
{
string[] triggers = Global.SATriggers[device].Split(',');
int itemCount = menu.Items.Count;
List<string> triggerName = new List<string>();
foreach (string trig in triggers)
{
bool valid = int.TryParse(trig, out int trigid);
if (valid && trigid >= 0 && trigid < itemCount - 1)
{
MenuItem current = menu.Items[trigid] as MenuItem;
current.IsChecked = true;
triggerName.Add(current.Header.ToString());
}
else if (valid && trigid == -1)
{
MenuItem current = menu.Items[itemCount - 1] as MenuItem;
current.IsChecked = true;
triggerName.Add("Always On");
break;
}
}
if (triggerName.Count == 0)
{
MenuItem current = menu.Items[itemCount - 1] as MenuItem;
current.IsChecked = true;
triggerName.Add("Always On");
}
GyroMouseTrigDisplay = string.Join(", ", triggerName.ToArray());
}
public void UpdateGyroMouseStickTrig(ContextMenu menu, bool alwaysOnChecked)
{
int index = 0;
List<int> triggerList = new List<int>();
List<string> triggerName = new List<string>();
int itemCount = menu.Items.Count;
MenuItem alwaysOnItem = menu.Items[itemCount - 1] as MenuItem;
if (alwaysOnChecked)
{
for (int i = 0; i < itemCount - 1; i++)
{
MenuItem item = menu.Items[i] as MenuItem;
item.IsChecked = false;
}
}
else
{
alwaysOnItem.IsChecked = false;
foreach (MenuItem item in menu.Items)
{
if (item.IsChecked)
{
triggerList.Add(index);
triggerName.Add(item.Header.ToString());
}
index++;
}
}
if (triggerList.Count == 0)
{
triggerList.Add(-1);
triggerName.Add("Always On");
alwaysOnItem.IsChecked = true;
}
Global.SAMousestickTriggers[device] = string.Join(",", triggerList.ToArray());
GyroMouseStickTrigDisplay = string.Join(", ", triggerName.ToArray());
}
public void PopulateGyroMouseStickTrig(ContextMenu menu)
{
string[] triggers = Global.SAMousestickTriggers[device].Split(',');
int itemCount = menu.Items.Count;
List<string> triggerName = new List<string>();
foreach (string trig in triggers)
{
bool valid = int.TryParse(trig, out int trigid);
if (valid && trigid >= 0 && trigid < itemCount - 1)
{
MenuItem current = menu.Items[trigid] as MenuItem;
current.IsChecked = true;
triggerName.Add(current.Header.ToString());
}
else if (valid && trigid == -1)
{
MenuItem current = menu.Items[itemCount-1] as MenuItem;
current.IsChecked = true;
triggerName.Add("Always On");
break;
}
}
if (triggerName.Count == 0)
{
MenuItem current = menu.Items[itemCount - 1] as MenuItem;
current.IsChecked = true;
triggerName.Add("Always On");
}
GyroMouseStickTrigDisplay = string.Join(", ", triggerName.ToArray());
}
private int CalculateOutputMouseSpeed(int mouseSpeed)
{
int result = mouseSpeed * Mapping.MOUSESPEEDFACTOR;
return result;
}
public void LaunchCurveEditor(string customDefinition)
{
// Custom curve editor web link clicked. Open the bezier curve editor web app usign the default browser app and pass on current custom definition as a query string parameter.
// The Process.Start command using HTML page doesn't support query parameters, so if there is a custom curve definition then lookup the default browser executable name from a sysreg.
string defaultBrowserCmd = String.Empty;
try
{
if (!String.IsNullOrEmpty(customDefinition))
{
string progId = String.Empty;
using (RegistryKey userChoiceKey = Registry.CurrentUser.OpenSubKey("Software\\Microsoft\\Windows\\Shell\\Associations\\UrlAssociations\\http\\UserChoice"))
{
progId = userChoiceKey?.GetValue("Progid")?.ToString();
}
if (!String.IsNullOrEmpty(progId))
{
using (RegistryKey browserPathCmdKey = Registry.ClassesRoot.OpenSubKey($"{progId}\\shell\\open\\command"))
{
defaultBrowserCmd = browserPathCmdKey?.GetValue(null).ToString();
}
if (!String.IsNullOrEmpty(defaultBrowserCmd))
{
int iStartPos = (defaultBrowserCmd[0] == '"' ? 1 : 0);
defaultBrowserCmd = defaultBrowserCmd.Substring(iStartPos, defaultBrowserCmd.LastIndexOf(".exe") + 4 - iStartPos);
if (Path.GetFileName(defaultBrowserCmd).ToLower() == "launchwinapp.exe")
defaultBrowserCmd = String.Empty;
}
// Fallback to IE executable if the default browser HTML shell association is for some reason missing or is not set
if (String.IsNullOrEmpty(defaultBrowserCmd))
defaultBrowserCmd = "C:\\Program Files\\Internet Explorer\\iexplore.exe";
if (!File.Exists(defaultBrowserCmd))
defaultBrowserCmd = String.Empty;
}
}
// Launch custom bezier editor webapp using a default browser executable command or via a default shell command. The default shell exeution doesn't support query parameters.
if (!String.IsNullOrEmpty(defaultBrowserCmd))
System.Diagnostics.Process.Start(defaultBrowserCmd, $"\"file:///{Global.exedirpath}\\BezierCurveEditor\\index.html?curve={customDefinition.Replace(" ", "")}\"");
else
System.Diagnostics.Process.Start($"{Global.exedirpath}\\BezierCurveEditor\\index.html");
}
catch (Exception ex)
{
AppLogger.LogToGui($"ERROR. Failed to open {Global.exedirpath}\\BezierCurveEditor\\index.html web app. Check that the web file exits or launch it outside of DS4Windows application. {ex.Message}", true);
}
}
public void UpdateLateProperties()
{
tempControllerIndex = ControllerTypeIndex;
Global.outDevTypeTemp[device] = Global.OutContType[device];
tempBtPollRate = Global.BTPollRate[device];
outputMouseSpeed = CalculateOutputMouseSpeed(ButtonMouseSensitivity);
}
}
public class PresetMenuHelper
{
public enum ControlSelection : uint
{
None,
LeftStick,
RightStick,
DPad,
}
private Dictionary<ControlSelection, string> presetInputLabelDict =
new Dictionary<ControlSelection, string>()
{
[ControlSelection.None] = "None",
[ControlSelection.DPad] = "DPad",
[ControlSelection.LeftStick] = "Left Stick",
[ControlSelection.RightStick] = "Right Stick",
};
public Dictionary<ControlSelection, string> PresetInputLabelDict
{
get => presetInputLabelDict;
}
public string PresetInputLabel
{
get => presetInputLabelDict[highlightControl];
}
private ControlSelection highlightControl = ControlSelection.None;
public ControlSelection HighlightControl {
get => highlightControl;
}
private int deviceNum;
public PresetMenuHelper(int device)
{
deviceNum = device;
}
public ControlSelection PresetTagIndex(DS4Controls control)
{
ControlSelection controlInput = ControlSelection.None;
switch (control)
{
case DS4Controls.DpadUp:
case DS4Controls.DpadDown:
case DS4Controls.DpadLeft:
case DS4Controls.DpadRight:
controlInput = ControlSelection.DPad;
break;
case DS4Controls.LXNeg:
case DS4Controls.LXPos:
case DS4Controls.LYNeg:
case DS4Controls.LYPos:
case DS4Controls.L3:
controlInput = ControlSelection.LeftStick;
break;
case DS4Controls.RXNeg:
case DS4Controls.RXPos:
case DS4Controls.RYNeg:
case DS4Controls.RYPos:
case DS4Controls.R3:
controlInput = ControlSelection.RightStick;
break;
default:
break;
}
return controlInput;
}
public void SetHighlightControl(DS4Controls control)
{
ControlSelection controlInput = PresetTagIndex(control);
highlightControl = controlInput;
}
public List<DS4Controls> ModifySettingWithPreset(int baseTag, int subTag)
{
List<object> actionBtns = new List<object>(5);
List<DS4Controls> inputControls = new List<DS4Controls>(5);
if (baseTag == 0)
{
actionBtns.AddRange(new object[5]
{
null, null, null, null, null,
});
}
else if (baseTag == 1)
{
switch(subTag)
{
case 0:
actionBtns.AddRange(new object[4]
{
X360Controls.DpadUp, X360Controls.DpadDown,
X360Controls.DpadLeft, X360Controls.DpadRight,
});
break;
case 1:
actionBtns.AddRange(new object[4]
{
X360Controls.DpadDown, X360Controls.DpadUp,
X360Controls.DpadRight, X360Controls.DpadLeft,
});
break;
case 2:
actionBtns.AddRange(new object[4]
{
X360Controls.DpadUp, X360Controls.DpadDown,
X360Controls.DpadRight, X360Controls.DpadLeft,
});
break;
case 3:
actionBtns.AddRange(new object[4]
{
X360Controls.DpadDown, X360Controls.DpadUp,
X360Controls.DpadLeft, X360Controls.DpadRight,
});
break;
default:
break;
}
}
else if (baseTag == 2)
{
switch (subTag)
{
case 0:
actionBtns.AddRange(new object[5]
{
X360Controls.LYNeg, X360Controls.LYPos,
X360Controls.LXNeg, X360Controls.LXPos, X360Controls.LS,
});
break;
case 1:
actionBtns.AddRange(new object[5]
{
X360Controls.LYPos, X360Controls.LYNeg,
X360Controls.LXPos, X360Controls.LXNeg, X360Controls.LS,
});
break;
case 2:
actionBtns.AddRange(new object[5]
{
X360Controls.LYNeg, X360Controls.LYPos,
X360Controls.LXPos, X360Controls.LXNeg, X360Controls.LS,
});
break;
case 3:
actionBtns.AddRange(new object[5]
{
X360Controls.LYPos, X360Controls.LYNeg,
X360Controls.LXNeg, X360Controls.LXPos, X360Controls.LS,
});
break;
default:
break;
}
}
else if (baseTag == 3)
{
switch (subTag)
{
case 0:
actionBtns.AddRange(new object[5]
{
X360Controls.RYNeg, X360Controls.RYPos,
X360Controls.RXNeg, X360Controls.RXPos, X360Controls.RS,
});
break;
case 1:
actionBtns.AddRange(new object[5]
{
X360Controls.RYPos, X360Controls.RYNeg,
X360Controls.RXPos, X360Controls.RXNeg, X360Controls.RS,
});
break;
case 2:
actionBtns.AddRange(new object[5]
{
X360Controls.RYNeg, X360Controls.RYPos,
X360Controls.RXPos, X360Controls.RXNeg, X360Controls.RS,
});
break;
case 3:
actionBtns.AddRange(new object[5]
{
X360Controls.RYPos, X360Controls.RYNeg,
X360Controls.RXNeg, X360Controls.RXPos, X360Controls.RS,
});
break;
default:
break;
}
}
else if (baseTag == 4)
{
actionBtns.AddRange(new object[4]
{
X360Controls.Y, X360Controls.A, X360Controls.X, X360Controls.B,
});
}
else if (baseTag == 5)
{
actionBtns.AddRange(new object[4]
{
KeyInterop.VirtualKeyFromKey(Key.W), KeyInterop.VirtualKeyFromKey(Key.S),
KeyInterop.VirtualKeyFromKey(Key.A), KeyInterop.VirtualKeyFromKey(Key.D),
});
}
else if (baseTag == 6)
{
actionBtns.AddRange(new object[4]
{
KeyInterop.VirtualKeyFromKey(Key.Up), KeyInterop.VirtualKeyFromKey(Key.Down),
KeyInterop.VirtualKeyFromKey(Key.Left), KeyInterop.VirtualKeyFromKey(Key.Right),
});
}
else if (baseTag == 7)
{
switch (subTag)
{
case 0:
actionBtns.AddRange(new object[4]
{
X360Controls.MouseUp, X360Controls.MouseDown,
X360Controls.MouseLeft, X360Controls.MouseRight,
});
break;
case 1:
actionBtns.AddRange(new object[4]
{
X360Controls.MouseDown, X360Controls.MouseUp,
X360Controls.MouseRight, X360Controls.MouseLeft,
});
break;
case 2:
actionBtns.AddRange(new object[4]
{
X360Controls.MouseUp, X360Controls.MouseDown,
X360Controls.MouseRight, X360Controls.MouseLeft,
});
break;
case 3:
actionBtns.AddRange(new object[4]
{
X360Controls.MouseDown, X360Controls.MouseUp,
X360Controls.MouseLeft, X360Controls.MouseRight,
});
break;
default:
break;
}
}
switch (highlightControl)
{
case ControlSelection.DPad:
inputControls.AddRange(new DS4Controls[4]
{
DS4Controls.DpadUp, DS4Controls.DpadDown,
DS4Controls.DpadLeft, DS4Controls.DpadRight,
});
break;
case ControlSelection.LeftStick:
inputControls.AddRange(new DS4Controls[5]
{
DS4Controls.LYNeg, DS4Controls.LYPos,
DS4Controls.LXNeg, DS4Controls.LXPos, DS4Controls.L3,
});
break;
case ControlSelection.RightStick:
inputControls.AddRange(new DS4Controls[5]
{
DS4Controls.RYNeg, DS4Controls.RYPos,
DS4Controls.RXNeg, DS4Controls.RXPos, DS4Controls.R3,
});
break;
case ControlSelection.None:
default:
break;
}
int idx = 0;
foreach(DS4Controls dsControl in inputControls)
{
DS4ControlSettings setting = Global.getDS4CSetting(deviceNum, dsControl);
setting.Reset();
if (idx < actionBtns.Count && actionBtns[idx] != null)
{
object outAct = actionBtns[idx];
X360Controls defaultControl = Global.defaultButtonMapping[(int)dsControl];
if (!(outAct is X360Controls) || defaultControl != (X360Controls)outAct)
{
setting.UpdateSettings(false, outAct, null, DS4KeyType.None);
}
}
idx++;
}
return inputControls;
}
}
}