cemu-DS4Windows/DS4Windows/DS4Control/ScpUtil.cs
Travis Nickles 902cdcf078 Fixed default button mapping display for TouchUpper and TouchMulti.
Indexes got flipped. Related to issue #1025
2020-01-09 03:18:42 -06:00

5145 lines
243 KiB
C#

using System;
using System.Collections.Generic;
using System.Linq;
using System.IO;
using System.Reflection;
using System.Xml;
using System.Drawing;
using System.Security.Principal;
using System.Threading;
using System.Threading.Tasks;
using System.Globalization;
using System.Diagnostics;
namespace DS4Windows
{
[Flags]
public enum DS4KeyType : byte { None = 0, ScanCode = 1, Toggle = 2, Unbound = 4, Macro = 8, HoldMacro = 16, RepeatMacro = 32 }; // Increment by exponents of 2*, starting at 2^0
public enum Ds3PadId : byte { None = 0xFF, One = 0x00, Two = 0x01, Three = 0x02, Four = 0x03, All = 0x04 };
public enum DS4Controls : byte { None, LXNeg, LXPos, LYNeg, LYPos, RXNeg, RXPos, RYNeg, RYPos, L1, L2, L3, R1, R2, R3, Square, Triangle, Circle, Cross, DpadUp, DpadRight, DpadDown, DpadLeft, PS, TouchLeft, TouchUpper, TouchMulti, TouchRight, Share, Options, GyroXPos, GyroXNeg, GyroZPos, GyroZNeg, SwipeLeft, SwipeRight, SwipeUp, SwipeDown };
public enum X360Controls : byte { None, LXNeg, LXPos, LYNeg, LYPos, RXNeg, RXPos, RYNeg, RYPos, LB, LT, LS, RB, RT, RS, X, Y, B, A, DpadUp, DpadRight, DpadDown, DpadLeft, Guide, Back, Start, LeftMouse, RightMouse, MiddleMouse, FourthMouse, FifthMouse, WUP, WDOWN, MouseUp, MouseDown, MouseLeft, MouseRight, Unbound };
public enum SASteeringWheelEmulationAxisType: byte { None = 0, LX, LY, RX, RY, L2R2, VJoy1X, VJoy1Y, VJoy1Z, VJoy2X, VJoy2Y, VJoy2Z };
public enum OutContType : uint { None = 0, X360, DS4 }
public enum GyroOutMode : uint
{
None,
Controls,
Mouse,
MouseJoystick,
}
public class DS4ControlSettings
{
public DS4Controls control;
public string extras = null;
public DS4KeyType keyType = DS4KeyType.None;
public enum ActionType : byte { Default, Key, Button, Macro };
public ActionType actionType = ActionType.Default;
public object action = null;
public ActionType shiftActionType = ActionType.Default;
public object shiftAction = null;
public int shiftTrigger = 0;
public string shiftExtras = null;
public DS4KeyType shiftKeyType = DS4KeyType.None;
public DS4ControlSettings(DS4Controls ctrl)
{
control = ctrl;
}
public void Reset()
{
extras = null;
keyType = DS4KeyType.None;
actionType = ActionType.Default;
action = null;
shiftActionType = ActionType.Default;
shiftAction = null;
shiftTrigger = 0;
shiftExtras = null;
shiftKeyType = DS4KeyType.None;
}
internal void UpdateSettings(bool shift, object act, string exts, DS4KeyType kt, int trigger = 0)
{
if (!shift)
{
if (act is int || act is ushort)
actionType = ActionType.Key;
else if (act is string || act is X360Controls)
actionType = ActionType.Button;
else if (act is int[])
actionType = ActionType.Macro;
else
actionType = ActionType.Default;
action = act;
extras = exts;
keyType = kt;
}
else
{
if (act is int || act is ushort)
shiftActionType = ActionType.Key;
else if (act is string || act is X360Controls)
shiftActionType = ActionType.Button;
else if (act is int[])
shiftActionType = ActionType.Macro;
else
shiftActionType = ActionType.Default;
shiftAction = act;
shiftExtras = exts;
shiftKeyType = kt;
shiftTrigger = trigger;
}
}
}
public class DebugEventArgs : EventArgs
{
protected DateTime m_Time = DateTime.Now;
protected string m_Data = string.Empty;
protected bool warning = false;
public DebugEventArgs(string Data, bool warn)
{
m_Data = Data;
warning = warn;
}
public DateTime Time => m_Time;
public string Data => m_Data;
public bool Warning => warning;
}
public class MappingDoneEventArgs : EventArgs
{
protected int deviceNum = -1;
public MappingDoneEventArgs(int DeviceID)
{
deviceNum = DeviceID;
}
public int DeviceID => deviceNum;
}
public class ReportEventArgs : EventArgs
{
protected Ds3PadId m_Pad = Ds3PadId.None;
protected byte[] m_Report = new byte[64];
public ReportEventArgs()
{
}
public ReportEventArgs(Ds3PadId Pad)
{
m_Pad = Pad;
}
public Ds3PadId Pad
{
get { return m_Pad; }
set { m_Pad = value; }
}
public Byte[] Report
{
get { return m_Report; }
}
}
public class BatteryReportArgs : EventArgs
{
private int index;
private int level;
private bool charging;
public BatteryReportArgs(int index, int level, bool charging)
{
this.index = index;
this.level = level;
this.charging = charging;
}
public int getIndex()
{
return index;
}
public int getLevel()
{
return level;
}
public bool isCharging()
{
return charging;
}
}
public class ControllerRemovedArgs : EventArgs
{
private int index;
public ControllerRemovedArgs(int index)
{
this.index = index;
}
public int getIndex()
{
return this.index;
}
}
public class DeviceStatusChangeEventArgs : EventArgs
{
private int index;
public DeviceStatusChangeEventArgs(int index)
{
this.index = index;
}
public int getIndex()
{
return index;
}
}
public class SerialChangeArgs : EventArgs
{
private int index;
private string serial;
public SerialChangeArgs(int index, string serial)
{
this.index = index;
this.serial = serial;
}
public int getIndex()
{
return index;
}
public string getSerial()
{
return serial;
}
}
public class Global
{
protected static BackingStore m_Config = new BackingStore();
protected static Int32 m_IdleTimeout = 600000;
public static string exelocation = Assembly.GetExecutingAssembly().Location;
public static string exedirpath = Directory.GetParent(exelocation).FullName;
public static FileVersionInfo fileVersion = FileVersionInfo.GetVersionInfo(exelocation);
public static string exeversion = fileVersion.ProductVersion;
public static string appdatapath;
public static bool firstRun = false;
public static bool multisavespots = false;
public static string appDataPpath = Environment.GetFolderPath(Environment.SpecialFolder.ApplicationData) + "\\DS4Windows";
public static bool runHotPlug = false;
public static string[] tempprofilename = new string[5] { string.Empty, string.Empty, string.Empty, string.Empty, string.Empty };
public static bool[] useTempProfile = new bool[5] { false, false, false, false, false };
public static bool[] tempprofileDistance = new bool[5] { false, false, false, false, false };
public static bool[] useDInputOnly = new bool[5] { true, true, true, true, true };
public static bool[] linkedProfileCheck = new bool[4] { false, false, false, false };
public static bool[] touchpadActive = new bool[5] { true, true, true, true, true };
// Used to hold device type desired from Profile Editor
public static OutContType[] outDevTypeTemp = new OutContType[5] { DS4Windows.OutContType.X360, DS4Windows.OutContType.X360,
DS4Windows.OutContType.X360, DS4Windows.OutContType.X360,
DS4Windows.OutContType.X360 };
// Used to hold the currently active controller output type in use for a slot
public static OutContType[] activeOutDevType = new OutContType[5] { DS4Windows.OutContType.None, DS4Windows.OutContType.None,
DS4Windows.OutContType.None, DS4Windows.OutContType.None,
DS4Windows.OutContType.None };
public static bool vigemInstalled = IsViGEmBusInstalled();
public static string vigembusVersion = ViGEmBusVersion();
public static X360Controls[] defaultButtonMapping = { X360Controls.None, X360Controls.LXNeg, X360Controls.LXPos,
X360Controls.LYNeg, X360Controls.LYPos, X360Controls.RXNeg, X360Controls.RXPos, X360Controls.RYNeg, X360Controls.RYPos,
X360Controls.LB, X360Controls.LT, X360Controls.LS, X360Controls.RB, X360Controls.RT, X360Controls.RS, X360Controls.X,
X360Controls.Y, X360Controls.B, X360Controls.A, X360Controls.DpadUp, X360Controls.DpadRight, X360Controls.DpadDown,
X360Controls.DpadLeft, X360Controls.Guide, X360Controls.LeftMouse, X360Controls.MiddleMouse, X360Controls.RightMouse, X360Controls.LeftMouse,
X360Controls.Back, X360Controls.Start, X360Controls.None, X360Controls.None, X360Controls.None, X360Controls.None,
X360Controls.None, X360Controls.None, X360Controls.None, X360Controls.None
};
// Create mapping array at runtime
public static DS4Controls[] reverseX360ButtonMapping = new Func<DS4Controls[]>(() =>
{
DS4Controls[] temp = new DS4Controls[defaultButtonMapping.Length];
for (int i = 0, arlen = defaultButtonMapping.Length; i < arlen; i++)
{
X360Controls mapping = defaultButtonMapping[i];
if (mapping != X360Controls.None)
{
temp[(int)mapping] = (DS4Controls)i;
}
}
return temp;
})();
public static Dictionary<X360Controls, string> xboxDefaultNames = new Dictionary<X360Controls, string>()
{
[X360Controls.LXNeg] = "Left X-Axis-",
[X360Controls.LXPos] = "Left X-Axis+",
[X360Controls.LYNeg] = "Left Y-Axis-",
[X360Controls.LYPos] = "Left Y-Axis+",
[X360Controls.RXNeg] = "Right X-Axis-",
[X360Controls.RXPos] = "Right X-Axis+",
[X360Controls.RYNeg] = "Right Y-Axis-",
[X360Controls.RYPos] = "Right Y-Axis+",
[X360Controls.LB] = "Left Bumper",
[X360Controls.LT] = "Left Trigger",
[X360Controls.LS] = "Left Stick",
[X360Controls.RB] = "Right Bumper",
[X360Controls.RT] = "Right Trigger",
[X360Controls.RS] = "Right Stick",
[X360Controls.X] = "X Button",
[X360Controls.Y] = "Y Button",
[X360Controls.B] = "B Button",
[X360Controls.A] = "A Button",
[X360Controls.DpadUp] = "Up Button",
[X360Controls.DpadRight] = "Right Button",
[X360Controls.DpadDown] = "Down Button",
[X360Controls.DpadLeft] = "Left Button",
[X360Controls.Guide] = "Guide",
[X360Controls.Back] = "Back",
[X360Controls.Start] = "Start",
[X360Controls.LeftMouse] = "Left Mouse Button",
[X360Controls.RightMouse] = "Right Mouse Button",
[X360Controls.MiddleMouse] = "Middle Mouse Button",
[X360Controls.FourthMouse] = "4th Mouse Button",
[X360Controls.FifthMouse] = "5th Mouse Button",
[X360Controls.WUP] = "Mouse Wheel Up",
[X360Controls.WDOWN] = "Mouse Wheel Down",
[X360Controls.MouseUp] = "Mouse Up",
[X360Controls.MouseDown] = "Mouse Down",
[X360Controls.MouseLeft] = "Mouse Left",
[X360Controls.MouseRight] = "Mouse Right",
[X360Controls.Unbound] = "Unbound",
};
public static Dictionary<X360Controls, string> ds4DefaultNames = new Dictionary<X360Controls, string>()
{
[X360Controls.LXNeg] = "Left X-Axis-",
[X360Controls.LXPos] = "Left X-Axis+",
[X360Controls.LYNeg] = "Left Y-Axis-",
[X360Controls.LYPos] = "Left Y-Axis+",
[X360Controls.RXNeg] = "Right X-Axis-",
[X360Controls.RXPos] = "Right X-Axis+",
[X360Controls.RYNeg] = "Right Y-Axis-",
[X360Controls.RYPos] = "Right Y-Axis+",
[X360Controls.LB] = "L1",
[X360Controls.LT] = "L2",
[X360Controls.LS] = "L3",
[X360Controls.RB] = "R1",
[X360Controls.RT] = "R2",
[X360Controls.RS] = "R3",
[X360Controls.X] = "Square",
[X360Controls.Y] = "Triangle",
[X360Controls.B] = "Circle",
[X360Controls.A] = "Cross",
[X360Controls.DpadUp] = "Dpad Up",
[X360Controls.DpadRight] = "Dpad Right",
[X360Controls.DpadDown] = "Dpad Down",
[X360Controls.DpadLeft] = "Dpad Left",
[X360Controls.Guide] = "PS",
[X360Controls.Back] = "Share",
[X360Controls.Start] = "Options",
[X360Controls.LeftMouse] = "Left Mouse Button",
[X360Controls.RightMouse] = "Right Mouse Button",
[X360Controls.MiddleMouse] = "Middle Mouse Button",
[X360Controls.FourthMouse] = "4th Mouse Button",
[X360Controls.FifthMouse] = "5th Mouse Button",
[X360Controls.WUP] = "Mouse Wheel Up",
[X360Controls.WDOWN] = "Mouse Wheel Down",
[X360Controls.MouseUp] = "Mouse Up",
[X360Controls.MouseDown] = "Mouse Down",
[X360Controls.MouseLeft] = "Mouse Left",
[X360Controls.MouseRight] = "Mouse Right",
[X360Controls.Unbound] = "Unbound",
};
public static string getX360ControlString(X360Controls key, OutContType conType)
{
string result = string.Empty;
if (conType == DS4Windows.OutContType.X360)
{
xboxDefaultNames.TryGetValue(key, out result);
}
else if (conType == DS4Windows.OutContType.DS4)
{
ds4DefaultNames.TryGetValue(key, out result);
}
return result;
}
public static Dictionary<DS4Controls, string> ds4inputNames = new Dictionary<DS4Controls, string>()
{
[DS4Controls.LXNeg] = "Left X-Axis-",
[DS4Controls.LXPos] = "Left X-Axis+",
[DS4Controls.LYNeg] = "Left Y-Axis-",
[DS4Controls.LYPos] = "Left Y-Axis+",
[DS4Controls.RXNeg] = "Right X-Axis-",
[DS4Controls.RXPos] = "Right X-Axis+",
[DS4Controls.RYNeg] = "Right Y-Axis-",
[DS4Controls.RYPos] = "Right Y-Axis+",
[DS4Controls.L1] = "L1",
[DS4Controls.L2] = "L2",
[DS4Controls.L3] = "L3",
[DS4Controls.R1] = "R1",
[DS4Controls.R2] = "R2",
[DS4Controls.R3] = "R3",
[DS4Controls.Square] = "Square",
[DS4Controls.Triangle] = "Triangle",
[DS4Controls.Circle] = "Circle",
[DS4Controls.Cross] = "Cross",
[DS4Controls.DpadUp] = "Dpad Up",
[DS4Controls.DpadRight] = "Dpad Right",
[DS4Controls.DpadDown] = "Dpad Down",
[DS4Controls.DpadLeft] = "Dpad Left",
[DS4Controls.PS] = "PS",
[DS4Controls.Share] = "Share",
[DS4Controls.Options] = "Options",
[DS4Controls.TouchLeft] = "Left Touch",
[DS4Controls.TouchUpper] = "Upper Touch",
[DS4Controls.TouchMulti] = "Multitouch",
[DS4Controls.TouchRight] = "Right Touch",
[DS4Controls.GyroXPos] = "Gyro X+",
[DS4Controls.GyroXNeg] = "Gyro X-",
[DS4Controls.GyroZPos] = "Gyro Z+",
[DS4Controls.GyroZNeg] = "Gyro Z-",
[DS4Controls.SwipeLeft] = "Swipe Left",
[DS4Controls.SwipeRight] = "Swipe Right",
[DS4Controls.SwipeUp] = "Swipe Up",
[DS4Controls.SwipeDown] = "Swipe Down",
};
public static Dictionary<DS4Controls, int> macroDS4Values = new Dictionary<DS4Controls, int>()
{
[DS4Controls.Cross] = 261, [DS4Controls.Circle] = 262,
[DS4Controls.Square] = 263, [DS4Controls.Triangle] = 264,
[DS4Controls.Options] = 265, [DS4Controls.Share] = 266,
[DS4Controls.DpadUp] = 267, [DS4Controls.DpadDown] = 268,
[DS4Controls.DpadLeft] = 269, [DS4Controls.DpadRight] = 270,
[DS4Controls.PS] = 271, [DS4Controls.L1] = 272,
[DS4Controls.R1] = 273, [DS4Controls.L2] = 274,
[DS4Controls.R2] = 275, [DS4Controls.L3] = 276,
[DS4Controls.R3] = 277, [DS4Controls.LXPos] = 278,
[DS4Controls.LXNeg] = 279, [DS4Controls.LYPos] = 280,
[DS4Controls.LYNeg] = 281, [DS4Controls.RXPos] = 282,
[DS4Controls.RXNeg] = 283, [DS4Controls.RYPos] = 284,
[DS4Controls.RYNeg] = 285,
};
public static void SaveWhere(string path)
{
appdatapath = path;
m_Config.m_Profile = appdatapath + "\\Profiles.xml";
m_Config.m_Actions = appdatapath + "\\Actions.xml";
m_Config.m_linkedProfiles = Global.appdatapath + "\\LinkedProfiles.xml";
m_Config.m_controllerConfigs = Global.appdatapath + "\\ControllerConfigs.xml";
}
public static bool SaveDefault(string path)
{
Boolean Saved = true;
XmlDocument m_Xdoc = new XmlDocument();
try
{
XmlNode Node;
m_Xdoc.RemoveAll();
Node = m_Xdoc.CreateXmlDeclaration("1.0", "utf-8", String.Empty);
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateComment(string.Format(" Profile Configuration Data. {0} ", DateTime.Now));
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateWhitespace("\r\n");
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateNode(XmlNodeType.Element, "Profile", null);
m_Xdoc.AppendChild(Node);
m_Xdoc.Save(path);
}
catch { Saved = false; }
return Saved;
}
/// <summary>
/// Check if Admin Rights are needed to write in Appliplation Directory
/// </summary>
/// <returns></returns>
public static bool AdminNeeded()
{
try
{
File.WriteAllText(exedirpath + "\\test.txt", "test");
File.Delete(exedirpath + "\\test.txt");
return false;
}
catch (UnauthorizedAccessException)
{
return true;
}
}
public static bool IsAdministrator()
{
var identity = WindowsIdentity.GetCurrent();
var principal = new WindowsPrincipal(identity);
return principal.IsInRole(WindowsBuiltInRole.Administrator);
}
public static bool CheckForDevice(string guid)
{
bool result = false;
Guid deviceGuid = Guid.Parse(guid);
NativeMethods.SP_DEVINFO_DATA deviceInfoData =
new NativeMethods.SP_DEVINFO_DATA();
deviceInfoData.cbSize =
System.Runtime.InteropServices.Marshal.SizeOf(deviceInfoData);
IntPtr deviceInfoSet = NativeMethods.SetupDiGetClassDevs(ref deviceGuid, null, 0,
NativeMethods.DIGCF_DEVICEINTERFACE);
result = NativeMethods.SetupDiEnumDeviceInfo(deviceInfoSet, 0, ref deviceInfoData);
if (deviceInfoSet.ToInt64() != NativeMethods.INVALID_HANDLE_VALUE)
{
NativeMethods.SetupDiDestroyDeviceInfoList(deviceInfoSet);
}
return result;
}
private static bool CheckForSysDevice(string searchHardwareId)
{
bool result = false;
Guid sysGuid = Guid.Parse("{4d36e97d-e325-11ce-bfc1-08002be10318}");
NativeMethods.SP_DEVINFO_DATA deviceInfoData =
new NativeMethods.SP_DEVINFO_DATA();
deviceInfoData.cbSize =
System.Runtime.InteropServices.Marshal.SizeOf(deviceInfoData);
var dataBuffer = new byte[4096];
ulong propertyType = 0;
var requiredSize = 0;
IntPtr deviceInfoSet = NativeMethods.SetupDiGetClassDevs(ref sysGuid, null, 0, 0);
for (int i = 0; !result && NativeMethods.SetupDiEnumDeviceInfo(deviceInfoSet, i, ref deviceInfoData); i++)
{
if (NativeMethods.SetupDiGetDeviceProperty(deviceInfoSet, ref deviceInfoData,
ref NativeMethods.DEVPKEY_Device_HardwareIds, ref propertyType,
dataBuffer, dataBuffer.Length, ref requiredSize, 0))
{
string hardwareId = dataBuffer.ToUTF16String();
//if (hardwareIds.Contains("Virtual Gamepad Emulation Bus"))
// result = true;
if (hardwareId.Equals(searchHardwareId))
result = true;
}
}
if (deviceInfoSet.ToInt64() != NativeMethods.INVALID_HANDLE_VALUE)
{
NativeMethods.SetupDiDestroyDeviceInfoList(deviceInfoSet);
}
return result;
}
internal static string GetDeviceProperty(string deviceInstanceId,
NativeMethods.DEVPROPKEY prop)
{
string result = string.Empty;
NativeMethods.SP_DEVINFO_DATA deviceInfoData = new NativeMethods.SP_DEVINFO_DATA();
deviceInfoData.cbSize = System.Runtime.InteropServices.Marshal.SizeOf(deviceInfoData);
var dataBuffer = new byte[4096];
ulong propertyType = 0;
var requiredSize = 0;
Guid hidGuid = new Guid();
NativeMethods.HidD_GetHidGuid(ref hidGuid);
IntPtr deviceInfoSet = NativeMethods.SetupDiGetClassDevs(ref hidGuid, deviceInstanceId, 0, NativeMethods.DIGCF_PRESENT | NativeMethods.DIGCF_DEVICEINTERFACE);
NativeMethods.SetupDiEnumDeviceInfo(deviceInfoSet, 0, ref deviceInfoData);
if (NativeMethods.SetupDiGetDeviceProperty(deviceInfoSet, ref deviceInfoData, ref prop, ref propertyType,
dataBuffer, dataBuffer.Length, ref requiredSize, 0))
{
result = dataBuffer.ToUTF16String();
}
if (deviceInfoSet.ToInt64() != NativeMethods.INVALID_HANDLE_VALUE)
{
NativeMethods.SetupDiDestroyDeviceInfoList(deviceInfoSet);
}
return result;
}
private static string GetViGEmDriverProperty(NativeMethods.DEVPROPKEY prop)
{
string result = string.Empty;
Guid deviceGuid = Guid.Parse(VIGEMBUS_GUID);
NativeMethods.SP_DEVINFO_DATA deviceInfoData =
new NativeMethods.SP_DEVINFO_DATA();
deviceInfoData.cbSize =
System.Runtime.InteropServices.Marshal.SizeOf(deviceInfoData);
var dataBuffer = new byte[4096];
ulong propertyType = 0;
var requiredSize = 0;
IntPtr deviceInfoSet = NativeMethods.SetupDiGetClassDevs(ref deviceGuid, null, 0,
NativeMethods.DIGCF_DEVICEINTERFACE);
NativeMethods.SetupDiEnumDeviceInfo(deviceInfoSet, 0, ref deviceInfoData);
if (NativeMethods.SetupDiGetDeviceProperty(deviceInfoSet, ref deviceInfoData, ref prop, ref propertyType,
dataBuffer, dataBuffer.Length, ref requiredSize, 0))
{
result = dataBuffer.ToUTF16String();
}
if (deviceInfoSet.ToInt64() != NativeMethods.INVALID_HANDLE_VALUE)
{
NativeMethods.SetupDiDestroyDeviceInfoList(deviceInfoSet);
}
return result;
}
public static bool IsHidGuardianInstalled()
{
return CheckForSysDevice(@"Root\HidGuardian");
}
const string VIGEMBUS_GUID = "{96E42B22-F5E9-42F8-B043-ED0F932F014F}";
public static bool IsViGEmBusInstalled()
{
return CheckForDevice(VIGEMBUS_GUID);
}
public static string ViGEmBusVersion()
{
return GetViGEmDriverProperty(NativeMethods.DEVPKEY_Device_DriverVersion);
}
public static void FindConfigLocation()
{
if (File.Exists(exedirpath + "\\Auto Profiles.xml")
&& File.Exists(appDataPpath + "\\Auto Profiles.xml"))
{
Global.firstRun = true;
Global.multisavespots = true;
}
else if (File.Exists(exedirpath + "\\Auto Profiles.xml"))
SaveWhere(exedirpath);
else if (File.Exists(appDataPpath + "\\Auto Profiles.xml"))
SaveWhere(appDataPpath);
else if (!File.Exists(exedirpath + "\\Auto Profiles.xml")
&& !File.Exists(appDataPpath + "\\Auto Profiles.xml"))
{
Global.firstRun = true;
Global.multisavespots = false;
}
}
public static void SetCulture(string culture)
{
try
{
Thread.CurrentThread.CurrentUICulture = CultureInfo.GetCultureInfo(culture);
CultureInfo.DefaultThreadCurrentUICulture = CultureInfo.GetCultureInfo(culture);
}
catch { /* Skip setting culture that we cannot set */ }
}
public static void CreateStdActions()
{
XmlDocument xDoc = new XmlDocument();
try
{
string[] profiles = Directory.GetFiles(appdatapath + @"\Profiles\");
string s = string.Empty;
//foreach (string s in profiles)
for (int i = 0, proflen = profiles.Length; i < proflen; i++)
{
s = profiles[i];
if (Path.GetExtension(s) == ".xml")
{
xDoc.Load(s);
XmlNode el = xDoc.SelectSingleNode("DS4Windows/ProfileActions");
if (el != null)
{
if (string.IsNullOrEmpty(el.InnerText))
el.InnerText = "Disconnect Controller";
else
el.InnerText += "/Disconnect Controller";
}
else
{
XmlNode Node = xDoc.SelectSingleNode("DS4Windows");
el = xDoc.CreateElement("ProfileActions");
el.InnerText = "Disconnect Controller";
Node.AppendChild(el);
}
xDoc.Save(s);
LoadActions();
}
}
}
catch { }
}
public static bool CreateAutoProfiles(string m_Profile)
{
bool Saved = true;
try
{
XmlNode Node;
XmlDocument doc = new XmlDocument();
Node = doc.CreateXmlDeclaration("1.0", "utf-8", String.Empty);
doc.AppendChild(Node);
Node = doc.CreateComment(string.Format(" Auto-Profile Configuration Data. {0} ", DateTime.Now));
doc.AppendChild(Node);
Node = doc.CreateWhitespace("\r\n");
doc.AppendChild(Node);
Node = doc.CreateNode(XmlNodeType.Element, "Programs", "");
doc.AppendChild(Node);
doc.Save(m_Profile);
}
catch { Saved = false; }
return Saved;
}
public static event EventHandler<EventArgs> ControllerStatusChange; // called when a controller is added/removed/battery or touchpad mode changes/etc.
public static void ControllerStatusChanged(object sender)
{
if (ControllerStatusChange != null)
ControllerStatusChange(sender, EventArgs.Empty);
}
public static event EventHandler<BatteryReportArgs> BatteryStatusChange;
public static void OnBatteryStatusChange(object sender, int index, int level, bool charging)
{
if (BatteryStatusChange != null)
{
BatteryReportArgs args = new BatteryReportArgs(index, level, charging);
BatteryStatusChange(sender, args);
}
}
public static event EventHandler<ControllerRemovedArgs> ControllerRemoved;
public static void OnControllerRemoved(object sender, int index)
{
if (ControllerRemoved != null)
{
ControllerRemovedArgs args = new ControllerRemovedArgs(index);
ControllerRemoved(sender, args);
}
}
public static event EventHandler<DeviceStatusChangeEventArgs> DeviceStatusChange;
public static void OnDeviceStatusChanged(object sender, int index)
{
if (DeviceStatusChange != null)
{
DeviceStatusChangeEventArgs args = new DeviceStatusChangeEventArgs(index);
DeviceStatusChange(sender, args);
}
}
public static event EventHandler<SerialChangeArgs> DeviceSerialChange;
public static void OnDeviceSerialChange(object sender, int index, string serial)
{
if (DeviceSerialChange != null)
{
SerialChangeArgs args = new SerialChangeArgs(index, serial);
DeviceSerialChange(sender, args);
}
}
// general values
public static bool UseExclusiveMode
{
set { m_Config.useExclusiveMode = value; }
get { return m_Config.useExclusiveMode; }
}
public static bool getUseExclusiveMode()
{
return m_Config.useExclusiveMode;
}
public static DateTime LastChecked
{
set { m_Config.lastChecked = value; }
get { return m_Config.lastChecked; }
}
public static int CheckWhen
{
set { m_Config.CheckWhen = value; }
get { return m_Config.CheckWhen; }
}
public static int Notifications
{
set { m_Config.notifications = value; }
get { return m_Config.notifications; }
}
public static bool DCBTatStop
{
set { m_Config.disconnectBTAtStop = value; }
get { return m_Config.disconnectBTAtStop; }
}
public static bool SwipeProfiles
{
set { m_Config.swipeProfiles = value; }
get { return m_Config.swipeProfiles; }
}
public static bool DS4Mapping
{
set { m_Config.ds4Mapping = value; }
get { return m_Config.ds4Mapping; }
}
public static bool QuickCharge
{
set { m_Config.quickCharge = value; }
get { return m_Config.quickCharge; }
}
public static bool getQuickCharge()
{
return m_Config.quickCharge;
}
public static bool CloseMini
{
set { m_Config.closeMini = value; }
get { return m_Config.closeMini; }
}
public static bool StartMinimized
{
set { m_Config.startMinimized = value; }
get { return m_Config.startMinimized; }
}
public static bool MinToTaskbar
{
set { m_Config.minToTaskbar = value; }
get { return m_Config.minToTaskbar; }
}
public static bool GetMinToTaskbar()
{
return m_Config.minToTaskbar;
}
public static int FormWidth
{
set { m_Config.formWidth = value; }
get { return m_Config.formWidth; }
}
public static int FormHeight
{
set { m_Config.formHeight = value; }
get { return m_Config.formHeight; }
}
public static int FormLocationX
{
set { m_Config.formLocationX = value; }
get { return m_Config.formLocationX; }
}
public static int FormLocationY
{
set { m_Config.formLocationY = value; }
get { return m_Config.formLocationY; }
}
public static string UseLang
{
set { m_Config.useLang = value; }
get { return m_Config.useLang; }
}
public static bool DownloadLang
{
set { m_Config.downloadLang = value; }
get { return m_Config.downloadLang; }
}
public static bool FlashWhenLate
{
set { m_Config.flashWhenLate = value; }
get { return m_Config.flashWhenLate; }
}
public static bool getFlashWhenLate()
{
return m_Config.flashWhenLate;
}
public static int FlashWhenLateAt
{
set { m_Config.flashWhenLateAt = value; }
get { return m_Config.flashWhenLateAt; }
}
public static int getFlashWhenLateAt()
{
return m_Config.flashWhenLateAt;
}
public static bool isUsingUDPServer()
{
return m_Config.useUDPServ;
}
public static void setUsingUDPServer(bool state)
{
m_Config.useUDPServ = state;
}
public static int getUDPServerPortNum()
{
return m_Config.udpServPort;
}
public static void setUDPServerPort(int value)
{
m_Config.udpServPort = value;
}
public static string getUDPServerListenAddress()
{
return m_Config.udpServListenAddress;
}
public static void setUDPServerListenAddress(string value)
{
m_Config.udpServListenAddress = value.Trim();
}
public static bool UseWhiteIcon
{
set { m_Config.useWhiteIcon = value; }
get { return m_Config.useWhiteIcon; }
}
public static bool UseCustomSteamFolder
{
set { m_Config.useCustomSteamFolder = value; }
get { return m_Config.useCustomSteamFolder; }
}
public static string CustomSteamFolder
{
set { m_Config.customSteamFolder = value; }
get { return m_Config.customSteamFolder; }
}
public static bool AutoProfileRevertDefaultProfile
{
set { m_Config.autoProfileRevertDefaultProfile = value; }
get { return m_Config.autoProfileRevertDefaultProfile; }
}
// controller/profile specfic values
public static int[] ButtonMouseSensitivity => m_Config.buttonMouseSensitivity;
public static byte[] RumbleBoost => m_Config.rumble;
public static byte getRumbleBoost(int index)
{
return m_Config.rumble[index];
}
public static void setRumbleAutostopTime(int index, int value)
{
m_Config.rumbleAutostopTime[index] = value;
DS4Device tempDev = Program.rootHub.DS4Controllers[index];
if (tempDev != null && tempDev.isSynced())
tempDev.RumbleAutostopTime = value;
}
public static int getRumbleAutostopTime(int index)
{
return m_Config.rumbleAutostopTime[index];
}
public static double[] Rainbow => m_Config.rainbow;
public static double getRainbow(int index)
{
return m_Config.rainbow[index];
}
public static double[] MaxSatRainbow => m_Config.maxRainbowSat;
public static double GetMaxSatRainbow(int index)
{
return m_Config.maxRainbowSat[index];
}
public static bool[] FlushHIDQueue => m_Config.flushHIDQueue;
public static bool getFlushHIDQueue(int index)
{
return m_Config.flushHIDQueue[index];
}
public static bool[] EnableTouchToggle => m_Config.enableTouchToggle;
public static bool getEnableTouchToggle(int index)
{
return m_Config.enableTouchToggle[index];
}
public static int[] IdleDisconnectTimeout => m_Config.idleDisconnectTimeout;
public static int getIdleDisconnectTimeout(int index)
{
return m_Config.idleDisconnectTimeout[index];
}
public static byte[] TouchSensitivity => m_Config.touchSensitivity;
public static byte[] getTouchSensitivity()
{
return m_Config.touchSensitivity;
}
public static byte getTouchSensitivity(int index)
{
return m_Config.touchSensitivity[index];
}
public static bool[] TouchActive => touchpadActive;
public static bool GetTouchActive(int index)
{
return touchpadActive[index];
}
public static byte[] FlashType => m_Config.flashType;
public static byte getFlashType(int index)
{
return m_Config.flashType[index];
}
public static int[] FlashAt => m_Config.flashAt;
public static int getFlashAt(int index)
{
return m_Config.flashAt[index];
}
public static bool[] LedAsBatteryIndicator => m_Config.ledAsBattery;
public static bool getLedAsBatteryIndicator(int index)
{
return m_Config.ledAsBattery[index];
}
public static int[] ChargingType => m_Config.chargingType;
public static int getChargingType(int index)
{
return m_Config.chargingType[index];
}
public static bool[] DinputOnly => m_Config.dinputOnly;
public static bool getDInputOnly(int index)
{
return m_Config.dinputOnly[index];
}
public static bool[] StartTouchpadOff => m_Config.startTouchpadOff;
public static bool[] UseTPforControls => m_Config.useTPforControls;
public static bool getUseTPforControls(int index)
{
return m_Config.useTPforControls[index];
}
public static bool[] UseSAforMouse => m_Config.useSAforMouse;
public static bool isUsingSAforMouse(int index)
{
return m_Config.gyroOutMode[index] == DS4Windows.GyroOutMode.Mouse;
}
public static string[] SATriggers => m_Config.sATriggers;
public static string getSATriggers(int index)
{
return m_Config.sATriggers[index];
}
public static bool[] SATriggerCond => m_Config.sATriggerCond;
public static bool getSATriggerCond(int index)
{
return m_Config.sATriggerCond[index];
}
public static void SetSaTriggerCond(int index, string text)
{
m_Config.SetSaTriggerCond(index, text);
}
public static GyroOutMode[] GyroOutputMode => m_Config.gyroOutMode;
public static GyroOutMode GetGyroOutMode(int device)
{
return m_Config.gyroOutMode[device];
}
public static string[] SAMousestickTriggers => m_Config.sAMouseStickTriggers;
public static string GetSAMouseStickTriggers(int device)
{
return m_Config.sAMouseStickTriggers[device];
}
public static bool[] SAMouseStickTriggerCond => m_Config.sAMouseStickTriggerCond;
public static bool GetSAMouseStickTriggerCond(int device)
{
return m_Config.sAMouseStickTriggerCond[device];
}
public static void SetSaMouseStickTriggerCond(int index, string text)
{
m_Config.SetSaMouseStickTriggerCond(index, text);
}
public static bool[] GyroMouseStickTriggerTurns = m_Config.gyroMouseStickTriggerTurns;
public static bool GetGyroMouseStickTriggerTurns(int device)
{
return m_Config.gyroMouseStickTriggerTurns[device];
}
public static int[] GyroMouseStickHorizontalAxis =>
m_Config.gyroMouseStickHorizontalAxis;
public static int getGyroMouseStickHorizontalAxis(int index)
{
return m_Config.gyroMouseStickHorizontalAxis[index];
}
public static GyroMouseStickInfo[] GyroMouseStickInf => m_Config.gyroMStickInfo;
public static GyroMouseStickInfo GetGyroMouseStickInfo(int device)
{
return m_Config.gyroMStickInfo[device];
}
public static bool[] GyroMouseStickToggle => m_Config.gyroMouseStickToggle;
public static void SetGyroMouseStickToggle(int index, bool value, ControlService control)
=> m_Config.SetGyroMouseStickToggle(index, value, control);
public static SASteeringWheelEmulationAxisType[] SASteeringWheelEmulationAxis => m_Config.sASteeringWheelEmulationAxis;
public static SASteeringWheelEmulationAxisType GetSASteeringWheelEmulationAxis(int index)
{
return m_Config.sASteeringWheelEmulationAxis[index];
}
public static int[] SASteeringWheelEmulationRange => m_Config.sASteeringWheelEmulationRange;
public static int GetSASteeringWheelEmulationRange(int index)
{
return m_Config.sASteeringWheelEmulationRange[index];
}
public static int[][] TouchDisInvertTriggers => m_Config.touchDisInvertTriggers;
public static int[] getTouchDisInvertTriggers(int index)
{
return m_Config.touchDisInvertTriggers[index];
}
public static int[] GyroSensitivity => m_Config.gyroSensitivity;
public static int getGyroSensitivity(int index)
{
return m_Config.gyroSensitivity[index];
}
public static int[] GyroSensVerticalScale => m_Config.gyroSensVerticalScale;
public static int getGyroSensVerticalScale(int index)
{
return m_Config.gyroSensVerticalScale[index];
}
public static int[] GyroInvert => m_Config.gyroInvert;
public static int getGyroInvert(int index)
{
return m_Config.gyroInvert[index];
}
public static bool[] GyroTriggerTurns => m_Config.gyroTriggerTurns;
public static bool getGyroTriggerTurns(int index)
{
return m_Config.gyroTriggerTurns[index];
}
public static bool[] GyroSmoothing => m_Config.gyroSmoothing;
public static bool getGyroSmoothing(int index)
{
return m_Config.gyroSmoothing[index];
}
public static double[] GyroSmoothingWeight => m_Config.gyroSmoothWeight;
public static double getGyroSmoothingWeight(int index)
{
return m_Config.gyroSmoothWeight[index];
}
public static int[] GyroMouseHorizontalAxis => m_Config.gyroMouseHorizontalAxis;
public static int getGyroMouseHorizontalAxis(int index)
{
return m_Config.gyroMouseHorizontalAxis[index];
}
public static int[] GyroMouseDeadZone => m_Config.gyroMouseDZ;
public static int GetGyroMouseDeadZone(int index)
{
return m_Config.gyroMouseDZ[index];
}
public static void SetGyroMouseDeadZone(int index, int value, ControlService control)
{
m_Config.SetGyroMouseDZ(index, value, control);
}
public static bool[] GyroMouseToggle => m_Config.gyroMouseToggle;
public static void SetGyroMouseToggle(int index, bool value, ControlService control)
=> m_Config.SetGyroMouseToggle(index, value, control);
public static DS4Color[] MainColor => m_Config.m_Leds;
public static ref DS4Color getMainColor(int index)
{
return ref m_Config.m_Leds[index];
}
public static DS4Color[] LowColor => m_Config.m_LowLeds;
public static ref DS4Color getLowColor(int index)
{
return ref m_Config.m_LowLeds[index];
}
public static DS4Color[] ChargingColor => m_Config.m_ChargingLeds;
public static ref DS4Color getChargingColor(int index)
{
return ref m_Config.m_ChargingLeds[index];
}
public static DS4Color[] CustomColor => m_Config.m_CustomLeds;
public static ref DS4Color getCustomColor(int index)
{
return ref m_Config.m_CustomLeds[index];
}
public static bool[] UseCustomLed => m_Config.useCustomLeds;
public static bool getUseCustomLed(int index)
{
return m_Config.useCustomLeds[index];
}
public static DS4Color[] FlashColor => m_Config.m_FlashLeds;
public static ref DS4Color getFlashColor(int index)
{
return ref m_Config.m_FlashLeds[index];
}
public static byte[] TapSensitivity => m_Config.tapSensitivity;
public static byte getTapSensitivity(int index)
{
return m_Config.tapSensitivity[index];
}
public static bool[] DoubleTap => m_Config.doubleTap;
public static bool getDoubleTap(int index)
{
return m_Config.doubleTap[index];
}
public static int[] ScrollSensitivity => m_Config.scrollSensitivity;
public static int[] getScrollSensitivity()
{
return m_Config.scrollSensitivity;
}
public static int getScrollSensitivity(int index)
{
return m_Config.scrollSensitivity[index];
}
public static bool[] LowerRCOn => m_Config.lowerRCOn;
public static bool[] TouchpadJitterCompensation => m_Config.touchpadJitterCompensation;
public static bool getTouchpadJitterCompensation(int index)
{
return m_Config.touchpadJitterCompensation[index];
}
public static int[] TouchpadInvert => m_Config.touchpadInvert;
public static int getTouchpadInvert(int index)
{
return m_Config.touchpadInvert[index];
}
public static TriggerDeadZoneZInfo[] L2ModInfo => m_Config.l2ModInfo;
public static TriggerDeadZoneZInfo GetL2ModInfo(int index)
{
return m_Config.l2ModInfo[index];
}
//public static byte[] L2Deadzone => m_Config.l2Deadzone;
public static byte getL2Deadzone(int index)
{
return m_Config.l2ModInfo[index].deadZone;
//return m_Config.l2Deadzone[index];
}
public static TriggerDeadZoneZInfo[] R2ModInfo => m_Config.r2ModInfo;
public static TriggerDeadZoneZInfo GetR2ModInfo(int index)
{
return m_Config.r2ModInfo[index];
}
//public static byte[] R2Deadzone => m_Config.r2Deadzone;
public static byte getR2Deadzone(int index)
{
return m_Config.r2ModInfo[index].deadZone;
//return m_Config.r2Deadzone[index];
}
public static double[] SXDeadzone => m_Config.SXDeadzone;
public static double getSXDeadzone(int index)
{
return m_Config.SXDeadzone[index];
}
public static double[] SZDeadzone => m_Config.SZDeadzone;
public static double getSZDeadzone(int index)
{
return m_Config.SZDeadzone[index];
}
//public static int[] LSDeadzone => m_Config.LSDeadzone;
public static int getLSDeadzone(int index)
{
return m_Config.lsModInfo[index].deadZone;
//return m_Config.LSDeadzone[index];
}
//public static int[] RSDeadzone => m_Config.RSDeadzone;
public static int getRSDeadzone(int index)
{
return m_Config.rsModInfo[index].deadZone;
//return m_Config.RSDeadzone[index];
}
//public static int[] LSAntiDeadzone => m_Config.LSAntiDeadzone;
public static int getLSAntiDeadzone(int index)
{
return m_Config.lsModInfo[index].antiDeadZone;
//return m_Config.LSAntiDeadzone[index];
}
//public static int[] RSAntiDeadzone => m_Config.RSAntiDeadzone;
public static int getRSAntiDeadzone(int index)
{
return m_Config.rsModInfo[index].antiDeadZone;
//return m_Config.RSAntiDeadzone[index];
}
public static StickDeadZoneInfo[] LSModInfo => m_Config.lsModInfo;
public static StickDeadZoneInfo GetLSDeadInfo(int index)
{
return m_Config.lsModInfo[index];
}
public static StickDeadZoneInfo[] RSModInfo => m_Config.rsModInfo;
public static StickDeadZoneInfo GetRSDeadInfo(int index)
{
return m_Config.rsModInfo[index];
}
public static double[] SXAntiDeadzone => m_Config.SXAntiDeadzone;
public static double getSXAntiDeadzone(int index)
{
return m_Config.SXAntiDeadzone[index];
}
public static double[] SZAntiDeadzone => m_Config.SZAntiDeadzone;
public static double getSZAntiDeadzone(int index)
{
return m_Config.SZAntiDeadzone[index];
}
//public static int[] LSMaxzone => m_Config.LSMaxzone;
public static int getLSMaxzone(int index)
{
return m_Config.lsModInfo[index].maxZone;
//return m_Config.LSMaxzone[index];
}
//public static int[] RSMaxzone => m_Config.RSMaxzone;
public static int getRSMaxzone(int index)
{
return m_Config.rsModInfo[index].maxZone;
//return m_Config.RSMaxzone[index];
}
public static double[] SXMaxzone => m_Config.SXMaxzone;
public static double getSXMaxzone(int index)
{
return m_Config.SXMaxzone[index];
}
public static double[] SZMaxzone => m_Config.SZMaxzone;
public static double getSZMaxzone(int index)
{
return m_Config.SZMaxzone[index];
}
//public static int[] L2AntiDeadzone => m_Config.l2AntiDeadzone;
public static int getL2AntiDeadzone(int index)
{
return m_Config.l2ModInfo[index].antiDeadZone;
//return m_Config.l2AntiDeadzone[index];
}
//public static int[] R2AntiDeadzone => m_Config.r2AntiDeadzone;
public static int getR2AntiDeadzone(int index)
{
return m_Config.r2ModInfo[index].antiDeadZone;
//return m_Config.r2AntiDeadzone[index];
}
//public static int[] L2Maxzone => m_Config.l2Maxzone;
public static int getL2Maxzone(int index)
{
return m_Config.l2ModInfo[index].maxZone;
//return m_Config.l2Maxzone[index];
}
//public static int[] R2Maxzone => m_Config.r2Maxzone;
public static int getR2Maxzone(int index)
{
return m_Config.r2ModInfo[index].maxZone;
//return m_Config.r2Maxzone[index];
}
public static int[] LSCurve => m_Config.lsCurve;
public static int getLSCurve(int index)
{
return m_Config.lsCurve[index];
}
public static int[] RSCurve => m_Config.rsCurve;
public static int getRSCurve(int index)
{
return m_Config.rsCurve[index];
}
public static double[] LSRotation => m_Config.LSRotation;
public static double getLSRotation(int index)
{
return m_Config.LSRotation[index];
}
public static double[] RSRotation => m_Config.RSRotation;
public static double getRSRotation(int index)
{
return m_Config.RSRotation[index];
}
public static double[] L2Sens => m_Config.l2Sens;
public static double getL2Sens(int index)
{
return m_Config.l2Sens[index];
}
public static double[] R2Sens => m_Config.r2Sens;
public static double getR2Sens(int index)
{
return m_Config.r2Sens[index];
}
public static double[] SXSens => m_Config.SXSens;
public static double getSXSens(int index)
{
return m_Config.SXSens[index];
}
public static double[] SZSens => m_Config.SZSens;
public static double getSZSens(int index)
{
return m_Config.SZSens[index];
}
public static double[] LSSens => m_Config.LSSens;
public static double getLSSens(int index)
{
return m_Config.LSSens[index];
}
public static double[] RSSens => m_Config.RSSens;
public static double getRSSens(int index)
{
return m_Config.RSSens[index];
}
public static bool[] MouseAccel => m_Config.mouseAccel;
public static bool getMouseAccel(int device)
{
return m_Config.mouseAccel[device];
}
public static int[] BTPollRate => m_Config.btPollRate;
public static int getBTPollRate(int index)
{
return m_Config.btPollRate[index];
}
public static SquareStickInfo[] SquStickInfo = m_Config.squStickInfo;
public static SquareStickInfo GetSquareStickInfo(int device)
{
return m_Config.squStickInfo[device];
}
public static void setLsOutCurveMode(int index, int value)
{
m_Config.setLsOutCurveMode(index, value);
}
public static int getLsOutCurveMode(int index)
{
return m_Config.getLsOutCurveMode(index);
}
public static BezierCurve[] lsOutBezierCurveObj => m_Config.lsOutBezierCurveObj;
public static void setRsOutCurveMode(int index, int value)
{
m_Config.setRsOutCurveMode(index, value);
}
public static int getRsOutCurveMode(int index)
{
return m_Config.getRsOutCurveMode(index);
}
public static BezierCurve[] rsOutBezierCurveObj => m_Config.rsOutBezierCurveObj;
public static void setL2OutCurveMode(int index, int value)
{
m_Config.setL2OutCurveMode(index, value);
}
public static int getL2OutCurveMode(int index)
{
return m_Config.getL2OutCurveMode(index);
}
public static BezierCurve[] l2OutBezierCurveObj => m_Config.l2OutBezierCurveObj;
public static void setR2OutCurveMode(int index, int value)
{
m_Config.setR2OutCurveMode(index, value);
}
public static int getR2OutCurveMode(int index)
{
return m_Config.getR2OutCurveMode(index);
}
public static BezierCurve[] r2OutBezierCurveObj => m_Config.r2OutBezierCurveObj;
public static void setSXOutCurveMode(int index, int value)
{
m_Config.setSXOutCurveMode(index, value);
}
public static int getSXOutCurveMode(int index)
{
return m_Config.getSXOutCurveMode(index);
}
public static BezierCurve[] sxOutBezierCurveObj => m_Config.sxOutBezierCurveObj;
public static void setSZOutCurveMode(int index, int value)
{
m_Config.setSZOutCurveMode(index, value);
}
public static int getSZOutCurveMode(int index)
{
return m_Config.getSZOutCurveMode(index);
}
public static BezierCurve[] szOutBezierCurveObj => m_Config.szOutBezierCurveObj;
public static bool[] TrackballMode => m_Config.trackballMode;
public static bool getTrackballMode(int index)
{
return m_Config.trackballMode[index];
}
public static double[] TrackballFriction => m_Config.trackballFriction;
public static double getTrackballFriction(int index)
{
return m_Config.trackballFriction[index];
}
public static OutContType[] OutContType => m_Config.outputDevType;
public static string[] LaunchProgram => m_Config.launchProgram;
public static string[] ProfilePath => m_Config.profilePath;
public static string[] OlderProfilePath => m_Config.olderProfilePath;
public static bool[] DistanceProfiles = m_Config.distanceProfiles;
public static List<string>[] ProfileActions => m_Config.profileActions;
public static int getProfileActionCount(int index)
{
return m_Config.profileActionCount[index];
}
public static void calculateProfileActionCount(int index)
{
m_Config.profileActionCount[index] = m_Config.profileActions[index].Count;
}
public static List<string> getProfileActions(int index)
{
return m_Config.profileActions[index];
}
public static void UpdateDS4CSetting (int deviceNum, string buttonName, bool shift, object action, string exts, DS4KeyType kt, int trigger = 0)
{
m_Config.UpdateDS4CSetting(deviceNum, buttonName, shift, action, exts, kt, trigger);
m_Config.containsCustomAction[deviceNum] = m_Config.HasCustomActions(deviceNum);
m_Config.containsCustomExtras[deviceNum] = m_Config.HasCustomExtras(deviceNum);
}
public static void UpdateDS4Extra(int deviceNum, string buttonName, bool shift, string exts)
{
m_Config.UpdateDS4CExtra(deviceNum, buttonName, shift, exts);
m_Config.containsCustomAction[deviceNum] = m_Config.HasCustomActions(deviceNum);
m_Config.containsCustomExtras[deviceNum] = m_Config.HasCustomExtras(deviceNum);
}
public static object GetDS4Action(int deviceNum, string buttonName, bool shift) => m_Config.GetDS4Action(deviceNum, buttonName, shift);
public static object GetDS4Action(int deviceNum, DS4Controls control, bool shift) => m_Config.GetDS4Action(deviceNum, control, shift);
public static DS4KeyType GetDS4KeyType(int deviceNum, string buttonName, bool shift) => m_Config.GetDS4KeyType(deviceNum, buttonName, shift);
public static string GetDS4Extra(int deviceNum, string buttonName, bool shift) => m_Config.GetDS4Extra(deviceNum, buttonName, shift);
public static int GetDS4STrigger(int deviceNum, string buttonName) => m_Config.GetDS4STrigger(deviceNum, buttonName);
public static int GetDS4STrigger(int deviceNum, DS4Controls control) => m_Config.GetDS4STrigger(deviceNum, control);
public static List<DS4ControlSettings> getDS4CSettings(int device) => m_Config.ds4settings[device];
public static DS4ControlSettings getDS4CSetting(int deviceNum, string control) => m_Config.getDS4CSetting(deviceNum, control);
public static DS4ControlSettings getDS4CSetting(int deviceNum, DS4Controls control) => m_Config.getDS4CSetting(deviceNum, control);
public static bool HasCustomActions(int deviceNum) => m_Config.HasCustomActions(deviceNum);
public static bool HasCustomExtras(int deviceNum) => m_Config.HasCustomExtras(deviceNum);
public static bool containsCustomAction(int deviceNum)
{
return m_Config.containsCustomAction[deviceNum];
}
public static bool containsCustomExtras(int deviceNum)
{
return m_Config.containsCustomExtras[deviceNum];
}
public static void SaveAction(string name, string controls, int mode,
string details, bool edit, string extras = "")
{
m_Config.SaveAction(name, controls, mode, details, edit, extras);
Mapping.actionDone.Add(new Mapping.ActionState());
}
public static void RemoveAction(string name)
{
m_Config.RemoveAction(name);
}
public static bool LoadActions() => m_Config.LoadActions();
public static List<SpecialAction> GetActions() => m_Config.actions;
public static int GetActionIndexOf(string name)
{
for (int i = 0, actionCount = m_Config.actions.Count; i < actionCount; i++)
{
if (m_Config.actions[i].name == name)
return i;
}
return -1;
}
public static int GetProfileActionIndexOf(int device, string name)
{
int index = -1;
m_Config.profileActionIndexDict[device].TryGetValue(name, out index);
return index;
}
public static SpecialAction GetAction(string name)
{
//foreach (SpecialAction sA in m_Config.actions)
for (int i=0, actionCount = m_Config.actions.Count; i < actionCount; i++)
{
SpecialAction sA = m_Config.actions[i];
if (sA.name == name)
return sA;
}
return new SpecialAction("null", "null", "null", "null");
}
public static SpecialAction GetProfileAction(int device, string name)
{
SpecialAction sA = null;
m_Config.profileActionDict[device].TryGetValue(name, out sA);
return sA;
}
public static void calculateProfileActionDicts(int device)
{
m_Config.profileActionDict[device].Clear();
m_Config.profileActionIndexDict[device].Clear();
foreach (string actionname in m_Config.profileActions[device])
{
m_Config.profileActionDict[device][actionname] = GetAction(actionname);
m_Config.profileActionIndexDict[device][actionname] = GetActionIndexOf(actionname);
}
}
public static void cacheProfileCustomsFlags(int device)
{
m_Config.containsCustomAction[device] = HasCustomActions(device);
m_Config.containsCustomExtras[device] = HasCustomExtras(device);
}
public static X360Controls getX360ControlsByName(string key)
{
return m_Config.getX360ControlsByName(key);
}
public static string getX360ControlString(X360Controls key)
{
return m_Config.getX360ControlString(key);
}
public static DS4Controls getDS4ControlsByName(string key)
{
return m_Config.getDS4ControlsByName(key);
}
public static X360Controls getDefaultX360ControlBinding(DS4Controls dc)
{
return defaultButtonMapping[(int)dc];
}
public static bool containsLinkedProfile(string serial)
{
string tempSerial = serial.Replace(":", string.Empty);
return m_Config.linkedProfiles.ContainsKey(tempSerial);
}
public static string getLinkedProfile(string serial)
{
string temp = string.Empty;
string tempSerial = serial.Replace(":", string.Empty);
if (m_Config.linkedProfiles.ContainsKey(tempSerial))
{
temp = m_Config.linkedProfiles[tempSerial];
}
return temp;
}
public static void changeLinkedProfile(string serial, string profile)
{
string tempSerial = serial.Replace(":", string.Empty);
m_Config.linkedProfiles[tempSerial] = profile;
}
public static void removeLinkedProfile(string serial)
{
string tempSerial = serial.Replace(":", string.Empty);
if (m_Config.linkedProfiles.ContainsKey(tempSerial))
{
m_Config.linkedProfiles.Remove(tempSerial);
}
}
public static bool Load() => m_Config.Load();
public static void LoadProfile(int device, bool launchprogram, ControlService control,
bool xinputChange = true, bool postLoad = true)
{
m_Config.LoadProfile(device, launchprogram, control, "", xinputChange, postLoad);
tempprofilename[device] = string.Empty;
useTempProfile[device] = false;
tempprofileDistance[device] = false;
}
public static void LoadTempProfile(int device, string name, bool launchprogram,
ControlService control, bool xinputChange = true)
{
m_Config.LoadProfile(device, launchprogram, control, appdatapath + @"\Profiles\" + name + ".xml");
tempprofilename[device] = name;
useTempProfile[device] = true;
tempprofileDistance[device] = name.ToLower().Contains("distance");
}
public static void LoadBlankDevProfile(int device, bool launchprogram, ControlService control,
bool xinputChange = true, bool postLoad = true)
{
m_Config.LoadBlankProfile(device, launchprogram, control, "", xinputChange, postLoad);
tempprofilename[device] = string.Empty;
useTempProfile[device] = false;
tempprofileDistance[device] = false;
}
public static bool Save()
{
return m_Config.Save();
}
public static void SaveProfile(int device, string propath)
{
m_Config.SaveProfile(device, propath);
}
public static bool SaveLinkedProfiles()
{
return m_Config.SaveLinkedProfiles();
}
public static bool LoadLinkedProfiles()
{
return m_Config.LoadLinkedProfiles();
}
public static bool SaveControllerConfigs(DS4Device device = null)
{
if (device != null)
return m_Config.SaveControllerConfigsForDevice(device);
for (int idx = 0; idx < ControlService.DS4_CONTROLLER_COUNT; idx++)
if (Program.rootHub.DS4Controllers[idx] != null)
m_Config.SaveControllerConfigsForDevice(Program.rootHub.DS4Controllers[idx]);
return true;
}
public static bool LoadControllerConfigs(DS4Device device = null)
{
if (device != null)
return m_Config.LoadControllerConfigsForDevice(device);
for (int idx = 0; idx < ControlService.DS4_CONTROLLER_COUNT; idx++)
if (Program.rootHub.DS4Controllers[idx] != null)
m_Config.LoadControllerConfigsForDevice(Program.rootHub.DS4Controllers[idx]);
return true;
}
private static byte applyRatio(byte b1, byte b2, double r)
{
if (r > 100.0)
r = 100.0;
else if (r < 0.0)
r = 0.0;
r *= 0.01;
return (byte)Math.Round((b1 * (1 - r)) + b2 * r, 0);
}
public static DS4Color getTransitionedColor(ref DS4Color c1, ref DS4Color c2, double ratio)
{
//Color cs = Color.FromArgb(c1.red, c1.green, c1.blue);
DS4Color cs = new DS4Color
{
red = applyRatio(c1.red, c2.red, ratio),
green = applyRatio(c1.green, c2.green, ratio),
blue = applyRatio(c1.blue, c2.blue, ratio)
};
return cs;
}
private static Color applyRatio(Color c1, Color c2, uint r)
{
float ratio = r / 100f;
float hue1 = c1.GetHue();
float hue2 = c2.GetHue();
float bri1 = c1.GetBrightness();
float bri2 = c2.GetBrightness();
float sat1 = c1.GetSaturation();
float sat2 = c2.GetSaturation();
float hr = hue2 - hue1;
float br = bri2 - bri1;
float sr = sat2 - sat1;
Color csR;
if (bri1 == 0)
csR = HuetoRGB(hue2,sat2,bri2 - br*ratio);
else
csR = HuetoRGB(hue2 - hr * ratio, sat2 - sr * ratio, bri2 - br * ratio);
return csR;
}
public static Color HuetoRGB(float hue, float sat, float bri)
{
float C = (1-Math.Abs(2*bri)-1)* sat;
float X = C * (1 - Math.Abs((hue / 60) % 2 - 1));
float m = bri - C / 2;
float R, G, B;
if (0 <= hue && hue < 60)
{
R = C; G = X; B = 0;
}
else if (60 <= hue && hue < 120)
{
R = X; G = C; B = 0;
}
else if (120 <= hue && hue < 180)
{
R = 0; G = C; B = X;
}
else if (180 <= hue && hue < 240)
{
R = 0; G = X; B = C;
}
else if (240 <= hue && hue < 300)
{
R = X; G = 0; B = C;
}
else if (300 <= hue && hue < 360)
{
R = C; G = 0; B = X;
}
else
{
R = 255; G = 0; B = 0;
}
R += m; G += m; B += m;
R *= 255.0f; G *= 255.0f; B *= 255.0f;
return Color.FromArgb((int)R, (int)G, (int)B);
}
public static double Clamp(double min, double value, double max)
{
return (value < min) ? min : (value > max) ? max : value;
}
private static int ClampInt(int min, int value, int max)
{
return (value < min) ? min : (value > max) ? max : value;
}
}
public class BackingStore
{
//public String m_Profile = Environment.GetFolderPath(Environment.SpecialFolder.ApplicationData) + "\\DS4Tool" + "\\Profiles.xml";
public String m_Profile = Directory.GetParent(Assembly.GetExecutingAssembly().Location).FullName + "\\Profiles.xml";
public String m_Actions = Global.appdatapath + "\\Actions.xml";
public string m_linkedProfiles = Global.appdatapath + "\\LinkedProfiles.xml";
public string m_controllerConfigs = Global.appdatapath + "\\ControllerConfigs.xml";
protected XmlDocument m_Xdoc = new XmlDocument();
// fifth value used for options, not fifth controller
public int[] buttonMouseSensitivity = new int[5] { 25, 25, 25, 25, 25 };
public bool[] flushHIDQueue = new bool[5] { false, false, false, false, false };
public bool[] enableTouchToggle = new bool[5] { true, true, true, true, true };
public int[] idleDisconnectTimeout = new int[5] { 0, 0, 0, 0, 0 };
public bool[] touchpadJitterCompensation = new bool[5] { true, true, true, true, true };
public bool[] lowerRCOn = new bool[5] { false, false, false, false, false };
public bool[] ledAsBattery = new bool[5] { false, false, false, false, false };
public byte[] flashType = new byte[5] { 0, 0, 0, 0, 0 };
public string[] profilePath = new string[5] { string.Empty, string.Empty, string.Empty, string.Empty, string.Empty };
public string[] olderProfilePath = new string[5] { string.Empty, string.Empty, string.Empty, string.Empty, string.Empty };
public Dictionary<string, string> linkedProfiles = new Dictionary<string, string>();
// Cache properties instead of performing a string comparison every frame
public bool[] distanceProfiles = new bool[5] { false, false, false, false, false };
public Byte[] rumble = new Byte[5] { 100, 100, 100, 100, 100 };
public int[] rumbleAutostopTime = new int[5] { 0, 0, 0, 0, 0 }; // Value in milliseconds (0=autustop timer disabled)
public Byte[] touchSensitivity = new Byte[5] { 100, 100, 100, 100, 100 };
public StickDeadZoneInfo[] lsModInfo = new StickDeadZoneInfo[5]
{
new StickDeadZoneInfo(), new StickDeadZoneInfo(),
new StickDeadZoneInfo(), new StickDeadZoneInfo(),
new StickDeadZoneInfo()
};
public StickDeadZoneInfo[] rsModInfo = new StickDeadZoneInfo[5]
{
new StickDeadZoneInfo(), new StickDeadZoneInfo(),
new StickDeadZoneInfo(), new StickDeadZoneInfo(),
new StickDeadZoneInfo()
};
public TriggerDeadZoneZInfo[] l2ModInfo = new TriggerDeadZoneZInfo[5]
{
new TriggerDeadZoneZInfo(), new TriggerDeadZoneZInfo(),
new TriggerDeadZoneZInfo(), new TriggerDeadZoneZInfo(),
new TriggerDeadZoneZInfo()
};
public TriggerDeadZoneZInfo[] r2ModInfo = new TriggerDeadZoneZInfo[5]
{
new TriggerDeadZoneZInfo(), new TriggerDeadZoneZInfo(),
new TriggerDeadZoneZInfo(), new TriggerDeadZoneZInfo(),
new TriggerDeadZoneZInfo()
};
/*public Byte[] l2Deadzone = new Byte[5] { 0, 0, 0, 0, 0 }, r2Deadzone = new Byte[5] { 0, 0, 0, 0, 0 };
public int[] l2AntiDeadzone = new int[5] { 0, 0, 0, 0, 0 }, r2AntiDeadzone = new int[5] { 0, 0, 0, 0, 0 };
public int[] l2Maxzone = new int[5] { 100, 100, 100, 100, 100 }, r2Maxzone = new int[5] { 100, 100, 100, 100, 100 };
*/
public double[] LSRotation = new double[5] { 0.0, 0.0, 0.0, 0.0, 0.0 }, RSRotation = new double[5] { 0.0, 0.0, 0.0, 0.0, 0.0 };
public double[] SXDeadzone = new double[5] { 0.25, 0.25, 0.25, 0.25, 0.25 }, SZDeadzone = new double[5] { 0.25, 0.25, 0.25, 0.25, 0.25 };
public double[] SXMaxzone = new double[5] { 1.0, 1.0, 1.0, 1.0, 1.0 },
SZMaxzone = new double[5] { 1.0, 1.0, 1.0, 1.0, 1.0 };
public double[] SXAntiDeadzone = new double[5] { 0.0, 0.0, 0.0, 0.0, 0.0 },
SZAntiDeadzone = new double[5] { 0.0, 0.0, 0.0, 0.0, 0.0 };
public double[] l2Sens = new double[5] { 1.0, 1.0, 1.0, 1.0, 1.0 }, r2Sens = new double[5] { 1.0, 1.0, 1.0, 1.0, 1.0 };
public double[] LSSens = new double[5] { 1.0, 1.0, 1.0, 1.0, 1.0 }, RSSens = new double[5] { 1.0, 1.0, 1.0, 1.0, 1.0 };
public double[] SXSens = new double[5] { 1.0, 1.0, 1.0, 1.0, 1.0 }, SZSens = new double[5] { 1.0, 1.0, 1.0, 1.0, 1.0 };
public Byte[] tapSensitivity = new Byte[5] { 0, 0, 0, 0, 0 };
public bool[] doubleTap = new bool[5] { false, false, false, false, false };
public int[] scrollSensitivity = new int[5] { 0, 0, 0, 0, 0 };
public int[] touchpadInvert = new int[5] { 0, 0, 0, 0, 0 };
public double[] rainbow = new double[5] { 0.0, 0.0, 0.0, 0.0, 0.0 };
public int[] flashAt = new int[5] { 0, 0, 0, 0, 0 };
public bool[] mouseAccel = new bool[5] { false, false, false, false, false };
public int[] btPollRate = new int[5] { 4, 4, 4, 4, 4 };
public int[] gyroMouseDZ = new int[5] { MouseCursor.GYRO_MOUSE_DEADZONE, MouseCursor.GYRO_MOUSE_DEADZONE,
MouseCursor.GYRO_MOUSE_DEADZONE, MouseCursor.GYRO_MOUSE_DEADZONE,
MouseCursor.GYRO_MOUSE_DEADZONE };
public bool[] gyroMouseToggle = new bool[5] { false, false, false,
false, false };
public SquareStickInfo[] squStickInfo = new SquareStickInfo[5]
{
new SquareStickInfo(), new SquareStickInfo(),
new SquareStickInfo(), new SquareStickInfo(),
new SquareStickInfo(),
};
private void setOutBezierCurveObjArrayItem(BezierCurve[] bezierCurveArray, int device, int curveOptionValue, BezierCurve.AxisType axisType)
{
// Set bezier curve obj of axis. 0=Linear (no curve mapping), 1-5=Pre-defined curves, 6=User supplied custom curve string value of a profile (comma separated list of 4 decimal numbers)
switch (curveOptionValue)
{
// Commented out case 1..5 because Mapping.cs:SetCurveAndDeadzone function has the original IF-THEN-ELSE code logic for those original 1..5 output curve mappings (ie. no need to initialize the lookup result table).
// Only the new bezier custom curve option 6 uses the lookup result table (initialized in BezierCurve class based on an input curve definition).
//case 1: bezierCurveArray[device].InitBezierCurve(99.0, 91.0, 0.00, 0.00, axisType); break; // Enhanced Precision (hard-coded curve) (almost the same curve as bezier 0.70, 0.28, 1.00, 1.00)
//case 2: bezierCurveArray[device].InitBezierCurve(99.0, 92.0, 0.00, 0.00, axisType); break; // Quadric
//case 3: bezierCurveArray[device].InitBezierCurve(99.0, 93.0, 0.00, 0.00, axisType); break; // Cubic
//case 4: bezierCurveArray[device].InitBezierCurve(99.0, 94.0, 0.00, 0.00, axisType); break; // Easeout Quad
//case 5: bezierCurveArray[device].InitBezierCurve(99.0, 95.0, 0.00, 0.00, axisType); break; // Easeout Cubic
case 6: bezierCurveArray[device].InitBezierCurve(bezierCurveArray[device].CustomDefinition, axisType); break; // Custom output curve
}
}
public BezierCurve[] lsOutBezierCurveObj = new BezierCurve[5] { new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve() };
public BezierCurve[] rsOutBezierCurveObj = new BezierCurve[5] { new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve() };
public BezierCurve[] l2OutBezierCurveObj = new BezierCurve[5] { new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve() };
public BezierCurve[] r2OutBezierCurveObj = new BezierCurve[5] { new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve() };
public BezierCurve[] sxOutBezierCurveObj = new BezierCurve[5] { new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve() };
public BezierCurve[] szOutBezierCurveObj = new BezierCurve[5] { new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve(), new BezierCurve() };
private int[] _lsOutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int getLsOutCurveMode(int index) { return _lsOutCurveMode[index]; }
public void setLsOutCurveMode(int index, int value)
{
if (value >= 1) setOutBezierCurveObjArrayItem(lsOutBezierCurveObj, index, value, BezierCurve.AxisType.LSRS);
_lsOutCurveMode[index] = value;
}
private int[] _rsOutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int getRsOutCurveMode(int index) { return _rsOutCurveMode[index]; }
public void setRsOutCurveMode(int index, int value)
{
if (value >= 1) setOutBezierCurveObjArrayItem(rsOutBezierCurveObj, index, value, BezierCurve.AxisType.LSRS);
_rsOutCurveMode[index] = value;
}
private int[] _l2OutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int getL2OutCurveMode(int index) { return _l2OutCurveMode[index]; }
public void setL2OutCurveMode(int index, int value)
{
if (value >= 1) setOutBezierCurveObjArrayItem(l2OutBezierCurveObj, index, value, BezierCurve.AxisType.L2R2);
_l2OutCurveMode[index] = value;
}
private int[] _r2OutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int getR2OutCurveMode(int index) { return _r2OutCurveMode[index]; }
public void setR2OutCurveMode(int index, int value)
{
if (value >= 1) setOutBezierCurveObjArrayItem(r2OutBezierCurveObj, index, value, BezierCurve.AxisType.L2R2);
_r2OutCurveMode[index] = value;
}
private int[] _sxOutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int getSXOutCurveMode(int index) { return _sxOutCurveMode[index]; }
public void setSXOutCurveMode(int index, int value)
{
if (value >= 1) setOutBezierCurveObjArrayItem(sxOutBezierCurveObj, index, value, BezierCurve.AxisType.SA);
_sxOutCurveMode[index] = value;
}
private int[] _szOutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int getSZOutCurveMode(int index) { return _szOutCurveMode[index]; }
public void setSZOutCurveMode(int index, int value)
{
if (value >= 1) setOutBezierCurveObjArrayItem(szOutBezierCurveObj, index, value, BezierCurve.AxisType.SA);
_szOutCurveMode[index] = value;
}
public DS4Color[] m_LowLeds = new DS4Color[5]
{
new DS4Color(Color.Black),
new DS4Color(Color.Black),
new DS4Color(Color.Black),
new DS4Color(Color.Black),
new DS4Color(Color.Black)
};
public DS4Color[] m_Leds = new DS4Color[5]
{
new DS4Color(Color.Blue),
new DS4Color(Color.Red),
new DS4Color(Color.Green),
new DS4Color(Color.Pink),
new DS4Color(Color.White)
};
public DS4Color[] m_ChargingLeds = new DS4Color[5]
{
new DS4Color(Color.Black),
new DS4Color(Color.Black),
new DS4Color(Color.Black),
new DS4Color(Color.Black),
new DS4Color(Color.Black)
};
public DS4Color[] m_FlashLeds = new DS4Color[5]
{
new DS4Color(Color.Black),
new DS4Color(Color.Black),
new DS4Color(Color.Black),
new DS4Color(Color.Black),
new DS4Color(Color.Black)
};
public bool[] useCustomLeds = new bool[5] { false, false, false, false, false };
public DS4Color[] m_CustomLeds = new DS4Color[5]
{
new DS4Color(Color.Blue),
new DS4Color(Color.Blue),
new DS4Color(Color.Blue),
new DS4Color(Color.Blue),
new DS4Color(Color.Blue)
};
public double[] maxRainbowSat = new double[5] { 1.0, 1.0, 1.0, 1.0, 1.0 };
public int[] chargingType = new int[5] { 0, 0, 0, 0, 0 };
public string[] launchProgram = new string[5] { string.Empty, string.Empty, string.Empty, string.Empty, string.Empty };
public bool[] dinputOnly = new bool[5] { false, false, false, false, false };
public bool[] startTouchpadOff = new bool[5] { false, false, false, false, false };
public bool[] useTPforControls = new bool[5] { false, false, false, false, false };
public bool[] useSAforMouse = new bool[5] { false, false, false, false, false };
public GyroOutMode[] gyroOutMode = new GyroOutMode[5] { GyroOutMode.Controls, GyroOutMode.Controls,
GyroOutMode.Controls, GyroOutMode.Controls, GyroOutMode.Controls };
public string[] sATriggers = new string[5] { "-1", "-1", "-1", "-1", "-1" };
public string[] sAMouseStickTriggers = new string[5] { "-1", "-1", "-1", "-1", "-1" };
public bool[] sATriggerCond = new bool[5] { true, true, true, true, true };
public bool[] sAMouseStickTriggerCond = new bool[5] { true, true, true, true, true };
public bool[] gyroMouseStickTriggerTurns = new bool[5] { true, true, true, true, true };
public GyroMouseStickInfo[] gyroMStickInfo = new GyroMouseStickInfo[5]
{
new GyroMouseStickInfo(), new GyroMouseStickInfo(),
new GyroMouseStickInfo(), new GyroMouseStickInfo(),
new GyroMouseStickInfo()
};
public bool[] gyroMouseStickToggle = new bool[5] { false, false, false,
false, false };
public SASteeringWheelEmulationAxisType[] sASteeringWheelEmulationAxis = new SASteeringWheelEmulationAxisType[5] { SASteeringWheelEmulationAxisType.None, SASteeringWheelEmulationAxisType.None, SASteeringWheelEmulationAxisType.None, SASteeringWheelEmulationAxisType.None, SASteeringWheelEmulationAxisType.None };
public int[] sASteeringWheelEmulationRange = new int[5] { 360, 360, 360, 360, 360 };
public int[][] touchDisInvertTriggers = new int[5][] { new int[1] { -1 }, new int[1] { -1 }, new int[1] { -1 },
new int[1] { -1 }, new int[1] { -1 } };
public int[] lsCurve = new int[5] { 0, 0, 0, 0, 0 };
public int[] rsCurve = new int[5] { 0, 0, 0, 0, 0 };
public Boolean useExclusiveMode = false;
public Int32 formWidth = 782;
public Int32 formHeight = 550;
public int formLocationX = 0;
public int formLocationY = 0;
public Boolean startMinimized = false;
public Boolean minToTaskbar = false;
public DateTime lastChecked;
public int CheckWhen = 1;
public int notifications = 2;
public bool disconnectBTAtStop = false;
public bool swipeProfiles = true;
public bool ds4Mapping = false;
public bool quickCharge = false;
public bool closeMini = false;
public List<SpecialAction> actions = new List<SpecialAction>();
public List<DS4ControlSettings>[] ds4settings = new List<DS4ControlSettings>[5]
{ new List<DS4ControlSettings>(), new List<DS4ControlSettings>(), new List<DS4ControlSettings>(),
new List<DS4ControlSettings>(), new List<DS4ControlSettings>() };
public List<string>[] profileActions = new List<string>[5] { null, null, null, null, null };
public int[] profileActionCount = new int[5] { 0, 0, 0, 0, 0 };
public Dictionary<string, SpecialAction>[] profileActionDict = new Dictionary<string, SpecialAction>[5]
{ new Dictionary<string, SpecialAction>(), new Dictionary<string, SpecialAction>(), new Dictionary<string, SpecialAction>(),
new Dictionary<string, SpecialAction>(), new Dictionary<string, SpecialAction>() };
public Dictionary<string, int>[] profileActionIndexDict = new Dictionary<string, int>[5]
{ new Dictionary<string, int>(), new Dictionary<string, int>(), new Dictionary<string, int>(),
new Dictionary<string, int>(), new Dictionary<string, int>() };
public string useLang = "";
public bool downloadLang = true;
public bool useWhiteIcon;
public bool flashWhenLate = true;
public int flashWhenLateAt = 20;
public bool useUDPServ = false;
public int udpServPort = 26760;
public string udpServListenAddress = "127.0.0.1"; // 127.0.0.1=IPAddress.Loopback (default), 0.0.0.0=IPAddress.Any as all interfaces, x.x.x.x = Specific ipv4 interface address or hostname
public bool useCustomSteamFolder;
public string customSteamFolder;
// Cache whether profile has custom action
public bool[] containsCustomAction = new bool[5] { false, false, false, false, false };
// Cache whether profile has custom extras
public bool[] containsCustomExtras = new bool[5] { false, false, false, false, false };
public int[] gyroSensitivity = new int[5] { 100, 100, 100, 100, 100 };
public int[] gyroSensVerticalScale = new int[5] { 100, 100, 100, 100, 100 };
public int[] gyroInvert = new int[5] { 0, 0, 0, 0, 0 };
public bool[] gyroTriggerTurns = new bool[5] { true, true, true, true, true };
public bool[] gyroSmoothing = new bool[5] { false, false, false, false, false };
public double[] gyroSmoothWeight = new double[5] { 0.5, 0.5, 0.5, 0.5, 0.5 };
public int[] gyroMouseHorizontalAxis = new int[5] { 0, 0, 0, 0, 0 };
public int[] gyroMouseStickHorizontalAxis = new int[5] { 0, 0, 0, 0, 0 };
public bool[] trackballMode = new bool[5] { false, false, false, false, false };
public double[] trackballFriction = new double[5] { 10.0, 10.0, 10.0, 10.0, 10.0 };
// Used to hold the controller type desired in a profile
public OutContType[] outputDevType = new OutContType[5] { OutContType.X360,
OutContType.X360, OutContType.X360,
OutContType.X360, OutContType.X360 };
// TRUE=AutoProfile reverts to default profile if current foreground process is unknown, FALSE=Leave existing profile active when a foreground proces is unknown (ie. no matching auto-profile rule)
public bool autoProfileRevertDefaultProfile = true;
bool tempBool = false;
public BackingStore()
{
for (int i = 0; i < 5; i++)
{
foreach (DS4Controls dc in Enum.GetValues(typeof(DS4Controls)))
{
if (dc != DS4Controls.None)
ds4settings[i].Add(new DS4ControlSettings(dc));
}
profileActions[i] = new List<string>();
profileActions[i].Add("Disconnect Controller");
profileActionCount[i] = profileActions[i].Count;
}
}
private string stickOutputCurveString(int id)
{
string result = "linear";
switch (id)
{
case 0: break;
case 1: result = "enhanced-precision"; break;
case 2: result = "quadratic"; break;
case 3: result = "cubic"; break;
case 4: result = "easeout-quad"; break;
case 5: result = "easeout-cubic"; break;
case 6: result = "custom"; break;
default: break;
}
return result;
}
private int stickOutputCurveId(string name)
{
int id = 0;
switch (name)
{
case "linear": id = 0; break;
case "enhanced-precision": id = 1; break;
case "quadratic": id = 2; break;
case "cubic": id = 3; break;
case "easeout-quad": id = 4; break;
case "easeout-cubic": id = 5; break;
case "custom": id = 6; break;
default: break;
}
return id;
}
private string axisOutputCurveString(int id)
{
return stickOutputCurveString(id);
}
private int axisOutputCurveId(string name)
{
return stickOutputCurveId(name);
}
private bool SaTriggerCondValue(string text)
{
bool result = true;
switch (text)
{
case "and": result = true; break;
case "or": result = false; break;
default: result = true; break;
}
return result;
}
private string SaTriggerCondString(bool value)
{
string result = value ? "and" : "or";
return result;
}
public void SetSaTriggerCond(int index, string text)
{
sATriggerCond[index] = SaTriggerCondValue(text);
}
public void SetSaMouseStickTriggerCond(int index, string text)
{
sAMouseStickTriggerCond[index] = SaTriggerCondValue(text);
}
public void SetGyroMouseDZ(int index, int value, ControlService control)
{
gyroMouseDZ[index] = value;
if (index < 4 && control.touchPad[index] != null)
control.touchPad[index].CursorGyroDead = value;
}
public void SetGyroMouseToggle(int index, bool value, ControlService control)
{
gyroMouseToggle[index] = value;
if (index < 4 && control.touchPad[index] != null)
control.touchPad[index].ToggleGyroMouse = value;
}
public void SetGyroMouseStickToggle(int index, bool value, ControlService control)
{
gyroMouseStickToggle[index] = value;
if (index < 4 && control.touchPad[index] != null)
control.touchPad[index].ToggleGyroMouse = value;
}
private string OutContDeviceString(OutContType id)
{
string result = "X360";
switch (id)
{
case OutContType.None:
case OutContType.X360: result = "X360"; break;
case OutContType.DS4: result = "DS4"; break;
default: break;
}
return result;
}
private OutContType OutContDeviceId(string name)
{
OutContType id = OutContType.X360;
switch (name)
{
case "None":
case "X360": id = OutContType.X360; break;
case "DS4": id = OutContType.DS4; break;
default: break;
}
return id;
}
private void PortOldGyroSettings(int device)
{
if (gyroOutMode[device] == GyroOutMode.None)
{
gyroOutMode[device] = GyroOutMode.Controls;
}
}
private string GetGyroOutModeString(GyroOutMode mode)
{
string result = "None";
switch(mode)
{
case GyroOutMode.Controls:
result = "Controls";
break;
case GyroOutMode.Mouse:
result = "Mouse";
break;
case GyroOutMode.MouseJoystick:
result = "MouseJoystick";
break;
default:
break;
}
return result;
}
private GyroOutMode GetGyroOutModeType(string modeString)
{
GyroOutMode result = GyroOutMode.None;
switch(modeString)
{
case "Controls":
result = GyroOutMode.Controls;
break;
case "Mouse":
result = GyroOutMode.Mouse;
break;
case "MouseJoystick":
result = GyroOutMode.MouseJoystick;
break;
default:
break;
}
return result;
}
public bool SaveProfile(int device, string propath)
{
bool Saved = true;
string path = Global.appdatapath + @"\Profiles\" + Path.GetFileNameWithoutExtension(propath) + ".xml";
try
{
XmlNode Node;
XmlNode xmlControls = m_Xdoc.SelectSingleNode("/DS4Windows/Control");
XmlNode xmlShiftControls = m_Xdoc.SelectSingleNode("/DS4Windows/ShiftControl");
m_Xdoc.RemoveAll();
Node = m_Xdoc.CreateXmlDeclaration("1.0", "utf-8", string.Empty);
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateComment(string.Format(" DS4Windows Configuration Data. {0} ", DateTime.Now));
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateWhitespace("\r\n");
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateNode(XmlNodeType.Element, "DS4Windows", null);
XmlNode xmlFlushHIDQueue = m_Xdoc.CreateNode(XmlNodeType.Element, "flushHIDQueue", null); xmlFlushHIDQueue.InnerText = flushHIDQueue[device].ToString(); Node.AppendChild(xmlFlushHIDQueue);
XmlNode xmlTouchToggle = m_Xdoc.CreateNode(XmlNodeType.Element, "touchToggle", null); xmlTouchToggle.InnerText = enableTouchToggle[device].ToString(); Node.AppendChild(xmlTouchToggle);
XmlNode xmlIdleDisconnectTimeout = m_Xdoc.CreateNode(XmlNodeType.Element, "idleDisconnectTimeout", null); xmlIdleDisconnectTimeout.InnerText = idleDisconnectTimeout[device].ToString(); Node.AppendChild(xmlIdleDisconnectTimeout);
XmlNode xmlColor = m_Xdoc.CreateNode(XmlNodeType.Element, "Color", null);
xmlColor.InnerText = m_Leds[device].red.ToString() + "," + m_Leds[device].green.ToString() + "," + m_Leds[device].blue.ToString();
Node.AppendChild(xmlColor);
XmlNode xmlRumbleBoost = m_Xdoc.CreateNode(XmlNodeType.Element, "RumbleBoost", null); xmlRumbleBoost.InnerText = rumble[device].ToString(); Node.AppendChild(xmlRumbleBoost);
XmlNode xmlRumbleAutostopTime = m_Xdoc.CreateNode(XmlNodeType.Element, "RumbleAutostopTime", null); xmlRumbleAutostopTime.InnerText = rumbleAutostopTime[device].ToString(); Node.AppendChild(xmlRumbleAutostopTime);
XmlNode xmlLedAsBatteryIndicator = m_Xdoc.CreateNode(XmlNodeType.Element, "ledAsBatteryIndicator", null); xmlLedAsBatteryIndicator.InnerText = ledAsBattery[device].ToString(); Node.AppendChild(xmlLedAsBatteryIndicator);
XmlNode xmlLowBatteryFlash = m_Xdoc.CreateNode(XmlNodeType.Element, "FlashType", null); xmlLowBatteryFlash.InnerText = flashType[device].ToString(); Node.AppendChild(xmlLowBatteryFlash);
XmlNode xmlFlashBatterAt = m_Xdoc.CreateNode(XmlNodeType.Element, "flashBatteryAt", null); xmlFlashBatterAt.InnerText = flashAt[device].ToString(); Node.AppendChild(xmlFlashBatterAt);
XmlNode xmlTouchSensitivity = m_Xdoc.CreateNode(XmlNodeType.Element, "touchSensitivity", null); xmlTouchSensitivity.InnerText = touchSensitivity[device].ToString(); Node.AppendChild(xmlTouchSensitivity);
XmlNode xmlLowColor = m_Xdoc.CreateNode(XmlNodeType.Element, "LowColor", null);
xmlLowColor.InnerText = m_LowLeds[device].red.ToString() + "," + m_LowLeds[device].green.ToString() + "," + m_LowLeds[device].blue.ToString();
Node.AppendChild(xmlLowColor);
XmlNode xmlChargingColor = m_Xdoc.CreateNode(XmlNodeType.Element, "ChargingColor", null);
xmlChargingColor.InnerText = m_ChargingLeds[device].red.ToString() + "," + m_ChargingLeds[device].green.ToString() + "," + m_ChargingLeds[device].blue.ToString();
Node.AppendChild(xmlChargingColor);
XmlNode xmlFlashColor = m_Xdoc.CreateNode(XmlNodeType.Element, "FlashColor", null);
xmlFlashColor.InnerText = m_FlashLeds[device].red.ToString() + "," + m_FlashLeds[device].green.ToString() + "," + m_FlashLeds[device].blue.ToString();
Node.AppendChild(xmlFlashColor);
XmlNode xmlTouchpadJitterCompensation = m_Xdoc.CreateNode(XmlNodeType.Element, "touchpadJitterCompensation", null); xmlTouchpadJitterCompensation.InnerText = touchpadJitterCompensation[device].ToString(); Node.AppendChild(xmlTouchpadJitterCompensation);
XmlNode xmlLowerRCOn = m_Xdoc.CreateNode(XmlNodeType.Element, "lowerRCOn", null); xmlLowerRCOn.InnerText = lowerRCOn[device].ToString(); Node.AppendChild(xmlLowerRCOn);
XmlNode xmlTapSensitivity = m_Xdoc.CreateNode(XmlNodeType.Element, "tapSensitivity", null); xmlTapSensitivity.InnerText = tapSensitivity[device].ToString(); Node.AppendChild(xmlTapSensitivity);
XmlNode xmlDouble = m_Xdoc.CreateNode(XmlNodeType.Element, "doubleTap", null); xmlDouble.InnerText = doubleTap[device].ToString(); Node.AppendChild(xmlDouble);
XmlNode xmlScrollSensitivity = m_Xdoc.CreateNode(XmlNodeType.Element, "scrollSensitivity", null); xmlScrollSensitivity.InnerText = scrollSensitivity[device].ToString(); Node.AppendChild(xmlScrollSensitivity);
XmlNode xmlLeftTriggerMiddle = m_Xdoc.CreateNode(XmlNodeType.Element, "LeftTriggerMiddle", null); xmlLeftTriggerMiddle.InnerText = l2ModInfo[device].deadZone.ToString(); Node.AppendChild(xmlLeftTriggerMiddle);
XmlNode xmlRightTriggerMiddle = m_Xdoc.CreateNode(XmlNodeType.Element, "RightTriggerMiddle", null); xmlRightTriggerMiddle.InnerText = r2ModInfo[device].deadZone.ToString(); Node.AppendChild(xmlRightTriggerMiddle);
XmlNode xmlTouchpadInvert = m_Xdoc.CreateNode(XmlNodeType.Element, "TouchpadInvert", null); xmlTouchpadInvert.InnerText = touchpadInvert[device].ToString(); Node.AppendChild(xmlTouchpadInvert);
XmlNode xmlL2AD = m_Xdoc.CreateNode(XmlNodeType.Element, "L2AntiDeadZone", null); xmlL2AD.InnerText = l2ModInfo[device].antiDeadZone.ToString(); Node.AppendChild(xmlL2AD);
XmlNode xmlR2AD = m_Xdoc.CreateNode(XmlNodeType.Element, "R2AntiDeadZone", null); xmlR2AD.InnerText = r2ModInfo[device].antiDeadZone.ToString(); Node.AppendChild(xmlR2AD);
XmlNode xmlL2Maxzone = m_Xdoc.CreateNode(XmlNodeType.Element, "L2MaxZone", null); xmlL2Maxzone.InnerText = l2ModInfo[device].maxZone.ToString(); Node.AppendChild(xmlL2Maxzone);
XmlNode xmlR2Maxzone = m_Xdoc.CreateNode(XmlNodeType.Element, "R2MaxZone", null); xmlR2Maxzone.InnerText = r2ModInfo[device].maxZone.ToString(); Node.AppendChild(xmlR2Maxzone);
XmlNode xmlButtonMouseSensitivity = m_Xdoc.CreateNode(XmlNodeType.Element, "ButtonMouseSensitivity", null); xmlButtonMouseSensitivity.InnerText = buttonMouseSensitivity[device].ToString(); Node.AppendChild(xmlButtonMouseSensitivity);
XmlNode xmlRainbow = m_Xdoc.CreateNode(XmlNodeType.Element, "Rainbow", null); xmlRainbow.InnerText = rainbow[device].ToString(); Node.AppendChild(xmlRainbow);
XmlNode xmlMaxSatRainbow = m_Xdoc.CreateNode(XmlNodeType.Element, "MaxSatRainbow", null); xmlMaxSatRainbow.InnerText = Convert.ToInt32(maxRainbowSat[device] * 100.0).ToString(); Node.AppendChild(xmlMaxSatRainbow);
XmlNode xmlLSD = m_Xdoc.CreateNode(XmlNodeType.Element, "LSDeadZone", null); xmlLSD.InnerText = lsModInfo[device].deadZone.ToString(); Node.AppendChild(xmlLSD);
XmlNode xmlRSD = m_Xdoc.CreateNode(XmlNodeType.Element, "RSDeadZone", null); xmlRSD.InnerText = rsModInfo[device].deadZone.ToString(); Node.AppendChild(xmlRSD);
XmlNode xmlLSAD = m_Xdoc.CreateNode(XmlNodeType.Element, "LSAntiDeadZone", null); xmlLSAD.InnerText = lsModInfo[device].antiDeadZone.ToString(); Node.AppendChild(xmlLSAD);
XmlNode xmlRSAD = m_Xdoc.CreateNode(XmlNodeType.Element, "RSAntiDeadZone", null); xmlRSAD.InnerText = rsModInfo[device].antiDeadZone.ToString(); Node.AppendChild(xmlRSAD);
XmlNode xmlLSMaxZone = m_Xdoc.CreateNode(XmlNodeType.Element, "LSMaxZone", null); xmlLSMaxZone.InnerText = lsModInfo[device].maxZone.ToString(); Node.AppendChild(xmlLSMaxZone);
XmlNode xmlRSMaxZone = m_Xdoc.CreateNode(XmlNodeType.Element, "RSMaxZone", null); xmlRSMaxZone.InnerText = rsModInfo[device].maxZone.ToString(); Node.AppendChild(xmlRSMaxZone);
XmlNode xmlLSRotation = m_Xdoc.CreateNode(XmlNodeType.Element, "LSRotation", null); xmlLSRotation.InnerText = Convert.ToInt32(LSRotation[device] * 180.0 / Math.PI).ToString(); Node.AppendChild(xmlLSRotation);
XmlNode xmlRSRotation = m_Xdoc.CreateNode(XmlNodeType.Element, "RSRotation", null); xmlRSRotation.InnerText = Convert.ToInt32(RSRotation[device] * 180.0 / Math.PI).ToString(); Node.AppendChild(xmlRSRotation);
XmlNode xmlSXD = m_Xdoc.CreateNode(XmlNodeType.Element, "SXDeadZone", null); xmlSXD.InnerText = SXDeadzone[device].ToString(); Node.AppendChild(xmlSXD);
XmlNode xmlSZD = m_Xdoc.CreateNode(XmlNodeType.Element, "SZDeadZone", null); xmlSZD.InnerText = SZDeadzone[device].ToString(); Node.AppendChild(xmlSZD);
XmlNode xmlSXMaxzone = m_Xdoc.CreateNode(XmlNodeType.Element, "SXMaxZone", null); xmlSXMaxzone.InnerText = Convert.ToInt32(SXMaxzone[device] * 100.0).ToString(); Node.AppendChild(xmlSXMaxzone);
XmlNode xmlSZMaxzone = m_Xdoc.CreateNode(XmlNodeType.Element, "SZMaxZone", null); xmlSZMaxzone.InnerText = Convert.ToInt32(SZMaxzone[device] * 100.0).ToString(); Node.AppendChild(xmlSZMaxzone);
XmlNode xmlSXAntiDeadzone = m_Xdoc.CreateNode(XmlNodeType.Element, "SXAntiDeadZone", null); xmlSXAntiDeadzone.InnerText = Convert.ToInt32(SXAntiDeadzone[device] * 100.0).ToString(); Node.AppendChild(xmlSXAntiDeadzone);
XmlNode xmlSZAntiDeadzone = m_Xdoc.CreateNode(XmlNodeType.Element, "SZAntiDeadZone", null); xmlSZAntiDeadzone.InnerText = Convert.ToInt32(SZAntiDeadzone[device] * 100.0).ToString(); Node.AppendChild(xmlSZAntiDeadzone);
XmlNode xmlSens = m_Xdoc.CreateNode(XmlNodeType.Element, "Sensitivity", null);
xmlSens.InnerText = $"{LSSens[device]}|{RSSens[device]}|{l2Sens[device]}|{r2Sens[device]}|{SXSens[device]}|{SZSens[device]}";
Node.AppendChild(xmlSens);
XmlNode xmlChargingType = m_Xdoc.CreateNode(XmlNodeType.Element, "ChargingType", null); xmlChargingType.InnerText = chargingType[device].ToString(); Node.AppendChild(xmlChargingType);
XmlNode xmlMouseAccel = m_Xdoc.CreateNode(XmlNodeType.Element, "MouseAcceleration", null); xmlMouseAccel.InnerText = mouseAccel[device].ToString(); Node.AppendChild(xmlMouseAccel);
//XmlNode xmlShiftMod = m_Xdoc.CreateNode(XmlNodeType.Element, "ShiftModifier", null); xmlShiftMod.InnerText = shiftModifier[device].ToString(); Node.AppendChild(xmlShiftMod);
XmlNode xmlLaunchProgram = m_Xdoc.CreateNode(XmlNodeType.Element, "LaunchProgram", null); xmlLaunchProgram.InnerText = launchProgram[device].ToString(); Node.AppendChild(xmlLaunchProgram);
XmlNode xmlDinput = m_Xdoc.CreateNode(XmlNodeType.Element, "DinputOnly", null); xmlDinput.InnerText = dinputOnly[device].ToString(); Node.AppendChild(xmlDinput);
XmlNode xmlStartTouchpadOff = m_Xdoc.CreateNode(XmlNodeType.Element, "StartTouchpadOff", null); xmlStartTouchpadOff.InnerText = startTouchpadOff[device].ToString(); Node.AppendChild(xmlStartTouchpadOff);
XmlNode xmlUseTPforControls = m_Xdoc.CreateNode(XmlNodeType.Element, "UseTPforControls", null); xmlUseTPforControls.InnerText = useTPforControls[device].ToString(); Node.AppendChild(xmlUseTPforControls);
XmlNode xmlUseSAforMouse = m_Xdoc.CreateNode(XmlNodeType.Element, "UseSAforMouse", null); xmlUseSAforMouse.InnerText = useSAforMouse[device].ToString(); Node.AppendChild(xmlUseSAforMouse);
XmlNode xmlSATriggers = m_Xdoc.CreateNode(XmlNodeType.Element, "SATriggers", null); xmlSATriggers.InnerText = sATriggers[device].ToString(); Node.AppendChild(xmlSATriggers);
XmlNode xmlSATriggerCond = m_Xdoc.CreateNode(XmlNodeType.Element, "SATriggerCond", null); xmlSATriggerCond.InnerText = SaTriggerCondString(sATriggerCond[device]); Node.AppendChild(xmlSATriggerCond);
XmlNode xmlSASteeringWheelEmulationAxis = m_Xdoc.CreateNode(XmlNodeType.Element, "SASteeringWheelEmulationAxis", null); xmlSASteeringWheelEmulationAxis.InnerText = sASteeringWheelEmulationAxis[device].ToString("G"); Node.AppendChild(xmlSASteeringWheelEmulationAxis);
XmlNode xmlSASteeringWheelEmulationRange = m_Xdoc.CreateNode(XmlNodeType.Element, "SASteeringWheelEmulationRange", null); xmlSASteeringWheelEmulationRange.InnerText = sASteeringWheelEmulationRange[device].ToString(); Node.AppendChild(xmlSASteeringWheelEmulationRange);
XmlNode xmlTouchDisInvTriggers = m_Xdoc.CreateNode(XmlNodeType.Element, "TouchDisInvTriggers", null);
string tempTouchDisInv = string.Join(",", touchDisInvertTriggers[device]);
xmlTouchDisInvTriggers.InnerText = tempTouchDisInv;
Node.AppendChild(xmlTouchDisInvTriggers);
XmlNode xmlGyroSensitivity = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroSensitivity", null); xmlGyroSensitivity.InnerText = gyroSensitivity[device].ToString(); Node.AppendChild(xmlGyroSensitivity);
XmlNode xmlGyroSensVerticalScale = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroSensVerticalScale", null); xmlGyroSensVerticalScale.InnerText = gyroSensVerticalScale[device].ToString(); Node.AppendChild(xmlGyroSensVerticalScale);
XmlNode xmlGyroInvert = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroInvert", null); xmlGyroInvert.InnerText = gyroInvert[device].ToString(); Node.AppendChild(xmlGyroInvert);
XmlNode xmlGyroTriggerTurns = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroTriggerTurns", null); xmlGyroTriggerTurns.InnerText = gyroTriggerTurns[device].ToString(); Node.AppendChild(xmlGyroTriggerTurns);
XmlNode xmlGyroSmoothWeight = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroSmoothingWeight", null); xmlGyroSmoothWeight.InnerText = Convert.ToInt32(gyroSmoothWeight[device] * 100).ToString(); Node.AppendChild(xmlGyroSmoothWeight);
XmlNode xmlGyroSmoothing = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroSmoothing", null); xmlGyroSmoothing.InnerText = gyroSmoothing[device].ToString(); Node.AppendChild(xmlGyroSmoothing);
XmlNode xmlGyroMouseHAxis = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseHAxis", null); xmlGyroMouseHAxis.InnerText = gyroMouseHorizontalAxis[device].ToString(); Node.AppendChild(xmlGyroMouseHAxis);
XmlNode xmlGyroMouseDZ = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseDeadZone", null); xmlGyroMouseDZ.InnerText = gyroMouseDZ[device].ToString(); Node.AppendChild(xmlGyroMouseDZ);
XmlNode xmlGyroMouseToggle = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseToggle", null); xmlGyroMouseToggle.InnerText = gyroMouseToggle[device].ToString(); Node.AppendChild(xmlGyroMouseToggle);
XmlNode xmlGyroOutMode = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroOutputMode", null); xmlGyroOutMode.InnerText = GetGyroOutModeString(gyroOutMode[device]); Node.AppendChild(xmlGyroOutMode);
XmlNode xmlGyroMStickTriggers = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickTriggers", null); xmlGyroMStickTriggers.InnerText = sAMouseStickTriggers[device].ToString(); Node.AppendChild(xmlGyroMStickTriggers);
XmlNode xmlGyroMStickTriggerCond = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickTriggerCond", null); xmlGyroMStickTriggerCond.InnerText = SaTriggerCondString(sAMouseStickTriggerCond[device]); Node.AppendChild(xmlGyroMStickTriggerCond);
XmlNode xmlGyroMStickTriggerTurns = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickTriggerTurns", null); xmlGyroMStickTriggerTurns.InnerText = gyroMouseStickTriggerTurns[device].ToString(); Node.AppendChild(xmlGyroMStickTriggerTurns);
XmlNode xmlGyroMStickHAxis = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickHAxis", null); xmlGyroMStickHAxis.InnerText = gyroMouseStickHorizontalAxis[device].ToString(); Node.AppendChild(xmlGyroMStickHAxis);
XmlNode xmlGyroMStickDZ = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickDeadZone", null); xmlGyroMStickDZ.InnerText = gyroMStickInfo[device].deadZone.ToString(); Node.AppendChild(xmlGyroMStickDZ);
XmlNode xmlGyroMStickMaxZ = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickMaxZone", null); xmlGyroMStickMaxZ.InnerText = gyroMStickInfo[device].maxZone.ToString(); Node.AppendChild(xmlGyroMStickMaxZ);
XmlNode xmlGyroMStickAntiDX = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickAntiDeadX", null); xmlGyroMStickAntiDX.InnerText = gyroMStickInfo[device].antiDeadX.ToString(); Node.AppendChild(xmlGyroMStickAntiDX);
XmlNode xmlGyroMStickAntiDY = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickAntiDeadY", null); xmlGyroMStickAntiDY.InnerText = gyroMStickInfo[device].antiDeadY.ToString(); Node.AppendChild(xmlGyroMStickAntiDY);
XmlNode xmlGyroMStickInvert = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickInvert", null); xmlGyroMStickInvert.InnerText = gyroMStickInfo[device].inverted.ToString(); Node.AppendChild(xmlGyroMStickInvert);
XmlNode xmlGyroMStickToggle = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickToggle", null); xmlGyroMStickToggle.InnerText = gyroMouseStickToggle[device].ToString(); Node.AppendChild(xmlGyroMStickToggle);
XmlNode xmlGyroMStickVerticalScale = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickVerticalScale", null); xmlGyroMStickVerticalScale.InnerText = gyroMStickInfo[device].vertScale.ToString(); Node.AppendChild(xmlGyroMStickVerticalScale);
XmlNode xmlGyroMStickSmoothing = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickSmoothing", null); xmlGyroMStickSmoothing.InnerText = gyroMStickInfo[device].useSmoothing.ToString(); Node.AppendChild(xmlGyroMStickSmoothing);
XmlNode xmlGyroMStickSmoothWeight = m_Xdoc.CreateNode(XmlNodeType.Element, "GyroMouseStickSmoothingWeight", null); xmlGyroMStickSmoothWeight.InnerText = Convert.ToInt32(gyroMStickInfo[device].smoothWeight * 100).ToString(); Node.AppendChild(xmlGyroMStickSmoothWeight);
XmlNode xmlLSC = m_Xdoc.CreateNode(XmlNodeType.Element, "LSCurve", null); xmlLSC.InnerText = lsCurve[device].ToString(); Node.AppendChild(xmlLSC);
XmlNode xmlRSC = m_Xdoc.CreateNode(XmlNodeType.Element, "RSCurve", null); xmlRSC.InnerText = rsCurve[device].ToString(); Node.AppendChild(xmlRSC);
XmlNode xmlProfileActions = m_Xdoc.CreateNode(XmlNodeType.Element, "ProfileActions", null); xmlProfileActions.InnerText = string.Join("/", profileActions[device]); Node.AppendChild(xmlProfileActions);
XmlNode xmlBTPollRate = m_Xdoc.CreateNode(XmlNodeType.Element, "BTPollRate", null); xmlBTPollRate.InnerText = btPollRate[device].ToString(); Node.AppendChild(xmlBTPollRate);
XmlNode xmlLsOutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "LSOutputCurveMode", null); xmlLsOutputCurveMode.InnerText = stickOutputCurveString(getLsOutCurveMode(device)); Node.AppendChild(xmlLsOutputCurveMode);
XmlNode xmlLsOutputCurveCustom = m_Xdoc.CreateNode(XmlNodeType.Element, "LSOutputCurveCustom", null); xmlLsOutputCurveCustom.InnerText = lsOutBezierCurveObj[device].ToString(); Node.AppendChild(xmlLsOutputCurveCustom);
XmlNode xmlRsOutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "RSOutputCurveMode", null); xmlRsOutputCurveMode.InnerText = stickOutputCurveString(getRsOutCurveMode(device)); Node.AppendChild(xmlRsOutputCurveMode);
XmlNode xmlRsOutputCurveCustom = m_Xdoc.CreateNode(XmlNodeType.Element, "RSOutputCurveCustom", null); xmlRsOutputCurveCustom.InnerText = rsOutBezierCurveObj[device].ToString(); Node.AppendChild(xmlRsOutputCurveCustom);
XmlNode xmlLsSquareStickMode = m_Xdoc.CreateNode(XmlNodeType.Element, "LSSquareStick", null); xmlLsSquareStickMode.InnerText = squStickInfo[device].lsMode.ToString(); Node.AppendChild(xmlLsSquareStickMode);
XmlNode xmlRsSquareStickMode = m_Xdoc.CreateNode(XmlNodeType.Element, "RSSquareStick", null); xmlRsSquareStickMode.InnerText = squStickInfo[device].rsMode.ToString(); Node.AppendChild(xmlRsSquareStickMode);
XmlNode xmlSquareStickRoundness = m_Xdoc.CreateNode(XmlNodeType.Element, "SquareStickRoundness", null); xmlSquareStickRoundness.InnerText = squStickInfo[device].lsRoundness.ToString(); Node.AppendChild(xmlSquareStickRoundness);
XmlNode xmlSquareRStickRoundness = m_Xdoc.CreateNode(XmlNodeType.Element, "SquareRStickRoundness", null); xmlSquareRStickRoundness.InnerText = squStickInfo[device].rsRoundness.ToString(); Node.AppendChild(xmlSquareRStickRoundness);
XmlNode xmlL2OutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "L2OutputCurveMode", null); xmlL2OutputCurveMode.InnerText = axisOutputCurveString(getL2OutCurveMode(device)); Node.AppendChild(xmlL2OutputCurveMode);
XmlNode xmlL2OutputCurveCustom = m_Xdoc.CreateNode(XmlNodeType.Element, "L2OutputCurveCustom", null); xmlL2OutputCurveCustom.InnerText = l2OutBezierCurveObj[device].ToString(); Node.AppendChild(xmlL2OutputCurveCustom);
XmlNode xmlR2OutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "R2OutputCurveMode", null); xmlR2OutputCurveMode.InnerText = axisOutputCurveString(getR2OutCurveMode(device)); Node.AppendChild(xmlR2OutputCurveMode);
XmlNode xmlR2OutputCurveCustom = m_Xdoc.CreateNode(XmlNodeType.Element, "R2OutputCurveCustom", null); xmlR2OutputCurveCustom.InnerText = r2OutBezierCurveObj[device].ToString(); Node.AppendChild(xmlR2OutputCurveCustom);
XmlNode xmlSXOutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "SXOutputCurveMode", null); xmlSXOutputCurveMode.InnerText = axisOutputCurveString(getSXOutCurveMode(device)); Node.AppendChild(xmlSXOutputCurveMode);
XmlNode xmlSXOutputCurveCustom = m_Xdoc.CreateNode(XmlNodeType.Element, "SXOutputCurveCustom", null); xmlSXOutputCurveCustom.InnerText = sxOutBezierCurveObj[device].ToString(); Node.AppendChild(xmlSXOutputCurveCustom);
XmlNode xmlSZOutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "SZOutputCurveMode", null); xmlSZOutputCurveMode.InnerText = axisOutputCurveString(getSZOutCurveMode(device)); Node.AppendChild(xmlSZOutputCurveMode);
XmlNode xmlSZOutputCurveCustom = m_Xdoc.CreateNode(XmlNodeType.Element, "SZOutputCurveCustom", null); xmlSZOutputCurveCustom.InnerText = szOutBezierCurveObj[device].ToString(); Node.AppendChild(xmlSZOutputCurveCustom);
XmlNode xmlTrackBallMode = m_Xdoc.CreateNode(XmlNodeType.Element, "TrackballMode", null); xmlTrackBallMode.InnerText = trackballMode[device].ToString(); Node.AppendChild(xmlTrackBallMode);
XmlNode xmlTrackBallFriction = m_Xdoc.CreateNode(XmlNodeType.Element, "TrackballFriction", null); xmlTrackBallFriction.InnerText = trackballFriction[device].ToString(); Node.AppendChild(xmlTrackBallFriction);
XmlNode xmlOutContDevice = m_Xdoc.CreateNode(XmlNodeType.Element, "OutputContDevice", null); xmlOutContDevice.InnerText = OutContDeviceString(outputDevType[device]); Node.AppendChild(xmlOutContDevice);
XmlNode NodeControl = m_Xdoc.CreateNode(XmlNodeType.Element, "Control", null);
XmlNode Key = m_Xdoc.CreateNode(XmlNodeType.Element, "Key", null);
XmlNode Macro = m_Xdoc.CreateNode(XmlNodeType.Element, "Macro", null);
XmlNode KeyType = m_Xdoc.CreateNode(XmlNodeType.Element, "KeyType", null);
XmlNode Button = m_Xdoc.CreateNode(XmlNodeType.Element, "Button", null);
XmlNode Extras = m_Xdoc.CreateNode(XmlNodeType.Element, "Extras", null);
XmlNode NodeShiftControl = m_Xdoc.CreateNode(XmlNodeType.Element, "ShiftControl", null);
XmlNode ShiftKey = m_Xdoc.CreateNode(XmlNodeType.Element, "Key", null);
XmlNode ShiftMacro = m_Xdoc.CreateNode(XmlNodeType.Element, "Macro", null);
XmlNode ShiftKeyType = m_Xdoc.CreateNode(XmlNodeType.Element, "KeyType", null);
XmlNode ShiftButton = m_Xdoc.CreateNode(XmlNodeType.Element, "Button", null);
XmlNode ShiftExtras = m_Xdoc.CreateNode(XmlNodeType.Element, "Extras", null);
foreach (DS4ControlSettings dcs in ds4settings[device])
{
if (dcs.action != null)
{
XmlNode buttonNode;
string keyType = string.Empty;
if (dcs.action is string)
{
if (dcs.action.ToString() == "Unbound")
keyType += DS4KeyType.Unbound;
}
if (dcs.keyType.HasFlag(DS4KeyType.HoldMacro))
keyType += DS4KeyType.HoldMacro;
else if (dcs.keyType.HasFlag(DS4KeyType.Macro))
keyType += DS4KeyType.Macro;
if (dcs.keyType.HasFlag(DS4KeyType.Toggle))
keyType += DS4KeyType.Toggle;
if (dcs.keyType.HasFlag(DS4KeyType.ScanCode))
keyType += DS4KeyType.ScanCode;
if (keyType != string.Empty)
{
buttonNode = m_Xdoc.CreateNode(XmlNodeType.Element, dcs.control.ToString(), null);
buttonNode.InnerText = keyType;
KeyType.AppendChild(buttonNode);
}
buttonNode = m_Xdoc.CreateNode(XmlNodeType.Element, dcs.control.ToString(), null);
if (dcs.action is IEnumerable<int> || dcs.action is int[] || dcs.action is ushort[])
{
int[] ii = (int[])dcs.action;
buttonNode.InnerText = string.Join("/", ii);
Macro.AppendChild(buttonNode);
}
else if (dcs.action is int || dcs.action is ushort || dcs.action is byte)
{
buttonNode.InnerText = dcs.action.ToString();
Key.AppendChild(buttonNode);
}
else if (dcs.action is string)
{
buttonNode.InnerText = dcs.action.ToString();
Button.AppendChild(buttonNode);
}
else if (dcs.action is X360Controls)
{
buttonNode.InnerText = getX360ControlString((X360Controls)dcs.action);
Button.AppendChild(buttonNode);
}
}
bool hasvalue = false;
if (!string.IsNullOrEmpty(dcs.extras))
{
foreach (string s in dcs.extras.Split(','))
{
if (s != "0")
{
hasvalue = true;
break;
}
}
}
if (hasvalue)
{
XmlNode extraNode = m_Xdoc.CreateNode(XmlNodeType.Element, dcs.control.ToString(), null);
extraNode.InnerText = dcs.extras;
Extras.AppendChild(extraNode);
}
if (dcs.shiftAction != null && dcs.shiftTrigger > 0)
{
XmlElement buttonNode;
string keyType = string.Empty;
if (dcs.shiftAction is string)
{
if (dcs.shiftAction.ToString() == "Unbound")
keyType += DS4KeyType.Unbound;
}
if (dcs.shiftKeyType.HasFlag(DS4KeyType.HoldMacro))
keyType += DS4KeyType.HoldMacro;
if (dcs.shiftKeyType.HasFlag(DS4KeyType.Macro))
keyType += DS4KeyType.Macro;
if (dcs.shiftKeyType.HasFlag(DS4KeyType.Toggle))
keyType += DS4KeyType.Toggle;
if (dcs.shiftKeyType.HasFlag(DS4KeyType.ScanCode))
keyType += DS4KeyType.ScanCode;
if (keyType != string.Empty)
{
buttonNode = m_Xdoc.CreateElement(dcs.control.ToString());
buttonNode.InnerText = keyType;
ShiftKeyType.AppendChild(buttonNode);
}
buttonNode = m_Xdoc.CreateElement(dcs.control.ToString());
buttonNode.SetAttribute("Trigger", dcs.shiftTrigger.ToString());
if (dcs.shiftAction is IEnumerable<int> || dcs.shiftAction is int[] || dcs.shiftAction is ushort[])
{
int[] ii = (int[])dcs.shiftAction;
buttonNode.InnerText = string.Join("/", ii);
ShiftMacro.AppendChild(buttonNode);
}
else if (dcs.shiftAction is int || dcs.shiftAction is ushort || dcs.shiftAction is byte)
{
buttonNode.InnerText = dcs.shiftAction.ToString();
ShiftKey.AppendChild(buttonNode);
}
else if (dcs.shiftAction is string || dcs.shiftAction is X360Controls)
{
buttonNode.InnerText = dcs.shiftAction.ToString();
ShiftButton.AppendChild(buttonNode);
}
}
hasvalue = false;
if (!string.IsNullOrEmpty(dcs.shiftExtras))
{
foreach (string s in dcs.shiftExtras.Split(','))
{
if (s != "0")
{
hasvalue = true;
break;
}
}
}
if (hasvalue)
{
XmlNode extraNode = m_Xdoc.CreateNode(XmlNodeType.Element, dcs.control.ToString(), null);
extraNode.InnerText = dcs.shiftExtras;
ShiftExtras.AppendChild(extraNode);
}
}
Node.AppendChild(NodeControl);
if (Button.HasChildNodes)
NodeControl.AppendChild(Button);
if (Macro.HasChildNodes)
NodeControl.AppendChild(Macro);
if (Key.HasChildNodes)
NodeControl.AppendChild(Key);
if (Extras.HasChildNodes)
NodeControl.AppendChild(Extras);
if (KeyType.HasChildNodes)
NodeControl.AppendChild(KeyType);
if (NodeControl.HasChildNodes)
Node.AppendChild(NodeControl);
Node.AppendChild(NodeShiftControl);
if (ShiftButton.HasChildNodes)
NodeShiftControl.AppendChild(ShiftButton);
if (ShiftMacro.HasChildNodes)
NodeShiftControl.AppendChild(ShiftMacro);
if (ShiftKey.HasChildNodes)
NodeShiftControl.AppendChild(ShiftKey);
if (ShiftKeyType.HasChildNodes)
NodeShiftControl.AppendChild(ShiftKeyType);
if (ShiftExtras.HasChildNodes)
NodeShiftControl.AppendChild(ShiftExtras);
m_Xdoc.AppendChild(Node);
m_Xdoc.Save(path);
}
catch { Saved = false; }
return Saved;
}
public DS4Controls getDS4ControlsByName(string key)
{
if (!key.StartsWith("bn"))
return (DS4Controls)Enum.Parse(typeof(DS4Controls), key, true);
switch (key)
{
case "bnShare": return DS4Controls.Share;
case "bnL3": return DS4Controls.L3;
case "bnR3": return DS4Controls.R3;
case "bnOptions": return DS4Controls.Options;
case "bnUp": return DS4Controls.DpadUp;
case "bnRight": return DS4Controls.DpadRight;
case "bnDown": return DS4Controls.DpadDown;
case "bnLeft": return DS4Controls.DpadLeft;
case "bnL1": return DS4Controls.L1;
case "bnR1": return DS4Controls.R1;
case "bnTriangle": return DS4Controls.Triangle;
case "bnCircle": return DS4Controls.Circle;
case "bnCross": return DS4Controls.Cross;
case "bnSquare": return DS4Controls.Square;
case "bnPS": return DS4Controls.PS;
case "bnLSLeft": return DS4Controls.LXNeg;
case "bnLSUp": return DS4Controls.LYNeg;
case "bnRSLeft": return DS4Controls.RXNeg;
case "bnRSUp": return DS4Controls.RYNeg;
case "bnLSRight": return DS4Controls.LXPos;
case "bnLSDown": return DS4Controls.LYPos;
case "bnRSRight": return DS4Controls.RXPos;
case "bnRSDown": return DS4Controls.RYPos;
case "bnL2": return DS4Controls.L2;
case "bnR2": return DS4Controls.R2;
case "bnTouchLeft": return DS4Controls.TouchLeft;
case "bnTouchMulti": return DS4Controls.TouchMulti;
case "bnTouchUpper": return DS4Controls.TouchUpper;
case "bnTouchRight": return DS4Controls.TouchRight;
case "bnGyroXP": return DS4Controls.GyroXPos;
case "bnGyroXN": return DS4Controls.GyroXNeg;
case "bnGyroZP": return DS4Controls.GyroZPos;
case "bnGyroZN": return DS4Controls.GyroZNeg;
case "bnSwipeUp": return DS4Controls.SwipeUp;
case "bnSwipeDown": return DS4Controls.SwipeDown;
case "bnSwipeLeft": return DS4Controls.SwipeLeft;
case "bnSwipeRight": return DS4Controls.SwipeRight;
#region OldShiftname
case "sbnShare": return DS4Controls.Share;
case "sbnL3": return DS4Controls.L3;
case "sbnR3": return DS4Controls.R3;
case "sbnOptions": return DS4Controls.Options;
case "sbnUp": return DS4Controls.DpadUp;
case "sbnRight": return DS4Controls.DpadRight;
case "sbnDown": return DS4Controls.DpadDown;
case "sbnLeft": return DS4Controls.DpadLeft;
case "sbnL1": return DS4Controls.L1;
case "sbnR1": return DS4Controls.R1;
case "sbnTriangle": return DS4Controls.Triangle;
case "sbnCircle": return DS4Controls.Circle;
case "sbnCross": return DS4Controls.Cross;
case "sbnSquare": return DS4Controls.Square;
case "sbnPS": return DS4Controls.PS;
case "sbnLSLeft": return DS4Controls.LXNeg;
case "sbnLSUp": return DS4Controls.LYNeg;
case "sbnRSLeft": return DS4Controls.RXNeg;
case "sbnRSUp": return DS4Controls.RYNeg;
case "sbnLSRight": return DS4Controls.LXPos;
case "sbnLSDown": return DS4Controls.LYPos;
case "sbnRSRight": return DS4Controls.RXPos;
case "sbnRSDown": return DS4Controls.RYPos;
case "sbnL2": return DS4Controls.L2;
case "sbnR2": return DS4Controls.R2;
case "sbnTouchLeft": return DS4Controls.TouchLeft;
case "sbnTouchMulti": return DS4Controls.TouchMulti;
case "sbnTouchUpper": return DS4Controls.TouchUpper;
case "sbnTouchRight": return DS4Controls.TouchRight;
case "sbnGsyroXP": return DS4Controls.GyroXPos;
case "sbnGyroXN": return DS4Controls.GyroXNeg;
case "sbnGyroZP": return DS4Controls.GyroZPos;
case "sbnGyroZN": return DS4Controls.GyroZNeg;
#endregion
case "bnShiftShare": return DS4Controls.Share;
case "bnShiftL3": return DS4Controls.L3;
case "bnShiftR3": return DS4Controls.R3;
case "bnShiftOptions": return DS4Controls.Options;
case "bnShiftUp": return DS4Controls.DpadUp;
case "bnShiftRight": return DS4Controls.DpadRight;
case "bnShiftDown": return DS4Controls.DpadDown;
case "bnShiftLeft": return DS4Controls.DpadLeft;
case "bnShiftL1": return DS4Controls.L1;
case "bnShiftR1": return DS4Controls.R1;
case "bnShiftTriangle": return DS4Controls.Triangle;
case "bnShiftCircle": return DS4Controls.Circle;
case "bnShiftCross": return DS4Controls.Cross;
case "bnShiftSquare": return DS4Controls.Square;
case "bnShiftPS": return DS4Controls.PS;
case "bnShiftLSLeft": return DS4Controls.LXNeg;
case "bnShiftLSUp": return DS4Controls.LYNeg;
case "bnShiftRSLeft": return DS4Controls.RXNeg;
case "bnShiftRSUp": return DS4Controls.RYNeg;
case "bnShiftLSRight": return DS4Controls.LXPos;
case "bnShiftLSDown": return DS4Controls.LYPos;
case "bnShiftRSRight": return DS4Controls.RXPos;
case "bnShiftRSDown": return DS4Controls.RYPos;
case "bnShiftL2": return DS4Controls.L2;
case "bnShiftR2": return DS4Controls.R2;
case "bnShiftTouchLeft": return DS4Controls.TouchLeft;
case "bnShiftTouchMulti": return DS4Controls.TouchMulti;
case "bnShiftTouchUpper": return DS4Controls.TouchUpper;
case "bnShiftTouchRight": return DS4Controls.TouchRight;
case "bnShiftGyroXP": return DS4Controls.GyroXPos;
case "bnShiftGyroXN": return DS4Controls.GyroXNeg;
case "bnShiftGyroZP": return DS4Controls.GyroZPos;
case "bnShiftGyroZN": return DS4Controls.GyroZNeg;
case "bnShiftSwipeUp": return DS4Controls.SwipeUp;
case "bnShiftSwipeDown": return DS4Controls.SwipeDown;
case "bnShiftSwipeLeft": return DS4Controls.SwipeLeft;
case "bnShiftSwipeRight": return DS4Controls.SwipeRight;
}
return 0;
}
public X360Controls getX360ControlsByName(string key)
{
X360Controls x3c;
if (Enum.TryParse(key, true, out x3c))
return x3c;
switch (key)
{
case "Back": return X360Controls.Back;
case "Left Stick": return X360Controls.LS;
case "Right Stick": return X360Controls.RS;
case "Start": return X360Controls.Start;
case "Up Button": return X360Controls.DpadUp;
case "Right Button": return X360Controls.DpadRight;
case "Down Button": return X360Controls.DpadDown;
case "Left Button": return X360Controls.DpadLeft;
case "Left Bumper": return X360Controls.LB;
case "Right Bumper": return X360Controls.RB;
case "Y Button": return X360Controls.Y;
case "B Button": return X360Controls.B;
case "A Button": return X360Controls.A;
case "X Button": return X360Controls.X;
case "Guide": return X360Controls.Guide;
case "Left X-Axis-": return X360Controls.LXNeg;
case "Left Y-Axis-": return X360Controls.LYNeg;
case "Right X-Axis-": return X360Controls.RXNeg;
case "Right Y-Axis-": return X360Controls.RYNeg;
case "Left X-Axis+": return X360Controls.LXPos;
case "Left Y-Axis+": return X360Controls.LYPos;
case "Right X-Axis+": return X360Controls.RXPos;
case "Right Y-Axis+": return X360Controls.RYPos;
case "Left Trigger": return X360Controls.LT;
case "Right Trigger": return X360Controls.RT;
case "Left Mouse Button": return X360Controls.LeftMouse;
case "Right Mouse Button": return X360Controls.RightMouse;
case "Middle Mouse Button": return X360Controls.MiddleMouse;
case "4th Mouse Button": return X360Controls.FourthMouse;
case "5th Mouse Button": return X360Controls.FifthMouse;
case "Mouse Wheel Up": return X360Controls.WUP;
case "Mouse Wheel Down": return X360Controls.WDOWN;
case "Mouse Up": return X360Controls.MouseUp;
case "Mouse Down": return X360Controls.MouseDown;
case "Mouse Left": return X360Controls.MouseLeft;
case "Mouse Right": return X360Controls.MouseRight;
case "Unbound": return X360Controls.Unbound;
}
return X360Controls.Unbound;
}
public string getX360ControlString(X360Controls key)
{
switch (key)
{
case X360Controls.Back: return "Back";
case X360Controls.LS: return "Left Stick";
case X360Controls.RS: return "Right Stick";
case X360Controls.Start: return "Start";
case X360Controls.DpadUp: return "Up Button";
case X360Controls.DpadRight: return "Right Button";
case X360Controls.DpadDown: return "Down Button";
case X360Controls.DpadLeft: return "Left Button";
case X360Controls.LB: return "Left Bumper";
case X360Controls.RB: return "Right Bumper";
case X360Controls.Y: return "Y Button";
case X360Controls.B: return "B Button";
case X360Controls.A: return "A Button";
case X360Controls.X: return "X Button";
case X360Controls.Guide: return "Guide";
case X360Controls.LXNeg: return "Left X-Axis-";
case X360Controls.LYNeg: return "Left Y-Axis-";
case X360Controls.RXNeg: return "Right X-Axis-";
case X360Controls.RYNeg: return "Right Y-Axis-";
case X360Controls.LXPos: return "Left X-Axis+";
case X360Controls.LYPos: return "Left Y-Axis+";
case X360Controls.RXPos: return "Right X-Axis+";
case X360Controls.RYPos: return "Right Y-Axis+";
case X360Controls.LT: return "Left Trigger";
case X360Controls.RT: return "Right Trigger";
case X360Controls.LeftMouse: return "Left Mouse Button";
case X360Controls.RightMouse: return "Right Mouse Button";
case X360Controls.MiddleMouse: return "Middle Mouse Button";
case X360Controls.FourthMouse: return "4th Mouse Button";
case X360Controls.FifthMouse: return "5th Mouse Button";
case X360Controls.WUP: return "Mouse Wheel Up";
case X360Controls.WDOWN: return "Mouse Wheel Down";
case X360Controls.MouseUp: return "Mouse Up";
case X360Controls.MouseDown: return "Mouse Down";
case X360Controls.MouseLeft: return "Mouse Left";
case X360Controls.MouseRight: return "Mouse Right";
case X360Controls.Unbound: return "Unbound";
}
return "Unbound";
}
public bool LoadProfile(int device, bool launchprogram, ControlService control,
string propath = "", bool xinputChange = true, bool postLoad = true)
{
bool Loaded = true;
Dictionary<DS4Controls, DS4KeyType> customMapKeyTypes = new Dictionary<DS4Controls, DS4KeyType>();
Dictionary<DS4Controls, UInt16> customMapKeys = new Dictionary<DS4Controls, UInt16>();
Dictionary<DS4Controls, X360Controls> customMapButtons = new Dictionary<DS4Controls, X360Controls>();
Dictionary<DS4Controls, String> customMapMacros = new Dictionary<DS4Controls, String>();
Dictionary<DS4Controls, String> customMapExtras = new Dictionary<DS4Controls, String>();
Dictionary<DS4Controls, DS4KeyType> shiftCustomMapKeyTypes = new Dictionary<DS4Controls, DS4KeyType>();
Dictionary<DS4Controls, UInt16> shiftCustomMapKeys = new Dictionary<DS4Controls, UInt16>();
Dictionary<DS4Controls, X360Controls> shiftCustomMapButtons = new Dictionary<DS4Controls, X360Controls>();
Dictionary<DS4Controls, String> shiftCustomMapMacros = new Dictionary<DS4Controls, String>();
Dictionary<DS4Controls, String> shiftCustomMapExtras = new Dictionary<DS4Controls, String>();
string rootname = "DS4Windows";
bool missingSetting = false;
string profilepath;
if (propath == "")
profilepath = Global.appdatapath + @"\Profiles\" + profilePath[device] + ".xml";
else
profilepath = propath;
bool xinputPlug = false;
bool xinputStatus = false;
if (File.Exists(profilepath))
{
XmlNode Item;
m_Xdoc.Load(profilepath);
if (m_Xdoc.SelectSingleNode(rootname) == null)
{
rootname = "ScpControl";
missingSetting = true;
}
if (device < 4)
{
DS4LightBar.forcelight[device] = false;
DS4LightBar.forcedFlash[device] = 0;
}
OutContType oldContType = Global.activeOutDevType[device];
// Make sure to reset currently set profile values before parsing
ResetProfile(device);
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/flushHIDQueue"); Boolean.TryParse(Item.InnerText, out flushHIDQueue[device]); }
catch { missingSetting = true; }//rootname = }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/touchToggle"); Boolean.TryParse(Item.InnerText, out enableTouchToggle[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/idleDisconnectTimeout"); Int32.TryParse(Item.InnerText, out idleDisconnectTimeout[device]); }
catch { missingSetting = true; }
//New method for saving color
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/Color");
string[] colors;
if (!string.IsNullOrEmpty(Item.InnerText))
colors = Item.InnerText.Split(',');
else
colors = new string[0];
m_Leds[device].red = byte.Parse(colors[0]);
m_Leds[device].green = byte.Parse(colors[1]);
m_Leds[device].blue = byte.Parse(colors[2]);
}
catch { missingSetting = true; }
if (m_Xdoc.SelectSingleNode("/" + rootname + "/Color") == null)
{
//Old method of color saving
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/Red"); Byte.TryParse(Item.InnerText, out m_Leds[device].red); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/Green"); Byte.TryParse(Item.InnerText, out m_Leds[device].green); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/Blue"); Byte.TryParse(Item.InnerText, out m_Leds[device].blue); }
catch { missingSetting = true; }
}
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RumbleBoost"); Byte.TryParse(Item.InnerText, out rumble[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RumbleAutostopTime"); Int32.TryParse(Item.InnerText, out rumbleAutostopTime[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/ledAsBatteryIndicator"); Boolean.TryParse(Item.InnerText, out ledAsBattery[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/FlashType"); Byte.TryParse(Item.InnerText, out flashType[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/flashBatteryAt"); Int32.TryParse(Item.InnerText, out flashAt[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/touchSensitivity"); Byte.TryParse(Item.InnerText, out touchSensitivity[device]); }
catch { missingSetting = true; }
//New method for saving color
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LowColor");
string[] colors;
if (!string.IsNullOrEmpty(Item.InnerText))
colors = Item.InnerText.Split(',');
else
colors = new string[0];
m_LowLeds[device].red = byte.Parse(colors[0]);
m_LowLeds[device].green = byte.Parse(colors[1]);
m_LowLeds[device].blue = byte.Parse(colors[2]);
}
catch { missingSetting = true; }
if (m_Xdoc.SelectSingleNode("/" + rootname + "/LowColor") == null)
{
//Old method of color saving
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LowRed"); byte.TryParse(Item.InnerText, out m_LowLeds[device].red); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LowGreen"); byte.TryParse(Item.InnerText, out m_LowLeds[device].green); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LowBlue"); byte.TryParse(Item.InnerText, out m_LowLeds[device].blue); }
catch { missingSetting = true; }
}
//New method for saving color
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/ChargingColor");
string[] colors;
if (!string.IsNullOrEmpty(Item.InnerText))
colors = Item.InnerText.Split(',');
else
colors = new string[0];
m_ChargingLeds[device].red = byte.Parse(colors[0]);
m_ChargingLeds[device].green = byte.Parse(colors[1]);
m_ChargingLeds[device].blue = byte.Parse(colors[2]);
}
catch { missingSetting = true; }
if (m_Xdoc.SelectSingleNode("/" + rootname + "/ChargingColor") == null)
{
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/ChargingRed"); Byte.TryParse(Item.InnerText, out m_ChargingLeds[device].red); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/ChargingGreen"); Byte.TryParse(Item.InnerText, out m_ChargingLeds[device].green); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/ChargingBlue"); Byte.TryParse(Item.InnerText, out m_ChargingLeds[device].blue); }
catch { missingSetting = true; }
}
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/FlashColor");
string[] colors;
if (!string.IsNullOrEmpty(Item.InnerText))
colors = Item.InnerText.Split(',');
else
colors = new string[0];
m_FlashLeds[device].red = byte.Parse(colors[0]);
m_FlashLeds[device].green = byte.Parse(colors[1]);
m_FlashLeds[device].blue = byte.Parse(colors[2]);
}
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/touchpadJitterCompensation"); bool.TryParse(Item.InnerText, out touchpadJitterCompensation[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/lowerRCOn"); bool.TryParse(Item.InnerText, out lowerRCOn[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/tapSensitivity"); byte.TryParse(Item.InnerText, out tapSensitivity[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/doubleTap"); bool.TryParse(Item.InnerText, out doubleTap[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/scrollSensitivity"); int.TryParse(Item.InnerText, out scrollSensitivity[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/TouchpadInvert"); int temp = 0; int.TryParse(Item.InnerText, out temp); touchpadInvert[device] = Math.Min(Math.Max(temp, 0), 3); }
catch { touchpadInvert[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LeftTriggerMiddle"); byte.TryParse(Item.InnerText, out l2ModInfo[device].deadZone); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RightTriggerMiddle"); byte.TryParse(Item.InnerText, out r2ModInfo[device].deadZone); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/L2AntiDeadZone"); int.TryParse(Item.InnerText, out l2ModInfo[device].antiDeadZone); }
catch { l2ModInfo[device].antiDeadZone = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/R2AntiDeadZone"); int.TryParse(Item.InnerText, out r2ModInfo[device].antiDeadZone); }
catch { r2ModInfo[device].antiDeadZone = 0; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/L2MaxZone"); int temp = 100;
int.TryParse(Item.InnerText, out temp);
l2ModInfo[device].maxZone = Math.Min(Math.Max(temp, 0), 100);
}
catch { l2ModInfo[device].maxZone = 100; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/R2MaxZone"); int temp = 100;
int.TryParse(Item.InnerText, out temp);
r2ModInfo[device].maxZone = Math.Min(Math.Max(temp, 0), 100);
}
catch { r2ModInfo[device].maxZone = 100; missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSRotation"); int temp = 0;
int.TryParse(Item.InnerText, out temp);
temp = Math.Min(Math.Max(temp, -180), 180);
LSRotation[device] = temp * Math.PI / 180.0;
}
catch { LSRotation[device] = 0.0; missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSRotation"); int temp = 0;
int.TryParse(Item.InnerText, out temp);
temp = Math.Min(Math.Max(temp, -180), 180);
RSRotation[device] = temp * Math.PI / 180.0;
}
catch { RSRotation[device] = 0.0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/ButtonMouseSensitivity"); int.TryParse(Item.InnerText, out buttonMouseSensitivity[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/Rainbow"); double.TryParse(Item.InnerText, out rainbow[device]); }
catch { rainbow[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/MaxSatRainbow");
int.TryParse(Item.InnerText, out int temp);
maxRainbowSat[device] = Math.Max(0, Math.Min(100, temp)) / 100.0;
}
catch { maxRainbowSat[device] = 1.0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSDeadZone"); int.TryParse(Item.InnerText, out lsModInfo[device].deadZone); }
catch { lsModInfo[device].deadZone = 10; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSDeadZone"); int.TryParse(Item.InnerText, out rsModInfo[device].deadZone); }
catch { rsModInfo[device].deadZone = 10; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSAntiDeadZone"); int.TryParse(Item.InnerText, out lsModInfo[device].antiDeadZone); }
catch { lsModInfo[device].antiDeadZone = 25; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSAntiDeadZone"); int.TryParse(Item.InnerText, out rsModInfo[device].antiDeadZone); }
catch { rsModInfo[device].antiDeadZone = 25; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSMaxZone"); int temp = 100;
int.TryParse(Item.InnerText, out temp);
lsModInfo[device].maxZone = Math.Min(Math.Max(temp, 0), 100);
}
catch { lsModInfo[device].maxZone = 100; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSMaxZone"); int temp = 100;
int.TryParse(Item.InnerText, out temp);
rsModInfo[device].maxZone = Math.Min(Math.Max(temp, 0), 100);
}
catch { rsModInfo[device].maxZone = 100; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SXDeadZone"); double.TryParse(Item.InnerText, out SXDeadzone[device]); }
catch { SXDeadzone[device] = 0.02; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SZDeadZone"); double.TryParse(Item.InnerText, out SZDeadzone[device]); }
catch { SZDeadzone[device] = 0.02; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SXMaxZone");
int temp = 0;
int.TryParse(Item.InnerText, out temp);
SXMaxzone[device] = Math.Min(Math.Max(temp * 0.01, 0.0), 1.0);
}
catch { SXMaxzone[device] = 1.0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SZMaxZone");
int temp = 0;
int.TryParse(Item.InnerText, out temp);
SZMaxzone[device] = Math.Min(Math.Max(temp * 0.01, 0.0), 1.0);
}
catch { SZMaxzone[device] = 1.0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SXAntiDeadZone");
int temp = 0;
int.TryParse(Item.InnerText, out temp);
SXAntiDeadzone[device] = Math.Min(Math.Max(temp * 0.01, 0.0), 1.0);
}
catch { SXAntiDeadzone[device] = 0.0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SZAntiDeadZone");
int temp = 0;
int.TryParse(Item.InnerText, out temp);
SZAntiDeadzone[device] = Math.Min(Math.Max(temp * 0.01, 0.0), 1.0);
}
catch { SZAntiDeadzone[device] = 0.0; missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/Sensitivity");
string[] s = Item.InnerText.Split('|');
if (s.Length == 1)
s = Item.InnerText.Split(',');
if (!double.TryParse(s[0], out LSSens[device]) || LSSens[device] < .5f)
LSSens[device] = 1;
if (!double.TryParse(s[1], out RSSens[device]) || RSSens[device] < .5f)
RSSens[device] = 1;
if (!double.TryParse(s[2], out l2Sens[device]) || l2Sens[device] < .1f)
l2Sens[device] = 1;
if (!double.TryParse(s[3], out r2Sens[device]) || r2Sens[device] < .1f)
r2Sens[device] = 1;
if (!double.TryParse(s[4], out SXSens[device]) || SXSens[device] < .5f)
SXSens[device] = 1;
if (!double.TryParse(s[5], out SZSens[device]) || SZSens[device] < .5f)
SZSens[device] = 1;
}
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/ChargingType"); int.TryParse(Item.InnerText, out chargingType[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/MouseAcceleration"); bool.TryParse(Item.InnerText, out mouseAccel[device]); }
catch { missingSetting = true; }
int shiftM = 0;
if (m_Xdoc.SelectSingleNode("/" + rootname + "/ShiftModifier") != null)
int.TryParse(m_Xdoc.SelectSingleNode("/" + rootname + "/ShiftModifier").InnerText, out shiftM);
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LaunchProgram");
launchProgram[device] = Item.InnerText;
}
catch { launchProgram[device] = string.Empty; missingSetting = true; }
if (launchprogram == true && launchProgram[device] != string.Empty)
{
string programPath = launchProgram[device];
System.Diagnostics.Process[] localAll = System.Diagnostics.Process.GetProcesses();
bool procFound = false;
for (int procInd = 0, procsLen = localAll.Length; !procFound && procInd < procsLen; procInd++)
{
try
{
string temp = localAll[procInd].MainModule.FileName;
if (temp == programPath)
{
procFound = true;
}
}
// Ignore any process for which this information
// is not exposed
catch { }
}
if (!procFound)
{
Task processTask = new Task(() =>
{
Thread.Sleep(5000);
System.Diagnostics.Process tempProcess = new System.Diagnostics.Process();
tempProcess.StartInfo.FileName = programPath;
tempProcess.StartInfo.WorkingDirectory = new FileInfo(programPath).Directory.ToString();
//tempProcess.StartInfo.UseShellExecute = false;
try { tempProcess.Start(); }
catch { }
});
processTask.Start();
}
}
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/DinputOnly");
bool.TryParse(Item.InnerText, out dinputOnly[device]);
}
catch { dinputOnly[device] = false; missingSetting = true; }
bool oldUseDInputOnly = Global.useDInputOnly[device];
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/StartTouchpadOff");
bool.TryParse(Item.InnerText, out startTouchpadOff[device]);
if (startTouchpadOff[device] == true) control.StartTPOff(device);
}
catch { startTouchpadOff[device] = false; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/UseTPforControls"); bool.TryParse(Item.InnerText, out useTPforControls[device]); }
catch { useTPforControls[device] = false; missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/UseSAforMouse");
bool.TryParse(Item.InnerText, out bool temp);
if (temp) gyroOutMode[device] = GyroOutMode.Mouse;
}
catch { gyroOutMode[device] = GyroOutMode.Controls; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SATriggers"); sATriggers[device] = Item.InnerText; }
catch { sATriggers[device] = "-1"; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SATriggerCond"); sATriggerCond[device] = SaTriggerCondValue(Item.InnerText); }
catch { sATriggerCond[device] = true; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SASteeringWheelEmulationAxis"); SASteeringWheelEmulationAxisType.TryParse(Item.InnerText, out sASteeringWheelEmulationAxis[device]); }
catch { sASteeringWheelEmulationAxis[device] = SASteeringWheelEmulationAxisType.None; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SASteeringWheelEmulationRange"); int.TryParse(Item.InnerText, out sASteeringWheelEmulationRange[device]); }
catch { sASteeringWheelEmulationRange[device] = 360; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroOutputMode"); GyroOutMode.TryParse(Item.InnerText, out gyroOutMode[device]); }
catch { PortOldGyroSettings(device); missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickTriggers"); sAMouseStickTriggers[device] = Item.InnerText; }
catch { sAMouseStickTriggers[device] = "-1"; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickTriggerCond"); sAMouseStickTriggerCond[device] = SaTriggerCondValue(Item.InnerText); }
catch { sAMouseStickTriggerCond[device] = true; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickTriggerTurns"); bool.TryParse(Item.InnerText, out gyroMouseStickTriggerTurns[device]); }
catch { gyroMouseStickTriggerTurns[device] = true; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickHAxis"); int temp = 0; int.TryParse(Item.InnerText, out temp); gyroMouseStickHorizontalAxis[device] = Math.Min(Math.Max(0, temp), 1); }
catch { gyroMouseStickHorizontalAxis[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickDeadZone"); int.TryParse(Item.InnerText, out int temp);
gyroMStickInfo[device].deadZone = temp; }
catch { gyroMStickInfo[device].deadZone = 30; missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickMaxZone"); int.TryParse(Item.InnerText, out int temp);
gyroMStickInfo[device].maxZone = temp;
}
catch { gyroMStickInfo[device].maxZone = 830; missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickAntiDeadX"); double.TryParse(Item.InnerText, out double temp);
gyroMStickInfo[device].antiDeadX = temp;
}
catch { gyroMStickInfo[device].antiDeadX = 0.4; missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickAntiDeadY"); double.TryParse(Item.InnerText, out double temp);
gyroMStickInfo[device].antiDeadY = temp;
}
catch { gyroMStickInfo[device].antiDeadY = 0.4; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickInvert"); uint.TryParse(Item.InnerText, out gyroMStickInfo[device].inverted); }
catch { gyroMStickInfo[device].inverted = 0; missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickToggle"); bool.TryParse(Item.InnerText, out bool temp);
gyroMouseStickToggle[device] = temp;
}
catch { gyroMouseStickToggle[device] = false; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickVerticalScale"); int.TryParse(Item.InnerText, out gyroMStickInfo[device].vertScale); }
catch { gyroMStickInfo[device].vertScale = 100; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickSmoothing"); bool.TryParse(Item.InnerText, out gyroMStickInfo[device].useSmoothing); }
catch { gyroMStickInfo[device].useSmoothing = false; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseStickSmoothingWeight");
int temp = 0; int.TryParse(Item.InnerText, out temp);
gyroMStickInfo[device].smoothWeight = Math.Min(Math.Max(0.0, Convert.ToDouble(temp * 0.01)), 1.0);
}
catch { gyroMStickInfo[device].smoothWeight = 0.5; missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/TouchDisInvTriggers");
string[] triggers = Item.InnerText.Split(',');
int temp = -1;
List<int> tempIntList = new List<int>();
for (int i = 0, arlen = triggers.Length; i < arlen; i++)
{
if (int.TryParse(triggers[i], out temp))
tempIntList.Add(temp);
}
touchDisInvertTriggers[device] = tempIntList.ToArray();
}
catch { touchDisInvertTriggers[device] = new int[1] { -1 }; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroSensitivity"); int.TryParse(Item.InnerText, out gyroSensitivity[device]); }
catch { gyroSensitivity[device] = 100; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroSensVerticalScale"); int.TryParse(Item.InnerText, out gyroSensVerticalScale[device]); }
catch { gyroSensVerticalScale[device] = 100; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroInvert"); int.TryParse(Item.InnerText, out gyroInvert[device]); }
catch { gyroInvert[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroTriggerTurns"); bool.TryParse(Item.InnerText, out gyroTriggerTurns[device]); }
catch { gyroTriggerTurns[device] = true; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroSmoothing"); bool.TryParse(Item.InnerText, out gyroSmoothing[device]); }
catch { gyroSmoothing[device] = false; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroSmoothingWeight"); int temp = 0; int.TryParse(Item.InnerText, out temp); gyroSmoothWeight[device] = Math.Min(Math.Max(0.0, Convert.ToDouble(temp * 0.01)), 1.0); }
catch { gyroSmoothWeight[device] = 0.5; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseHAxis"); int temp = 0; int.TryParse(Item.InnerText, out temp); gyroMouseHorizontalAxis[device] = Math.Min(Math.Max(0, temp), 1); }
catch { gyroMouseHorizontalAxis[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseDeadZone"); int.TryParse(Item.InnerText, out int temp);
SetGyroMouseDZ(device, temp, control); }
catch { SetGyroMouseDZ(device, MouseCursor.GYRO_MOUSE_DEADZONE, control); missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/GyroMouseToggle"); bool.TryParse(Item.InnerText, out bool temp);
gyroMouseToggle[device] = temp;
}
catch { gyroMouseToggle[device] = false; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSCurve"); int.TryParse(Item.InnerText, out lsCurve[device]); }
catch { lsCurve[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSCurve"); int.TryParse(Item.InnerText, out rsCurve[device]); }
catch { rsCurve[device] = 0; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/BTPollRate");
int temp = 0;
int.TryParse(Item.InnerText, out temp);
btPollRate[device] = (temp >= 0 && temp <= 16) ? temp : 0;
}
catch { btPollRate[device] = 4; missingSetting = true; }
// Note! xxOutputCurveCustom property needs to be read before xxOutputCurveMode property in case the curveMode is value 6
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSOutputCurveCustom"); lsOutBezierCurveObj[device].CustomDefinition = Item.InnerText; }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSOutputCurveMode"); setLsOutCurveMode(device, stickOutputCurveId(Item.InnerText)); }
catch { setLsOutCurveMode(device, 0); missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSOutputCurveCustom"); rsOutBezierCurveObj[device].CustomDefinition = Item.InnerText; }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSOutputCurveMode"); setRsOutCurveMode(device, stickOutputCurveId(Item.InnerText)); }
catch { setRsOutCurveMode(device, 0); missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSSquareStick"); bool.TryParse(Item.InnerText, out squStickInfo[device].lsMode); }
catch { squStickInfo[device].lsMode = false; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SquareStickRoundness"); double.TryParse(Item.InnerText, out squStickInfo[device].lsRoundness); }
catch { squStickInfo[device].lsRoundness = 5.0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SquareRStickRoundness"); double.TryParse(Item.InnerText, out squStickInfo[device].rsRoundness); }
catch { squStickInfo[device].rsRoundness = 5.0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSSquareStick"); bool.TryParse(Item.InnerText, out squStickInfo[device].rsMode); }
catch { squStickInfo[device].rsMode = false; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/L2OutputCurveCustom"); l2OutBezierCurveObj[device].CustomDefinition = Item.InnerText; }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/L2OutputCurveMode"); setL2OutCurveMode(device, axisOutputCurveId(Item.InnerText)); }
catch { setL2OutCurveMode(device, 0); missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/R2OutputCurveCustom"); r2OutBezierCurveObj[device].CustomDefinition = Item.InnerText; }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/R2OutputCurveMode"); setR2OutCurveMode(device, axisOutputCurveId(Item.InnerText)); }
catch { setR2OutCurveMode(device, 0); missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SXOutputCurveCustom"); sxOutBezierCurveObj[device].CustomDefinition = Item.InnerText; }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SXOutputCurveMode"); setSXOutCurveMode(device, axisOutputCurveId(Item.InnerText)); }
catch { setSXOutCurveMode(device, 0); missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SZOutputCurveCustom"); szOutBezierCurveObj[device].CustomDefinition = Item.InnerText; }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SZOutputCurveMode"); setSZOutCurveMode(device, axisOutputCurveId(Item.InnerText)); }
catch { setSZOutCurveMode(device, 0); missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/TrackballMode"); bool.TryParse(Item.InnerText, out trackballMode[device]); }
catch { trackballMode[device] = false; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/TrackballFriction"); double.TryParse(Item.InnerText, out trackballFriction[device]); }
catch { trackballFriction[device] = 10.0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/OutputContDevice"); outputDevType[device] = OutContDeviceId(Item.InnerText); }
catch { outputDevType[device] = OutContType.X360; missingSetting = true; }
// Only change xinput devices under certain conditions. Avoid
// performing this upon program startup before loading devices.
if (xinputChange)
{
CheckOldDevicestatus(device, control, oldContType,
out xinputPlug, out xinputStatus);
}
try
{
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/ProfileActions");
profileActions[device].Clear();
if (!string.IsNullOrEmpty(Item.InnerText))
{
string[] actionNames = Item.InnerText.Split('/');
for (int actIndex = 0, actLen = actionNames.Length; actIndex < actLen; actIndex++)
{
string tempActionName = actionNames[actIndex];
if (!profileActions[device].Contains(tempActionName))
{
profileActions[device].Add(tempActionName);
}
}
}
}
catch { profileActions[device].Clear(); missingSetting = true; }
foreach (DS4ControlSettings dcs in ds4settings[device])
dcs.Reset();
containsCustomAction[device] = false;
containsCustomExtras[device] = false;
profileActionCount[device] = profileActions[device].Count;
profileActionDict[device].Clear();
profileActionIndexDict[device].Clear();
foreach (string actionname in profileActions[device])
{
profileActionDict[device][actionname] = Global.GetAction(actionname);
profileActionIndexDict[device][actionname] = Global.GetActionIndexOf(actionname);
}
DS4KeyType keyType;
ushort wvk;
{
XmlNode ParentItem = m_Xdoc.SelectSingleNode("/" + rootname + "/Control/Button");
if (ParentItem != null)
{
foreach (XmlNode item in ParentItem.ChildNodes)
{
UpdateDS4CSetting(device, item.Name, false, getX360ControlsByName(item.InnerText), "", DS4KeyType.None, 0);
customMapButtons.Add(getDS4ControlsByName(item.Name), getX360ControlsByName(item.InnerText));
}
}
ParentItem = m_Xdoc.SelectSingleNode("/" + rootname + "/Control/Macro");
if (ParentItem != null)
{
foreach (XmlNode item in ParentItem.ChildNodes)
{
customMapMacros.Add(getDS4ControlsByName(item.Name), item.InnerText);
string[] skeys;
int[] keys;
if (!string.IsNullOrEmpty(item.InnerText))
{
skeys = item.InnerText.Split('/');
keys = new int[skeys.Length];
}
else
{
skeys = new string[0];
keys = new int[0];
}
for (int i = 0, keylen = keys.Length; i < keylen; i++)
keys[i] = int.Parse(skeys[i]);
UpdateDS4CSetting(device, item.Name, false, keys, "", DS4KeyType.None, 0);
}
}
ParentItem = m_Xdoc.SelectSingleNode("/" + rootname + "/Control/Key");
if (ParentItem != null)
{
foreach (XmlNode item in ParentItem.ChildNodes)
{
if (ushort.TryParse(item.InnerText, out wvk))
{
UpdateDS4CSetting(device, item.Name, false, wvk, "", DS4KeyType.None, 0);
customMapKeys.Add(getDS4ControlsByName(item.Name), wvk);
}
}
}
ParentItem = m_Xdoc.SelectSingleNode("/" + rootname + "/Control/Extras");
if (ParentItem != null)
{
foreach (XmlNode item in ParentItem.ChildNodes)
{
if (item.InnerText != string.Empty)
{
UpdateDS4CExtra(device, item.Name, false, item.InnerText);
customMapExtras.Add(getDS4ControlsByName(item.Name), item.InnerText);
}
else
ParentItem.RemoveChild(item);
}
}
ParentItem = m_Xdoc.SelectSingleNode("/" + rootname + "/Control/KeyType");
if (ParentItem != null)
{
foreach (XmlNode item in ParentItem.ChildNodes)
{
if (item != null)
{
keyType = DS4KeyType.None;
if (item.InnerText.Contains(DS4KeyType.ScanCode.ToString()))
keyType |= DS4KeyType.ScanCode;
if (item.InnerText.Contains(DS4KeyType.Toggle.ToString()))
keyType |= DS4KeyType.Toggle;
if (item.InnerText.Contains(DS4KeyType.Macro.ToString()))
keyType |= DS4KeyType.Macro;
if (item.InnerText.Contains(DS4KeyType.HoldMacro.ToString()))
keyType |= DS4KeyType.HoldMacro;
if (item.InnerText.Contains(DS4KeyType.Unbound.ToString()))
keyType |= DS4KeyType.Unbound;
if (keyType != DS4KeyType.None)
{
UpdateDS4CKeyType(device, item.Name, false, keyType);
customMapKeyTypes.Add(getDS4ControlsByName(item.Name), keyType);
}
}
}
}
ParentItem = m_Xdoc.SelectSingleNode("/" + rootname + "/ShiftControl/Button");
if (ParentItem != null)
{
foreach (XmlElement item in ParentItem.ChildNodes)
{
int shiftT = shiftM;
if (item.HasAttribute("Trigger"))
int.TryParse(item.Attributes["Trigger"].Value, out shiftT);
UpdateDS4CSetting(device, item.Name, true, getX360ControlsByName(item.InnerText), "", DS4KeyType.None, shiftT);
shiftCustomMapButtons.Add(getDS4ControlsByName(item.Name), getX360ControlsByName(item.InnerText));
}
}
ParentItem = m_Xdoc.SelectSingleNode("/" + rootname + "/ShiftControl/Macro");
if (ParentItem != null)
{
foreach (XmlElement item in ParentItem.ChildNodes)
{
shiftCustomMapMacros.Add(getDS4ControlsByName(item.Name), item.InnerText);
string[] skeys;
int[] keys;
if (!string.IsNullOrEmpty(item.InnerText))
{
skeys = item.InnerText.Split('/');
keys = new int[skeys.Length];
}
else
{
skeys = new string[0];
keys = new int[0];
}
for (int i = 0, keylen = keys.Length; i < keylen; i++)
keys[i] = int.Parse(skeys[i]);
int shiftT = shiftM;
if (item.HasAttribute("Trigger"))
int.TryParse(item.Attributes["Trigger"].Value, out shiftT);
UpdateDS4CSetting(device, item.Name, true, keys, "", DS4KeyType.None, shiftT);
}
}
ParentItem = m_Xdoc.SelectSingleNode("/" + rootname + "/ShiftControl/Key");
if (ParentItem != null)
{
foreach (XmlElement item in ParentItem.ChildNodes)
{
if (ushort.TryParse(item.InnerText, out wvk))
{
int shiftT = shiftM;
if (item.HasAttribute("Trigger"))
int.TryParse(item.Attributes["Trigger"].Value, out shiftT);
UpdateDS4CSetting(device, item.Name, true, wvk, "", DS4KeyType.None, shiftT);
shiftCustomMapKeys.Add(getDS4ControlsByName(item.Name), wvk);
}
}
}
ParentItem = m_Xdoc.SelectSingleNode("/" + rootname + "/ShiftControl/Extras");
if (ParentItem != null)
{
foreach (XmlElement item in ParentItem.ChildNodes)
{
if (item.InnerText != string.Empty)
{
UpdateDS4CExtra(device, item.Name, true, item.InnerText);
shiftCustomMapExtras.Add(getDS4ControlsByName(item.Name), item.InnerText);
}
else
ParentItem.RemoveChild(item);
}
}
ParentItem = m_Xdoc.SelectSingleNode("/" + rootname + "/ShiftControl/KeyType");
if (ParentItem != null)
{
foreach (XmlElement item in ParentItem.ChildNodes)
{
if (item != null)
{
keyType = DS4KeyType.None;
if (item.InnerText.Contains(DS4KeyType.ScanCode.ToString()))
keyType |= DS4KeyType.ScanCode;
if (item.InnerText.Contains(DS4KeyType.Toggle.ToString()))
keyType |= DS4KeyType.Toggle;
if (item.InnerText.Contains(DS4KeyType.Macro.ToString()))
keyType |= DS4KeyType.Macro;
if (item.InnerText.Contains(DS4KeyType.HoldMacro.ToString()))
keyType |= DS4KeyType.HoldMacro;
if (item.InnerText.Contains(DS4KeyType.Unbound.ToString()))
keyType |= DS4KeyType.Unbound;
if (keyType != DS4KeyType.None)
{
UpdateDS4CKeyType(device, item.Name, true, keyType);
shiftCustomMapKeyTypes.Add(getDS4ControlsByName(item.Name), keyType);
}
}
}
}
}
}
// Only add missing settings if the actual load was graceful
if (missingSetting && Loaded)// && buttons != null)
SaveProfile(device, profilepath);
containsCustomAction[device] = HasCustomActions(device);
containsCustomExtras[device] = HasCustomExtras(device);
if (device < 4)
{
Program.rootHub.touchPad[device]?.ResetToggleGyroM();
GyroOutMode currentGyro = gyroOutMode[device];
if (currentGyro == GyroOutMode.Mouse)
{
control.touchPad[device].ToggleGyroMouse =
gyroMouseToggle[device];
}
else if (currentGyro == GyroOutMode.MouseJoystick)
{
control.touchPad[device].ToggleGyroMouse =
gyroMouseStickToggle[device];
}
}
// If a device exists, make sure to transfer relevant profile device
// options to device instance
if (postLoad && device < 4)
{
PostLoadSnippet(device, control, xinputStatus, xinputPlug);
}
return Loaded;
}
public bool Load()
{
bool Loaded = true;
bool missingSetting = false;
try
{
if (File.Exists(m_Profile))
{
XmlNode Item;
m_Xdoc.Load(m_Profile);
try { Item = m_Xdoc.SelectSingleNode("/Profile/useExclusiveMode"); Boolean.TryParse(Item.InnerText, out useExclusiveMode); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/startMinimized"); Boolean.TryParse(Item.InnerText, out startMinimized); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/minimizeToTaskbar"); Boolean.TryParse(Item.InnerText, out minToTaskbar); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/formWidth"); Int32.TryParse(Item.InnerText, out formWidth); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/formHeight"); Int32.TryParse(Item.InnerText, out formHeight); }
catch { missingSetting = true; }
try {
int temp = 0;
Item = m_Xdoc.SelectSingleNode("/Profile/formLocationX"); Int32.TryParse(Item.InnerText, out temp);
formLocationX = Math.Max(temp, 0);
}
catch { missingSetting = true; }
try {
int temp = 0;
Item = m_Xdoc.SelectSingleNode("/Profile/formLocationY"); Int32.TryParse(Item.InnerText, out temp);
formLocationY = Math.Max(temp, 0);
}
catch { missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/Profile/Controller1"); profilePath[0] = Item.InnerText;
if (profilePath[0].ToLower().Contains("distance"))
{
distanceProfiles[0] = true;
}
olderProfilePath[0] = profilePath[0];
}
catch { profilePath[0] = olderProfilePath[0] = string.Empty; distanceProfiles[0] = false; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/Profile/Controller2"); profilePath[1] = Item.InnerText;
if (profilePath[1].ToLower().Contains("distance"))
{
distanceProfiles[1] = true;
}
olderProfilePath[1] = profilePath[1];
}
catch { profilePath[1] = olderProfilePath[1] = string.Empty; distanceProfiles[1] = false; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/Profile/Controller3"); profilePath[2] = Item.InnerText;
if (profilePath[2].ToLower().Contains("distance"))
{
distanceProfiles[2] = true;
}
olderProfilePath[2] = profilePath[2];
}
catch { profilePath[2] = olderProfilePath[2] = string.Empty; distanceProfiles[2] = false; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/Profile/Controller4"); profilePath[3] = Item.InnerText;
if (profilePath[3].ToLower().Contains("distance"))
{
distanceProfiles[3] = true;
}
olderProfilePath[3] = profilePath[3];
}
catch { profilePath[3] = olderProfilePath[3] = string.Empty; distanceProfiles[3] = false; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/LastChecked"); DateTime.TryParse(Item.InnerText, out lastChecked); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/CheckWhen"); Int32.TryParse(Item.InnerText, out CheckWhen); }
catch { missingSetting = true; }
try
{
Item = m_Xdoc.SelectSingleNode("/Profile/Notifications");
if (!int.TryParse(Item.InnerText, out notifications))
notifications = (Boolean.Parse(Item.InnerText) ? 2 : 0);
}
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/DisconnectBTAtStop"); Boolean.TryParse(Item.InnerText, out disconnectBTAtStop); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/SwipeProfiles"); Boolean.TryParse(Item.InnerText, out swipeProfiles); }
catch { missingSetting = true; }
//try { Item = m_Xdoc.SelectSingleNode("/Profile/UseDS4ForMapping"); Boolean.TryParse(Item.InnerText, out ds4Mapping); }
//catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/QuickCharge"); Boolean.TryParse(Item.InnerText, out quickCharge); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/CloseMinimizes"); Boolean.TryParse(Item.InnerText, out closeMini); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/UseLang"); useLang = Item.InnerText; }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/DownloadLang"); Boolean.TryParse(Item.InnerText, out downloadLang); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/FlashWhenLate"); Boolean.TryParse(Item.InnerText, out flashWhenLate); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/FlashWhenLateAt"); int.TryParse(Item.InnerText, out flashWhenLateAt); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/WhiteIcon"); Boolean.TryParse(Item.InnerText, out useWhiteIcon); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/UseUDPServer"); Boolean.TryParse(Item.InnerText, out useUDPServ); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/UDPServerPort"); int temp; int.TryParse(Item.InnerText, out temp); udpServPort = Math.Min(Math.Max(temp, 1024), 65535); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/UDPServerListenAddress"); udpServListenAddress = Item.InnerText; }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/UseCustomSteamFolder"); Boolean.TryParse(Item.InnerText, out useCustomSteamFolder); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/CustomSteamFolder"); customSteamFolder = Item.InnerText; }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/Profile/AutoProfileRevertDefaultProfile"); Boolean.TryParse(Item.InnerText, out autoProfileRevertDefaultProfile); }
catch { missingSetting = true; }
for (int i = 0; i < 4; i++)
{
try
{
Item = m_Xdoc.SelectSingleNode("/Profile/CustomLed" + (i + 1));
string[] ss = Item.InnerText.Split(':');
bool.TryParse(ss[0], out useCustomLeds[i]);
DS4Color.TryParse(ss[1], ref m_CustomLeds[i]);
}
catch { useCustomLeds[i] = false; m_CustomLeds[i] = new DS4Color(Color.Blue); missingSetting = true; }
}
}
}
catch { }
if (missingSetting)
Save();
return Loaded;
}
public bool Save()
{
bool Saved = true;
XmlNode Node;
m_Xdoc.RemoveAll();
Node = m_Xdoc.CreateXmlDeclaration("1.0", "utf-8", String.Empty);
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateComment(String.Format(" Profile Configuration Data. {0} ", DateTime.Now));
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateWhitespace("\r\n");
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateNode(XmlNodeType.Element, "Profile", null);
XmlNode xmlUseExclNode = m_Xdoc.CreateNode(XmlNodeType.Element, "useExclusiveMode", null); xmlUseExclNode.InnerText = useExclusiveMode.ToString(); Node.AppendChild(xmlUseExclNode);
XmlNode xmlStartMinimized = m_Xdoc.CreateNode(XmlNodeType.Element, "startMinimized", null); xmlStartMinimized.InnerText = startMinimized.ToString(); Node.AppendChild(xmlStartMinimized);
XmlNode xmlminToTaskbar = m_Xdoc.CreateNode(XmlNodeType.Element, "minimizeToTaskbar", null); xmlminToTaskbar.InnerText = minToTaskbar.ToString(); Node.AppendChild(xmlminToTaskbar);
XmlNode xmlFormWidth = m_Xdoc.CreateNode(XmlNodeType.Element, "formWidth", null); xmlFormWidth.InnerText = formWidth.ToString(); Node.AppendChild(xmlFormWidth);
XmlNode xmlFormHeight = m_Xdoc.CreateNode(XmlNodeType.Element, "formHeight", null); xmlFormHeight.InnerText = formHeight.ToString(); Node.AppendChild(xmlFormHeight);
XmlNode xmlFormLocationX = m_Xdoc.CreateNode(XmlNodeType.Element, "formLocationX", null); xmlFormLocationX.InnerText = formLocationX.ToString(); Node.AppendChild(xmlFormLocationX);
XmlNode xmlFormLocationY = m_Xdoc.CreateNode(XmlNodeType.Element, "formLocationY", null); xmlFormLocationY.InnerText = formLocationY.ToString(); Node.AppendChild(xmlFormLocationY);
XmlNode xmlController1 = m_Xdoc.CreateNode(XmlNodeType.Element, "Controller1", null); xmlController1.InnerText = !Global.linkedProfileCheck[0] ? profilePath[0] : olderProfilePath[0]; Node.AppendChild(xmlController1);
XmlNode xmlController2 = m_Xdoc.CreateNode(XmlNodeType.Element, "Controller2", null); xmlController2.InnerText = !Global.linkedProfileCheck[1] ? profilePath[1] : olderProfilePath[1]; Node.AppendChild(xmlController2);
XmlNode xmlController3 = m_Xdoc.CreateNode(XmlNodeType.Element, "Controller3", null); xmlController3.InnerText = !Global.linkedProfileCheck[2] ? profilePath[2] : olderProfilePath[2]; Node.AppendChild(xmlController3);
XmlNode xmlController4 = m_Xdoc.CreateNode(XmlNodeType.Element, "Controller4", null); xmlController4.InnerText = !Global.linkedProfileCheck[3] ? profilePath[3] : olderProfilePath[3]; Node.AppendChild(xmlController4);
XmlNode xmlLastChecked = m_Xdoc.CreateNode(XmlNodeType.Element, "LastChecked", null); xmlLastChecked.InnerText = lastChecked.ToString(); Node.AppendChild(xmlLastChecked);
XmlNode xmlCheckWhen = m_Xdoc.CreateNode(XmlNodeType.Element, "CheckWhen", null); xmlCheckWhen.InnerText = CheckWhen.ToString(); Node.AppendChild(xmlCheckWhen);
XmlNode xmlNotifications = m_Xdoc.CreateNode(XmlNodeType.Element, "Notifications", null); xmlNotifications.InnerText = notifications.ToString(); Node.AppendChild(xmlNotifications);
XmlNode xmlDisconnectBT = m_Xdoc.CreateNode(XmlNodeType.Element, "DisconnectBTAtStop", null); xmlDisconnectBT.InnerText = disconnectBTAtStop.ToString(); Node.AppendChild(xmlDisconnectBT);
XmlNode xmlSwipeProfiles = m_Xdoc.CreateNode(XmlNodeType.Element, "SwipeProfiles", null); xmlSwipeProfiles.InnerText = swipeProfiles.ToString(); Node.AppendChild(xmlSwipeProfiles);
//XmlNode xmlDS4Mapping = m_Xdoc.CreateNode(XmlNodeType.Element, "UseDS4ForMapping", null); xmlDS4Mapping.InnerText = ds4Mapping.ToString(); Node.AppendChild(xmlDS4Mapping);
XmlNode xmlQuickCharge = m_Xdoc.CreateNode(XmlNodeType.Element, "QuickCharge", null); xmlQuickCharge.InnerText = quickCharge.ToString(); Node.AppendChild(xmlQuickCharge);
XmlNode xmlCloseMini = m_Xdoc.CreateNode(XmlNodeType.Element, "CloseMinimizes", null); xmlCloseMini.InnerText = closeMini.ToString(); Node.AppendChild(xmlCloseMini);
XmlNode xmlUseLang = m_Xdoc.CreateNode(XmlNodeType.Element, "UseLang", null); xmlUseLang.InnerText = useLang.ToString(); Node.AppendChild(xmlUseLang);
XmlNode xmlDownloadLang = m_Xdoc.CreateNode(XmlNodeType.Element, "DownloadLang", null); xmlDownloadLang.InnerText = downloadLang.ToString(); Node.AppendChild(xmlDownloadLang);
XmlNode xmlFlashWhenLate = m_Xdoc.CreateNode(XmlNodeType.Element, "FlashWhenLate", null); xmlFlashWhenLate.InnerText = flashWhenLate.ToString(); Node.AppendChild(xmlFlashWhenLate);
XmlNode xmlFlashWhenLateAt = m_Xdoc.CreateNode(XmlNodeType.Element, "FlashWhenLateAt", null); xmlFlashWhenLateAt.InnerText = flashWhenLateAt.ToString(); Node.AppendChild(xmlFlashWhenLateAt);
XmlNode xmlWhiteIcon = m_Xdoc.CreateNode(XmlNodeType.Element, "WhiteIcon", null); xmlWhiteIcon.InnerText = useWhiteIcon.ToString(); Node.AppendChild(xmlWhiteIcon);
XmlNode xmlUseUDPServ = m_Xdoc.CreateNode(XmlNodeType.Element, "UseUDPServer", null); xmlUseUDPServ.InnerText = useUDPServ.ToString(); Node.AppendChild(xmlUseUDPServ);
XmlNode xmlUDPServPort = m_Xdoc.CreateNode(XmlNodeType.Element, "UDPServerPort", null); xmlUDPServPort.InnerText = udpServPort.ToString(); Node.AppendChild(xmlUDPServPort);
XmlNode xmlUDPServListenAddress = m_Xdoc.CreateNode(XmlNodeType.Element, "UDPServerListenAddress", null); xmlUDPServListenAddress.InnerText = udpServListenAddress; Node.AppendChild(xmlUDPServListenAddress);
XmlNode xmlUseCustomSteamFolder = m_Xdoc.CreateNode(XmlNodeType.Element, "UseCustomSteamFolder", null); xmlUseCustomSteamFolder.InnerText = useCustomSteamFolder.ToString(); Node.AppendChild(xmlUseCustomSteamFolder);
XmlNode xmlCustomSteamFolder = m_Xdoc.CreateNode(XmlNodeType.Element, "CustomSteamFolder", null); xmlCustomSteamFolder.InnerText = customSteamFolder; Node.AppendChild(xmlCustomSteamFolder);
XmlNode xmlAutoProfileRevertDefaultProfile = m_Xdoc.CreateNode(XmlNodeType.Element, "AutoProfileRevertDefaultProfile", null); xmlAutoProfileRevertDefaultProfile.InnerText = autoProfileRevertDefaultProfile.ToString(); Node.AppendChild(xmlAutoProfileRevertDefaultProfile);
for (int i = 0; i < 4; i++)
{
XmlNode xmlCustomLed = m_Xdoc.CreateNode(XmlNodeType.Element, "CustomLed" + (1 + i), null);
xmlCustomLed.InnerText = useCustomLeds[i] + ":" + m_CustomLeds[i].red + "," + m_CustomLeds[i].green + "," + m_CustomLeds[i].blue;
Node.AppendChild(xmlCustomLed);
}
m_Xdoc.AppendChild(Node);
try { m_Xdoc.Save(m_Profile); }
catch (UnauthorizedAccessException) { Saved = false; }
return Saved;
}
private void CreateAction()
{
XmlDocument m_Xdoc = new XmlDocument();
XmlNode Node;
Node = m_Xdoc.CreateXmlDeclaration("1.0", "utf-8", String.Empty);
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateComment(String.Format(" Special Actions Configuration Data. {0} ", DateTime.Now));
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateWhitespace("\r\n");
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateNode(XmlNodeType.Element, "Actions", "");
m_Xdoc.AppendChild(Node);
m_Xdoc.Save(m_Actions);
}
public bool SaveAction(string name, string controls, int mode, string details, bool edit, string extras = "")
{
bool saved = true;
if (!File.Exists(m_Actions))
CreateAction();
m_Xdoc.Load(m_Actions);
XmlNode Node;
Node = m_Xdoc.CreateComment(String.Format(" Special Actions Configuration Data. {0} ", DateTime.Now));
foreach (XmlNode node in m_Xdoc.SelectNodes("//comment()"))
node.ParentNode.ReplaceChild(Node, node);
Node = m_Xdoc.SelectSingleNode("Actions");
XmlElement el = m_Xdoc.CreateElement("Action");
el.SetAttribute("Name", name);
el.AppendChild(m_Xdoc.CreateElement("Trigger")).InnerText = controls;
switch (mode)
{
case 1:
el.AppendChild(m_Xdoc.CreateElement("Type")).InnerText = "Macro";
el.AppendChild(m_Xdoc.CreateElement("Details")).InnerText = details;
if (extras != string.Empty)
el.AppendChild(m_Xdoc.CreateElement("Extras")).InnerText = extras;
break;
case 2:
el.AppendChild(m_Xdoc.CreateElement("Type")).InnerText = "Program";
el.AppendChild(m_Xdoc.CreateElement("Details")).InnerText = details.Split('?')[0];
el.AppendChild(m_Xdoc.CreateElement("Arguements")).InnerText = extras;
el.AppendChild(m_Xdoc.CreateElement("Delay")).InnerText = details.Split('?')[1];
break;
case 3:
el.AppendChild(m_Xdoc.CreateElement("Type")).InnerText = "Profile";
el.AppendChild(m_Xdoc.CreateElement("Details")).InnerText = details;
el.AppendChild(m_Xdoc.CreateElement("UnloadTrigger")).InnerText = extras;
break;
case 4:
el.AppendChild(m_Xdoc.CreateElement("Type")).InnerText = "Key";
el.AppendChild(m_Xdoc.CreateElement("Details")).InnerText = details;
if (!string.IsNullOrEmpty(extras))
{
string[] exts = extras.Split('\n');
el.AppendChild(m_Xdoc.CreateElement("UnloadTrigger")).InnerText = exts[1];
el.AppendChild(m_Xdoc.CreateElement("UnloadStyle")).InnerText = exts[0];
}
break;
case 5:
el.AppendChild(m_Xdoc.CreateElement("Type")).InnerText = "DisconnectBT";
el.AppendChild(m_Xdoc.CreateElement("Details")).InnerText = details;
break;
case 6:
el.AppendChild(m_Xdoc.CreateElement("Type")).InnerText = "BatteryCheck";
el.AppendChild(m_Xdoc.CreateElement("Details")).InnerText = details;
break;
case 7:
el.AppendChild(m_Xdoc.CreateElement("Type")).InnerText = "MultiAction";
el.AppendChild(m_Xdoc.CreateElement("Details")).InnerText = details;
break;
case 8:
el.AppendChild(m_Xdoc.CreateElement("Type")).InnerText = "SASteeringWheelEmulationCalibrate";
el.AppendChild(m_Xdoc.CreateElement("Details")).InnerText = details;
break;
}
if (edit)
{
XmlNode oldxmlprocess = m_Xdoc.SelectSingleNode("/Actions/Action[@Name=\"" + name + "\"]");
Node.ReplaceChild(el, oldxmlprocess);
}
else { Node.AppendChild(el); }
m_Xdoc.AppendChild(Node);
try { m_Xdoc.Save(m_Actions); }
catch { saved = false; }
LoadActions();
return saved;
}
public void RemoveAction(string name)
{
m_Xdoc.Load(m_Actions);
XmlNode Node = m_Xdoc.SelectSingleNode("Actions");
XmlNode Item = m_Xdoc.SelectSingleNode("/Actions/Action[@Name=\"" + name + "\"]");
if (Item != null)
Node.RemoveChild(Item);
m_Xdoc.AppendChild(Node);
m_Xdoc.Save(m_Actions);
LoadActions();
}
public bool LoadActions()
{
bool saved = true;
if (!File.Exists(Global.appdatapath + "\\Actions.xml"))
{
SaveAction("Disconnect Controller", "PS/Options", 5, "0", false);
saved = false;
}
try
{
actions.Clear();
XmlDocument doc = new XmlDocument();
doc.Load(Global.appdatapath + "\\Actions.xml");
XmlNodeList actionslist = doc.SelectNodes("Actions/Action");
string name, controls, type, details, extras, extras2;
Mapping.actionDone.Clear();
foreach (XmlNode x in actionslist)
{
name = x.Attributes["Name"].Value;
controls = x.ChildNodes[0].InnerText;
type = x.ChildNodes[1].InnerText;
details = x.ChildNodes[2].InnerText;
Mapping.actionDone.Add(new Mapping.ActionState());
if (type == "Profile")
{
extras = x.ChildNodes[3].InnerText;
actions.Add(new SpecialAction(name, controls, type, details, 0, extras));
}
else if (type == "Macro")
{
if (x.ChildNodes[3] != null) extras = x.ChildNodes[3].InnerText;
else extras = string.Empty;
actions.Add(new SpecialAction(name, controls, type, details, 0, extras));
}
else if (type == "Key")
{
if (x.ChildNodes[3] != null)
{
extras = x.ChildNodes[3].InnerText;
extras2 = x.ChildNodes[4].InnerText;
}
else
{
extras = string.Empty;
extras2 = string.Empty;
}
if (!string.IsNullOrEmpty(extras))
actions.Add(new SpecialAction(name, controls, type, details, 0, extras2 + '\n' + extras));
else
actions.Add(new SpecialAction(name, controls, type, details));
}
else if (type == "DisconnectBT")
{
double doub;
if (double.TryParse(details, out doub))
actions.Add(new SpecialAction(name, controls, type, "", doub));
else
actions.Add(new SpecialAction(name, controls, type, ""));
}
else if (type == "BatteryCheck")
{
double doub;
if (double.TryParse(details.Split('|')[0], out doub))
actions.Add(new SpecialAction(name, controls, type, details, doub));
else if (double.TryParse(details.Split(',')[0], out doub))
actions.Add(new SpecialAction(name, controls, type, details, doub));
else
actions.Add(new SpecialAction(name, controls, type, details));
}
else if (type == "Program")
{
double doub;
if (x.ChildNodes[3] != null)
{
extras = x.ChildNodes[3].InnerText;
if (double.TryParse(x.ChildNodes[4].InnerText, out doub))
actions.Add(new SpecialAction(name, controls, type, details, doub, extras));
else
actions.Add(new SpecialAction(name, controls, type, details, 0, extras));
}
else
{
actions.Add(new SpecialAction(name, controls, type, details));
}
}
else if (type == "XboxGameDVR" || type == "MultiAction")
{
actions.Add(new SpecialAction(name, controls, type, details));
}
else if (type == "SASteeringWheelEmulationCalibrate")
{
double doub;
if (double.TryParse(details, out doub))
actions.Add(new SpecialAction(name, controls, type, "", doub));
else
actions.Add(new SpecialAction(name, controls, type, ""));
}
}
}
catch { saved = false; }
return saved;
}
public bool createLinkedProfiles()
{
bool saved = true;
XmlDocument m_Xdoc = new XmlDocument();
XmlNode Node;
Node = m_Xdoc.CreateXmlDeclaration("1.0", "utf-8", string.Empty);
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateComment(string.Format(" Mac Address and Profile Linking Data. {0} ", DateTime.Now));
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateWhitespace("\r\n");
m_Xdoc.AppendChild(Node);
Node = m_Xdoc.CreateNode(XmlNodeType.Element, "LinkedControllers", "");
m_Xdoc.AppendChild(Node);
try { m_Xdoc.Save(m_linkedProfiles); }
catch (UnauthorizedAccessException) { AppLogger.LogToGui("Unauthorized Access - Save failed to path: " + m_linkedProfiles, false); saved = false; }
return saved;
}
public bool LoadLinkedProfiles()
{
bool loaded = true;
if (File.Exists(m_linkedProfiles))
{
XmlDocument linkedXdoc = new XmlDocument();
XmlNode Node;
linkedXdoc.Load(m_linkedProfiles);
linkedProfiles.Clear();
try
{
Node = linkedXdoc.SelectSingleNode("/LinkedControllers");
XmlNodeList links = Node.ChildNodes;
for (int i = 0, listLen = links.Count; i < listLen; i++)
{
XmlNode current = links[i];
string serial = current.Name.Replace("MAC", string.Empty);
string profile = current.InnerText;
linkedProfiles[serial] = profile;
}
}
catch { loaded = false; }
}
else
{
AppLogger.LogToGui("LinkedProfiles.xml can't be found.", false);
loaded = false;
}
return loaded;
}
public bool SaveLinkedProfiles()
{
bool saved = true;
if (File.Exists(m_linkedProfiles))
{
XmlDocument linkedXdoc = new XmlDocument();
XmlNode Node;
Node = linkedXdoc.CreateXmlDeclaration("1.0", "utf-8", string.Empty);
linkedXdoc.AppendChild(Node);
Node = linkedXdoc.CreateComment(string.Format(" Mac Address and Profile Linking Data. {0} ", DateTime.Now));
linkedXdoc.AppendChild(Node);
Node = linkedXdoc.CreateWhitespace("\r\n");
linkedXdoc.AppendChild(Node);
Node = linkedXdoc.CreateNode(XmlNodeType.Element, "LinkedControllers", "");
linkedXdoc.AppendChild(Node);
Dictionary<string, string>.KeyCollection serials = linkedProfiles.Keys;
//for (int i = 0, itemCount = linkedProfiles.Count; i < itemCount; i++)
for (var serialEnum = serials.GetEnumerator(); serialEnum.MoveNext();)
{
//string serial = serials.ElementAt(i);
string serial = serialEnum.Current;
string profile = linkedProfiles[serial];
XmlElement link = linkedXdoc.CreateElement("MAC" + serial);
link.InnerText = profile;
Node.AppendChild(link);
}
try { linkedXdoc.Save(m_linkedProfiles); }
catch (UnauthorizedAccessException) { AppLogger.LogToGui("Unauthorized Access - Save failed to path: " + m_linkedProfiles, false); saved = false; }
}
else
{
saved = createLinkedProfiles();
saved = saved && SaveLinkedProfiles();
}
return saved;
}
public bool createControllerConfigs()
{
bool saved = true;
XmlDocument configXdoc = new XmlDocument();
XmlNode Node;
Node = configXdoc.CreateXmlDeclaration("1.0", "utf-8", string.Empty);
configXdoc.AppendChild(Node);
Node = configXdoc.CreateComment(string.Format(" Controller config data. {0} ", DateTime.Now));
configXdoc.AppendChild(Node);
Node = configXdoc.CreateWhitespace("\r\n");
configXdoc.AppendChild(Node);
Node = configXdoc.CreateNode(XmlNodeType.Element, "Controllers", "");
configXdoc.AppendChild(Node);
try { configXdoc.Save(m_controllerConfigs); }
catch (UnauthorizedAccessException) { AppLogger.LogToGui("Unauthorized Access - Save failed to path: " + m_controllerConfigs, false); saved = false; }
return saved;
}
public bool LoadControllerConfigsForDevice(DS4Device device)
{
bool loaded = false;
if (device == null) return false;
if (!File.Exists(m_controllerConfigs)) createControllerConfigs();
try
{
XmlDocument xmlDoc = new XmlDocument();
xmlDoc.Load(m_controllerConfigs);
XmlNode node = xmlDoc.SelectSingleNode("/Controllers/Controller[@Mac=\"" + device.getMacAddress() + "\"]");
if (node != null)
{
Int32 intValue;
if (Int32.TryParse(node["wheelCenterPoint"].InnerText.Split(',')[0], out intValue)) device.wheelCenterPoint.X = intValue;
if (Int32.TryParse(node["wheelCenterPoint"].InnerText.Split(',')[1], out intValue)) device.wheelCenterPoint.Y = intValue;
if (Int32.TryParse(node["wheel90DegPointLeft"].InnerText.Split(',')[0], out intValue)) device.wheel90DegPointLeft.X = intValue;
if (Int32.TryParse(node["wheel90DegPointLeft"].InnerText.Split(',')[1], out intValue)) device.wheel90DegPointLeft.Y = intValue;
if (Int32.TryParse(node["wheel90DegPointRight"].InnerText.Split(',')[0], out intValue)) device.wheel90DegPointRight.X = intValue;
if (Int32.TryParse(node["wheel90DegPointRight"].InnerText.Split(',')[1], out intValue)) device.wheel90DegPointRight.Y = intValue;
loaded = true;
}
}
catch
{
AppLogger.LogToGui("ControllerConfigs.xml can't be found.", false);
loaded = false;
}
return loaded;
}
public bool SaveControllerConfigsForDevice(DS4Device device)
{
bool saved = true;
if (device == null) return false;
if (!File.Exists(m_controllerConfigs)) createControllerConfigs();
try
{
//XmlNode node = null;
XmlDocument xmlDoc = new XmlDocument();
xmlDoc.Load(m_controllerConfigs);
XmlNode node = xmlDoc.SelectSingleNode("/Controllers/Controller[@Mac=\"" + device.getMacAddress() + "\"]");
if (node == null)
{
XmlNode xmlControllersNode = xmlDoc.SelectSingleNode("/Controllers");
XmlElement el = xmlDoc.CreateElement("Controller");
el.SetAttribute("Mac", device.getMacAddress());
el.AppendChild(xmlDoc.CreateElement("wheelCenterPoint"));
el.AppendChild(xmlDoc.CreateElement("wheel90DegPointLeft"));
el.AppendChild(xmlDoc.CreateElement("wheel90DegPointRight"));
node = xmlControllersNode.AppendChild(el);
}
node["wheelCenterPoint"].InnerText = $"{device.wheelCenterPoint.X},{device.wheelCenterPoint.Y}";
node["wheel90DegPointLeft"].InnerText = $"{device.wheel90DegPointLeft.X},{device.wheel90DegPointLeft.Y}";
node["wheel90DegPointRight"].InnerText = $"{device.wheel90DegPointRight.X},{device.wheel90DegPointRight.Y}";
xmlDoc.Save(m_controllerConfigs);
}
catch (UnauthorizedAccessException)
{
AppLogger.LogToGui("Unauthorized Access - Save failed to path: " + m_controllerConfigs, false);
saved = false;
}
return saved;
}
public void UpdateDS4CSetting(int deviceNum, string buttonName, bool shift, object action, string exts, DS4KeyType kt, int trigger = 0)
{
DS4Controls dc;
if (buttonName.StartsWith("bn"))
dc = getDS4ControlsByName(buttonName);
else
dc = (DS4Controls)Enum.Parse(typeof(DS4Controls), buttonName, true);
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
dcs.UpdateSettings(shift, action, exts, kt, trigger);
}
}
public void UpdateDS4CExtra(int deviceNum, string buttonName, bool shift, string exts)
{
DS4Controls dc;
if (buttonName.StartsWith("bn"))
dc = getDS4ControlsByName(buttonName);
else
dc = (DS4Controls)Enum.Parse(typeof(DS4Controls), buttonName, true);
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
if (shift)
dcs.shiftExtras = exts;
else
dcs.extras = exts;
}
}
private void UpdateDS4CKeyType(int deviceNum, string buttonName, bool shift, DS4KeyType keyType)
{
DS4Controls dc;
if (buttonName.StartsWith("bn"))
dc = getDS4ControlsByName(buttonName);
else
dc = (DS4Controls)Enum.Parse(typeof(DS4Controls), buttonName, true);
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
if (shift)
dcs.shiftKeyType = keyType;
else
dcs.keyType = keyType;
}
}
public object GetDS4Action(int deviceNum, string buttonName, bool shift)
{
DS4Controls dc;
if (buttonName.StartsWith("bn"))
dc = getDS4ControlsByName(buttonName);
else
dc = (DS4Controls)Enum.Parse(typeof(DS4Controls), buttonName, true);
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
if (shift)
{
return dcs.shiftAction;
}
else
{
return dcs.action;
}
}
return null;
}
public object GetDS4Action(int deviceNum, DS4Controls dc, bool shift)
{
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
if (shift)
{
return dcs.shiftAction;
}
else
{
return dcs.action;
}
}
return null;
}
public string GetDS4Extra(int deviceNum, string buttonName, bool shift)
{
DS4Controls dc;
if (buttonName.StartsWith("bn"))
dc = getDS4ControlsByName(buttonName);
else
dc = (DS4Controls)Enum.Parse(typeof(DS4Controls), buttonName, true);
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
if (shift)
return dcs.shiftExtras;
else
return dcs.extras;
}
return null;
}
public DS4KeyType GetDS4KeyType(int deviceNum, string buttonName, bool shift)
{
DS4Controls dc;
if (buttonName.StartsWith("bn"))
dc = getDS4ControlsByName(buttonName);
else
dc = (DS4Controls)Enum.Parse(typeof(DS4Controls), buttonName, true);
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
if (shift)
return dcs.shiftKeyType;
else
return dcs.keyType;
}
return DS4KeyType.None;
}
public int GetDS4STrigger(int deviceNum, string buttonName)
{
DS4Controls dc;
if (buttonName.StartsWith("bn"))
dc = getDS4ControlsByName(buttonName);
else
dc = (DS4Controls)Enum.Parse(typeof(DS4Controls), buttonName, true);
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
return dcs.shiftTrigger;
}
return 0;
}
public int GetDS4STrigger(int deviceNum, DS4Controls dc)
{
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
return dcs.shiftTrigger;
}
return 0;
}
public DS4ControlSettings getDS4CSetting(int deviceNum, string buttonName)
{
DS4Controls dc;
if (buttonName.StartsWith("bn"))
dc = getDS4ControlsByName(buttonName);
else
dc = (DS4Controls)Enum.Parse(typeof(DS4Controls), buttonName, true);
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
return dcs;
}
return null;
}
public DS4ControlSettings getDS4CSetting(int deviceNum, DS4Controls dc)
{
int temp = (int)dc;
if (temp > 0)
{
int index = temp - 1;
DS4ControlSettings dcs = ds4settings[deviceNum][index];
return dcs;
}
return null;
}
public bool HasCustomActions(int deviceNum)
{
List<DS4ControlSettings> ds4settingsList = ds4settings[deviceNum];
for (int i = 0, settingsLen = ds4settingsList.Count; i < settingsLen; i++)
{
DS4ControlSettings dcs = ds4settingsList[i];
if (dcs.action != null || dcs.shiftAction != null)
return true;
}
return false;
}
public bool HasCustomExtras(int deviceNum)
{
List<DS4ControlSettings> ds4settingsList = ds4settings[deviceNum];
for (int i = 0, settingsLen = ds4settingsList.Count; i < settingsLen; i++)
{
DS4ControlSettings dcs = ds4settingsList[i];
if (dcs.extras != null || dcs.shiftExtras != null)
return true;
}
return false;
}
private void ResetProfile(int device)
{
buttonMouseSensitivity[device] = 25;
flushHIDQueue[device] = false;
enableTouchToggle[device] = false;
idleDisconnectTimeout[device] = 0;
touchpadJitterCompensation[device] = true;
lowerRCOn[device] = false;
ledAsBattery[device] = false;
flashType[device] = 0;
rumble[device] = 100;
rumbleAutostopTime[device] = 0;
touchSensitivity[device] = 100;
l2ModInfo[device].deadZone = r2ModInfo[device].deadZone = 0;
lsModInfo[device].deadZone = rsModInfo[device].deadZone = 10;
lsModInfo[device].antiDeadZone = rsModInfo[device].antiDeadZone = 25;
lsModInfo[device].maxZone = rsModInfo[device].maxZone = 100;
l2ModInfo[device].antiDeadZone = r2ModInfo[device].antiDeadZone = 0;
l2ModInfo[device].maxZone = r2ModInfo[device].maxZone = 100;
LSRotation[device] = 0.0;
RSRotation[device] = 0.0;
SXDeadzone[device] = SZDeadzone[device] = 0.25;
SXMaxzone[device] = SZMaxzone[device] = 1.0;
SXAntiDeadzone[device] = SZAntiDeadzone[device] = 0.0;
l2Sens[device] = r2Sens[device] = 1;
LSSens[device] = RSSens[device] = 1;
SXSens[device] = SZSens[device] = 1;
tapSensitivity[device] = 0;
doubleTap[device] = false;
scrollSensitivity[device] = 0;
touchpadInvert[device] = 0;
rainbow[device] = 0;
maxRainbowSat[device] = 1.0;
flashAt[device] = 0;
mouseAccel[device] = false;
btPollRate[device] = 4;
m_LowLeds[device] = new DS4Color(Color.Black);
Color tempColor = Color.Blue;
switch(device)
{
case 0: tempColor = Color.Blue; break;
case 1: tempColor = Color.Red; break;
case 2: tempColor = Color.Green; break;
case 3: tempColor = Color.Pink; break;
case 4: tempColor = Color.White; break;
default: tempColor = Color.Blue; break;
}
m_Leds[device] = new DS4Color(tempColor);
m_ChargingLeds[device] = new DS4Color(Color.Black);
m_FlashLeds[device] = new DS4Color(Color.Black);
//useCustomLeds[device] = false;
//m_CustomLeds[device] = new DS4Color(Color.Blue);
chargingType[device] = 0;
launchProgram[device] = string.Empty;
dinputOnly[device] = false;
startTouchpadOff[device] = false;
useTPforControls[device] = false;
useSAforMouse[device] = false;
sATriggers[device] = "-1";
sATriggerCond[device] = true;
gyroOutMode[device] = GyroOutMode.Controls;
sAMouseStickTriggers[device] = "-1";
sAMouseStickTriggerCond[device] = true;
gyroMStickInfo[device].deadZone = 30; gyroMStickInfo[device].maxZone = 830;
gyroMStickInfo[device].antiDeadX = 0.4; gyroMStickInfo[device].antiDeadY = 0.4;
gyroMStickInfo[device].inverted = 0; gyroMStickInfo[device].vertScale = 100;
gyroMouseStickToggle[device] = false;
gyroMStickInfo[device].useSmoothing = false; gyroMStickInfo[device].smoothWeight = 0.5;
gyroMouseStickTriggerTurns[device] = true;
sASteeringWheelEmulationAxis[device] = SASteeringWheelEmulationAxisType.None;
sASteeringWheelEmulationRange[device] = 360;
touchDisInvertTriggers[device] = new int[1] { -1 };
lsCurve[device] = rsCurve[device] = 0;
gyroSensitivity[device] = 100;
gyroSensVerticalScale[device] = 100;
gyroInvert[device] = 0;
gyroTriggerTurns[device] = true;
gyroSmoothing[device] = false;
gyroSmoothWeight[device] = 0.5;
gyroMouseHorizontalAxis[device] = 0;
gyroMouseToggle[device] = false;
squStickInfo[device].lsMode = false;
squStickInfo[device].rsMode = false;
squStickInfo[device].lsRoundness = 5.0;
squStickInfo[device].rsRoundness = 5.0;
setLsOutCurveMode(device, 0);
setRsOutCurveMode(device, 0);
setL2OutCurveMode(device, 0);
setR2OutCurveMode(device, 0);
setSXOutCurveMode(device, 0);
setSZOutCurveMode(device, 0);
trackballMode[device] = false;
trackballFriction[device] = 10.0;
outputDevType[device] = OutContType.X360;
ds4Mapping = false;
}
public void LoadBlankProfile(int device, bool launchprogram, ControlService control,
string propath = "", bool xinputChange = true, bool postLoad = true)
{
bool xinputPlug = false;
bool xinputStatus = false;
OutContType oldContType = Global.activeOutDevType[device];
// Make sure to reset currently set profile values before parsing
ResetProfile(device);
// Only change xinput devices under certain conditions. Avoid
// performing this upon program startup before loading devices.
if (xinputChange)
{
CheckOldDevicestatus(device, control, oldContType,
out xinputPlug, out xinputStatus);
}
foreach (DS4ControlSettings dcs in ds4settings[device])
dcs.Reset();
profileActions[device].Clear();
containsCustomAction[device] = false;
containsCustomExtras[device] = false;
// If a device exists, make sure to transfer relevant profile device
// options to device instance
if (postLoad && device < 4)
{
PostLoadSnippet(device, control, xinputStatus, xinputPlug);
}
}
private void CheckOldDevicestatus(int device, ControlService control,
OutContType oldContType, out bool xinputPlug, out bool xinputStatus)
{
xinputPlug = false;
xinputStatus = false;
if (device < 4)
{
bool oldUseDInputOnly = Global.useDInputOnly[device];
DS4Device tempDevice = control.DS4Controllers[device];
bool exists = tempBool = (tempDevice != null);
bool synced = tempBool = exists ? tempDevice.isSynced() : false;
bool isAlive = tempBool = exists ? tempDevice.IsAlive() : false;
if (dinputOnly[device] != oldUseDInputOnly)
{
if (dinputOnly[device] == true)
{
xinputPlug = false;
xinputStatus = true;
}
else if (synced && isAlive)
{
xinputPlug = true;
xinputStatus = true;
}
}
else if (oldContType != outputDevType[device])
{
xinputPlug = true;
xinputStatus = true;
}
}
}
private void PostLoadSnippet(int device, ControlService control, bool xinputStatus, bool xinputPlug)
{
DS4Device tempDev = control.DS4Controllers[device];
if (tempDev != null && tempDev.isSynced())
{
tempDev.queueEvent(() =>
{
tempDev.setIdleTimeout(idleDisconnectTimeout[device]);
tempDev.setBTPollRate(btPollRate[device]);
if (xinputStatus && xinputPlug)
{
OutputDevice tempOutDev = control.outputDevices[device];
if (tempOutDev != null)
{
tempOutDev = null;
Global.activeOutDevType[device] = OutContType.None;
control.UnplugOutDev(device, tempDev);
}
OutContType tempContType = outputDevType[device];
control.PluginOutDev(device, tempDev);
//Global.useDInputOnly[device] = false;
}
else if (xinputStatus && !xinputPlug)
{
Global.activeOutDevType[device] = OutContType.None;
control.UnplugOutDev(device, tempDev);
}
tempDev.RumbleAutostopTime = rumbleAutostopTime[device];
tempDev.setRumble(0, 0);
});
Program.rootHub.touchPad[device]?.ResetTrackAccel(trackballFriction[device]);
}
}
}
public class SpecialAction
{
public enum ActionTypeId { None, Key, Program, Profile, Macro, DisconnectBT, BatteryCheck, MultiAction, XboxGameDVR, SASteeringWheelEmulationCalibrate }
public string name;
public List<DS4Controls> trigger = new List<DS4Controls>();
public string type;
public ActionTypeId typeID;
public string controls;
public List<int> macro = new List<int>();
public string details;
public List<DS4Controls> uTrigger = new List<DS4Controls>();
public string ucontrols;
public double delayTime = 0;
public string extra;
public bool pressRelease = false;
public DS4KeyType keyType;
public bool tappedOnce = false;
public bool firstTouch = false;
public bool secondtouchbegin = false;
public DateTime pastTime;
public DateTime firstTap;
public DateTime TimeofEnd;
public bool automaticUntrigger = false;
public string prevProfileName; // Name of the previous profile where automaticUntrigger would jump back to (could be regular or temporary profile. Empty name is the same as regular profile)
public bool synchronized = false; // If the same trigger has both "key down" and "key released" macros then run those synchronized if this attribute is TRUE (ie. key down macro fully completed before running the key release macro)
public bool keepKeyState = false; // By default special action type "Macro" resets all keys used in the macro back to default "key up" state after completing the macro even when the macro itself doesn't do it explicitly. If this is TRUE then key states are NOT reset automatically (macro is expected to do it or to leave a key to down state on purpose)
public SpecialAction(string name, string controls, string type, string details, double delay = 0, string extras = "")
{
this.name = name;
this.type = type;
this.typeID = ActionTypeId.None;
this.controls = controls;
delayTime = delay;
string[] ctrls = controls.Split('/');
foreach (string s in ctrls)
trigger.Add(getDS4ControlsByName(s));
if (type == "Key")
{
typeID = ActionTypeId.Key;
this.details = details.Split(' ')[0];
if (!string.IsNullOrEmpty(extras))
{
string[] exts = extras.Split('\n');
pressRelease = exts[0] == "Release";
this.ucontrols = exts[1];
string[] uctrls = exts[1].Split('/');
foreach (string s in uctrls)
uTrigger.Add(getDS4ControlsByName(s));
}
if (details.Contains("Scan Code"))
keyType |= DS4KeyType.ScanCode;
}
else if (type == "Program")
{
typeID = ActionTypeId.Program;
this.details = details;
if (extras != string.Empty)
extra = extras;
}
else if (type == "Profile")
{
typeID = ActionTypeId.Profile;
this.details = details;
if (extras != string.Empty)
{
extra = extras;
}
}
else if (type == "Macro")
{
typeID = ActionTypeId.Macro;
string[] macs = details.Split('/');
foreach (string s in macs)
{
int v;
if (int.TryParse(s, out v))
macro.Add(v);
}
if (extras.Contains("Scan Code"))
keyType |= DS4KeyType.ScanCode;
if (extras.Contains("RunOnRelease"))
pressRelease = true;
if (extras.Contains("Sync"))
synchronized = true;
if (extras.Contains("KeepKeyState"))
keepKeyState = true;
if (extras.Contains("Repeat"))
keyType |= DS4KeyType.RepeatMacro;
}
else if (type == "DisconnectBT")
{
typeID = ActionTypeId.DisconnectBT;
}
else if (type == "BatteryCheck")
{
typeID = ActionTypeId.BatteryCheck;
string[] dets = details.Split('|');
this.details = string.Join(",", dets);
}
else if (type == "MultiAction")
{
typeID = ActionTypeId.MultiAction;
this.details = details;
}
else if (type == "XboxGameDVR")
{
this.typeID = ActionTypeId.XboxGameDVR;
string[] dets = details.Split(',');
List<string> macros = new List<string>();
//string dets = "";
int typeT = 0;
for (int i = 0; i < 3; i++)
{
if (int.TryParse(dets[i], out typeT))
{
switch (typeT)
{
case 0: macros.Add("91/71/71/91"); break;
case 1: macros.Add("91/164/82/82/164/91"); break;
case 2: macros.Add("91/164/44/44/164/91"); break;
case 3: macros.Add(dets[3] + "/" + dets[3]); break;
case 4: macros.Add("91/164/71/71/164/91"); break;
}
}
}
this.type = "MultiAction";
type = "MultiAction";
this.details = string.Join(",", macros);
}
else if (type == "SASteeringWheelEmulationCalibrate")
{
typeID = ActionTypeId.SASteeringWheelEmulationCalibrate;
}
else
this.details = details;
if (type != "Key" && !string.IsNullOrEmpty(extras))
{
this.ucontrols = extras;
string[] uctrls = extras.Split('/');
foreach (string s in uctrls)
{
if (s == "AutomaticUntrigger") this.automaticUntrigger = true;
else uTrigger.Add(getDS4ControlsByName(s));
}
}
}
private DS4Controls getDS4ControlsByName(string key)
{
switch (key)
{
case "Share": return DS4Controls.Share;
case "L3": return DS4Controls.L3;
case "R3": return DS4Controls.R3;
case "Options": return DS4Controls.Options;
case "Up": return DS4Controls.DpadUp;
case "Right": return DS4Controls.DpadRight;
case "Down": return DS4Controls.DpadDown;
case "Left": return DS4Controls.DpadLeft;
case "L1": return DS4Controls.L1;
case "R1": return DS4Controls.R1;
case "Triangle": return DS4Controls.Triangle;
case "Circle": return DS4Controls.Circle;
case "Cross": return DS4Controls.Cross;
case "Square": return DS4Controls.Square;
case "PS": return DS4Controls.PS;
case "Left Stick Left": return DS4Controls.LXNeg;
case "Left Stick Up": return DS4Controls.LYNeg;
case "Right Stick Left": return DS4Controls.RXNeg;
case "Right Stick Up": return DS4Controls.RYNeg;
case "Left Stick Right": return DS4Controls.LXPos;
case "Left Stick Down": return DS4Controls.LYPos;
case "Right Stick Right": return DS4Controls.RXPos;
case "Right Stick Down": return DS4Controls.RYPos;
case "L2": return DS4Controls.L2;
case "R2": return DS4Controls.R2;
case "Left Touch": return DS4Controls.TouchLeft;
case "Multitouch": return DS4Controls.TouchMulti;
case "Upper Touch": return DS4Controls.TouchUpper;
case "Right Touch": return DS4Controls.TouchRight;
case "Swipe Up": return DS4Controls.SwipeUp;
case "Swipe Down": return DS4Controls.SwipeDown;
case "Swipe Left": return DS4Controls.SwipeLeft;
case "Swipe Right": return DS4Controls.SwipeRight;
case "Tilt Up": return DS4Controls.GyroZNeg;
case "Tilt Down": return DS4Controls.GyroZPos;
case "Tilt Left": return DS4Controls.GyroXPos;
case "Tilt Right": return DS4Controls.GyroXNeg;
}
return 0;
}
}
}