cemu-DS4Windows/DS4Windows/DS4Control/ScpUtil.cs
2018-01-28 02:00:29 -06:00

3828 lines
176 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;
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 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;
static string exepath = Directory.GetParent(Assembly.GetExecutingAssembly().Location).FullName;
public static string appdatapath;
public static bool runHotPlug = false;
public const int XINPUT_UNPLUG_SETTLE_TIME = 250; // Inhibit races that occur with the asynchronous teardown of ScpVBus -> X360 driver instance.
public static string[] tempprofilename = new string[5] { string.Empty, string.Empty, string.Empty, string.Empty, string.Empty };
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] { true, true, true, true };
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.None, X360Controls.None, X360Controls.None, X360Controls.None,
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 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";
}
/// <summary>
/// Check if Admin Rights are needed to write in Appliplation Directory
/// </summary>
/// <returns></returns>
public static bool AdminNeeded()
{
try
{
File.WriteAllText(exepath + "\\test.txt", "test");
File.Delete(exepath + "\\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 IsScpVBusInstalled()
{
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, "", 0, NativeMethods.DIGCF_PRESENT | NativeMethods.DIGCF_DEVICEINTERFACE | NativeMethods.DIGCF_ALLCLASSES);
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("Scp Virtual Bus Driver"))
// result = true;
if (hardwareId.Equals(@"root\ScpVBus"))
result = true;
}
}
if (deviceInfoSet.ToInt64() != NativeMethods.INVALID_HANDLE_VALUE)
{
NativeMethods.SetupDiDestroyDeviceInfoList(deviceInfoSet);
}
return result;
}
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 int FirstXinputPort
{
set { m_Config.firstXinputPort = value; }
get { return m_Config.firstXinputPort; }
}
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 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 UseWhiteIcon
{
set { m_Config.useWhiteIcon = value; }
get { return m_Config.useWhiteIcon; }
}
// 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 double[] Rainbow => m_Config.rainbow;
public static double getRainbow(int index)
{
return m_Config.rainbow[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 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.useSAforMouse[index];
}
public static string[] SATriggers => m_Config.sATriggers;
public static string getSATriggers(int index)
{
return m_Config.sATriggers[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 DS4Color[] MainColor => m_Config.m_Leds;
public static DS4Color getMainColor(int index)
{
return m_Config.m_Leds[index];
}
public static DS4Color[] LowColor => m_Config.m_LowLeds;
public static DS4Color getLowColor(int index)
{
return m_Config.m_LowLeds[index];
}
public static DS4Color[] ChargingColor => m_Config.m_ChargingLeds;
public static DS4Color getChargingColor(int index)
{
return m_Config.m_ChargingLeds[index];
}
public static DS4Color[] CustomColor => m_Config.m_CustomLeds;
public static DS4Color getCustomColor(int index)
{
return 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 DS4Color getFlashColor(int index)
{
return 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 byte[] L2Deadzone => m_Config.l2Deadzone;
public static byte getL2Deadzone(int index)
{
return m_Config.l2Deadzone[index];
}
public static byte[] R2Deadzone => m_Config.r2Deadzone;
public static byte getR2Deadzone(int index)
{
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.LSDeadzone[index];
}
public static int[] RSDeadzone => m_Config.RSDeadzone;
public static int getRSDeadzone(int index)
{
return m_Config.RSDeadzone[index];
}
public static int[] LSAntiDeadzone => m_Config.LSAntiDeadzone;
public static int getLSAntiDeadzone(int index)
{
return m_Config.LSAntiDeadzone[index];
}
public static int[] RSAntiDeadzone => m_Config.RSAntiDeadzone;
public static int getRSAntiDeadzone(int index)
{
return m_Config.RSAntiDeadzone[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.LSMaxzone[index];
}
public static int[] RSMaxzone => m_Config.RSMaxzone;
public static int getRSMaxzone(int index)
{
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.l2AntiDeadzone[index];
}
public static int[] R2AntiDeadzone => m_Config.r2AntiDeadzone;
public static int getR2AntiDeadzone(int index)
{
return m_Config.r2AntiDeadzone[index];
}
public static int[] L2Maxzone => m_Config.l2Maxzone;
public static int getL2Maxzone(int index)
{
return m_Config.l2Maxzone[index];
}
public static int[] R2Maxzone => m_Config.r2Maxzone;
public static int getR2Maxzone(int index)
{
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 int[] lsOutCurveMode => m_Config.lsOutCurveMode;
public static int getLsOutCurveMode(int index)
{
return m_Config.lsOutCurveMode[index];
}
public static int[] rsOutCurveMode => m_Config.rsOutCurveMode;
public static int getRsOutCurveMode(int index)
{
return m_Config.rsOutCurveMode[index];
}
public static int[] l2OutCurveMode => m_Config.l2OutCurveMode;
public static int getL2OutCurveMode(int index)
{
return m_Config.l2OutCurveMode[index];
}
public static int[] r2OutCurveMode => m_Config.r2OutCurveMode;
public static int getR2OutCurveMode(int index)
{
return m_Config.r2OutCurveMode[index];
}
public static int[] sxOutCurveMode => m_Config.sxOutCurveMode;
public static int getSXOutCurveMode(int index)
{
return m_Config.sxOutCurveMode[index];
}
public static int[] szOutCurveMode => m_Config.szOutCurveMode;
public static int getSZOutCurveMode(int index)
{
return m_Config.szOutCurveMode[index];
}
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 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;
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;
tempprofileDistance[device] = name.ToLower().Contains("distance");
}
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();
}
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 /= 100.0;
return (byte)Math.Round((b1 * (1 - r) + b2 * r), 0);
}
public static DS4Color getTransitionedColor(DS4Color c1, DS4Color c2, double ratio)
{
//Color cs = Color.FromArgb(c1.red, c1.green, c1.blue);
c1.red = applyRatio(c1.red, c2.red, ratio);
c1.green = applyRatio(c1.green, c2.green, ratio);
c1.blue = applyRatio(c1.blue, c2.blue, ratio);
return c1;
}
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";
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 Byte[] touchSensitivity = new Byte[5] { 100, 100, 100, 100, 100 };
public Byte[] l2Deadzone = new Byte[5] { 0, 0, 0, 0, 0 }, r2Deadzone = new Byte[5] { 0, 0, 0, 0, 0 };
public int[] LSDeadzone = new int[5] { 0, 0, 0, 0, 0 }, RSDeadzone = new int[5] { 0, 0, 0, 0, 0 };
public int[] LSAntiDeadzone = new int[5] { 0, 0, 0, 0, 0 }, RSAntiDeadzone = new int[5] { 0, 0, 0, 0, 0 };
public int[] LSMaxzone = new int[5] { 100, 100, 100, 100, 100 }, RSMaxzone = new int[5] { 100, 100, 100, 100, 100 };
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] { 0.02, 0.02, 0.02, 0.02, 0.02 }, SZDeadzone = new double[5] { 0.02, 0.02, 0.02, 0.02, 0.02 };
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] { true, true, true, true, true };
public int[] btPollRate = new int[5] { 4, 4, 4, 4, 4 };
public int[] lsOutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int[] rsOutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int[] l2OutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int[] r2OutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int[] sxOutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
public int[] szOutCurveMode = new int[5] { 0, 0, 0, 0, 0 };
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 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 string[] sATriggers = new string[5] { string.Empty, string.Empty, string.Empty, string.Empty, string.Empty };
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 DateTime lastChecked;
public int CheckWhen = 1;
public int notifications = 2;
public bool disconnectBTAtStop = false;
public bool swipeProfiles = true;
public bool ds4Mapping = true;
public bool quickCharge = false;
public int firstXinputPort = 1;
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;
// 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 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 };
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;
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;
default: break;
}
return id;
}
private string axisOutputCurveString(int id)
{
string result = "linear";
switch (id)
{
case 0: break;
case 1: result = "quadratic"; break;
case 2: result = "cubic"; break;
default: break;
}
return result;
}
private int axisOutputCurveId(string name)
{
int id = 0;
switch (name)
{
case "linear": id = 0; break;
case "quadratic": id = 1; break;
case "cubic": id = 2; break;
default: break;
}
return id;
}
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 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 = l2Deadzone[device].ToString(); Node.AppendChild(xmlLeftTriggerMiddle);
XmlNode xmlRightTriggerMiddle = m_Xdoc.CreateNode(XmlNodeType.Element, "RightTriggerMiddle", null); xmlRightTriggerMiddle.InnerText = r2Deadzone[device].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 = l2AntiDeadzone[device].ToString(); Node.AppendChild(xmlL2AD);
XmlNode xmlR2AD = m_Xdoc.CreateNode(XmlNodeType.Element, "R2AntiDeadZone", null); xmlR2AD.InnerText = r2AntiDeadzone[device].ToString(); Node.AppendChild(xmlR2AD);
XmlNode xmlL2Maxzone = m_Xdoc.CreateNode(XmlNodeType.Element, "L2MaxZone", null); xmlL2Maxzone.InnerText = l2Maxzone[device].ToString(); Node.AppendChild(xmlL2Maxzone);
XmlNode xmlR2Maxzone = m_Xdoc.CreateNode(XmlNodeType.Element, "R2MaxZone", null); xmlR2Maxzone.InnerText = r2Maxzone[device].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 xmlLSD = m_Xdoc.CreateNode(XmlNodeType.Element, "LSDeadZone", null); xmlLSD.InnerText = LSDeadzone[device].ToString(); Node.AppendChild(xmlLSD);
XmlNode xmlRSD = m_Xdoc.CreateNode(XmlNodeType.Element, "RSDeadZone", null); xmlRSD.InnerText = RSDeadzone[device].ToString(); Node.AppendChild(xmlRSD);
XmlNode xmlLSAD = m_Xdoc.CreateNode(XmlNodeType.Element, "LSAntiDeadZone", null); xmlLSAD.InnerText = LSAntiDeadzone[device].ToString(); Node.AppendChild(xmlLSAD);
XmlNode xmlRSAD = m_Xdoc.CreateNode(XmlNodeType.Element, "RSAntiDeadZone", null); xmlRSAD.InnerText = RSAntiDeadzone[device].ToString(); Node.AppendChild(xmlRSAD);
XmlNode xmlLSMaxZone = m_Xdoc.CreateNode(XmlNodeType.Element, "LSMaxZone", null); xmlLSMaxZone.InnerText = LSMaxzone[device].ToString(); Node.AppendChild(xmlLSMaxZone);
XmlNode xmlRSMaxZone = m_Xdoc.CreateNode(XmlNodeType.Element, "RSMaxZone", null); xmlRSMaxZone.InnerText = RSMaxzone[device].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 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 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(lsOutCurveMode[device]); Node.AppendChild(xmlLsOutputCurveMode);
XmlNode xmlRsOutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "RSOutputCurveMode", null); xmlRsOutputCurveMode.InnerText = stickOutputCurveString(rsOutCurveMode[device]); Node.AppendChild(xmlRsOutputCurveMode);
XmlNode xmlL2OutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "L2OutputCurveMode", null); xmlL2OutputCurveMode.InnerText = axisOutputCurveString(l2OutCurveMode[device]); Node.AppendChild(xmlL2OutputCurveMode);
XmlNode xmlR2OutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "R2OutputCurveMode", null); xmlR2OutputCurveMode.InnerText = axisOutputCurveString(r2OutCurveMode[device]); Node.AppendChild(xmlR2OutputCurveMode);
XmlNode xmlSXOutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "SXOutputCurveMode", null); xmlSXOutputCurveMode.InnerText = axisOutputCurveString(sxOutCurveMode[device]); Node.AppendChild(xmlSXOutputCurveMode);
XmlNode xmlSZOutputCurveMode = m_Xdoc.CreateNode(XmlNodeType.Element, "SZOutputCurveMode", null); xmlSZOutputCurveMode.InnerText = axisOutputCurveString(szOutCurveMode[device]); Node.AppendChild(xmlSZOutputCurveMode);
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 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;
}
// 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 + "/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 l2Deadzone[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RightTriggerMiddle"); byte.TryParse(Item.InnerText, out r2Deadzone[device]); }
catch { missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/L2AntiDeadZone"); int.TryParse(Item.InnerText, out l2AntiDeadzone[device]); }
catch { l2AntiDeadzone[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/R2AntiDeadZone"); int.TryParse(Item.InnerText, out r2AntiDeadzone[device]); }
catch { r2AntiDeadzone[device] = 0; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/L2MaxZone"); int temp = 100;
int.TryParse(Item.InnerText, out temp);
l2Maxzone[device] = Math.Min(Math.Max(temp, 0), 100);
}
catch { l2Maxzone[device] = 100; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/R2MaxZone"); int temp = 100;
int.TryParse(Item.InnerText, out temp);
r2Maxzone[device] = Math.Min(Math.Max(temp, 0), 100);
}
catch { r2Maxzone[device] = 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 + "/LSDeadZone"); int.TryParse(Item.InnerText, out LSDeadzone[device]); }
catch { LSDeadzone[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSDeadZone"); int.TryParse(Item.InnerText, out RSDeadzone[device]); }
catch { RSDeadzone[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSAntiDeadZone"); int.TryParse(Item.InnerText, out LSAntiDeadzone[device]); }
catch { LSAntiDeadzone[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSAntiDeadZone"); int.TryParse(Item.InnerText, out RSAntiDeadzone[device]); }
catch { RSAntiDeadzone[device] = 0; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSMaxZone"); int temp = 100;
int.TryParse(Item.InnerText, out temp);
LSMaxzone[device] = Math.Min(Math.Max(temp, 0), 100);
}
catch { LSMaxzone[device] = 100; missingSetting = true; }
try {
Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSMaxZone"); int temp = 100;
int.TryParse(Item.InnerText, out temp);
RSMaxzone[device] = Math.Min(Math.Max(temp, 0), 100);
}
catch { RSMaxzone[device] = 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];
Global.useDInputOnly[device] = dinputOnly[device];
// Only change xinput devices under certain conditions. Avoid
// performing this upon program startup before loading devices.
if (xinputChange)
{
if (device < 4)
{
//bool changed = false;
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)
{
Global.useDInputOnly[device] = true;
xinputPlug = false;
xinputStatus = true;
//changed = true;
}
else if (synced && isAlive)
{
Global.useDInputOnly[device] = false;
xinputPlug = true;
xinputStatus = true;
//changed = true;
}
/*if (changed)
{
System.Threading.Thread.Sleep(Global.XINPUT_UNPLUG_SETTLE_TIME);
}
*/
}
}
}
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 useSAforMouse[device]); }
catch { useSAforMouse[device] = false; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SATriggers"); sATriggers[device] = Item.InnerText; }
catch { sATriggers[device] = ""; 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 + "/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; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/LSOutputCurveMode"); lsOutCurveMode[device] = stickOutputCurveId(Item.InnerText); }
catch { lsOutCurveMode[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/RSOutputCurveMode"); rsOutCurveMode[device] = stickOutputCurveId(Item.InnerText); }
catch { rsOutCurveMode[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/L2OutputCurveMode"); l2OutCurveMode[device] = axisOutputCurveId(Item.InnerText); }
catch { l2OutCurveMode[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/R2OutputCurveMode"); r2OutCurveMode[device] = axisOutputCurveId(Item.InnerText); }
catch { r2OutCurveMode[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SXOutputCurveMode"); sxOutCurveMode[device] = axisOutputCurveId(Item.InnerText); }
catch { sxOutCurveMode[device] = 0; missingSetting = true; }
try { Item = m_Xdoc.SelectSingleNode("/" + rootname + "/SZOutputCurveMode"); szOutCurveMode[device] = axisOutputCurveId(Item.InnerText); }
catch { szOutCurveMode[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 + "/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 a device exists, make sure to transfer relevant profile device
// options to device instance
if (postLoad && device < 4)
{
DS4Device tempDev = control.DS4Controllers[device];
if (tempDev != null)
{
tempDev.queueEvent(() =>
{
tempDev.setIdleTimeout(idleDisconnectTimeout[device]);
tempDev.setBTPollRate(btPollRate[device]);
if (xinputStatus && xinputPlug)
{
bool xinputResult = control.x360Bus.Plugin(device);
if (xinputResult)
{
int xinputIndex = control.x360Bus.FirstController + device;
Log.LogToGui("X360 Controller # " + xinputIndex + " connected", false);
}
}
else if (xinputStatus && !xinputPlug)
{
bool xinputResult = control.x360Bus.Unplug(device);
if (xinputResult)
{
int xinputIndex = control.x360Bus.FirstController + device;
Log.LogToGui("X360 Controller # " + xinputIndex + " unplugged", false);
}
}
});
Program.rootHub.touchPad[device]?.ResetTrackAccel(trackballFriction[device]);
}
}
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/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/FirstXinputPort"); Int32.TryParse(Item.InnerText, out firstXinputPort); }
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; }
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 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 xmlFirstXinputPort = m_Xdoc.CreateNode(XmlNodeType.Element, "FirstXinputPort", null); xmlFirstXinputPort.InnerText = firstXinputPort.ToString(); Node.AppendChild(xmlFirstXinputPort);
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);
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;
}
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));
}
}
}
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) { Log.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
{
Log.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++)
{
string serial = serials.ElementAt(i);
string profile = linkedProfiles[serial];
XmlElement link = linkedXdoc.CreateElement("MAC" + serial);
link.InnerText = profile;
Node.AppendChild(link);
}
try { linkedXdoc.Save(m_linkedProfiles); }
catch (UnauthorizedAccessException) { Log.LogToGui("Unauthorized Access - Save failed to path: " + m_linkedProfiles, false); saved = false; }
}
else
{
saved = createLinkedProfiles();
saved = saved && SaveLinkedProfiles();
}
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);
List<DS4ControlSettings> ds4settingsList = ds4settings[deviceNum];
for (int i = 0, settingsLen = ds4settingsList.Count; i < settingsLen; i++)
{
DS4ControlSettings dcs = ds4settingsList[i];
if (dcs.control == dc)
{
dcs.UpdateSettings(shift, action, exts, kt, trigger);
break;
}
}
}
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);
List<DS4ControlSettings> ds4settingsList = ds4settings[deviceNum];
for (int i = 0, settingsLen = ds4settingsList.Count; i < settingsLen; i++)
{
DS4ControlSettings dcs = ds4settingsList[i];
if (dcs.control == dc)
{
if (shift)
dcs.shiftExtras = exts;
else
dcs.extras = exts;
break;
}
}
}
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);
List<DS4ControlSettings> ds4settingsList = ds4settings[deviceNum];
for (int i = 0, settingsLen = ds4settingsList.Count; i < settingsLen; i++)
{
DS4ControlSettings dcs = ds4settingsList[i];
if (dcs.control == dc)
{
if (shift)
dcs.shiftKeyType = keyType;
else
dcs.keyType = keyType;
break;
}
}
}
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);
List<DS4ControlSettings> ds4settingsList = ds4settings[deviceNum];
for (int i = 0, settingsLen = ds4settingsList.Count; i < settingsLen; i++)
{
DS4ControlSettings dcs = ds4settingsList[i];
if (dcs.control == dc)
{
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.shiftTrigger;
}
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);
List<DS4ControlSettings> ds4settingsList = ds4settings[deviceNum];
for (int i = 0, settingsLen = ds4settingsList.Count; i < settingsLen; i++)
{
DS4ControlSettings dcs = ds4settingsList[i];
if (dcs.control == dc)
{
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);
List<DS4ControlSettings> ds4settingsList = ds4settings[deviceNum];
for (int i = 0, settingsLen = ds4settingsList.Count; i < settingsLen; i++)
{
DS4ControlSettings dcs = ds4settingsList[i];
if (dcs.control == dc)
{
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);
List<DS4ControlSettings> ds4settingsList = ds4settings[deviceNum];
for (int i = 0, settingsLen = ds4settingsList.Count; i < settingsLen; i++)
{
DS4ControlSettings dcs = ds4settingsList[i];
if (dcs.control == dc)
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);
List<DS4ControlSettings> ds4settingsList = ds4settings[deviceNum];
for (int i = 0, settingsLen = ds4settingsList.Count; i < settingsLen; i++)
{
DS4ControlSettings dcs = ds4settingsList[i];
if (dcs.control == dc)
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;
touchSensitivity[device] = 100;
l2Deadzone[device] = r2Deadzone[device] = 0;
LSDeadzone[device] = RSDeadzone[device] = 0;
LSAntiDeadzone[device] = RSAntiDeadzone[device] = 0;
LSMaxzone[device] = RSMaxzone[device] = 100;
l2AntiDeadzone[device] = r2AntiDeadzone[device] = 0;
l2Maxzone[device] = r2Maxzone[device] = 100;
LSRotation[device] = 0.0;
RSRotation[device] = 0.0;
SXDeadzone[device] = SZDeadzone[device] = 0.02;
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;
flashAt[device] = 0;
mouseAccel[device] = true;
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] = string.Empty;
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;
lsOutCurveMode[device] = 0;
rsOutCurveMode[device] = 0;
l2OutCurveMode[device] = 0;
r2OutCurveMode[device] = 0;
sxOutCurveMode[device] = szOutCurveMode[device] = 0;
trackballMode[device] = false;
trackballFriction[device] = 10.0;
}
}
public class SpecialAction
{
public enum ActionTypeId { None, Key, Program, Profile, Macro, DisconnectBT, BatteryCheck, MultiAction, XboxGameDVR }
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 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;
}
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
this.details = details;
if (type != "Key" && !string.IsNullOrEmpty(extras))
{
this.ucontrols = extras;
string[] uctrls = extras.Split('/');
foreach (string s in uctrls)
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;
}
}
}