public static byte[] SendTMStrings(TMStringMessage tmStringMessage)
{
int expectedLength = 1;
foreach (var ut in tmStringMessage.UnitType)
{
if (ut)
{
expectedLength += 16;
}
else
{
expectedLength += 8;
}
}
if (expectedLength < 2)
{
return(null);
}
byte[] messageData = new byte[expectedLength];
int serialCount = -1;
messageData[++serialCount] = Convert.ToByte(IntValueCheck(tmStringMessage.Intensity, 0, Constants.MaxIntensityTM));
for (int i = 0; i < tmStringMessage.Display.Count; i++)
{
//messageData[++serialCount] = Convert.ToByte(i+1); //unit number
int textLength;
BitArray dotsArray;
var display = TMDisplayStringConverter(tmStringMessage, i, out textLength, out dotsArray);
for (var k = 0; k < textLength; k++)
{
if (display.Length - 1 < k)
{
messageData[++serialCount] = 0;
}
else
{
messageData[++serialCount] = display[k];
}
if (dotsArray[k])
{
messageData[serialCount] += 128; //doesn't increment serialCount because it alters last byte
}
}
}
return(messageData);
}
private static byte[] TMDisplayStringConverter(
TMStringMessage tmStringMessage, int i, out int textLength, out BitArray dotsArray)
{
// Process string
byte[] display;
if (tmStringMessage.UnitType[i])
{
//true means 16-segment display
display = tmStringMessage.Display[i].Length > 0
? Encoding.ASCII.GetBytes(tmStringMessage.Display[i])
: new byte[] { 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32 };
}
else
{
display = tmStringMessage.Display[i].Length > 0
? Encoding.ASCII.GetBytes(tmStringMessage.Display[i])
: new byte[] { 32, 32, 32, 32, 32, 32, 32, 32 };
}
for (var j = 0; j < display.Length; j++)
{
display[j] = ArduinoLink.FontBytes[display[j] - 32];
}
//add dots
byte[] tempDots;
if (tmStringMessage.UnitType[i])
{
textLength = 16;
tempDots = new byte[2];
tempDots[0] = Convert.ToByte(tmStringMessage.Dots[i][0]);
if (tmStringMessage.Dots[i].Length < 2)
{
tempDots[1] = Convert.ToByte(0);
}
else
{
tempDots[1] = Convert.ToByte(tmStringMessage.Dots[i][1]);
}
}
else
{
tempDots = new byte[1];
tempDots[0] = Convert.ToByte(tmStringMessage.Dots[i][0]);
textLength = 8;
}
dotsArray = new BitArray(tempDots);
return(display);
}
public static byte[] SendTMStrings(TMStringMessage tmStringMessage)
{
int expectedLength = 1;
foreach (var ut in tmStringMessage.UnitType)
{
if (ut)
{
expectedLength += 16;
}
else
{
expectedLength += 8;
}
}
if (expectedLength < 2) return null;
byte[] messageData = new byte[expectedLength];
int serialCount = -1;
messageData[++serialCount] = Convert.ToByte(IntValueCheck(tmStringMessage.Intensity, 0, Constants.MaxIntensityTM));
for (int i = 0; i < tmStringMessage.Display.Count; i++)
{
int textLength;
BitArray dotsArray;
var display = TMDisplayStringConverter(tmStringMessage, i, out textLength, out dotsArray);
for (var k = 0; k < textLength; k++)
{
if (display.Length - 1 < k)
{
messageData[++serialCount] = 0;
}
else
{
messageData[++serialCount] = display[k];
}
if (dotsArray[k])
{
messageData[serialCount] += 128; //doesn't increment serialCount because it alters last byte
}
}
}
return messageData;
}
private void TestTimerTick(object sender, EventArgs e)
{
this.testCounter++;
int numberUnits = this.unitTypes.Count;
var displays = new List <string>(numberUnits);
var greens = new List <byte>(numberUnits);
var reds = new List <byte>(numberUnits);
var dotsList = new List <byte[]>(numberUnits);
byte green;
byte red;
byte dots;
for (int t = 0; t < numberUnits; t++)
{
displays.Add("");
greens.Add(0);
reds.Add(0);
dotsList.Add(this.unitTypes[t] ? new Byte[] { 0, 0 } : new Byte[] { 0 });
}
string display = this.TestSequence(this.testCounter, out green, out red, out dots);
this.DuplicateDisplayAcrossAllUnits(display, green, red, dots, displays, greens, reds, dotsList, this.unitTypes);
var tmLEDs = new TMLEDSMessage
{
Green = greens,
Red = reds,
Intensity = 3
};
var tmDisplay = new TMStringMessage
{
Display = displays,
Dots = dotsList,
Intensity = 3,
UnitType = this.unitTypes
};
this.arduinoConnection.SendSerialMessage(Constants.MessageID_TMLED, SendTMLEDS(tmLEDs));
this.arduinoConnection.SendSerialMessage(Constants.MessageID_TMString, SendTMStrings(tmDisplay));
}
private void ShiftPreviewTick(object sender, EventArgs e)
{
if (this.shiftPreviewRpm <= 7000)
{
var displays = new List<string>();
var dots = new List<byte[]>();
var greens = new List<byte>();
var reds = new List<byte>();
var pastShift = false;
foreach (DisplayUnitConfiguration t in this.configurationOptions.DisplayUnitConfigurations)
{
displays.Add(this.shiftPreviewRpm.ToString(CultureInfo.InvariantCulture));
dots.Add(t.IsTM1640 ? new byte[] { 0, 0 } : new byte[] { 0 });
if (t.LEDsConfigurations.ShowShiftLights)
{
byte red;
byte green;
ShiftStyleEnum temp =
this.hostApp.DisplayMngr.Dictionarys.ShiftStyles[t.LEDsConfigurations.ShiftLightStyle];
LEDFunctions.GetShiftLights(this.hostApp.DisplayMngr.Dictionarys, this.shiftPreviewRpm, 6000, 7000, 6800,
temp, t.LEDsConfigurations.ShiftClumps, out pastShift, out red,
out green);
greens.Add(green);
reds.Add(red);
}
else
{
greens.Add(0);
reds.Add(0);
}
}
int newInt = this.configurationOptions.Intensity;
if (pastShift && this.configurationOptions.ShiftIntensity)
{
if (this.configurationOptions.ShiftIntensityType)
{
//relative
newInt += this.configurationOptions.ShiftIntensityAmount + 1;
}
else
{
newInt += this.configurationOptions.ShiftIntensityAmount;
}
}
var tmLEDs = new TMLEDSMessage
{
Green = greens,
Red = reds,
Intensity = newInt
};
var tmDisplay = new TMStringMessage
{
Display = displays,
Dots = dots,
Intensity = newInt,
UnitType = this.hostApp.DisplayMngr.TM1640Units
};
this.hostApp.ArduinoConnection.SendSerialMessage(Constants.MessageID_TMLED, ArduinoMessagesSending.SendTMLEDS(tmLEDs));
this.hostApp.ArduinoConnection.SendSerialMessage(Constants.MessageID_TMString, ArduinoMessagesSending.SendTMStrings(tmDisplay));
this.shiftPreviewRpm += 50;
}
else
{
this.hostApp.ArduinoConnection.Clear();
this.hostApp.DisplayMngr.Previewing = false;
this.shiftPreviewTimer.Stop();
}
}
private void SendTMDisplay()
{
if (CurrentConfiguration == null) return;
List<TMDisplayVariables> final = new List<TMDisplayVariables>();
for (int i = 0; i < CurrentConfiguration.TMDisplaySettings.NumDisplayUnits; i++)
{
final.Add(new TMDisplayVariables());
int result = DateTime.Now.CompareTo(this.WaitTimeTMDisplay[i]);
if (result > 0) //dont wait
{
//normal situation
if (this.SavedTelemetry.OnTrack && Wrapper.IsConnected)
{
//send normal message
ParseDisplayString(RequestedTMDisplayVariables[i].Display,
out final[i].Display,
out final[i].Dots,
CurrentConfiguration.DisplayConfigurations[i].IsTM1640);
}
else
{
//send blank message please
final[i].Display = " ";
if (CurrentConfiguration.DisplayConfigurations[i].IsTM1640)
{
final[i].Display += " ";
}
for (int x = 0; x < final[i].Dots.Count(); x++)
{
final[i].Dots[x] = 0;
}
if (this.weAreClosing == false)
{
final[i].Display = DateTime.Now.ToString("HH-mm-ss");
}
else
{
final[i].Display = " ";
}
}
}
else //do wait!!
{
//check for testing
if (!Test && !Previewing) //if not testing then
{
////
//send wait message and new lights
////
ParseDisplayString(RequestedTMDisplayVariables[i].WaitString,
out final[i].Display,
out final[i].Dots,
CurrentConfiguration.DisplayConfigurations[i].IsTM1640);
} //if testing then leave alone
}
}
//send to display
if (ArduinoConnection.Running && !Test)
{
//Merge
var displayList = new List<string>();
var dotsList = new List<byte[]>();
for (int i = 0; i < final.Count; i++)
{
displayList.Add(final[i].Display);
if (CurrentConfiguration.DisplayConfigurations[i].Inverted)
{
//Shift dots one place to the left
for (int y = 0; y < final[i].Dots.Count(); y++)
{
var temp = (byte)(final[i].Dots[y] << 1);
final[i].Dots[y] = temp;
}
dotsList.Add(final[i].Dots);
}
else
{
dotsList.Add(final[i].Dots);
}
}
int newInt = Intensity;
if (this.pastShiftPoint && CurrentConfiguration.TMDisplaySettings.ShiftIntensity)
{
if (CurrentConfiguration.TMDisplaySettings.ShiftIntensityType)
{
//relative
newInt += CurrentConfiguration.TMDisplaySettings.ShiftIntensityAmount + 1;
}
else
{
newInt += CurrentConfiguration.TMDisplaySettings.ShiftIntensityAmount;
}
}
var tmDisplay = new TMStringMessage
{
Display = displayList,
Dots = dotsList,
Intensity = newInt,
UnitType = TM1640Units
};
ArduinoConnection.SendSerialMessage(Constants.MessageID_TMString, ArduinoMessagesSending.SendTMStrings(tmDisplay));
}
}
private void TestTimerTick(object sender, EventArgs e)
{
this.testCounter++;
int numberUnits = this.unitTypes.Count;
var displays = new List<string>(numberUnits);
var greens = new List<byte>(numberUnits);
var reds = new List<byte>(numberUnits);
var dotsList = new List<byte[]>(numberUnits);
byte green;
byte red;
byte dots;
for (int t = 0; t < numberUnits; t++)
{
displays.Add("");
greens.Add(0);
reds.Add(0);
dotsList.Add(this.unitTypes[t] ? new Byte[] { 0, 0 } : new Byte[] { 0 });
}
string display = this.TestSequence(this.testCounter, out green, out red, out dots);
this.DuplicateDisplayAcrossAllUnits(display, green, red, dots, displays, greens, reds, dotsList, this.unitTypes);
var tmLEDs = new TMLEDSMessage
{
Green = greens,
Red = reds,
Intensity = 3
};
var tmDisplay = new TMStringMessage
{
Display = displays,
Dots = dotsList,
Intensity = 3,
UnitType = this.unitTypes
};
this.arduinoConnection.SendSerialMessage(Constants.MessageID_TMLED, SendTMLEDS(tmLEDs));
this.arduinoConnection.SendSerialMessage(Constants.MessageID_TMString, SendTMStrings(tmDisplay));
}
private static byte[] TMDisplayStringConverter(
TMStringMessage tmStringMessage, int i, out int textLength, out BitArray dotsArray)
{
// Process string
byte[] display;
if (tmStringMessage.UnitType[i])
{
//true means 16-segment display
display = tmStringMessage.Display[i].Length > 0
? Encoding.ASCII.GetBytes(tmStringMessage.Display[i])
: new byte[] { 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32, 32 };
}
else
{
display = tmStringMessage.Display[i].Length > 0
? Encoding.ASCII.GetBytes(tmStringMessage.Display[i])
: new byte[] { 32, 32, 32, 32, 32, 32, 32, 32 };
}
for (var j = 0; j < display.Length; j++)
{
display[j] = ArduinoLink.FontBytes[display[j] - 32];
}
//add dots
byte[] tempDots;
if (tmStringMessage.UnitType[i])
{
textLength = 16;
tempDots = new byte[2];
tempDots[0] = Convert.ToByte(tmStringMessage.Dots[i][0]);
if (tmStringMessage.Dots[i].Length < 2)
{
tempDots[1] = Convert.ToByte(0);
}
else
{
tempDots[1] = Convert.ToByte(tmStringMessage.Dots[i][1]);
}
}
else
{
tempDots = new byte[1];
tempDots[0] = Convert.ToByte(tmStringMessage.Dots[i][0]);
textLength = 8;
}
dotsArray = new BitArray(tempDots);
return display;
}
