public AfrAnalyser(TargerAfrMap targerAfr)
{
_targerAfr = targerAfr;
}
static void Main(string[] args)
{
var coords = new MapCoordinates();
var mapBuilder = new ValueMapBuilder(coords);
var targetAfr = new TargerAfrMap();
var analyser = new AfrAnalyser(targetAfr);
var display = new MapShower(coords);
var logReader = new LogReader();
var veTableCorrector = new VeTableCorrector(coords);
//var widebandDelayCalculator = new WidebandDelayCalculator(coords);
var veTableReader = new VeTableReader();
var veTableBytes = File.ReadAllBytes(@"C:\Dev\repos\moje\DET3-FIT-analyzer\Samples\tables\VETable_07_10.bin");
var veTable = veTableReader.ReadTable(veTableBytes);
var logBytes = File.ReadAllBytes(@"C:\Dev\repos\moje\DET3-FIT-analyzer\Samples\log_2016710_2339.dlg");
IEnumerable<LogLine> log = logReader.ReadLog(logBytes);
var logBytes2 = File.ReadAllBytes(@"C:\Dev\repos\moje\DET3-FIT-analyzer\Samples\log_2016710_2340.dlg");
IEnumerable<LogLine> log2 = logReader.ReadLog(logBytes);
//var logBytes3 = File.ReadAllBytes(@"C:\Dev\repos\moje\DET3-FIT-analyzer\Samples\log_2016528_1814_CESTA_zpet.dlg");
//IEnumerable<LogLine> log3 = logReader.ReadLog(logBytes);
log = log.Concat(log2);
var logArray = log.ToArray();
var map = mapBuilder.BuildMap(logArray);
//var widebandDelay = widebandDelayCalculator.CalculateAfrDelay(logArray);
var analysed = analyser.GetCorrection(map);
float[,] finalCorrection;
var correctedVeTable = veTableCorrector.TuneVeTable(analysed, veTable, out finalCorrection);
var maxBoost = log.OrderByDescending(l => l.Map.Value).First();
Console.WriteLine("Max boost: {0}kpa @ {1}rpm", maxBoost.Map.Value, maxBoost.Rpm.Value);
var maxClt = log.Max(l => l.Coolant.Value);
Console.WriteLine("Max clt: {0}° C", maxClt);
var maxIat = log.Max(l => l.Iat.Value);
Console.WriteLine("Max IAT: {0}° C", maxIat);
Console.WriteLine("Count");
display.ShowAfrMap(analysed, ProjectedAfrCorrection.AfrCorrectionMethod.Count);
//Console.WriteLine("AvgWidebandDelay");
//display.ShowAfrTarget(widebandDelay);
//Console.WriteLine("AvgKpa");
//display.ShowAfrMap(analysed, ProjectedAfrCorrection.AfrCorrectionMethod.AvgKpa);
//Console.WriteLine("AvgRpm");
//display.ShowAfrMap(analysed, ProjectedAfrCorrection.AfrCorrectionMethod.AvgRpm);
Console.WriteLine("AfrTarget");
display.ShowAfrTarget(TargerAfrMap.AfrTargetMap);
Console.WriteLine("AvgAfr");
display.ShowAfrMap(analysed, ProjectedAfrCorrection.AfrCorrectionMethod.AvgAfr);
Console.WriteLine("AfrDiffAbsolute");
display.ShowAfrMap(analysed, ProjectedAfrCorrection.AfrCorrectionMethod.AfrDiffAbsolute);
Console.WriteLine("AfrPercentDiff");
display.ShowAfrMap(analysed, ProjectedAfrCorrection.AfrCorrectionMethod.AfrDiffPercent);
Console.WriteLine("NboCorrection");
display.ShowAfrMap(analysed, ProjectedAfrCorrection.AfrCorrectionMethod.NboCorrection);
Console.WriteLine("VE table - delta");
display.ShowVeMap(finalCorrection, ProjectedAfrCorrection.AfrCorrectionMethod.AfrDiffPercent);
Console.WriteLine("VE table - original");
display.ShowVeMap(veTable);
//Console.WriteLine("VE table - corrected");
//display.ShowVeMap(correctedVeTable);
var bytes = veTableReader.GetBytes(correctedVeTable);
Console.WriteLine("VE table - corrected, rounded");
display.ShowVeMap(veTableReader.ReadTable(bytes));
File.WriteAllBytes(@"C:\Dev\repos\moje\DET3-FIT-analyzer\Samples\tables\VETable_corrected.bin", bytes);
return;
var startBytes = logBytes.Take(12).ToArray();
var timeInSeconds = 100;
var howManyLines = (samplesPerSec * timeInSeconds);
var firstLine = logBytes.Skip(12 + 40 * 10).Take(40).ToArray();
var hex = BitConverter.ToString(firstLine);
Console.WriteLine(hex);
Console.WriteLine(Encoding.ASCII.GetChars(firstLine, 0, lineLength));
var value = BitConverter.ToInt16(firstLine, 0);
Console.WriteLine(value);
var result = startBytes;
var tps = new Tps { Value = 98 };
var mapVal = new Map { Value = 180};
//Temps are really rought
var iat = new Iat { Value = 42f };
var coolant = new Coolant { Value = 80f };
var afrCorr = new AfrCorrection() { Value = 15 };
var afrWideband = new AfrWideband { Value = 16f };
var accEnr = new AccEnr() { Value = 0 };
var rpm = BitConverter.GetBytes(1500);
for (var line = 0; line < howManyLines; line += 1)
{
afrWideband.Value = 10 + line * 4 / 1000;
rpm = BitConverter.GetBytes(line*4);
try
{
mapVal.Value = line/10;
}
catch (Exception)
{
mapVal.Value = 100;
}
firstLine[LogReader.Index["Tps"]] = tps.Bytes;
firstLine[LogReader.Index["Map"]] = mapVal.Bytes;
firstLine[LogReader.Index["Iat"]] = iat.Bytes;
firstLine[LogReader.Index["Coolant"]] = coolant.Bytes;
firstLine[LogReader.Index["AfrCorrection"]] = afrCorr.Bytes;
firstLine[LogReader.Index["AfrWideband"]] = afrWideband.Bytes;
firstLine[LogReader.Index["AccEnr"]] = accEnr.Bytes;
//RPM
firstLine[10] = rpm[0];
firstLine[11] = rpm[1];
// var bits = new BitArray(8);
// bits[0] = true;
// bits[1] = true;
// bits[2] = true;
// bits[3] = true;
// bits[4] = true;
// bits[5] = true;
// bits[6] = true;
// bits[7] = true;
// byte[] newBytes = new byte[1];
// bits.CopyTo(newBytes, 0);
//firstLine[1] = (byte)line;
// firstLine[4] = (byte)line;
// firstLine[5] = (byte)line;
// firstLine[6] = (byte)line;
// firstLine[7] = (byte)line;
// firstLine[5] = (byte)line;
// firstLine[12] = (byte)line;
// firstLine[13] = (byte)line;
// firstLine[15] = (byte)line;
// firstLine[20] = (byte)line;
result = result.Concat(firstLine).ToArray();
}
File.WriteAllBytes(@"C:\Dev\repos\moje\DET3-FIT-analyzer\Samples\log_mine.dlg", result);
}