private void paser_file()
{
duts.Clear();
if (TestLogs.Count <= 0)
{
Thread.Sleep(2000);
return;
}
foreach (FileInfo log in TestLogs)
{
StreamReader sr = new StreamReader(log.OpenRead());
while (!sr.EndOfStream)
{
DUT dut = new DUT();
//read ", .header"+ Product Data + ", .end"
string ProductContent="";
for (int i = 0; i < 5; i++)
{
ProductContent += sr.ReadLine();
}
Match m = Gen4Pattern.ProductionDataPattern.Match(ProductContent);
if (m.Success)
{
//Console.WriteLine(m.Groups.Count.ToString());
dut.DATE_TIME = m.Groups["TestDate"] + " " + m.Groups["TestTime"];
dut.SW_VERSION = m.Groups["SWVersion"].ToString();
dut.OPERATOR = m.Groups["Operator"].ToString();
dut.TEST_STATION = m.Groups["TestStaion"].ToString();
dut.TEST_FACILITY = m.Groups["TestFacility"].ToString();
dut.CONFIG_FILE = m.Groups["ConfigFile"].ToString();
dut.EXECUTION_MODE = m.Groups["TestMode"].ToString();
dut.SENSOR_ROWS = m.Groups["RowNumber"].ToString();
dut.SENSOR_COLUMNS = m.Groups["ColumnNumber"].ToString();
dut.TEST_RESULT = m.Groups["TestResult"].ToString();
}
else
{
Console.WriteLine("Fail to read product content");
break;
}
//read ", .header"+ Product Data + ", .end"
string EngineeringContent = "";
EngineeringContent+=sr.ReadLine();
if (EngineeringContent != ", .engineering data")
{
break;
}
else
{
string result = "";
do
{
result = sr.ReadLine();
EngineeringContent += result;
} while (result != ", .end");
//Console.WriteLine(EngineeringContent);
}
//Match the first line of Engineering Data
Match m1 = Gen4Pattern.EngineeringLine1Pattern.Match(EngineeringContent);
if (m1.Success)
{
dut.SERIAL_NUMBER = m1.Groups["SerialNumber"].ToString();
dut.CHIP_ID = m1.Groups["ChipID"].ToString();
dut.ERROR_CODE = m1.Groups["ErrorCode"].ToString();
if (dut.ERROR_CODE == "0x00")
{
dut.ERROR_CODE = "0";
}
dut.ERROR_MESSAGE = m1.Groups["ErrorMessage"].ToString();
}
else
{
Console.WriteLine("Fail to read engineering content");
break;
}
//Match the VCOM Voltage
Match m2 = Gen4Pattern.VCOMVoltagePattern.Match(EngineeringContent);
if (m2.Success)
{
dut.VCOM_VOLTAGE = m2.Groups["VCOMVoltage"].ToString();
}
//Match the VAUXVoltage
Match m3 = Gen4Pattern.VAUXVoltagePattern.Match(EngineeringContent);
if (m3.Success)
{
dut.VAUX_VOLTAGE = m3.Groups["VAUXVoltage"].ToString();
}
//Match the ICOMCurrent
Match m4 = Gen4Pattern.ICOMCurrentPattern.Match(EngineeringContent);
if (m4.Success)
{
dut.ICOM_CURRENT = m4.Groups["ICOMCurrent"].ToString();
}
//Match the IAUXCurrent
Match m5 = Gen4Pattern.IAUXCurrentPattern.Match(EngineeringContent);
if (m5.Success)
{
dut.IAUX_CURRENT = m5.Groups["IAUXCurrent"].ToString();
}
//Match the ElapsedTime
Match m6 = Gen4Pattern.ElapsedTimePattern.Match(EngineeringContent);
if (m6.Success)
{
dut.ELAPSED_TIME = m6.Groups["ElapsedTime"].ToString();
}
//Match the Global_IDAC
Match m7 = Gen4Pattern.GolbalIDACPattern.Match(EngineeringContent);
if (m7.Success)
{
dut.GLOBAL_IDAC = m7.Groups["Global_IDAC"].ToString();
}
//Match the FW_Version
Match m8 = Gen4Pattern.FWVersionPattern.Match(EngineeringContent);
if (m8.Success)
{
dut.FW_VERSION = m8.Groups["FW_Version"].ToString();
}
//Match the FW_Revision
Match m9 = Gen4Pattern.FWRevisionPattern.Match(EngineeringContent);
if (m9.Success)
{
dut.FW_REVISION = m9.Groups["FW_Revision"].ToString();
}
//Match the Noise
Match m10 = Gen4Pattern.NoisePattern.Match(EngineeringContent);
while (m10.Success)
{
string temp = m10.Groups["Noise"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.NOISE.Add(result.Trim());
}
m10 = m10.NextMatch();
}
//Match the RawData
Match m11 = Gen4Pattern.RawDataPattern.Match(EngineeringContent);
while (m11.Success)
{
string temp = m11.Groups["RawData"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.RAW_DATA.Add(result.Trim());
}
m11 = m11.NextMatch();
}
//Match the Local iDAC Data
Match m12 = Gen4Pattern.LocalIDACPattern.Match(EngineeringContent);
while (m12.Success)
{
string temp = m12.Groups["Local_IDAC"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.LOCAL_IDAC.Add(result.Trim());
}
m12=m12.NextMatch();
}
//Match the Baseline
Match m13 = Gen4Pattern.BaselinePattern.Match(EngineeringContent);
while (m13.Success)
{
string temp = m13.Groups["Baseline"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.BASELINE.Add(result.Trim());
}
m13 = m13.NextMatch();
}
//Match the SelfCapNoise
Match m14 = Gen4Pattern.SelfCapNoisePattern.Match(EngineeringContent);
while (m14.Success)
{
string temp = m14.Groups["SelfCapNoise"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.SELFCAP_NOISE.Add(result.Trim());
}
m14 = m14.NextMatch();
}
//Match the SelfCapRawData
Match m15 = Gen4Pattern.SelfCapRawDataPattern.Match(EngineeringContent);
while (m15.Success)
{
string temp = m15.Groups["SelfCapRawData"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.SELFCAP_RAWDATE.Add(result.Trim());
}
m15 = m15.NextMatch();
}
//Match the SelfCapBaseLine
Match m16 = Gen4Pattern.SelfCapBaseLinePattern.Match(EngineeringContent);
while (m16.Success)
{
string temp = m16.Groups["SelfCapBaseLine"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.SELFCAP_BASELINE.Add(result.Trim());
}
m16 = m16.NextMatch();
}
//Match the SelfCapSignal
Match m17 = Gen4Pattern.SelfCapSignalPattern.Match(EngineeringContent);
while (m17.Success)
{
string temp = m17.Groups["SelfCapSignal"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.SELFCAP_SIGNAL.Add(result.Trim());
}
m17 = m17.NextMatch();
}
//Match the Signal
Match m18 = Gen4Pattern.SignalPattern.Match(EngineeringContent);
while (m18.Success)
{
string temp = m18.Groups["Signal"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.SIGNAL.Add(result.Trim());
}
m18 = m18.NextMatch();
}
duts.Add(dut);
//debug info
Console.WriteLine("SerialNumber : " + dut.SERIAL_NUMBER + " Test Result: " + dut.TEST_RESULT + " Error Code: " + dut.ERROR_CODE);
//string printLocalIDAC = "";
//foreach (string localIDAC in dut.LOCAL_IDAC)
//{
// printLocalIDAC += localIDAC + ";";
//}
//Console.WriteLine(printLocalIDAC);
//string printBaseline = "";
//foreach (string baseline in dut.BASELINE)
//{
// printBaseline += baseline;
//}
//Console.WriteLine("BaseLine: " + printBaseline);
//string printRawData = "";
//foreach (string rawdata in dut.RAW_DATA)
//{
// printRawData += rawdata+";";
//}
//Console.WriteLine("Raw Data: " + printRawData);
//string printSelfCAPNoise = "";
//foreach (string selfCapNoise in dut.SELFCAP_NOISE)
//{
// printSelfCAPNoise += selfCapNoise + ";";
//}
//Console.WriteLine("Self CAP Noise: " + printSelfCAPNoise);
}
//move the file
sr.Close();
FileInfo fI = new FileInfo(this.AchievdDir + @"\" + log.Name);
int j = 1;
while (fI.Exists)
{
fI = new FileInfo(this.AchievdDir + @"\" + "Retest_(" + j.ToString() + ")" + log.Name);
j++;
}
File.Move(log.FullName, fI.FullName);
}
}
private void paser_file()
{
duts.Clear();
if (TestLogs.Count <= 0)
{
Thread.Sleep(2000);
return;
}
foreach (FileInfo log in TestLogs)
{
StreamReader sr = new StreamReader(log.OpenRead());
while (!sr.EndOfStream)
{
DUT dut = new DUT();
//read ", .header"+ Product Data + ", .end"
string ProductContent = "";
for (int i = 0; i < 5; i++)
{
ProductContent += sr.ReadLine();
}
Match m = Gen4Pattern.ProductionDataPattern.Match(ProductContent);
if (m.Success)
{
//Console.WriteLine(m.Groups.Count.ToString());
dut.DATE_TIME = m.Groups["TestDate"] + " " + m.Groups["TestTime"];
dut.SW_VERSION = m.Groups["SWVersion"].ToString();
dut.OPERATOR = m.Groups["Operator"].ToString();
dut.TEST_STATION = m.Groups["TestStaion"].ToString();
dut.TEST_FACILITY = m.Groups["TestFacility"].ToString();
dut.CONFIG_FILE = m.Groups["ConfigFile"].ToString();
dut.EXECUTION_MODE = m.Groups["TestMode"].ToString();
dut.SENSOR_ROWS = m.Groups["RowNumber"].ToString();
dut.SENSOR_COLUMNS = m.Groups["ColumnNumber"].ToString();
dut.TEST_RESULT = m.Groups["TestResult"].ToString();
}
else
{
Console.WriteLine("Fail to read product content");
break;
}
//read ", .header"+ Product Data + ", .end"
string EngineeringContent = "";
EngineeringContent += sr.ReadLine();
if (EngineeringContent != ", .engineering data")
{
break;
}
else
{
string result = "";
do
{
result = sr.ReadLine();
EngineeringContent += result;
} while (result != ", .end");
//Console.WriteLine(EngineeringContent);
}
//Match the first line of Engineering Data
Match m1 = Gen4Pattern.EngineeringLine1Pattern.Match(EngineeringContent);
if (m1.Success)
{
dut.SERIAL_NUMBER = m1.Groups["SerialNumber"].ToString();
dut.CHIP_ID = m1.Groups["ChipID"].ToString();
dut.ERROR_CODE = m1.Groups["ErrorCode"].ToString();
if (dut.ERROR_CODE == "0x00")
{
dut.ERROR_CODE = "0";
}
dut.ERROR_MESSAGE = m1.Groups["ErrorMessage"].ToString();
}
else
{
Console.WriteLine("Fail to read engineering content");
break;
}
//Match the VCOM Voltage
Match m2 = Gen4Pattern.VCOMVoltagePattern.Match(EngineeringContent);
if (m2.Success)
{
dut.VCOM_VOLTAGE = m2.Groups["VCOMVoltage"].ToString();
}
//Match the VAUXVoltage
Match m3 = Gen4Pattern.VAUXVoltagePattern.Match(EngineeringContent);
if (m3.Success)
{
dut.VAUX_VOLTAGE = m3.Groups["VAUXVoltage"].ToString();
}
//Match the ICOMCurrent
Match m4 = Gen4Pattern.ICOMCurrentPattern.Match(EngineeringContent);
if (m4.Success)
{
dut.ICOM_CURRENT = m4.Groups["ICOMCurrent"].ToString();
}
//Match the IAUXCurrent
Match m5 = Gen4Pattern.IAUXCurrentPattern.Match(EngineeringContent);
if (m5.Success)
{
dut.IAUX_CURRENT = m5.Groups["IAUXCurrent"].ToString();
}
//Match the ElapsedTime
Match m6 = Gen4Pattern.ElapsedTimePattern.Match(EngineeringContent);
if (m6.Success)
{
dut.ELAPSED_TIME = m6.Groups["ElapsedTime"].ToString();
}
//Match the Global_IDAC
Match m7 = Gen4Pattern.GolbalIDACPattern.Match(EngineeringContent);
if (m7.Success)
{
dut.GLOBAL_IDAC = m7.Groups["Global_IDAC"].ToString();
}
//Match the FW_Version
Match m8 = Gen4Pattern.FWVersionPattern.Match(EngineeringContent);
if (m8.Success)
{
dut.FW_VERSION = m8.Groups["FW_Version"].ToString();
}
//Match the FW_Revision
Match m9 = Gen4Pattern.FWRevisionPattern.Match(EngineeringContent);
if (m9.Success)
{
dut.FW_REVISION = m9.Groups["FW_Revision"].ToString();
}
//Match the Noise
Match m10 = Gen4Pattern.NoisePattern.Match(EngineeringContent);
while (m10.Success)
{
string temp = m10.Groups["Noise"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.NOISE.Add(result.Trim());
}
m10 = m10.NextMatch();
}
//Match the RawData
Match m11 = Gen4Pattern.RawDataPattern.Match(EngineeringContent);
while (m11.Success)
{
string temp = m11.Groups["RawData"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.RAW_DATA.Add(result.Trim());
}
m11 = m11.NextMatch();
}
//Match the Local iDAC Data
Match m12 = Gen4Pattern.LocalIDACPattern.Match(EngineeringContent);
while (m12.Success)
{
string temp = m12.Groups["Local_IDAC"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.LOCAL_IDAC.Add(result.Trim());
}
m12 = m12.NextMatch();
}
//Match the Baseline
Match m13 = Gen4Pattern.BaselinePattern.Match(EngineeringContent);
while (m13.Success)
{
string temp = m13.Groups["Baseline"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.BASELINE.Add(result.Trim());
}
m13 = m13.NextMatch();
}
//Match the SelfCapNoise
Match m14 = Gen4Pattern.SelfCapNoisePattern.Match(EngineeringContent);
while (m14.Success)
{
string temp = m14.Groups["SelfCapNoise"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.SELFCAP_NOISE.Add(result.Trim());
}
m14 = m14.NextMatch();
}
//Match the SelfCapRawData
Match m15 = Gen4Pattern.SelfCapRawDataPattern.Match(EngineeringContent);
while (m15.Success)
{
string temp = m15.Groups["SelfCapRawData"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.SELFCAP_RAWDATE.Add(result.Trim());
}
m15 = m15.NextMatch();
}
//Match the SelfCapBaseLine
Match m16 = Gen4Pattern.SelfCapBaseLinePattern.Match(EngineeringContent);
while (m16.Success)
{
string temp = m16.Groups["SelfCapBaseLine"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.SELFCAP_BASELINE.Add(result.Trim());
}
m16 = m16.NextMatch();
}
//Match the SelfCapSignal
Match m17 = Gen4Pattern.SelfCapSignalPattern.Match(EngineeringContent);
while (m17.Success)
{
string temp = m17.Groups["SelfCapSignal"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.SELFCAP_SIGNAL.Add(result.Trim());
}
m17 = m17.NextMatch();
}
//Match the Signal
Match m18 = Gen4Pattern.SignalPattern.Match(EngineeringContent);
while (m18.Success)
{
string temp = m18.Groups["Signal"].ToString();
string[] results = temp.Split(new Char[] { ',' });
foreach (string result in results)
{
dut.SIGNAL.Add(result.Trim());
}
m18 = m18.NextMatch();
}
duts.Add(dut);
//debug info
Console.WriteLine("SerialNumber : " + dut.SERIAL_NUMBER + " Test Result: " + dut.TEST_RESULT + " Error Code: " + dut.ERROR_CODE);
//string printLocalIDAC = "";
//foreach (string localIDAC in dut.LOCAL_IDAC)
//{
// printLocalIDAC += localIDAC + ";";
//}
//Console.WriteLine(printLocalIDAC);
//string printBaseline = "";
//foreach (string baseline in dut.BASELINE)
//{
// printBaseline += baseline;
//}
//Console.WriteLine("BaseLine: " + printBaseline);
//string printRawData = "";
//foreach (string rawdata in dut.RAW_DATA)
//{
// printRawData += rawdata+";";
//}
//Console.WriteLine("Raw Data: " + printRawData);
//string printSelfCAPNoise = "";
//foreach (string selfCapNoise in dut.SELFCAP_NOISE)
//{
// printSelfCAPNoise += selfCapNoise + ";";
//}
//Console.WriteLine("Self CAP Noise: " + printSelfCAPNoise);
}
//move the file
sr.Close();
FileInfo fI = new FileInfo(this.AchievdDir + @"\" + log.Name);
int j = 1;
while (fI.Exists)
{
fI = new FileInfo(this.AchievdDir + @"\" + "Retest_(" + j.ToString() + ")" + log.Name);
j++;
}
File.Move(log.FullName,fI.FullName);
}
}
