public static void DoWork(ref TestingWorkerSender sender)
{
DoMeasurement(ref sender.MeasurementItems[sender.CurrentItemIndex], sender.Transformer, sender.job);
sender.StatusText = sender.MeasurementItems[sender.CurrentItemIndex].stateText;
if (sender.CurrentItemIndex >= sender.MeasurementItems.Length)
{
TestFunction.Closecurrent(0);
}
}
/// <summary>
/// 筛选测试反馈中最终输出结果的数组的结果文本
/// </summary>
/// <param name="sender">测试传递结构</param>
/// <returns>最终输出结果文本的数组</returns>
public static string[] getFinalResultsText(TestingWorkerSender sender)
{
List <string> strlist = new List <string>();
foreach (MeasurementItemStruct m in sender.MeasurementItems)
{
if ((m != null) && ((m.failed) || (m.completed == true)) && (m.Function != MeasurementFunction.Description))
{
strlist.Add(m.ResultText);
}
}
return(strlist.ToArray());
}
// static TestingWorkUtility() { }
/// <summary>
/// 筛选测试反馈中最终输出结果的数组
/// </summary>
/// <param name="sender">测试传递结构</param>
/// <returns>最终输出结果的数组</returns>
public static MeasurementResult[] getFinalResults(TestingWorkerSender sender)
{
List <MeasurementResult> list = new List <MeasurementResult>();
foreach (MeasurementItemStruct m in sender.MeasurementItems)
{
if ((m != null) && ((m.failed) || (m.completed == true)))
{
list.Add(m.Result);
}
}
return(list.ToArray());
}
public static TestingWorkerSender FromDatabaseRows(int testID)
{
TestingWorkerSender sender = new TestingWorkerSender();
var rows = WorkingSets.local.TestResults.Select("testid = '" + testID.ToString() + "'");
if (rows.Length > 0)
{
sender.Transformer = WorkingSets.local.getTransformer((int)rows[0]["transformerid"]);
sender.job = WorkingSets.local.getJob((int)rows[0]["mj_id"]);
List <MeasurementItemStruct> mlist = new List <MeasurementItemStruct>();
MeasurementItemStruct m;
foreach (var row in rows)
{
m = new MeasurementItemStruct((MeasurementFunction)((int)row["function"]))
{
Winding = new WindingType((int)row["windingtype"]),
Terimal = WindingTerimal.FromList((List <int>)
(new SCEEC.Converter.GenericListTypeConverter <int>().ConvertFrom((string)row["terimal"]))),
WindingConfig = (TransformerWindingConfigName)(int)row["windingconfig"],
TapLabel = ((string)row["taplabel"]).Split(';'),
Text = (string)row["text"],
failed = (bool)row["failed"],
completed = (bool)row["completed"]
};
List <SCEEC.Numerics.PhysicalVariable> pvList = new List <Numerics.PhysicalVariable>();
for (int i = 0; i < 9; i++)
{
string pvstr = (string)row["result_pv" + (i + 1).ToString()];
if (pvstr.Length > 0)
{
pvList.Add(SCEEC.Numerics.NumericsConverter.Text2Value(pvstr));
}
else
{
i = 9;
}
}
m.Result = new MeasurementResult(
m.Function,
pvList.ToArray(),
MeasurementItemStruct.Bytes2Shorts(Convert.FromBase64String((string)row["waves"])),
readyToTrigger: false, processing: false);
mlist.Add(m);
}
sender.MeasurementItems = mlist.ToArray();
}
return(sender);
}
public TestingWorkerSender getTestResults(string s)
{
var rows = TestResults.Select("function = " + ((int)MeasurementFunction.Information).ToString());
int testid = 0;
bool valid = false;
foreach (var r in rows)
{
var ji = JobInformation.FromString((string)r["waves"]);
if ((ji.testingName + "(" + ji.testingTime.ToString("yyyy-MM-dd") + ")") == s)
{
testid = (int)r["testid"];
valid = true;
}
}
if (!valid)
{
throw new Exception("测试结果查找为空");
}
rows = TestResults.Select("testid = " + testid.ToString());
if (rows.Length <= 0)
{
throw new Exception("测试结果导出出错");
}
var tws = new TestingWorkerSender();
tws.job = getJob((int)rows[0]["mj_id"]);
tws.Transformer = getTransformer((int)rows[0]["transformerid"]);
tws.ProgressPercent = 100;
tws.CurrentItemIndex = 0;
List <MeasurementItemStruct> mis = new List <MeasurementItemStruct>();
foreach (var r in rows)
{
if ((int)r["function"] != (int)MeasurementFunction.Information)
{
mis.Add(MeasurementItemStruct.FromDataRow(r));
}
else
{
tws.job.Information = JobInformation.FromString((string)r["waves"]);
}
}
tws.MeasurementItems = mis.ToArray();
return(tws);
}
//重做 failed 试验
//D型做三次的问题
public static void DoWork(ref TestingWorkerSender sender)
{
if (WorkingSets.local.IsCancer)
{
sender.MeasurementItems[sender.CurrentItemIndex].completed = false;
sender.MeasurementItems[sender.CurrentItemIndex].failed = false;
sender.MeasurementItems[sender.CurrentItemIndex].state = 0;
// sender.CurrentItemIndex = sender.CurrentItemIndex - 1;
WorkingSets.local.IsCancer = false;
}
// sender.MeasurementItems[sender.CurrentItemIndex].state = 0;
DoMeasurement(ref sender.MeasurementItems[sender.CurrentItemIndex], sender.Transformer, sender.job, sender);
sender.StatusText = sender.MeasurementItems[sender.CurrentItemIndex].stateText;
if (sender.CurrentItemIndex >= sender.MeasurementItems.Length)
{
TestFunction.Closecurrent(0);
}
}
public static bool CancalWork(ref TestingWorkerSender sender)
{
if (sender.MeasurementItems[sender.CurrentItemIndex].Function == MeasurementFunction.DCResistance ||
sender.MeasurementItems[sender.CurrentItemIndex].Function == MeasurementFunction.OLTCSwitchingCharacter)
{
if (true == TZ3310.ShutDownOutCurrent(0))
{
string[] OutData = TZ3310.ReadTestData(Parameter.TestKind.读取放电数据);
if (OutData != null)
{
if (OutData[0] == "2")
{
sender.StatusText = "放电完成";
return(true);
}
else
{
sender.StatusText = "正在放电中...";
return(false);
}
}
}
else
{
sender.StatusText = "关闭电流输出失败";
return(false);
}
}
else
{
if (true == TZ3310.InterRuptMe(Parameter.CommanTest.仪器复位))
{
sender.StatusText = "仪器复位成功";
return(true);
}
else
{
return(false);
}
}
return(false);
}
public System.Data.DataRow ToDataRowAddIndex(TestingWorkerSender sender)
{
var jobInfo = sender.job;
System.Data.DataRow row = WorkingSets.local.TestResults.NewRow();
row["testjobindex"] = sender.CurrentItemIndex;
row["testname"] = jobInfo.Information.testingName;
row["testid"] = jobInfo.Information.GetHashCode();
row["transformerid"] = jobInfo.Transformer.ID;
row["mj_id"] = jobInfo.id;
//row["testname"] =
row["function"] = (int)Function;
row["windingtype"] = (int)Winding;
if (Terimal != null)
{
if (Terimal.Length == 2)
{
row["terimal"] = ((int)Terimal[0]).ToString() + ";" + ((int)Terimal[1]).ToString();
}
else if (Terimal.Length == 1)
{
row["terimal"] = ((int)Terimal[0]).ToString();
}
else
{
row["terimal"] = string.Empty;
}
}
try { row["windingconfig"] = (int)WindingConfig; } catch { }
if (TapLabel != null)
{
if (TapLabel.Length == 2)
{
row["taplabel"] = TapLabel[0] + ";" + TapLabel[1];
}
else if (TapLabel.Length == 1)
{
row["taplabel"] = TapLabel[0];
}
else
{
row["taplabel"] = string.Empty;
}
}
if (Text != null)
{
row["text"] = Text;
}
row["failed"] = failed;
row["completed"] = completed;
if (result != null && result.values != null)
{
for (int i = 0; i < result.values.Length; i++)
{
if (result.values[i] != null)
{
var pv = result.values[i];
try { row["result_pv" + (i + 1).ToString()] = pv.OriginText; } catch { }
}
}
row["recordtime"] = result.recordTime;
if (result.waves != null)
{
if (result.waves != null && result.waves.Length > 0)
{
try { row["waves"] = System.Convert.ToBase64String(Array2Bytes(result.waves)); } catch { }
}
}
}
return(row);
}
public static bool CancelWork(ref TestingWorkerSender sender)
{
return(TestFunction.CancalWork(ref sender));
}
public static bool CancalWork(ref TestingWorkerSender sender)
{
try
{
if (sender.MeasurementItems[sender.CurrentItemIndex].Function == MeasurementFunction.DCResistance)
{
if (!Fd)
{
Thread.Sleep(150);
TZ3310.InterRuptMe(Parameter.CommanTest.模拟按键中断测量);
Thread.Sleep(150);
TZ3310.ShutDownOutCurrent(0);
Fd = true;
}
string[] tpd = TZ3310.ReadTestData(Parameter.TestKind.读取放电数据);
if (tpd != null && tpd[0] == "2")
{
sender.StatusText = "放电完成";
Fd = false;
return(true);
}
else
{
// sender.StatusText = "正在放电...";
return(false);
}
}
if (sender.MeasurementItems[sender.CurrentItemIndex].Function == MeasurementFunction.OLTCSwitchingCharacter)
{
if (!Fd)
{
Thread.Sleep(150);
TZ3310.InterRuptMe(Parameter.CommanTest.模拟按键中断测量);
Thread.Sleep(150);
TZ3310.ShutDownOutCurrent(0);
Fd = true;
}
string[] tpd = TZ3310.ReadTestData(Parameter.TestKind.读取放电数据);
if (tpd[0] == "2")
{
sender.StatusText = "放电完成";
Fd = false;
return(true);
}
else
{
return(false);
}
}
else
{
Thread.Sleep(150);
TZ3310.InterRuptMe(Parameter.CommanTest.模拟按键中断测量);
return(true);
}
}
catch
{
sender.MeasurementItems[sender.CurrentItemIndex].stateText = "放电失败,正在尝试重新连接";
if (!TZ3310.CommunicationQuery(0x00))
{
Thread.Sleep(2000);
sender.MeasurementItems[sender.CurrentItemIndex].stateText = "重新连接失败";
}
return(false);
}
}
public static void DCResistance(ref MeasurementItemStruct mi, Transformer transformer, JobList Job, TestingWorkerSender sender)
{
//string p = (1.1 + i / 10) + " kV";
//string q = tempp.ToString("f1") + " A";
//tempp += 0.1;
//string w = (3.3 + i) + " Ω";
//var p1 = new PhysicalVariable[] { p, q, w };
//var p2 = new PhysicalVariable[] { p, q, w };
//var p3 = new PhysicalVariable[] { p, q, w };
//mi.Result = MeasurementResult.NewDCResistanceResult(mi, p1, p2, p3, false);
//i++;
//if (i > 100)
//{
// mi.completed = true;
// mi.failed = true;
// mi.stateText = "测量人为中断";
// i = 0;
//}
//Thread.Sleep(200);
if (mi.Terimal != null)
{
Parameter.ZldzStation Dcposition;
if (mi.Winding == WindingType.HV)
{
Dcposition = Parameter.ZldzStation.高压全部 + (((int)mi.Terimal[0]) % 4);//1
// mi.WindingConfig = GetWindConfig(sender.MeasurementItems[sender.CurrentItemIndex + 1], transformer);
}
else if (mi.Winding == WindingType.MV)
{
Dcposition = Parameter.ZldzStation.中压全部 + (((int)mi.Terimal[0]) % 4);//5
}
else
{
if (!Job.DCResistance.ZcEnable)
{
Dcposition = Parameter.ZldzStation.低压全部 + (((int)mi.Terimal[0]) % 4);//9
}
else
{
Dcposition = Parameter.ZldzStation.注磁抵押 + (((int)mi.Terimal[0]) % 4);//9
}
}
switch (mi.state)
{
case 0:
if (mi.Winding == WindingType.HV)
{
mi.WindingConfig = transformer.WindingConfig.HV;
}
else if (mi.Winding == WindingType.MV)
{
mi.WindingConfig = transformer.WindingConfig.MV;
}
else
{
if (transformer.WindingNum == 2)
{
mi.WindingConfig = transformer.WindingConfig.MV;
}
else
{
mi.WindingConfig = transformer.WindingConfig.LV;
}
}
Thread.Sleep(2000);
byte[] TestKindData = TZ3310.SetPraZldz((Parameter.ZldzWindingKind)mi.WindingConfig, Dcposition, GetParameter.GetPraDCResistanceCurrentSpa(mi, Job), 0);
Thread.Sleep(100);
TZ3310.StartTest(TestKindData);
WorkingSets.local.TestDCI = false;
WorkingSets.local.IsEnablestable = true;
mi.stateText = "正在开始" + mi.Winding + "直流电阻中...";
Thread.Sleep(4000);
mi.state++;
break;
case 1:
string[] Recbuffer = TZ3310.ReadTestData(Parameter.TestKind.直流电阻);
Thread.Sleep(150);
if (Recbuffer != null)
{
if (Recbuffer[Recbuffer.Length - 1] == "0")
{
PhysicalVariable[] Voltage = { NumericsConverter.Text2Value(Recbuffer[0]), NumericsConverter.Text2Value(Recbuffer[3]), NumericsConverter.Text2Value(Recbuffer[6]) };
PhysicalVariable[] Current = { NumericsConverter.Text2Value(Recbuffer[1]), NumericsConverter.Text2Value(Recbuffer[4]), NumericsConverter.Text2Value(Recbuffer[7]) };
PhysicalVariable[] Resistance = { NumericsConverter.Text2Value(Recbuffer[2]), NumericsConverter.Text2Value(Recbuffer[5]), NumericsConverter.Text2Value(Recbuffer[8]) };
mi.Result = MeasurementResult.NewDCResistanceResult(mi, Voltage, Current, Resistance, false);
mi.state++; //测量结束数据需要确定
mi.stateText = "等待确认" + mi.Winding + "直流电阻稳定中..."; //临时
WorkingSets.local.IsVisible = true;
WorkingSets.local.IsVisible1 = true;
}
else if (Recbuffer[Recbuffer.Length - 1] == "1")
{
mi.state++;
}
else
{
mi.failed = true;
mi.completed = true;
mi.stateText = mi.Winding + "错误类型:" + Recbuffer[0].ToString();
}
}
break;
case 2:
string[] Recbuffer1 = TZ3310.ReadTestData(Parameter.TestKind.直流电阻);
Thread.Sleep(150);
if (Recbuffer1 != null)
{
if (Recbuffer1[Recbuffer1.Length - 1] == "0")
{
PhysicalVariable[] Voltage = { NumericsConverter.Text2Value(Recbuffer1[0]), NumericsConverter.Text2Value(Recbuffer1[3]), NumericsConverter.Text2Value(Recbuffer1[6]) };
PhysicalVariable[] Current = { NumericsConverter.Text2Value(Recbuffer1[1]), NumericsConverter.Text2Value(Recbuffer1[4]), NumericsConverter.Text2Value(Recbuffer1[7]) };
PhysicalVariable[] Resistance = { NumericsConverter.Text2Value(Recbuffer1[2]), NumericsConverter.Text2Value(Recbuffer1[5]), NumericsConverter.Text2Value(Recbuffer1[8]) };
mi.Result = MeasurementResult.NewDCResistanceResult(mi, Voltage, Current, Resistance, false);
if (WorkingSets.local.IsStable == true)
{
WorkingSets.local.IsStable = false;
mi.Result = MeasurementResult.NewDCResistanceResult(mi, Voltage, Current, Resistance, true);
TZ3310.InterRuptMe(Parameter.CommanTest.判断直流电阻稳定状态);
mi.stateText = "确定" + mi.Winding + "直流电阻稳定成功";
mi.state++;
}
}
else if (Recbuffer1[Recbuffer1.Length - 1] == "1")
{
mi.state++;
}
else
{
mi.stateText = mi.Winding + "错误类型:" + Recbuffer1[0].ToString();
mi.failed = true;
mi.completed = true;
}
}
break;
case 3:
string[] Recbuffer2 = TZ3310.ReadTestData(Parameter.TestKind.直流电阻);
if (Recbuffer2 != null)
{
if (Recbuffer2[Recbuffer2.Length - 1] == "1")
{
if (sender.MeasurementItems.Length != (sender.CurrentItemIndex + 1))
{
var miNext = sender.MeasurementItems[sender.CurrentItemIndex + 1];
if (miNext.Terimal != null && mi.Function == miNext.Function &&
mi.Terimal[0] == miNext.Terimal[0] &&
mi.Terimal[1] == miNext.Terimal[1] &&
mi.Winding == miNext.Winding &&
mi.WindingConfig == GetWindConfig(miNext, transformer))
{
//不需要放电
mi.stateText = "直流电阻" + mi.Winding + ":" + mi.Terimal[0] + "-" + mi.Terimal[1] + "测试完成";
mi.completed = true;
}
else
{
//需要放电的
TZ3310.ShutDownOutCurrent(0);
mi.state++;
}
}
else
{
//为最后一项
mi.stateText = mi.Winding + "直流电阻正在放电...";
TZ3310.ShutDownOutCurrent(0);
mi.state++;
}
}
else
{
mi.failed = true;
mi.completed = true;
mi.stateText = mi.Winding + "错误类型:" + Recbuffer2[0].ToString(); //临时
}
}
break;
case 4:
string[] readdata = TZ3310.ReadTestData(Parameter.TestKind.读取放电数据);
if (readdata[0] == "2")
{
mi.stateText = mi.Winding + "直流电阻放电完成";
mi.completed = true;
}
break;
}
}
else
{
switch (mi.state)
{
case 0:
if (mi.Winding == WindingType.HV)
{
mi.WindingConfig = transformer.WindingConfig.HV;
}
else if (mi.Winding == WindingType.MV)
{
mi.WindingConfig = transformer.WindingConfig.MV;
}
else
{
if (transformer.PhaseNum == 2)
{
mi.WindingConfig = transformer.WindingConfig.MV;
}
else
{
mi.WindingConfig = transformer.WindingConfig.LV;
}
}
WorkingSets.local.TestDCI = false;
WorkingSets.local.IsEnablestable = true;
byte[] TestKindData = TZ3310.SetPraZldz((Parameter.ZldzWindingKind)mi.WindingConfig, mi.Winding.TozldzStation(Job), GetParameter.GetPraDCResistanceCurrentSpa(mi, Job), 0);
Thread.Sleep(100);
if (TZ3310.StartTest(TestKindData))
{
mi.stateText = "正在测试" + mi.Winding.TozldzStation(Job) + "直流电阻中...";
mi.state++;
}
Thread.Sleep(4000);
break;
case 1:
string[] Recbuffer = TZ3310.ReadTestData(Parameter.TestKind.直流电阻);
Thread.Sleep(150);
if (Recbuffer != null)
{
if (Recbuffer[Recbuffer.Length - 1] == "0")
{
PhysicalVariable[] Voltage = { Recbuffer[0], Recbuffer[3], Recbuffer[6] };
PhysicalVariable[] Current = { Recbuffer[1], Recbuffer[4], Recbuffer[7] };
PhysicalVariable[] Resistance = { Recbuffer[2], Recbuffer[5], Recbuffer[8] };
mi.Result = MeasurementResult.NewDCResistanceResult(mi, Voltage, Current, Resistance, false);
mi.state++;
mi.stateText = "等待确定" + mi.Winding + "直流电阻稳定中...";
WorkingSets.local.IsVisible = true;
WorkingSets.local.IsVisible1 = true;
}
else if (Recbuffer[Recbuffer.Length - 1] == "1")
{
mi.state++;
}
else
{
mi.failed = true;
mi.completed = true;
mi.stateText = mi.Winding + "错误类型:" + Recbuffer[0].ToString();
}
}
break;
case 2:
string[] Recbuffer1 = TZ3310.ReadTestData(Parameter.TestKind.直流电阻);
if (Recbuffer1 != null)
{
if (Recbuffer1[Recbuffer1.Length - 1] == "0")
{
PhysicalVariable[] Voltage = { Recbuffer1[0], Recbuffer1[3], Recbuffer1[6] };
PhysicalVariable[] Current = { Recbuffer1[1], Recbuffer1[4], Recbuffer1[7] };
PhysicalVariable[] Resistance = { Recbuffer1[2], Recbuffer1[5], Recbuffer1[8] };
mi.Result = MeasurementResult.NewDCResistanceResult(mi, Voltage, Current, Resistance, false);
if (WorkingSets.local.IsStable == true)
{
WorkingSets.local.IsStable = false;
mi.Result = MeasurementResult.NewDCResistanceResult(mi, Voltage, Current, Resistance, true);
TZ3310.InterRuptMe(Parameter.CommanTest.判断直流电阻稳定状态);
mi.stateText = "确定" + mi.Winding + "直流电阻稳定成功";
mi.state++;
}
}
else if (Recbuffer1[Recbuffer1.Length - 1] == "1")
{
mi.state++;
}
else
{
mi.failed = true;
mi.completed = true;
mi.stateText = mi.Winding + "错误类型:" + Recbuffer1[0].ToString();
}
}
break;
case 3:
string[] Recbuffer2 = TZ3310.ReadTestData(Parameter.TestKind.直流电阻);
if (Recbuffer2 != null)
{
if (Recbuffer2[Recbuffer2.Length - 1] == "1")
{
if (sender.MeasurementItems.Length != (sender.CurrentItemIndex + 1))
{
var miNext = sender.MeasurementItems[sender.CurrentItemIndex + 1];
if (mi.Function == miNext.Function &&
mi.Winding == miNext.Winding &&
mi.WindingConfig == GetWindConfig(miNext, transformer))
{
//不需要放电
mi.stateText = "直流电阻" + mi.Winding + "测试完成";
mi.completed = true;
}
else
{
//需要放电的
TZ3310.ShutDownOutCurrent(0);
mi.state++;
}
}
else
{
//为最后一项
mi.stateText = mi.Winding + "直流电阻测试完成";
TZ3310.ShutDownOutCurrent(0);
mi.state++;
}
}
else
{
mi.failed = true;
mi.completed = true;
mi.stateText = mi.Winding + "错误类型:" + Recbuffer2[0].ToString(); //临时
}
}
Thread.Sleep(1000);
break;
case 4:
string[] readdata = TZ3310.ReadTestData(Parameter.TestKind.读取放电数据);
if (readdata[0] == "2")
{
mi.stateText = mi.Winding + "直流电阻放电完成";
mi.completed = true;
}
break;
}
}
}
public static MeasurementResult DoMeasurement(ref MeasurementItemStruct mi, Transformer transformer, JobList Job, TestingWorkerSender sender)
{
switch (mi.Function)
{
case MeasurementFunction.DCInsulation:
TestFunction.DoDCInsulation(ref mi, transformer, Job);
break;
case MeasurementFunction.Capacitance:
TestFunction.Capacitance(ref mi, transformer, Job);
break;
case MeasurementFunction.DCResistance: //直流电阻
TestFunction.DCResistance(ref mi, transformer, Job, sender);
break;
case MeasurementFunction.BushingDCInsulation:
TestFunction.BushingDCInsulation(ref mi, transformer, Job);
break;
case MeasurementFunction.BushingCapacitance:
TestFunction.BushingCapacitance(ref mi, transformer, Job);
break;
case MeasurementFunction.OLTCSwitchingCharacter:
TestFunction.OLTCSwitchingCharacter(ref mi, transformer, Job);
break;
case MeasurementFunction.Information:
TestFunction.Information(ref mi, transformer, Job);
break;
case MeasurementFunction.DCCharge: //充电
break;
case MeasurementFunction.Coreinsulation: //充电
TestFunction.Coredci(ref mi, transformer, Job);
break;
case MeasurementFunction.Leakagecurrent: //充电
TestFunction.Losscurrent(ref mi, transformer, Job);
break;
case MeasurementFunction.Shortcircuitimpedance: //充电
TestFunction.Shortvolate(ref mi, transformer, Job);
break;
case MeasurementFunction.Description:
mi.completed = true;
break;
}
return(null);
}
