public async Task <ActionResult> Delete(string key) { MethodReturnResult result = new MethodReturnResult(); using (CalibrationPlateServiceClient client = new CalibrationPlateServiceClient()) { result = await client.DeleteAsync(key); if (result.Code == 0) { result.Message = string.Format(FMMResources.StringResource.CalibrationPlate_Delete_Success , key); } return(Json(result)); } }
// // GET: /FMM/CalibrationPlate/Modify public async Task <ActionResult> Modify(string CalibrationPlateID) { CalibrationPlateViewModel viewModel = new CalibrationPlateViewModel(); using (CalibrationPlateServiceClient client = new CalibrationPlateServiceClient()) { MethodReturnResult <CalibrationPlate> result = await client.GetAsync(CalibrationPlateID); if (result.Code == 0) { viewModel = new CalibrationPlateViewModel() { CalibrationPlateID = result.Data.Key, CalibrationPlateType = result.Data.CalibrationPlateType, CalibrationPlateName = result.Data.CalibrationPlateName, PM = result.Data.PM, ISC = result.Data.ISC, VOC = result.Data.VOC, MaxPM = result.Data.MaxPM, MinPM = result.Data.MinPM, MaxISC = result.Data.MaxISC, MinISC = result.Data.MinISC, MaxVOC = result.Data.MaxVOC, MinVOC = result.Data.MinVOC, StdIsc1 = result.Data.StdIsc1, //标准电流1 StdIsc2 = result.Data.StdIsc2, //标准电流2 Stdsun1 = result.Data.Stdsun1, //标准光强1 Stdsun2 = result.Data.Stdsun2, //标准光强2 Explain = result.Data.Explain, Creator = result.Data.Creator, CreateTime = result.Data.CreateTime, Editor = result.Data.Editor, EditTime = result.Data.EditTime }; return(PartialView("_ModifyPartial", viewModel)); } else { ModelState.AddModelError("", result.Message); } } return(PartialView("_ModifyPartial")); }
public async Task <ActionResult> SaveModify(CalibrationPlateViewModel model) { using (CalibrationPlateServiceClient client = new CalibrationPlateServiceClient()) { MethodReturnResult <CalibrationPlate> result = await client.GetAsync(model.CalibrationPlateID); if (result.Code == 0) { result.Data.CalibrationPlateType = model.CalibrationPlateType; result.Data.CalibrationPlateName = model.CalibrationPlateName; result.Data.PM = model.PM; result.Data.ISC = model.ISC; result.Data.VOC = model.VOC; result.Data.MaxPM = model.MaxPM; result.Data.MinPM = model.MinPM; result.Data.MaxISC = model.MaxISC; result.Data.MinISC = model.MinISC; result.Data.MaxVOC = model.MaxVOC; result.Data.MinVOC = model.MinVOC; result.Data.StdIsc1 = model.StdIsc1; result.Data.StdIsc2 = model.StdIsc2; result.Data.Stdsun1 = model.Stdsun1; result.Data.Stdsun2 = model.Stdsun2; result.Data.Explain = model.Explain; result.Data.Editor = User.Identity.Name; result.Data.EditTime = DateTime.Now; MethodReturnResult rst = await client.ModifyAsync(result.Data); if (rst.Code == 0) { rst.Message = string.Format(FMMResources.StringResource.CalibrationPlate_SaveModify_Success , result.Data.Key); } return(Json(rst)); } return(Json(result)); } }
public async Task <ActionResult> Save(CalibrationPlateViewModel model) { using (CalibrationPlateServiceClient client = new CalibrationPlateServiceClient()) { CalibrationPlate obj = new CalibrationPlate() { Key = model.CalibrationPlateID, CalibrationPlateType = model.CalibrationPlateType, CalibrationPlateName = model.CalibrationPlateName, PM = model.PM, ISC = model.ISC, VOC = model.VOC, MaxPM = model.MaxPM, MinPM = model.MinPM, MaxISC = model.MaxISC, MinISC = model.MinISC, MaxVOC = model.MaxVOC, MinVOC = model.MinVOC, StdIsc1 = model.StdIsc1, StdIsc2 = model.StdIsc2, Stdsun1 = model.Stdsun1, Stdsun2 = model.Stdsun2, Explain = model.Explain, Creator = User.Identity.Name, CreateTime = DateTime.Now, Editor = User.Identity.Name, EditTime = DateTime.Now, }; MethodReturnResult rst = await client.AddAsync(obj); if (rst.Code == 0) { rst.Message = string.Format(FMMResources.StringResource.CalibrationPlate_Save_Success , obj.Key); } return(Json(rst)); } }
/// <summary> 获取校准板列表 </summary> /// <returns></returns> public IEnumerable <SelectListItem> GetCalibrationPlateIDList() { IList <CalibrationPlate> lst = new List <CalibrationPlate>(); PagingConfig cfg = new PagingConfig() { IsPaging = false, }; using (CalibrationPlateServiceClient client = new CalibrationPlateServiceClient()) { MethodReturnResult <IList <CalibrationPlate> > result = client.Get(ref cfg); if (result.Code <= 0 && result.Data != null) { lst = result.Data; } } return(from item in lst select new SelectListItem() { Text = item.Key, Value = item.Key }); }
public SortedList <string, string> AssembleSpline(DataTable dtIVTESTDataForSpline, WIPIVTestGetParameter parameter) { SPCJobParam jobParam = null; using (SPCJobServiceClient client = new SPCJobServiceClient()) { MethodReturnResult <IList <SPCJobParam> > retJobParams = client.GetJobParams("1"); if (retJobParams.Code == 0 && retJobParams.Data != null && retJobParams.Data.Count > 0) { foreach (SPCJobParam job in retJobParams.Data) { jobParam = job; } } } string strup = string.Empty, strlow = string.Empty; string strUb = string.Empty, strUs = string.Empty; string strLc = string.Empty, strLs = string.Empty, strLb = string.Empty; string strLmax = string.Empty, strLmin = string.Empty, strLYinterval = string.Empty; string strTg = string.Empty; // string[] arrEqpCode = parameter.EquipmentCode.Replace("'", "").Split(','); string[] arrEqpCode = dtIVTESTDataForSpline.Rows[0]["EQUIPMENT_CODE"].ToString().Replace("'", "").Split(','); List <string> list = new List <string>(); System.Collections.Hashtable hsDrawLinesY = new System.Collections.Hashtable(); StringBuilder strBuilderX = new StringBuilder(); StringBuilder strBuildera = new StringBuilder(); System.Collections.Hashtable hsDrawLinesX = new System.Collections.Hashtable(); StringBuilder strBuilderY = new StringBuilder(); if (arrEqpCode.Length > 0) { foreach (var data in arrEqpCode) { if (!string.IsNullOrEmpty(parameter.Attr_1)) { list.Add(data + parameter.Attr_1); } else { list.Add(data); } } } foreach (string botaId in list) { strBuilderY = new StringBuilder(); hsDrawLinesY.Add(botaId, strBuilderY); } var query = from t in dtIVTESTDataForSpline.AsEnumerable() group t by new { t1 = t.Field <DateTime>("TEST_TIME") } into m select new { TEST_TIME = m.First().Field <DateTime>("TEST_TIME") }; int j = 0; foreach (var data in query) { hsDrawLinesX.Add(data.TEST_TIME.ToString(), j); strBuilderX.Append("'" + data.TEST_TIME.ToString() + "',");//X j = j + 1; } int indexOfX = 0; Hashtable hsDrawPoint = new Hashtable(); for (int i = 0; i < dtIVTESTDataForSpline.Rows.Count; i++) { string dbKey = ""; if (!string.IsNullOrEmpty(parameter.Attr_1)) { dbKey = dtIVTESTDataForSpline.Rows[i]["EQUIPMENT_CODE"].ToString() + dtIVTESTDataForSpline.Rows[i]["ATTR_1"].ToString(); } else { dbKey = dtIVTESTDataForSpline.Rows[i]["EQUIPMENT_CODE"].ToString(); } foreach (object key in hsDrawLinesY.Keys) { strBuilderY = (StringBuilder)hsDrawLinesY[key]; string valueOfY = ""; string strPointOfX = ""; string strKey = (string)key; if (string.Compare(strKey, dbKey, true) == 0) { if (String.IsNullOrEmpty(dtIVTESTDataForSpline.Rows[i]["PM"].ToString())) { valueOfY = "null"; } else { valueOfY = dtIVTESTDataForSpline.Rows[i]["PM"].ToString(); } if (hsDrawLinesX.ContainsKey(dtIVTESTDataForSpline.Rows[i]["TEST_TIME"].ToString())) { indexOfX = (int)hsDrawLinesX[dtIVTESTDataForSpline.Rows[i]["TEST_TIME"].ToString()]; } strPointOfX = strKey + indexOfX.ToString(); if (hsDrawPoint.ContainsKey(strPointOfX)) { if (valueOfY != "null") { hsDrawPoint[strPointOfX] = valueOfY; } } else { hsDrawPoint.Add(strPointOfX, valueOfY); } } } } ArrayList XKey = new ArrayList(hsDrawLinesX.Values); XKey.Sort(); int nMaxOfXPoint = hsDrawLinesX.Count; int nMinOfXPoint = 1; int nIndexOfXPoint = 1; foreach (object val in XKey) { foreach (object key in hsDrawLinesY.Keys) { strBuilderY = (StringBuilder)hsDrawLinesY[key]; string strKey = key.ToString() + val.ToString(); if (hsDrawPoint.ContainsKey(strKey)) { strBuilderY.Append("[" + val + "," + (string)hsDrawPoint[strKey] + "],"); } else { strBuilderY.Append("[" + val + ",null],"); } } if (jobParam != null && (nIndexOfXPoint == nMinOfXPoint || nIndexOfXPoint == nMaxOfXPoint)) { if (parameter.CalibrationId != null && parameter.CalibrationId != "") { using (CalibrationPlateServiceClient client = new CalibrationPlateServiceClient()) { MethodReturnResult <CalibrationPlate> result = client.Get(parameter.CalibrationId); if (result.Code == 0) { //5条控制线 //strUs = strUs + jobParam.UpperSpecification.ToString() + ","; //strup = strup + jobParam.UpperControl.ToString() + ","; //strTg = strTg + jobParam.Target.ToString() + ","; //strlow = strlow + jobParam.LowerControl.ToString() + ","; //strLs = strLs + jobParam.LowerSpecification.ToString() + ","; strUs = strUs + result.Data.MaxPM + ",";; strup = strup + result.Data.MaxPM + ","; strTg = strTg + jobParam.Target.ToString() + ","; strlow = strlow + result.Data.MinPM + ","; strLs = strLs + result.Data.MinPM + ","; } } } else { strUs = strUs + jobParam.UpperSpecification.ToString() + ","; strup = strup + jobParam.UpperControl.ToString() + ","; strTg = strTg + jobParam.Target.ToString() + ","; strlow = strlow + jobParam.LowerControl.ToString() + ","; strLs = strLs + jobParam.LowerSpecification.ToString() + ","; } //y轴最大最小值以及间距 strLmax = jobParam.LineUpper.ToString(); strLmin = jobParam.LineLower.ToString(); strLYinterval = jobParam.LineYinterval.ToString(); } else { strup = strup + "null,"; strlow = strlow + "null,"; strUb = strUb + "null,"; strUs = strUs + "null,"; strTg = strTg + "null,"; strLb = strLb + "null,"; strLs = strLs + "null,"; } nIndexOfXPoint = nIndexOfXPoint + 1; } var strx = @"[" + strBuilderX.ToString().Trim(',') + "]"; string stryLevel = strLmax + "|" + strLmin + "|" + strLYinterval; var stry = ""; stry = @"["; stry = stry + "{ name: 'USL=" + strUs.Substring(0, strUs.IndexOf(',')) + "',type:'spline', data: [" + strUs.Trim(',') + "]},"; stry = stry + "{ name: 'UCL=" + strup.Substring(0, strup.IndexOf(',')) + "',type:'spline', data: [" + strup.Trim(',') + "]},"; stry = stry + "{ name: 'Target=" + strTg.Substring(0, strTg.IndexOf(',')) + "',type:'spline', data: [" + strTg.Trim(',') + "]},"; stry = stry + "{ name: 'LCL=" + strlow.Substring(0, strlow.IndexOf(',')) + "',type:'spline', data: [" + strlow.Trim(',') + "]},"; stry = stry + "{ name: 'LSL=" + strLs.Substring(0, strLs.IndexOf(',')) + "',type:'spline', data: [" + strLs.Trim(',') + "]},"; foreach (DictionaryEntry line in hsDrawLinesY) { stry = stry + "{ name: '" + line.Key + "',type:'spline', data: [" + line.Value.ToString().Trim(',') + "]},"; } stry = stry.ToString().Trim(','); stry = stry + "]"; sl.Add("mAxis", strx); sl.Add("level", stryLevel); sl.Add("nAxis", stry); return(sl); }
public ActionResult Query(CalibrationPlateQueryViewModel model) { string keyList = null; if (model.LineCode != null || model.LocationName != null) { using (CalibrationPlateLineServiceClient client = new CalibrationPlateLineServiceClient()) { PagingConfig cfg = new PagingConfig() { IsPaging = false, Where = GetQueryCondition(model) }; MethodReturnResult <IList <CalibrationPlateLine> > result = client.Get(ref cfg); if (result.Code == 0 && result.Data.Count > 0) { StringBuilder strb = new StringBuilder(); foreach (var item in result.Data) { strb.Append("'" + item.Key.CalibrationPlateID + "',"); } keyList = strb.ToString().Substring(0, strb.Length - 1); } else { return(PartialView("_ListPartial")); } } } if (keyList != null) { using (CalibrationPlateServiceClient client = new CalibrationPlateServiceClient()) { PagingConfig cfg = new PagingConfig() { IsPaging = false, Where = string.Format(" Key in ({0})" , keyList) }; MethodReturnResult <IList <CalibrationPlate> > result = client.Get(ref cfg); if (result.Code == 0) { ViewBag.List = result.Data; } } } else { using (CalibrationPlateServiceClient client = new CalibrationPlateServiceClient()) { PagingConfig cfg = new PagingConfig() { IsPaging = false, OrderBy = "Key" }; MethodReturnResult <IList <CalibrationPlate> > result = client.Get(ref cfg); if (result.Code == 0) { ViewBag.List = result.Data; } } } return(PartialView("_ListPartial")); }