public void Add(object value) { if (this.value == null) { this.value = new ArrayList(); } string strType = value.GetType().ToString(); if (value is string) { this.value.Add((String)value.ToString()); } else if (value is int) { this.value.Add(new integer((int)value)); } else if (value is uint) { this.value.Add(new integer((int)(uint)value)); } else if (value is double) { this.value.Add(new Float((double)value)); } else { this.value.Add(value); } }
public bool IgnoreNotice(List<ArrivalNoticeQuery> list) { ArrayList arrList = new ArrayList(); string mailBody = string.Empty; MailHelper mailHelper = new MailHelper(); try { for (int i = 0; i < list.Count; i++) { arrList.Add(_IArrivalNoticeDao.IgnoreNotice(list[i])); } //_mysqlDao.ExcuteSqls(arrList) if (_mysqlDao.ExcuteSqls(arrList)) { return true; } else { return false; } } catch (Exception ex) { throw new Exception("ArrivalNoticeMgr-->IgnoreNotice-->" + arrList.ToString() + ex.Message, ex); } }
/// <summary> /// Returns the shape indexes of the polygons falling in the specified polygon. /// </summary> /// <returns>True if some are found.</returns> public static bool SelectPolygonsWithPolygon(ref MapWinGIS.Shapefile inputSF, ref MapWinGIS.Shape polygon, ref System.Collections.ArrayList results) { MapWinUtility.Logger.Dbg("SelectPolygonsWithPolygon(inputSF: " + Macro.ParamName(inputSF) + ", \n" + " polygon: " + Macro.ParamName(polygon) + ", \n" + " results: " + results.ToString() + ")"); int numShapes = inputSF.NumShapes; results = new System.Collections.ArrayList(); for (int i = 0; i <= numShapes - 1; i++) { MapWinGIS.Shape currShape = new MapWinGIS.ShapeClass(); currShape = inputSF.get_Shape(i); bool boundsIntersect = Globals.CheckBounds(ref currShape, ref polygon); if (boundsIntersect) { //check that actual intersection occurs MapWinGIS.Shape intersectShp = new MapWinGIS.ShapeClass(); intersectShp = SpatialOperations.Intersection(currShape, polygon); if (intersectShp.numPoints > 0) { //shape has at least a small portion inside polygon results.Add(i); } //end of checking for intersection } //end of checking bounds } //end of looping through shapes MapWinUtility.Logger.Dbg("Finished SelectPolygonWithPolygon"); return(results.Count > 0); }
public bool DeleteMailGroup(List<MailGroupQuery> list) { ArrayList arrayList = new ArrayList(); try { for (int i = 0; i < list.Count; i++) { arrayList.Add(_IMailGroupDao.DeleteMailGroup(list[i])); } return _mysqlDao.ExcuteSqls(arrayList); } catch (Exception ex) { throw new Exception("MailGroupMgr-->DeleteMailGroup-->"+arrayList.ToString()+ ex.Message, ex); } }
public void AssignCountry(int TourId, ArrayList Country) { TourmasterStoreprocedures objempentity = new TourmasterStoreprocedures(); objempentity.AssignCountry(TourId, Country.ToString()); }
public bool UpdateByVendor(List<Model.PriceMasterTemp> priceMasterTempList, List<ItemPrice> itemPrices) { ArrayList sqls = new ArrayList(); try { if (priceMasterTempList != null) { foreach (var item in priceMasterTempList) { sqls.Add(_priceMasterTempDao.UpdateByVendor(item)); } } //if (itemPrices != null) //{ // ItemPriceTempMgr itemPriceTempMgr = new ItemPriceTempMgr(""); // foreach (var item in itemPrices) // { // sqls.Add(itemPriceTempMgr.Update(item)); // } //} MySqlDao mySqlDao = new MySqlDao(connctionString); return mySqlDao.ExcuteSqls(sqls); } catch (Exception ex) { throw new Exception("PriceMasterTempMgr-->UpdateByVendor-->" + ex.Message + sqls.ToString(), ex); } }
public bool SaveByVendor(List<Model.PriceMasterTemp> priceMasterTempList, List<List<ItemPrice>> itemPrices, ArrayList others) { if (priceMasterTempList == null) { return false; } if (itemPrices != null && itemPrices.Count > 0 && priceMasterTempList.Count != itemPrices.Count) { return false; } ArrayList sqls = new ArrayList(); ArrayList prices = new ArrayList(); try { ItemPriceTempMgr itemPriceTempMgr = new ItemPriceTempMgr(""); foreach (var item in priceMasterTempList) { sqls.Add(_priceMasterTempDao.SaveByVendor(item)); //if (itemPrices != null && itemPrices.Count > 0) //{ // ArrayList price = new ArrayList(); // List<ItemPrice> items = itemPrices[priceMasterTempList.IndexOf(item)]; // if (items != null) // { // foreach (var tp in items) // { // price.Add(itemPriceTempMgr.Save(tp)); // } // } // prices.Add(price); //} } return _priceMasterTempDao.Save(sqls, prices, others); } catch (Exception ex) { throw new Exception("PriceMasterTempMgr-->SaveByVendor-->" + ex.Message + sqls.ToString(), ex); } }
/// <summary> /// 刪除組合商品的父商品和子商品價格數據 /// </summary> /// <param name="delTemp"></param> /// <returns></returns> public bool comboPriceDeleteByVendor(ProductComboTemp delTemp) { ArrayList sqls = new ArrayList(); try { //刪除item_price_temp子商品的數據中的數據 ItemPriceTempMgr itemPriceMgr = new ItemPriceTempMgr(""); sqls.Add(itemPriceMgr.DeleteByVendor(delTemp.Parent_Id, delTemp.Combo_Type, delTemp.Writer_Id)); //刪除price_master_temp中的數據 PriceMasterTempMgr priceMasterTempMgr = new PriceMasterTempMgr(""); sqls.Add(priceMasterTempMgr.DeleteByVendor(new PriceMasterTemp { writer_Id = delTemp.Writer_Id, product_id = delTemp.Parent_Id, combo_type = delTemp.Combo_Type })); return _mySql.ExcuteSqls(sqls); } catch (Exception ex) { throw new Exception("ProductComboTempMgr.comboPriceDeleteByVendor-->" + ex.Message + sqls.ToString(), ex); } }
public bool CancelOrder(List<TicketMasterQuery> list) { ArrayList arrList = new ArrayList(); try { for (int i = 0; i < list.Count; i++) { arrList.Add(_tmDao.CancelOrderTM(list[i])); arrList.Add(_tmDao.CancelOrderTD(list[i])); } return _tmDao.ExecSql(arrList); } catch(Exception ex) { throw new Exception("MailGroupMgr-->CancelOrder-->" + arrList.ToString() + ex.Message, ex); } }
protected virtual void InsertCreated(object forObj, int exceptionLimit) { this.Context.LogManager.Debug(this, "Inserting objects that are up for creation", ""); // do not localize try { long cnt; int cntStale = 0; bool noCheck = false; IList stillDirty = new ArrayList() ; ArrayList insertObjects = new ArrayList(); cnt = m_listCreated.Count; IObjectManager om = this.Context.ObjectManager; IPersistenceEngine pe = this.Context.PersistenceEngine; while (cnt > 0) { try { insertObjects.Clear(); foreach (object obj in m_listCreated) { try { if (forObj != null) { if (obj == forObj) { insertObjects.Add(obj); } } else { if (noCheck) { if (MayInsert(obj, true, true)) { insertObjects.Add(obj); noCheck = false; } } else { if (MayInsert(obj, true, false)) { insertObjects.Add(obj); } } } } catch (Exception ex) { if (exceptionLimit > 0 && exceptions.Count >= exceptionLimit - 1) throw ex; exceptions.Add(ex); } } foreach (object obj in insertObjects) { //this should be the only necessary try block in this //method (and it ought only to be around the call to the //persistence engine, at that) but we add the other tries //to ensure that some exception from the framework doesn't //ruin the beautiful concept with collecting exceptions :-) try { m_listCreated.Remove(obj); m_listInserted.Add(obj); stillDirty.Clear() ; pe.InsertObject(obj, stillDirty); om.SetObjectStatus(obj, ObjectStatus.Clean); this.Context.LogManager.Debug(this, "Inserted object", "Type: " + obj.GetType().ToString() + " Still dirty: " + stillDirty.ToString() ); // do not localize if (stillDirty.Count > 0) { IList cloneList = new ArrayList(); foreach (object clone in stillDirty) { cloneList.Add(clone); } m_hashStillDirty[obj] = cloneList ; } } catch (Exception ex) { if (exceptionLimit > 0 && exceptions.Count >= exceptionLimit - 1) throw ex; exceptions.Add(ex); } } if (m_listCreated.Count == cnt) { noCheck = true; cntStale++; if (cntStale > 1) { throw new NPersistException("Cyclic dependency among objects up for creation could not be resolved!"); // do not localize } } else { cntStale = 0; noCheck = false; } if (forObj != null) { cnt = 0; } else { cnt = m_listCreated.Count; } } catch (Exception ex) { if (exceptionLimit > 0 && exceptions.Count >= exceptionLimit - 1) throw ex; exceptions.Add(ex); } } } catch (Exception ex) { if (exceptionLimit > 0 && exceptions.Count >= exceptionLimit - 1) throw ex; exceptions.Add(ex); } }
private Hashtable XMLRPCRequest(Hashtable ReqParams, string method) { ArrayList SendParams = new ArrayList(); SendParams.Add(ReqParams); XmlRpcResponse Resp; try { XmlRpcRequest Req = new XmlRpcRequest(method, SendParams); Resp = Req.Send(m_connectionString, 30000); } catch (WebException ex) { m_log.ErrorFormat( "[UserLogModule]: XmlRpcDataConnector::WebException > Url:{0}, Method: {1}, Params: {2}, " + "Exception: {3}", m_connectionString, method, SendParams.ToString(), ex); Hashtable ErrorHash = new Hashtable(); ErrorHash["success"] = false; ErrorHash["errorMessage"] = "Unable to log User data at this time. "; ErrorHash["errorURI"] = ""; return ErrorHash; } catch (SocketException ex) { m_log.ErrorFormat( "[UserLogModule]: XmlRpcDataConnector::SocketException > Url:{0}, Method: {1}, Params: {2}, " + "Exception: {3}", m_connectionString, method, SendParams.ToString(), ex); Hashtable ErrorHash = new Hashtable(); ErrorHash["success"] = false; ErrorHash["errorMessage"] = "Unable to log user data at this time. "; ErrorHash["errorURI"] = ""; return ErrorHash; } catch (XmlException ex) { m_log.ErrorFormat( "[UserLogModule]: XmlRpcDataConnector::XmlException > Url:{0}, Method: {1}, Params: {2}, " + "Exception: {3}", m_connectionString, method, SendParams.ToString(), ex); Hashtable ErrorHash = new Hashtable(); ErrorHash["success"] = false; ErrorHash["errorMessage"] = "Unable to log user data at this time. "; ErrorHash["errorURI"] = ""; return ErrorHash; } if (Resp.IsFault) { Hashtable ErrorHash = new Hashtable(); ErrorHash["success"] = false; ErrorHash["errorMessage"] = "Unable to log user data at this time. "; ErrorHash["errorURI"] = ""; return ErrorHash; } Hashtable RespData = (Hashtable)Resp.Value; return RespData; }
private IParameter[] GetMatchingParameterListForSetters(IPicoContainer container) { if (setters == null) { InitializeSetterAndTypeLists(); } IParameter[] matchingParameterList = new IParameter[setters.Count]; ArrayList nonMatchingParameterPositions = new ArrayList(); // was Set IParameter[] currentParameters = parameters != null ? parameters : CreateDefaultParameters(setterTypes); for (int i = 0; i < currentParameters.Length; i++) { IParameter parameter = currentParameters[i]; bool failedDependency = true; for (int j = 0; j < setterTypes.Length; j++) { if (matchingParameterList[j] == null && parameter.IsResolvable(container, this, setterTypes[j])) { matchingParameterList[j] = parameter; failedDependency = false; break; } } if (failedDependency) { nonMatchingParameterPositions.Add(i); } } ArrayList unsatisfiableDependencyTypes = new ArrayList(); for (int i = 0; i < matchingParameterList.Length; i++) { if (matchingParameterList[i] == null) { unsatisfiableDependencyTypes.Add(setterTypes[i]); } } if (unsatisfiableDependencyTypes.Count > 0) { throw new UnsatisfiableDependenciesException(this, unsatisfiableDependencyTypes); } else if (nonMatchingParameterPositions.Count > 0) { throw new PicoInitializationException("Following parameters do not match any of the setters for " + ComponentImplementation + ": " + nonMatchingParameterPositions.ToString()); } return matchingParameterList; }
/// <summary> /// If an instance of x is enclosed in a y which is in a z, return /// a String of these instance names in order from topmost to lowest; /// here that would be "[z y x]". /// </summary> public String getEnclosingInstanceStackString() { IList names = new ArrayList(); StringTemplate p = this; while ( p!=null ) { String name = p.getName(); names.Insert(0,name+(p.passThroughAttributes?"(...)":"")); p = p.enclosingInstance; } return names.ToString().Replace(",",""); }
public bool Delete(List<PromotionsAmountDiscountCustom> list) { ArrayList arrList = new ArrayList(); try { for (int i = 0; i < list.Count; i++) { arrList.Add(string.Format("delete from promotions_amount_discount where id='{0}';", list[i].id)); } return _mySql.ExcuteSqls(arrList); } catch (Exception ex) { throw new Exception("PromotionAmountDiscountsDao-->Delete-->+" + arrList.ToString() + ex.Message, ex); } }
/// <summary> /// tries to guesstimate the speaker of sSource dialog line /// </summary> /// <param name="sSource"></param> /// <param name="sBefore"></param> /// <param name="sAfter"></param> /// <param name="confidence"></param> /// <returns></returns> private string GetSpeaker(string sSource, string sBefore, string sAfter, string sBeforeSpeaker, out double confidence) { string sContext = sBefore + " " + sAfter; if (characters == null) { throw new Exception("GetSPeaker - we need a character array"); } if (pronouns == null) { throw new Exception("pronouns not defined? DId you build the AI table?"); } if (kb == null) { throw new Exception("knowledge base needs to be built"); } if (GETSPEAKER_RegexForPronouns == "") { throw new Exception("pronouns were not defined."); } if (hesaids == null) { throw new Exception("we need the hesaid regex built"); } if (pronounRegex == null) { throw new Exception("we need the pronoun regex built"); } if (sSource.IndexOf("Listen,") > -1) { // int breaker = 9; } // This worked to get he and shes and whatnot but I wanted to try something // more elabroate //Regex caps = new Regex(@"(\bhe|\bI\b|\bit\b|\bHe\b|\bShe\b|\bshe\b|(\b[A-Z]\w*))"); MatchCollection matches = hesaids.Matches(sContext); confidence = 0.0; ArrayList output = new ArrayList(); foreach (Match match in matches) { // remove the 'said' bit from the string string sValue = match.Value; //ToDo: Potential slow (but only about one second foreach (string s in saidisms) { if (sValue.IndexOf(s) > -1) // this did not improve speed { sValue = sValue.Replace(s, ""); } } sValue = sValue.Trim(); output.Add(sValue); } // now check for pronouns /// Regex pronouns = new Regex(@"(\bhe|\bI\b|\bit\b|\bHe\b|\bShe\b|\bshe\b)"); // matches = pronouns.Matches(sContext); ///////////////////////// // // Rules Reference // in case I get confused // // 1. he/she said will trump (includes pronoun he/she but only if followed with a saidism) // 2. then we look for a previous speaker (i.e., if line of dialog before me had a speaker, use that) // 2. then we look for a Name // 3. then we look for the most likely name // ToDo: 4 - just look for presence of pronouns // ToDo: 5. If we still do not have a match we try to match a Pronoun with a Name // ////////////////////////////////////////////////////// ////////////////////////////////////// // // NO MATCH // // 1. Now we get into advanced stuff trying to dig up the talker // ////////////////////////////////////// // if (matches.Count == 0 /*&& bFoundExactlyOne == false*/) { // a. previous speaker. If there is a previous speaker lets try that if (sBeforeSpeaker != "" && sBeforeSpeaker != "none") { // sOutput = sBeforeSpeaker; output.Add(sBeforeSpeaker); // bFoundExactlyOne = true; confidence = 0.40; } // Was there a name of a 'Character' on the previous or next line? // if so, add to output MatchCollection nameMatches = nameRegex.Matches(sBefore + sAfter); if (nameMatches.Count > 0) { // we found a copy name matches foreach (Match match in nameMatches) { output.Add(match.Value); } } } ////////////////////////////////////////////// // // Pronouns // // Just look for presence of pronouns if still can't find matches // ///////////////////////////////////////////// if (output.Count == 0) { MatchCollection pronounMatches = pronounRegex.Matches( (sBefore + sAfter).ToLower()); if (pronounMatches.Count > 0) { // we found a copy name matches foreach (Match match in pronounMatches) { output.Add(match.Value); } if (output.Count == 1) { confidence = 0.14; /* bFoundExactlyOne = true;*/ } else if (output.Count > 1) { confidence = 0.08; } } } if (output.Count == 1) { confidence = 0.90; } /////////////////////////////////////////////// // // Pronoun Replacement // // We replace pronouns with proper nouns // // so at this point we have hesaid with He, Her, et cetera // we replace each with a name // // // ////////////////////////////////////////////// // a. If IsPronoun for (int matchCount = 0; matchCount < output.Count; matchCount++) { Relationship bestRelationship = kb.GetMostLikelyDeducedFact( output[matchCount].ToString().ToLower(), sContext, GETSPEAKER_CONTEXTWEIGHT); // now we REPLACE WITH a relationship match if there is one if (bestRelationship != null && output[matchCount].ToString() != bestRelationship.B) { string sMes = "";// String.Format("Dialog: {0} Context: {1}", sSource, sContext); lg.Instance.Line("WriteThink->GetSpeaker", ProblemType.MESSAGE, output[matchCount] + " has been replaced by "+ bestRelationship.B + " "+ sMes ); output[matchCount] = bestRelationship.B; confidence = 0.03; } } // for ///////////////////////////////////////// // // TOO MANY MATCHES // // 1. Now we isolate who might have (logically) spoken // // A. Are they the same? // B. Now the same? Pick most likely // //////////////////////////////////////////// // - Too many still? Consolidate down to one if possible if (output.Count > 1) { // Are they all the same? If so, pass with a reasonable confidence // sort and if first and lst entry are the same we are just one output.Sort(); if (output[0].ToString() == output[output.Count - 1].ToString()) { string svalue = output[0].ToString(); output.Clear(); output.Add(svalue); // add value back into cleared list confidence = 0.50; } } if (output.Count > 1) // only should trigger if we hav emore than 1 { { // now we attempt to see which pronoun, noun, was mentioned most and use that Hashtable hash = new Hashtable(); foreach (string s in output) { int nValue = 1; if (hash.ContainsKey(s)) { nValue = (int)hash[s]; nValue++; hash[s] = nValue; } else hash.Add(s, nValue); } string sMaxValue = ""; int nMaxValue = -1; foreach (DictionaryEntry dict in hash) { if ((int)dict.Value > nMaxValue) { sMaxValue = dict.Key.ToString(); nMaxValue = (int)dict.Value; } } // okay now we have a max value output.Clear(); if (sMaxValue == "I") { // int breaker = 9; } output.Add(sMaxValue); Console.WriteLine(output.ToString()); confidence = 0.15; } } if (output.Count < 1) { lg.Instance.Line("WriteThink->GetSpeaker", ProblemType.MESSAGE,"no match found " + "pick most popular"); output.Add(CharacterInDialogClass.GetMostLikelyName(characters, CharacterInDialogClass.gender.any)); } string sOutput = ""; // transfoer to string foreach (string s in output) { if (output.Count > 1) { throw new Exception("At this point there should only be one match"); } // convert returned name to NAME (i.e., an alias of doctor turns into Rutger) string sdelimiter = ""; if (sOutput != "") { sdelimiter = ", "; } sOutput = sOutput + sdelimiter + CharacterInDialogClass.GetNameFromAlias(s, characters); } return sOutput; }
public void AssignStartEndCity(int TourId, ArrayList STARTENDCITY) { TourmasterStoreprocedures objempentity = new TourmasterStoreprocedures(); objempentity.AssignCountry(TourId, STARTENDCITY.ToString()); }
internal ArrayList GetWindow( GetWindowCmdletBase cmdlet, // 20130513 bool win32, Process[] processes, string[] processNames, int[] processIds, string[] windowNames, string automationId, string className, bool testMode) { ArrayList aeWndCollection = new ArrayList(); cmdlet.WriteVerbose(cmdlet, "getting the root element"); rootElement = System.Windows.Automation.AutomationElement.RootElement; if (rootElement == null) { cmdlet.WriteVerbose(cmdlet, "rootElement == null"); return aeWndCollection; } else { cmdlet.WriteVerbose(cmdlet, "rootElement: " + rootElement.Current); } // 20130529 bool wasFound = false; do { // 20130513 //if (null != processes && processes.Length > 0) { if (win32) { cmdlet.WriteVerbose(cmdlet, "getting a window via Win32 API"); aeWndCollection = getWindowCollectionViaWin32(cmdlet.First, cmdlet.Recurse, cmdlet.Name, cmdlet.AutomationId, cmdlet.Class); } else if (null != processes && processes.Length > 0) { cmdlet.WriteVerbose(cmdlet, "getting a window by process"); aeWndCollection = getWindowCollectionFromProcess(processes, cmdlet.First, cmdlet.Recurse, cmdlet.Name, cmdlet.AutomationId, cmdlet.Class); } else if (null != processIds && processIds.Length > 0) { cmdlet.WriteVerbose(cmdlet, "getting a window by PID"); aeWndCollection = getWindowCollectionByPID(processIds, cmdlet.First, cmdlet.Recurse, cmdlet.Name, cmdlet.AutomationId, cmdlet.Class); } else if (null != processNames && processNames.Length > 0) { cmdlet.WriteVerbose(cmdlet, "getting a window by name"); aeWndCollection = getWindowCollectionByProcessName(processNames, cmdlet.First, cmdlet.Recurse, cmdlet.Name, cmdlet.AutomationId, cmdlet.Class); } else if ((null != windowNames && windowNames.Length > 0) || (null != automationId && 0 < automationId.Length) || (null != className && 0 < className.Length)) { cmdlet.WriteVerbose(cmdlet, "getting a window by name, automationId, className"); aeWndCollection = getWindowCollectionByName(windowNames, automationId, className, cmdlet.Recurse); } // 20130228 // filtering result window collection by SearchCriteria if (null != aeWndCollection && 0 < aeWndCollection.Count) { cmdlet.WriteVerbose(cmdlet, "one or several windows were found by name, process name, process id or process object"); if (null != cmdlet.SearchCriteria && 0 < cmdlet.SearchCriteria.Length) { cmdlet.WriteVerbose(cmdlet, "processing SearchCriteria"); aeWndCollection = cmdlet.getFiltredElementsCollection( cmdlet, aeWndCollection); } } // filtering result window collection by having a control(s) with properties as from WithControl if (null != aeWndCollection && 0 < aeWndCollection.Count) { cmdlet.WriteVerbose(cmdlet, "one or several windows were not excluded by SearchCriteria"); if (null != cmdlet.WithControl && 0 < cmdlet.WithControl.Length) { cmdlet.WriteVerbose(cmdlet, "processing WithControl"); ArrayList filteredWindows = new ArrayList(); foreach (AutomationElement window in aeWndCollection) { cmdlet.WriteVerbose(cmdlet, "searching for control(s) for every window, one by one"); GetControlCmdletBase cmdletCtrl = new GetControlCmdletBase(); //cmdletCtrl.InputObject = (AutomationElement[])aeWndCollection.ToArray(); cmdletCtrl.InputObject = // 20130316 //(AutomationElement[])aeWndCollection.ToArray(typeof(AutomationElement)); new AutomationElement[]{ window }; cmdletCtrl.SearchCriteria = cmdlet.WithControl; cmdletCtrl.Timeout = 0; cmdlet.WriteVerbose(cmdlet, "searching for one or more controls"); // 20130301 try { ArrayList controlsList = GetControl(cmdletCtrl); cmdlet.WriteVerbose(cmdlet, "after the search"); if (null != controlsList && 0 < controlsList.Count) { cmdlet.WriteVerbose(cmdlet, "ths list of controls that are on the window is not empty"); filteredWindows.Add(window); } // 20130301 } catch (Exception eWindowIsGone) { // forcing to a next loop aeWndCollection.Clear(); break; } } aeWndCollection = filteredWindows; } } // 20130529 if (cmdlet.WaitNoWindow && wasFound && (null == aeWndCollection || 0 == aeWndCollection.Count)) { cmdlet.Wait = false; } if (cmdlet.WaitNoWindow && !wasFound && null != aeWndCollection && 0 != aeWndCollection.Count) { wasFound = true; aeWndCollection = null; } if (null != aeWndCollection && aeWndCollection.Count > 0) { cmdlet.WriteVerbose(cmdlet, "aeWndCollection != null"); } // 20120123 // checkTimeout(ref aeWnd, true); // 20120824 //checkTimeout(cmdlet, aeWnd, true); checkTimeout(cmdlet, aeWndCollection, true); System.Threading.Thread.Sleep(Preferences.OnSleepDelay); } while (cmdlet.Wait); try { if (null != aeWndCollection && (int)((AutomationElement)aeWndCollection[0]).Current.ProcessId > 0) { cmdlet.WriteVerbose(cmdlet, "" + aeWndCollection.ToString()); cmdlet.WriteVerbose(cmdlet, "aeWnd.Current.GetType() = " + ((AutomationElement)aeWndCollection[0]).GetType().Name); } // 20120127 CurrentData.CurrentWindow = (AutomationElement)aeWndCollection[aeWndCollection.Count -1]; // 20120824 //return aeWnd; //return aeWndCollection; } catch (Exception eEvaluatingWindowAndWritingToPipeline) { //WriteDebug(cmdlet, "exception: " + cmdlet.WriteVerbose( cmdlet, "exception: " + eEvaluatingWindowAndWritingToPipeline.Message); cmdlet.WriteVerbose(this, "<<<< == == writing/nullifying CurrentWindow == == >>>>>"); CurrentData.CurrentWindow = null; } return aeWndCollection; }
public bool BonusMasterAdd(List<BonusMasterQuery> list) { Serial serial = new Serial(); ArrayList arrayList = new ArrayList(); try { //define('SERIAL_ID_BONUS_MASTER', 27); // 購物金流水號 serial = _ISerialDao.GetSerialById(27); for (int i = 0; i < list.Count; i++) { //得到+1後的serialValue,是bonus_master的master_id serial.Serial_Value++; list[i].master_id = Convert.ToUInt32(serial.Serial_Value); //更新serial表 arrayList.Add(_ISerialDao.UpdateAutoIncreament(serial)); //插入BonusMaster數據 arrayList.Add(_IBonusMasterDao.InsertBonusMaster(list[i])); } return _mysqlDao.ExcuteSqls(arrayList); } catch (Exception ex) { throw new Exception("BonusMasterMgr-->BonusMasterAdd-->" + arrayList.ToString() + ex.Message, ex); } }