public void Foo() { var xs = new TempList <int>(6); xs.Add(10); xs.Add(20); xs.Add(30); xs.Add(40); xs.Add(50); xs.AsSpan().SequenceEqual(new[] { 10, 20, 30, 40, 50 }).Should().BeTrue(); xs.Dispose(); var ys = new TempList <int>(3); foreach (var item in Enumerable.Range(1, 100)) { ys.Add(item); } ys.AsSpan().SequenceEqual(Enumerable.Range(1, 100).ToArray()).Should().BeTrue(); ys.Dispose(); }
protected void DoLoadConfigAutomatically(ConfigFieldInfo field, int index, TempList <IWork> loaders) { if (field.LoadAll) { loaders.Add(new AtomWork(() => ReadAll(index))); } else if (field.FieldMode == ConfigFieldInfo.Mode.CONST) { loaders.Add(new AtomWork(() => ReadConst(index, field.ElemType))); } }
private void TestNaive() { //yes, this method of tracking may seem convoluted with the weird temp lists //this is to keep GC to a minimum, if not zero TempList <MonoBehaviour> stateChanged = null; var e = _naiveTrackerTable.GetEnumerator(); while (e.MoveNext()) { if (e.Current.Key == null) { if (stateChanged == null) { stateChanged = TempCollection.GetList <MonoBehaviour>(); } stateChanged.Add(e.Current.Key); } else if (e.Current.Value != e.Current.Key.isActiveAndEnabled) { if (stateChanged == null) { stateChanged = TempCollection.GetList <MonoBehaviour>(); } stateChanged.Add(e.Current.Key); } } if (stateChanged != null) { for (int i = 0; i < stateChanged.Count; i++) { var c = stateChanged[i]; if (c == null) { this.PurgeCoroutines(c); } else if (c.isActiveAndEnabled) { _naiveTrackerTable[c] = true; this.DealWithEnable(c); } else { _naiveTrackerTable[c] = false; this.DealWithDisable(c); } } stateChanged.Dispose(); } }
/// <summary> /// Updates the data for this node and triggers updates for any connected output nodes. /// </summary> internal override void Update() { var childFolderArrays = GetInputValues(nameof(_childFolders), new object[] { _childFolders }) .OfType <FolderRef[]>() .ToArray(); TempList.Clear(); for (var i = 0; i < childFolderArrays.Length; i++) { var childFolderArray = childFolderArrays[i]; for (var j = 0; j < childFolderArray.Length; j++) { var childFolderRef = childFolderArray[j]; var newFolderRef = new FolderRef { FolderName = Path.Combine(COCEditorConstants.ASSET_ROOT, childFolderRef.FolderName), ShouldGenerateCodeToGetPath = childFolderRef.ShouldGenerateCodeToGetPath }; TempList.Add(newFolderRef); } } TempList.Sort(); _outputFolders = TempList.ToArray(); // Make base call to trigger update on all output ports base.Update(); }
public void setValues(ref T element, int lenght) { //MessageBox.Show("El largo de la lista recibida es : " + lenght); TempList.Add(element); //MessageBox.Show("Se agregado en genericList el valor : " + element); }
/// <summary> /// 添加接货任务 /// </summary> /// <param name="taskid">任务ID </param> /// <param name="loadstation">装货区域</param> /// <param name="unloadstation">卸货区域</param> /// <param name="result">失败原因</param> /// <returns></returns> public bool AddNDCTask(int taskid, string loadstation, string unloadstation, out string result) { if (!VCP9412.Instance.IsConnected) { result = "NDC服务未连接"; return(false); } if (!loadStaDic.TryGetValue(loadstation, out string ndcLoadsta)) { result = "装货点未配置"; return(false); } if (!unLoadStaDic.TryGetValue(unloadstation, out string ndcUnloadsta)) { result = "卸货点未配置"; return(false); } if (Items.Find(c => { return(c._mTask.TASKID == taskid); }) != null) { result = "找到相同任务ID(" + taskid + ")任务,不能再次添加"; return(false); } if (TempList.Find(c => { return(c.TaskID == taskid); }) != null) { result = "找到相同任务ID(" + taskid + ")任务,不能再次添加"; return(false); } TempItem item = new TempItem { Prio = "1", IKey = Ikey++, TaskID = taskid, LoadSite = loadstation, UnloadSite = unloadstation, NdcLoadSite = ndcLoadsta, NdcUnloadSite = ndcUnloadsta }; TempList.Add(item); if (Ikey >= 99) { Ikey = 1; } DoStartOrder(item); //TaskListUpdate(new NdcTaskModel(item));//更新界面数据 result = ""; return(true); }
/// <summary> /// Updates the data for this node and triggers updates for any connected output nodes. /// </summary> internal override void Update() { var isFolderNameValid = !string.IsNullOrEmpty(_folderRef.FolderName); var childFolderArrays = GetInputValues(nameof(_childFolders), new object[0]) .OfType <FolderRef[]>() .ToArray(); var length = childFolderArrays.Sum(x => x.Length); // If there are not any child folders from other nodes present, return this folder as the // array of output folders. if (length == 0 && isFolderNameValid) { _outputFolders = new[] { _folderRef }; } else if (length > 0 && isFolderNameValid) { TempList.Clear(); for (var i = 0; i < childFolderArrays.Length; i++) { var childFolderArray = childFolderArrays[i]; for (var j = 0; j < childFolderArray.Length; j++) { var childFolderRef = childFolderArray[j]; var newFolderRef = new FolderRef { FolderName = Path.Combine(_folderRef.FolderName, childFolderRef.FolderName), ShouldGenerateCodeToGetPath = childFolderRef.ShouldGenerateCodeToGetPath }; TempList.Add(newFolderRef); } } if (_folderRef.ShouldGenerateCodeToGetPath) { TempList.Add(_folderRef); } _outputFolders = TempList.ToArray(); } else { _outputFolders = new FolderRef[0]; } // Make base call to trigger update on all output ports base.Update(); }
private void RefreshMainListPanel() { var tempStack = new LightStack <Card>(); if (TempCardStack is null) { TempCardStack = new LightStack <Card>(); TempStackPanel = new LightStack <UIElement>(); } else { if (MainList != null && MainList.Count > 0) { int i = 0; int upBorder = MainList.Count > countOfCardsInMainStack ? countOfCardsInMainStack : MainList.Count; if (TempCardStack.Count > 0) { TempCardStack.Reverse(); while (TempCardStack.Count >= 1) { TempList.Add(TempCardStack.Pop()); } TempList.Add(TempCardStack.Peek()); } while (i < upBorder) { Card card = MainList.First; TempList.Add(card); positionInMainDeck++; MainList.Remove(card); i++; } TempCardStack.Pop(); } } TempCardStack = tempStack; }
//Fill the Window to the Right private void MoveElement(object sender, RoutedEventArgs e) { TempList.Clear(); VM.ConfigurationList.Clear(); VM.ParamConfigurationList.Clear(); // foreach (var item in FirstList.SelectedItems) { TempList.Add(item.ToString()); VM.ConfigurationList.Add(item.ToString()); } foreach (var item in AlterFirstList.SelectedItems) { TempList.Add(item.ToString()); VM.ParamConfigurationList.Add(item.ToString()); } SecondList.ItemsSource = TempList; }
private static void Dfs(int currentIndex, int lastNum, int[] nums) { if (currentIndex == nums.Length) { if (TempList.Count > 1) { Result.Add(new List <int>(TempList)); } return; } if (nums[currentIndex] >= lastNum) { TempList.Add(nums[currentIndex]); Dfs(currentIndex + 1, nums[currentIndex], nums); TempList.RemoveAt(TempList.Count - 1); } if (nums[currentIndex] != lastNum) { Dfs(currentIndex + 1, lastNum, nums); } }
public void setValue(T element) { //MessageBox.Show("se a añadido el random : " + element); TempList.Add(element); }
/// <summary> /// 重新读取装货点,卸货点对应NDC实际使用信息 /// </summary> public void DoReadSQL() { try { NDCSQLControl control = new NDCSQLControl(); control.ReadWcsNdcSite(out loadStaDic, out unLoadStaDic); control.ReadNDCServerAndIKEY(out IPaddress, out Port, out Ikey); if (control.ReadUnFinishTask(out List <WCS_NDC_TASK> list)) { foreach (var i in list) { if (i.ORDERINDEX == 0) { TempItem item = TempList.Find(c => { return(c.TaskID == i.TASKID || c.IKey == i.IKEY); }); if (item == null) { TempList.Add(new TempItem() { TaskID = i.TASKID, IKey = i.IKEY, LoadSite = i.LOADSITE, UnloadSite = i.UNLOADSITE, RedirectSite = i.REDIRECTSITE, NdcLoadSite = i.NDCLOADSITE, NdcUnloadSite = i.NDCUNLOADSITE, NdcRedirectSite = i.NDCREDIRECTSITE }); } } else { NDCItem item = Items.Find(c => { return(c._mTask.IKEY == i.IKEY || c._mTask.TASKID == i.TASKID || c._mTask.ORDERINDEX == i.ORDERINDEX); }); if (item != null) { item._mTask = i; } else { NDCItem it = new NDCItem() { _mTask = i }; Items.Add(it); CheckCanUpdateTaskList(it); } } } control.DelectUnFinishTaskAfter(); } }catch (Exception e) { Console.WriteLine(e.Message); } }