/// <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(); }
/// <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(); }
//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; }
public void NewRound() // this should tell the ui to clear (if everything works). { Scores.Clear(); CardList.Clear(); TempList.Clear(); }
/// <summary> /// Get information abount all available games /// </summary> public void GetAvailableGamesInfo() { var isContinueGames = _parseService.GetUserGamesInfo(); _page.Dispatcher.Invoke(() => { if (isContinueGames && UserName != null) { foreach (var parsedItem in _parseService.UserGames) { UserGames.Add(parsedItem); } } else { MessageBox.Show("No entered user", "No user error"); return; } if (ViewModelHelper.DigGames.Count != 0) { var tempList = ViewModelHelper.DigGames .Where(item => !UserGames.Contains(item)) .ToList(); TempList = tempList; var twmpList = new int[ViewModelHelper.DigGames.Count]; for (int i = 0; i < ViewModelHelper.DigGames.Count; i++) { if (!UserGames.Any(x => x == ViewModelHelper.DigGames[i])) { twmpList[i] = i; } else { twmpList[i] = 0; } } PricesAll.Clear(); PricesAll.Add(0.05); for (int i = 0; i < twmpList.Length; i++) { if (twmpList[i] != 0) { PricesAll.Add(ViewModelHelper.PricesAll[i]); } } GamesAllSumm = Math.Round(PricesAll.Sum(), 3); AmountGamesAll = TempList.Distinct().Count(); for (var i = 0; i < TempList.Count; i++) { if (!UserAllGamesDict.ContainsKey(TempList[i])) { UserAllGamesDict.Add(TempList[i], PricesAll[i]); } } /// write user all info into helper class ViewModelHelper.AllGamesUserHelper = AmountGamesAll; ViewModelHelper.AllGamesUserPriceHelper = GamesAllSumm; ViewModelHelper.UserName = UserName; TempList.Clear(); ListViewSourse.Clear(); foreach (var item in UserAllGamesDict) { ListViewSourse.Add($"Game: {item.Key} | Price: ${item.Value}"); } CanCloseSaveAll = true; } else { MessageBox.Show("No games from DIG", "No dig games error"); return; } CanCloseAvailableAllCards = true; }); }
private void ResetList() { TempList.Clear(); }
static int ComputerTurn(List <int> diceRolls) { diceRolls.Clear(); int PointsTurn = 0, Points = 0, DiceRoll = 0; List <int> TempList; var rand = new Random(); while (diceRolls.Count < 6) { if (diceRolls.Count == 0) { diceRolls = new List <int>() { rand.Next(1, 7), rand.Next(1, 7), rand.Next(1, 7), rand.Next(1, 7), rand.Next(1, 7), rand.Next(1, 7) }; Console.WriteLine($"The computer rolled: {diceRolls[0]}, {diceRolls[1]}, {diceRolls[2]}, {diceRolls[3]}, {diceRolls[4]}, {diceRolls[5]}"); TempList = PickNumbers(diceRolls); Points = ScoreNumbers(TempList); diceRolls.Clear(); foreach (var number in TempList) { diceRolls.Add(number); } TempList.Clear(); Console.Write("The computer kept numbers "); foreach (var number in diceRolls) { Console.Write(number + ", "); } Console.Write($"for a total of {Points} points."); Console.WriteLine(); PointsTurn = Points; } else { TempList = new List <int>(); Points = 0; Console.Write("The computer rolled: "); for (int i = 0; i < 6 - diceRolls.Count; i++) { DiceRoll = rand.Next(1, 7); TempList.Add(DiceRoll); Console.Write(DiceRoll + ", "); } TempList = PickNumbers(TempList); Points += ScoreNumbers(TempList); Console.Write("The computer kept numbers "); foreach (var number in TempList) { Console.Write(number + ", "); diceRolls.Add(number); } Console.Write($"for a total of {Points} points."); Console.WriteLine(); PointsTurn += Points; } } Console.WriteLine($"The computer scored a total of {PointsTurn} points this turn"); return(PointsTurn); }
// private void updateGraph(){ // double[] y_1 = null; // double[] y_2 = null; // double[] xs = null; // double step = FrequencyManager.Frequency; // lock (LockFinilizeUpdateData) { // if (UnderSample < 1) UnderSample = 1; // if (UnderSample >= _numOfPointsToPlot) UnderSample = (int)(_numOfPointsToPlot / 10); // var newPoints = _workingPackets.Where((n,i)=>i%UnderSample==0).Select( // data => new XY1Y2Point( // 0, // ((Int16)((data[5] << 8) + data[4])) * Math.Pow(2, -15) * Multiply, // ((Int16)((data[7] << 8) + data[6])) * Math.Pow(2, -15) * Multiply2 // )); // _ploted.AddRange(newPoints); // _workingPackets.Clear(); // //_working data may now be changed // SemUpdateData.Release(); // if (_numOfPointsToPlot/UnderSample < _ploted.Count) { // _ploted.RemoveRange(0, (int)(_ploted.Count - _numOfPointsToPlot/UnderSample)); // } // y_1 = _ploted.Select(y1 => y1.Y1).ToArray(); // y_2 = _ploted.Select(y2 => y2.Y2).ToArray(); // xs = _ploted.Select((n, i) => i * step*UnderSample).ToArray(); // //_plotted may now be changed // } // lock(LockUpdateDataSeries){ // try { // using (_series0.SuspendUpdates()) { // using (_series1.SuspendUpdates()) { // _series0.Clear(); // _series1.Clear(); // _series0.Append(xs, y_1); // _series1.Append(xs, y_2); // } // } // } catch (NullReferenceException) { // //may happen when closing the window, we don't care for this one // } catch (Exception e) { Debugger.Break(); } // }//release lock //} //private void dataReceivedFT1__(byte[] data){ // if (Freeze) return; // lock (MonitordataReceived) { // _receivingPackets.Add(data); // _receivedSinceLastUpdate++; // if (_receivedSinceLastUpdate >= _numOfPointsToRefresh){ // lock (MonitorupdateSeries) { // SemUpdateData.WaitOne(); // _workingPackets = _receivingPackets; // int index = _receivedPackets.IndexOf(_receivingPackets); // if (index == (_receivedPackets.Count - 1)) _receivingPackets = _receivedPackets[0]; // else _receivingPackets = _receivedPackets[index + 1]; // _receivingPackets.Clear(); // _receivedSinceLastUpdate = 0; // IsScrollingVisible = false; // Task.Factory.StartNew(action: updateGraph); // } // } // } //} // private void updateGraph__(){ // double[] y_1 = null; // double[] y_2 = null; // double[] xs = null; // double step = FrequencyManager.Frequency; // lock (LockFinilizeUpdateData) { // if (UnderSample < 1) UnderSample = 1; // if (UnderSample >= _numOfPointsToPlot) UnderSample = (int)(_numOfPointsToPlot / 10); // var newPoints = _workingPackets.Where((n,i)=>i%UnderSample==0).Select( // data => new XY1Y2Point( // 0, // ((Int16)((data[5] << 8) + data[4])) * Math.Pow(2, -15) * Multiply, // ((Int16)((data[7] << 8) + data[6])) * Math.Pow(2, -15) * Multiply2 // )); // _ploted.AddRange(newPoints); // _workingPackets.Clear(); // //_working data may now be changed // SemUpdateData.Release(); // if (_numOfPointsToPlot/UnderSample < _ploted.Count) { // _ploted.RemoveRange(0, (int)(_ploted.Count - _numOfPointsToPlot/UnderSample)); // } // y_1 = _ploted.Select(y1 => y1.Y1).ToArray(); // y_2 = _ploted.Select(y2 => y2.Y2).ToArray(); // xs = _ploted.Select((n, i) => i * step*UnderSample).ToArray(); // //_plotted may now be changed // } // lock(LockUpdateDataSeries){ // try { // using (_series0.SuspendUpdates()) { // using (_series1.SuspendUpdates()) { // _series0.Clear(); // _series1.Clear(); // _series0.Append(xs, y_1); // _series1.Append(xs, y_2); // } // } // } catch (NullReferenceException) { // //may happen when closing the window, we don't care for this one // } catch (Exception e) { Debugger.Break(); } // }//release lock //} // private void dataReceivedFT1__(byte[] data){ // if (Freeze) return; // lock (MonitordataReceived) { // _receivingPackets.Add(data); // _receivedSinceLastUpdate++; // if (_receivedSinceLastUpdate >= _numOfPointsToRefresh) { // lock (MonitorupdateSeries) { // _workingPackets = _receivingPackets; // int index = _receivedPackets.IndexOf(_receivingPackets); // if (index == (_receivedPackets.Count - 1)) _receivingPackets = _receivedPackets[0]; // else _receivingPackets = _receivedPackets[index + 1]; // _receivingPackets.Clear(); // _receivedSinceLastUpdate = 0; // } // if (FrequencyManager.IsReadingHistory){ // //IsScrollingVisible = true; // Task.Factory.StartNew(action:updateGraphHistory); // } else{ // IsScrollingVisible = false; // Task.Factory.StartNew(action: updateGraph); // } // } // } // } // private void updateGraph__(){ // double step = FrequencyManager.Frequency; // double currx = 0; // lock (MonitorupdateSeries){ // try { // if (_workingPackets.Count == 0) return; // uint availablePoints = (uint)(_ploted.Count + _workingPackets.Count); // //prepare to receive new points // if (availablePoints > _numOfPointsToPlot){ // if ((ulong)UnderSample >= _numOfPointsToPlot) UnderSample = (int)_numOfPointsToPlot/10; // int removeRange = (int)(availablePoints - _numOfPointsToPlot) - (int)availablePoints%UnderSample; // if (removeRange < 0) removeRange += (int)availablePoints % UnderSample; // if (removeRange > _ploted.Count) { // removeRange -= _ploted.Count; // _ploted.Clear(); // _workingPackets.RemoveRange(0, removeRange); // } else { // _ploted.RemoveRange(0, removeRange); // } // } // foreach (var point in _ploted) { // point.X = currx; // currx += step; // } // foreach (byte[] data in _workingPackets) { // double readyNumber0 = ((Int16)((data[5] << 8) + data[4])) * Math.Pow(2, -15) * Multiply; // double readyNumber1 = ((Int16)((data[7] << 8) + data[6])) * Math.Pow(2, -15) * Multiply2; // _ploted.Add(new XY1Y2Point(currx, readyNumber0, readyNumber1)); // currx += step; // if (IsRecording) { // //Tbl_History.addPoint(new[] { readyNumber0, readyNumber1, curr_x }); // //curr_x += step; // } // } // _workingPackets.Clear(); // using (_series0.SuspendUpdates()) { // using (_series1.SuspendUpdates()) { // //if (_ploted.Count == 0) return; // _series0.Clear(); // _series1.Clear(); // if (UnderSample == 1) { // _series0.Append(_ploted.XData, _ploted.Y1Data); // _series1.Append(_ploted.XData, _ploted.Y2Data); // } else{ // for (int i = 0; i < _ploted.Count; i++){ // if (i % UnderSample == 0){ // _series0.Append(_ploted[i].X, _ploted[i].Y1); // _series1.Append(_ploted[i].X, _ploted[i].Y2); // } // } // } // } // } // } catch (NullReferenceException){ // //may happen when closing the window, we don't care for this one // }catch (Exception e) { Debugger.Break();} // }//release lock //} #region ExcelFunction public void ToExcel <T>(List <T> list, string include = "", string exclude = "") { int count = 0; //Get property collection and set selected property list PropertyInfo[] props = typeof(T).GetProperties(); List <PropertyInfo> propList = GetSelectedProperties(props, include, exclude); //Get simple type name string typeName = GetSimpleTypeName(list); //Convert list to array for selected properties object[,] listArray = new object[list.Count + 1, propList.Count]; //Add property name to array as the first row int colIdx = 0; foreach (var prop in propList) { listArray[0, colIdx] = prop.Name; colIdx++; } //Iterate through data list collection for rows int rowIdx = 1; foreach (var item in list) { colIdx = 0; //Iterate through property collection for columns foreach (var prop in propList) { //Do property value listArray[rowIdx, colIdx] = prop.GetValue(item, null); colIdx++; } rowIdx++; } int MaxRow = rowIdx; try { if (MaxRow > 1040000) { List <T> TempList; string path = "\\Redler\\Charts\\" + DateTime.Now.ToString(); path = (path.Replace('-', ' ')).Replace(':', '_'); //Processing for Excel object oOpt = System.Reflection.Missing.Value; Excel.Application oXL = new Excel.Application(); Excel.Workbooks oWBs = oXL.Workbooks; Excel.Workbook oWB = oWBs.Add(Excel.XlWBATemplate.xlWBATWorksheet); Excel.Worksheet oSheet; for (int i = 0, index = 0; i < MaxRow; i += 1040000, index++) { if ((i + 1040000) < MaxRow) { count = 1040000; } else { count = MaxRow - i - 2; } TempList = list.GetRange(i, count); //Get property collection and set selected property list props = typeof(T).GetProperties(); propList = GetSelectedProperties(props, include, exclude); //Get simple type name typeName = GetSimpleTypeName(TempList); //Convert list to array for selected properties listArray = new object[TempList.Count + 1, propList.Count]; //Add property name to array as the first row colIdx = 0; foreach (var prop in propList) { listArray[0, colIdx] = prop.Name; colIdx++; } //Iterate through data list collection for rows rowIdx = 1; foreach (var item in TempList) { colIdx = 0; //Iterate through property collection for columns foreach (var prop in propList) { //Do property value listArray[rowIdx, colIdx] = prop.GetValue(item, null); colIdx++; } rowIdx++; } oSheet = (Excel.Worksheet)oWB.ActiveSheet; oSheet.Name = typeName + '_' + index.ToString(); Excel.Range oRng = oSheet.get_Range("A1", oOpt).get_Resize(TempList.Count + 1, propList.Count); oRng.set_Value(oOpt, listArray); TempList.Clear(); oSheet = (Excel.Worksheet)oWB.Worksheets.Add(); } //Open Excel oXL.Visible = false; //path += '_' + index.ToString() + '_'; path += ".xlsx"; path = Environment.GetFolderPath(Environment.SpecialFolder.MyDocuments) + path; oWB.SaveAs(path, Excel.XlFileFormat.xlWorkbookDefault); // - , oXL.Workbooks.Close(); oXL.Quit(); Process[] excelProcess; excelProcess = Process.GetProcessesByName("Excel"); excelProcess[0].CloseMainWindow(); excelProcess[0].Refresh(); excelProcess[0].Kill(); } else { //Processing for Excel object oOpt = System.Reflection.Missing.Value; Excel.Application oXL = new Excel.Application(); Excel.Workbooks oWBs = oXL.Workbooks; Excel.Workbook oWB = oWBs.Add(Excel.XlWBATemplate.xlWBATWorksheet); Excel.Worksheet oSheet = (Excel.Worksheet)oWB.ActiveSheet; oSheet.Name = typeName; Excel.Range oRng = oSheet.get_Range("A1", oOpt).get_Resize(list.Count + 1, propList.Count); oRng.set_Value(oOpt, listArray); //Open Excel oXL.Visible = false; string path = "\\Redler\\Charts\\" + DateTime.Now.ToString(); path = (path.Replace('-', ' ')).Replace(':', '_'); path += ".xlsx"; path = Environment.GetFolderPath(Environment.SpecialFolder.MyDocuments) + path; oWB.SaveAs(path, Excel.XlFileFormat.xlWorkbookDefault); // - , oXL.Workbooks.Close(); oXL.Quit(); Process[] excelProcess; excelProcess = Process.GetProcessesByName("Excel"); excelProcess[0].CloseMainWindow(); excelProcess[0].Refresh(); excelProcess[0].Kill(); } } catch { Process[] excelProcess; excelProcess = Process.GetProcessesByName("Excel"); excelProcess[0].CloseMainWindow(); excelProcess[0].Refresh(); excelProcess[0].Kill(); } chartPoints.Clear(); }