public DataSerie1D Aggregate(int countStep) { DataSerie1D result_ds = null; if (countStep < 1) { return(null); } if (Equals(mData, null)) { return(null); } if (Count < 1) { return(null); } result_ds = new DataSerie1D(); int count = Count; double summ = 0; if (count <= countStep) { for (int i = 0; i < count; i++) { summ += mData[i].X_Value; } result_ds.Add("1", summ); } else { summ = 0; int rest = 0; int aggregCount = 1; for (int i = 0; i < count; i++) { summ += mData[i].X_Value; aggregCount = Math.DivRem((i + 1), countStep, out rest); if (rest == 0) { result_ds.Add(aggregCount.ToString(), summ); summ = 0; } } summ = 0; aggregCount = Math.DivRem(count, countStep, out rest); for (int i = (count - rest); i < count; i++) { summ += mData[i].X_Value; } result_ds.Add((aggregCount + 1).ToString(), summ); } return(result_ds); }
private static double[][] Convert(DataSerie1D ds1) { int iCount = ds1.Data.Count; double[][] result = new double[iCount][]; for (int i = 0; i < iCount; i++) { result[i] = new double[] { ds1.Data[i].X_Value }; } return(result); }
public DataSerie1D ConvertToDS1() { if (object.Equals(mData, null)) { return(null); } DataSerie1D ds1 = new DataSerie1D(); foreach (DataItemTD itm in this.Data) { ds1.Add(itm.Title, itm.List[0]); } return(ds1); }
public static DataSerie1D Convert(double[] source) { if (Equals(source, null)) { return(null); } DataSerie1D result = new DataSerie1D(); int iCount = source.GetLength(0); if (iCount > 0) { for (int i = 0; i < iCount; i++) { result.Add(i.ToString(), source[i]); } } return(result); }