private void BuildTableSorted() { if (this.sortMode == Window_DebugTable.SortMode.Off) { this.tableSorted = this.tableRaw; } else { List <List <string> > list = new List <List <string> >(); for (int i = 1; i < this.tableRaw.GetLength(1); i++) { list.Add(new List <string>()); for (int j = 0; j < this.tableRaw.GetLength(0); j++) { list[i - 1].Add(this.tableRaw[j, i]); } } NumericStringComparer comparer = new NumericStringComparer(); Window_DebugTable.SortMode sortMode = this.sortMode; if (sortMode != Window_DebugTable.SortMode.Ascending) { if (sortMode != Window_DebugTable.SortMode.Descending) { if (sortMode == Window_DebugTable.SortMode.Off) { throw new Exception(); } } else { list = list.OrderByDescending((List <string> x) => x[this.sortColumn], comparer).ToList <List <string> >(); } } else { list = list.OrderBy((List <string> x) => x[this.sortColumn], comparer).ToList <List <string> >(); } this.tableSorted = new string[this.tableRaw.GetLength(0), this.tableRaw.GetLength(1)]; for (int k = 0; k < this.tableRaw.GetLength(1); k++) { for (int l = 0; l < this.tableRaw.GetLength(0); l++) { if (k == 0) { this.tableSorted[l, k] = this.tableRaw[l, k]; } else { this.tableSorted[l, k] = list[k - 1][l]; } } } } this.colWidths.Clear(); for (int m = 0; m < this.tableRaw.GetLength(0); m++) { float item; if (this.colVisible[m]) { float num = 0f; for (int n = 0; n < this.tableRaw.GetLength(1); n++) { string text = this.tableRaw[m, n]; float x2 = Text.CalcSize(text).x; if (x2 > num) { num = x2; } } item = num + 2f; } else { item = 10f; } this.colWidths.Add(item); } this.rowHeights.Clear(); for (int num2 = 0; num2 < this.tableSorted.GetLength(1); num2++) { float num3 = 0f; for (int num4 = 0; num4 < this.tableSorted.GetLength(0); num4++) { string text2 = this.tableSorted[num4, num2]; float y = Text.CalcSize(text2).y; if (y > num3) { num3 = y; } } this.rowHeights.Add(num3 + 2f); } }
private void BuildTableSorted() { if (sortMode == SortMode.Off) { tableSorted = tableRaw; } else { List <List <string> > list = new List <List <string> >(); for (int i = 1; i < tableRaw.GetLength(1); i++) { list.Add(new List <string>()); for (int j = 0; j < tableRaw.GetLength(0); j++) { list[i - 1].Add(tableRaw[j, i]); } } NumericStringComparer comparer = new NumericStringComparer(); switch (sortMode) { case SortMode.Ascending: list = list.OrderBy((List <string> x) => x[sortColumn], comparer).ToList(); break; case SortMode.Descending: list = list.OrderByDescending((List <string> x) => x[sortColumn], comparer).ToList(); break; case SortMode.Off: throw new Exception(); } tableSorted = new string[tableRaw.GetLength(0), tableRaw.GetLength(1)]; for (int k = 0; k < tableRaw.GetLength(1); k++) { for (int l = 0; l < tableRaw.GetLength(0); l++) { if (k == 0) { tableSorted[l, k] = tableRaw[l, k]; } else { tableSorted[l, k] = list[k - 1][l]; } } } } colWidths.Clear(); for (int m = 0; m < tableRaw.GetLength(0); m++) { float item; if (colVisible[m]) { float num = 0f; for (int n = 0; n < tableRaw.GetLength(1); n++) { float x2 = Text.CalcSize(tableRaw[m, n]).x; if (x2 > num) { num = x2; } } item = num + 2f; } else { item = 10f; } colWidths.Add(item); } rowHeights.Clear(); for (int num2 = 0; num2 < tableSorted.GetLength(1); num2++) { float num3 = 0f; for (int num4 = 0; num4 < tableSorted.GetLength(0); num4++) { float y = Text.CalcSize(tableSorted[num4, num2]).y; if (y > num3) { num3 = y; } } rowHeights.Add(num3 + 2f); } }
private void BuildTableSorted() { if (sortMode == SortMode.Off) { tableSorted = tableRaw; } else { List <List <string> > list = new List <List <string> >(); for (int i = 1; i < tableRaw.GetLength(1); i++) { list.Add(new List <string>()); for (int j = 0; j < tableRaw.GetLength(0); j++) { list[i - 1].Add(tableRaw[j, i]); } } NumericStringComparer comparer = new NumericStringComparer(); switch (sortMode) { case SortMode.Ascending: list = list.OrderBy((List <string> x) => x[sortColumn], comparer).ToList(); break; case SortMode.Descending: list = list.OrderByDescending((List <string> x) => x[sortColumn], comparer).ToList(); break; case SortMode.Off: throw new Exception(); } tableSorted = new string[tableRaw.GetLength(0), tableRaw.GetLength(1)]; for (int k = 0; k < tableRaw.GetLength(1); k++) { for (int l = 0; l < tableRaw.GetLength(0); l++) { if (k == 0) { string[,] array = tableSorted; int num = l; int num2 = k; string text = tableRaw[l, k]; array[num, num2] = text; } else { string[,] array2 = tableSorted; int num3 = l; int num4 = k; string text2 = list[k - 1][l]; array2[num3, num4] = text2; } } } } colWidths.Clear(); for (int m = 0; m < tableRaw.GetLength(0); m++) { float item; if (colVisible[m]) { float num5 = 0f; for (int n = 0; n < tableRaw.GetLength(1); n++) { string text3 = tableRaw[m, n]; Vector2 vector = Text.CalcSize(text3); float x2 = vector.x; if (x2 > num5) { num5 = x2; } } item = num5 + 2f; } else { item = 10f; } colWidths.Add(item); } rowHeights.Clear(); for (int num6 = 0; num6 < tableSorted.GetLength(1); num6++) { float num7 = 0f; for (int num8 = 0; num8 < tableSorted.GetLength(0); num8++) { string text4 = tableSorted[num8, num6]; Vector2 vector2 = Text.CalcSize(text4); float y = vector2.y; if (y > num7) { num7 = y; } } rowHeights.Add(num7 + 2f); } }