private NestTypeTable.RowData BinarySearchTypeID(int key, int min, int max) { NestTypeTable.RowData rowData = this.Table[min]; if (rowData.TypeID == key) { return(rowData); } NestTypeTable.RowData rowData2 = this.Table[max]; if (rowData2.TypeID == key) { return(rowData2); } if (max - min <= 1) { return(null); } int num = min + (max - min) / 2; NestTypeTable.RowData rowData3 = this.Table[num]; if (rowData3.TypeID.CompareTo(key) > 0) { return(this.BinarySearchTypeID(key, min, num)); } if (rowData3.TypeID.CompareTo(key) < 0) { return(this.BinarySearchTypeID(key, num, max)); } return(rowData3); }
protected override void ReadLine(BinaryReader reader) { NestTypeTable.RowData rowData = new NestTypeTable.RowData(); base.Read <int>(reader, ref rowData.TypeID, CVSReader.intParse); this.columnno = 0; base.Read <string>(reader, ref rowData.TypeName, CVSReader.stringParse); this.columnno = 1; base.Read <string>(reader, ref rowData.TypeBg, CVSReader.stringParse); this.columnno = 2; base.Read <string>(reader, ref rowData.TypeIcon, CVSReader.stringParse); this.columnno = 3; this.AddRowTypeID(rowData.TypeID, rowData, 0, this.Table.Count - 1); this.columnno = -1; }
protected override bool OnLine(string[] Fields) { NestTypeTable.RowData rowData = new NestTypeTable.RowData(); if (!base.Parse(Fields[this.ColMap[0]], ref rowData.TypeID)) { return(false); } if (!base.Parse(Fields[this.ColMap[1]], ref rowData.TypeName)) { return(false); } if (!base.Parse(Fields[this.ColMap[2]], ref rowData.TypeBg)) { return(false); } if (!base.Parse(Fields[this.ColMap[3]], ref rowData.TypeIcon)) { return(false); } this.AddRowTypeID(rowData.TypeID, rowData, 0, this.Table.Count - 1); return(true); }
private void AddRowTypeID(int key, NestTypeTable.RowData row, int min, int max) { if (this.Table.Count == 0) { this.Table.Add(row); return; } NestTypeTable.RowData rowData = this.Table[min]; if (rowData.TypeID.CompareTo(key) > 0) { this.Table.Insert(min, row); return; } if (rowData.TypeID == key) { XSingleton <XDebug> .singleton.AddErrorLog2("Table: NestTypeTable duplicate id:{0} lineno: {1}", new object[] { key, this.lineno }); return; } NestTypeTable.RowData rowData2 = this.Table[max]; if (rowData2.TypeID.CompareTo(key) < 0) { this.Table.Insert(max + 1, row); return; } if (rowData2.TypeID == key) { XSingleton <XDebug> .singleton.AddErrorLog2("Table: NestTypeTable duplicate id:{0} lineno: {1}", new object[] { key, this.lineno }); return; } if (max - min <= 1) { this.Table.Insert(min + 1, row); return; } int num = min + (max - min) / 2; NestTypeTable.RowData rowData3 = this.Table[num]; if (rowData3.TypeID.CompareTo(key) > 0) { this.AddRowTypeID(key, row, min, num); return; } if (rowData3.TypeID.CompareTo(key) < 0) { this.AddRowTypeID(key, row, num, max); return; } XSingleton <XDebug> .singleton.AddErrorLog2("Table: NestTypeTable duplicate id:{0} lineno: {1}", new object[] { key, this.lineno }); }