public void Read(out double target) { Expect(RawHeader.Double); target = buffer.Double(); Success(); }
private bool print(int depth) { var FieldSize = RawHeader.SizeFull; var FieldSizeStr = ""; Func <RawHeader, bool> func = delegate(RawHeader expected) { var rawHeader = buffer.TrySimple(buffer.NextType(), expected); var hasValue = rawHeader.HasValue; if (hasValue) { FieldSize = rawHeader.Value; FieldSizeStr = ((FieldSize == RawHeader.Size1) ? ":1" : ((FieldSize == RawHeader.Size2) ? ":2" : ((FieldSize == RawHeader.Size3) ? ":3" : ((FieldSize == RawHeader.Size4) ? ":4" : ((FieldSize == RawHeader.Size5) ? ":5" : ((FieldSize == RawHeader.Size6) ? ":6" : ((FieldSize == RawHeader.SizeMask) ? ":7" : " "))))))); } return(rawHeader.HasValue); }; var flag = buffer.EndOfBuffer(); bool result; if (flag) { result = true; } else { var flag2 = func(RawHeader.CloseObject); if (flag2) { print(depth, "}"); print(depth, "ERROR: UNEXPECTED CLOSE OF OBJECT"); result = false; } else { var flag3 = func(RawHeader.CloseArray); if (flag3) { print(depth, "]"); print(depth, "ERROR: UNEXPECTED CLOSE OF ARRAY"); result = false; } else { var flag4 = func(RawHeader.OpenObject); if (flag4) { print(depth, "OBJECT"); print(depth, "{"); while (true) { var flag5 = buffer.EndOfBuffer(); if (flag5) { break; } var flag6 = func(RawHeader.CloseObject); if (flag6) { goto Block_6; } var flag7 = !print(depth + 1); if (flag7) { goto Block_7; } } print(depth + 1, "ERROR: UNEXPECTED END OF BUFFER"); result = false; return(result); Block_6: print(depth, "}"); result = true; return(result); Block_7: result = false; } else { var flag8 = func(RawHeader.OpenArray); if (flag8) { var flag9 = buffer.EndOfBuffer(); if (flag9) { print(depth, "ARRAY[???]"); print(depth, "["); print(depth + 1, "ERROR: UNEXPECTED END OF BUFFER"); result = false; } else { var flag10 = func(RawHeader.Int32); if (flag10) { print(depth, string.Concat("ARRAY[", buffer.Int32(FieldSize), FieldSizeStr, "]")); print(depth, "["); while (true) { var flag11 = buffer.EndOfBuffer(); if (flag11) { break; } var flag12 = func(RawHeader.CloseArray); if (flag12) { goto Block_12; } var flag13 = !print(depth + 1); if (flag13) { goto Block_13; } } print(depth + 1, "ERROR: UNEXPECTED END OF BUFFER"); result = false; return(result); Block_12: print(depth, "]"); result = true; return(result); Block_13: result = false; } else { print(depth, "ARRAY[???]"); print(depth, "["); print(depth + 1, "ERROR: MISSING INT32 FOR ARRAY LENGHT"); result = false; } } } else { var flag14 = func(RawHeader.Null); if (flag14) { print(depth, "NULL NULL"); } else { var flag15 = func(RawHeader.True); if (flag15) { print(depth, "BOOL TRUE"); } else { var flag16 = func(RawHeader.False); if (flag16) { print(depth, "BOOL FALSE"); } else { var flag17 = func(RawHeader.Byte); if (flag17) { print(depth, "BYTE " + buffer.Byte()); } else { var flag18 = func(RawHeader.Char); if (flag18) { print(depth, string.Concat("CHAR", FieldSizeStr, " '", buffer.Char(FieldSize).ToString(), "'")); } else { var flag19 = func(RawHeader.Int16); if (flag19) { print(depth, string.Concat("INT16", FieldSizeStr, " ", buffer.Int16(FieldSize))); } else { var flag20 = func(RawHeader.UInt16); if (flag20) { print(depth, string.Concat("UINT16", FieldSizeStr, " ", buffer.UInt16(FieldSize))); } else { var flag21 = func(RawHeader.Int32); if (flag21) { print(depth, string.Concat("INT32", FieldSizeStr, " ", buffer.Int32(FieldSize))); } else { var flag22 = func(RawHeader.UInt32); if (flag22) { print(depth, string.Concat("UINT32", FieldSizeStr, " ", buffer.UInt32(FieldSize))); } else { var flag23 = func(RawHeader.Int64); if (flag23) { print(depth, string.Concat("INT64", FieldSizeStr, " ", buffer.Int64(FieldSize))); } else { var flag24 = func(RawHeader.UInt64); if (flag24) { print(depth, string.Concat("UINT64", FieldSizeStr, " ", buffer.UInt64(FieldSize))); } else { var flag25 = func(RawHeader.Single); if (flag25) { print(depth, "SINGLE " + buffer.Single()); } else { var flag26 = func(RawHeader.Double); if (flag26) { print(depth, "DOUBLE " + buffer.Double()); } else { var flag27 = func(RawHeader.Decimal); if (flag27) { print(depth, "DECIMAL " + buffer.Decimal()); } else { var flag28 = func(RawHeader.DateTime); if (flag28) { print(depth, "DATETIME " + buffer.DateTime()); } else { var flag29 = func(RawHeader.Time); if (flag29) { print(depth, string.Concat("TIME", FieldSizeStr, " ", buffer.Time(FieldSize))); } else { var flag30 = func(RawHeader.Guid); if (flag30) { print(depth, "GUID " + buffer.Guid()); } else { var flag31 = func(RawHeader.String); if (flag31) { print(depth, string.Concat("STRING", FieldSizeStr, " \"", buffer.String(FieldSize), "\"")); } else { var flag32 = func(RawHeader.ByteArray); if (!flag32) { print(depth, "ERROR: UNEXPECTED TYPE HEADER " + buffer.NextType()); result = false; return(result); } var array = buffer.Bytes(FieldSize); var expr_782 = new object[5]; expr_782[0] = "BYTE["; expr_782[1] = array.Length; expr_782[2] = FieldSizeStr; expr_782[3] = "] "; var arg_7D9_1 = 4; var arg_7D4_0 = " "; expr_782[arg_7D9_1] = string.Join(arg_7D4_0, array.Select(b => b.ToString("X02"))); print(depth, string.Concat(expr_782)); } } } } } } } } } } } } } } } } } } result = true; } } } } } return(result); }