using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace TFT_MelsecMcNet
{
///
/// 所有三菱通讯类的通用辅助工具类,包含了一些通用的静态方法,可以使用本类来获取一些原始的报文信息。详细的操作参见例子
///
public class MelsecHelper
{
#region Melsec Mc
///
/// 解析A1E协议数据地址
///
/// 数据地址
///
public static OperateResult McA1EAnalysisAddress(string address)
{
var result = new OperateResult();
try
{
switch (address[0])
{
case 'X':
case 'x':
{
result.Content1 = MelsecA1EDataType.X;
result.Content2 = Convert.ToUInt16(address.Substring(1), MelsecA1EDataType.X.FromBase);
break;
}
case 'Y':
case 'y':
{
result.Content1 = MelsecA1EDataType.Y;
result.Content2 = Convert.ToUInt16(address.Substring(1), MelsecA1EDataType.Y.FromBase);
break;
}
case 'M':
case 'm':
{
result.Content1 = MelsecA1EDataType.M;
result.Content2 = Convert.ToUInt16(address.Substring(1), MelsecA1EDataType.M.FromBase);
break;
}
case 'S':
case 's':
{
result.Content1 = MelsecA1EDataType.S;
result.Content2 = Convert.ToUInt16(address.Substring(1), MelsecA1EDataType.S.FromBase);
break;
}
case 'D':
case 'd':
{
result.Content1 = MelsecA1EDataType.D;
result.Content2 = Convert.ToUInt16(address.Substring(1), MelsecA1EDataType.D.FromBase);
break;
}
case 'R':
case 'r':
{
result.Content1 = MelsecA1EDataType.R;
result.Content2 = Convert.ToUInt16(address.Substring(1), MelsecA1EDataType.R.FromBase);
break;
}
default: throw new Exception(StringResources.Language.NotSupportedDataType);
}
}
catch (Exception ex)
{
result.Message = ex.Message;
return result;
}
result.IsSuccess = true;
return result;
}
///
/// 从三菱地址,是否位读取进行创建读取的MC的核心报文
///
/// 是否进行了位读取操作
/// 三菱Mc协议的数据地址
/// 带有成功标识的报文对象
public static byte[] BuildReadMcCoreCommand(McAddressData addressData, bool isBit)
{
byte[] command = new byte[10];
command[0] = 0x01; // 批量读取数据命令
command[1] = 0x04;
command[2] = isBit ? (byte)0x01 : (byte)0x00; // 以点为单位还是字为单位成批读取
command[3] = 0x00;
command[4] = BitConverter.GetBytes(addressData.AddressStart)[0]; // 起始地址的地位
command[5] = BitConverter.GetBytes(addressData.AddressStart)[1];
command[6] = BitConverter.GetBytes(addressData.AddressStart)[2];
command[7] = addressData.McDataType.DataCode; // 指明读取的数据
command[8] = (byte)(addressData.Length % 256); // 软元件的长度
command[9] = (byte)(addressData.Length / 256);
return command;
}
///
/// 从三菱地址,是否位读取进行创建读取Ascii格式的MC的核心报文
///
/// 三菱Mc协议的数据地址
/// 是否进行了位读取操作
/// 带有成功标识的报文对象
public static byte[] BuildAsciiReadMcCoreCommand(McAddressData addressData, bool isBit)
{
byte[] command = new byte[20];
command[0] = 0x30; // 批量读取数据命令
command[1] = 0x34;
command[2] = 0x30;
command[3] = 0x31;
command[4] = 0x30; // 以点为单位还是字为单位成批读取
command[5] = 0x30;
command[6] = 0x30;
command[7] = isBit ? (byte)0x31 : (byte)0x30;
command[8] = Encoding.ASCII.GetBytes(addressData.McDataType.AsciiCode)[0]; // 软元件类型
command[9] = Encoding.ASCII.GetBytes(addressData.McDataType.AsciiCode)[1];
command[10] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[0]; // 起始地址的地位
command[11] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[1];
command[12] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[2];
command[13] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[3];
command[14] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[4];
command[15] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[5];
command[16] = SoftBasic.BuildAsciiBytesFrom(addressData.Length)[0]; // 软元件点数
command[17] = SoftBasic.BuildAsciiBytesFrom(addressData.Length)[1];
command[18] = SoftBasic.BuildAsciiBytesFrom(addressData.Length)[2];
command[19] = SoftBasic.BuildAsciiBytesFrom(addressData.Length)[3];
return command;
}
///
/// 以字为单位,创建数据写入的核心报文
///
/// 三菱Mc协议的数据地址
/// 实际的原始数据信息
/// 带有成功标识的报文对象
public static byte[] BuildWriteWordCoreCommand(McAddressData addressData, byte[] value)
{
if (value == null) value = new byte[0];
byte[] command = new byte[10 + value.Length];
command[0] = 0x01; // 批量写入数据命令
command[1] = 0x14;
command[2] = 0x00; // 以字为单位成批读取
command[3] = 0x00;
command[4] = BitConverter.GetBytes(addressData.AddressStart)[0]; // 起始地址的地位
command[5] = BitConverter.GetBytes(addressData.AddressStart)[1];
command[6] = BitConverter.GetBytes(addressData.AddressStart)[2];
command[7] = addressData.McDataType.DataCode; // 指明写入的数据
command[8] = (byte)(value.Length / 2 % 256); // 软元件长度的地位
command[9] = (byte)(value.Length / 2 / 256);
value.CopyTo(command, 10);
return command;
}
///
/// 以字为单位,创建ASCII数据写入的核心报文
///
/// 三菱Mc协议的数据地址
/// 实际的原始数据信息
/// 带有成功标识的报文对象
public static byte[] BuildAsciiWriteWordCoreCommand(McAddressData addressData, byte[] value)
{
if (value == null) value = new byte[0];
byte[] buffer = new byte[value.Length * 2];
for (int i = 0; i < value.Length / 2; i++)
{
SoftBasic.BuildAsciiBytesFrom(BitConverter.ToUInt16(value, i * 2)).CopyTo(buffer, 4 * i);
}
value = buffer;
byte[] command = new byte[20 + value.Length];
command[0] = 0x31; // 批量写入的命令
command[1] = 0x34;
command[2] = 0x30;
command[3] = 0x31;
command[4] = 0x30; // 子命令
command[5] = 0x30;
command[6] = 0x30;
command[7] = 0x30;
command[8] = Encoding.ASCII.GetBytes(addressData.McDataType.AsciiCode)[0]; // 软元件类型
command[9] = Encoding.ASCII.GetBytes(addressData.McDataType.AsciiCode)[1];
command[10] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[0]; // 起始地址的地位
command[11] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[1];
command[12] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[2];
command[13] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[3];
command[14] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[4];
command[15] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[5];
command[16] = SoftBasic.BuildAsciiBytesFrom((ushort)(value.Length / 4))[0]; // 软元件点数
command[17] = SoftBasic.BuildAsciiBytesFrom((ushort)(value.Length / 4))[1];
command[18] = SoftBasic.BuildAsciiBytesFrom((ushort)(value.Length / 4))[2];
command[19] = SoftBasic.BuildAsciiBytesFrom((ushort)(value.Length / 4))[3];
value.CopyTo(command, 20);
return command;
}
///
/// 以位为单位,创建数据写入的核心报文
///
/// 三菱Mc协议的数据地址
/// 原始的bool数组数据
/// 带有成功标识的报文对象
public static byte[] BuildWriteBitCoreCommand(McAddressData addressData, bool[] value)
{
if (value == null) value = new bool[0];
byte[] buffer = TransBoolArrayToByteData(value);
byte[] command = new byte[10 + buffer.Length];
command[0] = 0x01; // 批量写入数据命令
command[1] = 0x14;
command[2] = 0x01; // 以位为单位成批写入
command[3] = 0x00;
command[4] = BitConverter.GetBytes(addressData.AddressStart)[0]; // 起始地址的地位
command[5] = BitConverter.GetBytes(addressData.AddressStart)[1];
command[6] = BitConverter.GetBytes(addressData.AddressStart)[2];
command[7] = addressData.McDataType.DataCode; // 指明写入的数据
command[8] = (byte)(value.Length % 256); // 软元件长度的地位
command[9] = (byte)(value.Length / 256);
buffer.CopyTo(command, 10);
return command;
}
///
/// 以位为单位,创建ASCII数据写入的核心报文
///
/// 三菱Mc协议的数据地址
/// 原始的bool数组数据
/// 带有成功标识的报文对象
public static byte[] BuildAsciiWriteBitCoreCommand(McAddressData addressData, bool[] value)
{
if (value == null) value = new bool[0];
byte[] buffer = value.Select(m => m ? (byte)0x31 : (byte)0x30).ToArray();
byte[] command = new byte[20 + buffer.Length];
command[0] = 0x31; // 批量写入的命令
command[1] = 0x34;
command[2] = 0x30;
command[3] = 0x31;
command[4] = 0x30; // 子命令
command[5] = 0x30;
command[6] = 0x30;
command[7] = 0x31;
command[8] = Encoding.ASCII.GetBytes(addressData.McDataType.AsciiCode)[0]; // 软元件类型
command[9] = Encoding.ASCII.GetBytes(addressData.McDataType.AsciiCode)[1];
command[10] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[0]; // 起始地址的地位
command[11] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[1];
command[12] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[2];
command[13] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[3];
command[14] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[4];
command[15] = BuildBytesFromAddress(addressData.AddressStart, addressData.McDataType)[5];
command[16] = SoftBasic.BuildAsciiBytesFrom((ushort)(value.Length))[0]; // 软元件点数
command[17] = SoftBasic.BuildAsciiBytesFrom((ushort)(value.Length))[1];
command[18] = SoftBasic.BuildAsciiBytesFrom((ushort)(value.Length))[2];
command[19] = SoftBasic.BuildAsciiBytesFrom((ushort)(value.Length))[3];
buffer.CopyTo(command, 20);
return command;
}
#endregion
#region Common Logic
///
/// 从三菱的地址中构建MC协议的6字节的ASCII格式的地址
///
/// 三菱地址
/// 三菱的数据类型
/// 6字节的ASCII格式的地址
internal static byte[] BuildBytesFromAddress(int address, MelsecMcDataType type)
{
return Encoding.ASCII.GetBytes(address.ToString(type.FromBase == 10 ? "D6" : "X6"));
}
///
/// 将0,1,0,1的字节数组压缩成三菱格式的字节数组来表示开关量的
///
/// 原始的数据字节
/// 压缩过后的数据字节
internal static byte[] TransBoolArrayToByteData(byte[] value)
{
int length = (value.Length + 1) / 2;
byte[] buffer = new byte[length];
for (int i = 0; i < length; i++)
{
if (value[i * 2 + 0] != 0x00) buffer[i] += 0x10;
if ((i * 2 + 1) < value.Length)
{
if (value[i * 2 + 1] != 0x00) buffer[i] += 0x01;
}
}
return buffer;
}
///
/// 将bool的组压缩成三菱格式的字节数组来表示开关量的
///
/// 原始的数据字节
/// 压缩过后的数据字节
internal static byte[] TransBoolArrayToByteData(bool[] value)
{
int length = (value.Length + 1) / 2;
byte[] buffer = new byte[length];
for (int i = 0; i < length; i++)
{
if (value[i * 2 + 0]) buffer[i] += 0x10;
if ((i * 2 + 1) < value.Length)
{
if (value[i * 2 + 1]) buffer[i] += 0x01;
}
}
return buffer;
}
#endregion
#region CRC Check
///
/// 计算Fx协议指令的和校验信息
///
/// 字节数据
/// 校验之后的数据
internal static byte[] FxCalculateCRC(byte[] data)
{
int sum = 0;
for (int i = 1; i < data.Length - 2; i++)
{
sum += data[i];
}
return SoftBasic.BuildAsciiBytesFrom((byte)sum);
}
///
/// 检查指定的和校验是否是正确的
///
/// 字节数据
/// 是否成功
internal static bool CheckCRC(byte[] data)
{
byte[] crc = FxCalculateCRC(data);
if (crc[0] != data[data.Length - 2]) return false;
if (crc[1] != data[^1]) return false;
return true;
}
#endregion
}
}