public char[] EncodeLine(Parser.Line l)
{
var vals = new List <byte>();
switch (l.Type)
{
case Parser.LineType.Header:
return(null); // no definition
case Parser.LineType.Data:
vals.Add((byte)l.Data.Count());
vals.Add((byte)(l.Address >> 8));
vals.Add((byte)(l.Address & 0xff));
vals.Add(CODE_DATA);
vals = vals.Concat(l.Data).ToList();
break;
case Parser.LineType.Offset:
vals.Add(0x02); // byte count
vals.Add(0x00); // address H
vals.Add(0x00); // address L
if ((l.Address & 0xFFF00000) != 0)
{ // xxxx0000H
vals.Add(CODE_EX_LIN_ADDR);
vals.Add((byte)(l.Address >> 24));
vals.Add((byte)(l.Address >> 16));
}
else
{ // 000xxxx0H
vals.Add(CODE_EX_SEG_ADDR);
vals.Add((byte)(l.Address >> 12));
vals.Add((byte)(l.Address >> 4));
}
break;
case Parser.LineType.Termination:
vals.Add(0x00); // byte count
vals.Add(0x00); // address H
vals.Add(0x00); // address L
vals.Add(CODE_EOF);
break;
default:
throw new NotImplementedException();
}
vals.Add(genChecksum(vals));
return(genCharArray(vals));
}
public Parser.Line DecodeLine(char[] a)
{
var l = new Parser.Line();
var vals = genByteArray(a);
var type = vals[0]; // "Sx"
var len = vals[1];
l.Valid = (vals.Length == len + 2) && evalChecksum(vals);
switch (type)
{
case CODE_HEADER:
l.Type = Parser.LineType.Header;
l.Address = (vals[2] << 8) | vals[3];
l.Data = new byte[len - (2 + 1)]; // address(2)+checksum(1)
Array.Copy(vals, 4, l.Data, 0, l.Data.Length);
break;
case CODE_DATA16:
case CODE_TERMINATE16:
l.Type = (type == CODE_DATA16) ? Parser.LineType.Data : Parser.LineType.Termination;
l.Address = (vals[2] << 8) | vals[3];
l.Data = new byte[len - (2 + 1)]; // address(2)+checksum(1)
Array.Copy(vals, 4, l.Data, 0, l.Data.Length);
break;
case CODE_DATA24:
case CODE_TERMINATE24:
l.Type = (type == CODE_DATA24) ? Parser.LineType.Data : Parser.LineType.Termination;
l.Address = (vals[2] << 16) | (vals[3] << 8) | vals[4];
l.Data = new byte[len - (3 + 1)]; // address(3)+checksum(1)
Array.Copy(vals, 5, l.Data, 0, l.Data.Length);
break;
case CODE_DATA32:
case CODE_TERMINATE32:
l.Type = (type == CODE_DATA32)? Parser.LineType.Data: Parser.LineType.Termination;
l.Address = (vals[2] << 24) | (vals[3] << 16) | (vals[4] << 8) | vals[5];
l.Data = new byte[len - (4 + 1)]; // address(4)+checksum(1)
Array.Copy(vals, 6, l.Data, 0, l.Data.Length);
break;
case CODE_COUNT16:
case CODE_COUNT24:
throw new NotImplementedException();
}
return(l);
}
public char[] EncodeLine(Parser.Line l)
{
var vals = new List <byte>();
var len = (byte)(l.Data.Count() + 4);
switch (l.Type)
{
case Parser.LineType.Header:
vals.Add(CODE_HEADER);
vals.Add(len);
vals.Add(0x00);
vals.Add(0x00);
break;
case Parser.LineType.Data:
vals.Add(CODE_DATA24);
vals.Add(len);
vals.Add((byte)(l.Address >> 16));
vals.Add((byte)(l.Address >> 8));
vals.Add((byte)(l.Address & 0xff));
break;
case Parser.LineType.Offset:
return(null); // no definition
case Parser.LineType.Termination:
vals.Add(CODE_TERMINATE24);
vals.Add(len);
vals.Add(0x00);
vals.Add(0x00);
vals.Add(0x00);
break;
default:
throw new NotImplementedException();
}
vals = vals.Concat(l.Data).ToList();
vals.Add(genChecksum(vals));
return(genCharArray(vals));
}
public Parser.Line DecodeLine(char[] a)
{
var l = new Parser.Line();
var vals = genByteArray(a);
var len = vals[0];
l.Valid = (vals.Length == len + 5) && evalChecksum(vals);
var addr = (vals[1] << 8) | vals[2];
switch (vals[3])
{
case CODE_DATA:
l.Type = Parser.LineType.Data;
l.Address = addr;
l.Data = new byte[len];
Array.Copy(vals, 4, l.Data, 0, len);
break;
case CODE_EOF:
l.Type = Parser.LineType.Termination;
break;
case CODE_EX_SEG_ADDR:
l.Type = Parser.LineType.Offset;
if (len != 2)
{
l.Valid = false;
}
else
{
l.Address = (vals[4] << 12) | (vals[5] << 4);
}
break;
case CODE_ST_SEG_ADDR:
if (len != 4)
{
l.Valid = false;
}
else
{
_regCS = ((uint)vals[4] << 8) | ((uint)vals[5] << 0);
_regIP = ((uint)vals[6] << 8) | ((uint)vals[7] << 0);
}
break;
case CODE_EX_LIN_ADDR:
l.Type = Parser.LineType.Offset;
if (len != 2)
{
l.Valid = false;
}
else
{
l.Address = (vals[4] << 24) | (vals[5] << 16);
}
break;
case CODE_ST_LIN_ADDR:
if (len != 2)
{
l.Valid = false;
}
else
{
_regEIP = ((uint)vals[4] << 24) | ((uint)vals[5] << 16) | ((uint)vals[6] << 8) | ((uint)vals[7] << 0);
}
break;
}
return(l);
}