/// <summary>
/// The $var section lists the names and identifier codes of all the variables.
/// </summary>
/// <param name="Words"></param>
private void OnVar(string[] Words)
{
VCD_Variable var = VCD_Variable.Parse(Words);
var.Variable.Idx = signalCounter;
signalCounter++;
var.Scope = CurrentVCDScope.ToArray();
variables.Add(var);
/*if (var.Size == 1)
* //Простой тип данных
* {
* My_Variable new_var = new My_Variable(var.Reference, var.FullName, new Schematix.Waveform.DataTypes.STD_LOGIC());
* var.Variable = new_var;
* CurrentScope.Variables.Add(new_var);
* }
* //векторный тип данных
* else
* {
* My_Variable new_var = new My_Variable(var.Reference, var.FullName, new Schematix.Waveform.DataTypes.STD_LOGIC_VECTOR(0, (int)var.Size));
* var.Variable = new_var;
* CurrentScope.Variables.Add(new_var);
* }*/
Signal new_var = var.Variable;
var.Variable = new_var;
CurrentScope.Variables.Add(new_var);
}
private void OnSimpleValueChange(string value)
{
string identifier = value.Substring(1);
string newvalue = new string(new char[] { value[0] });
VCD_Variable vcd_var = GetVCDVariableByIdentifier(identifier, true);
vcd_var.AppendValue(CurrentTime, newvalue);
}
/// <summary>
/// Запись в дамп переменных (с одновременной инициализацией списка переменны[)
/// </summary>
/// <param name="scope"></param>
private void WriteScopeVariables(SimulationScope scope)
{
if (scope.Parent != null)
{
writer.WriteLine(string.Format("$scope module {0} $end", scope.Name));
}
string str_identifier = new string(new char[] { (char)identifier });
foreach (ValueProvider var in scope.Variables)
{
if (var is Signal)
{
VCD_Variable vcd_var = new VCD_Variable((var as Signal), str_identifier);
variables.Add(vcd_var);
identifier++;
StringBuilder newIdentf = new StringBuilder();
for (int i = identifier; i > 0; i /= 256)
{
newIdentf.Append((char)(i % 256));
}
str_identifier = newIdentf.ToString();
writer.WriteLine(string.Format("$var {0} $end", vcd_var.VCDVariableDeclaration));
}
}
foreach (SimulationScope s in scope.Items)
{
WriteScopeVariables(s);
}
if (scope.Parent != null)
{
writer.WriteLine("$upscope $end");
}
}
private void OnComplexValueChange(string value, string identifier)
{
VCD_Variable vcd_var = GetVCDVariableByIdentifier(identifier, false);
vcd_var.AppendValue(CurrentTime, value);
}
public static VCD_Variable Parse(string[] Words)
{
VCD_Variable var = new VCD_Variable();
// var.var_type
switch (Words[1].ToLower())
{
case "event": var.var_type = VCDVariableType.Event; break;
case "integer": var.var_type = VCDVariableType.Integer; break;
case "parameter": var.var_type = VCDVariableType.Parameter; break;
case "real": var.var_type = VCDVariableType.Real; break;
case "reg": var.var_type = VCDVariableType.Reg; break;
case "supply0": var.var_type = VCDVariableType.Supply0; break;
case "supply1": var.var_type = VCDVariableType.Supply1; break;
case "time": var.var_type = VCDVariableType.Time; break;
case "tri": var.var_type = VCDVariableType.Tri; break;
case "triand": var.var_type = VCDVariableType.Triand; break;
case "trior": var.var_type = VCDVariableType.Trior; break;
case "trireg": var.var_type = VCDVariableType.Trireg; break;
case "tri0": var.var_type = VCDVariableType.Tri0; break;
case "tri1": var.var_type = VCDVariableType.Tri1; break;
case "wand": var.var_type = VCDVariableType.Wand; break;
case "wire": var.var_type = VCDVariableType.Wire; break;
case "wor": var.var_type = VCDVariableType.Wor; break;
}
var.size = uint.Parse(Words[2]);
var.identifier = Words[3];
//Если встераем сложное имя переменной с учетом ее размерности
if ((var.size != 1))
{
if (Words[4].Contains(":"))
{
string[] temp = Words[4].Split(new char[] { ' ', '[', ']', ':' });
var.reference = temp[0];
bool parse_res = Int64.TryParse(temp[1], out var.startIndex);
parse_res = Int64.TryParse(temp[2], out var.endIndex);
}
else
{
var.reference = Words[4];
var.endIndex = (int)var.size - 1;
var.startIndex = 0;
}
}
else
{
var.reference = Words[4];
}
switch (var.VariableType)
{
case VCD_Variable.VCDVariableType.Integer:
var.base_variable = new Signal <VHDLIntegerValue>(new VHDLIntegerValue(0), var.Reference);
var.appendFunction = VCDConvertor.Append_Integer_VALUE;
break;
case VCD_Variable.VCDVariableType.Real:
var.base_variable = new Signal <VHDLFloatingPointValue>(new VHDLFloatingPointValue(0), var.Reference);
var.appendFunction = VCDConvertor.Append_Real_VALUE;
break;
case VCD_Variable.VCDVariableType.Time:
break;
case VCD_Variable.VCDVariableType.Event:
case VCD_Variable.VCDVariableType.Parameter:
case VCD_Variable.VCDVariableType.Reg:
case VCD_Variable.VCDVariableType.Supply0:
case VCD_Variable.VCDVariableType.Supply1:
case VCD_Variable.VCDVariableType.Tri:
case VCD_Variable.VCDVariableType.Tri0:
case VCD_Variable.VCDVariableType.Tri1:
case VCD_Variable.VCDVariableType.Triand:
case VCD_Variable.VCDVariableType.Trior:
case VCD_Variable.VCDVariableType.Trireg:
case VCD_Variable.VCDVariableType.Wand:
case VCD_Variable.VCDVariableType.Wire:
case VCD_Variable.VCDVariableType.Wor:
{
if (var.Size == 1)
{
new Signal <VHDLRuntime.Values.BuiltIn.BIT>(new VHDLRuntime.Values.BuiltIn.BIT(VHDLRuntime.Values.BuiltIn.BIT_Enum.item_0), var.Reference);
var.appendFunction = VCDConvertor.Append_BIT_VALUE;
}
else
{
}
}
break;
}
return(var);
}