/// <summary>
/// Restores a node from the array representation back into a tree representation
/// </summary>
/// <param name="FunctionSet"></param>
/// <returns>Reference to the converted tree</returns>
public GPNode ConvertNode(IGPFunctionSet FunctionSet)
{
//
// Determine the type of the node
// < 200 : User Defined function
// 200 to 210 : Terminal
// 253 : ADR
// 254 : ADL
// 255 : ADF
if (m_TreeArrayNew[m_ArrayPos] == 255)
{
m_ArrayPos++;
byte WhichADF = m_TreeArrayNew[m_ArrayPos++];
byte NumberArgs = m_TreeArrayNew[m_ArrayPos++];
GPNodeFunctionADF NodeNew = new GPNodeFunctionADF(WhichADF, NumberArgs);
//
// Build up the children before returning
for (byte Child = 0; Child < NumberArgs; Child++)
{
NodeNew.Children.Add(ConvertNode(FunctionSet));
}
return(NodeNew);
}
else if (m_TreeArrayNew[m_ArrayPos] == 254)
{
m_ArrayPos++;
byte WhichADL = m_TreeArrayNew[m_ArrayPos++];
byte NumberArgs = m_TreeArrayNew[m_ArrayPos++];
GPNodeFunctionADL NodeNew = new GPNodeFunctionADL(WhichADL, NumberArgs);
//
// Build up the children before returning
for (byte Child = 0; Child < NumberArgs; Child++)
{
NodeNew.Children.Add(ConvertNode(FunctionSet));
}
return(NodeNew);
}
else if (m_TreeArrayNew[m_ArrayPos] == 253)
{
m_ArrayPos++;
byte WhichADR = m_TreeArrayNew[m_ArrayPos++];
byte NumberArgs = m_TreeArrayNew[m_ArrayPos++];
GPNodeFunctionADR NodeNew = new GPNodeFunctionADR(WhichADR, NumberArgs);
//
// Build up the children before returning
for (byte Child = 0; Child < NumberArgs; Child++)
{
NodeNew.Children.Add(ConvertNode(FunctionSet));
}
return(NodeNew);
}
else if (m_TreeArrayNew[m_ArrayPos] < 200)
{
GPNodeFunction NodeNew = (GPNodeFunction)((GPNodeFunction)FunctionSet[m_TreeArrayNew[m_ArrayPos++]]).Clone();
//
// Build up this node's children first
byte ChildCount = m_TreeArrayNew[m_ArrayPos++];
for (byte Child = 0; Child < ChildCount; Child++)
{
NodeNew.Children.Add(ConvertNode(FunctionSet));
}
return(NodeNew);
}
else // Terminal
{
switch (m_TreeArrayNew[m_ArrayPos++])
{
case 200:
byte WhichADFParam = m_TreeArrayNew[m_ArrayPos++];
GPNodeTerminalADFParam NodeADF = new GPNodeTerminalADFParam(WhichADFParam);
return(NodeADF);
case 201:
byte WhichUserDefined = m_TreeArrayNew[m_ArrayPos++];
GPNodeTerminalUserDefined NodeUser = new GPNodeTerminalUserDefined(WhichUserDefined);
return(NodeUser);
case 202:
double dValue;
unsafe
{
byte *ptr = (byte *)&dValue;
for (int pos = 0; pos < sizeof(double); pos++)
{
ptr[pos] = m_TreeArrayNew[m_ArrayPos++];
}
}
GPNodeTerminalDouble NodeDouble = new GPNodeTerminalDouble(dValue);
return(NodeDouble);
case 203:
int nValue;
unsafe
{
byte *ptr = (byte *)&nValue;
for (int pos = 0; pos < sizeof(int); pos++)
{
ptr[pos] = m_TreeArrayNew[m_ArrayPos++];
}
}
GPNodeTerminalInteger NodeInteger = new GPNodeTerminalInteger(nValue);
return(NodeInteger);
}
}
//
// TODO: Throw an exception, instead of this lazy crap! :)
return(null);
}
/// <summary>
/// ICloneable interface implementation
/// </summary>
/// <returns></returns>
public override Object Clone()
{
GPNodeTerminalInteger obj = (GPNodeTerminalInteger)this.MemberwiseClone();
return(obj);
}
