/// <summary> /// Generates the code for a FunctionCall node. /// </summary> /// <param name="fc">The FunctionCall node.</param> /// <returns>String containing C# code for FunctionCall fc.</returns> private string GenerateFunctionCall(FunctionCall fc) { string retstr = String.Empty; string modinvoke = null; if (m_comms != null) modinvoke = m_comms.LookupModInvocation(fc.Id); if (modinvoke != null) { if (fc.kids[0] is ArgumentList) { if ((fc.kids[0] as ArgumentList).kids.Count == 0) retstr += Generate(String.Format("{0}(\"{1}\"",modinvoke,fc.Id), fc); else retstr += Generate(String.Format("{0}(\"{1}\",",modinvoke,fc.Id), fc); } } else { retstr += Generate(String.Format("{0}(", CheckName(fc.Id)), fc); } foreach (SYMBOL kid in fc.kids) retstr += GenerateNode(fc, kid); retstr += Generate(")"); return retstr; }
/// <summary> /// Generates the code for a FunctionCall node. /// </summary> /// <param name="fc">The FunctionCall node.</param> /// <returns>String containing C# code for FunctionCall fc.</returns> private string GenerateFunctionCall(FunctionCall fc) { string retstr = String.Empty; retstr += Generate(String.Format("{0}(", CheckName(fc.Id)), fc); foreach (SYMBOL kid in fc.kids) retstr += GenerateNode(kid); retstr += Generate(")"); return retstr; }
public FunctionCallExpression (Parser yyp, FunctionCall fc ):base(((LSLSyntax )yyp)){ kids . Add ( fc ); }
public Statement (Parser yyp, FunctionCall fc ):base(((LSLSyntax )yyp)){ kids . Add ( fc ); }