/// <summary> /// Generates the code for a CompoundStatement node. /// </summary> /// <param name="cs">The CompoundStatement node.</param> /// <returns>String containing C# code for CompoundStatement cs.</returns> private string GenerateCompoundStatement(CompoundStatement cs) { StringBuilder retVal = new StringBuilder(); // opening brace retVal.Append(GenerateIndentedLine("{")); // if (IsParentEnumerable) // retstr += GenerateLine("if (CheckSlice()) yield return null;"); m_braceCount++; foreach (SYMBOL kid in cs.kids) if (kid is Statement && kid.kids.Top is BinaryExpression && ((BinaryExpression) kid.kids.Top).ExpressionSymbol == "==") continue; else retVal.Append(GenerateNode(kid)); // closing brace m_braceCount--; retVal.Append(GenerateIndentedLine("}")); return retVal.ToString(); }
public Statement(Parser yyp, CompoundStatement cs) : base((yyp)) { kids.Add(cs); }
public StateEvent(Parser yyp, string name, CompoundStatement cs) : base((yyp)) { m_name = name; kids.Add(cs); }
public StateEvent(Parser yyp, string name, ArgumentDeclarationList dal, CompoundStatement cs) : base((yyp)) { m_name = name; if (0 < dal.kids.Count) kids.Add(dal); kids.Add(cs); }
public GlobalFunctionDefinition(Parser yyp, string returnType, string name, ArgumentDeclarationList adl, CompoundStatement cs) : base((yyp)) { ReturnType = returnType; m_name = name; kids.Add(adl); kids.Add(cs); }