public void PrintQuals(OutputStream sb) { if (quals.HasFlag(Qualifiers.Const)) { sb.Append(" const"); } if (quals.HasFlag(Qualifiers.Volatile)) { sb.Append(" volatile"); } if (quals.HasFlag(Qualifiers.Restrict)) { sb.Append(" restrict"); } }
public override void PrintRight(OutputStream sb) { sb.Append('('); fparams.PrintWithComma(sb); sb.Append(')'); ret.PrintRight(sb); if (cvQuals.HasFlag(Qualifiers.Const)) { sb.Append(" const"); } if (cvQuals.HasFlag(Qualifiers.Volatile)) { sb.Append(" volatile"); } if (cvQuals.HasFlag(Qualifiers.Restrict)) { sb.Append(" restrict"); } switch (refQual) { case FunctionRefQual.LValue: sb.Append(" &"); break; case FunctionRefQual.RValue: sb.Append(" &&"); break; } if (exceptionSpec != null) { sb.Append(' '); exceptionSpec.Print(sb); } }
public override void PrintRight(OutputStream sb) { sb.Append('('); Params.PrintWithComma(sb); sb.Append(')'); if (ReturnType != null) { ReturnType.PrintRight(sb); } if (CVQuals.HasFlag(Qualifiers.Const)) { sb.Append(" const"); } if (CVQuals.HasFlag(Qualifiers.Volatile)) { sb.Append(" volatile"); } if (CVQuals.HasFlag(Qualifiers.Restrict)) { sb.Append(" restrict"); } if (RefQual.HasFlag(FunctionRefQual.LValue)) { sb.Append(" &"); } else if (RefQual.HasFlag(FunctionRefQual.RValue)) { sb.Append(" &&"); } if (attrs != null) { attrs.Print(sb); } }
public bool OutputQualifierIfPresent(OutputStream os, Qualifiers Q, Qualifiers Mask, bool needSpace) { if (!(Q.HasFlag(Mask))) { return(needSpace); } if (needSpace) { os.Append(' '); } OutputSingleQualifier(os, Mask); return(true); }