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I'm using Irony.net for generating a parse tree out of the source. Essentially I'm using ExpressionEvaluatorGrammer like grammer for binary expressions (arithmetic, relational and logical/conditional). I want to convert the resultant parse tree into Linq expression by traversing it. However, the tree does not seem to have a formation directly convertable to linq conditional expression. Hypothetical example of such an expression:

1 == 1 && 4 - 1 == 3

generates (pseudo xml tree for brevity):

<binary>
  <binary>
    <binary>
      <literal>1</literal>
      <op>==</op>
      <literal>1</literal>
    </binary>
    <op>&&</op>
    <binary>
      <literal>4</literal>
      <op>-</op>
      <literal>1</literal>
    </binary>
  </binary>
  <op>==</op>
  <literal>3</literal>
</binary>

In the tree above, the arithmetic expression (4 - 1) becomes the right expression to the && logical operation as the parent node closes after it. In the ideal world, it should have been a left expression of the nodes representing "== 3".

How do you traverse such a tree to generate a proper and operation? Or, is there a way to generate the tree in the form I desire?

Edit: here's the grammer (partial) definition. I have taken it from ExpressionEvaluatorGrammer that comes with Irony.interpreter.

RegisterOperators(15, "&", "&&", "|", "||");
RegisterOperators(20, "==", "<", "<=", ">", ">=", "!=");
RegisterOperators(30, "+", "-");
RegisterOperators(40, "*", "/");
Expr.Rule = Term
Term.Rule = number | ParExpr | stringLit | FunctionCall | identifier | MemberAccess | IndexedAccess;
ParExpr.Rule = "(" + Expr + ")";
BinExpr.Rule = Expr + BinOp + Expr;
BinOp.Rule = ToTerm("+") | "-" | "*" | "/" | "**" | "==" | "<" | "<=" | ">" | ">=" | "!=" | "&&" | "||" | "&" | "|";
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I don't know Irony.Net but the xml it generates corresponds to ((1==1)&&(4*1))==3. Either it is the case that && and == has equal precedence while * has a higher precedence or it is a bug. You might try to add paranthesis before parsing, or use another tool. If the actual grammar is not much more complicated it should not be difficult to write a parser (that directly generates an expression) by hand. –  Ali Ferhat Jan 28 '12 at 16:16
    
What do your calls to RegisterOperators look like and how do you set up the associativity? –  user7116 Jan 28 '12 at 16:35
    
@sixlettervariables please see the grammer with precedence –  Varun K Jan 28 '12 at 16:50
    
It does appear that your precedence is correct, but that the grammar is not respecting that == should bind tighter than &&. Which version of Irony are you using? The author recently fixed a precedence/associativity bug. –  user7116 Jan 28 '12 at 16:52
    
@Ali right now my needs are not complex (assentially I need a conditional expression parser) but in future the language may be extended with loops and so on. If it can be done with Irony, I would be able to extend it easily –  Varun K Jan 28 '12 at 16:55

2 Answers 2

up vote 0 down vote accepted

Assuming the operator precedence is correct, you should walk the tree recursively using the Visitor Pattern, returning an Expression at each level:

XName xBinary = "binary";
XName xLiteral = "literal";
Expression Visit(XElement elt)
{
    if (elt.Name == xBinary)
    {
        return VisitBinary(elt);
    }
    else if (elt.Name == xLiteral)
    {
        return VisitLiteral(elt);
    } // ...

    throw new NotSupportedException();
}

Now that you have the Visit structure, you simply write each specific visitor to use your main Visit:

Expression VisitLiteral(XElement elt)
{
    Debug.Assert(elt.Name == xLiteral);
    return Expression.Constant((int)elt);
}

Expression VisitBinary(XElement elt)
{
    Debug.Assert(elt.Name == xBinary);
    Debug.Assert(elt.Elements().Count() >= 3);

    var lhs = elt.Elements().ElementAt(0);
    var op = elt.Elements().ElementAt(1);
    var rhs = elt.Elements().ElementAt(2);

    switch((string)op)
    {
    case "+":
        // by chaining LHS and RHS to Visit we allow the tree to be constructed
        // properly as Visit performs the per-element dispatch
        return Expression.Add(Visit(lhs), Visit(rhs));
    case "&&":
        return Expression.AndAlso(Visit(lhs), Visit(rhs));
    default:
        throw new NotSupportedException();
    }
}
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The problem is, the xml "tree" generated by Irony.Net is incorrect. –  Ali Ferhat Jan 28 '12 at 16:24
    
@Ali: just noticed that, sounds like a precedence problem instead. Once the precedence is fixed, the OP could use the Visitor Pattern. –  user7116 Jan 28 '12 at 16:31
    
Upgrade fixed the issue. Thanks! –  Varun K Feb 9 '12 at 11:23

You cannot fix this by traversing the tree in a magical/special way. Your parser is incorrect! Probably, it is just misconfigured. You absolutely need to get the correct tree from it in order to process it further.

Probably you have wrong operator precedence rules in it. It looks like it, at least. Try adding parenthesis to see if it fixed up the tree.

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