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("+") | "-" | "*" | "/" | "**" | "==" | "<" | "<=" | ">" | ">=" | "!=" | "&&" | "||" | "&" | "|";
```

`RegisterOperators`

look like and how do you set up the associativity? – user7116 Jan 28 '12 at 16:35`==`

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