Dear Spirit Qi experts.
I have played around with the MiniC example in Spirit Qi, and have noticed an issue with "empty" AST nodes in the expression grammar.
It will generate "expression" nodes that hold nothing but a single operand of type "expression" again.
I think the issue is due to the recursive rule definitions for the operator precedence:
// expression.hpp
qi::rule<Iterator, ast::expression(), skipper<Iterator> >
expr, equality_expr, relational_expr,
logical_or_expr, logical_and_expr,
additive_expr, multiplicative_expr
;
// expression_def.hpp
expr =
logical_or_expr.alias()
;
logical_or_expr =
logical_and_expr
>> *(logical_or_op > logical_and_expr)
;
logical_and_expr =
equality_expr
>> *(logical_and_op > equality_expr)
;
// ast.hpp
typedef boost::variant<
nil
, bool
, unsigned int
, identifier
, boost::recursive_wrapper<unary>
, boost::recursive_wrapper<function_call>
, boost::recursive_wrapper<expression>
>
operand;
/*...*/
struct expression
{
operand first;
std::list<operation> rest;
};
When logical_or_expr recurses into logical_and_expr, logical_and_expr will return an expression().
Due to the attribute propagation is Spirit, logical_or_expr then assigns this expression to it's expression's "first" member.
I think this is what generates all these "empty" expression nodes.
I find that, however, nasty, and would like to get rid of them, but have not yet been successful. Has anyone found a decent solution to this before?
I'm thinking it would be somehow possible if an expression consisted of binary ops and unary ops.
This would then also have the advantage of keeping the operation and operands in the same structure (pseudo-code):
struct binary_op
{
optype type;
operand op1;
operand op2;
}
struct unary_op
{
optype type;
operand op1;
}
struct eval_op
{
operand op1;
}
typedef boost::variant<binary_op,
unary_op,
eval_op>
expression;
typedef boost::variant<int,
bool,
boost::recursive_wrapper<expression> >
operand;
However, I believe I would still encounter this "empty node" issue after playing this out on paper. It seems like I'm chasing my own tail.
Does anyone have an idea on how to approach this issue?
EDIT
a > b
Will parse to:
expression (from logical_or_op) // Empty expression (forward only)
(rest) -/ - (first) expression (from logical_and_op) // Empty expression (forward only)
(rest) -/ - (first) expression (from equality_op) // Empty expression (forward only)
(rest) -/ - (first) expression (from relational_op) // "Correct" expression
(first) a -/ - (rest)
[0] operator_: op_greater
operand_: b
The desired output would be:
expression (from relational_op)
(first) a -/ - (rest)
[0] operator_: op_greater
operand_: b
EDIT2
I have uploaded a modified mini-c version that prints the generated expression tree for an expression:
Link
If you look at the included A.avxh file, it contains an expression to parse.
Set a breakpoint in main.cpp at line 67, and observe how often it recursively steps in there.
See Question&Answers more detail:
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