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So, I have the following spirit karma rule body:

base_rule = 
    eps(_r1 != 0) [ // _r1 is a pointer_typed placeholder

which leads to a rather long error message from g++ which (helpfully) ends with :

:37:5: error: ISO C++ forbids comparison between pointer and integer 

This is valid c++:

struct zebra{};

int main()
  zebra * x;
  if( x == 0);  

I thought to try boost::phoenix::static_cast_<_r1_type *>(0) as well as converting _r1_type to a integer (yes that is WRONG, it was just an experiment).

The question:

How can I use a spirit eps construct to perform a pointer test on a placeholder to prevent rule body evaluation when the point is zero ?

As with all "C++ functional programming library usage" questions I expect the answer to leave me feeling like a dimwit.

The Answer

Ildjam's point directly answers my question. There were two issues with my problem; there is a indirect problem above. And that is to do with conditionals in PEG. What I am trying to express should be written as such:

rule = ( eps(_r) << ( /* grammar for when pointer is not null */ ) ) 
    | eps // otherwise dont do anything.

I was using the semantic action body ( specified in a [] block), to express the conditional part of the grammar. Strangely though I have written conditional PEG grammars before, I just made a mistake, which led to the second class of problems.

So, eps(_r1) does the trick, The second type of compilation issue is irrelevant to the question.

share|improve this question
Have you tried using implicit pointer-to-bool conversion? base_rule = eps(_r1)[/*impl*/]; – ildjarn Jun 1 '11 at 16:40
(+1) Yes my brain threw that up after the static_cast_ attempts, alas it did not work. If you want the error message I can add it to my question. – Hassan Syed Jun 1 '11 at 16:43
No, I don't think the errors will be useful in this case, just figured I'd ask before trying to compile it myself. :-] – ildjarn Jun 1 '11 at 16:45
Actually, given that it works for me, maybe those errors are of interest after all... – ildjarn Jun 1 '11 at 18:30
up vote 2 down vote accepted

Using implicit pointer-to-bool conversion, as suggested in my comment, works for me out of the box with Boost 1.46.1. The following is a minimal repro wherein parse succeeds if (and only if) p != 0 && input == "not null" or p == 0 && input == "null":

#include <string>
#include <ios>
#include <ostream>
#include <iostream>
#include <boost/spirit/include/qi.hpp>
#include <boost/spirit/include/phoenix.hpp>

namespace spirit = boost::spirit;
namespace qi = spirit::qi;

struct test_grammar : qi::grammar<std::string::const_iterator, void(int*)>
    test_grammar() : base_type(start_)
            =   (   spirit::eps(spirit::_r1)
                    >> "not null"
                |   spirit::eps(!spirit::_r1)
                    >> "null"
                >> spirit::eoi

    qi::rule<base_type::iterator_type, base_type::sig_type> start_;
test_grammar const test;

int main()
    int i = 42;
    int* p = &i;                          // alternatively, = 0;
    std::string const input = "not null"; // alternatively, = "null";

    std::string::const_iterator first = input.begin();
        << std::boolalpha
        << "parse succeeded: "
        << qi::parse(first, input.end(), test(p))
        << std::endl;

So, whatever problem you're having while trying to use implicit conversion in this manner, it must be specific to your code; i.e., you'll have to show more of your code to get any useful feedback.

share|improve this answer
You were right, see comments in my question for the problem I was having. – Hassan Syed Jun 2 '11 at 14:36

This is a fundamental problem with the C++ type system in C++03. The value 0 is special and can be used in many places where it's type, int, cannot. This problem is easily demonstrated and causes plenty of problems where templates and pointers combine.

void f(int i) {
    void* ptr = ...;
    if (ptr == i) { // MALFORMED

f(0); // But I'm trying to compare with 0, which is legit!

template<typename T, typename Y> T construct_from(const Y& y) {
    return T(y);
construct_from<void*>(0); // ERROR, cannot construct ptr from int.

The simplest solution is to write a quick version of nullptr, which can be found in C++0x.

struct nullptr_t {
    template<typename T> operator T*() const {
        return 0;
share|improve this answer
The simplest solution is to stop comparing to literal 0 and evaluate the pointer as a bool. ;-] – ildjarn Jun 1 '11 at 17:14
@ildjam. I tried that, its not a runtime c++ problem, its (potentially) a problem with the phoenix / spirit constructs (or my understanding thereof). I will try to isolate the code into a compileable test grammar. – Hassan Syed Jun 1 '11 at 22:21
@Hassan : Did you try the code in my answer? If it works, then it's definitely a problem specific to your grammar; if it doesn't, then I'm quite confused. ;-] – ildjarn Jun 2 '11 at 0:51

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