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I am trying to use the Boost Spirit X3 directive repeat with a repetition factor that is variable. The basic idea is that of a header + payload, where the header specifies the size of the payload. A simple example “3 1 2 3” is interpreted as header = 3, data= {1, 2, 3} (3 integers).
I could only find examples from the spirit qi documentation. It uses boost phoenix reference to wrap the variable factor: http://www.boost.org/doc/libs/1_50_0/libs/spirit/doc/html/spirit/qi/reference/directive/repeat.html
std::string str;
int n;
test_parser_attr("\x0bHello World",
char_[phx::ref(n) = _1] >> repeat(phx::ref(n))[char_], str);
std::cout << n << ',' << str << std::endl; // will print "11,Hello World"
I wrote the following simple example for spirit x3 without luck:
#include <boost/spirit/home/x3.hpp>
#include <boost/spirit/include/phoenix.hpp>
#include <string>
#include <iostream>
namespace x3 = boost::spirit::x3;
using x3::uint_;
using x3::int_;
using x3::phrase_parse;
using x3::repeat;
using x3::space;
using std::string;
using std::cout;
using std::endl;
int main( int argc, char **argv )
{
string data("3 1 2 3");
string::iterator begin = data.begin();
string::iterator end = data.end();
unsigned int n = 0;
auto f = [&n]( auto &ctx ) { n = x3::_attr(ctx); };
bool r = phrase_parse( begin, end, uint_[f] >> repeat(boost::phoenix::ref(n))[int_], space );
if ( r && begin == end )
cout << "Parse success!" << endl;
else
cout << "Parse failed, remaining: " << string(begin,end) << endl;
return 0;
}
Compiling the code above with boost 1.59.0 and clang++ (flags: -std=c++14) gives the following:
boost_1_59_0/boost/spirit/home/x3/directive/repeat.hpp:72:47: error: no matching constructor for
initialization of 'proto_child0' (aka 'boost::reference_wrapper<unsigned int>')
typename RepeatCountLimit::type i{};
If I hardcode repeat(3) instead of repeat(boost::phoenix::ref(n)) it works properly, but it is not a possible solution since it should support a variable repetition factor.
Compilation with repeat(n) completes successfully, but it fails parsing with the following output:
“Parse failed, remaining: 1 2 3"
Looking at the source code for boost/spirit/home/x3/directive/repeat.hpp:72 it calls the empty constructor for template type RepeatCountLimit::type variable i and then assign during the for loop, iterating over min and max. However since the type is a reference it should be initialized in the constructor, so compilation fails. Looking at the equivalent source code from the previous library version boost/spirit/home/qi/directive/repeat.hpp:162 it is assigned directly:
typename LoopIter::type i = iter.start();
I am not sure what I am doing wrong here, or if x3 currently does not support variable repetition factors. I would appreciate some help solving this issue. Thank you.
482
From what I gather, reading the source and the mailing list, Phoenix is not integrated into X3 at all: the reason being that c++14 makes most of it obsolete.
I agree that this leaves a few spots where Qi used to have elegant solutions, e.g. eps(DEFERRED_CONDITION), lazy(*RULE_PTR) (the Nabialek trick), and indeed, this case.
Spirit X3 is still in development, so we might see this added¹
For now, Spirit X3 has one generalized facility for stateful context. This essentially replaces locals<>, in some cases inherited arguments, and can be /made to/ validate the number of elements in this particular case as well:
x3::with²Here's how you could use it:
with<_n>(std::ref(n))
[ omit[uint_[number] ] >>
*(eps [more] >> int_) >> eps [done] ]
Here, _n is a tag type that identifies the context element for retrieval with get<_n>(cxtx).
Note, currently we have to use a reference-wrapper to an lvalue
nbecausewith<_n>(0u)would result in constant element inside the context. I suppose this, too, is a QoI that may be lifted as X# matures
Now, for the semantic actions:
unsigned n;
struct _n{};
auto number = [](auto &ctx) { get<_n>(ctx).get() = _attr(ctx); };
This stores the parsed unsigned number into the context. (In fact, due to the ref(n) binding it's not actually part of the context for now, as mentioned)
auto more = [](auto &ctx) { _pass(ctx) = get<_n>(ctx) > _val(ctx).size(); };
Here we check that we're actually not "full" - i.e. more integers are allowed
auto done = [](auto &ctx) { _pass(ctx) = get<_n>(ctx) == _val(ctx).size(); };
Here we check that we're "full" - i.e. no more integers are allowed.
Live On Coliru
#include <string>
#include <iostream>
#include <iomanip>
#include <boost/spirit/home/x3.hpp>
int main() {
for (std::string const input : {
"3 1 2 3", // correct
"4 1 2 3", // too few
"2 1 2 3", // too many
//
" 3 1 2 3 ",
})
{
std::cout << "\nParsing " << std::left << std::setw(20) << ("'" + input + "':");
std::vector<int> v;
bool ok;
{
using namespace boost::spirit::x3;
unsigned n;
struct _n{};
auto number = [](auto &ctx) { get<_n>(ctx).get() = _attr(ctx); };
auto more = [](auto &ctx) { _pass(ctx) = get<_n>(ctx) > _val(ctx).size(); };
auto done = [](auto &ctx) { _pass(ctx) = get<_n>(ctx) == _val(ctx).size(); };
auto r = rule<struct _r, std::vector<int> > {}
%= with<_n>(std::ref(n))
[ omit[uint_[number] ] >> *(eps [more] >> int_) >> eps [done] ];
ok = phrase_parse(input.begin(), input.end(), r >> eoi, space, v);
}
if (ok) {
std::copy(v.begin(), v.end(), std::ostream_iterator<int>(std::cout << v.size() << " elements: ", " "));
} else {
std::cout << "Parse failed";
}
}
}
Which prints:
Parsing '3 1 2 3': 3 elements: 1 2 3
Parsing '4 1 2 3': Parse failed
Parsing '2 1 2 3': Parse failed
Parsing ' 3 1 2 3 ': 3 elements: 1 2 3
¹ lend your support/voice at the [spirit-general] mailing list :)
² can't find a suitable documentation link, but it's used in some of the samples
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