boost/spirit/home/karma/operator/list.hpp
// Copyright (c) 2001-2011 Hartmut Kaiser
// Copyright (c) 2001-2011 Joel de Guzman
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
#ifndef BOOST_SPIRIT_KARMA_OPERATOR_LIST_HPP
#define BOOST_SPIRIT_KARMA_OPERATOR_LIST_HPP
#if defined(_MSC_VER)
#pragma once
#endif
#include <boost/spirit/home/karma/domain.hpp>
#include <boost/spirit/home/karma/generator.hpp>
#include <boost/spirit/home/karma/meta_compiler.hpp>
#include <boost/spirit/home/karma/detail/output_iterator.hpp>
#include <boost/spirit/home/karma/detail/indirect_iterator.hpp>
#include <boost/spirit/home/karma/detail/get_stricttag.hpp>
#include <boost/spirit/home/karma/detail/pass_container.hpp>
#include <boost/spirit/home/karma/detail/fail_function.hpp>
#include <boost/spirit/home/support/info.hpp>
#include <boost/spirit/home/support/unused.hpp>
#include <boost/spirit/home/support/container.hpp>
#include <boost/spirit/home/support/handles_container.hpp>
#include <boost/spirit/home/karma/detail/attributes.hpp>
#include <boost/proto/operators.hpp>
#include <boost/proto/tags.hpp>
namespace boost { namespace spirit
{
///////////////////////////////////////////////////////////////////////////
// Enablers
///////////////////////////////////////////////////////////////////////////
template <>
struct use_operator<karma::domain, proto::tag::modulus> // enables g % d
: mpl::true_ {};
}}
///////////////////////////////////////////////////////////////////////////////
namespace boost { namespace spirit { namespace karma
{
template <typename Left, typename Right, typename Strict, typename Derived>
struct base_list : binary_generator<Derived>
{
private:
// iterate over the given container until its exhausted or the embedded
// (left) generator succeeds
template <typename F, typename Attribute>
bool generate_left(F f, Attribute const&, mpl::false_) const
{
// Failing subject generators are just skipped. This allows to
// selectively generate items in the provided attribute.
while (!f.is_at_end())
{
bool r = !f(left);
if (r)
return true;
if (!f.is_at_end())
f.next();
}
return false;
}
template <typename F, typename Attribute>
bool generate_left(F f, Attribute const&, mpl::true_) const
{
return !f(left);
}
// There is no way to distinguish a failed generator from a
// generator to be skipped. We assume the user takes responsibility
// for ending the loop if no attribute is specified.
template <typename F>
bool generate_left(F f, unused_type, mpl::false_) const
{
return !f(left);
}
public:
typedef Left left_type;
typedef Right right_type;
typedef mpl::int_<
left_type::properties::value
| right_type::properties::value
| generator_properties::buffering
| generator_properties::counting
> properties;
// Build a std::vector from the LHS's attribute. Note
// that build_std_vector may return unused_type if the
// subject's attribute is an unused_type.
template <typename Context, typename Iterator>
struct attribute
: traits::build_std_vector<
typename traits::attribute_of<Left, Context, Iterator>::type>
{};
base_list(Left const& left, Right const& right)
: left(left), right(right)
{}
template <
typename OutputIterator, typename Context, typename Delimiter
, typename Attribute>
bool generate(OutputIterator& sink, Context& ctx
, Delimiter const& d, Attribute const& attr) const
{
typedef detail::fail_function<
OutputIterator, Context, Delimiter
> fail_function;
typedef typename traits::container_iterator<
typename add_const<Attribute>::type
>::type iterator_type;
typedef
typename traits::make_indirect_iterator<iterator_type>::type
indirect_iterator_type;
typedef detail::pass_container<
fail_function, Attribute, indirect_iterator_type, mpl::false_>
pass_container;
iterator_type it = traits::begin(attr);
iterator_type end = traits::end(attr);
pass_container pass(fail_function(sink, ctx, d),
indirect_iterator_type(it), indirect_iterator_type(end));
if (generate_left(pass, attr, Strict()))
{
while (!pass.is_at_end())
{
// wrap the given output iterator as generate_left might fail
detail::enable_buffering<OutputIterator> buffering(sink);
{
detail::disable_counting<OutputIterator> nocounting(sink);
if (!right.generate(sink, ctx, d, unused))
return false; // shouldn't happen
if (!generate_left(pass, attr, Strict()))
break; // return true as one item succeeded
}
buffering.buffer_copy();
}
return detail::sink_is_good(sink);
}
return false;
}
template <typename Context>
info what(Context& context) const
{
return info("list",
std::make_pair(left.what(context), right.what(context)));
}
Left left;
Right right;
};
template <typename Left, typename Right>
struct list
: base_list<Left, Right, mpl::false_, list<Left, Right> >
{
typedef base_list<Left, Right, mpl::false_, list> base_list_;
list(Left const& left, Right const& right)
: base_list_(left, right) {}
};
template <typename Left, typename Right>
struct strict_list
: base_list<Left, Right, mpl::true_, strict_list<Left, Right> >
{
typedef base_list<Left, Right, mpl::true_, strict_list> base_list_;
strict_list (Left const& left, Right const& right)
: base_list_(left, right) {}
};
///////////////////////////////////////////////////////////////////////////
// Generator generators: make_xxx function (objects)
///////////////////////////////////////////////////////////////////////////
namespace detail
{
template <typename Subject, bool strict_mode = false>
struct make_list
: make_binary_composite<Subject, list>
{};
template <typename Subject>
struct make_list<Subject, true>
: make_binary_composite<Subject, strict_list>
{};
}
template <typename Subject, typename Modifiers>
struct make_composite<proto::tag::modulus, Subject, Modifiers>
: detail::make_list<Subject, detail::get_stricttag<Modifiers>::value>
{};
}}}
namespace boost { namespace spirit { namespace traits
{
///////////////////////////////////////////////////////////////////////////
template <typename Left, typename Right>
struct has_semantic_action<karma::list<Left, Right> >
: binary_has_semantic_action<Left, Right> {};
template <typename Left, typename Right>
struct has_semantic_action<karma::strict_list<Left, Right> >
: binary_has_semantic_action<Left, Right> {};
///////////////////////////////////////////////////////////////////////////
template <typename Left, typename Right, typename Attribute
, typename Context, typename Iterator>
struct handles_container<karma::list<Left, Right>, Attribute
, Context, Iterator>
: mpl::true_ {};
template <typename Left, typename Right, typename Attribute
, typename Context, typename Iterator>
struct handles_container<karma::strict_list<Left, Right>, Attribute
, Context, Iterator>
: mpl::true_ {};
}}}
#endif