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Sprout/sprout/weed/parser/directive/repeat.hpp
2013-07-22 22:00:09 +09:00

214 lines
6.4 KiB
C++

#ifndef SPROUT_WEED_PARSER_DIRECTIVE_REPEAT_HPP
#define SPROUT_WEED_PARSER_DIRECTIVE_REPEAT_HPP
#include <cstddef>
#include <sprout/config.hpp>
#include <sprout/type_traits/identity.hpp>
#include <sprout/weed/parser_result.hpp>
#include <sprout/weed/expr/make_terminal_or_expr.hpp>
#include <sprout/weed/expr/eval.hpp>
#include <sprout/weed/parser/parser_base.hpp>
#include <sprout/weed/attr_cnv/result_of/times.hpp>
#include <sprout/weed/attr_cnv/times.hpp>
#include <sprout/weed/traits/expr/terminal_or_expr_of.hpp>
#include <sprout/weed/traits/parser/attribute_of.hpp>
#include <sprout/weed/traits/parser/limit_of.hpp>
namespace sprout {
namespace weed {
//
// repeat_p
//
template<typename Parser>
struct repeat_p
: public sprout::weed::parser_base
{
public:
template<typename Context, typename Iterator>
struct attribute;
template<typename Context, typename Iterator>
struct result;
private:
template<typename Context, typename Iterator>
struct eval {
private:
typedef typename sprout::weed::traits::limit_of<Parser, Iterator, Context>::type limit;
typedef typename sprout::weed::traits::attribute_of<Parser, Iterator, Context>::type attr_type;
public:
typedef typename repeat_p::template attribute<Context, Iterator>::type attribute_type;
typedef typename repeat_p::template result<Context, Iterator>::type result_type;
private:
template<typename Result, typename... Attrs>
SPROUT_CONSTEXPR typename std::enable_if<
sizeof...(Attrs) + 1 == limit::value,
result_type
>::type call(
repeat_p const& p,
Iterator first,
Result const& res,
Attrs const&... attrs
) const
{
return res.success()
? result_type(true, res.current(), sprout::weed::attr_cnv::times<limit::value, attr_type>(attrs..., res.attr()))
: p.count_ <= sizeof...(Attrs)
? result_type(true, first, sprout::weed::attr_cnv::times<limit::value, attr_type>(attrs...))
: result_type(false, first, attribute_type())
;
}
template<typename Result, typename... Attrs>
SPROUT_CONSTEXPR typename std::enable_if<
sizeof...(Attrs) + 1 != limit::value,
result_type
>::type call(
repeat_p const& p,
Iterator first,
Result const& res,
Attrs const&... attrs
) const
{
return res.success()
? call(p, p.count_ <= sizeof...(Attrs) ? res.current() : first, sprout::weed::eval(p.expr_, res.ctx()), attrs..., res.attr())
: p.count_ <= sizeof...(Attrs)
? result_type(true, first, sprout::weed::attr_cnv::times<limit::value, attr_type>(attrs...))
: result_type(false, first, attribute_type())
;
}
template<typename Result>
SPROUT_CONSTEXPR result_type call_inf(
repeat_p const& p,
Iterator first,
Result const& res,
std::size_t n
) const
{
return res.success()
? call_inf(p, p.count_ <= n ? res.current() : first, sprout::weed::eval(p.expr_, res.ctx()), n + 1)
: result_type(p.count_ <= n || p.count_ == std::size_t(-1), first, attribute_type())
;
}
template<bool Infinity, typename Result>
SPROUT_CONSTEXPR typename std::enable_if<
Infinity,
result_type
>::type call(
repeat_p const& p,
Iterator first,
Result const& res
) const
{
return res.success()
? call_inf(
p,
p.count_ <= 0 ? res.current() : first,
sprout::weed::eval(p.expr_, res.ctx()),
1
)
: result_type(p.count_ <= 0 || p.count_ == std::size_t(-1), first, attribute_type())
;
}
template<bool Infinity, typename Result>
SPROUT_CONSTEXPR typename std::enable_if<
!Infinity,
result_type
>::type call(
repeat_p const& p,
Iterator first,
Result const& res
) const
{
return res.success()
? call(
p,
p.count_ <= 0 ? res.current() : first,
sprout::weed::eval(p.expr_, res.ctx()),
res.attr()
)
: result_type(p.count_ <= 0, first, attribute_type())
;
}
public:
SPROUT_CONSTEXPR result_type operator()(
repeat_p const& p,
Iterator first,
Context const& ctx
) const
{
return call<limit::value == std::size_t(-1)>(
p,
first,
sprout::weed::eval(p.expr_, ctx)
);
}
};
public:
template<typename Context, typename Iterator>
struct attribute
: public sprout::weed::attr_cnv::result_of::times<
sprout::weed::traits::limit_of<Parser, Iterator, Context>::value,
typename sprout::weed::traits::attribute_of<Parser, Iterator, Context>::type
>
{};
template<typename Context, typename Iterator>
struct result
: public sprout::identity<sprout::weed::parser_result<Iterator, typename attribute<Context, Iterator>::type> >
{};
private:
typedef typename sprout::weed::traits::terminal_or_expr_of<Parser>::type expr_type;
private:
expr_type expr_;
std::size_t count_;
public:
repeat_p() = default;
explicit SPROUT_CONSTEXPR repeat_p(Parser const& p, std::size_t count = -1)
: expr_(sprout::weed::make_terminal_or_expr(p))
, count_(count)
{}
template<typename Context, typename Iterator>
SPROUT_CONSTEXPR typename result<Context, Iterator>::type operator()(
Iterator first, Iterator,
Context const& ctx
) const
{
return eval<Context, Iterator>()(*this, first, ctx);
}
};
//
// repeat_g
//
struct repeat_g {
private:
std::size_t count_;
public:
explicit SPROUT_CONSTEXPR repeat_g(std::size_t count)
: count_(count)
{}
template<typename Parser>
SPROUT_CONSTEXPR sprout::weed::repeat_p<Parser> operator[](Parser const& p) const {
return sprout::weed::repeat_p<Parser>(p, count_);
}
};
//
// repeat_d
//
struct repeat_d {
public:
template<typename Parser>
SPROUT_CONSTEXPR sprout::weed::repeat_p<Parser> operator[](Parser const& p) const {
return sprout::weed::repeat_p<Parser>(p);
}
SPROUT_CONSTEXPR sprout::weed::repeat_g operator()(std::size_t count) const {
return sprout::weed::repeat_g(count);
}
};
//
// repeat
//
SPROUT_CONSTEXPR sprout::weed::repeat_d repeat = sprout::weed::repeat_d();
} // namespace weed
} // namespace sprout
#endif // #ifndef SPROUT_WEED_PARSER_DIRECTIVE_REPEAT_HPP