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construct/include/ircd/spirit/qi_rule.h

335 lines
9.9 KiB
C++

// The Construct
//
// Copyright (C) The Construct Developers, Authors & Contributors
// Copyright (C) 2016-2022 Jason Volk <jason@zemos.net>
//
// Permission to use, copy, modify, and/or distribute this software for any
// purpose with or without fee is hereby granted, provided that the above
// copyright notice and this permission notice is present in all copies. The
// full license for this software is available in the LICENSE file.
#pragma once
#define HAVE_IRCD_SPIRIT_QI_RULE_H
#if defined(__clang__)
/// Custom reimplementation/interposition of the qi::rule template by
/// specializing the `const char *` iterator, which is common to our parsers.
///
/// The goal here is to support our custom lightweight function object (see
/// function.h). This implementation is optimized for our grammar's patterns,
/// which generally involve constant/immutable exprs and static global rules.
///
/// Dynamic memory has been removed which would otherwise impede optimization
/// at global scope:
///
/// - For the rule's name, which was formerly std::string. The name is now a
/// `const char *` which should point to a literal.
///
/// - To support the custom function object, a fixed array is contained
/// directly within this class. The parser_binder is placement new'ed there.
///
template<class T1,
class T2,
class T3,
class T4>
struct boost::spirit::qi::rule<const char *, T1, T2, T3, T4>
:proto::extends
<
typename proto::terminal<reference<const rule<const char *, T1, T2, T3, T4>>>::type
,rule<const char *, T1, T2, T3, T4>
>
,parser
<
rule<const char *, T1, T2, T3, T4>
>
{
using Iterator = const char *;
using iterator_type = Iterator;
using this_type = rule<iterator_type, T1, T2, T3, T4>;
using reference_ = reference<const this_type>;
using terminal = typename proto::terminal<reference_>::type;
using terminal_type = typename proto::terminal<this_type>::type;
using parser_type = parser<this_type>;
using base_type = proto::extends<terminal, this_type>;
using template_params = mpl::vector<T1, T2, T3, T4>;
using locals_type = typename spirit::detail::extract_locals<template_params>::type;
using skipper_type = typename spirit::detail::extract_component<qi::domain, template_params>::type;
using encoding_type = typename spirit::detail::extract_encoding<template_params>::type;
using sig_type = typename spirit::detail::extract_sig<template_params, encoding_type, qi::domain>::type;
using attr_type = typename spirit::detail::attr_from_sig<sig_type>::type;
using attr_reference_type = attr_type &;
using parameter_types = typename spirit::detail::params_from_sig<sig_type>::type;
using parameter_types_size = typename fusion::result_of::size<parameter_types>::type;
using context_type = context<fusion::cons<attr_reference_type, parameter_types>, locals_type>;
using function_prototype = bool (Iterator &, const Iterator &, context_type &, const skipper_type &);
using function_type = function<function_prototype>;
using encoding_modifier_type = typename mpl::if_
<
is_same<encoding_type, unused_type>,
unused_type,
tag::char_code<tag::encoding, encoding_type>
>::type;
template<class Context,
class Iterator>
struct attribute
{
using type = attr_type;
};
static constexpr const auto &params_size
{
parameter_types_size::value
};
private:
BOOST_STATIC_ASSERT_MSG
(
!is_reference<attr_type>::value,
"Reference qualifier on Qi rule attribute is meaningless"
);
template<class Auto,
class Expr>
static decltype(auto) define(Expr&& expr, mpl::false_)
{
BOOST_SPIRIT_ASSERT_MATCH(qi::domain, Expr);
}
template<class Auto,
class Expr>
[[warn_unused_result]]
static decltype(auto) define(Expr&& expr, mpl::true_)
{
return detail::bind_parser<const Auto>
(
compile<qi::domain>(std::forward<Expr>(expr), encoding_modifier_type())
);
}
template<class Expr>
static decltype(auto) create(Expr&& expr)
{
return define<mpl::false_>
(
std::forward<Expr>(expr), traits::matches<qi::domain, Expr>()
);
}
/// Slightly exceeds the worst-case for currently in use compiled
/// expressions. It is possible to build an expression which exceeds
/// this value, and in that case, feel free to increase this size.
static constexpr const size_t buf_sz
{
2048 - 32 // offsetof buf
};
function_type func;
const char *_name;
size_t _size;
[[clang::loader_uninitialized]] uint8_t buf alignas(32) [buf_sz];
public:
using parameterized_subject_type = const rule;
const rule &get_parameterized_subject() const
{
return *this;
}
reference_ alias() const noexcept
{
return reference_(*this);
}
std::string_view name() const
{
return _name;
}
template<class Context>
info what(Context&) const noexcept
{
return info(std::string(name()));
}
template<class C,
class S,
class A>
bool parse(Iterator &, const Iterator &, C &, const S &, A &) const;
template<class C,
class S,
class A,
class P>
bool parse(Iterator &, const Iterator &, C &, const S &, A &, const P &) const;
// bring in the operator() overloads
#include <boost/spirit/home/qi/nonterminal/detail/fcall.hpp>
/// Expression compiler; primary construction.
template<class Expr>
rule(const Expr &expr, const char *const name = "<unnamed>") noexcept;
/// Renaming constructor. This supports a special case when this rule is
/// constructed from a single other rule, but a name is still provided as
/// the second argument; prevents forced indirection and bad codegen.
template<class Expr>
explicit rule(const rule &o, const char *const name) noexcept;
/// Copy construction is supported through the rename-ctor, just using the
/// name from the rhs.
rule(const rule &o)
:rule(o, o._name)
{}
rule() = delete;
rule(rule &&o) = delete;
rule& operator=(rule &&) = delete;
rule& operator=(const rule &) = delete;
~rule() noexcept = default;
};
template<class T1,
class T2,
class T3,
class T4>
template<class Expr>
inline
boost::spirit::qi::rule<const char *, T1, T2, T3, T4>::rule(const Expr &expr,
const char *const name)
noexcept
:base_type(terminal::make(reference_(*this)))
,func(new (buf) decltype(create(expr)) (create(expr)))
,_name(name)
,_size(sizeof(decltype(create(expr))))
{
/// If this assertion has tripped first ensure you are not copying
/// an instance of this rule, otherwise see the comment on buf_sz.
static_assert
(
sizeof(decltype(create(expr))) <= buf_sz,
"Instance buffer is insufficient for the binder object."
);
}
template<class T1,
class T2,
class T3,
class T4>
template<class Expr>
inline
boost::spirit::qi::rule<const char *, T1, T2, T3, T4>::rule(const rule &o,
const char *const name)
noexcept
:base_type(terminal::make(reference_(*this)))
,func(o.func, buf)
,_name(name)
,_size(o._size)
{
assert(_size <= buf_sz);
memcpy(buf, o.buf, _size);
}
template<class T1,
class T2,
class T3,
class T4>
template<class Context,
class Skipper,
class Attribute>
inline bool
boost::spirit::qi::rule<const char *, T1, T2, T3, T4>::parse(Iterator &first,
const Iterator &last,
Context &,
const Skipper &skipper,
Attribute &attr_param)
const
{
BOOST_STATIC_ASSERT_MSG
(
(is_same<skipper_type, unused_type>::value || !is_same<Skipper, unused_type>::value),
"The rule was instantiated with a skipper type but you have not pass any. "
"Did you use `parse` instead of `phrase_parse`?"
);
BOOST_STATIC_ASSERT_MSG
(
(is_convertible<const Skipper &, skipper_type>::value),
"The passed skipper is not compatible/convertible to one "
"that the rule was instantiated with"
);
if constexpr(is_same<skipper_type, unused_type>::value)
qi::skip_over(first, last, skipper);
using transform = traits::transform_attribute<Attribute, attr_type, domain>;
typename transform::type attr_(transform::pre(attr_param));
context_type context(attr_);
assume(bool(func));
const bool ret
{
func(first, last, context, skipper)
};
if(ret)
transform::post(attr_param, attr_);
else
transform::fail(attr_param);
return ret;
}
template<class T1,
class T2,
class T3,
class T4>
template<class Context,
class Skipper,
class Attribute,
class Params>
inline bool
boost::spirit::qi::rule<const char *, T1, T2, T3, T4>::parse(Iterator &first,
const Iterator &last,
Context &caller_context,
const Skipper &skipper,
Attribute &attr_param,
const Params &params)
const
{
BOOST_STATIC_ASSERT_MSG
(
(is_same<skipper_type, unused_type>::value || !is_same<Skipper, unused_type>::value),
"The rule was instantiated with a skipper type but you have not pass any. "
"Did you use `parse` instead of `phrase_parse`?"
);
BOOST_STATIC_ASSERT_MSG
(
(is_convertible<const Skipper &, skipper_type>::value),
"The passed skipper is not compatible/convertible to one "
"that the rule was instantiated with"
);
if constexpr(is_same<skipper_type, unused_type>::value)
qi::skip_over(first, last, skipper);
using transform = traits::transform_attribute<Attribute, attr_type, domain>;
typename transform::type attr_(transform::pre(attr_param));
context_type context(attr_, params, caller_context);
assume(bool(func));
const bool ret
{
func(first, last, context, skipper)
};
if(ret)
transform::post(attr_param, attr_);
else
transform::fail(attr_param);
return ret;
}
#endif defined(__clang__)