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construct/include/ircd/spirit/function.h

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// The Construct
//
// Copyright (C) The Construct Developers, Authors & Contributors
// Copyright (C) 2016-2020 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_FUNCTION_H
// This all prevents spirit grammar rules from generating a very large and/or
// deep call-graph where rules compose together with indirect calls and thunks
// through boost::function -- this is higly inefficient as the grammar's logic
// ends up being a fraction of the generated code and the rest is invocation
// related overhead since lots of optimizations become inhibited.
// Spirit uses `boost::function` by default, but since it's in boost:: it
// declares as `function`. We can immediately do a lot better by simply
// dropping in `std::function` as said `function` instead. However, this does
// not go far enough for most cases so we maximize optimization with a bespoke
// function object.
// Our optimized function object is built in ircd::spirit so as to not
// interpose itself by default; see below for controlling conditions.
namespace ircd::spirit
{
template<class prototype>
class function;
template<class R,
class... args>
class function<R (args...)>;
}
// Fuse-box controlling spirit::qi parsers.
namespace boost::spirit::qi
{
#if defined(__clang__)
using ircd::spirit::function;
#else
using std::function;
#endif
}
// Fusebox controlling spirit::karma generators.
namespace boost::spirit::karma
{
#if defined(__clang__)
using ircd::spirit::function;
#else
using std::function;
#endif
}
/// Internal optimized function object.
template<class R,
class... args>
class [[clang::internal_linkage]]
ircd::spirit::function<R (args...)>
{
R (*f)(void *, args...)
{
nullptr
};
void *t
{
nullptr
};
template<class T>
static R handler(void *, args...);
public:
explicit operator bool() const noexcept;
R operator()(args...) const;
template<class T>
function &operator=(T *const t) & noexcept;
template<class T>
function(T *const t) noexcept;
function(const function &, void *const &) noexcept;
function() = default;
function(function &&) = default;
function(const function &) = delete;
function &operator=(function &&) = default;
function &operator=(const function &) = delete;
~function() noexcept = default;
};
template<class R,
class... args>
inline
ircd::spirit::function<R (args...)>::function(const function &f,
void *const &t)
noexcept
:f{f.f}
,t{t}
{}
template<class R,
class... args>
template<class T>
inline
ircd::spirit::function<R (args...)>::function(T *const t)
noexcept
:f{this->handler<T>}
,t{t}
{}
template<class R,
class... args>
template<class T>
inline ircd::spirit::function<R (args...)> &
ircd::spirit::function<R (args...)>::operator=(T *const t)
& noexcept
{
this->f = this->handler<T>;
this->t = t;
return *this;
}
template<class R,
class... args>
template<class T>
[[gnu::section("text.ircd.spirit")]]
inline R
ircd::spirit::function<R (args...)>::handler(void *const t,
args... a)
{
assert(t);
return static_cast<T *>(t)->operator()(a...);
}
template<class R,
class... args>
[[gnu::always_inline]]
inline R
ircd::spirit::function<R (args...)>::operator()(args... a)
const
{
assert(this->f);
return this->f(this->t, a...);
}
template<class R,
class... args>
inline ircd::spirit::function<R (args...)>::operator
bool()
const noexcept
{
assert(!f || (f && t));
return f;
}