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construct/include/ircd/spirit/generate.h

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11 KiB
C++

// 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.
#define HAVE_IRCD_SPIRIT_GENERATE_H
/// This file is not part of the IRCd standard include list (stdinc.h) because
/// it involves extremely expensive boost headers for creating formal spirit
/// grammars. This file is automatically included in the spirit.h group.
namespace ircd {
namespace spirit
__attribute__((visibility("default")))
{
IRCD_EXCEPTION(error, generator_error);
IRCD_EXCEPTION(generator_error, buffer_overrun);
constexpr size_t
generator_buffer_size {64_KiB},
generator_buffer_count {8};
extern thread_local struct generator_state *
generator_state;
extern thread_local char
generator_buffer[generator_buffer_count][generator_buffer_size];
}}
namespace ircd {
namespace spirit
__attribute__((visibility("internal")))
{
using prop_mask = mpl_::int_
<
karma::generator_properties::no_properties
| karma::generator_properties::buffering
| karma::generator_properties::counting
| karma::generator_properties::tracking
| karma::generator_properties::disabling
>;
using sink_type = karma::detail::output_iterator
<
char *, prop_mask, unused_type
>;
template<bool truncation = false,
class gen,
class... attr>
bool generate(mutable_buffer &out, gen&&, attr&&...);
}}
/// This structure is a shadow for the default spirit::karma buffering
/// stack. They conduct buffering by allocating and copying standard strings
/// to implement certain karma directives like "right_align[]" etc. Instead
/// we reimplement optimized buffering with assumptions specific to our
/// application's tolerances. We assume a maximum size of a buffer and maximum
/// height of any stack growing from an ircd::spirit::generate() call without
/// need for reentrancy. This gives us the ability to pre-allocate thread_local
/// buffers.
struct [[gnu::visibility("internal")]]
ircd::spirit::generator_state
{
/// The number of instances stacked behind the current state. This should
/// never be greater than the generator_buffer_count
static uint depth() noexcept;
/// Destination buffer for this level of the stack. For depth=0 this will
/// be the user's buffer, otherwise it will be the thread-local generator
/// buffer at depth - 1.
///
/// N.B. The `begin()` of this buffer will be advanced by spirit when the
/// depth=0 as part of the output iterator process. It is never touched when
/// depth>0 because it directly refers to one of the static buffers.
mutable_buffer &out;
/// Previous in buffer stack. This is null for the instance created in the
/// frame for ircd::spirit::generate(), which is the base of the stack.
struct generator_state *prev {nullptr};
/// The number of characters we're storing in buffer at `out`. When
/// `depth>0` this will be the number of characters stored in one of the
/// static buffers between `begin(out), begin(out)+consumed` and safely
/// saturates at the maximum size of the buffer. When `depth=0` this
/// indicates the number of characters *behind* `begin(out)` it still
/// safely saturates at the maximum size of the user's buffer.
uint consumed {0};
/// The number of characters attempted, which may be larger than the buffer
/// capacity and value stored in `consumed`. Thus the difference between
/// generated and consumed is an overflow value which estimates the number
/// of characters which would've been required for the generation.
uint generated {0};
};
template<bool truncation,
class gen,
class... attr>
[[using gnu: always_inline, gnu_inline]]
extern inline bool
ircd::spirit::generate(mutable_buffer &out,
gen&& g,
attr&&... a)
{
// Save the user buffer as originally provided in case we need to restore it.
const mutable_buffer user
{
out
};
// Base instance for the buffering stack (see `struct generator_state`).
struct generator_state state
{
out
};
// Set the thread-local generator_state pointer to our stack instance. This
// will cooperatively restore whatever value was previously there, though
// it should be null.
assert(!generator_state);
const scope_restore _state
{
generator_state, &state
};
sink_type sink
{
begin(out)
};
// Enter into `spirit::karma` to execute the generator
const auto ret
{
karma::generate(sink, std::forward<gen>(g), std::forward<attr>(a)...)
};
// Determine if the user's buffer was enough to store the result; if not
// there will be an overflow value.
assert(state.generated >= state.consumed);
const auto overflow
{
state.generated - state.consumed
};
// Compile-time branch for generators that tolerate truncation (i.e. fmt::)
if constexpr(truncation)
{
begin(out) = begin(out) > end(out)? end(out): begin(out);
assert(begin(out) <= end(out));
return ret;
}
// Branch to throw an exception for generators that do not tolerate
// truncated results (i.e. json::).
if(unlikely(overflow || begin(out) > end(out)))
{
begin(out) = begin(user);
assert(begin(out) <= end(out));
char pbuf[2][48];
throw buffer_overrun
{
"Insufficient buffer of %s; required at least %s",
pretty(pbuf[0], iec(state.consumed)),
pretty(pbuf[1], iec(state.generated)),
};
}
assert(begin(out) >= end(out) - size(user));
assert(begin(out) <= end(out));
return ret;
}
inline uint
ircd::spirit::generator_state::depth()
noexcept
{
uint ret(0);
for(auto p(ircd::spirit::generator_state); p; p = p->prev)
++ret;
return ret;
}
//
// boost::spirit::karma
//
namespace boost::spirit::karma::detail
{
template<> struct enable_buffering<ircd::spirit::sink_type>;
}
template<>
struct [[gnu::visibility("internal")]]
boost::spirit::karma::detail::enable_buffering<ircd::spirit::sink_type>
{
uint width
{
0
};
uint depth
{
ircd::spirit::generator_state::depth()
};
ircd::mutable_buffer buffer
{
depth?
ircd::spirit::generator_buffer[depth - 1]:
data(ircd::spirit::generator_state->out),
depth?
sizeof(ircd::spirit::generator_buffer[depth - 1]):
size(ircd::spirit::generator_state->out),
};
struct ircd::spirit::generator_state state
{
buffer, ircd::spirit::generator_state
};
ircd::scope_restore<struct ircd::spirit::generator_state *> stack_state
{
ircd::spirit::generator_state, std::addressof(state)
};
std::size_t buffer_size() const
{
return state.generated;
}
template<typename OutputIterator>
bool buffer_copy_to(OutputIterator& sink, std::size_t maxwidth = std::size_t(-1)) const = delete;
template<typename RestIterator>
bool buffer_copy_rest(RestIterator& sink, std::size_t start_at = 0) const = delete;
bool buffer_copy(std::size_t maxwidth = std::size_t(-1));
void disable();
enable_buffering(ircd::spirit::sink_type &sink, std::size_t width = std::size_t(-1));
~enable_buffering() noexcept;
};
inline
boost::spirit::karma::detail::enable_buffering<ircd::spirit::sink_type>::enable_buffering(ircd::spirit::sink_type &sink,
std::size_t width)
:width
{
uint(width)
}
{
assert(size(buffer) != 0);
assert(this->depth <= 8);
}
inline
boost::spirit::karma::detail::enable_buffering<ircd::spirit::sink_type>::~enable_buffering()
noexcept
{
assert(ircd::spirit::generator_state == &state);
//disable();
}
inline void
boost::spirit::karma::detail::enable_buffering<ircd::spirit::sink_type>::disable()
{
const auto width
{
this->width != -1U? this->width: state.consumed
};
const uint off
{
width > state.consumed? width - state.consumed: 0U
};
const ircd::const_buffer src
{
state.out, state.consumed
};
const ircd::mutable_buffer dst
{
state.out + off
};
const auto moved
{
ircd::move(dst, src)
};
assert(moved == state.consumed);
state.consumed = !off? state.consumed: 0U;
}
inline bool
boost::spirit::karma::detail::enable_buffering<ircd::spirit::sink_type>::buffer_copy(std::size_t maxwidth)
{
assert(state.prev);
auto &prev
{
*state.prev
};
const bool prev_base
{
prev.prev == nullptr
};
const auto width
{
this->width != -1U?
this->width:
state.consumed
};
const auto dst_disp
{
prev_base?
-ssize_t(state.consumed):
ssize_t(prev.consumed)
};
const auto dst_over
{
std::begin(prev.out) > std::end(prev.out)?
std::distance(std::end(prev.out), std::begin(prev.out)):
0L
};
const auto dst_size
{
prev_base?
std::max(state.consumed - dst_over, 0L):
size(prev.out) - prev.consumed
};
const ircd::mutable_buffer dst
{
data(prev.out) + dst_disp, dst_size
};
const ircd::const_buffer src
{
state.out, std::max(state.consumed, width)
};
const auto copied
{
ircd::copy(dst, src)
};
prev.generated += state.generated;
prev.consumed += copied;
return true; // sink.good();
}
template<>
inline bool
boost::spirit::karma::detail::buffering_policy::output(const char &value)
{
assert(ircd::spirit::generator_state);
auto &state
{
*ircd::spirit::generator_state
};
const bool buffering
{
this->buffer != nullptr
};
const bool base
{
state.prev == nullptr
};
const uint off
{
ircd::boolmask<uint>(!base | buffering) & state.consumed
};
const auto dst
{
state.out + off
};
const auto copied
{
ircd::copy(dst, value)
};
state.consumed += copied;
state.generated += sizeof(char);
return !buffering;
}
template<>
inline void
boost::spirit::karma::detail::position_policy::output(const char &value)
{
}
#if 0
template<>
template<>
inline void
boost::spirit::karma::detail::counting_policy<ircd::spirit::sink_type>::output(const char &value)
{
assert(count == nullptr);
}
#endif
template<>
template<>
inline bool
boost::spirit::karma::detail::disabling_output_iterator
<
boost::spirit::karma::detail::buffering_policy,
boost::spirit::karma::detail::counting_policy<ircd::spirit::sink_type>,
boost::spirit::karma::detail::position_policy
>
::output(const char &value)
{
assert(do_output);
this->counting_policy::output(value);
this->tracking_policy::output(value);
return this->buffering_policy::output(value);
}
template<>
template<>
inline void
ircd::spirit::sink_type::operator=(const char &value)
{
this->base_iterator::output(value);
}
template<>
inline ircd::spirit::sink_type &
ircd::spirit::sink_type::operator++()
{
const bool has_buffer
{
this->base_iterator::has_buffer()
};
(*sink) += !has_buffer;
return *this;
}
template<>
inline ircd::spirit::sink_type
ircd::spirit::sink_type::operator++(int)
{
auto copy(*this);
++(*this);
return copy;
}
template<>
inline bool
ircd::spirit::sink_type::good()
const
{
return true;
}