MySQL 8.4.2
Source Code Documentation
managed_buffer_sequence.h
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23
24/// @file managed_buffer_sequence.h
25///
26/// @brief Container class that provides a sequence of buffers to
27/// the caller.
28
29#ifndef MYSQL_BINLOG_EVENT_COMPRESSION_BUFFER_MANAGED_BUFFER_SEQUENCE_H
30#define MYSQL_BINLOG_EVENT_COMPRESSION_BUFFER_MANAGED_BUFFER_SEQUENCE_H
31
32#include <algorithm> // std::min
33#include <cassert> // assert
34#include <cstring> // std::memcpy
35#include <limits> // std::numeric_limits
36#include <vector> // std::vector
37
38#include "mysql/binlog/event/compression/buffer/buffer_view.h" // buffer::Buffer_view
39#include "mysql/binlog/event/compression/buffer/grow_calculator.h" // buffer::Grow_calculator
40#include "mysql/binlog/event/compression/buffer/grow_status.h" // buffer::Grow_status
41#include "mysql/binlog/event/compression/buffer/rw_buffer_sequence.h" // buffer::Rw_buffer_sequence
42#include "mysql/binlog/event/nodiscard.h" // NODISCARD
43#include "mysql/binlog/event/resource/allocator.h" // Allocator
44#include "mysql/binlog/event/resource/memory_resource.h" // Memory_resource
45
46#include "mysql/binlog/event/wrapper_functions.h" // BAPI_TRACE
47
48/// @addtogroup GroupLibsMysqlBinlogEvent
49/// @{
50
52
53// Forward declare Accessor so we can make it a friend
54namespace managed_buffer_sequence::unittest {
55template <class T>
57} // namespace managed_buffer_sequence::unittest
58
59/// Owned, non-contiguous, growable memory buffer.
60///
61/// This class never moves buffer data, but is non-contiguous. It is
62/// implemented as a container of Buffer objects.
63///
64/// Objects have a growable size, a movable position, and two
65/// buffer_sequence_view objects called the read part and the write
66/// part, which are accessible through the member functions @c
67/// read_part and @c write_part. The read part is everything
68/// preceding the position, and the write part is everything following
69/// the position. API clients acting as producers should write to the
70/// write part and then move the position forward as many bytes as it
71/// wrote. API clients acting as consumers should read the read part.
72///
73/// Generally, std::ostringstream or std::vector<char> are safer and
74/// simpler interfaces for buffers and should be preferred when
75/// possible. However they do not fit all use cases:
76///
77/// - std::ostringstream is preferrable and more convenient when
78/// appending existing data to the stream. But it is not suitable
79/// for interaction with C-like APIs that produce data in a char*
80/// given by the caller. The user would need to allocate a buffer
81/// outside the ostringsteam and then append the buffer to the
82/// ostringstream, which would imply unnecessary memory and cpu
83/// overheads.
84///
85/// - When using a C-like API that produces data in a char* given by
86/// the caller, std::vector is often good. The user can reserve as
87/// much memory as needed and then pass the underlying data array to
88/// the API. However, the following properties are sometimes
89/// advantageous for Managed_buffer_sequence:
90///
91/// - Vector has no practical way to put an exact bound on the
92/// memory usage. Managed_buffer_sequence uses a Grow_calculator
93/// which allows exact control over memory usage, including a
94/// maximum size.
95///
96/// - Vector has to copy all existing data when it grows.
97/// Managed_buffer_sequence never needs to copy data. Since it
98/// allows data to be non-contigous, it retains existing buffers
99/// while allocating new ones.
100///
101/// The main drawbacks of Managed_buffer_sequence are that it is
102/// non-standard, has a minimal feature set, and is non-contiguous.
103///
104/// This class never throws any exception.
105///
106/// @tparam Char_tp the type of elements stored in the buffer:
107/// typically unsigned char.
108///
109/// @tparam Container_tp The type of container to hold the buffers.
110/// This defaults to std::vector, but std::list is also possible.
111template <class Char_tp = unsigned char,
112 template <class Element_tp, class Allocator_tp> class Container_tp =
115 : public Rw_buffer_sequence<Char_tp, Container_tp> {
116 public:
118 // Would prefer to use:
119 // using typename Rw_buffer_sequence_t::Buffer_sequence_t;
120 // But that doesn't compile on Windows (maybe a compiler bug).
123 using typename Rw_buffer_sequence_t::Char_t;
127 using typename Rw_buffer_sequence_t::Size_t;
133
134 /// Construct a new, empty object.
135 ///
136 /// @param grow_calculator the policy to determine how much memory to
137 /// allocate, when new memory is needed
138 ///
139 /// @param memory_resource The memory_resource used to allocate new
140 /// memory, both for the container and for the buffers.
141 ///
142 /// @param default_buffer_count The initial size of the container.
143 /// This preallocates the container but not the buffers contained in
144 /// it.
146 const Grow_calculator_t &grow_calculator = Grow_calculator_t(),
147 const Memory_resource_t &memory_resource = Memory_resource_t(),
148 const Size_t default_buffer_count = 16)
150 Container_t(std::max(default_buffer_count, Size_t(1)),
151 Buffer_allocator_t(memory_resource)),
152 grow_calculator, memory_resource) {}
153
154 // Disallow copy/move. We can implement these in the future if we
155 // need them.
160
161 ~Managed_buffer_sequence() override { this->reset(0); }
162
163 /// Ensure the write part has at least the given size.
164 ///
165 /// This is only a convenience wrapper around @c
166 /// reserve_total_size.
167 ///
168 /// @param requested_write_size The requested size of the write
169 /// part.
170 ///
171 /// @retval success The write part now has at least the requested
172 /// size. The object may have been resized, following the rules of
173 /// the Grow_calculator.
174 ///
175 /// @retval exceeds_max_size Either size() or read_part.size() +
176 /// requested_write_size exceeds the max size configured in the
177 /// Grow_calculator. The object is unchanged.
178 ///
179 /// @retval out_of_memory The request could only be fulfilled by
180 /// allocating more memory, but memory allocation failed. The
181 /// object is unchanged.
182 [[NODISCARD]] Grow_status reserve_write_size(Size_t requested_write_size) {
183 auto read_size = this->read_part().size();
184 if (requested_write_size > std::numeric_limits<Size_t>::max() - read_size)
186 return reserve_total_size(read_size + requested_write_size);
187 }
188
189 /// Ensure the total capacity - the sum of sizes of read part and
190 /// write part - is at least the given number.
191 ///
192 /// This may add a new buffer if needed. When the previous size is
193 /// less than the default size, this may even add two buffers: the
194 /// default buffer and one more. Therefore, the caller should not
195 /// assume that all the added size resides within one buffer.
196 ///
197 /// Existing buffer data will not move. The container of buffers
198 /// may grow, which may move the Buffer objects which hold pointers
199 /// to the data. Therefore, all iterators are invalidated by this.
200 ///
201 /// @param requested_total_size The requested total size of all read
202 /// and write buffers.
203 ///
204 /// @retval success The object now has at least the requested total
205 /// size. The object may have been resized.
206 ///
207 /// @retval exceeds_max_size The existing size or the requested size
208 /// exceeds either the maximum size. The object is unchanged.
209 ///
210 /// @retval out_of_memory The request could only be fulfilled by
211 /// allocating more memory, but memory allocation failed. The
212 /// object is unchanged.
213 [[NODISCARD]] Grow_status reserve_total_size(Size_t requested_total_size) {
214 auto work = [&] {
215 auto capacity = this->capacity();
216 auto [error, new_capacity] =
217 m_grow_calculator.compute_new_size(capacity, requested_total_size);
219 if (new_capacity > capacity) {
220 if (allocate_and_add_buffer(new_capacity - capacity))
222 }
224 };
225 auto ret = work();
226 BAPI_LOG("info", BAPI_VAR(ret)
227 << " " << BAPI_VAR(requested_total_size) << " "
228 << BAPI_VAR(this->capacity()) << " "
230 return ret;
231 }
232
233 /// Reset the read part and the write part to size 0.
234 ///
235 /// This optionally keeps a given number of allocated buffers in the
236 /// write part, as well as a given amount of container capacity.
237 ///
238 /// @param keep_buffer_count The number of existing buffers to keep.
239 /// Using a nonzero value for this reduces container allocations
240 /// when this object is reused. If the container has fewer buffers,
241 /// the existing buffers will be kept and no more will be allocated.
242 /// If the container has more buffers, the excess buffers will be
243 /// deallocated.
244 ///
245 /// @param keep_container_capacity The amount of container capacity
246 /// to keep. Using a small nonzero value for this reduces container
247 /// allocations when this object is reused. This must be at least
248 /// the number of kept buffers plus two; otherwise it is modified to
249 /// that number. If the underlying container type is a vector, it
250 /// will only shrink if it would reduce the number of elements by
251 /// half.
252 void reset(Size_t keep_buffer_count = 1,
253 // NOLINTNEXTLINE(readability-magic-numbers)
254 Size_t keep_container_capacity = 16) {
256 // Move all buffers from read part to write part.
257 this->set_position(0);
258
259 // Skip over buffers we need to keep, and count them.
260 auto it = this->write_part().begin();
261 assert(std::distance(this->m_buffers.begin(), it) == 1);
262 Size_t kept_buffer_count = 0;
263 Size_t kept_size = 0;
264 for (; it != this->write_part().end() &&
265 kept_buffer_count < keep_buffer_count;
266 ++it) {
267 ++kept_buffer_count;
268 kept_size += it->size();
269 }
270
271 // Deallocate buffers we don't need to keep.
272 for (; it != this->write_part().end(); ++it) {
273 m_char_allocator.deallocate(it->data(), it->size());
274 *it = Buffer_view_t();
275 }
276
277 // Remove exceess container capacity.
278 keep_container_capacity =
279 std::max(keep_container_capacity, 2 + kept_buffer_count);
280 reset_container(m_buffers, keep_container_capacity);
281
282 // Reset Buffer_sequences
283 it = m_buffers.begin();
284 this->read_part() = Buffer_sequence_view_t(it, it, 0);
285 ++it;
286 this->write_part() =
287 Buffer_sequence_view_t(it, std::next(it, kept_buffer_count), kept_size);
288 }
289
290 /// Return a const reference to the grow calculator.
292 return m_grow_calculator;
293 }
294
295 /// Set the grow calculator.
296 void set_grow_calculator(const Grow_calculator_t &grow_calculator) {
297 m_grow_calculator = grow_calculator;
298 }
299
300 /// Append the given data.
301 ///
302 /// This will grow the buffer if needed. Then it writes the data to
303 /// the write part, and moves the position so that the written
304 /// becomes part of the read part instead of the write part.
305 ///
306 /// @param data The data to write
307 ///
308 /// @param size The number of bytes to write.
309 ///
310 /// @retval success The buffer already had enough capacity, or could
311 /// be grown without error. The data has been appended and the
312 /// position has been advanced `size` bytes.
313 ///
314 /// @retval out_of_memory An out of memory condition occurred when
315 /// allocating memory for the buffer. This object is unchanged.
316 ///
317 /// @retval exceeds_max_size The required size would exceed the
318 /// maximum specified by the Grow_calculator. This object is
319 /// unchanged.
321 auto grow_status = this->reserve_write_size(size);
322 if (grow_status != Grow_status::success) return grow_status;
323 const auto *remaining_data = data;
324 auto remaining_size = size;
325 auto buffer_it = this->write_part().begin();
326 while (remaining_size != 0) {
327 auto copy_size = std::min(buffer_it->size(), remaining_size);
328 std::memcpy(buffer_it->begin(), remaining_data, copy_size);
329 remaining_data += copy_size;
330 remaining_size -= copy_size;
331 ++buffer_it;
332 }
333 this->increase_position(size);
335 }
336
337 /// In debug mode, return a string that describes the internal
338 /// structure of this object, to use for debugging.
339 ///
340 /// @param show_contents If true, includes the buffer contents.
341 /// Otherwise, just pointers and sizes.
342 ///
343 /// @param indent If 0, put all info on one line. Otherwise, put
344 /// each field on its own line and indent the given number of
345 /// two-space levels.
346 std::string debug_string([[maybe_unused]] bool show_contents,
347 [[maybe_unused]] int indent) const override {
348#ifdef NDEBUG
349 return "";
350#else
351 std::string sep;
352 if (indent != 0)
353 sep = std::string(",\n") +
354 std::string(static_cast<std::string::size_type>(indent * 2), ' ');
355 else
356 sep = ", ";
357 int next_indent = (indent != 0) ? indent + 1 : 0;
359 // clang-format off
360 ss << "Managed_buffer_sequence(ptr=" << (const void *)this
361 << sep << Rw_buffer_sequence_t::debug_string(show_contents, next_indent)
363 << sep << "buffers.size=" << m_buffers.size()
364 << ")";
365 // clang-format on
366 return ss.str();
367#endif
368 }
369
370 /// In debug mode, return a string that describes the internal
371 /// structure of this object, to use for debugging.
372 ///
373 /// @param show_contents If true, includes the buffer contents.
374 /// Otherwise, just pointers and sizes.
375 std::string debug_string([[maybe_unused]] bool show_contents = false) const {
376 return debug_string(show_contents, 0);
377 }
378
379 protected:
380 /// Construct a new object from a given container, where both the
381 /// read part and the write part are size zero.
382 ///
383 /// The container will be moved. All elements in the container must
384 /// be null buffers.
385 ///
386 /// @param buffers Container of buffers. This must have at least one
387 /// element. All elements must be null buffers.
388 ///
389 /// @param grow_calculator determines how much memory to allocate
390 /// when new memory is needed.
391 ///
392 /// @param memory_resource The memory_resource used to allocate new
393 /// memory, both for the container and for the buffers.
395 const Grow_calculator_t &grow_calculator,
396 const Memory_resource_t &memory_resource)
397 : Rw_buffer_sequence_t(buffers.begin(), std::next(buffers.begin())),
398 m_grow_calculator(grow_calculator),
399 m_char_allocator(memory_resource),
400 m_buffers(std::move(buffers)) {
401#ifndef NDEBUG
402 assert(m_buffers.size() >= 1);
403 for (auto &buffer : m_buffers) {
404 assert(buffer.data() == nullptr);
405 assert(buffer.size() == 0);
406 }
407#endif
408 }
409
410 /// Allocate and add a new buffer.
411 ///
412 /// @param size The size of the new buffer that should be allocated.
413 ///
414 /// @retval true An out of memory condition occurred, and the
415 /// function did not produce any side effects.
416 ///
417 /// @retval false The operation succeeded, and the object now has at
418 /// least the requested size.
420 // Allocate the data.
421 auto data = m_char_allocator.allocate(size);
422 if (data == nullptr) {
423 BAPI_LOG("info", "error: out of memory allocating " << size << " bytes");
424 return true;
425 }
426 // Add the buffer to the container.
427 if (add_buffer(data, size)) {
428 BAPI_LOG("info", "error: out of memory growing container of "
429 << m_buffers.size() << " elements");
431 return true;
432 }
433 return false;
434 }
435
436 /// Insert the given buffer in the container, appending it to the
437 /// write part.
438 ///
439 /// @param buffer_data The buffer.
440 ///
441 /// @param buffer_size The buffer size.
442 ///
443 /// @retval false Success.
444 ///
445 /// @retval true An out of memory error occurred when growing the
446 /// container.
447 [[NODISCARD]] bool add_buffer(Char_t *buffer_data, Size_t buffer_size) {
449 auto [write_begin, write_end, write_size] =
450 this->get_boundaries(this->write_part());
451 if (write_end == m_buffers.end()) {
452 // Compute relative positions for all iterators.
453 auto [read_begin, read_end, read_size] =
454 this->get_boundaries(this->read_part());
455 auto read_end_offset = std::distance(read_begin, read_end);
456 auto write_begin_offset = std::distance(read_begin, write_begin);
457 auto write_end_offset = std::distance(read_begin, write_end);
458 // Insert in container, and handle the out-of-memory case.
459 try {
460 m_buffers.emplace_back(buffer_data, buffer_size);
461 } catch (...) {
462 BAPI_LOG("info", "error: out of memory growing container");
463 return true;
464 }
465 // Compute new iterators based on relative position from new
466 // beginning.
467 read_begin = m_buffers.begin();
468 read_end = std::next(read_begin, read_end_offset);
469 write_begin = std::next(read_begin, write_begin_offset);
470 write_end = std::next(read_begin, write_end_offset + 1);
471 // Update Buffer_sequence objects with new iterators.
472 this->read_part() =
473 Buffer_sequence_view_t(read_begin, read_end, read_size);
474 } else {
475 *write_end = Buffer_view_t(buffer_data, buffer_size);
476 ++write_end;
477 }
478 this->write_part() = Buffer_sequence_view_t(write_begin, write_end,
479 write_size + buffer_size);
480 return false;
481 }
482
483 using List_t = typename std::list<Buffer_view_t, Buffer_allocator_t>;
484 using List_iterator_t = typename List_t::iterator;
485 using Vector_t = typename std::vector<Buffer_view_t, Buffer_allocator_t>;
486 using Vector_iterator_t = typename Vector_t::iterator;
487
488 /// `std::vector`-specific function to reset the container.
489 ///
490 /// This shrinks the vector to keep_container_capacity if it is bigger
491 /// than twice keep_container_capacity.
492 ///
493 /// @param[in,out] container Reference to the vector to be reset.
494 ///
495 /// @param keep_container_capacity Keep a number of elements in the
496 /// vector, to save on future vector resize operations. If the
497 /// number of elements is at least twice this number, the vector
498 /// size is reduced to this number.
499 ///
501 Size_t keep_container_capacity) {
502 if (container.capacity() > 2 * keep_container_capacity) {
503 container.resize(keep_container_capacity);
504 container.shrink_to_fit();
505 }
506 }
507
508 /// `std::list`-specific function to reset the container.
509 ///
510 /// This shrinks the list to @c keep_container_capacity if it is
511 /// bigger than @c keep_container_capacity.
512 ///
513 /// @param[in,out] container Reference to the list to be reset.
514 ///
515 /// @param keep_container_capacity Keep this number of elements in
516 /// the list, in order to save future allocations of list nodes.
517 ///
519 Size_t keep_container_capacity) {
520 if (container.size() > keep_container_capacity)
521 container.resize(keep_container_capacity);
522 }
523
524 private:
525 /// Determines how much memory to allocate when new memory is
526 /// needed.
528
529 /// Allocator to allocate buffer data (characters).
531
532 /// Container of buffers.
534
535 /// Open the class internals to any class named Accessor<T>, for
536 /// some T.
537 ///
538 /// This may be used by unit tests that need access to internals.
539 ///
540 /// For example, if unittest SomeTest needs access to member `int m`,
541 /// define the helper class:
542 /// @code
543 /// namespace
544 /// mysql::binlog::event::compression::buffer::managed_buffer_sequence::unittest
545 /// { template<> class Accessor<SomeTest> {
546 /// static int &m(Managed_buffer_sequence &rbs) { return rbs.m; }
547 /// };
548 /// }
549 /// @endcode
550 template <class T>
552};
553
554} // namespace mysql::binlog::event::compression::buffer
555
556/// @}
557
558#endif // MYSQL_BINLOG_EVENT_COMPRESSION_BUFFER_MANAGED_BUFFER_SEQUENCE_H
Class that groups a pointer+size as one object, without managing the memory for it.
Sequence of memory buffers.
Definition: buffer_sequence_view.h:72
Iterator_t begin()
Iterator to the first buffer.
Definition: buffer_sequence_view.h:117
Size_t size() const
Return the total size of all buffers.
Definition: buffer_sequence_view.h:164
Iterator_t end()
Iterator to the last buffer.
Definition: buffer_sequence_view.h:120
mysql::binlog::event::resource::Allocator< Buffer_view_t > Buffer_allocator_t
Definition: buffer_sequence_view.h:78
Description of a heuristic to determine how much memory to allocate.
Definition: grow_calculator.h:68
Result_t compute_new_size(Size_t old_size, Size_t requested_size) const
Compute the new size.
Definition: grow_calculator.cpp:39
Size_t get_max_size() const
Definition: grow_constraint.cpp:32
std::string debug_string() const
In debug mode, return a string that describes the internal structure of this object,...
Definition: grow_constraint.h:124
Owned, non-contiguous, growable memory buffer.
Definition: managed_buffer_sequence.h:115
std::string debug_string(bool show_contents, int indent) const override
In debug mode, return a string that describes the internal structure of this object,...
Definition: managed_buffer_sequence.h:346
typename std::list< Buffer_view_t, Buffer_allocator_t > List_t
Definition: managed_buffer_sequence.h:483
~Managed_buffer_sequence() override
Definition: managed_buffer_sequence.h:161
Char_allocator_t m_char_allocator
Allocator to allocate buffer data (characters).
Definition: managed_buffer_sequence.h:530
bool add_buffer(Char_t *buffer_data, Size_t buffer_size)
Insert the given buffer in the container, appending it to the write part.
Definition: managed_buffer_sequence.h:447
std::string debug_string(bool show_contents=false) const
In debug mode, return a string that describes the internal structure of this object,...
Definition: managed_buffer_sequence.h:375
Grow_calculator Grow_calculator_t
Definition: managed_buffer_sequence.h:128
typename Buffer_sequence_view_t::Buffer_allocator_t Buffer_allocator_t
Definition: managed_buffer_sequence.h:130
Managed_buffer_sequence & operator=(Managed_buffer_sequence &)=delete
static void reset_container(List_t &container, Size_t keep_container_capacity)
std::list-specific function to reset the container.
Definition: managed_buffer_sequence.h:518
typename std::vector< Buffer_view_t, Buffer_allocator_t > Vector_t
Definition: managed_buffer_sequence.h:485
void reset(Size_t keep_buffer_count=1, Size_t keep_container_capacity=16)
Reset the read part and the write part to size 0.
Definition: managed_buffer_sequence.h:252
Grow_status write(const Char_t *data, Size_t size)
Append the given data.
Definition: managed_buffer_sequence.h:320
Container_t m_buffers
Container of buffers.
Definition: managed_buffer_sequence.h:533
typename List_t::iterator List_iterator_t
Definition: managed_buffer_sequence.h:484
typename Buffer_sequence_view_t::Char_t Char_t
Definition: rw_buffer_sequence.h:110
typename Buffer_sequence_view_t::Container_t Container_t
Definition: rw_buffer_sequence.h:116
const Grow_calculator_t & get_grow_calculator() const
Return a const reference to the grow calculator.
Definition: managed_buffer_sequence.h:291
Grow_status reserve_write_size(Size_t requested_write_size)
Ensure the write part has at least the given size.
Definition: managed_buffer_sequence.h:182
typename Vector_t::iterator Vector_iterator_t
Definition: managed_buffer_sequence.h:486
typename Buffer_sequence_view_t::Size_t Size_t
Definition: rw_buffer_sequence.h:111
Managed_buffer_sequence & operator=(Managed_buffer_sequence &&)=delete
mysql::binlog::event::resource::Memory_resource Memory_resource_t
Definition: managed_buffer_sequence.h:132
Buffer_sequence_view< Char_tp, Container_tp > Buffer_sequence_view_t
Definition: managed_buffer_sequence.h:121
Grow_calculator_t m_grow_calculator
Determines how much memory to allocate when new memory is needed.
Definition: managed_buffer_sequence.h:527
Grow_status reserve_total_size(Size_t requested_total_size)
Ensure the total capacity - the sum of sizes of read part and write part - is at least the given numb...
Definition: managed_buffer_sequence.h:213
static void reset_container(Vector_t &container, Size_t keep_container_capacity)
std::vector-specific function to reset the container.
Definition: managed_buffer_sequence.h:500
void set_grow_calculator(const Grow_calculator_t &grow_calculator)
Set the grow calculator.
Definition: managed_buffer_sequence.h:296
bool allocate_and_add_buffer(Size_t size)
Allocate and add a new buffer.
Definition: managed_buffer_sequence.h:419
typename Buffer_sequence_view_t::Buffer_view_t Buffer_view_t
Definition: rw_buffer_sequence.h:113
Managed_buffer_sequence(Container_t buffers, const Grow_calculator_t &grow_calculator, const Memory_resource_t &memory_resource)
Construct a new object from a given container, where both the read part and the write part are size z...
Definition: managed_buffer_sequence.h:394
Managed_buffer_sequence(const Grow_calculator_t &grow_calculator=Grow_calculator_t(), const Memory_resource_t &memory_resource=Memory_resource_t(), const Size_t default_buffer_count=16)
Construct a new, empty object.
Definition: managed_buffer_sequence.h:145
Non-owning manager for a fixed sequence of memory buffers, which is split into a read part and a writ...
Definition: rw_buffer_sequence.h:107
const Buffer_sequence_view_t & write_part() const
Return a const reference to the write part.
Definition: rw_buffer_sequence.h:225
Size_t capacity() const
Return the current size, i.e., total size of all buffers.
Definition: rw_buffer_sequence.h:216
typename Buffer_sequence_view_t::Iterator_t Iterator_t
Definition: rw_buffer_sequence.h:117
void increase_position(Size_t delta)
Move the position right, relative to the current position.
Definition: rw_buffer_sequence.h:187
const Buffer_sequence_view_t & read_part() const
Return a const reference to the read part.
Definition: rw_buffer_sequence.h:219
void set_position(Size_t new_position)
Set the specified absolute position.
Definition: rw_buffer_sequence.h:168
typename Buffer_sequence_view_t::Char_t Char_t
Definition: rw_buffer_sequence.h:110
typename Buffer_sequence_view_t::Container_t Container_t
Definition: rw_buffer_sequence.h:116
typename Buffer_sequence_view_t::Size_t Size_t
Definition: rw_buffer_sequence.h:111
typename Buffer_sequence_view_t::Const_iterator_t Const_iterator_t
Definition: rw_buffer_sequence.h:118
typename Buffer_sequence_view_t::Buffer_view_t Buffer_view_t
Definition: rw_buffer_sequence.h:113
static std::tuple< Iterator_t, Iterator_t, Size_t > get_boundaries(Buffer_sequence_view_t &buffer_sequence_view)
Return the beginning, end, and size of the read and write parts.
Definition: rw_buffer_sequence.h:477
virtual std::string debug_string(bool show_contents, int indent) const
In debug mode, return a string that describes the internal structure of this object,...
Definition: rw_buffer_sequence.h:239
constexpr T * allocate(size_type n)
Use the Memory_resource to allocate the given number of elements of type T.
Definition: allocator.h:84
constexpr void deallocate(T *p, size_type size)
Use the Memory_resource to deallocate the given pointer.
Definition: allocator.h:95
Polymorphism-free memory resource class with custom allocator and deallocator functions.
Definition: memory_resource.h:88
void * data() const noexcept
Definition: buffer.h:119
size_t size() const noexcept
Definition: buffer.h:120
Allocator class that uses a polymorphic Memory_resource to allocate memory.
Class that wraps resources in a polymorphic manner.
void error(const char *format,...)
Definition: atomics_array.h:39
bool distance(const dd::Spatial_reference_system *srs, const Geometry *g1, const Geometry *g2, double *distance, bool *is_null) noexcept
Computes the distance between two geometries.
Definition: distance.cc:40
Definition: buffer_sequence_view.h:51
Grow_status
Error statuses for classes that use Grow_calculator.
Definition: grow_status.h:38
@ exceeds_max_size
A grow operation could not be performed because there is a configured maximum size.
@ out_of_memory
A grow operation failed because memory allocation failed.
const char * begin(const char *const c)
Definition: base64.h:44
size_t size(const char *const c)
Definition: base64.h:46
mutable_buffer buffer(void *p, size_t n) noexcept
Definition: buffer.h:418
size_t buffer_size(const ConstBufferSequence &buffers) noexcept
Definition: buffer.h:313
Definition: gcs_xcom_synode.h:64
std::basic_ostringstream< char, std::char_traits< char >, ut::allocator< char > > ostringstream
Specialization of basic_ostringstream which uses ut::allocator.
Definition: ut0new.h:2870
std::vector< T, ut::allocator< T > > vector
Specialization of vector which uses allocator.
Definition: ut0new.h:2874
#define NODISCARD
The function attribute [[NODISCARD]] is a replacement for [[nodiscard]] to workaround a gcc bug.
Definition: nodiscard.h:47
Container class that provides a sequence of buffers to the caller.
Contains wrapper functions for memory allocation and deallocation.
#define BAPI_LOG(x, y)
Definition: wrapper_functions.h:67
#define BAPI_TRACE
Definition: wrapper_functions.h:65
#define BAPI_VAR(v)
Definition: wrapper_functions.h:68