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Chapter 8. Boost.Circular Buffer

Jan Gaspar

Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)

Table of Contents

Introduction
Circular_buffer example
Rationale
Implementation
More Examples
Header Files
Modelled Concepts
Template Parameters
Trac Tickets
Release Notes
Acknowledgements
Documentation Version Info
Boost.Circular_buffer C++ Reference
Header <boost/circular_buffer.hpp>
Header <boost/circular_buffer/base.hpp>
Header <boost/circular_buffer/space_optimized.hpp>
Index
[Note] Note

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A Circular Buffer.

Description

The term circular buffer (also called a ring or cyclic buffer) refers to an area in memory which is used to store incoming data. When the buffer is filled, new data is written starting at the beginning of the buffer and overwriting the old.

boost::circular_buffer is a STL compliant container.

It is a kind of sequence similar to std::list or std::deque. It supports random access iterators, constant time insert and erase operations at the beginning or the end of the buffer and interoperability with std algorithms.

The circular_buffer is especially designed to provide fixed capacity storage. When its capacity is exhausted, newly inserted elements will cause elements to be overwritten, either at the beginning or end of the buffer (depending on what insert operation is used).

The circular_buffer only allocates memory when created, when the capacity is adjusted explicitly, or as necessary to accommodate resizing or assign operations.

There is also a circular_buffer_space_optimized version available.

circular_buffer_space_optimized is an adaptation of the circular_buffer which does not allocate memory all at once when created, instead it allocates memory as needed.

The predictive memory allocation is similar to typical std::vector implementation. Memory is automatically freed as the size of the container decreases.

The memory allocation process of the space-optimized circular buffer. The min_capacity of the capacity controller represents the minimal guaranteed amount of allocated memory. The allocated memory will never drop under this value. The default value of the min_capacity is set to 0. The min_capacity can be set using the constructor parameter () capacity_control or the function set_capacity.

The space-optimized version is, of course, a little slower.

Last revised: August 11, 2020 at 15:03:13 GMT


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