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Ring buffers in R and C

Ring buffers (or circular buffers) are like arrays that seem circular; data is written and read in a first-in-first-out (FIFO) style, but once allocated subsequent writes do not cause memory allocations. Circular buffers are useful for collecting and processing data streams or for queues (with a fixed maximum size). I use them to implement a solver for delay differential equations in dde.

This package provides two implementations of ring buffers:

  1. ring_buffer_env: a pure R ring buffer implemented as double linked list (using environments) that is genuinely a ring.
  2. ring_buffer_bytes: a ring buffer implemented as an array of bytes with a pair of pointers (in C). Each "element" of the array can be one or more bytes, but each must have a fixed size. There are two convenience interfaces:

Both buffer types can be used from R, and the code underlying ring_buffer_bytes can also be used compiled code in other packages using R's LinkingTo: support. A common set of methods is provided, though these do differ in some details.

Both buffer types will refuse to underflow (return elements beyond those that have been written). The behaviour on overflow can be controlled:

Depending on your application, these ring buffers may or may not be faster than manually copying data around in vectors. The benefit of this package rather than doing it by hand is abstracting away a lot of subtle bookkeeping and keeping an inteface that is fairly high level. However, for C applications, using ring_buffer_bytes via the C interface (using LinkingTo) is likely to be very fast as it avoids all copies.

See the reference documentation for details.


See the vignette online (the vignette is not currently shipped with the pacakge as installed via install_github, though once the package in on CRAN it will be available with code(vignette("ring")).

A second vignette describes possible data structures using a ring buffer.

The reference documentation is also available online, or from the package.


MIT + file LICENSE © Rich FitzJohn.

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