# Simplified algorithm for calculating remaining space in a circular buffer?

I was wonder if there is a simpler (single) way to calculate the remaining space in a circular buffer than this?

``````int remaining = (end > start)
? end-start
: bufferSize - start + end;
``````
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That looks good to me. The only other option is if this is in a class then maintaining the remaining space in a variable. –  LeppyR64 Jan 16 '09 at 14:36

If you're worried about poorly-predicted conditionals slowing down your CPU's pipeline, you could use this:

``````int remaining = (end - start) + (-((int) (end <= start)) & bufferSize);
``````

But that's likely to be premature optimisation (unless you have really identified this as a hotspot). Stick with your current technique, which is much more readable.

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Hmmm....

``````int remaining = (end - start + bufferSize) % bufferSize;
``````

13 tokens, do I win?

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That is brief, although adding a divide will make your version slower on most architectures. –  Drew Dormann Jan 16 '09 at 17:02
So make the buffer size a power of 2. –  Arkadiy Jan 16 '09 at 18:01

According to the C++ Standard, section 5.6, paragraph 4:

The binary / operator yields the quotient, and the binary % operator yields the remainder from the division of the first expression by the second. If the second operand of / or % is zero the behavior is undefined; otherwise (a/b)*b + a%b is equal to a. If both operands are nonnegative then the remainder is nonnegative; if not, the sign of the remainder is implementation-defined.

A footnote suggests that rounding the quotient towards zero is preferred, which would leave the remainder negative.

Therefore, the `(end - start) % bufferSize` approaches do not work reliably. C++ does not have modular arithmetic (except in the sense offered by unsigned integral types).

The approach recommended by j_random_hacker is different, and looks good, but I don't know that it's any actual improvement in simplicity or speed. The conversion of a boolean to an int is ingenious, but requires mental parsing, and that fiddling could be more expensive than the use of ?:, depending on compiler and machine.

I think you've got the simplest and best version right there, and I wouldn't change it.

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Agreed -- code clarity beats a 0.001% speed increase any day! :) –  j_random_hacker Jan 16 '09 at 15:00

Lose the conditional:

``````int remaining = (end + bufferSize - start - 1) % bufferSize + 1
``````

Edit: The `-1` and `+1` are for the case when `end == start`. In that case, this method will assume the buffer is empty. Depending on the specific implementation of your buffer, you may need to adjust these to avoid an off-by-1 situation.

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In C and C++, the % isn't a real modulo operator, but rather a remainder. The difference is that, when one of the operands is negative, the sign of the result is implementation-defined. –  David Thornley Jan 16 '09 at 14:52
Doesn't buffersize + 1 need to be between parentheses? –  zaratustra Jan 16 '09 at 15:18
and adding an abs() call would slow it down, too –  warren Nov 24 '09 at 8:27

If your circular buffer size is a power of two, you can do even better by having `start` and `end` represent positions in a virtual stream instead of indices into the circular buffer's storage. Assuming that `start` and `end` are unsigned, the above becomes:

``````int remaining= bufferSize - (end - start);
``````

Actually getting elements out of the buffer is a little more complicated, but the overhead is usually small enough with a power of 2 sized circular buffer (just masking with `bufferSize - 1`) to make all the other logic of your circular buffer much simpler and cleaner. Plus, you get to use all the elements since you no longer worry about `end==start`!

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