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I am making a game in which I am storing a lot of data in one integer or long, because I will have a massive amount of data. I don't want to use whole classes for performance reasons, and they are not needed. I found two methods to retrieve one bit from an integer. I was wondering if anyone knows which one I should use or which one is faster.

The methods:

return (integer & (1 << bit)) != 0;

return (integer >> bit& 0x1) == 1;

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premature optimization is the devils plaything – austinbv Sep 10 '11 at 20:24
Perfect micro-benchmark for you to try. Run both in a loop of 1 million and time them. – Oded Sep 10 '11 at 20:24
I'm almost entirely sure the second one is just plain wrong, regardless of whether it is faster or not... – bdonlan Sep 10 '11 at 20:26
@Oli, hm, perhaps I'm misremembering the precedence of >> and & then. Still, personally, I'd put some parenthesis on that :) – bdonlan Sep 10 '11 at 20:47
up vote 15 down vote accepted

Chances are the bit you're testing is "more constant" than the int you are testing against. Therefore, you can make constants for the bit, which means you only have to do the shift once. For instance:

static final int LEFT_WALL = 1 << 1;
static final int RIGHT_WALL = 1 << 2;
static final int BOTTOM_WALL = 1 << 3;
static final int TOP_WALL = 1 << 4;

Then in your loop, you're just checking

if ((integer & LEFT_WALL) != 0)
  // left wall collision
if ((integer & RIGHT_WALL) != 0)
  // right wall collision

So you're only doing two operations (bitwise AND and compare) in the loop, not three (shift, AND and compare).

And more importantly (as pointed out in the comments) than the speed gain, it also makes it much more clear what you're using each bit for, so the code is easier to read.

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Even better than saving an op, I can read and make sense of it easily. – tvanfosson Sep 10 '11 at 20:43
awsome idea. i accually have almost the same final vars in my program too XD. btw most people are saying that this is not a very important optomization but at certain times i will have to run this about 24 million times lol – Stas Jaro Sep 10 '11 at 21:01
@stas Yeah and you're saving one shift that way, which probably with µop fusion and co costs probably one half of a cycle. So running this 24*10^6 times saves you about 12million cycles or about 4ms on a 3ghz CPU. Great savings that. – Voo Sep 10 '11 at 21:35
@Voo: shifts don't fuse, and the shift is not in any position to fuse anyway because there'd be a test after it (which can fuse with the branch). This int & const != 0 could compile to just a test/branch pair which can fuse. So it's either a shift/fused pair or just a fused test/branch, clearly the second has a shorter dependency chain, but in the shift case the shift really really has to be finished first due to the dependency so it would be 1 cycle - which is a huge difference actually because the entire thing is 2 cycles. 50% is nothing to sneeze at. – harold Sep 11 '11 at 9:06

This is implementation dependent and depends on your hardware and compiler. Without actually running any time trials, I don't think anyone can say which will be better.

Moreover, I wouldn't worry about something like this unless you have tangible evidence that this code is so time-critical that you must optimize it. Spending time microoptimizing code like this is not likely to be productive unless you know it's a performance bottleneck, and I would be extremely surprised if you couldn't get even more bonus performance by optimizing other parts of the code. Try profiling the code to see what the real bottlenecks are, then go optimize those parts.

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There's almost certainly no difference.

But the only way to be sure, for your platform, is to profile them both. You'll need to measure the time for a large number in a loop though (like 100e6), in order to minimise measurement error.

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