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Many years ago, C compilers were not particularly smart. As a workaround K&R invented the register keyword, to hint to the compiler, that maybe it would be a good idea to keep this variable in an internal register. They also made the tertiary operator to help generate better code.

As time passed, the compilers matured. They became very smart in that their flow analysis allowing them to make better decisions about what values to hold in registers than you could possibly do. The register keyword became unimportant.

FORTRAN can be faster than C for some sorts of operations, due to alias issues. In theory with careful coding, one can get around this restriction to enable the optimizer to generate faster code.

What coding practices are available that may enable the compiler/optimizer to generate faster code?

  • Identifying the platform and compiler you use, would be appreciated.
  • Why does the technique seem to work?
  • Sample code is encouraged.

Here is a related question

[Edit] This question is not about the overall process to profile, and optimize. Assume that the program has been written correctly, compiled with full optimization, tested and put into production. There may be constructs in your code that prohibit the optimizer from doing the best job that it can. What can you do to refactor that will remove these prohibitions, and allow the optimizer to generate even faster code?

[Edit] Offset related link

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Could be a good candidate for community wiki imho since there's no 'single' definitive answer to this (interesting) question... – ChristopheD Jan 15 '10 at 19:16
I miss it every time. Thank you for pointing it out. – EvilTeach Jan 15 '10 at 19:17
By 'better' do you mean simply 'faster' or do you have other criteria of excellence in mind ? – High Performance Mark Jan 15 '10 at 19:18
It's pretty hard to write a good register allocator, especially portably, and register allocation is absolutely essential to performance and code size. register actually made performance-sensitive code more portable by combating poor compilers. – Potatoswatter Jan 17 '10 at 1:26
@EvilTeach: community wiki doesn't mean "no definitive answer", its not synonymous with the subjective tag. Community wiki means you want to surrender your post to the community so other people can edit it. Don't feel pressured to wiki your questions if you don't feel like it. – Juliet Apr 7 '10 at 16:39

32 Answers 32

One of the thing I vaguely remember from cobol in the 80s, was that there were linker options that allowed you to effect the order in which functions were linked together. This allowed you to (possibly) increase code locality.

Along that same idea. If have wondered if a possible optimization could be achieved by using the pattern

for (some silly loop)
if (something)
    if (somthing else)
        if (somthing else)
            if (somthing else)
                /* This is the normal expected case */ 
            else error 4
        else error 3
    else error 2
else error 1

The for head, and ifs, may fit into a cache block, which in theory could lead to faster loop execution.

I would guess that the elses being similar could be optimized to some degree.

Comments? Am I dreaming?

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Let the optimizer do its job.

Seriously. Don't try to outsmart the optimizer. It was designed by brilliant people with way, way more experience than you.

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That is not always the case. There are still things that the compiler has insufficient data to optimize and perform necessary modifications. Here is an example - – LiraNuna Jan 15 '10 at 20:01
-1 Question Nullification. The whole point is to ask people on SO who have that experience. Many of us write compilers + optimizers. – Hogan Jan 15 '10 at 20:58
@Hogan, I frankly do not understand your fascination with tail recursion, and simply saying that compilers can optimize it isn't actually an answer to this question. Compilers can inline functions too and do a lot of other things; so what? Rarely will that affect how you actually need to write the code, and almost never will it translate into a real-world performance improvement. Why rely on the compiler to transform your tail recursion into a loop when some compilers might not do it? Just write a loop in the first place! – Aaronaught Jan 15 '10 at 22:46
OK, here's an example: Programs that rely on SIMD (e.g. graphics/rendering/image processing) tend to require aligned data structures in order to avoid copying data all over the place. This is definitely in the realm of compiler optimizations, as it has to be done with compiler-specific instructions (__attribute__((aligned(x))) for GCC). – Tom Apr 5 '10 at 0:28
I think the simple fact is that many solutions can be made faster by telling the computer to operate in the most efficient way. A good knowledge of what the compiler will do can help that, but the compiler won't be able to optimize everything. -- More importantly, imo, is that it is easier for a compiler to optimize simple code. I suspect the downvotes come in reaction to "don't try to outsmart..." Nobody's advocating tricking it, folks are saying, "work with the compiler." – dash-tom-bang Apr 9 '10 at 18:58

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