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What does the register keyword do in C language? I have read that it is used for optimizing but is not clearly defined in any standard. Is it still relevant and if so, when would you use it?

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What does the register keyword do in C? gets ignored :) –  bestsss Feb 25 '11 at 16:50
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@bestsss Not completely ignored. Try to get an address of register variable. –  qrdl Jun 14 '12 at 11:58
    
That code you're reading is old youtube.com/watch?v=ibF36Yyeehw#t=1827 –  Colonel Panic Dec 23 '14 at 16:03

13 Answers 13

up vote 172 down vote accepted

It's a hint to the compiler that the variable will be heavily used and that you recommend it be kept in a processor register if possible.

Most modern compilers do that automatically, and are better at picking them than us humans.

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Well, I experimented with register to get my ACM submissions tweaked, and sometimes it really helped. But you really have to be carful, because poor choices degrade performance. –  ypnos Feb 23 '09 at 16:20
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A good reason not to use 'register': you can't take the address of a variable declared 'register' –  Adam Rosenfield Feb 23 '09 at 16:21
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Note that some/many compilers will completely ignore the register keyword (which is perfectly legal). –  Euro Micelli Feb 23 '09 at 17:49
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ypnos: Actually the speed of a solution for ACM ICPC problems depends much more on the algorithm choice than on such micro-optimizations. The 5-second time limit is usually enough for a correct solution, especially when using C instead of Java. –  Joey Oct 15 '09 at 13:12
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@Euro: You probably know this, but just to be explicit, the compiler is required to prevent the address of a register variable from being taken; this is the only mandatory effect of the register keyword. Even this is sufficient to improve optimizations, because it becomes trivial to tell that the variable can only be modified within this function. –  Dale Hagglund Feb 9 '10 at 18:26

It tells the compiler to try to use a CPU register, instead of RAM, to store the variable. Registers are in the CPU and much faster to access than RAM. But it's only a suggestion to the compiler, and it may not follow through.

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Worth adding for people using C++, C++ lets you take the address of a register variable –  Will Mar 30 '12 at 16:07
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@Will: ...but the compiler will likely end up ignoring the keyword as a result. See my answer. –  DragonLord Dec 16 '12 at 23:03
    
Yes, it seems that 'register' is a placebo in C++, it's just there to allow C code to be compiled as C++. And it wouldn't make much sense to prohibit &var while allowing passing it by reference, or const-reference, and without pass-by-reference you've seriously broken C++. –  greggo Feb 21 at 22:23

I'm surprised that nobody mentioned that you cannot take an address of register variable, even if compiler decides to keep variable in memory rather than in register.

So using register you win nothing (anyway compiler will decide for itself where to put the variable) and lose the & operator - no reason to use it.

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There is a reason actually. The mere fact that you cannot take a address of the variable yields some optimization opportunities: the compiler can prove that the variable will not be aliased. –  Alexandre C. Feb 9 '12 at 20:14
    
@Alexandre C. Fair enough. I didn't think of this. –  qrdl Feb 10 '12 at 9:30
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Compilers are notoriously terrible at proving that aliasing doesn't occur in nontrivial cases, so register is useful for this even if the compiler doesn't put it in a register. –  Miles Rout Jun 7 '14 at 5:33
    
@AlexandreC , Miles, compilers are perfectly OK at checking whether & is taken of a variable anywhere. So regardless of other difficulties about detecting aliasing, restating that buys you nothing. When K+R first created C, it was indeed useful to know in advance that & would not be used, since that compiler actually made the register allocation decision on seeing the declaration, before looking at the following code. That is why the prohibition is in place. The 'register' keyword is essentially obsolete now. –  greggo Feb 21 at 22:31

It hasn't been relevant for at least 15 years as optimizers make better decisions about this than you can. Even when it was relevant, it made a lot more sense on a CPU architecture with a lot of registers, like SPARC or M68000 than it did on Intel with its paucity of registers, most of which are reserved by the compiler for its own purposes.

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I know this question is about C, but the same question for C++ was closed as a exact duplicate of this question. This answer therefore may not apply for C.


The latest draft of the C++11 standard, N3485, says this in 7.1.1/3:

A register specifier is a hint to the implementation that the variable so declared will be heavily used. [ note: The hint can be ignored and in most implementations it will be ignored if the address of the variable is taken. This use is deprecated ... —end note ]

In C++ (but not in C), the standard does not state that you can't take the address of a variable declared register; however, because a variable stored in a CPU register throughout its lifetime does not have a memory location associated with it, attempting to take its address would be invalid, and the compiler will ignore the register keyword to allow taking the address.

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You are messing with the compiler's sophisticated graph-coloring algorithm. This is used for register allocation. Well, mostly. It acts as a hint to the compiler -- that's true. But not ignored in its entirety since you are not allowed to take the address of a register variable (remember the compiler, now on your mercy, will try to act differently). Which in a way is telling you not to use it.

The keyword was used long, long back. When there were only so few registers that could count them all using your index finger.

But, as I said, deprecated doesn't mean you cannot use it.

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Some of the older hardware had more registers than the modern Intel machines. Register counts have nothing to do with age and everything to do with CPU architecture. –  JUST MY correct OPINION Sep 30 '10 at 8:14
    
@JUSTMYcorrectOPINION Indeed, X86 has basically six in all, leaving at most 1 or 2 for dedication to 'register'. In fact, since so much code has been written or ported to a register-poor machine, I suspect this contributed greatly to the 'register' keyword becoming a placebo - no point in hinting registers when there aren't any. Here we are 4+ years later and thankfully x86_64 has upped it to 14, and ARM is a big thing now too. –  greggo Feb 21 at 22:47

Actually, register tells the compiler that the variable does not alias with anything else in the program (not even char's).

That can be exploited by modern compilers in a variety of situations, and can help the compiler quite a bit in complex code - in simple code the compilers can figure this out on their own.

Otherwise, it serves no purpose and is not used for register allocation. It does not usually incur performance degradation to specify it, as long as your compiler is modern enough.

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"tells the compiler.." no, it doesn't. All auto variables have that property, unless you take its address and use it in ways which exceed certain analyzable uses. So, the compiler knows this from the code, regardless of whether you use the register keyword. It so happens that the 'register' keyword makes it illegal to write such a construct, but if you don't use the keyword, and dont take the address in such a way, then the compiler still knows it's safe. Such information is crucial to optimization. –  greggo Feb 21 at 22:39

Register would notify the compiler that the coder believed this variable would be written/read enough to justify its storage in one of the few registers available for variable use. Reading/writing from registers is usually faster and can require a smaller op-code set.

Nowadays, this isn't very useful, as most compilers' optimizers are better than you at determining whether a register should be used for that variable, and for how long.

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On supported C compilers it tries to optimize the code so that variable's value is held in an actual processor register.

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Microsoft's Visual C++ compiler ignores the register keyword when global register-allocation optimization (the /Oe compiler flag) is enabled.

See register Keyword on MSDN.

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Register keyword tells compiler to store the particular variable in CPU registers so that it could be accessible fast. From a programmer's point of view register keyword is used for the variables which are heavily used in a program, so that compiler can speedup the code. Although it depends on the compiler whether to keep the variable in CPU registers or main memory.

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Register indicates to compiler to optimize this code by storing that particular variable in registers then in memory. it is a request to compiler, compiler may or may not consider this request. You can use this facility in case where some of your variable are being accessed very frequently. For ex: A looping.

One more thing is that if you declare a variable as register then you can't get its address as it is not stored in memory. it gets its allocation in CPU register.

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I have read that it is used for optimizing but is not clearly defined in any standard.

In fact it is clearly defined by the C standard. Quoting the N1570 draft section 6.7.1 paragraph 6 (other versions have the same wording):

A declaration of an identifier for an object with storage-class specifier register suggests that access to the object be as fast as possible. The extent to which such suggestions are effective is implementation-defined.

The unary & operator may not be applied to an object defined with register, and register may not be used in an external declaration.

There are a few other (fairly obscure) rules that are specific to register-qualified objects:

  • Defining an array object with register has undefined behavior.
  • The _Alignas specifier (new in C11) may not be applied to such an object.
  • If the parameter name passed to the va_start macro is register-qualified, the behavior is undefined.

There may be a few others; download a draft of the standard and search for "register" if you're interested.

As the name implies, the original meaning of register was to require an object to be stored in a CPU register. But with improvements in optimizing compilers, this has become less useful. Modern versions of the C standard don't refer to CPU registers, because they no longer (need to) assume that there is such a thing (there are architectures that don't use registers). The common wisdom is that applying register to an object declaration is more likely to worsen the generated code, because it interferes with the compiler's own register allocation. There might still be a few cases where it's useful (say, if you really do know how often a variable will be accessed, and your knowledge is better than what a modern optimizing compiler can figure out).

The main tangible effect of register is that it prevents any attempt to take an object's address. This isn't particularly useful as an optimization hint, since it can be applied only to local variables, and an optimizing compiler can see for itself that such an object's address isn't taken.

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