What is difference between

int x=7;


register int x=7;


I am using C++.

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    @GMan: ANSI C does not allow for taking the address of a register object; this restriction does not apply to C++ – Brian R. Bondy Jul 8 '10 at 19:09
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    @Brian: Hm, you're right. It's just in a note now (that it will probably be ignored if the address is taken), but not mandated. Good to know. (Well, sort of. :P) – GManNickG Jul 8 '10 at 19:11
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    Voting to re-open register has different semantics between C and C++. – CB Bailey Jul 8 '10 at 19:57
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    as a consequence of this, in C it's possible to forbid the array-to-pointer conversion by making an array register: register int a[1]; with that declaration, you cannot index that array. If you try, you do UB – Johannes Schaub - litb Jul 8 '10 at 20:22
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    Indeed, I voted to re-open. I voted to close prior to knowing there was a difference. – GManNickG Jul 8 '10 at 20:40

In C++ as it existed in 2010, any program which is valid that uses the keywords "auto" or "register" will be semantically identical to one with those keywords removed (unless they appear in stringized macros or other similar contexts). In that sense the keywords are useless for properly-compiling programs. On the other hand, the keywords might be useful in certain macro contexts to ensure that improper usage of a macro will cause a compile-time error rather than producing bogus code.

In C++11 and later versions of the language, the auto keyword was re-purposed to act as a pseudo-type for objects which are initialized, which a compiler will automatically replace with the type of the initializing expression. Thus, in C++03, the declaration: auto int i=(unsigned char)5; was equivalent to int i=5; when used within a block context, and auto i=(unsigned char)5; was a constraint violation. In C++11, auto int i=(unsigned char)5; became a constraint violation while auto i=(unsigned char)5; became equivalent to auto unsigned char i=5;.

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    An example of the last bit may be useful. – Dennis Zickefoose Jul 8 '10 at 23:31
  • A good article about register is here but use google translator from Czech to English, it is worthy: amapro.cz/public/programovani/c/register/register.php – John Boe Nov 30 '13 at 10:57
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    This answer is no longer correct, since 2011, the keyword auto cannot be simply omitted... Perhaps you could update your answer. – Walter Sep 17 '14 at 14:55
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    @Walter: Can you cite what has changed? I haven't followed all the language changes. – supercat Sep 17 '14 at 15:16
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    According to en.cppreference.com/w/cpp/language/auto, post C++11, auto is now used for automatic type deduction But before then, it was used to specify that you wanted your variable to be stored "automatically" (therefore on the stack I guess) as opposed to the keyword register (meaning "processor's register"): – Guillaume May 6 '15 at 22:38

register is a hint to the compiler, advising it to store that variable in a processor register instead of memory (for example, instead of the stack).

The compiler may or may not follow that hint.

According to Herb Sutter in "Keywords That Aren't (or, Comments by Another Name)":

A register specifier has the same semantics as an auto specifier...

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    Since C++17, it is deprecated, unused and reserved, however. – ZachB Nov 14 '18 at 17:28

According to Herb Sutter, register is "exactly as meaningful as whitespace" and has no effect on the semantics of a C++ program.


With today's compilers, probably nothing. Is was orginally a hint to place a variable in a register for faster access, but most compilers today ignore that hint and decide for themselves.


Almost certainly nothing.

register is a hint to the compiler that you plan on using x a lot, and that you think it should be placed in a register.

However, compilers are now far better at determining what values should be placed in registers than the average (or even expert) programmer is, so compilers just ignore the keyword, and do what they wants.


The register keyword was useful for:

  • Inline assembly.
  • Expert C/C++ programming.
  • Cacheable variables declaration.

An example of a productive system, where the register keyword was required:

typedef unsigned long long Out;
volatile Out out,tmp;
Out register rax asm("rax");
asm volatile("rdtsc":"=A"(rax));

It has been deprecated on C++17

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    And I would add that the 'register' keyword would only be useful on a microcontroller running a single C++ program with no threads and no multi tasking. The C++ program would have to own the whole CPU to make sure that the 'register' variable won't be moved from the special CPU registers. – Santiago Villafuerte Mar 14 '16 at 19:51
  • @SantiagoVillafuerte do you want to add it editing the answer? – ncomputers Mar 14 '16 at 21:10
  • I am not that sure of my answer...although it sounds plausible. I'd prefer to leave it as a comment so that others approve it or disapprove it. – Santiago Villafuerte Mar 16 '16 at 1:30
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    @SantiagoVillafuerte This isn't actually true, in multitasking systems when context switching the OS - not the application - is responsible for saving/restoring registers. Since you're not context switching after every CPU instruction, putting things in registers is absolutely meaningful. The other answers here (that compilers simply don't care about your opinion when it comes to register allocation) are more accurate. – Cubic Apr 16 '18 at 14:49

register is deprecated until C++17, it is unused and reserved.

Source: http://en.cppreference.com/w/cpp/keyword/register


Consider a case when compiler's optimizer has two variables and is forced to spill one onto stack. It so happened that both variables have the same weight to the compiler. Given there is no difference, the compiler will arbitrarily spill one of the variables. On the other hand, the register keyword gives compiler a hint which variable will be accessed more frequently. It is similar to x86 prefetch instruction, but for compiler optimizer.

Obviously register hints are similar to user-provided branch probability hints, and can be inferred from these probability hints. If compiler knows that some branch is taken often, it will keep branch related variables in registers. So I suggest caring more about branch hints, and forgetting about register. Ideally your profiler should communicate somehow with the compiler and spare you from even thinking about such nuances.

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