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I understand that a register keyword will assign a register for computing the value and a volatile keyword will read the value from the memory every time when we perform some computation on the variable and basically not optimize the code. So, if a variable is assigned both these keywords then, would it mean that it would essentially be volatile itself? I cannot understand the behavior by writing a sample code. Can anybody shed some light?

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What platform and compiler? I don't think most general compilers (such as GCC in default configuration) will respect register. – Joe Sep 24 '12 at 15:17
The one effect that register must have is that you can't take the address of a variable declared such. – Daniel Fischer Sep 24 '12 at 15:25
@Daniel : I did not understand your point.. Cant take address of the variable as in? DO you mean to say that it can be accessed by a pointer? – knightofhorizon Sep 24 '12 at 17:53
If a variable is declared as register int some_var; (or register volatile int some_var;), having &some_var in the source code is a constraint violation and requires a diagnostic (whether the compiler aborts compilation or not is up to the compiler, but your programme is not conforming). – Daniel Fischer Sep 24 '12 at 18:00
up vote 11 down vote accepted

In C, the register storage class behaves exactly as the auto storage class, except that the implementation is required (per to issue a diagnostic if the program attempts to take or use the address of the object (, 6.7.1). The use of register as an optimisation hint to the compiler is generally pointless, as a compiler smart enough to exploit the non-stored quality of the object is certainly smart enough to track which objects could be declared register; instead, it should be understood as a code quality check that the programmer is not inadvertently destroying optimisation opportunities by taking the address of the object.

In other words, removing all instances of the register keyword from a valid program has no effect on the program's semantics; it is similar in this regard to static_assert.

The volatile type qualifier indicates that accesses to (reads from and writes to) the object are considered side effects and cannot be optimised away. For an object that does not exist in a defined location memory (i.e., one having the register storage class), this would be most useful in performance testing:

start = time();
for (multiple loops)
    register volatile int result = test_function();
stop = time();
elapsed = stop - start;
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I'm curious how's register volatile in your example differs from simply volatile? – dasblinkenlight Sep 24 '12 at 15:43
@dasblinkenlight there is no difference, because the program is valid. – ecatmur Sep 24 '12 at 15:51
A more understandable view of volatile keyword is that it tells the compiler that whenever the variable is specified, the compiler should assume that the variable may have been changed by some other process or thread or device. Compilers when optimizing may eliminate accessing a variable repeatedly by assuming that if the variable value is loaded into a register, the value in the register can be depended on as a current copy of the value until such time the compiler finds source code that modifies the variable. Volatile tells the compiler that this assumption is not valid. – Richard Chambers Sep 24 '12 at 15:52
@RichardChambers right, but that doesn't make sense for a register object, which does not have a defined location in memory. – ecatmur Sep 24 '12 at 16:03
@kspdesai yes, that's correct. – ecatmur Sep 25 '12 at 9:22

volatile means that the object may change in a way that is unpredictable to the compiler and register means that its address can't be taken.

The combination of both makes perfect sense, when the object is in fact a hardware register on the platform. Some compilers (e.g gcc) even have extensions to fix such a variable to a specific hardware register.

Some other code might change such a hardware register, and so the compiler may assume nothing about the current value. In such a case it would even make sense to add a const qualifier. E.g with gcc's extension

register uint32_t volatile const eax __asm__("eax");

you'd have a tool to inspect the eax register at any moment, but you wouldn't be able to change it by accident.

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volatile also means that all writes to the variable must actually happen. – Tor Klingberg Aug 19 '14 at 8:58
@TorKlingberg, what do you mean by a "write" to a register variable. There is no model of "storage" for such a variable, and so no model of "read" or "write". – Jens Gustedt Aug 23 '14 at 20:16

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