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Consider the following piece of code:

unsigned global;

global is modified in a function which is invoked by an IRQ. However, g++ removes the "is-not-zero" test and translates the while loop into an endless loop.

Disabling the compiler optimization solves the problem, but does C++ offer a language construct for it?

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@Styne666: the title is the question –  Necrolis Feb 29 '12 at 8:43
See also stackoverflow.com/q/7083482/594137 –  Styne666 Feb 29 '12 at 8:54
@Styne666 - it's no good practice to write code which needs a specific compiler configurstion to work. Thus, disabling the optimization is no option for production code. –  0xbadf00d Feb 29 '12 at 9:01
@Styne666: You can remove your downvote. Question was clear, although not well formulated. And disabling optimizations is not a real answer in this regard. –  phresnel Feb 29 '12 at 9:01
@Styne666: Original title contained "loop", not "loops". Don't be stubborn. What counts is how the question is now, never mind who changed it, and now your original motivation does not hold true anymore. If the OP decides to not like the tweak, he is entitled to edit it again, and the SO-rules say that if an edit happened, you can re-vote (info: you are not allowed to re-cast votes unless an edit happened). –  phresnel Feb 29 '12 at 9:21

3 Answers 3

Declare the variable as volatile:

volatile unsigned global;

This is the keyword that tells the compiler that global can be modified in different threads and all optimizations should be turned off for it.

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Maybe cange "all optimizations" to "certain optimizations", as there's still many optimizations that can be applied. E.g., in global = 5 + 6;, your statement may imply that 5 + 6 are not reduced. –  phresnel Feb 29 '12 at 8:46
Adding the volatile-qualifier doesn't change the created opcode. It still translates to an endless loop ... –  0xbadf00d Feb 29 '12 at 8:57
@luchian no the loop will not necessarily stop because that is undefined (datarace) –  Johannes Schaub - litb Feb 29 '12 at 9:06
@JohannesSchaub-litb how would you suggest he does it then? –  Luchian Grigore Feb 29 '12 at 9:08
@J.N.: Yes, it's still a data race. Nothing in the C++ standard makes the machine's word size special. C++ can certainly support CPUs that cannot do atomic writes or reads at their own word size. –  David Schwartz Feb 29 '12 at 10:42

Since you're using GCC and you say that making the variable volatile does not work, you can trick the optimizer into thinking that the loop changes the variable by lying to the compiler:

  asm volatile("" : "+g"(global));

This is an inline assembly statement which says that it modifies the variable (it's passed as an input-output operand). But it's empty, so obviously it doesn't do anything at runtime. Still, the optimizer thinks it modifies the variable - the programmers said so, and the compiler, barring operand substitution (which means simply replacing one text with another), doesn't really care about the body of inline assembly and won't do any funny things to it.

And because the body is empty and the constraint used it the most generic one available, it should work reliably on all platforms where GCC supports inline assembly.

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You could use GCC attributes on the function declaration to disable optimisation on a per function basis:

void myfunc() __attribute__((optimize(0)));

See the GCC Function Attributes page for more information.

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If the variable has to be in a specific section of memory use the section Variable Attribute to place it correctly. You may also need to mark it as volatile. –  skyhisi Mar 5 '12 at 11:14

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