I was checking out some code written for STM32F microcontroller and I found these keywords used before initializing a variable. I would like to know what is the significance of using this "__IO" & "static" keywords?

The line of code was given like that:

static   __IO   uint32_t   sysTickCounter; 
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    __IO is probably a macro that can be either volatile or nothing Jul 14, 2018 at 9:20
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    static, well, it means that it's restricted to this scope (file or function) but global (not automatic variable) Jul 14, 2018 at 9:20
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    of course if you include the C file (not recommended) then the variable is visible in the file you're including from Jul 14, 2018 at 9:39
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    you don't need static unless the variable is defined with the same name in some other file. Jul 14, 2018 at 9:46
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    We are not a personal tutoring service. Comments are not for extended discussion or asking/answering further questions. All your questions will be answered by a textbook. Please get one; don't try learning C from obscure online tutorials or youtube videos. Jul 14, 2018 at 12:01

1 Answer 1


__IO / volatile

__IO is not a C keyword. __IO is a macro for volatile - defined in STM32 standard peripheral library header files. E.g., in core_cm4.h (might be in a CMSIS sub-folder), you will find

#define     __IO    volatile

(If you use gcc's -E option to use only the pre-processor stage, you can see the macro's expansion.)

The volatile keyword, in turn, is often applied to a variable to prevent the compiler from 'optimizing it out'. This is useful in embedded systems - where a variable might be used within an interrupt - and compiler optimizations could cause problems.

Short example ...

int main(void) {
    int ms = 0;

    while (1);

    return 0;

Here is the generated assembly (using sdcc compiler for PIC12f629 target). As you can see, the ms variable has been 'optimized out'.

; 2 exit points
;   .line   18; "main.c"    while (1)
    GOTO    _00113_DS_
; exit point of _main

If, on the other hand, we declare the variable as volatile ...

volatile int ms = 0;
// etc.

the relevant instructions are preserved:

; 2 exit points
;   .line   16; "main.c"    volatile int ms = 0;
    CLRF    _main_ms_1_5
    CLRF    (_main_ms_1_5 + 1)
;   .line   19; "main.c"    ms++;
    INCF    _main_ms_1_5,F
    INCF    (_main_ms_1_5 + 1),F
;   .line   21; "main.c"    while (1)
    GOTO    _00113_DS_
; exit point of _main


The effect of the static keyword depends on the scope in which the variable is declared.

  • file scope - the variable's scope is limited to the current compilation unit (usually a file plus its #included header files).
  • block scope (e.g. within a function) - The variable is preserved in memory for the duration of the program. (For a function, this means that the value of the variable is preserved between subsequent calls to the function.)


  • As vlk pointed out in a comment, another important use of volatile is for accessing peripheral registers (although you would use a pointer in that case).
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    good answer, but this is not only for interrupts, but main purpose is to define variables mapped at addresses where MCU has peripheral and system registers, such as GPIO, SYSTICK, RCC, ..... because access to these registers can not be optimized.
    – vlk
    Jul 14, 2018 at 11:19
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    @naasif How checking the standard or at least a good C textbook? Jul 14, 2018 at 12:31
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    Fine, @naasif , I'll bite: port70.net/~nsz/c/c11/n1570.html And "I have no books at this time" - That's the problem. Get one. Jul 14, 2018 at 12:44
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    David. It does not prevent any optimizations. The volatile only guarantees that the variable will read from its storage location every time it is used, and stored after every change.godbolt.org/g/hgv4hD Jul 14, 2018 at 13:19
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    volatile is essential for anything that's not under full control of the compiler. The compiler does not know if/when/that an ISR using a variable is ever executed and hence might not see the relevance of accessing its current value. Memory-mapped IO is outside of compiler's control too: Writing to an IO location will have an effect on the hardware even though the compiler thinks it doesn't matter because the value is never read back. Reading an IO location may yield different results each time although the software did not write to the location. That's why volatile is needed.
    – JimmyB
    Jul 17, 2018 at 15:07

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