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If we declare a variable as volatile every time the fresh value is updated
If we declare a variable as const then the value of that variable will not be changed

Then const volatile int temp;
What is the use of declaring the variable temp as above?
What happens if we declare as const int temp?

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4 Answers 4

It is not because the variable is const that it may not have changed between two sequence points.

Constness is a promise you make not to change the value, not that the value won't be changed.

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Plus one for pointing out that const data is not "constant". –  Bogdan Alexandru Jan 26 at 7:47
  • volatile will tell the compiler not to optimise code related the variable, usually when we know it can be changed from "outside", e.g. by another thread.
  • const will tell the compiler that it is forbidden for the program to modify the variable's value.
  • const volatile is a very special thing you'll probably see used exactly 0 times in your life (tm). As is to be expected, it means that the program cannot modify the variable's value, but the value can be modified from the outside, thus no optimisations will be performed on the variable.
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I'd have thought that volatile variables are usually what happens when you start messing with hardware, not with other threads. Where I've seen const volatile used is in things like memory-mapped status registers or the like. –  JUST MY correct OPINION Jan 4 '11 at 12:33
Of course, you're absolutely right, multithreading is just one example, but not the only one :). –  mingos Jan 4 '11 at 15:16
If you work with embedded systems you will see this very often. –  Daniel Grillo Oct 11 '13 at 12:04

An object marked as const volatile will not be permitted to be changed by the code (an error will be raised due to the const qualifier) - at least through that particular name/pointer.

The volatile part of the qualifier means that the compiler cannot optimize or reorder access to the object.

In an embedded system, this is typically used to access hardware registers that can be read and are updated by the hardware, but make no sense to write to (or might be an error to write to).

An example might be the status register for a serial port. Various bits will indicate if a character is waiting to be read or if the transmit register is ready to accept a new character (ie., - it's empty). Each read of this status register could result in a different value depending on what else has occurred in the serial port hardware.

It makes no sense to write to the status register (depending on the particular hardware spec), but you need to make sure that each read of the register results in an actual read of the hardware - using a cached value from a previous read won't tell you about changes in the hardware state.

A quick example:

unsigned int const volatile *status_reg; // assume these are assigned to point to the 
unsigned char const volatile *recv_reg;  //   correct hardware addresses

#define UART_CHAR_READY 0x00000001

int get_next_char()
    while ((*status_reg & UART_CHAR_READY) == 0) {
        // do nothing but spin

    return *recv_reg;

If these pointers were not marked as being volatile, a couple problems might occur:

  • the while loop test might read the status register only once, since the compiler could assume that whatever it pointed to would never change (there's nothing in the while loop test or loop itself that could change it). If you entered the function when there was no character waiting in UART hardware, you might end up in an infinite loop that never stopped even when a character was received.
  • the read of the receive register could be moved by the compiler to before the while loop - again because there's nothing in the function that indicates that *recv_reg is changed by the loop, there's no reason it can't be read before entering the loop.

The volatile qualifiers ensures that these optimizations are not performed by the compiler.

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+1 for explanation. And I have a question: what about const volatile methods? If I have a class, which is accessed by many threads (although access is synchronized with mutex) does my const methods also have to be volatile (since some variable could be changed by other thread) –  Sasa Aug 8 '12 at 23:31

I've needed to use this in an embedded application where some configuration variables are located in an area of flash memory that can be updated by a bootloader. These config variables are 'constant' during runtime, but without the volatile qualifier the compiler would optimise something like this...

cantx.id = 0x10<<24 | CANID<<12 | 0;

...by precomputing the constant value and using an immediate assembly instruction, or loading the constant from a nearby location, so that any updates to the original CANID value in the config flash area would be ignored. CANID has to be const volatile.

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