typedef struct {
    int hour;
    int min;
    int sec;
} counter_t;

And in the code, I'd like to initialize instances of this struct without explicitly initializing each member variable. That is, I'd like to do something like:

counter_t counter;
counter = {10,30,47}; //doesn't work

for 10:30:47

rather than

counter.hour = 10;
counter.min = 30;
counter.sec = 47;

Don't recall syntax for this, and didn't immediately find a way to do this from Googling.


  • 1
    Yeah looks like it works if I do the declaration in the same line like so counter_t counter = {10,30,47} but not if the declaration has been done before this assignment.
    – mindthief
    Jan 23 '11 at 23:52
  • 5
    @Oli: Why should that work? As written that's an assignment, not an initialization.
    – sth
    Jan 23 '11 at 23:53
  • 2
    @sth: It seems the question has been modified... Jan 23 '11 at 23:54
  • As alluded in Steve's answer, what you have is assignment rather than initialization (as you said in the title). C blurs these lines much more than C++ does, but as Oli also points out, initialization (in both C and C++) already works as you expect.
    – Fred Nurk
    Jan 24 '11 at 0:47
  • 3
    @Oli @sth: yes I was wondering if you might have seen it before the modification. For a very brief period (about a minute) I had the working version of the statement up, i.e. counter_t counter = {10,30,47};. I changed it when I realized that it actually worked :). In any case, what I really wanted was to declare it separately from the assignment. @Fred Nurk: good call, I'll change the title to say "assign". Thanks!
    – mindthief
    Jan 24 '11 at 1:13


counter_t c = {10, 30, 47};


c = (counter_t){10, 30, 48};

The latter is called a "compound literal".

  • 8
    Note that this requires either GCC or C99, not a strict C89 or C++ compiler. Jan 23 '11 at 23:48
  • 13
    @Jeremiah: good point, I didn't notice the C++ tag. As for C89, if people go around saying "C" when they mean "C89", they're on their own as far as I'm concerned ;-) Jan 23 '11 at 23:50
  • 2
    @RBerteig: no doubt. I'm not saying nobody should use C89, I'm saying that if they can't use C99 then they shouldn't just say that what they're using is "C", without further warning. Jan 24 '11 at 0:08
  • 1
    @RBerteig: well, consider me weary of the common belief that C89 and C99 are the same language. It's the C89 serfs who should have to add the extra qualifications ;-) I say this as someone who was writing C89-only code myself as recently as 2008. Jan 24 '11 at 0:16
  • 1
    @Fred: is it that easy, though? For example if the platform doesn't provide at least alloca, then your C99 compiler has to dynamically allocate VLAs, which is trouble. Once you're not playing nicely with the target's stack, setjmp might be entertaining to implement. You could say, "well do a C89 backend for the compiler, let that handle everything". I wonder whether an efficient backend in C89 for, say, GCC, is possible. If not efficient then for embedded work it's probably dead in the water, "no C99 in the vendor's compiler" is just one of several tight limitations such devices have... Jan 24 '11 at 0:22

For the sake of maintainability I prefer the list syntax WITH explicitly identified variables, as follows:

counter_t counter = {.hour = 10, .min = 30, .sec = 47};

or for returning inline for example:

return (struct counter_t){.hour = 10, .min = 30, .sec = 47};

I can imagine a scenario where one changes the order in which the variables are declared, and if you don't explicitly identify your variables you would have to go through all the code to fix the order of variables. This way it is cleaner and more readable I think


As @AshleyDuncan and @M.M put, this feature was removed from ISO C++ after C99 https://stackoverflow.com/a/12122261/2770195 , but is supported in gnu c++.

So while you can do this just fine:

g++ -std=gnu++11 main.cpp -o main

This will throw an error if you try the example above:

# need an example. I was unable to find. Even clang++ supports it. If you know 
# one, please suggest an edit

If you need to compile with a C++ compiler with support for ISO C++11 or later that does not recognize this gnu extension, you may have to use a class with a simple constructor:

// backup workaround
// not cool
class gnuFTW {
    int hour;
    int min;
    int sec;
    gnuFTW(int hour, int min, int sec) {
        this->hour = hour;
        this->min = min;
        this->sec = sec;

int main(int argc, const char * argv[]) {
    gnuFTW counter = gnuFTW(10,30,47);
    cout << counter.hour << endl;
    return 0;
  • 2
    I like this too but not so good if you wish to also compile with a c++ compiler as is a C99 only feature that is not supported by c++. stackoverflow.com/questions/12122234/… Dec 5 '17 at 20:27
  • Didn't know that. It's a shame though, it is such a useful feature. The best approach I think in this case is Don Doerner's solution: stackoverflow.com/a/14206226/2770195 . Simply put: Use classes with variables and a single initializer. Doesn't seem like a good practice, but does exactly what structs do. Going to update the answer with clarification, thanks for reminding Dec 5 '17 at 21:29
  • I am confused, I just compiled an example with -gnu++11 option: 1drv.ms/i/s!ArNqKg0GFwIE0HVGDPPHvpEgaGrh . Am I missing something? Dec 5 '17 at 21:47
  • @AshleyDuncan any ideas? Dec 7 '17 at 13:52
  • @MuhsinFatih gnu++11 means to use GNU extensions
    – M.M
    Dec 9 '17 at 1:31

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