Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I heard C11 added generics. I've googled a bit, looked at some articles, understood there's a new keyword ( _Generic ) and all. But I can't seem to grasp it all.

Is it something like the generics in C# or templates in C++? Can anyone give me a brief explanation of the C11 definition of generics, its syntax and a simple sample usage example?

share|improve this question
2  
You can read or download a draft of the C11 Standard (PDF version). It has an example in section 6.5.1.1. –  pmg Mar 21 '12 at 12:17
    
There is no such thing like "generics" in C++. –  Griwes Mar 21 '12 at 12:29
1  
@Griwes here you go. any more nitpicking? –  ApprenticeHacker Mar 21 '12 at 12:31

3 Answers 3

up vote 14 down vote accepted

This is a pretty good introduction. Here's the Overview:

Generic selection is implemented with a new keyword: _Generic. The syntax is similar to a simple switch statement for types:_Generic( 'a', char: 1, int: 2, long: 3, default: 0) evaluates to 2 (character constants are ints in C).

Basically it works like a kind of switch, where the labels are type names which are tested against the type of the first expression (the 'a' above). The result becomes the result of evaluating the _Generic().

share|improve this answer
    
Just realized I linked to the same page as you had.. No wonder, though.. It’s really the only good spot for any info on this stuff, oddly... –  alex gray Jun 25 '13 at 6:23

The best example I have seen gives the following example, which unlocks all sorts of freaky possibilities...

/* Get the name of a type */
#define typename(x) _Generic((x),                                                 \
        _Bool: "_Bool",                  unsigned char: "unsigned char",          \
         char: "char",                     signed char: "signed char",            \
    short int: "short int",         unsigned short int: "unsigned short int",     \
          int: "int",                     unsigned int: "unsigned int",           \
     long int: "long int",           unsigned long int: "unsigned long int",      \
long long int: "long long int", unsigned long long int: "unsigned long long int", \
        float: "float",                         double: "double",                 \
  long double: "long double",                   char *: "pointer to char",        \
       void *: "pointer to void",                int *: "pointer to int",         \
      default: "other")

void test_typename(void) {  size_t s; ptrdiff_t p; intmax_t i; int ai[3] = {0};
   printf("size_t is '%s'\n",             typename(s));
   printf("ptrdiff_t is '%s'\n",          typename(p));
   printf("intmax_t is '%s'\n",           typename(i));
   printf("character constant is '%s'\n", typename('0'));
   printf("0x7FFFFFFF is '%s'\n”,         typename(0x7FFFFFFF));
   printf("0xFFFFFFFF is '%s'\n",         typename(0xFFFFFFFF));
   printf("0x7FFFFFFFU is '%s'\n",        typename(0x7FFFFFFFU));
   printf("array of int is '%s'\n",       typename(ai));
}

size_t is 'unsigned long int’

ptrdiff_t is 'long int’

intmax_t is 'long int’

character constant is 'int’

0x7FFFFFFF is 'int’

0xFFFFFFFF is 'unsigned int’

0x7FFFFFFFU is 'unsigned int’

array of int is ‘other'

share|improve this answer

Judging from the example given on the Wikipedia, it can be used to get something similar to C++'s overloading:

the following macro cbrt(x) translates to cbrtl(x), cbrt(x) or cbrtf(x) depending on the type of x:

#define cbrt(X) _Generic((X), long double: cbrtl, \
                              default: cbrt, \
                              float: cbrtf)(X)
share|improve this answer
    
Macro magic overloading! –  rubenvb Mar 21 '12 at 12:52

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.