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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?

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You can read or download a draft of the C11 Standard (PDF version). It has an example in section –  pmg Mar 21 '12 at 12:17
There is no such thing like "generics" in C++. –  Griwes Mar 21 '12 at 12:29
@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().

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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'

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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)
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Macro magic overloading! –  rubenvb Mar 21 '12 at 12:52

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